Provided is a valve device that prevents foreign matter from intruding into a gap formed between a valve body and a housing that accommodates the valve body. A valve device 1 according to the present invention comprises: a housing 11 in which an inflow port 11a and an outflow port 11b for a cooling liquid, and an internal space 11c communicating with the inflow port 11a and the outflow port 11b are formed; a valve body 12 that is accommodated in the internal space 11c, rotates around a rotation axis, and switches a communication state between the inflow port 11a and the outflow port 11b by rotation; and a shaft 13 positioned on the rotation axis. Moreover, the valve body 12 includes an inner cylinder 12a, an outer cylinder 12b disposed on the outer periphery of the inner cylinder 12a, and a wall-like connection end part 12c connecting an axial one end of the inner cylinder 12a and an axial one end of the outer cylinder 12b, and has a valve hole 12e formed in the outer cylinder 12b. Furthermore, the valve body 12 is provided with an annular flange part 12g projecting toward an inner wall of the housing 11, at an end part of an outer wall of the outer cylinder 12b at which the connection end part 12c is provided.
F16K 11/076 - Soupapes ou clapets à voies multiples, p. ex. clapets mélangeursRaccords de tuyauteries comportant de tels clapets ou soupapesAménagement d'obturateurs et de voies d'écoulement spécialement conçu pour mélanger les fluides dont toutes les faces d'obturation se déplacent comme un tout comportant uniquement des tiroirs à éléments de fermeture articulés à pivot à faces d'obturation épousant la surface d'un solide de révolution
F16K 51/00 - Autres détails non particuliers aux types de soupapes ou clapets ou autres appareils d'obturation
Provided is a valve device capable of preventing leakage of coolant. A valve device 1 according to the present invention comprises: a housing 11 in which a coolant inlet 11a, a coolant outlet 11b, and an internal space 11c are formed; a valve body 12 that is accommodated in the internal space 11c and rotates around a rotation axis; a shaft 13 positioned on the rotation axis; a seal member 15 that is attached to the inlet 11a or the outlet 11b and is in sliding contact with the outer periphery of the valve body 12; and a drive device that rotationally drives the valve body 12. The valve body 12 includes an inner cylinder 12a, an outer cylinder 12b disposed on the outer periphery of the inner cylinder 12a, and a connection end part 12c connecting the inner cylinder 12a and the outer cylinder 12b. Moreover, a valve hole 12e capable of providing communication between a valve body space 12d and the inflow port 11a or the outflow port 11b is formed in the outer cylinder 12b, and a rib 12g having a height not reaching the outer periphery of the inner cylinder 12a is formed on the inner periphery of the outer cylinder 12b.
F16K 5/00 - Robinets à boisseau consistant seulement en un dispositif obturateur dont au moins une des faces d'obturation a la forme d'une surface de solide de révolution plus ou moins complète, le mouvement d'ouverture et de fermeture étant essentiellement rotatif
A piping device 10 according to the present invention comprises three or more flow passage forming parts 1-3, a bolt 9, a shaft seal 5 between the flow passage forming parts 1, 2, and a surface seal 6 between the flow passage forming parts 2, 3. The flow passage forming part 1 has an annular protrusion 7, and the flow passage forming part 2 has an annular recess 8. The flow passage forming parts 2 and 3 are respectively provided with opposing surfaces 15, 16 facing each other in a direction along the axial direction of the bolt 9. The flow passage forming parts 1 and 2 are provided with an insertion hole 11 through which the bolt 9 is inserted and positioned. The flow passage forming part 3 is positioned with respect to the flow passage forming part 1 by using the bolt 9.
F16L 23/036 - Raccords à brides les brides étant raccordées par des organes tendus axialement caractérisés par les moyens de mise en tension, p. ex. colliers de serrage en forme de C ou boulons spécialement adaptés
F16B 37/00 - Écrous ou pièces similaires avec entrées de filetage
A thermostat 1 comprises an opening/closing valve 20, a body 30, first piping 41, second piping 42, third piping 43, and fourth piping 44. A valve body 23 releasably closes the first piping 41. The body 30 comprises a flow inlet 31, an accommodation space 32, an outlet passage 33, and a partitioning wall 34. The partitioning wall 34 comprises a recessed section 34a that is recessed from the accommodation space 32 toward the outlet passage 33, the section of the recessed section 34a that is furthest to the outlet passage 33 side has a first surface 34b that is perpendicular to an attachment surface 36, and the first surface 34b is continuous with the edge of the flow inlet 31.
F16K 31/70 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés mécaniquement, p. ex. par un ruban bimétallique
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
This piping device includes a piping component 2 having an inner cylinder 3, a housing 1 having an outer cylinder 4 externally fitted to the inner cylinder 3, a seal chamber 13, a seal member (O-ring 6) for creating a seal between the inner cylinder 3 and the outer cylinder, and a backup ring 5 press-fitted to the outer peripheral surface of the inner cylinder 3. A step part 9, which faces the backup ring 5, is formed at a boundary between a seal wall part 8 and a press-fitting part 10 of the inner cylinder 3 into which the backup ring 5 is press-fitted.
F16L 21/02 - Raccords avec manchon ou douille avec segments d'étanchéité élastiques entre le tuyau et le manchon ou entre le tuyau et la douille, p. ex. avec des segments roulants ou autres segments profilés préfabriqués
F02M 55/02 - Conduits entre pompes d'injection et injecteurs
F16J 15/06 - Joints d'étanchéité entre surfaces immobiles entre elles avec garniture solide comprimée entre les surfaces à joindre
An electric valve 100 according to the present invention comprises: a first valve element 83 formed in a cylindrical shape and having a valve opening part 85 and a first center axis X5; a second valve element 84 formed in a cylindrical shape and having a valve opening part 86 and a second center axis X6; and a first engagement part 81 disposed coaxially with the first center axis X5 and in a state of being unable to rotate relative to the first valve element 83, wherein the first valve element 83 and the second valve element 84 are disposed coaxially with the first center axis X5 and the second center axis X6, the second valve element 84 has a second engagement part 91 formed in a shape with which the first engagement part 81 can engage, and the first valve element 83 and the second valve element 84 can be coupled at a plurality of angles relative to the angle of rotation with the first center axis X5 and the second center axis X6 serving as centers of rotation.
F16K 31/04 - Moyens de fonctionnementDispositifs de retour à la position de repos électriquesMoyens de fonctionnementDispositifs de retour à la position de repos magnétiques utilisant un moteur
F16K 5/06 - Robinets à boisseau consistant seulement en un dispositif obturateur dont au moins une des faces d'obturation a la forme d'une surface de solide de révolution plus ou moins complète, le mouvement d'ouverture et de fermeture étant essentiellement rotatif dont les boisseaux sont à surface sphériqueLeurs garnitures d'étanchéité
F16K 11/06 - Soupapes ou clapets à voies multiples, p. ex. clapets mélangeursRaccords de tuyauteries comportant de tels clapets ou soupapesAménagement d'obturateurs et de voies d'écoulement spécialement conçu pour mélanger les fluides dont toutes les faces d'obturation se déplacent comme un tout comportant uniquement des tiroirs
Provided is a thermostat device which easily allows dimensional tolerances of components, which is easy to assemble, install, and replace, and in which a thermostat and a differential pressure valve are integrated. A thermostat device 1 includes a thermostat 10 for opening/closing a main passage, a differential pressure valve 20 for opening/closing a bypass passage, and a connection unit 26 that connects the thermostat 10 and the differential pressure valve 20. The connection unit 26 includes a holder 27 fixed to an inner periphery of the second valve seat member 21 of the differential pressure valve 20, a flange 27b protruding outward from the holder 27, an engagement part 19a provided in the frame 19 of the thermostat 10 and hooked by the flange 27b, and a holder-biasing member 18 that biases the holder 27 in a direction in which the hooking of the flange 27b to the engagement part 19a is maintained.
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
Provided is a thermostat device that facilitates attachment to a cover member or a housing that forms a flow passage for cooling water. A thermostat device 1 according to the present invention is incorporated in a cooling circuit of an automobile by sandwiching a flange 24 between a housing and a cover member that forms a flow passage for cooling water. The thermostat device includes an annular seal member 30 attached to an outer peripheral edge part including an outer peripheral edge 24b of the flange 24 and a peripheral portion of the outer peripheral edge. The seal member 30 has a fitting groove formed on the inner peripheral surface, and an outward projection 30b provided on the outer peripheral surface. Furthermore, in the present invention, a gap 34 is formed as a clearance for storing a part of the seal member 30, which is elastically deformed by pressing when the thermostat device 1 is incorporated in the cooling circuit.
This electric valve 100 includes: an attachment part 111 to which a rotation sensor 101 having a sensor body 103 and a lead wire 102 is attached; and an input/output wiring part 130, at least a part of which is disposed on the attachment part 111 and to which the lead wire 102 is connected. The wiring part 130 has a clamping part 131 for clamping the lead wire 102.
F16K 31/04 - Moyens de fonctionnementDispositifs de retour à la position de repos électriquesMoyens de fonctionnementDispositifs de retour à la position de repos magnétiques utilisant un moteur
The present invention pertains to a motor-operated valve having a rotary valve body, and reduces pressure loss when a cooling liquid passes through the valve body. A valve body 12 includes: a hollow valve part 12b; a rotary shaft holding part 12c which is positioned at the center of the valve part and through which a rotary shaft is inserted; and a film part 30 positioned inside the valve part. The valve part is disposed with one end facing an opening 11a, has an outer wall capable of closing a communication port 11b, a valve hole capable of communicating with the communication port, and a valve opening formed at the one end of the valve part and communicating with the opening. When the opening side of the valve hole is the lower side and the opposite side is the upper side, the film part is formed in a fan shape in a plan view, an upper end is connected to an inner wall of the valve part so as to be along an upper edge of the valve hole, and a lower end is connected to a part which is an outer periphery of the rotary shaft holding part and faces the valve hole.
F16K 11/087 - Soupapes ou clapets à voies multiples, p. ex. clapets mélangeursRaccords de tuyauteries comportant de tels clapets ou soupapesAménagement d'obturateurs et de voies d'écoulement spécialement conçu pour mélanger les fluides dont toutes les faces d'obturation se déplacent comme un tout comportant uniquement des robinets à boisseau à noix sphérique
F16K 5/04 - Robinets à boisseau consistant seulement en un dispositif obturateur dont au moins une des faces d'obturation a la forme d'une surface de solide de révolution plus ou moins complète, le mouvement d'ouverture et de fermeture étant essentiellement rotatif dont les boisseaux sont à surface cylindriqueLeurs garnitures d'étanchéité
F16K 11/085 - Soupapes ou clapets à voies multiples, p. ex. clapets mélangeursRaccords de tuyauteries comportant de tels clapets ou soupapesAménagement d'obturateurs et de voies d'écoulement spécialement conçu pour mélanger les fluides dont toutes les faces d'obturation se déplacent comme un tout comportant uniquement des robinets à boisseau à noix cylindrique
Provided is an electric valve wherein a cooling liquid is prevented from rapidly flowing out to an outflow port when a valve body rotates and the cooling liquid outflow port and a valve hole communicate with each other, the microflow rate of the cooling liquid is controlled, and clogging by foreign matter is minimized. The electric valve includes a housing 11 that has an opening at one end and a communication port 11b in a peripheral surface, a valve body 12 that is rotatably inserted into the housing and that opens and closes the communication port, a cylindrical seal member 14 that is attached to the communication port and that slides on the peripheral surface of the valve body, and a drive device that rotatably drives the valve body. The valve body has a cylindrical valve main body 12b, and formed in the valve body are an outer wall that can close off the communication port, a valve hole that can communicate with the communication port, and a valve opening that is formed at one end of the valve body and that communicates with the opening. In the cylindrical seal member, one end part of the seal member in which an opening is formed slides against a peripheral surface of the valve body, and a groove part 14c connected to the opening is formed in the one end part of the seal member.
F16K 11/087 - Soupapes ou clapets à voies multiples, p. ex. clapets mélangeursRaccords de tuyauteries comportant de tels clapets ou soupapesAménagement d'obturateurs et de voies d'écoulement spécialement conçu pour mélanger les fluides dont toutes les faces d'obturation se déplacent comme un tout comportant uniquement des robinets à boisseau à noix sphérique
12.
CIRCULATING CIRCUIT MEMBER, AND MANUFACTURING METHOD FOR CIRCULATING CIRCUIT MEMBER
A circulating circuit member 1 forms a part of a circulating circuit through which a fluid flows. The circulating circuit member 1 includes a pipe 4; a to-be attached member that has a sleeve portion 3 made of synthetic resin to which the pipe 4 is rotationally connected; and a pin 6 that is inserted from the sleeve portion 3 to the pipe 4, in which a pin insertion hole 5 of the sleeve portion 3 through which the pin 6 is inserted is formed by a mold that is pulled out from an inside of the sleeve portion 3.
Provided is an electric valve comprising a rotary-type valve body, with which foreign matter in a cooling solution can be prevented from obstructing rotation of the valve body even when foreign matter infiltrating between an outer wall of the valve body and a housing inner wall, and any increase in size can be minimized. The present invention comprises a housing 11 having an opening at one end and a communication port on the outer periphery, a valve body 12 that is rotatably inserted into the housing and that opens/closes the communication port, a seal member 14 attached to the communication port and brought into sliding contact with the outer periphery of the valve body, and a drive device that rotationally drives the valve body. The valve body has a cylindrical valve part. Formed in the valve part are an outer wall capable of closing off the communication port, a valve hole of communicating with the communication port, a valve opening that is formed at one end of the valve part and that communicates with the opening, and a foreign matter recovery part 12h. The foreign matter recovery part is a groove or a hole formed in a non-seal area which is at the outer periphery of the valve part and on which the seal member does not slide.
F16K 11/087 - Soupapes ou clapets à voies multiples, p. ex. clapets mélangeursRaccords de tuyauteries comportant de tels clapets ou soupapesAménagement d'obturateurs et de voies d'écoulement spécialement conçu pour mélanger les fluides dont toutes les faces d'obturation se déplacent comme un tout comportant uniquement des robinets à boisseau à noix sphérique
Provided is a thermostat device capable of improving the flow of cooling water and temperature sensing performance. A thermostat device 1 according to the present invention includes: a thermo-operation unit 2 for controlling the flow of cooling water being supplied to an engine through a first passage which passes through a radiator; and a relief mechanism unit 3 for controlling the flow of the cooling water being supplied to the engine through a second passage which does not pass through the radiator. The thermo-operation unit 2 has a thermo-element 6 having a built-in thermal expansion body which expands and contracts in response to the temperature of the cooling water. The thermostat device 1 includes a mounting plate 5 for providing a gap of a fixed interval between the thermo-element 6 and the relief mechanism unit 3. The thermo-operation unit 2 and the relief mechanism unit 3 have separate structures, respectively, and are integrated when mounted by using the mounting plate 5.
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
Provided is a water outlet with which it is possible to improve the temperature detection accuracy in a cooling liquid outlet of an internal combustion engine. A first flow passage F1 in which a cooling liquid flows from the inside of a rectification wall 15 toward a first outlet 11, and a second flow passage F2 in which the cooling liquid flows from the inside of the rectification wall to turn back at a lengthwise end of the rectification wall and pass along the outside of the rectification wall toward a second outlet 12 are formed in a flow passage formation chamber 10, and a temperature-sensitive part 7a of a temperature sensor 7 is placed in a region in which the first flow passage and the second flow passage overlap with one another.
To prevent a gasket fitted into a groove of a housing of a thermostat device from coming off and the leakage of coolant. A cover member detachably attached to a thermostat device includes a housing that has a body having an opening at one end and a groove surrounding the opening and a pair of legs standing inside the groove from one end of the body, and a gasket to be fitted into the groove. The cover member has a dish-shaped portion that has an insertion hole through which the pair of legs is inserted and covers the gasket, and a cylindrical portion erecting from the opening edge of the insertion hole and into which the pair of legs are press-fitted inside, and a corrugated section is formed in the portion of the cylindrical portion opposite to the legs.
Provided is a valve device capable of reducing pressure loss. A valve device 1 according to the present invention comprises: a housing 11 in which an inflow port 11a and outflow ports 11b for a cooling liquid are formed; a cylindrical valve body 12 that is housed in the housing 11 and that switches the communication state between the inflow port 11a and the outflow ports 11b by rotating inside the housing 11; and a frame 17 that is mounted to the inflow port 11a and that serves as a passage for supplying the cooling liquid to an internal space of the valve body 12. The frame 17 has at least one straightening unit that guides the cooling liquid in a desired direction by bending the inflow direction of the cooling liquid with respect to the rotation shaft of the valve body 12.
The thermostat device has a housing, a valve body provided around the periphery of a thermo-element inserted inside the housing, and a frame that supports one end of a coil spring that biases the valve body, wherein the housing has a hollow body having an opening at one end, a pair of legs rising from the opening edge of the body, and a hooking portion protruding inwardly at the tip of the legs; the hooking portion has an engaged portion located in the center of the width direction of the legs and an auxiliary portion connected to the engaged portion and located at both ends of the width direction of the legs, wherein an end face of the root side of the legs in the engaged portion is located farther from the tip of the legs than an end face of the leg-root side in the auxiliary portion.
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F01P 7/14 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide
G05D 23/02 - Commande de la température sans source d'énergie auxiliaire avec un élément sensible se dilatant et se contractant en réponse aux variations de température
A temperature adjustment device is capable of suppressing sleeve enlargement and preventing the rattling thereof with a synthetic resin housing. Flanges are formed on the temperature adjustment member. The sleeve has a groove along the circumferential direction on its outer periphery and a lateral hole opening at one end to the groove and penetrating through the wall thickness of the sleeve. A clip member has an outer fitting portion, elastically deformable and fittable to the groove and has an inward convex portion holding the flange from the distal-end side of the sleeve, by being inserted in the lateral hole. The groove wall has a groove-depth wall at the deepest portion opposite to the groove opening and a distal-proximal-end-side curved portion of the groove-depth wall connected to the distal-proximal-end side of the sleeve. The radius of curvature of the distal-end-side curved portion is larger than that of the proximal-end-side curved portion.
G05D 23/02 - Commande de la température sans source d'énergie auxiliaire avec un élément sensible se dilatant et se contractant en réponse aux variations de température
F01P 7/14 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
20.
Thermostat device and method for manufacturing thermostat device
In a fuel cell cooling device, sliding damage to a piston and the deterioration of sealing performance are prevented despite using a simple structure in which a portion sliding with the piston is made of a brass bushing and a simple and inexpensive method of setting the assembly of the brass bushing to a press-fitted state by light press-fitting and ball burnishing. Provided is a stainless steel cylindrical guide slidably retaining a stainless steel piston, advancing and retracting according to the expansion and contraction of the thermal expansion body, provided at the open end of a bottomed cylindrical case containing a thermal expansion body. A brass bushing is fitted into the inner circumferential portion of the cylindrical guide by light press-fitting and subjected to precision finishing on the inner circumferential surface, for example, by ball burnishing, to be expanded radially by the pressure from the inside and press-fitted.
The present invention suppresses an increase in size of a sleeve, and reduces occurrence of rattling of a temperature adjustment member even if a housing is made of a synthetic resin. This temperature adjustment device comprises: a housing 1 having a cylindrical sleeve 20e; a temperature control member 40 having a heating part, or a temperature sensing part, that is inserted into the housing from the sleeve; a clip member 45 that prevents the temperature control member from coming off from the sleeve; and a first biasing member 5. An outwardly extending flange part 40b1 is formed on an outer periphery of the temperature control member. The sleeve has a groove formed on an outer periphery thereof along a circumferential direction, and a horizontal hole that is formed through the thickness of the sleeve, and has one end opening to the groove. The clip member has an external fitting part that is elastically deformable and fits in the groove, and an inner protruding part that extends from both ends of the external fitting part in mutually facing directions, and is inserted into the horizontal hole to press the flange part from a tip side of the sleeve. The first biasing member biases the temperature control member in a direction of exiting from the sleeve.
F16K 31/64 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température
F16B 21/18 - Dispositifs sans filetage pour empêcher le mouvement relatif selon l'axe d'une broche, d'un ergot, d'un arbre ou d'une pièce analogue par rapport à l'organe qui l'entoureFixations à ergots et douilles largables sans filetage à parties séparées par gorges ou encoches pratiquées dans l'axe ou l'arbre et avec bague annulaire formant ressort insérée dans la gorge (circlip) ou autre dispositif élastique de fixation du même genreDispositifs sans filetage pour empêcher le mouvement relatif selon l'axe d'une broche, d'un ergot, d'un arbre ou d'une pièce analogue par rapport à l'organe qui l'entoureFixations à ergots et douilles largables sans filetage à parties séparées par gorges ou encoches pratiquées dans l'axe ou l'arbre Détails
F16K 49/00 - Moyens portés par ou sur les soupapes pour chauffer ou refroidir
A thermostat device is provided that smoothens the flow of the coolant to keep the pressure loss small and can sufficiently secure the flow rate of the coolant from the radiator side to the engine side. A housing having a first inlet for introducing a coolant cooled by a radiator and a coolant outlet supplied to the internal combustion engine, a thermo-element accommodated in the housing that moves axially depending on the temperature of the coolant, a control valve that controls the amount of coolant introduced from the first inlet as the thermoelement moves in the axial direction, and a slope having an upward slope from the outlet side to the valve seat side inside the exit-side conduit extending from the valve seat in the housing, wherein the control valve is in contact with in the valve-closed state, toward the flow outlet of the coolant, are provided.
The thermostat device includes a housing including a first flow inlet that receives a coolant from a radiator, a second flow inlet that receives a coolant through a bypass passage, and a flow outlet of coolant in which each coolant is mixed; a thermo-element that is accommodated in the housing and moves in an axial direction depending on a temperature of the coolant from the second flow inlet; a control valve that controls amount of the coolant introduced from the first flow inlet as the thermo-element moves; a valve seat that is formed at a tip portion of an annular protrusion formed to protrude in a moving axis direction of the thermo-element in the housing and with which the control valve is in contact in a valve-closed state; and an annular groove formed by an annular gap provided outside of the valve seat and continuous in a circumferential direction.
A thermostat device ensures a coolant amount from a bypass passage sufficiently and excellent temperature sensitivity to the coolant temperature. The thermo-operating unit is provided with a control valve for controlling an introduced coolant amount from a first flow inlet via a radiator, corresponding to the temperature of the coolant from a second flow inlet via a bypass passage. Within the housing are provided multiple guides, which are formed extending from the second flow inlet side toward a thermo-element, are arranged intermittently around the thermo-element, and support the thermo-element slidably movable in an axial direction and coolant rectifying protrusions arranged spaced apart from the thermo-element between the guides, wherein a detoured passage for the coolant, directed from the second flow inlet side toward an outflow port, is formed by forming gaps between the guides and the coolant rectifying protrusions.
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F16K 31/02 - Moyens de fonctionnementDispositifs de retour à la position de repos électriquesMoyens de fonctionnementDispositifs de retour à la position de repos magnétiques
25.
Thermostat device and method for manufacturing thermostat device
Provided are a thermostat device and a method for manufacturing the same, capable of minimizing an increase in size of the thermostat device, and where a seal member is easily assembled and cost can be minimized. This thermostat device includes a housing, attached to a mounting hole of a counterpart member, that has a flow path for a coolant formed therein, a seal member that creates a liquid-tight seal between the counterpart member and the housing, a thermo-element that expands and contracts in accordance with the coolant temperature, a valve body that opens and closes the flow path due to the expansion and contraction of the thermo-element, and a coil spring that biases the valve body in a closing direction, the housing having formed therein a deformed annular groove into which the seal member fits, and the seal member having a perfectly circular shape in a natural length state.
F16K 31/00 - Moyens de fonctionnementDispositifs de retour à la position de repos
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
G05D 23/13 - Commande de la température sans source d'énergie auxiliaire en faisant varier le rapport du mélange de deux fluides ayant des températures différentes
The thermostat device includes a housing having a valve seat formed thereinside, a thermo-element having one end inserted inside the housing, a valve body seated on or separated from the valve seat by the extension/contraction of the thermo-element, a coil spring biasing the valve body toward the valve seat, and a frame supporting one end of the coil spring. The housing has a hollow body part opening at one end, paired legs erecting from the opening edge of the body part, on whose leading ends the frame is hooked, and ribs provided at the opening edge and contiguous to each root side of the legs. The outer surface of each leg is arc-shaped, and the outer surface of each rib is curved or inclined to extend from the outer surface of the corresponding leg toward the inner side of a circle connecting the outer surfaces of the pair of legs.
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F16K 31/00 - Moyens de fonctionnementDispositifs de retour à la position de repos
F01P 7/14 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide
G05D 23/02 - Commande de la température sans source d'énergie auxiliaire avec un élément sensible se dilatant et se contractant en réponse aux variations de température
Provided is a thermostat device in which the direction of a radiator-side pipe can be easily changed and which can suppress cost. A housing includes a first housing member having a radiator-side pipe and a second housing member that is rotation-fastened to the first housing member by a bayonet structure. The bayonet structure has a plurality of claw parts that are formed side by side in a circumferential direction on one of the first and second housing members and a plurality of locking parts that are formed on the other of the first housing member and the second housing member and with which the claw parts engage. The radiator-side pipe, when seen from one side of a rotational axis X during the fastening of the first and second housing member, is inclined with respect to the rotational axis X.
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F01P 7/14 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide
G05D 23/02 - Commande de la température sans source d'énergie auxiliaire avec un élément sensible se dilatant et se contractant en réponse aux variations de température
28.
HEATER MEMBER FOR THERMOSTAT AND MANUFACTURING METHOD THEREFOR
Provided are a heater member for a thermostat and a manufacturing method therefor which enables the formation of a short lead wire and insert-molding of a connector together with a heater while preventing the heater from being damaged during manufacturing. The heater member includes a bar-like heater arranged in a piston provided for a thermostat device; a lead wire pulled out from the heater; a terminal pin connected to one end of the lead wire; and a connector portion having a back end surface of the heater, the lead wire, and the terminal pin arranged inside thereof. The back end surface of the heater is arranged in a hollow portion formed in the connector portion without being in contact with resin forming the connector portion.
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F16K 31/02 - Moyens de fonctionnementDispositifs de retour à la position de repos électriquesMoyens de fonctionnementDispositifs de retour à la position de repos magnétiques
29.
Thermostat device and method for manufacturing same
This thermostat device is provided with a housing, a thermo element that moves in an axial direction in accordance with the temperature of a coolant, a valve body that is caused by the movement of the thermo element to move toward and away from a valve seat provided to the inner side of the housing and open and close a communication section between a first flow-through port and a second flow-through port, and a biasing member that biases the valve body toward the valve seat. The housing is provided with a main body section, a first housing member having the first flow-through port and the second flow-through port, and a second housing member that has the third flow-through port and that is fastened to the first housing member by rotating in a circumferential direction in relation to the first housing member.
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
G05D 23/13 - Commande de la température sans source d'énergie auxiliaire en faisant varier le rapport du mélange de deux fluides ayant des températures différentes
Provided is a thermos-valve connecting body with which attachment work is simplified by integrating a plurality of thermos-valves. The thermos-valve includes: a housing; a thermos-element that includes a temperature-sensing unit that senses the temperature of a coolant, that opens and closes one flow path in accordance with the temperature of the coolant, and that is housed inside the housing; and a connecting part formed on the housing and attached to another thermos-valve. The thermos-valve connecting body enables one thermos-valve to be attached to a connecting part of the other thermos-valve by the connecting part formed on the housing, and the one thermos-valve and the other thermos-valve to be formed integrally.
F16K 1/44 - Détails du siège ou du corps de soupape pour les soupapes à double siège
F16K 1/48 - Fixation des corps de soupapes aux tiges des soupapes
F16K 3/26 - Robinets-vannes ou tiroirs, c.-à-d. dispositifs obturateurs dont l'élément de fermeture glisse le long d'un siège pour l'ouverture ou la fermeture à faces d'obturation en forme de surfaces de solides de révolution avec corps de tiroir cylindrique le passage du fluide se faisant par le corps du tiroir
F16K 17/04 - Soupapes ou clapets de sûretéSoupapes ou clapets d'équilibrage ouvrant sur excès de pression d'un côtéSoupapes ou clapets de sûretéSoupapes ou clapets d'équilibrage fermant sur insuffisance de pression d'un côté actionnés par ressort
Provided are a cooling system and a method for controlling the same, with which it is possible to bleed air in a coolant flow path, quickly raise a coolant temperature to quickly heat air during air-heating, and quickly lower the coolant temperature to minimize knocking early when knocking occurs. A cooling system 1 comprises a main passage L1 through which a coolant is circulated between an internal combustion engine 2 and a radiator 3, an auxiliary passage 12 through which the coolant is circulated between the internal combustion engine and heat exchangers 4, 5, 6, a thermostat 7 that opens and closes the main passage L1 in response to the coolant temperature, a thermostat bypass path L3 that bypasses the thermostat 7 to allow communication between the internal combustion engine and the radiator, and a motor-operated valve 8 that opens and closes the auxiliary passage and the thermostat bypass path.
F16K 17/38 - Soupapes ou clapets de sûretéSoupapes ou clapets d'équilibrage fonctionnant sous l'action de circonstances extérieures, p. ex. un choc, un changement de position d'une température excessive
F16K 17/04 - Soupapes ou clapets de sûretéSoupapes ou clapets d'équilibrage ouvrant sur excès de pression d'un côtéSoupapes ou clapets de sûretéSoupapes ou clapets d'équilibrage fermant sur insuffisance de pression d'un côté actionnés par ressort
F16K 27/02 - Structures des logementsMatériaux utilisés à cet effet des soupapes de levage
F28F 27/02 - Commandes ou dispositifs de sécurité spécialement adaptés pour les appareils d'échange ou de transfert de chaleur pour commander la répartition des sources de potentiel calorifique entre des canaux différents
Provided is a water outlet that guides a coolant so as to be distributed to various devices, wherein a reduction in the sealing properties of a sealing member, which seals the space between a pipe and a connection port of the water outlet to which the pipe is connected, is prevented. Specifically provided is a water outlet 100 that is provided to a coolant outlet of an internal combustion engine 20 and that has connected thereto a pipe 32 for guiding a coolant out from the internal combustion engine, the water outlet comprising a plate-shaped body 1 which is fixed to the internal combustion engine, a cylindrical connection port 3 which is provided so as to stand up from the body toward the outside and which is inserted inside of the pipe, and a projection 9 which is provided so as to stand up from the body toward the outside at the outer peripheral side of the connection port, wherein an annular sealing member 11 is provided between the connection port and the pipe and at least part of the pipe in the circumferential direction is positioned between the projection and the connection port.
A circulating circuit member 1 constitutes a part of a circulating circuit through which a fluid flows. The circulating circuit member 1 includes a pipe 4, a mounted member including a sleeve section 3 made of a synthetic resin and to which the pipe 4 is rotationally connected, and a pin 6 inserted through the pipe 4 from the sleeve section 3. A pin insertion hole 5 through which the pin 6 of the sleeve section 3 is inserted is formed using a mold extracted from inside the sleeve section 3.
B29C 33/42 - Moules ou noyauxLeurs détails ou accessoires caractérisés par la forme de la surface de moulage, p. ex. par des nervures ou des rainures
F16L 25/08 - Structure ou détails de raccords de tuyaux non prévus dans les groupes ou présentant in intérêt autre que celui visé par ces groupes comprenant des moyens de verrouillage radiaux sous forme d'écrous, de clous ou analogues
F16L 37/14 - Raccords par insertion d'un élément entre surfaces à unir, p. ex. par un bout de fil, une goupille, une chaîne
b unseats from and seats on is formed, and a sleeve 4B formed protruding outward from the valve case main body 4A; a sub-flow path R2 formed to include a cooling water storage chamber S formed inside the sleeve 4B, a lead-out passage 4Ae communicating the upstream side of the valve seat 4Aa in the valve case main body 4A with the cooling water storage chamber S, and a lead-in passage 4Af communicating the downstream side of the valve seat 4Aa in the valve case main body 4A with the cooling water storage chamber S; and a sub-valve 3 attached to a sleeve 4B to open and close a sub-flow path R2.
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F01P 7/14 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide
F16K 11/24 - Soupapes ou clapets à voies multiples, p. ex. clapets mélangeursRaccords de tuyauteries comportant de tels clapets ou soupapesAménagement d'obturateurs et de voies d'écoulement spécialement conçu pour mélanger les fluides dont plusieurs éléments de fermeture ne se déplacent pas comme un tout actionnés par des organes de commande distincts à soupape électromagnétique, p. ex. pour machines à laver
F16K 27/02 - Structures des logementsMatériaux utilisés à cet effet des soupapes de levage
F16K 31/00 - Moyens de fonctionnementDispositifs de retour à la position de repos
F16K 31/06 - Moyens de fonctionnementDispositifs de retour à la position de repos électriquesMoyens de fonctionnementDispositifs de retour à la position de repos magnétiques utilisant un aimant
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F01P 7/14 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide
F16K 1/44 - Détails du siège ou du corps de soupape pour les soupapes à double siège
F16K 31/06 - Moyens de fonctionnementDispositifs de retour à la position de repos électriquesMoyens de fonctionnementDispositifs de retour à la position de repos magnétiques utilisant un aimant
G05D 23/19 - Commande de la température caractérisée par l'utilisation de moyens électriques
38.
PRESSURE REDUCING VALVE AND MANUFACTURING METHOD THEREFOR
Provided are: a pressure reducing valve that is made of a synthetic resin and that can be easily dimensionally managed; and a manufacturing method therefor. A pressure reducing valve 1 according to the present invention comprises: a housing 2 having an inlet 2a and an outlet 2b and allowing a fluid flowing in through the inlet 2a to pass through the inside and flow out through the outlet 2b; a valve body 3 movably housed in the housing 2; a valve seat 4 installed in the housing 2; and a biasing member 5 that biases the valve body 3 in a direction away from the valve seat 4. The pressure reducing valve is configured such that an increase in pressure of the fluid at the outlet causes the valve body 3 to abut against the valve seat 4 countering a biasing force of the biasing member 5, thereby enabling cutting-off of flowing of the fluid in the housing 2. The housing 2 is provided with a housing body 21 and a cap 22, and the cap 22 is welded to a synthetic resin member (valve seat frame body 41).
F16K 17/30 - Soupapes ou clapets limiteurs de débit fonctionnant par différence de pression entre deux points de l'écoulement et agissant directement sur l'élément d'obturation dans un sens uniquement sous l'action d'un ressort
A water faucet according to the present disclosure comprises: a hot water mixing valve for mixing hot water and cold water; a switching valve that changes the discharged amount of hot water mixed by the hot water mixing valve; and a main pipe in which the hot water mixing valve and a switching valve are aligned in the axial direction and attached inside, and there are formed a hot water inlet communicating with the hot water mixing valve, a cold water inlet communicating with the switching valve, and between the hot water inlet and the cold water inlet, a spout communicating with switching valve. Formed in the outer peripheral surface of the switching valve is a first area including an outlet communicating with the spout, and a second area that is isolated from the first area and that extends through the cold water inlet along the flow of cold water toward the hot water mixing valve.
E03C 1/044 - Installations pour cuvettes spécialement adaptées aux lavabos ou baignoires ayant un appareil de chauffage ou de réfrigération dans le circuit d'alimentation
F16K 11/052 - Soupapes ou clapets à voies multiples, p. ex. clapets mélangeursRaccords de tuyauteries comportant de tels clapets ou soupapesAménagement d'obturateurs et de voies d'écoulement spécialement conçu pour mélanger les fluides dont toutes les faces d'obturation se déplacent comme un tout comportant uniquement des soupapes ou des clapets à éléments de fermeture articulés à pivot, p. ex. soupapes ou clapets du type papillon
A water faucet of one aspect of the present disclosure comprises: a hot water mixing valve for mixing hot water and cold water; a switching valve that changes the discharged amount of hot water mixed by the hot water mixing valve; and a main pipe in which the hot water mixing valve and a switching valve are aligned in the axial direction and attached inside, and there are formed a hot water inlet communicating with the hot water mixing valve, a cold water inlet communicating with the switching valve, and between the hot water inlet and the cold water inlet, a shower spout and Kallan spout communicating with switching valve. Formed in the outer peripheral surface of the switching valve is a shower outlet communicating with the shower spout and a Kallan outlet communicating with the Kallan spout. The shower outlet is provided closer to the hot water mixing valve in the axial direction than the Kallan outlet.
E03C 1/044 - Installations pour cuvettes spécialement adaptées aux lavabos ou baignoires ayant un appareil de chauffage ou de réfrigération dans le circuit d'alimentation
F16K 11/052 - Soupapes ou clapets à voies multiples, p. ex. clapets mélangeursRaccords de tuyauteries comportant de tels clapets ou soupapesAménagement d'obturateurs et de voies d'écoulement spécialement conçu pour mélanger les fluides dont toutes les faces d'obturation se déplacent comme un tout comportant uniquement des soupapes ou des clapets à éléments de fermeture articulés à pivot, p. ex. soupapes ou clapets du type papillon
41.
COVER MEMBER AND THERMOSTAT DEVICE EQUIPPED WITH COVER MEMBER
The purpose of the present invention is to prevent a gasket fitted into a groove in a housing of a thermostat device from falling off and to prevent leakage of coolant. The present invention provides a cover member 1 detachably attached to a thermostat device 10 provided with: a housing 2 having a body section which has an opening at one end and in which a groove is formed so as to surround the opening, and a pair of leg sections standing upright opposite each other from one end of the body section inside the groove; and a gasket 25 that fits into the groove, wherein the cover member is provided with a dish-shaped section 11 that has an insertion hole through which the pair of leg sections are inserted and that covers the gasket 25, and a cylindrical section which stands upright from an opening edge of the insertion hole and into which the pair of leg sections are press-fitted, and wherein a bellows section 13 is formed in a portion of the cylindrical section that faces the leg sections.
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
F16J 15/10 - Joints d'étanchéité entre surfaces immobiles entre elles avec garniture solide comprimée entre les surfaces à joindre par garniture non métallique
Provided is a temperature adjustment device with which it is possible to suppress an increase in sleeve size even if a housing is made from a synthetic resin, and suppress the rattling of a temperature adjustment member. A temperature adjustment member 40 has a flange portion 40b1 formed thereon. A sleeve 20e has formed therein: a groove 20f that extends along the outer circumference in the circumferential direction; and a lateral hole 20g that has one end thereof opening to the groove and penetrates the thickness of the sleeve. A clip member 45 has: an external fitting portion that is elastically deformable and fits into the groove; and inner-side protruding portions that extend facing each other from both ends of the external fitting part, are inserted into the lateral hole, and press the flange portion from the tip side of the sleeve. Wall surfaces of the groove include: a groove back wall that is positioned in the deepest section of the groove on the side opposite from the groove opening; a tip-side curved portion that is continuous from the groove back wall on the sleeve tip side thereof; and a base-side curved portion that is continuous from the groove back wall on the sleeve base side thereof. The radius of curvature of the tip-side curved portion is greater than the radius of curvature of the base-side curved portion.
In a fuel cell cooling device, sliding damage to a piston and the deterioration of sealing performance are prevented despite using a simple structure in which a portion sliding with the piston is made of a brass bush and a simple and inexpensive method of setting the assembly of the brass bush to a press-fitted state by light press-fitting and ball burnishing. Provided is a stainless steel cylindrical guide member (32) slidably holding a stainless steel piston (11a) provided at the open end of a bottomed cylindrical case (31) containing a thermal expansion body and moving forward and backward according to the expansion and contraction of the thermal expansion body. A brass bush (33) is fitted into the inner peripheral portion of the cylindrical guide member (32) by light press-fitting and subjected to precise finishing on the inner peripheral surface, for example, by ball burnishing, to be expanded radially by the pressure from the inside and press-fitted.
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
H01M 8/04 - Dispositions auxiliaires, p. ex. pour la commande de la pression ou pour la circulation des fluides
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
Provided is a thermostat device with which it is possible to achieve smooth flow of a coolant so as to minimize pressure loss and to ensure an adequate flow rate of the coolant flowing from the radiator side toward the engine side. The thermostat device comprises: a housing 3 provided with a first inlet through which coolant cooled by a radiator is introduced and an outlet 4c through which the coolant is supplied to an internal combustion engine; a thermo-element 2a which is housed within the housing 3 and which is moved in an axial direction, depending on the temperature of the coolant; and a control valve 2c which, in conjunction with the axial movement of the thermo-element 2a, controls the amount of the coolant to be introduced through the first inlet. In an exit-side pipe line 3c extending from a valve seat 5c, which is inside the housing 3 and with which the control valve comes into contact in a valve-closed state, toward the outlet 4c of the coolant, a slope 4i rising from the outlet 4c side toward the valve seat 5c side, is provided.
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
Provided is a thermostat device with which temperature sensitivity and responsiveness can be improved, and which resolves the problem of instability of operation of a control valve, and the problem of hunting. The thermostat device is provided with: a housing (3) including a first inflow port (5a) for accepting cooling liquid from a radiator, a second inflow port (4b) for accepting cooling liquid that has passed through a bypass passage, and an outflow port (4c) for cooling liquid obtained by mixing the cooling liquids; a thermoelement (2a) which is accommodated in the housing (3), and which moves in an axial direction in accordance with the temperature of the cooling liquid from the second inflow port (4b); a control valve (2c) which controls an introduction quantity of the cooling liquid from the first inflow port in conjunction with the movement of the thermoelement (2a); a valve seat (5c) which is formed in a tip end portion of an annular projecting portion (5d) formed projecting in a movement axis direction of the thermoelement (2a) in the housing (3), and against which the control valve (2c) abuts when the valve is closed; and an annular groove (3d) configured by means of an annular gap which is continuous in a circumferential direction, and which is applied to the outside of the valve seat (5c).
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
Provided is a thermostat device with which a flow rate of a cooling liquid from a bypass passage can be adequately ensured, and which has excellent temperature sensitivity corresponding to the temperature of the cooling liquid from an engine. A thermo-operating unit 2 is provided with a control valve 2c for controlling an introduction quantity of cooling liquid from a first inflow port 5a via a radiator, in accordance with the temperature of the cooling liquid from a second inflow port 4b via a bypass passage. Within the housing 3 are provided a plurality of guide bodies 4g which are formed extending from the second inflow port 4b side toward a thermoelement 2a, are arranged intermittently around the thermoelement 2a, and which support the thermoelement 2a in such a way as to be capable of moving in an axial direction, and cooling liquid rectifying claws 4h arranged spaced apart from the thermoelement 2a between the guide bodies 4g, wherein a detour passage 4i for the cooling liquid, directed from the second inflow port 4b side toward an outflow port 4c, is formed by forming gap portions between the guide bodies 4g and the cooling liquid rectifying claws 4h.
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
47.
TUBING FOR VEHICLE COOLING CIRCUIT AND COOLING CIRCUIT USING SAME
This tubing 2 for a vehicle cooling circuit is for use in a cooling circuit 1 in which a cooling medium 3 circulates in a vehicle. The tubing 2 for a vehicle cooling circuit comprises a cylindrical outer edge section 20 and a partition section 21 for dividing the interior of the outer edge section 20 into a plurality of flow paths 23, 25. The partition section 21 is preferably provided with partition hollow sections 21a. The outer edge section 20 is preferably provided with outer edge hollow sections 20a.
Provided is a thermostat device that can minimize the spread of legs of a housing and that can inhibit deterioration in mountability. This thermostat device is provided with: a housing 1 having a valve seat formed thereinside; a thermoelement 17 having one end inserted inside the housing 1; a valve body 15 that is seated on or separated from the valve seat by the extension/contraction motion of the thermoelement 17; a coil spring 16 that biases the valve body 15 toward the valve seat; and a frame 19 that supports one end of the coil spring 16. The housing 1 has a hollow body part 20 which has an opening 20c at one end thereof and which has the valve seat formed thereinside; a pair of legs 21, 21 which stand from the opening edge of the body part 20 and which have the frame 19 hooked on the leading ends thereof; and ribs 22 which are provided at the opening edge and which are contiguous to respective two sides of roots of the legs 21. The outer surface of each of the legs 21 is formed in an arc-shape, and the outer surface of each of the ribs 22 is curved or inclined so as to extend from the outer surface of the corresponding leg 21 toward the inner side of a circle which connects the outer surfaces of the pair of legs 21, 21.
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
Provided is a thermostat device from which a frame can be prevented from falling out by suppressing opening of legs of a housing. This thermostat device is provided with a housing 1, a valve body 15 provided on an outer periphery of a thermoelement 17 which is inserted inside the housing 1, and a frame 19 supporting one end of a coil spring 16 that urges the valve body 15, wherein: the housing 1 includes a hollow main body portion 20 having an opening at one end, a pair of legs 21, 21, which stand upright from the opening edge of the main body portion 20, and hook portions 21a which are formed projecting inward from distal end portions of the legs 21, and on which the frame 19 catches; each hook portion 21a includes an engaged portion positioned in the center in the width direction of the leg 21, and auxiliary portions which are continuous with the engaged portion and which are positioned at both ends in the width direction of the leg 21; an end surface c of the engaged portion on the leg 21 root side thereof is positioned farther from a distal end of the leg 21 than end surfaces a, b of the auxiliary portions on the leg 21 root side thereof; and the frame 19 abuts the end surface c of the engaged portion.
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
50.
THERMOSTAT DEVICE AND METHOD FOR MANUFACTURING THERMOSTAT DEVICE
Provided are a thermostat device and a method for manufacturing the same, with which it is possible to minimize any increase in size of the thermostat device, and in which a seal member is easily assembled and cost can be minimized. This thermostat device comprises a housing (1) that is attached in an attachment hole of a mating member and that has a flow path for a coolant formed therein, a seal member (25) that creates a liquid-tight seal between the mating member and the housing (1), a thermo element (17) that expands and contracts in accordance with the temperature of the coolant, a valve body (15) that opens and closes the flow path due to the expansion and contraction of the thermo element (17), and a coil spring (16) that urges the valve body (15) in a closing direction, the housing (1) having formed therein an irregular annular groove (24) into which the seal member (25) fits, and the seal member (25) having a perfectly circular shape in a state of having a natural length.
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
Provided is a thermostat device in which the direction of a radiator-side pipe can be easily changed and which can suppress cost. A housing 2 comprises a first housing member 3 having a radiator-side pipe 3b, and a second housing member 4 that is rotationally fastened to the first housing member 3 by a bayonet structure. The bayonet structure has a plurality of claw parts 3g that are formed side by side in a circumferential direction on one of the first housing member 3 and the second housing member 4, and a plurality of locking parts 4m that are formed on the other of the first housing member 3 and the second housing member 4 and with which the claw parts 3g engage. The radiator-side pipe 3b, when seen from one side of a rotational axis X during fastening of the first housing member 3 and the second housing member 4, is inclined with respect to the rotational axis X.
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F16K 27/00 - Structures des logementsMatériaux utilisés à cet effet
F16K 27/02 - Structures des logementsMatériaux utilisés à cet effet des soupapes de levage
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
Provided is a thermostat device capable of reducing flow resistance due to a thermal-operating unit and a frame support and also reducing the pressure loss in the flow passage. The thermostat device is provided with a control valve which opens and closes a flow passage in a housing based on expansion or contraction of a thermal expansion body in a thermo-sensitive element and a spring that biases the control valve to close and a spring receiving frame that receives one end of the spring. A thermal-operating unit is incorporated into the housing by locking the spring receiving frame to the frame supports formed in the flow passage of the housing. At the upstream side of the coolant flow at the frame support, a rectifier is disposed that prevents water streams from colliding by detouring the flow passage of the coolant heading to the frame support and the spring receiving frame.
Provided is a thermo valve connecting body with which attachment work is simplified by integrating a plurality of thermo valves. A thermo valve (1 (1A, 1B)) comprises: a housing (3); a thermo element (4) that includes a temperature-sensing unit (4a) that senses the temperature of a coolant, that opens and closes one flow path in accordance with the temperature of the coolant, and that is housed inside the housing (3); and a connecting part formed on the housing (3) and attached to another thermo valve (1B). A thermo valve connecting body (10) enables the one thermo valve (1A) to be attached to a connecting part of the other thermo valve (1B) by the connecting part formed on the housing (3), and the one thermo valve (1A) and the other thermo valve (1B) to be formed integrally.
F16K 27/00 - Structures des logementsMatériaux utilisés à cet effet
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
54.
THERMOSTAT DEVICE AND METHOD FOR MANUFACTURING SAME
Provided are a thermostat device with which housing members constituting a housing can be easily assembled and cost incurred by manufacturing can be reduced, and a method for manufacturing the thermostat device. This thermostat device is provided with a housing 1, a thermo element 17 that moves in an axial direction in accordance with the temperature of a coolant, a valve body 15 that is caused by the movement of the thermo element to move toward and away from a valve seat 20b provided to the inner side of the housing and open and close a communication section between a first flow-through port 21 and a second flow-through port 7, and biasing member 16 that biases the valve body toward the valve seat. The housing is provided with a main body section 20, a first housing member 2 having the first flow-through port and the second flow-through port, and a second housing member 3 that has the third flow-through port 22 and that is fastened to the first housing member by rotating in a circumferential direction in relation to the first housing member.
F16K 27/00 - Structures des logementsMatériaux utilisés à cet effet
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
55.
PRESSURE-REDUCING VALVE AND METHOD FOR MANUFACTURING SAME
This pressure-reducing valve 1 comprises a cylindrical valve body 3 movably accommodated in a housing 2, a valve seat 4 fixed in the housing 2, and an urging member 5 for urging the valve body 3 away from the valve seat 4. The valve seat 4 is provided with an annular elastic member (O-ring 42) capable of coming into contact with the valve body 3, an annular part (inner ring part 41b) covering the outer periphery of the elastic member, an inner circumference part 43b positioned on in the inner circumference of the elastic member, a linking part (closing plate part 43a) linking the annular part and the inner circumference part 43b, and a detachment prevention part that is provided on the valve-body side of the inner circumference part 43b and/or the annular part and that stops the elastic member from detaching from the annular part.
Provided are a heater member for a thermostat and a manufacturing method therefor which enables formation of a short lead wire and insert-molding of a connector together with a heater while preventing the heater from being damaged during manufacturing. The present invention comprises: a bar-like heater 5 arranged in a piston provided for a thermostat device; a lead 9 wire pulled out from the heater; a terminal pin 8 connected to one end of the lead wire; and a connector portion 6 having a back end surface of the heater, the lead wire, and the terminal pin arranged inside thereof. The back end surface of the heater is arranged in a hollow portion 6c formed in the connector portion without being in contact with a resin forming the connector portion.
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
A relief valve 1 according to the present invention is connected to a supply-side connection pipe 4a and a discharge-side connection pipe 5a, and comprises: a housing 6 having an inlet 61c and an outlet 62c; a valve seat (opening rim 61a) provided in the housing 6; a main valve body 7 disposed in the housing 6 and capable of blocking the communication between the inlet 61c and the outlet 62c in the housing 6 by being seated on the valve seat (opening rim 61a); and a biasing member 8 biasing the main valve body 7 toward the valve seat (opening rim 61a). The inlet 61c is provided in the housing 6 so as to be decentered in the extending direction of a supply pipe 4 with respect to the central axis line of the main valve body 7.
F16K 17/04 - Soupapes ou clapets de sûretéSoupapes ou clapets d'équilibrage ouvrant sur excès de pression d'un côtéSoupapes ou clapets de sûretéSoupapes ou clapets d'équilibrage fermant sur insuffisance de pression d'un côté actionnés par ressort
Provided are a cooling system and a method for controlling the same, with which it is possible to withdraw air in a coolant flow path, quickly raise a coolant temperature to quickly heat air during air-heating, and quickly lower the coolant temperature to minimize knocking early when knocking occurs. A cooling system 1 comprises a main passage L1 (L1a–L1c) through which a coolant is circulated between an internal combustion engine 2 and a radiator 3, an auxiliary passage L2 (L2a–L2c) through which the coolant is circulated between the internal combustion engine and heat exchangers 4, 5, 6, a thermostat 7 that opens and closes the main passage L1 in accordance with the temperature of the coolant, a thermostat bypass path L3 (L3a, L3b) that bypasses the thermostat to allow communication between the internal combustion engine and the radiator, and an electric valve 8 that opens and closes the auxiliary passage and the thermostat bypass path.
09 - Appareils et instruments scientifiques et électriques
11 - Appareils de contrôle de l'environnement
12 - Véhicules; appareils de locomotion par terre, par air ou par eau; parties de véhicules
19 - Matériaux de construction non métalliques
Produits et services
Metal exterior blinds; manually operated constant flow metal valves; metal hinges for opening and closing doors in connection with temperature sensors; metal ventilating ducts Oil flow control valves and air flow control valves being parts for use in car engines and vehicle engines; hot water cut-off valves being parts of carburetors; throttle bodies for vehicle engines; internal combustion engine parts, namely, automatic choke devices, carburetor heaters, idle speed control valves and cooling water temperature controlling switches for automobiles; exhaust gas circulation devices, namely, exhaust gas recirculation valves being parts of machines Thermostats; temperature switches; temperature sensors; actuators being parts of thermostats using wax sensitive to temperature; remote-control thermostats; bimetal electrical switches comprising two metals, each having a particular heat conductivity; electric valve actuators; electric proportional control valves for regulating the flow of gases and liquids; thermal pressure relief valves for use in boilers, hot water pipes or water supply systems; automatic valves for temperature exchange; electronic control units for controlling the flow of hot water to floor heating devices; electronic control units for regulating temperature in automatic mixing valves; electric mixing valve actuators; electric water flow switches; electrical control units for regulating intake air temperature Ventilators for use in buildings to improve ventilation indoors; heating dampers, namely, control devices used in air ducts to regulate the flow of air; automatic nonfreezing faucets; plumbing fittings, namely, freeze prevention valves; water-hammer arrestors; heating panels for indoor heating purposes; automatic mixing valves for plumbing installations; manually operated metal valves, namely, mixing valves for plumbing installations and thermal valves for plumbing and heating installations; atmosphere opening valves, namely, venting valves for hot water supply systems; pressure switches, namely, pressure regulating switches for plumbing installations; heat regulation valves, namely, heat regulation valves being parts of plumbing installations; cold temperature actuated drain valves for plumbing, heating and cooling installations; pressure reducing valves for use in water supply systems Exhaust brakes for vehicles; electric cars and structural parts thereof; throttle bodies, namely, handle bar throttles being parts of motorcycles Non-metal vent covers for HVAC ducts for use in buildings to improve ventilation indoors; non-metal ventilating ducts
[Problem] To provide a valve unit that can be downsized. [Solution] A valve unit (1) is provided with: a valve case (4) having a valve case body part (4A) in which a thermo valve (2) is accommodated and a valve seat (4Aa) where a valve body (2b) is separated and seated is formed and a sleeve (4B) formed projecting outward from the valve case body part (4A); an auxiliary flow path (R2) formed by a cooling water accommodation chamber (S) formed inside the sleeve (4B), a lead-out path (4Ae) that establishes communication between an upstream side of the valve seat (4Aa) inside the valve case body part (4A) and the cooling water accommodation chamber (S), and an introduction path (4Af) that establishes communication between a downstream side of the valve seat (4Aa) inside the valve case body part (4A) and the cooling water accommodation chamber (S); and a sub-valve (3) that is attached to the sleeve (4B) and opens/closes an auxiliary flow path (R3).
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F16K 31/66 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés électriquement ou magnétiquement, p. ex. au moyen d'aimants avec des caractéristiques magnétiques variables
F16K 1/44 - Détails du siège ou du corps de soupape pour les soupapes à double siège
Provided is a hot and cold water mixing faucet with which it is possible to easily form a suitable seal structure. A hot and cold water mixing faucet (1) comprises: a cylinder body (2); a hot water supply port (21); a cold water supply port (22); a mixing part (3); a first discharge port (23); a second discharge port (24); and a switching valve (4). The switching valve (4) includes a switching outer cylinder (41) and a switching inner cylinder (42). A guide path (41c) for guiding water guided from the cold water supply port (22) to the mixing part (3) is provided between the cylinder body (2) and the switching outer cylinder (41). The switching outer cylinder (41) includes a first communication hole (41a) and a second communication hole (41b), and the switching inner cylinder (42) includes a first selection hole (42a) and a second selection hole (42b). The inner peripheral surface of the cylinder body (2) and the outer peripheral surface of the switching outer cylinder (41) are configured to be inclined such that a first annular seal (51) and a second annular seal (52) provided between the cylinder body (2) and the switching outer cylinder (41) are disposed at an angle so as to gradually approach the center axial line of the cylinder body (2) in the direction in which the switching valve (4) is inserted into the cylinder body (2).
F16K 11/076 - Soupapes ou clapets à voies multiples, p. ex. clapets mélangeursRaccords de tuyauteries comportant de tels clapets ou soupapesAménagement d'obturateurs et de voies d'écoulement spécialement conçu pour mélanger les fluides dont toutes les faces d'obturation se déplacent comme un tout comportant uniquement des tiroirs à éléments de fermeture articulés à pivot à faces d'obturation épousant la surface d'un solide de révolution
[Problem] To provide a cooling water temperature control device with which cooling water wastage can be reduced, the heat of cooling water, which has conventionally been wasted, can be effectively utilized, and the temperature at which a thermovalve is opened can be adjusted easily. [Solution] This cooling water temperature control device is provided with a thermovalve (2) which opens a main flow passage (R1) if the temperature of a sensed portion (R1a) of the main flow passage (R1) is equal to or greater than a predetermined operating temperature, a sub-valve (3) which opens and closes an auxiliary flow passage (R2) bypassing the thermovalve (2), and a control unit (6) which opens the sub-valve (3) if the temperature of cooling water upstream of the thermovalve (2) is an arbitrarily defined temperature, wherein one end on the upstream side of the auxiliary flow passage (R2) is connected to the sensed portion (R1a) of the main flow passage (R1), or downstream thereof, and the operating temperature of the thermovalve (2) is set to be equal to or less than the arbitrarily defined temperature.
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F16K 31/66 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés électriquement ou magnétiquement, p. ex. au moyen d'aimants avec des caractéristiques magnétiques variables
F16K 1/44 - Détails du siège ou du corps de soupape pour les soupapes à double siège
09 - Appareils et instruments scientifiques et électriques
11 - Appareils de contrôle de l'environnement
12 - Véhicules; appareils de locomotion par terre, par air ou par eau; parties de véhicules
19 - Matériaux de construction non métalliques
Produits et services
(Based on 44(e)) Metal exterior blinds; manually operated constant flow metal valves; metal hinges for opening and closing doors in connection with temperature sensors; metal ventilating ducts; metal vent covers for HVAC ducts (Based on 44(e)) Oil flow control valves and air flow control valves being parts for use in car engines and vehicle engines; hot water cut-off valves being parts of carburetors; throttle bodies for vehicle engines; internal combustion engine parts, namely, automatic choke devices, carburetor heaters, idle speed control valves and cooling water temperature controlling switches for automobiles; exhaust gas recirculation valves being parts of machines (Based on 44(e)) Temperature indication labels using a heat-sensitive color coupler not for medical use; thermosensitive temperature indicator sheets; temperature indicators; thermostats; temperature switches; temperature sensors; actuators being parts of thermostats using wax sensitive to temperature; pressure sensors; remote-control thermostats; bimetal electrical switches comprising two metals, each having a particular heat conductivity; cooling devices, namely, heat sinks for use in electronic components for central processing units (CPUs), for telecommunication devices and apparatus; electric valve actuators; electric proportional control valves for regulating the flow of gases and liquids; thermal pressure relief valves for use in boilers, hot water pipes or water supply systems; automatic valves for temperature exchange; electronic control units for regulating temperature in automatic mixing valves; electronic control units for controlling the flow of hot water to floor heating devices; electric mixing valve actuators; electric water flow switches; electrical control units for regulating intake air temperature (Based on 44(e)) Ventilators for use in buildings to improve ventilation indoors; automatic nonfreezing faucets; plumbing fittings, namely, freeze prevention valves; water-hammer arrestors for faucets; heating panels for indoor heating purposes; automatic mixing valves for plumbing installations; manually operated metal valves, namely, mixing valves for plumbing installations and thermal valves for plumbing and heating installations; atmosphere opening valves, namely, venting valves for hot water supply systems; pressure switches, namely, pressure regulating switches for plumbing installations; heat regulation valves, namely, heat regulation valves being parts of plumbing installations; cold temperature actuated drain valves for plumbing, heating and cooling installations; pressure reducing valves for use in water supply systems (Based on 44(e)) Exhaust brake devices for land vehicles; electric cars and structural parts thereof; throttle bodies, namely, handle bar throttles being parts of motorcycles (Based on 44(e)) Non-metal vent covers for HVAC ducts for use in buildings to improve ventilation indoors; non-metal vent covers for HVAC ducts; non-metal ventilating ducts
Provided is a thermostat device capable of reducing pressure loss in a flow passage by reducing water flow resistance that is applied by a thermo-operation unit or a frame support part housed in a housing. The thermostat device is provided with: a control valve 2c which opens and closes a flow passage in a housing 3 on the basis of expansion/contraction of a thermal expansion body in a thermoelement 2a; a spring member 2d which biases the control valve in a valve-closing direction; and a spring-receiving frame 2g which receives an end part of the spring member. The spring-receiving frame is locked to a frame support part 3i formed in the flow passage of the housing, and thus a thermo-operation unit 2 is incorporated into the housing. On the upstream side of a cooling water flow in the frame support part 3i, a flow adjustment part 3j is disposed which prevents collision of cooling water streams by setting a bypass flow path for the cooling water traveling to the frame support part and the spring-receiving frame.
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
A thermoelectric conversion device including a plurality of first electrodes; a plurality of thermoelectric conversion elements, each having one end electrically connected to each of the first electrodes; a plurality of second electrodes, to which another end of each of the thermoelectric conversion elements is electrically connected; a hot-side heat exchanger connected to the first electrodes; and a cold-side heat exchanger connected to the second electrodes. Multiple springs are disposed in an interior of one of the hot-side heat exchanger and the cold-side heat exchanger at portions connected to either the first electrodes or the second electrodes, such that one spring is disposed so as to bias one thermoelectric conversion element. The one exchanger is provided with a transfer portion capable of transmitting to one thermoelectric conversion element a biasing force of one spring at a portion connected to the first electrode or the second electrode.
H01L 35/06 - Jonctions amovibles, p.ex. utilisant un ressort
F01N 5/02 - Silencieux ou dispositifs d'échappement combinés ou associés à des dispositifs bénéficiant de l'énergie des gaz évacués les dispositifs utilisant la chaleur
F25B 21/02 - Machines, installations ou systèmes utilisant des effets électriques ou magnétiques utilisant l'effet PeltierMachines, installations ou systèmes utilisant des effets électriques ou magnétiques utilisant l'effet Nernst-Ettinghausen
H01L 35/30 - DISPOSITIFS À SEMI-CONDUCTEURS; DISPOSITIFS ÉLECTRIQUES À L'ÉTAT SOLIDE NON PRÉVUS AILLEURS - Détails fonctionnant exclusivement par effet Peltier ou effet Seebeck caractérisés par les moyens d'échange de chaleur à la jonction
H01L 35/32 - DISPOSITIFS À SEMI-CONDUCTEURS; DISPOSITIFS ÉLECTRIQUES À L'ÉTAT SOLIDE NON PRÉVUS AILLEURS - Détails fonctionnant exclusivement par effet Peltier ou effet Seebeck caractérisés par la structure ou la configuration de la cellule ou du thermocouple constituant le dispositif
A thermostat device provided with a cylindrical boss protruding into a flow of fluid flowing in from a fluid inlet inside a device housing from a direction obstructing the flow of fluid, wherein a rectifying wall in the shape of a thin plate that protrudes toward an upstream side of the flow of fluid from the boss is provided as a rectifying means. The rectifying wall is formed in the shape of a plate that gradually increases in thickness from the fluid inlet side toward the boss. The leading edge along a direction of the flow of fluid is formed to have a tapered shape inclined from the tip of the boss toward the base of the boss. A side of the boss opposite the side facing the fluid inlet is provided with a rib.
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
G05D 23/185 - Commande de la température avec source d'énergie auxiliaire non électrique
G05D 23/02 - Commande de la température sans source d'énergie auxiliaire avec un élément sensible se dilatant et se contractant en réponse aux variations de température
A thermoelectric conversion device (1) is provided with: a plurality of first electrodes (7); a plurality of thermoelectric conversion elements (5, 6) that are electrically connected, at one ends thereof, to the respective first electrodes; a plurality of second electrodes (8) that are electrically connected to the other ends of the respective thermoelectric conversion elements; a high-temperature medium passage (2) that is connected to the first electrodes; and a low-temperature medium passage (3) that is connected to the second electrodes, wherein a plurality of springs (15) are positioned at parts connected to the first electrodes or the second electrodes within one of the high-temperature medium passage and the low-temperature medium passage, one spring is disposed so as to bias one thermoelectric conversion element, one of the passages is provided with a transmission unit (14) that can transmit the biasing force of one spring to one thermoelectric conversion element, in a part connected to one of the first or second electrodes. Accordingly, a thermoelectric conversion device that can perform efficient conversion between heat and electricity is provided.
H01L 35/30 - DISPOSITIFS À SEMI-CONDUCTEURS; DISPOSITIFS ÉLECTRIQUES À L'ÉTAT SOLIDE NON PRÉVUS AILLEURS - Détails fonctionnant exclusivement par effet Peltier ou effet Seebeck caractérisés par les moyens d'échange de chaleur à la jonction
F25B 21/02 - Machines, installations ou systèmes utilisant des effets électriques ou magnétiques utilisant l'effet PeltierMachines, installations ou systèmes utilisant des effets électriques ou magnétiques utilisant l'effet Nernst-Ettinghausen
H01L 35/06 - Jonctions amovibles, p.ex. utilisant un ressort
H01L 35/32 - DISPOSITIFS À SEMI-CONDUCTEURS; DISPOSITIFS ÉLECTRIQUES À L'ÉTAT SOLIDE NON PRÉVUS AILLEURS - Détails fonctionnant exclusivement par effet Peltier ou effet Seebeck caractérisés par la structure ou la configuration de la cellule ou du thermocouple constituant le dispositif
H02N 11/00 - Générateurs ou moteurs non prévus ailleursMouvements dits perpétuels obtenus par des moyens électriques ou magnétiques
68.
Molded plastic article and method of manufacturing same
B29C 45/14 - Moulage par injection, c.-à-d. en forçant un volume déterminé de matière à mouler par une buse d'injection dans un moule ferméAppareils à cet effet en incorporant des parties ou des couches préformées, p. ex. moulage par injection autour d'inserts ou sur des objets à recouvrir
B29C 65/70 - Assemblage d'éléments préformésAppareils à cet effet par moulage
B29C 45/00 - Moulage par injection, c.-à-d. en forçant un volume déterminé de matière à mouler par une buse d'injection dans un moule ferméAppareils à cet effet
B29C 45/16 - Fabrication d'objets multicouches ou polychromes
B29C 45/33 - Moules comportant des éléments de moule transversalement mobiles, p. ex. radialement
B29C 45/40 - Démoulage ou éjection des objets formés
An electronically controlled thermostat device simplifies an insulating structure and external portions of the lead wires of a heater incorporated for temperature control of a thermo-element, reduces the number of different parts, and facilitates assembly. A pair of insulating rod pieces clamps the heater at the front and clamps a pair of lead wires from the heater while maintaining an insulated state, and a connector member attached to a side of the insulating rod pieces opposite the portion that holds the heater is mounted on the outside of a device housing. The connector member at an inner end has connector terminals provided with a pair of lead end connecting pieces to which the lead wires are connected, and has an engaging concave portion that engages an engaging convex portion for preventing twisting provided on a side of the insulating rod pieces opposite the portion that holds the heater.
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
G05D 23/30 - Commandes automatiques avec un dispositif de chauffage auxiliaire affectant l'élément sensible, p. ex. pour prévoir les variations de température
H05B 3/48 - Éléments chauffants ayant la forme de tiges ou de tubes non flexibles le conducteur chauffant enrobé dans un matériau isolant
H05B 3/14 - Éléments chauffants caractérisés par la composition ou la nature des matériaux ou par la disposition du conducteur caractérisés par la composition ou la nature du matériau conducteur le matériau étant non métallique
F16K 31/02 - Moyens de fonctionnementDispositifs de retour à la position de repos électriquesMoyens de fonctionnementDispositifs de retour à la position de repos magnétiques
G05D 23/19 - Commande de la température caractérisée par l'utilisation de moyens électriques
Provided is a hot water/cold water switching faucet with which stability can be maintained and the manufacturing cost can be decreased compared to the prior art. A hot water/cold water switching faucet comprises: a control valve body (9) that is switchable, by slidingly moving within a casing (2), between a cold water discharge state in which a hot water flow inlet (6) is closed and cold water is discharged, and a hot water discharge state in which a cold water flow inlet (7) is closed and hot water is discharged from a flow outlet (5); a slider (12) that is disposed to be screwed to a hot water/cold water switching screw (13) in a state in which rotation of the slider is inhibited within the casing (2), and that is slidingly moved in the axial direction through the inside of the casing (2) by rotating the hot water/cold water switching screw (13); and a wax element (10) that expands/contracts according to a temperature change of the hot water/cold water flowing through the inside of the casing (2). The hot water/cold water switching faucet further comprises a closing mechanism (15) that utilizes the expansion/contraction of the wax element (10) to decrease the amount of hot water discharged from the flow outlet (5) when the temperature of the hot water/cold water flowing through the inside of the casing (2) reaches or exceeds a predetermined temperature.
F16K 11/044 - Soupapes ou clapets à voies multiples, p. ex. clapets mélangeursRaccords de tuyauteries comportant de tels clapets ou soupapesAménagement d'obturateurs et de voies d'écoulement spécialement conçu pour mélanger les fluides dont toutes les faces d'obturation se déplacent comme un tout comportant uniquement des soupapes ou des clapets à corps de soupape ou de clapet mobiles situés entre des sièges de soupape ou de clapet
E03C 1/044 - Installations pour cuvettes spécialement adaptées aux lavabos ou baignoires ayant un appareil de chauffage ou de réfrigération dans le circuit d'alimentation
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
G05D 23/13 - Commande de la température sans source d'énergie auxiliaire en faisant varier le rapport du mélange de deux fluides ayant des températures différentes
A valve device with fail-safe mechanism capable of improved production efficiency includes a valve element, a valve element housing, a third communication port provided in the valve element housing, and a fail-safe mechanism. The fail-safe mechanism includes a thermo-element and an element housing that houses the thermo-element. The element housing has a large-diameter housing, a small-diameter housing portion that accommodates the thermo-element, and a step. A valve element communicating portion communicating with the valve element housing is provided to the small-diameter housing portion. The fail-safe mechanism includes a valve plate member for closing the step and a coil spring that biases the valve plate member. A third adapter provided to the third communication port is provided with a through-hole that enables the large-diameter housing portion and the third communication port to communicate with each other.
F01P 7/14 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide
F16K 11/085 - Soupapes ou clapets à voies multiples, p. ex. clapets mélangeursRaccords de tuyauteries comportant de tels clapets ou soupapesAménagement d'obturateurs et de voies d'écoulement spécialement conçu pour mélanger les fluides dont toutes les faces d'obturation se déplacent comme un tout comportant uniquement des robinets à boisseau à noix cylindrique
F16K 17/38 - Soupapes ou clapets de sûretéSoupapes ou clapets d'équilibrage fonctionnant sous l'action de circonstances extérieures, p. ex. un choc, un changement de position d'une température excessive
F16K 31/00 - Moyens de fonctionnementDispositifs de retour à la position de repos
Provided is a seal structure for an actuator, the seal structure being configured so that a single piece of packing can ensure satisfactory sealing properties at two locations, one between the packing and a shaft and the other between the packing and a casing. This seal structure for an actuator is provided with: a shaft 12 which moves in the axial direction of the actuator; a casing 10 for covering the shaft in the axial direction; packing 16 disposed in the space between the shaft 12 and the casing 10 and disposed around a shaft insertion opening 10e formed at the front end of the casing; and a packing holder 17 which, on the front surface side thereof, supports the packing and which is subjected, on the rear surface side thereof, to contact with a return spring 11 for biasing the shaft in a backward movement direction. The packing 16 has integrally formed thereon: a slide contact surface 16a in sliding contact with the shaft; and a contact section 16c formed outside the slide contact surface and in contact with a part of the inner surface of the front end of the casing. The contact section 16c of the packing is brought into contact with the inner surface of the front end of the casing 10 by the forward movement of the packing holder 17 caused by the return spring.
F16J 15/16 - Joints d'étanchéité entre deux surfaces mobiles l'une par rapport à l'autre
F01P 7/12 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant de "l'air de refroidissement" en agissant sur la section de la veine d'air circulant dans les échangeurs de chaleur "liquide vers air" par commande thermostatique
F01P 11/10 - Guidage ou conduite de l'air de refroidissement vers ou depuis les échangeurs de chaleur "liquide vers air"
F16J 15/3204 - Joints d'étanchéité entre deux surfaces mobiles l'une par rapport à l'autre par joints élastiques, p. ex. joints toriques avec au moins une lèvre
73.
Coolant passage device for internal combustion engine
[Problem] To provide a resin-molded article and a method for manufacturing the same in which residual stress in and delamination of a joint section (interface) of the resin molded article are suppressed even when a flow tab resin section has been formed large. [Solution] The present invention is provided with: a joint resin section 6 for jointing a first body and a second body; a connection resin section 8 which is formed by solidifying a molten resin flowing out of a resin flow passage and has one end portion connected to the joint resin section 6; a flow tab resin section 7 which is formed by solidifying the molten resin and connected to the other end portion of the connection resin section 8, wherein a reduced-diameter portion 7a is provided on the connection resin section side of the flow tab resin section 7.
B29C 65/70 - Assemblage d'éléments préformésAppareils à cet effet par moulage
B29C 45/14 - Moulage par injection, c.-à-d. en forçant un volume déterminé de matière à mouler par une buse d'injection dans un moule ferméAppareils à cet effet en incorporant des parties ou des couches préformées, p. ex. moulage par injection autour d'inserts ou sur des objets à recouvrir
[Problem] To provide a thermoactuator casing structure capable of suppressing damage to a connecting section between a casing body and a flange, and also suppressing cracks near the opening of the casing body which occur when pressing a support part therein. [Solution] A thermoactuator casing structure equipped with a thermoelement 10, a cylindrical casing body 20 comprising a synthetic resin, flanges 30, 40 comprising a synthetic resin and formed so as to be separate from the casing body, and a spring 7 that imparts a reactive force between the casing body 20 and the thermoelement 10, and is housed in the casing body 20, wherein the casing body 20 and the flange 30 are fastened to and integrated with one another by rotating and pressing the casing body 20 against the reactive force of the spring 7.
F03G 7/06 - Mécanismes produisant une puissance mécanique, non prévus ailleurs ou utilisant une source d'énergie non prévue ailleurs utilisant la dilatation ou la contraction des corps produites par le chauffage, le refroidissement, l'humidification, le séchage ou par des phénomènes similaires
[Problem] To provide a highly durable thermoactuator equipped with a lock function and capable of smoothly locking a retainer while the retainer is lifted. [Solution] A guide body 11 for supporting a retainer 15 is equipped with a cylindrical section 11a which rises from the base section thereof, a tapered section 11c, the external diameter of which increases toward the tip of the cylindrical section, and a locking-member engaging groove 11d which is contiguous with the tapered section and recesses in the axial core direction. The retainer 15 covers the tapered section 11c and the cylindrical section 11a of the guide body, and is configured so as to move in the axial direction relative to the guide body 11 on the basis of the expansion or contraction of wax. The retainer is locked when part of a locking member 17 attached to the retainer 15 slides along the tapered section 11c of the guide body 11 when the retainer is in a prescribed lifted state, and engages the engaging groove 11d.
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F15B 15/02 - Schéma mécanique de montage caractérisé par les moyens transformant le mouvement de l'élément entraîné par le fluide en mouvement de l'organe terminal qui est actionné
[Problem] To provide a thermoactuator casing structure which is capable of easily and definitively achieving attachment of a casing body to a thermoelement, while also reducing production costs. [Solution] A thermoactuator casing structure equipped with: a thermoelement 10 equipped with at least an element case 13 for storing wax, a support part 11 for supporting the element case, and a retainer 19 for moving up and down relative to the support part; a cylindrical casing body 20 comprising a synthetic resin for covering the retainer of the thermoelement; and a fastening member 40 mounted along a first groove 32 formed in the casing body and a second groove 11a formed in the thermoelement, while in a state where the thermoelement 10 is covered by the casing body 20. Furthermore, by mounting the fastening member 40 along the first groove 32 and the second groove 11a, the thermoelement 10 and the casing body 20 are joined to one another by the fastening member 40.
F03G 7/06 - Mécanismes produisant une puissance mécanique, non prévus ailleurs ou utilisant une source d'énergie non prévue ailleurs utilisant la dilatation ou la contraction des corps produites par le chauffage, le refroidissement, l'humidification, le séchage ou par des phénomènes similaires
F01P 7/12 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant de "l'air de refroidissement" en agissant sur la section de la veine d'air circulant dans les échangeurs de chaleur "liquide vers air" par commande thermostatique
F16B 21/18 - Dispositifs sans filetage pour empêcher le mouvement relatif selon l'axe d'une broche, d'un ergot, d'un arbre ou d'une pièce analogue par rapport à l'organe qui l'entoureFixations à ergots et douilles largables sans filetage à parties séparées par gorges ou encoches pratiquées dans l'axe ou l'arbre et avec bague annulaire formant ressort insérée dans la gorge (circlip) ou autre dispositif élastique de fixation du même genreDispositifs sans filetage pour empêcher le mouvement relatif selon l'axe d'une broche, d'un ergot, d'un arbre ou d'une pièce analogue par rapport à l'organe qui l'entoureFixations à ergots et douilles largables sans filetage à parties séparées par gorges ou encoches pratiquées dans l'axe ou l'arbre Détails
A thin plate-shaped baffle wall (30), which extends upstream along the flow of a fluid from the boss part, is provided as a baffle means to a fluid-inlet-side portion of an outer peripheral surface of a cylindrical boss part (20), which is protrudingly provided so as to face into the fluid from a direction in which the flow of a fluid flowing in from a fluid inlet (12) within an apparatus housing (11) is blocked. This baffle wall is formed in a plate shape so as to gradually increase in thickness from the fluid inlet side toward the boss part. The tip edge of the baffle wall, which runs along the direction of fluid flow, is formed so as to have a tapered shape sloped from the tip to end of the boss part. Furthermore, a rib (31) is provided to a portion of the boss part on the opposite side from the fluid inlet.
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
[Problem] To provide a valve device with a failsafe mechanism which can be produced more efficiency. [Solution] A valve device is provided with a valve body 5, a valve body-housing section 3, a third communication port E3 provided on the valve body-housing section 3, and a failsafe mechanism 20. The failsafe mechanism 20 is provided with a thermo-element 21 and an element-housing section 24 for housing the thermo-element 21. The element-housing section 24 is provided with a small diameter housing part 24b for housing the thermo-element 21, a large diameter housing part 24a, and a shoulder 24c. A valve body communicating part 24e that is in communication with the valve body-housing section 3 is provided in the small diameter housing part 24b. The failsafe mechanism 20 is provided with a valve plate member 22 that closes the shoulder 24c, and a coil spring 23 that biases the valve plate member 22. A third adaptor A3 provided in the third communication port E3 is provided with a through hole 26 for bringing the large diameter housing part 24a into communication with the third communication port E3.
F16K 11/085 - Soupapes ou clapets à voies multiples, p. ex. clapets mélangeursRaccords de tuyauteries comportant de tels clapets ou soupapesAménagement d'obturateurs et de voies d'écoulement spécialement conçu pour mélanger les fluides dont toutes les faces d'obturation se déplacent comme un tout comportant uniquement des robinets à boisseau à noix cylindrique
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
80.
LEAD WIRE-INSULATING STRUCTURE IN FLOW RATE CONTROL VALVE DEVICE
[Problem] In an electronic control thermostat device, to simplify structures for drawing out and insulating lead wires for a heater that is incorporated for temperature control of a thermo-element, to reduce the number of parts, and to improve ease of assembly. [Solution] A structure is provided with: a pair of insulated rod pieces 40, 40 configured so as to grip a heater 20 at the distal end portion and to grip a pair of lead wires 21, 22 that are drawn out from the heater while maintaining insulation thereof; and a connector member 30, which is attached to the portion of said insulated rod pieces at the opposite end from the heater-gripping portion and attached and fixed on the outside of the device housing 10. The connector member has connector terminals 31, 32, the inside ends of which are provided with a pair of lead end-connecting pieces 31a, 32a to which the respective lead wires are connected, and is provided with engaging recesses 30b for engaging with twist-preventing engaging protrusions 43, 43 provided on the portion at the end opposite to the heat-gripping portion of the insulated rod pieces.
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
81.
RESIN MOLDED ARTICLE AND METHOD FOR PRODUCING SAME
[Problem] To provide: a resin molded article wherein formation of a bonding strength decreased portion is suppressed, while suppressing separation at the interface between a bonding part (a secondary molding resin) and a first body and at the interface between the bonding part and a second body; and a method for producing this resin molded article. [Solution] This resin molded article is provided with: a first contact surface 9a that is formed perpendicular to a main surface F1 of a first body and is to be in contact with a second body; a second contact surface 9b that is formed perpendicular to a main surface F2 of the second body and is to be in contact with the first body; and a bonding part 12 which bonds the first body and the second body with each other and is formed by pouring and solidifying a molten resin in a resin channel 11 that is formed by bringing the first contact surface 9a into contact with the second body 1B and by bringing the second contact surface 9b into contact with the first body 1A.
A fluid control valve device for a hot water combination faucet is provided with: a cylindrical valve body (20) disposed inside a main body (10) so as to be movable in the axial direction; a temperature-sensing spring (30), which is disposed inside said cylindrical valve body (20) and is for biasing the cylindrical valve body (20) in the direction for increasing the amount of opening of the water inlet (2); and a spring-receiving part (21), which is integrally connected to the cylindrical valve body (20) and is for supporting the free end of the temperature-sensing spring (30). Additionally, one end of the main body (10) is configured as a mixing chamber provided on the mixed water outlet (24) end for mixing hot water with water and discharging same, and the other end has an adjustment screw member (34) provided on the upper end of the main body (10) so as to allow adjustment of screw engagement, and a valve shaft (32) disposed so as to pass through the main body (10) and the cylindrical valve body (20). One end of said valve shaft (32) is connected and fixed to the spring-receiving part (21) and the other end is elastically connected and supported in the adjustment screw member (34).
F16K 11/044 - Soupapes ou clapets à voies multiples, p. ex. clapets mélangeursRaccords de tuyauteries comportant de tels clapets ou soupapesAménagement d'obturateurs et de voies d'écoulement spécialement conçu pour mélanger les fluides dont toutes les faces d'obturation se déplacent comme un tout comportant uniquement des soupapes ou des clapets à corps de soupape ou de clapet mobiles situés entre des sièges de soupape ou de clapet
F16K 31/70 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés mécaniquement, p. ex. par un ruban bimétallique
83.
Thermostat valve with temperature responsive thermo-element
A thermostat valve has a cylindrical valve housing formed as a single integrated unit out of synthetic resin material, having an annular body and a frame attached to one end of the annular body by a plurality of legs, a disk-shaped valve stem disposed in another end of the valve housing and movable along an axial direction, a spring seat that holds an opposite end of spring means away from the valve stem and locked and held in place by hooks at tips of locking arms extending from the valve housing, and a thermo-element fixedly mounted to an element guide provided in the frame of the valve housing that moves the valve stem in a valve opening direction in response to fluid temperature. An annular step having a top portion of predetermined width is formed adjacent to the rim of the opening in the one end of the valve housing.
G05D 23/02 - Commande de la température sans source d'énergie auxiliaire avec un élément sensible se dilatant et se contractant en réponse aux variations de température
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F01P 11/18 - Dispositifs indicateursAutres dispositifs de sécurité concernant la pression, le débit ou le niveau de l'agent de refroidissement
G05D 23/185 - Commande de la température avec source d'énergie auxiliaire non électrique
F01P 7/14 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide
84.
COOLANT PASSAGE DEVICE FOR INTERNAL COMBUSTION ENGINE
Provided is a coolant passage device configured so that, even if coolant containing bubbles flows into the coolant passage device, the generation of flow noise of the coolant in a heater core can be prevented. A coolant passage device 3 is provided with: coolant intake pipes 11, 12 for taking in coolant flowing from an engine; a delivery pipe 17 leading to a radiator and in communication with the coolant intake pipes; and a delivery pipe 18 leading to a heater core, the delivery pipe 18 being branched from a center passage 16 which connects the coolant intake pipes and the delivery pipe leading to the radiator. In a state in which the coolant passage device 3 is mounted to the engine, a branch opening 18a connecting to the delivery pipe 18 leading to the heater core is open to the upper part inside the center passage 16, and a wall surface 21 hanging down into the center passage 16 is formed at the branch opening 18a so as to surround the branch opening. The wall surface 21 prevents bubbles contained in the coolant from entering the branch opening 18a.
Provided is a fluid control valve assembly which reduces pressure loss a fluid passage line including a fluid control valve, thereby mini-minimizing the pressure for a fluid to pass therethrough to ensuring a required amount of flow without upsizing the overall assembly. The fluid control valve assembly includes an upstream pipe forming an upstream fluid passageway tilted at a predetermined angle relative to a valve axis to face an upstream chamber. The upstream chamber is formed upstream of a valve portion which has a valve seat and a valve body in a valve housing and which can open and close the fluid passageway. The wall surface of the upstream chamber is integrated with a swelling, which is projected in the chamber to thereby rectify and guide the fluid flowing therein through the upstream pipe so that the fluid smoothly flows to the valve portion.
F01P 7/14 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F16K 27/02 - Structures des logementsMatériaux utilisés à cet effet des soupapes de levage
F16K 31/00 - Moyens de fonctionnementDispositifs de retour à la position de repos
G05D 23/02 - Commande de la température sans source d'énergie auxiliaire avec un élément sensible se dilatant et se contractant en réponse aux variations de température
A thermoactuator easily installed in an object without compromising the operating characteristics of the thermo-element has an element case, containing wax that expands and contracts with changes in temperature; a supporting portion attached at one end to the element case by crimping, slidably supporting a shaft at another end; a cylindrical casing having an opening in one end, at least a portion of the supporting portion pressed through the opening in the one end of the cylindrical casing; and a flange expanding outward from the one end of the cylindrical casing, in which through-holes are formed for mounting the thermoactuator to an object to which the thermoactuator is to be attached. The element case is supported by one end of the supporting portion housed within the object to which the thermoactuator is to be attached and the casing is mounted on the object via the flange.
F03G 7/06 - Mécanismes produisant une puissance mécanique, non prévus ailleurs ou utilisant une source d'énergie non prévue ailleurs utilisant la dilatation ou la contraction des corps produites par le chauffage, le refroidissement, l'humidification, le séchage ou par des phénomènes similaires
F01P 7/12 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant de "l'air de refroidissement" en agissant sur la section de la veine d'air circulant dans les échangeurs de chaleur "liquide vers air" par commande thermostatique
[Problem] To provide a seal structure for a temperature sensor, the seal structure being capable of simply and reliably preventing water from entering the inside of a metallic cylinder having a temperature sensing element provided therein. [Solution] The present invention comprises a temperature sensor 1 provided with: a closed-end metallic cylinder 12 having a temperature sensing element 11 provided therein at the bottom thereof; a temperature sensor body 21 formed by molding while holding the base end of the metallic cylinder; and a connector section 22 having a means for connection to the outside. The temperature sensor body is configured so as to be mounted and affixed from the outside of a body 3 to which the temperature sensor body is to be mounted and through which fluid flows, and thus the bottom of the metallic cylinder is disposed in and exposed to the fluid within the body to which the temperature sensor body is to be mounted. In the temperature sensor body, an annular recess 31 concentric with the metallic cylinder is formed between the temperature sensor body and the outer peripheral surface of the metallic cylinder. An elastic member 30 for sealing between the outer peripheral surface of the metallic cylinder and the wall surface of the annular recess is provided in the annular recess.
G01K 1/08 - Dispositifs de protection, p. ex. étuis
G01K 7/22 - Mesure de la température basée sur l'utilisation d'éléments électriques ou magnétiques directement sensibles à la chaleur utilisant des éléments résistifs l'élément étant une résistance non linéaire, p. ex. une thermistance
A device housing having a hollow portion including a gas intake pipe projectingly provided to an outer periphery of an instrument body, having a heater built therein and attached to the instrument body. In the hollow portion, a heating wall formed by a bulge extending from the outer end side to the inner end side in the axial direction of the intake pipe and the heater for heating are internally provided. Between the heating wall and a gas intake pipe, and between the heating wall and an inner wall of the housing, inner and outer gas flow paths are formed a liquefied gas introduction side opening is provided at an outer end side of the outer gas flow path, and the outer end side of the inner gas flow path is communicated with a gas intake opening of the tip of the gas intake pipe.
F23D 11/44 - Dispositifs de réchauffageDispositifs vaporisateurs
F23C 9/00 - Appareils à combustion caractérisés par des dispositions pour renvoyer les produits de combustion ou les gaz de fumée dans la chambre de combustion
F02M 21/06 - Appareils de déliquéfaction, p. ex. opérant par chauffage
F24H 1/10 - Chauffe-eau instantanés, c.-à-d. dans lesquels il n'y a production de chaleur que lorsque l'eau s'écoule, p. ex. avec contact direct de l'eau avec l'agent chauffant
H05B 3/06 - Éléments chauffants combinés constructivement avec des éléments d'accouplement ou avec des supports
F24H 9/00 - APPAREILS DE CHAUFFAGE DE FLUIDES, p. ex. DE L'AIR OU DE L'EAU, COMPORTANT DES MOYENS DE PRODUCTION DE CHALEUR, p. ex. DES POMPES À CHALEUR, EN GÉNÉRAL Parties constitutives
H05B 3/44 - Éléments chauffants ayant la forme de tiges ou de tubes non flexibles le conducteur chauffant disposé à l'intérieur des tiges ou tubes en matériau isolant
Provided is a quick fastener retention device which prevents connected pipes from separating due to the dislodgement of a quick fastener and which is configured so that evidence of forced removal of the quick fastener remains as plastic deformation on a retention member. A quick fastener 1 is mounted while flanges 13, 14 formed at ends of first and second pipes 11, 12 are joined, and a portion of each of the joined flanges is inserted in a corresponding long window 4 formed in the quick fastener 1. A retention member 6 for the quick fastener 1 is bent in a square C-shape, the center section 6a of the bend is located between the insertion guide sections 2b, 3b of the quick fastener 1, and a pair of bent leg sections 6d, 6e continuous with the center section of the bend are respectively engaged with the insides of the left and right protrusions 2a, 3a of the quick fastener 1 through the long windows 4 formed in the quick fastener 1.
F16L 37/14 - Raccords par insertion d'un élément entre surfaces à unir, p. ex. par un bout de fil, une goupille, une chaîne
F16B 2/24 - Clips, c.-à-d. dispositifs de fixation à serrage effectué uniquement par la résistance à la déformation inhérente au matériau dont est fait le dispositif en matériau élastique, p. ex. un matériau caoutchouteux métallique
[Problem] To provide a thermoelectric conversion module wherein a decrease in rigidity is suppressed even if a base part is divided into a plurality. [Solution] The thermoelectric conversion module 1 comprises a plurality of low temperature side base parts 6, a plurality of first electrodes 3, a plurality of thermoelectric conversion elements 2, a plurality of second electrodes 4, X-axis connecting portions 7, and Y-axis connecting portions 8. Each of the low temperature side base parts 6 has six of the second electrodes 4 disposed thereon. Between adjacent low temperature side base parts 6, two X-axis connecting portions 7 or Y-axis connecting portions 8a, 8b are disposed as base part interconnecting portions. One set of the plurality of base part interconnecting portions are for establishing connection from one set of the first electrodes 3 located above one set of the low temperature side base parts 6 to another set of second electrodes 4 located above another set of low temperature side base parts 6. Another set of base part interconnecting portions establish connection from said another set of first electrodes 3 located above said another low temperature side base parts 6 to said one set of the second electrodes 4 located above said one set of the low temperature side base parts 6.
H01L 35/32 - DISPOSITIFS À SEMI-CONDUCTEURS; DISPOSITIFS ÉLECTRIQUES À L'ÉTAT SOLIDE NON PRÉVUS AILLEURS - Détails fonctionnant exclusivement par effet Peltier ou effet Seebeck caractérisés par la structure ou la configuration de la cellule ou du thermocouple constituant le dispositif
F25B 21/02 - Machines, installations ou systèmes utilisant des effets électriques ou magnétiques utilisant l'effet PeltierMachines, installations ou systèmes utilisant des effets électriques ou magnétiques utilisant l'effet Nernst-Ettinghausen
H01L 35/08 - Jonctions non amovibles, p.ex. obtenues par cémentation, frittage, soudage
[Problem] To provide a thermostat valve in which the amount of water leakage while the valve is closed is reduced to an infinitesimally small level and which is configured using a resin molding process to make the entire thermostat valve compact and lightweight and to reduce the number of parts. [Solution] A thermostat valve is provided with: a body housing (12) having an annular body section and a frame section which is provided to the other end surface side of the body section with legs therebetween, the body housing (12) being molded in one piece having a circular cylindrical shape from a synthetic resin material; a disk-shaped valve body (20) disposed on one end surface side of the body housing (12) so as to be capable of moving forward and backward in the axial direction; a spring receiver (24) for holding the end of a pressing spring means (22) away from the valve body and engaged with and held by the front end hook of an engagement arm (30) extended from the body housing; and a thermo-element (40) held by and affixed to an element guide (12c) provided on the frame section of the body housing, the thermo-element (40) operating the valve body in the valve opening direction according to fluid temperature. An annular stepped section having a top section with a predetermined width is provided at a portion of said end surface of the body housing, the portion being located close to an opening peripheral edge section, the annular stepped section serving as a valve seat section (16).
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
A thermo valve has a valve chamber disposed inside a housing and open to a first flow path through an opening. Second and third flow paths open into the valve chamber. A thermo-element that can move back and forth axially inside the valve chamber in response to fluid temperature opens and closes the second and third flow paths and is biased in a direction that blocks the flow paths by a coil spring. A valve element that is a bypass valve that opens and closes an opening that connects the first and third flow paths inside the valve chamber and communicates the first and third flow paths is disposed in the opening. The coil spring is also used to bias the valve element in a direction that blocks the flow paths.
G05D 23/08 - Commande de la température sans source d'énergie auxiliaire avec un élément sensible se dilatant et se contractant en réponse aux variations de température avec un élément bimétallique
F16K 31/00 - Moyens de fonctionnementDispositifs de retour à la position de repos
G05D 23/13 - Commande de la température sans source d'énergie auxiliaire en faisant varier le rapport du mélange de deux fluides ayant des températures différentes
F16K 17/00 - Soupapes ou clapets de sûretéSoupapes ou clapets d'équilibrage
F16K 17/04 - Soupapes ou clapets de sûretéSoupapes ou clapets d'équilibrage ouvrant sur excès de pression d'un côtéSoupapes ou clapets de sûretéSoupapes ou clapets d'équilibrage fermant sur insuffisance de pression d'un côté actionnés par ressort
[Problem] To allow easy attachment of a thermoelement to an attachment object without influencing the operation characteristics. [Solution] This thermoactuator is provided with: an element case (3) which houses wax (2) that expands and contracts with changes in temperature; a support unit (5) to one end of which the element case (3) is attached by crimping and which holds a shaft (6) at the other end so as to allow forward and backward movement; a cylindrically-formed casing (10) into which at least part of the support unit (5) is press-fitted through an opening (10d) in the one end; and a flange (10b) which extends outwards from one end of the casing (10) and in which a through-hole (10c) for fixing to the attachment object is formed. In a state in which the element case (3) supported on one end of the support unit (5) is housed inside the attachment object, the casing (10) is fixed to the attachment object by the flange (10b).
F03G 7/06 - Mécanismes produisant une puissance mécanique, non prévus ailleurs ou utilisant une source d'énergie non prévue ailleurs utilisant la dilatation ou la contraction des corps produites par le chauffage, le refroidissement, l'humidification, le séchage ou par des phénomènes similaires
F01P 7/12 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant de "l'air de refroidissement" en agissant sur la section de la veine d'air circulant dans les échangeurs de chaleur "liquide vers air" par commande thermostatique
F01P 11/10 - Guidage ou conduite de l'air de refroidissement vers ou depuis les échangeurs de chaleur "liquide vers air"
94.
STRUCTURE FOR CONNECTING TERMINAL OF ELECTRICAL COMPONENT
The present invention is configured such that, when a connection is to be established between a first terminal (6) comprising a high-melting metal and a second terminal (4) comprising a low-melting metal and having a molded resin member (3) attached to the side opposite the joining surface thereof, the first terminal (6) is coupled in a non-contact state with the connection surface of the second terminal (4) across a prescribed gap, and a laser beam is directed from the side of the first terminal (6) opposite the joining surface to melt the first terminal (6) under heating, causing the joining surface of the second terminal (4) to also melt due to heat conducted from the first terminal (6), thereby welding together both terminals.
H01R 4/62 - Connexions entre des conducteurs constitués de matériaux différentsConnexions entre ou avec des conducteurs en aluminium avec ou sans âme en acier
B23K 26/00 - Travail par rayon laser, p. ex. soudage, découpage ou perçage
B23K 26/32 - Assemblage tenant compte des propriétés du matériau concerné
F01P 7/16 - Commande du débit de l'agent de refroidissement l'agent de refroidissement étant un liquide par commande thermostatique
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
F16K 31/70 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés mécaniquement, p. ex. par un ruban bimétallique
[Problem] To provide a thermoelectric conversion module which is able to have improved reliability, while ensuring a sufficient electromotive voltage. [Solution] A thermoelectric conversion module (1) which is provided with: a base part (5); a plurality of first electrodes (3); a plurality of thermoelectric conversion elements (2), each of which has one end electrically connected to one of the first electrodes (3); and a plurality of second electrodes (4), each of which is electrically connected to the other end of a thermoelectric conversion element (2). This thermoelectric conversion module (1) is provided with a plurality of parallel groups (17), in each of which the thermoelectric conversion elements (2) are connected in parallel, and the parallel groups (17) are connected in series. Alternatively, this thermoelectric conversion module (1) is provided with a plurality of series groups, in each of which the thermoelectric conversion elements (2) are connected in series, and the series groups are connected in parallel.
H01L 35/32 - DISPOSITIFS À SEMI-CONDUCTEURS; DISPOSITIFS ÉLECTRIQUES À L'ÉTAT SOLIDE NON PRÉVUS AILLEURS - Détails fonctionnant exclusivement par effet Peltier ou effet Seebeck caractérisés par la structure ou la configuration de la cellule ou du thermocouple constituant le dispositif
H01L 35/14 - Emploi d'un matériau spécifié pour les bras de la jonction utilisant des compositions inorganiques
H01L 35/16 - Emploi d'un matériau spécifié pour les bras de la jonction utilisant des compositions inorganiques comprenant du tellure, du sélénium, ou du soufre
H01L 35/22 - Emploi d'un matériau spécifié pour les bras de la jonction utilisant des compositions inorganiques comprenant des composés contenant du bore, du carbone, de l'oxygène ou de l'azote
H02N 11/00 - Générateurs ou moteurs non prévus ailleursMouvements dits perpétuels obtenus par des moyens électriques ou magnétiques
[Problem] To enable a liquefied gas to be heated and atomized even at low temperatures, by increasing the length of a flow path heated by a heater and increasing the passage time, and thereby heating the liquefied gas efficiently for a long time. [Solution] A heater device is equipped with a device housing, which has a built-in heater and is attached to the device body, and has a hollow part enclosing a gas intake pipe that is provided extending to the outside of the device body and that draws in liquefied gas from the outer end. In the hollow part of the device housing there is formed a heating wall, which expands from the outer end toward the inner end in the axial direction of the intake pipe, and in which the heating-use heater is provided. An inside and an outside gas flow path are formed between the heating wall and the gas intake pipe and between the heating wall and the inner wall of the housing, and the ends of these gas flow paths on the inside of the device housing are connected so as to form a return flow path. In addition, a liquefied gas introduction-side opening is provided on the outside end of the outside gas flow path, and the outside end of the inside gas flow path is connected to a gas intake opening at the tip end of the gas intake pipe.
F17C 9/02 - Procédés ou appareils pour vider les gaz liquéfiés ou solidifiés contenus dans des récipients non sous pression avec changement d'état, p. ex. vaporisation
[Problem] To provide a thermoelectric conversion module for which mass-productiveness is improved. [Solution] A thermoelectric conversion module (1) is provided with a base portion (11), a plurality of first electrodes (3), a plurality of thermoelectric conversion elements (2), a plurality of second electrodes (4), and connecting portions (42). The plurality of thermoelectric conversion elements (2) are formed as n-type units and are serially connected. The connecting portions (42) are formed integrally with the second electrodes (4) and are configured separately from the first electrodes (3). On the first electrodes (3) are disposed receiving portions (33) which receive tips of the connecting portions (42). Six element rows (6), which are configured by arranging 5 thermoelectric conversion elements (2) in an X-axis direction, are arranged in a Y-axis direction. The receiving portions (33) are configured to be capable of accepting connecting portions (42) with the same shape for both a case in which the connecting portion (42) is connecting thermoelectric conversion elements (2) in an element row (6), and a case in which the connecting portion (42) is connecting adjacent element rows (6); and the first electrodes (3) and the second electrodes (4) are all configured in the same shape.
H01L 35/32 - DISPOSITIFS À SEMI-CONDUCTEURS; DISPOSITIFS ÉLECTRIQUES À L'ÉTAT SOLIDE NON PRÉVUS AILLEURS - Détails fonctionnant exclusivement par effet Peltier ou effet Seebeck caractérisés par la structure ou la configuration de la cellule ou du thermocouple constituant le dispositif
H01L 35/14 - Emploi d'un matériau spécifié pour les bras de la jonction utilisant des compositions inorganiques
H01L 35/16 - Emploi d'un matériau spécifié pour les bras de la jonction utilisant des compositions inorganiques comprenant du tellure, du sélénium, ou du soufre
H01L 35/18 - Emploi d'un matériau spécifié pour les bras de la jonction utilisant des compositions inorganiques comprenant de l'arsenic, de l'antimoine, ou du bismuth
H01L 35/30 - DISPOSITIFS À SEMI-CONDUCTEURS; DISPOSITIFS ÉLECTRIQUES À L'ÉTAT SOLIDE NON PRÉVUS AILLEURS - Détails fonctionnant exclusivement par effet Peltier ou effet Seebeck caractérisés par les moyens d'échange de chaleur à la jonction
[Problem] To provide a thermo valve for which the number of components is minimized, the structure is simplified and reduced in size, the weight is reduced, and having smooth operability and improved durability. [Solution] A valve chamber (12) is provided within a housing (1) and communicating with a first flow path (21) via an aperture (23). A second flow path (13) and a third flow path (14) are provided opening into this valve chamber. Furthermore, within this valve chamber are provided a thermo element (15), which is arranged so as to be capable of advancing and retreating in the axial direction and which operates in response to the fluid temperature, thereby opening or closing the connection between the second and third flow paths, and a coil spring (18), which biases this thermo element in the direction in which the flow path is closed. A valve body (24) is provided in the aperture connecting the first flow path and the third flow path (which communicates with the valve chamber). This valve body serves as a bypass valve (22) that opens and closes the aforementioned aperture, enabling the first and third flow paths to be connected when the aperture is open, and this valve body also serves as a spring means that biases the coil spring in the direction in which the flow path is closed.
F16K 31/68 - Moyens de fonctionnementDispositifs de retour à la position de repos sensibles aux variations de température actionnés par pression de fluide ou par variations volumétriques dans une chambre fermée
99.
ROTARY VALVE SEAL MEMBER AND ROTARY VALVE USING SAME
[Problem] To provide a rotary valve seal member with which a reliable seal can be obtained regardless of the type of movement of a valve body, by slidably holding the outer surface of the valve body, which rotates, pivots or slides. [Solution] A seal member (20) that is in sliding contact with the outer surface of a valve body, which is capable of rotating, pivoting or sliding inside a valve housing of a rotary valve, has a three-dimensional structure as a circular body having a cross-sectional shape comprising an oval-shaped section (22) and a rectangular-shaped section (21), and is integrally formed by an elastic material. The oval-shaped section (22) is positioned in the normal direction with respect to the outer surface of the valve body, and a bulging section of the leading edge of the oval-shaped section is made to protrude and press against the valve body outer surface, thereby sealing said section. The rectangular-shaped section (21) is buried when the oval-shaped portion is positioned in the normal direction with respect to the valve body outer surface, and is held inside a circular groove when the outside surface is in contact with a groove wall of the circular groove.
F16K 5/04 - Robinets à boisseau consistant seulement en un dispositif obturateur dont au moins une des faces d'obturation a la forme d'une surface de solide de révolution plus ou moins complète, le mouvement d'ouverture et de fermeture étant essentiellement rotatif dont les boisseaux sont à surface cylindriqueLeurs garnitures d'étanchéité
F16J 15/18 - Joints d'étanchéité entre deux surfaces mobiles l'une par rapport à l'autre par presse-étoupes pour garnitures élastiques ou plastiques
F16K 5/06 - Robinets à boisseau consistant seulement en un dispositif obturateur dont au moins une des faces d'obturation a la forme d'une surface de solide de révolution plus ou moins complète, le mouvement d'ouverture et de fermeture étant essentiellement rotatif dont les boisseaux sont à surface sphériqueLeurs garnitures d'étanchéité
[Problem] To maintain a constant spring force for a coil spring that biases a bypass valve in a thermostat device, regardless of the movement of a thermo element, and thus to enable suitable and reliable opening/closing control. [Solution] A bypass valve (28), which is opened/closed by the pressure difference between a second passage (21B) and a third passage (25), is provided in the body (20) of a thermostat device (10) having main valves (12, 22) that control the flow between a first passage and the second passage. A second valve body (13) forming the bypass valve is held in a slidable manner at the tip side of a rod part (18) provided integrally with a thermo element (11), and a spring-receiving part (40), which engages and holds the base-end side of a coil spring (19) that biases this second valve body, is provided on a frame side that holds the thermo element in a slidable manner.
