Provided is a laser processing apparatus capable of stabilizing a liquid column and increasing a distance at which a laser is stably guided. The laser processing apparatus includes a liquid supply chamber; a nozzle including an ejection port facing to the liquid supply chamber, and a liquid column forming chamber connected to the ejection port for a liquid column generated from the ejection port to pass through; an outlet pipe through which the liquid column passes, the outlet pipe inserted into the liquid column forming chamber; a liquid column discharge port connected to the outlet pipe; a gas introduction channel connected to an outer side of the outlet pipe inside the liquid column forming chamber; and an optical lens which focuses a laser on the ejection port through the liquid supply chamber.
A cavitation surface processing nozzle includes: a nozzle tip including a first plane from which liquid is ejected and perpendicular to an ejection axis; a second plane perpendicular to the ejection axis and another side plane of the first plane; and a nozzle hole including a discharge groove located on the first plane and having a semi-cylindrical shape extending in a first direction perpendicular to the ejection axis, an ejection hole extending along the ejection axis to be connected to the discharge groove and having a right elliptic cylindrical shape having an elliptic cross section with a long diameter extending in the first direction, and an introduction portion having a right conical surface centered on the ejection axis and connected to the ejection hole.
B23P 9/04 - Traitement ou finition par martelage ou par pression répétée
B05B 1/02 - Buses, têtes de pulvérisation ou autres dispositifs de sortie, avec ou sans dispositifs auxiliaires tels que valves, moyens de chauffage agencés pour produire un jet, un pulvérisat ou tout autre écoulement de forme ou de nature particulière, p. ex. sous forme de gouttes individuelles
A tilting mechanism includes: a housing including a body chamber extending along a reference axis, a receiving surface located at a distal end portion of the body chamber, and an abutment surface; a body disposed inside the body chamber in a tiltable manner with respect to the reference axis, the body including a first spherical surface coming in contact with the receiving surface, and a contact surface coming in contact with the abutment surface, an elastic member disposed in the body chamber to urge the body toward a distal end; and an anti-rotation member disposed in the housing to prevent rotation of the body.
Provided is a centrifugal drying method for a workpiece having a plurality of blind holes. The centrifugal drying method includes: installing the workpiece to a turntable in a first posture in which an opening of a first blind hole among the plurality of the blind holes faces downward; and rotating the workpiece in the first posture about a rotation axis extending in a vertical direction together with the turntable.
F26B 5/08 - Procédés de séchage d'un matériau solide ou d'objets n'impliquant pas l'utilisation de chaleur par traitement centrifuge
F26B 11/02 - Machines ou appareils à mouvement non progressif pour le séchage d'un matériau solide ou d'objets dans des tambours ou autres récipients quasi fermés, mobiles
F26B 11/08 - Machines ou appareils à mouvement non progressif pour le séchage d'un matériau solide ou d'objets dans des tambours ou autres récipients quasi fermés, mobiles tournant autour d'un axe vertical ou fortement incliné
Provided is a processing system including a plurality of processing machine units that can be easily installed. The processing system includes: a processing chamber unit configured to accommodate a workpiece, the processing chamber unit including, a wall portion having a window, and a conveyor surrounded by the wall portion, the conveyor configured to grip and convey the workpiece to a processing position opposing to the window; and a processing machine unit disposed to cover the window, the processing machine unit including a processing part configured to process the workpiece located at the processing position through the window.
Provided is a cleaning machine that allows a nozzle to be inserted into the internal space of the cleaning machine in a simple structure. The cleaning machine includes: a table rotatable about a table axis extending in a vertical direction; a feeder extending in a front-rear direction, the feeder movable only in the vertical direction and the front-rear direction; a nozzle head disposed on the feeder, and a nozzle including an ejection opening facing in a direction different from the table axis, the nozzle disposed on the nozzle head, the nozzle rotatable about a nozzle axis extending in the vertical direction.
Provided is a detachable tool detachably attached to a tool mounting hole of a tool holder including the tool mounting hole, and a retaining body disposed in the tool mounting hole in a radially inwardly reciprocable manner. The detachable tool includes: a housing supported at a predetermined position of the tool mounting hole, the housing including an elastic body chamber, and a retaining body insertion hole through which the retaining body is inserted; a slider to which a tip tool having a blade at a basal end portion is mountable, the slider supported by the housing to reciprocate inside the tool mounting hole, the slider having a guide groove extending along the tool mounting hole; an elastic body disposed in the elastic body chamber to urge the slider toward a basal end; and an anti-rotation body disposed in the housing to be received in the guide groove.
The cavitation processing method, includes: immersing a nozzle that ejects a jet of a processing liquid of cavitation, a workpiece including a groove portion extending in a left-right direction and having edge portions at a front and a rear as viewed from the nozzle, and a guide member including a rectifying portion that flows the jet in a front-rear direction and a closing portion that closes a front end of the rectifying portion in the processing liquid; moving the closing portion to close to a front edge portion; ejecting the jet from the nozzle; and introducing the jet to the rectifying portion from the rear to cause the jet to collide with the closing portion for changing a flow direction of the jet to cause the jet to collide with a bottom portion of the groove portion.
This in-pipe traveling vehicle 1 comprises: a main body 2; a traveling device 3 that is provided to the main body 2 and moves the main body 2; and a detection device 5 that is provided at one end of the main body 2 in the longitudinal direction of the main body 2 and detects that the in-pipe traveling vehicle 1 comes into contact with an obstacle inside a sewer pipe P. The detection device 5 has: an upper bumper member 61 and a lower bumper member 65 that are displaced by coming into contact with the obstacle; and an upper switch 71 and a lower switch 72 that are pressed by the displaced upper bumper member 61 and lower bumper member 65. The upper bumper member 61 and the lower bumper member 65 are displaced by rotating about an axis 57a.
Provided is a tool bracket capable of tilting a spindle body even when a moment load acting on the spindle body is relatively small. A tool bracket includes: a housing including a cylinder chamber extending along a cylinder axis; a piston urged by compressible fluid toward distal end to reciprocate in the cylinder chamber and having an action portion disposed at distal end; and a tilting body having a tilt axis and disposed in the cylinder chamber in a tiltable manner with respect to the cylinder axis, and includes a centering portion disposed at basal end to abut the action portion, the centering portion presses the piston with the cylinder axis as an action line when the tilt axis is tilted from the cylinder axis.
Provided is a tool bracket in which a spindle body is inserted and the spindle body can be smoothly tilted. The tool bracket includes a housing including a cylinder chamber extending along a cylinder axis; a tilting body having a tilt axis configured to tilt about a tilt center, the tilting body to which a spindle body is attachable, the tilting body tiltable with respect to the cylinder axis; a rotation stopper member extending in a radial direction from the tilt axis, the rotation stopper member disposed in the tilting body; and a receiving groove extending along the cylinder axis, the receiving groove arranged in the housing.
Provided is a slit chamber capable of processing a large amount of a raw material even when the input amount of the raw material increases, and capable of suppressing the leakage of the raw material in a compact manner. The slit chamber includes a water guide nozzle to which a raw material is introduced; an upstream nozzle disposed downstream of the water guide nozzle and including an upstream nozzle water guide for the raw material to pass through; an intermediate nozzle disposed downstream of the upstream nozzle and including an intermediate nozzle atomizing channel to atomize the raw material; and a downstream nozzle disposed downstream of the intermediate nozzle and including a downstream nozzle atomizing channel to atomize the raw material that has flown the intermediate nozzle.
Removal of the support structure from the workpiece is in an easily automated way. A method for removing support structure includes: suspending abrasive into a process liquid; cutting a support structure along a cutting surface from an additively manufactured workpiece having a support surface, the support surface including the support structure for fixing the workpiece to a build platform; installing the workpiece with the support structure remaining on the support surface in the process liquid with suspended abrasive; immersing a nozzle for ejecting a cavitation jet of the process liquid into the process liquid; and ejecting the cavitation jet onto the workpiece from the nozzle immersed in the process liquid such that an angle between an ejection axis of the cavitation jet ejected from the nozzle and the support surface is between 0 to 20 degrees to remove the remaining support structure adhered to the workpiece.
An object of the present invention is to provide a cavitation processing method for performing the cavitation processing on a side surface of an target hole of an workpiece. The cavitation processing method, includes: immersing a workpiece and a nozzle in a processing liquid, the workpiece having a target hole having an axial line and a side surface, the nozzle having an ejection port; and ejecting a jet of the processing liquid containing a cavity along an ejection direction, the ejection direction being inclined with respect to the axial line as viewed from perpendicular to the axial line and being inclined with respect to a normal line from the ejection port to the side surface as viewed along the axial line.
B24C 1/10 - Méthodes d'utilisation de jet abrasif en vue d'effectuer un travail déterminéUtilisation d'équipements auxiliaires liés à ces méthodes pour augmenter la compacité des surfaces, p. ex. par grenaillage
A processing tool includes: a body including a cylinder chamber having an opening toward a distal end, and a slide groove extending parallel to the cylinder chamber; a tool received in the cylinder chamber in a detachably attachable manner, and having an anti-rotation groove on an outer periphery; an anti-rotation body disposed in the body and advance to or retract from the cylinder chamber; a pusher disposed in the cylinder chamber in a reciprocable manner, and urges the tool toward the distal end, the pusher including, a pusher body, a retaining body received in the slide groove, and an advance-retract spring disposed on a basal end of the pusher in the cylinder chamber, and urge the pusher toward the distal end.
The disclosure provides a deburring apparatus comprising a housing which includes a shank and a mechanism chamber arranged along a shank-axis; a plurality of transmission rods which are arranged around the shank-axis in parallel with the shank-axis and fixed to the mechanism chamber; a tilting shaft which is arranged along a tilting axis passing through a tilting center on the shank-axis and is tiltable around the tilting center. The tilting shaft includes a flange portion, a receiving portion which includes an abutting surface, is arranged in the flange portion, and is penetrated by the transmission rods respectively; and a rod portion which is arranged on a distal end side of the flange portion and holds a cutter. Each of the transmission rods includes a bulge portion which is arranged on a plane perpendicular to the shank-axis and passing through the tilting center and is in contact with the abutting surface.
When machining small diameter holes, tool breakage and torque fluctuation at the machining point are detected. The machining method includes: measuring a reference thrust of a spindle when the spindle is fed from a machining feed start point to a machining end point in a direction in which the spindle extends under a machining condition without machining a workpiece; determining a threshold with respect to a feed coordinate based on the reference thrust; measuring a machining thrust of the spindle with respect to the feed coordinate while machining the workpiece; and comparing the machining thrust with the threshold with respect to the feed coordinate.
B23Q 15/013 - Commande ou régulation du mouvement d'avance
B23Q 17/09 - Agencements sur les machines-outils pour indiquer ou mesurer pour indiquer ou mesurer la pression de coupe ou l'état de l'outil de coupe, p. ex. aptitude à la coupe, charge sur l'outil
A lateral processing machine, includes: a bed; a floor surface X-axis guide; a first moving column that reciprocates in X direction; a first Y-axis guide disposed on the first moving column; a first processing unit guided by the first Y-axis guide and including a first ram that supports a first spindle and advances or retracts in Z direction; a second processing unit guided by the first Y-axis guide and including a second ram that rotatably supports a second spindle and advances or retract in Z direction; a first tool changer that exchanges a tool with the first spindle positioned at a first tool changing position; and a second tool changer that exchanges the tool with the second spindle positioned at a second tool changing position when the first spindle is positioned at the first tool changing position.
The lateral processing machine includes a bed, a floor surface X-axis guide, a first moving column that reciprocates in X direction, a first Y-axis guide disposed on the first moving column, a first processing unit guided by the first Y-axis guide and includes a first ram that supports the first spindle and advances or retracts in Z direction, a second processing unit guided by the first Y-axis guide and includes a second ram that supports the second spindle and advances or retracts in Z direction, and an expansion cover including a box cover, a first X box, a first X telescopic cover, a first Y box receiving a first ram, a second Y box receiving a second ram to reciprocate in Y direction, a first Y telescopic cover, a second Y telescopic cover, and a third Y telescopic cover.
The cavitation process is performed on the inner surface of the target hole. The cavitation processing method includes; attaching a cap having a through hole to an inlet of a target hole of a workpiece; immersing the workpiece and a nozzle into a processing liquid; and ejecting a jet of the processing liquid from the nozzle located outside of the target hole to an inside of the target hole through the through hole such that a cavitation process is performed on a processing region that is located downstream of a non-processing region covered by the cap on an inner surface of the target hole.
The present disclosure provides a biodegradable resin composition, which has a good tensile strength and an enhanced impact resistance compared with previous biodegradable resins. The biodegradable resin composition includes a biomass nanofiber and a biodegradable resin, where the content of the biomass nanofiber ranges from 0.1% to 10% by mass.
A gas compressor (1) according to one embodiment comprises a gas cylinder (3A) and a hydraulic cylinder (4A). The gas cylinder (3A) includes a gas cylinder tube (31), a gas cover (32), and a gas piston (33). The gas piston (33) forms a compression chamber (3a) between the gas piston (33) and the gas cover (32). The hydraulic cylinder (4A) includes a hydraulic cylinder tube (41), a first hydraulic cover (42), a second hydraulic cover (43), and a hydraulic piston (44). The hydraulic piston (44) forms a first drive chamber (4a) between the hydraulic piston (44) and the first hydraulic cover (42), and forms a second drive chamber (4b) between the hydraulic piston (44) and the second hydraulic cover (43). The gas compressor (1) further comprises a rod (51) which passes through the first hydraulic cover (42) and which connects the gas piston (33) and the hydraulic piston (44), and a position detector (8A) which is attached to the second hydraulic cover (43) and which detects the position of the hydraulic piston (44).
F04B 39/00 - Parties constitutives, détails ou accessoires de pompes ou de systèmes de pompage spécialement adaptés aux fluides compressibles, non prévus dans les groupes ou présentant un intérêt autre que celui visé par ces groupes
F04B 35/02 - Pompes à piston spécialement adaptées aux fluides compressibles et caractérisées par les moyens d'entraînement de leurs organes de travail ou par leur combinaison avec les machines motrices ou moteurs qui les entraînent ou bien par leurs adaptations à cet effet, non prévues ailleurs les moyens étant fluides
27.
SURFACE TREATMENT METHOD FOR SURGICAL IMPLANT AND SURGICAL IMPLANT
Provided is a surface treatment method for a surgical implant that improves fatigue strength of the surgical implant while maintaining the microscopic surface structure of the surgical implant. A surface treatment method for a surgical implant, including: placing an additive manufactured surgical implant in a processing liquid, the surgical implant including a microscopic surface structure having a complete penetration area and an incomplete penetration area; and causing a nozzle immersed in the processing liquid to eject a cavitation jet of the processing liquid to the surgical implant to remove the incomplete penetration area remaining on a surface of the surgical implant and apply a compressive residual stress to the surface of the surgical implant.
A lateral processing machine includes an upper beam and a lower beam extending in an X direction; upper and lower X guides extending in the X direction; a first moving column including a first connection block on the upper X guide to move in the X direction, a second connection block on the lower X guide to move in the X direction, and a first column portion connecting the first connection block and the second connection block; a pair of first Y guides extending in the Y direction; a first Y table movable in the Y direction; and a first processing unit detachably attached to the first Y table and including a first ram movable in a Z direction and a first spindle supported by the first ram.
B23B 39/10 - Machines ou dispositifs d'utilisation générale, pour l'alésage ou le perçageEnsemble machines à aléser ou à percer caractérisés par le système d'entraînement, p. ex. entraînement hydraulique, entraînement pneumatique
Provided is a tool magazine capable of automatically exchanging a tool holder between the tool magazine and a spindle. A tool magazine includes: a magazine body; an operation lever disposed to the magazine body, the operation lever reciprocable in the axial direction of the spindle with the operation sleeve in a supportable manner, the operation lever including, an operation sleeve receiving hole configured to receive the operation lever, and a hook portion disposed in the operation sleeve receiving hole to be hooked in the receiving portion, an operation lever guide configured to guide the operation lever in the axial direction of the spindle; and an operation elastic body configured to urge the operation lever toward a basal end of the spindle against an elastic force of the holder elastic body.
A deburring tool includes: a body having a cylinder bore; an anti-rotation body protruding toward inside of the cylinder bore; a cylindrical slide shaft reciprocable inside the cylinder bore, and an elastic body urges the slide shaft toward a cutting depth direction. The slide shaft includes a guide groove having a displacement width for the slide shaft to axially displaceable with respect to the anti-rotation body, and the guide groove moves the slide shaft with respect to the body in an opposite direction to the cutting depth direction as the guide groove receives cutting resistance.
Provided is an indexing processing machine, including: an index table having a rotation center, a workpiece being attachable to the index table at multiple index positions; and one or more processing machines selected from the group of a front processing machine, a top processing machine, and a side processing machine, the one or more processing machines disposed at least two of the multiple index positions.
Provided is a cavitation processing device that yields an optimal cavitation effect at a suitable processing position. This cavitation processing device has: a nozzle 2 that sprays a cavitation fluid C1; a direction-switching unit 3 that switches the flow direction of the cavitation fluid C1, the direction-switching unit 3 having a groove part 5 that guides the flow direction of the cavitation fluid C1 and restricts diffusion of cavitation bubbles C2 present within the cavitation fluid C1; and a workpiece-fixing unit 6 on which a workpiece W is disposed.
Provided is a cavitation processing device that evenly gives cavitation effects (such as residual stresses) to a surface and a deep portion of a component. The cavitation processing device comprises: a nozzle 2 that sprays a cavitation fluid C onto a workpiece W; a direction switching part 3 that changes a direction of a flow of the cavitation fluid C that has collided with the workpiece W and branched off, so as to enclose the flow of the cavitation fluid C inwards; a drive device 4 that has a rotating shaft 4a, and rotates the workpiece W together with the rotating shaft 4a; and a support part 5 that supports one end of the rotating shaft 4a.
Provided is an atomizing apparatus that reduces stress concentration applied to a slit chamber, maintains an appropriate tightening force, and improves maintenance performance. The slit chamber includes: a water guide nozzle into which raw material is supplied; an upstream nozzle disposed on a downstream side of the water guide nozzle, the upstream nozzle including a first and a second upstream nozzle water guide portions each having an elongated hole and having enlarged diameter portions at both ends; and a downstream nozzle disposed on a downstream side of the upstream nozzle, the downstream nozzle having a downstream nozzle water guide portion into which the raw material is supplied.
B01F 23/213 - Mélange de gaz avec des liquides par l’ajout de liquides dans les milieux gazeux par pulvérisation ou atomisation des liquides
B05B 1/04 - Buses, têtes de pulvérisation ou autres dispositifs de sortie, avec ou sans dispositifs auxiliaires tels que valves, moyens de chauffage agencés pour produire un jet, un pulvérisat ou tout autre écoulement de forme ou de nature particulière, p. ex. sous forme de gouttes individuelles de forme plane, p. ex. en forme d'éventail, en forme de lame
Provided is a wet atomizer capable of stably increasing a pressure in a pressurizing chamber and performing highly reproducible raw material process. A wet atomizer includes a motor; a power transmission device that converts a rotational motion of the motor into a reciprocating motion; a high-pressure cylinder; a plunger that reciprocates inside the high-pressure cylinder by the power transmission device to pressurize raw materials; a drive controller that controls the reciprocating motion of the plunger; a nozzle that atomizes pressurized raw material; a first check valve disposed downstream of the nozzle; and a first elastic member that presses the first check valve.
B01F 35/221 - Commande ou régulation des paramètres de fonctionnement, p. ex. du niveau de matière dans le mélangeur, de la température ou de la pression
Provided is a processing tool capable of sliding a tool relative to a shank with a simple structure, to which a tool holder is detachably attached. The processing tool to which the tool is detachably attached, includes: a body; a spindle including tool holder holding hole, a first anti-rotation body holding hole; a cover including a pressing surface and a relief portion; a tool holder detachably inserted into the tool holder holding hole, the tool holder including a first anti-rotation groove, a tool holding hole, and a first spring holding hole, an anti-rotation body movable between the first anti-rotation groove and the pressing surface, the anti-rotation body accommodated in the relief portion when the cover is located at the detachable position and the tool holder is removed from the tool holder holding hole; and an elastic member to urge the tool holder toward distal end.
Provided is a cleaning apparatus that cleans a cleaning target portion of a workpiece by a downward nozzle or a lance. The cleaning apparatus includes: a support table rotatable about a first axis that extends horizontally and having a first through hole that passes through the support table in a direction of a second axis perpendicular to the first axis; a cleaning table on which the workpiece is to be installed and rotatable about the second axis, the cleaning table having a second through hole that passes through the cleaning table in a direction of the second axis to expose substantially entire surface of an installation surface of the workpiece; a nozzle base movable in a lateral direction, a front-rear direction, and a vertical direction relative to the support table; and a nozzle disposed on the nozzle base in a rotatable manner about a nozzle rotational axis extending in the vertical direction.
A deburring tool includes a body including a cylinder chamber having a tool holder holding hole, and an anti-rotation body holding hole; a tool holder having an anti-rotation groove and disposed in the cylinder chamber to reciprocate in the cylinder chamber; a first elastic body disposed inside the cylinder chamber to urge the tool holder toward a distal end; a cover disposed outside the body to reciprocate between a detaching position and a processing position, the cover including, a pressing surface that covers the anti-rotation body holding hole at the processing position, and a relief portion; and an anti-rotation body accommodated in the relief portion when the cover is positioned at the detaching position and the tool holder is pulled from the tool holder holding hole.
B23B 29/08 - Porte-outils équipés de gorges transversales pour le montage de l'outil de coupe
B23B 31/107 - Caractérisés par les dispositifs de maintien ou de serrage ou par leurs moyens d'action directe le maintien étant assuré par des éléments d'arrêt agissant latéralement, p. ex. doigts, écrous, clavettesCaractérisés par les dispositifs de maintien ou de serrage ou par leurs moyens d'action directe le maintien étant assuré par éléments mobiles, p. ex. des billes
B23B 31/113 - Caractérisés par les dispositifs de maintien ou de serrage ou par leurs moyens d'action directe le maintien étant assuré par liaison du type à baïonnette
B23B 31/00 - Mandrins de serrageMandrins extensiblesLeurs adaptations à la commande à distance
A tap holder having a simple structure and high runout accuracy is provided. A tap holder includes: a body having a collet holder hole having an opening toward distal end; a tap collet received in the collet holder hole, the tap collet having a tap mounting hole located at a distal end portion, and a sleeve hole located at a basal end portion; a torque transmission mechanism that transmits rotation of the body to the tap collet; a first elastic body disposed between the body and the tap collet to urge the tap collet toward distal end; a sleeve disposed to the body by received in the sleeve hole to prevent the tap collet from slipping off toward distal end; and a second elastic body disposed between the sleeve and the tap collet to urge the tap collet toward basal end.
Provided is a wet atomizer for processing all-solid-state battery raw materials while ensuring sealing property, operability after completion of processing, and maintenance property. The wet atomizer includes a liquid supply pump for supplying the all-solid-state battery raw materials, a pressure intensifier for pressurizing the all-solid-state battery raw materials supplied from the liquid supply pump, a high-pressure filter for filtering the all-solid-state battery raw materials pressurized by the pressure intensifier, a chamber for injecting the all-solid-state battery raw materials filtered by the high-pressure filter, a sealing member for sealing the space for processing the all-solid-state battery raw materials, and an inert gas supply unit for supplying an inert gas to the sealing member.
B01J 2/06 - Procédés ou dispositifs pour la granulation de substances, en généralTraitement de matériaux particulaires leur permettant de s'écouler librement, en général, p. ex. en les rendant hydrophobes par division du produit liquide en gouttelettes, p. ex. par pulvérisation, et solidification des gouttelettes en milieu liquide
The peening apparatus includes a processing tank, a table, a moving unit including a nozzle moving device, a quill, a first head having a mounting hole and disposed at a distal end of the quill, a motor and a first spindle exposed from the mounting hole, a nozzle head portion separable from the moving unit and including a second head having a connection port connected to the mounting hole, a connecting shaft connected to the first spindle, a second spindle, a nozzle disposed below the second spindle, a nozzle flow path penetrating inside the second spindle and connected to the nozzle to be opened to an upper end of the second spindle, and a swivel joint disposed at an upper end portion of the second spindle and connected to the nozzle flow path.
B24C 1/10 - Méthodes d'utilisation de jet abrasif en vue d'effectuer un travail déterminéUtilisation d'équipements auxiliaires liés à ces méthodes pour augmenter la compacité des surfaces, p. ex. par grenaillage
B24C 7/00 - Équipement d'alimentation en matériau abrasifCommande de l'écoulement de la composition ou des autres caractéristiques physiques du jet abrasif
Water jet machines and apparatus for metalworking; machining
centers; metalworking machines and tools; high pressure
deburring machines and apparatus for metalworking; deburring
machines; high pressure washing machines and apparatus for
metalworking; high pressure washers for industrial purposes;
pumps [machines]; repairing or fixing machines and
apparatus; maintaining and servicing machines for nuclear
power station.
Provided is an easy and clean processing machine. The processing machine includes a processing chamber having a discharge port; a tank having an inflow port with a gap from the discharge port; a drawer to be stowed in the processing chamber and pulled out rearward from the processing chamber, the drawer including a front plate, a pair of side plates, and a bottom plate including a filter disposed in a front portion, a guide including a stopper; and a slider including a latch portion to collide with the stopper to stop the drawer at an intermediate position. The discharge port is located above the bottom plate, and the filter is located above the inflow port when the drawer is located at the intermediate position.
(1) High pressure water jetting system for metalworking; machining centers for metalworking; metalworking machines and tools; high pressure deburring machines and apparatus for metalworking; deburring machines; high pressure washing machines and apparatus for metalworking; high pressure washers for industrial purposes; pumps [machines], namely pumps as parts of machines, motors and engines, pumps for industrial machinery, high-pressure pumps for washing appliances and installations, pumps for pressure washers
Water jet cutting machines for metalworking; metalworking machines, namely, machining centers; metalworking machines and metalworking machine tools; high pressure deburring machines for metalworking; power tools, namely, deburring tools; deburring tools being parts of machines; high pressure washing machines for metalworking; high pressure washers for industrial purposes
Provided is a nozzle for jetting liquid in an accurate direction with respect to a nozzle mounting hole. The nozzle is mounted to a nozzle holder having a nozzle mounting hole having a right cylindrical shape, an outlet port connected to the nozzle mounting hole, and a mounting internal thread. The nozzle includes: a mounting external thread disposed at a first end, and is a parallel thread that fits with the mounting internal thread; a cylindrical portion that fits in the nozzle mounting hole; a first introducing passage disposed coaxially with the cylindrical portion; a cylindrical choke portion disposed coaxially with the cylindrical portion, and a conical portion connecting the first introducing passage to the cylindrical choke portion.
B05B 1/10 - Buses, têtes de pulvérisation ou autres dispositifs de sortie, avec ou sans dispositifs auxiliaires tels que valves, moyens de chauffage agencés pour produire un jet, un pulvérisat ou tout autre écoulement de forme ou de nature particulière, p. ex. sous forme de gouttes individuelles sous forme d'un jet fin, p. ex. pour lave-glace d'automobiles
B05B 15/65 - Aménagements de montage pour la liaison fluide de l’appareil de pulvérisation ou de ses sorties aux conduits d’écoulement
The vacuum dryer includes: a first half chamber having a first opening, and a drying table on which a workpiece is fixed and positioned at a drying phase; a second half chamber having a second opening and coupled with the first half chamber to form a hermetic chamber; a first moving device that moves the second half chamber relative to the first half chamber between a separated position and a coupled position; a first volume adjusting body disposed in the second half chamber and having a shape that does not collide with the workpiece and the drying table when the drying table is positioned at the drying phase and the second half chamber is located at the coupled position; and a vacuum pump.
F26B 5/04 - Procédés de séchage d'un matériau solide ou d'objets n'impliquant pas l'utilisation de chaleur par évaporation ou sublimation de l'humidité sous une pression réduite, p. ex. sous vide
F26B 11/14 - Machines ou appareils à mouvement non progressif pour le séchage d'un matériau solide ou d'objets dans des tambours ou autres récipients quasi fermés, fixes, avec dispositifs agitateurs mobiles le dispositif agitateur se déplaçant dans un plan horizontal ou légèrement incliné
A deburring method includes rotating a case, a sleeve and a drive gear together with a spindle of a machining tool; transmitting rotating torque from the drive gear to a driven gear to rotate a tip tool together with a reciprocating shaft; receiving reactive torque to the tip tool in a reverse direction of a rotational direction of the case by a workpiece contact with the tip tool so that the reciprocating shaft rotates in a reverse direction of the rotational direction with respect to the sleeve; moving the reciprocating shaft to a basal end direction against an elastic force of a second spring with the driven gear sliding with respect to the drive gear; and cutting the workpiece by the tip tool.
KYUSHU UNIVERSITY, NATIONAL UNIVERSITY CORPORATION (Japon)
IKEDA KOGYO CO., LTD (Japon)
SUGINO MACHINE LIMITED (Japon)
Inventeur(s)
Asano, Takahiro
Nishiyama, Shozo
Kainuma, Shigenobu
Ikeda, Tatsuya
Arakawa, Takehiko
Abrégé
Provided is a method for achieving more improved results in a base material adjusting method employed when maintaining a structure, such as a bridge, formed from a steel material. In this new method for removing rust from a rusted steel material, a rusted part is removed by subjecting the surface of the steel material to abrasive water jet treatment.
B24C 1/00 - Méthodes d'utilisation de jet abrasif en vue d'effectuer un travail déterminéUtilisation d'équipements auxiliaires liés à ces méthodes
B24C 1/06 - Méthodes d'utilisation de jet abrasif en vue d'effectuer un travail déterminéUtilisation d'équipements auxiliaires liés à ces méthodes pour réaliser des surfaces mates, p. ex. sur les matériaux plastiques, sur le verre
Provided is an intensifier capable of cleaning a portion where pressurized raw material adheres without disassembling the inside. The intensifier for pressurizing raw material using medium supplied from a driving pump including: a low-pressure cylinder to which the medium is supplied; a high-pressure cylinder fixed to the low-pressure cylinder; a piston that slides inside the low-pressure cylinder and the high-pressure cylinder by the medium supplied to the low-pressure cylinder; a bottom adapter that supports the piston for sliding motion; and a resin portion disposed on an inner periphery of the bottom adapter.
Provided is a cavitation processing apparatus for providing cavitation effects such as residual stress evenly on the surface and inner part of the component. The cavitation processing apparatus includes: a nozzle that ejects cavitation fluid to a workpiece; a direction changing member that changes a flow direction of the cavitation fluid that collided with the workpiece to be branched toward inside; a driving apparatus including a rotary shaft, the driving apparatus that rotates the workpiece together with the rotary shaft; and a support member supporting one end of the rotary shaft.
B08B 3/12 - Nettoyage impliquant le contact avec un liquide avec traitement supplémentaire du liquide ou de l'objet en cours de nettoyage, p. ex. par la chaleur, par l'électricité ou par des vibrations par des vibrations soniques ou ultrasoniques
B24C 1/10 - Méthodes d'utilisation de jet abrasif en vue d'effectuer un travail déterminéUtilisation d'équipements auxiliaires liés à ces méthodes pour augmenter la compacité des surfaces, p. ex. par grenaillage
To provide a cavitation processing device that provides proper cavitation effect for an appropriate processing position. The cavitation processing apparatus includes a nozzle configured to eject cavitation fluid; a direction changing member configured to change a flow direction of the cavitation fluid, the direction changing member having groove for guiding the flow direction of the cavitation fluid, the groove configured to suppress cavitation bubbles contained in the cavitation fluid from dispersing; and a workpiece fixing member on which a workpiece is arranged.
Metalworking machines and tools; plastic processing machines
and apparatus; semiconductor manufacturing machines and
systems; cleaning machines and apparatus; cleaning machines
and apparatus for mechanical parts; cleaning machines and
apparatus using high pressure water jet; deburring machines
and apparatus using high pressure water jet.
The drilling machine includes a spindle, a spindle motor, a frame including, a linear motion guide support plate, a motor support portion, and a ram support plate disposed at a front end of the linear motion guide support plate, and having a height lower than the motor support portion, a linear motion guide disposed on the reference surface, a slider having a nut mounting hole to reciprocate along the linear motion guide, and having a height substantially the same as the motor support portion, a ram penetrating the first ram guide hole, a feed screw including a screw shaft having a rear end supported by the motor support portion and a front end that is a free end, and a nut fastened to the nut mounting hole; and a feed motor connected to the screw shaft.
B23B 3/24 - Machines ou dispositifs à tourner à têtes porte-outils rotatives dont les outils n'effectuent pas de mouvement radialTêtes porte-outils rotatives appropriées
B23Q 3/08 - Moyens de fixation de la pièce autres que les moyens actionnés mécaniquement
The present disclosure provides a deburring apparatus and a deburring method that does not require a positioning engagement part that is engaged with a fixed part of a machine tool. The deburring apparatus (10) includes a housing (1) with a shank (11), a transmission rod (3), a recovery rod (5), a tilting shaft (4), a spring (6), a holder (7), and a rotary-to-rectilinear motion conversion mechanism (9) with a plunger (8). The spring forces the recovery rod toward the tilting shaft. The holder for fixing the cutter (101) is arranged on the tilting shaft in a manner rotatable through a predetermined rotation angle. The rotary-to-rectilinear motion conversion mechanism separates the first flange portion from the second flange portion and brings the plunger into contact with the recovery rod on the tilting axis (43) when the holder rotates in a direction opposite to the rotation direction of the shank (11).
Provided is a compact tool changer. The vertical machine tool includes a frame, a spindle, a moving device for moving the spindle, a magazine including a plurality of pots that move up and down installed in a pot holder, a pot lifter for moving up and down the pot at a pot tool changing position, and an intermediate arm assembly that moves among a magazine position, an intermediate position, and a spindle position. The intermediate arm assembly includes an arm having a first gripper and a second gripper, and an arm rotation device for positioning the first gripper or the second gripper to either a pot phase or a spindle phase.
An apparatus capable of efficiently performing a metal surface processing. The abrasive peening apparatus includes a processing tank storing abrasive particles and peening liquid, and including a bottom portion in which a workpiece is immersed in the peening liquid; a dispensing chamber having a plurality of recesses on an upper surface, and disposed in the bottom portion to dispense the peening liquid; a stirring nozzle disposed at a center of the recess directing vertically upward and connected to the dispensing chamber to eject the peening liquid; a peening nozzle immersed inside the processing tank to eject the peening liquid toward the workpiece; and a moving device moving the peening nozzle relative to the workpiece.
B24C 1/10 - Méthodes d'utilisation de jet abrasif en vue d'effectuer un travail déterminéUtilisation d'équipements auxiliaires liés à ces méthodes pour augmenter la compacité des surfaces, p. ex. par grenaillage
B24C 9/00 - Accessoires des machines ou dispositifs de traitement au jet abrasif, p. ex. enceintes de travail, dispositions pour la manutention des abrasifs usés
B24B 57/02 - Dispositifs pour l'alimentation, l'application, le triage ou la récupération de produits de meulage, polissage ou rodage pour l'alimentation en produits de meulage, polissage ou rodage à l'état fluide, vaporisés, pulvérisés ou liquéfiés
B24C 3/04 - Machines ou dispositifs de traitement au jet abrasifInstallations de traitement au jet abrasif caractérisés par la disposition des éléments d'assemblage les uns par rapport aux autres fixes
B24C 7/00 - Équipement d'alimentation en matériau abrasifCommande de l'écoulement de la composition ou des autres caractéristiques physiques du jet abrasif
B24B 31/00 - Machines ou dispositifs pour polir ou travailler par abrasion des surfaces "au tonneau", ou au moyen d'autres appareils, dans lesquels les pièces à travailler ou les produits abrasifs sont libresAccessoires à cet effet
B24C 5/02 - Canons, p. ex. pour produire des jets de fluides abrasifs à grande vitesse pour la coupe de matériaux
B24C 3/06 - Machines ou dispositifs de traitement au jet abrasifInstallations de traitement au jet abrasif caractérisés par la disposition des éléments d'assemblage les uns par rapport aux autres mobilesMachines ou dispositifs de traitement au jet abrasifInstallations de traitement au jet abrasif caractérisés par la disposition des éléments d'assemblage les uns par rapport aux autres portatifs
Metalworking machines and metalworking machine tools; plastic processing machines; semiconductor manufacturing machines; cleaning machines for mechanical parts; cleaning machines for cleaning mechanical parts using high pressure water jet; deburring machines using high pressure water jet
Provided is a cleaning method of reducing the power consumption. The cleaning method including: generating a jet of a cleaning liquid from a nozzle; moving the nozzle so that the jet collides with a target portion of a workpiece; acquiring a current position of the nozzle; determining whether the current position is within a target region corresponding to the target portion; ejecting the jet having an ejection pressure of a first pressure when the current position is within the target region; and ejecting the jet having the ejection pressure lower than the first pressure when the current position is other than the target region.
B08B 3/02 - Nettoyage par la force de jets ou de pulvérisations
G05B 19/402 - Commande numérique [CN], c.-à-d. machines fonctionnant automatiquement, en particulier machines-outils, p. ex. dans un milieu de fabrication industriel, afin d'effectuer un positionnement, un mouvement ou des actions coordonnées au moyen de données d'un programme sous forme numérique caractérisée par des dispositions de commande pour le positionnement, p. ex. centrage d'un outil par rapport à un trou dans la pièce à usiner, moyens de détection additionnels pour corriger la position
68.
Liquid processing apparatus and liquid processing method
Provided is a liquid processing apparatus and a liquid processing method for reducing a waste amount of a high specific gravity liquid. The liquid processing apparatus includes: a supply pump; a bubble tank including an inflow port, an overflow port, and a return port; a microbubble generator disposed outside the bubble tank; a recovery tank having a recovery port to recover the processing liquid overflown from a first liquid level to the tank; a separation tank including a settling tank connected to the overflow port, and a floating tank connected to the settling tank at a lower portion, and an ejector having a inlet port connected to the supply pump, a suction port connected the suction body, and a discharge port connected to the return port.
The machining apparatus includes: a cover including a side plate, a projecting portion disposed below the side plate, a rectangular shaped front opening, and a semicircular shaped planar opening; a first door body including a first drum disposed in a first side of a mating surface, a first abutting surface connected to the first drum, and a first top plate, and accommodated inside the cover by rotated about a first axis; and a second door body including a second drum disposed in the second side of the mating surface, a second abutting surface abut to the first abutting surface on the mating surface, and a second top plate, and accommodated inside the cover by rotated about a second axis.
A cleaning apparatus capable of thoroughly cleaning all parts of a workpiece is provided. The cleaning apparatus includes: a cleaning chamber; a table rotation shaft that rotates about a first axis; a first swivel fitting disposed inside the table rotation shaft; a table on which the cleaning workpiece is placed; a first motor that rotates the table rotation shaft; a propeller shaft that rotates about a second axis that is parallel to the first axis; a second swivel fitting connected to a propeller shaft; and a nozzle that rotates integrally with the second swivel shaft and that ejects a cleaning fluid in a direction different from the second axis toward the cleaning workpiece.
Turbulence of the jet ejected from the nozzle hole is suppressed. The nozzle includes a shaft body having a center axis, a liquid guide path located inside the shaft body and extending along the center axis, a liquid chamber disposed at a distal end portion of the liquid guide path the liquid chamber having a nozzle hole. The nozzle hole is located at the distal end portion of the liquid chamber, extending along the ejection axis that extends in a direction different from the center axis. The nozzle has an inlet portion having a smaller diameter toward the downstream, and a guide portion connected to the downstream of the inlet portion to guide the liquid to an opening.
B05B 1/34 - Buses, têtes de pulvérisation ou autres dispositifs de sortie, avec ou sans dispositifs auxiliaires tels que valves, moyens de chauffage agencés pour influencer la forme de l'écoulement du liquide ou d'autre matériau fluide, p. ex. pour produire une turbulence
B05B 1/10 - Buses, têtes de pulvérisation ou autres dispositifs de sortie, avec ou sans dispositifs auxiliaires tels que valves, moyens de chauffage agencés pour produire un jet, un pulvérisat ou tout autre écoulement de forme ou de nature particulière, p. ex. sous forme de gouttes individuelles sous forme d'un jet fin, p. ex. pour lave-glace d'automobiles
B05B 1/14 - Buses, têtes de pulvérisation ou autres dispositifs de sortie, avec ou sans dispositifs auxiliaires tels que valves, moyens de chauffage avec des orifices de sortie multiplesBuses, têtes de pulvérisation ou autres dispositifs de sortie, avec ou sans dispositifs auxiliaires tels que valves, moyens de chauffage avec des filtres placés dans ou à l'extérieur de l'orifice de sortie
A cleaning method of sufficiently cleaning a workpiece is provided. The cleaning method, including: rotating or swinging a workpiece having a first cleaning surface about a table rotation axis; ejecting cleaning fluid from a nozzle along an ejection axis; and swinging the nozzle about a nozzle rotation axis parallel to the table rotation axis to keep a constant impact angle formed between the ejection axis and the first cleaning surface for cleaning the workpiece.
A cleaning method capable of eliminating cleaning unrequired cleaning points is disclosed. The cleaning method is for a workpiece with foreign matter adhered, and the cleaning method includes: identifying cleaning points of the workpiece with the foreign matter adhered; substituting a true value to a cleaning variable for the identified cleaning points; generating a cleaning liquid jet from a main nozzle; skipping a first cleaning section if the cleaning variable has a false value; and executing the first cleaning section to direct the main nozzle toward the cleaning points if the cleaning variable has a true value.
Provided is a cleaning apparatus for cleaning a portion where a seating pad contacts or a hole into which a pin is inserted when a workpiece is placed. The cleaning apparatus for cleaning a workpiece having a placing portion and a reference hole, including: a table plate, a seating pad on which the workpiece is placed at the placing portion, a first nozzle that ejects a cleaning fluid, a pin inserted into the reference hole, and a second nozzle that ejects the cleaning fluid toward inside of the reference hole.
A deburring tool includes: a case; a hollow sleeve that reciprocates inside the cylinder in a non-rotating manner; a drive gear disposed inside the sleeve, includes a first tooth, and rotates together with the case and the sleeve; a reciprocating shaft disposed inside the sleeve, including a driven gear disposed at a basal end portion of the sleeve and a basal end side of the drive gear, the driven gear including a second tooth, a tool holder disposed at a distal end portion of the sleeve, and slides inside the sleeve in a rotational and reciprocating direction, and a stem that fixes the driven gear and the tool holder, and penetrates the drive gear, a first spring that urges the sleeve toward distal end direction; and a second spring that urges the tool holder from the drive gear toward distal end direction.
B23B 51/10 - Forets à chanfreiner, p. ex. travaillant comme des fraises
B23B 31/08 - Fixation des outils ou des pièces d'une façon élastique
B23B 31/107 - Caractérisés par les dispositifs de maintien ou de serrage ou par leurs moyens d'action directe le maintien étant assuré par des éléments d'arrêt agissant latéralement, p. ex. doigts, écrous, clavettesCaractérisés par les dispositifs de maintien ou de serrage ou par leurs moyens d'action directe le maintien étant assuré par éléments mobiles, p. ex. des billes
B24B 27/033 - Autres machines ou dispositifs à meuler pour le meulage d'une surface à des fins de nettoyage, p. ex. pour décalaminer ou corriger par meulage des défauts de la surface
B24B 29/00 - Machines ou dispositifs pour polir des surfaces de pièces au moyen d'outils en matière souple ou flexible avec ou sans application de produits de polissage solides ou liquides
The present disclosure provides a cleaning machine, including: a cleaning chamber; a turn table having a plurality of areas arranged around a rotary axis, configured to turn one area of the plurality of areas to the cleaning station and another area to the transport station, each of the plurality of areas having: a cleaning tank including a closable opening, a rotating device arranged at the cleaning tank, and a cleaning table on which the object is placed, and which is arranged on the rotating device and rotatably arranged in the cleaning tank; a nozzle moving device arranged in the cleaning station; a cleaning nozzle arranged on the nozzle moving device; a shutter arranged in the cleaning station and closing the closable opening; and a shutter moving device configured to move the shutter toward the closable opening.
B08B 3/02 - Nettoyage par la force de jets ou de pulvérisations
B08B 3/10 - Nettoyage impliquant le contact avec un liquide avec traitement supplémentaire du liquide ou de l'objet en cours de nettoyage, p. ex. par la chaleur, par l'électricité ou par des vibrations
B08B 13/00 - Accessoires ou parties constitutives, d'utilisation générale, des machines ou appareils de nettoyage
A compact cleaning apparatus including a robot with a narrow range of motion is provided. The cleaning apparatus includes: a cleaning chamber; a cleaning station; a drying station; a separation wall; a single axis robot including a column arranged adjacent to a side surface, a linear guide extending vertically, and a vertical moving saddle movable vertically; an arm portion including a first rotation saddle rotatable about a second axis extending vertically, a first arm swingable about a third axis extending horizontally and extending orthogonal to the third axis, a second arm rotatable about a fourth axis orthogonal to the third axis, a second rotation saddle rotatable about a fifth axis orthogonal to the fourth axis, a third rotation saddle rotatable about a sixth axis orthogonal to the fifth axis; and a hand for gripping a workpiece.
B08B 13/00 - Accessoires ou parties constitutives, d'utilisation générale, des machines ou appareils de nettoyage
B08B 3/02 - Nettoyage par la force de jets ou de pulvérisations
B08B 5/02 - Nettoyage par la force de jets, p. ex. le soufflage de cavités
B25J 9/04 - Manipulateurs à commande programmée caractérisés par le mouvement des bras, p. ex. du type à coordonnées cartésiennes par rotation d'au moins un bras en excluant le mouvement de la tête elle-même, p. ex. du type à coordonnées cylindriques ou polaires
Clamping an axially extending workpiece along a center axis and cleaning a shaft portion and an end to clean and dry the workpiece in a short period of time. A cleaning apparatus for cleaning the workpiece, including a cleaning chamber having a first side wall and a second side wall, a cleaning station including a cleaning axis, a cleaning nozzle, a first clamping device arranged on the first side wall, a second clamping device arranged on the second side wall, and a drying station including a drying axis, a drying nozzle, a second clamping device arranged on the second side wall, and a turn table having two regions arranged in a 180 degree rotational symmetry. The turn table arranges one of the two regions is arranged in the cleaning station, and the other in the drying station.
01 - Produits chimiques destinés à l'industrie, aux sciences ainsi qu'à l'agriculture
07 - Machines et machines-outils
11 - Appareils de contrôle de l'environnement
35 - Publicité; Affaires commerciales
37 - Services de construction; extraction minière; installation et réparation
Produits et services
Chemicals; flour and starch for industrial purposes; wood,
cotton and ramie pulp for manufacturing purposes; chemical
compositions for developing and printing photographs;
chemical preparations for use in printing; cellulose fine
fibers, chitin fine fibers and chitosan fine fibers for use
as food additives; cellulose fine fibers, chitin fine fibers
and chitosan fine fibers for use in the manufacture of skin
care cosmetics; cellulose fine fibers, chitin fine fibers
and chitosan fine fibers used as media for cell culture;
cellulose fine fibers, chitin fine fibers and chitosan fine
fibers used as reinforcement materials [fillers]. Metalworking machines and tools; construction machines and
apparatus; loading-unloading machines and apparatus;
chemical processing machines and apparatus; textile machines
and apparatus; food or beverage processing machines and
apparatus; lumbering, woodworking, or veneer or plywood
making machines and apparatus; pulp making, papermaking or
paper-working machines and apparatus; plastic processing
machines and apparatus; semiconductor manufacturing machines
and systems; stone working machines and apparatus;
non-electric prime movers, not for land vehicles, other than
water mills and wind mills; pneumatic or hydraulic machines
and instruments; repairing or fixing machines and apparatus;
mixing and deaeration machines for industrial purpose;
shafts, axles, spindles, bearings, shaft couplings and
connectors, machine elements not for land vehicles; power
transmissions and gearing, machine elements not for land
vehicles; shock absorbers and springs, machine elements not
for land vehicles; valves, machine elements not for land
vehicles; waste crushing machines; machining centers; gun
drill machines; drilling machines and apparatus for
metalworking; multi-spindle drilling heads; tapping machines
and apparatus; metalworking machines and tools with rollers
for specular finishing; metalworking machines and tools for
forming dimples; deburring tools; high pressure washing
machines and apparatus for metalworking; high pressure
deburring machines and apparatus for metalworking; water jet
machines and apparatus for metalworking; water jet machines
and apparatus for plastic-working; water jet machines and
apparatus for construction; water jet cutting machines and
apparatus for metalworking; water jet cutting machines and
apparatus for plastic-working; water jet machines and
apparatus for tank washing; powder crushing machines and
apparatus for making fine powders for chemical processing;
emulsifying machines and apparatus; laser processing
machines and apparatus for metalworking using laser
introduced by liquid column; laser processing machines and
apparatus for ceramic-working using laser introduced by
liquid column; liquid pumps; repairing and maintaining
machines and apparatus for equipment in a nuclear power
station, for repairing or fixing; metal tube working
machines and tools for heat exchanger maintenance; roller
conveyors; self-propelled loading-unloading machines and
apparatus having gantry structures. Drying machines and apparatus; drying apparatus for
metalworking; vacuum drying machines and apparatus for
machine parts. Retail services or wholesale services for metalworking
machines and tools, loading-unloading machines and
apparatus, chemical processing machines and apparatus and
semiconductor manufacturing machines and systems; retail
services or wholesale services for repairing or fixing
machines and apparatus; retail services or wholesale
services for pneumatic or hydraulic machines and
instruments; retail services or wholesale services for
electronic machines and apparatus; retail services or
wholesale services for measuring or testing machines and
instruments; retail services or wholesale services for
drying machines and apparatus. Repair or maintenance of loading-unloading machines and
apparatus; repair or maintenance of pumps; repair or
maintenance of construction machines and apparatus; repair
or maintenance of measuring and testing machines and
instruments; repair or maintenance of chemical processing
machines and apparatus; repair or maintenance of
metalworking machines and tools; repair or maintenance of
semiconductor manufacturing machines and systems; repair or
maintenance of textile machines and apparatus; repair or
maintenance of plastic processing machines and apparatus;
repair or maintenance of pneumatic or hydraulic machines and
instruments; repair or maintenance of machining centers, gun
drill machines and drilling machines for metal working;
repair or maintenance of high pressure washing machines and
deburring machines for metalworking; repair or maintenance
of drying machines and apparatus; repair or maintenance of
water jet machines and apparatus for metalworking; repair or
maintenance of water jet machines and apparatus for
plastic-working; repair or maintenance of laser processing
apparatus using laser introduced by liquid jet for
metalworking; repair or maintenance of laser processing
apparatus using laser introduced by liquid jet for
ceramic-working; repair or maintenance of conveyors for
metalworking; repair or maintenance of drying apparatus for
metalworking.
82.
Nozzle deflection measuring device and method thereof
The nozzle deflection measuring device includes: a nozzle that rotates about a rotation axis, and includes a cylindrical shaft body extending along the rotation axis, and a spout located at a distal end portion of the shaft body a tank-shaped container having an insertion opening, the insertion opening having a radius larger than a sum of a radius of the shaft body and a maximum allowable deflection amount of the nozzle, a folded back portion arranged entire circumference of the insertion opening and extending inward of the container, and a discharge port; a moving mechanism that moves the nozzle relative to the container; and a non-contact deflection measuring meter arranged outside of the container and in the vicinity of the insertion opening, and measures a deflection of the nozzle inserted through the insertion opening in a state where the spout is disposed inside the container.
G01B 11/24 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer des contours ou des courbes
B05B 15/14 - Aménagements pour empêcher ou réguler une détérioration structurelle des appareillages de pulvérisation ou de leurs sorties, p. ex. pour rompre à des emplacements souhaitésAménagements pour manipuler ou remplacer des parties détériorées
G01M 99/00 - Matière non prévue dans les autres groupes de la présente sous-classe
B05B 15/16 - Aménagements pour empêcher ou réguler une détérioration structurelle des appareillages de pulvérisation ou de leurs sorties, p. ex. pour rompre à des emplacements souhaitésAménagements pour manipuler ou remplacer des parties détériorées pour empêcher un contact non prévu entre des têtes de pulvérisation ou des buses et des corps étrangers, p. ex. protecteurs de buses
G01B 11/16 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer la déformation dans un solide, p. ex. indicateur optique de déformation
G01B 11/14 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour mesurer la distance ou la marge entre des objets ou des ouvertures espacés
A feeding device includes a feed base that is horizontally installed, a first driving source and a second driving source, a first saddle, a second saddle, a first propeller shaft, a second propeller shaft, a first transmission device, a second transmission device, and a holding device. The first saddle rotates about a first axis that goes along a vertical direction. The second saddle is disposed at the first saddle. The second saddle rotates about a second axis. The second axis goes along a horizontal direction. The first propeller shaft transmits a torque from the first driving source. The second propeller shaft transmits a torque from the second driving source. The first transmission device transmits a rotation of the first propeller shaft to the first saddle. The second transmission device transmits a rotation of the second propeller shaft to the second saddle. The holding device holds the object.
B25J 21/00 - Enceintes à dispositifs de manipulation intégrés
B08B 3/02 - Nettoyage par la force de jets ou de pulvérisations
B08B 13/00 - Accessoires ou parties constitutives, d'utilisation générale, des machines ou appareils de nettoyage
F16M 11/12 - Moyens pour la fixation des appareilsMoyens permettant le réglage des appareils par rapport au banc permettant la rotation dans plus d'une direction
Provided is a pump apparatus capable of suppressing an unintentional ejection of a high-pressure liquid from a nozzle. A pump apparatus including: an injection chamber having a door; a nozzle arranged in the injection chamber; a pump connected to the nozzle for discharging liquid; a motor for driving the pump; a door sensor for detecting that the door is closed; and a control device capable of communicating with the door sensor, the control device having a motor rotation unit for supplying driving power to the motor only when the door sensor detects that the door is closed.
F04B 49/02 - Commande d'arrêt, de démarrage, de décharge ou de ralenti
A47L 15/42 - Machines à laver ou à rincer la vaisselle ou les ustensiles de table Parties constitutives
A47L 15/00 - Machines à laver ou à rincer la vaisselle ou les ustensiles de table
F04B 17/00 - Pompes caractérisées par leur combinaison avec des machines motrices ou moteurs particuliers qui les entraînent ou par leur adaptation à ceux-ci
A drilling method of machining holes that are not regularly arranged in one direction in a short machining time is provided.
A drilling method, includes: creating a machining order of machining a first hole to be machined with a first spindle and a second hole to be machined with a second spindle for a workpiece having a plurality of target holes on a machining table, the first spindle and the second spindle arranged in X direction; rotating the machining table relative to the first spindle and the second spindle so that the first hole and the second hole are arranged in X direction with the first hole located nearer to the first spindle; moving the first spindle and the second spindle relative to the machining table so that the first hole and a center of the first spindle are aligned and the second hole and a center of the second spindle are aligned; and machining the first hole with the first spindle and the second hole with the second spindle.
B23B 39/16 - Machines à percer à plusieurs brochesPerceuses automatiques
B23B 35/00 - Méthodes d'alésage ou de perçage ou autres méthodes de travail impliquant l'utilisation de machines à aléser ou à percerUtilisation d'équipements auxiliaires en relation avec ces méthodes
B23B 39/24 - Machines à percer à plusieurs brochesPerceuses automatiques conçues pour une commande programmée
The present invention provides a cleaning machine capable of selecting a spray head independently of a rotational phase of a nozzle.
The cleaning machine includes a slide, a pump, a main valve, a nozzle switching valve, a compressed air source, a swivel joint, a motor, and a nozzle block. The nozzle switching valve has an inflow chamber, a first chamber, a second chamber, a stem, a conical first valve element abuttable against the first valve seat, a conical second valve element abuttable against the second valve seat, a piston, and a spring. The swivel joint has a swivel housing, a swivel shaft, a first nozzle flow path and a second nozzle flow path. The nozzle block has a first nozzle connected to the first nozzle flow path and a second nozzle connected to the second nozzle flow path.
B08B 3/04 - Nettoyage impliquant le contact avec un liquide
B05B 1/16 - Buses, têtes de pulvérisation ou autres dispositifs de sortie, avec ou sans dispositifs auxiliaires tels que valves, moyens de chauffage avec des orifices de sortie multiplesBuses, têtes de pulvérisation ou autres dispositifs de sortie, avec ou sans dispositifs auxiliaires tels que valves, moyens de chauffage avec des filtres placés dans ou à l'extérieur de l'orifice de sortie comportant des sorties de section réglable
B05B 7/08 - Pistolets pulvérisateursAppareillages pour l'évacuation avec des orifices de sortie séparés, p. ex. pour former des jets parallèles, pour former des jets croisés
87.
Dried cellulose fibers, cellulose fiber-resin composite, and molded article
Provided are dried cellulose fibers that are satisfactory dispersible in a resin when the cellulose fibers are mixed with the resin and can improve physical properties such as tensile elastic modulus and tensile strength of a resin composite, a cellulose fiber-resin composite including the cellulose fibers, and a molded article. The dried cellulose fibers include cellulose fibers, the cellulose fiber-resin composite includes the dried cellulose fibers, and the molded article is formed from the cellulose fiber-resin composite. The cellulose fibers have an average fiber diameter of 0.1 μm more and 20 μm or less and have a hemicellulose content of 50% or less in constituent sugar components. The dried cellulose fibers have a water content of 10% by mass or less.
37 - Services de construction; extraction minière; installation et réparation
Produits et services
Metalworking machines and metalworking machine tools; loading and unloading machines; dispersing machines for chemical processing; pneumatic drills, hand-held; industrial pneumatic tools; shafts, axles, spindles, bearings, shaft couplings and connectors, all being machine parts not for land vehicles; power transmissions and gearing for machines not for land vehicles; shock absorbers and springs being machine parts not for land vehicles; valves being machine parts not for land vehicles; metalworking machines, namely, machining centers; gun drill machines; drilling machines for metalworking; multi-spindle drilling heads being parts of machines; multi-spindle drilling heads for power drills; tapping machines, namely, thread tapping machines; metalworking machines and machine tools with rollers for specular finishing; power-tools, namely, deburring tools; deburring tools for industrial parts; high pressure washing machines for metalworking; high pressure deburring machines for metalworking; water jet machines for tank washing; powder crushing machines and machine tools for making fine powders for chemical processing; emulsifying machines and machine tools; laser processing machines for metalworking using laser introduced by liquid column; laser processing machines for ceramic-working using laser introduced by liquid column; piston pumps and booster pumps for liquid; metal tube working machines and power-operated tools for heat exchanger maintenance; metal tube working machines and machine tools for heat exchanger maintenance; roller conveyors; gantry loaders Drying apparatus for industrial parts; drying apparatus for machine parts; drying apparatus for metalworking; vacuum drying machines and apparatus for machine parts Repair or maintenance of loading-unloading machines and apparatus; pump repair or maintenance; repair or maintenance of measuring and testing machines and instruments; repair or maintenance of chemical processing machines and apparatus; repair or maintenance of metalworking machines and tools; repair or maintenance of pneumatic drills, hand-held; repair or maintenance of industrial pneumatic tools; repair or maintenance of metalworking machining centers; repair or maintenance of gun drill machines and drilling machines for metal working; repair or maintenance of high pressure washing machines and deburring machines for metalworking; repair or maintenance of drying apparatus for industrial parts; repair or maintenance of drying apparatus for machine parts; repair or maintenance of drying apparatus for metalworking; repair or maintenance of vacuum drying machines and apparatus for machine parts; repair or maintenance of laser processing apparatus using laser introduced by liquid jet for metalworking; repair or maintenance of laser processing apparatus using laser introduced by liquid jet for ceramic-working; repair or maintenance of conveyors for metalworking; repair or maintenance of drying apparatus for metalworking
A deburring tool for stable processing is provided. The deburring tool includes a cylindrical housing; a spindle loosely fitted and supported to be tiltable with respect to an axis of the housing, the spindle having a rotatable attachment portion for detachably attaching a cutting tool at a distal end; a pressed member arranged to the spindle; a piston slidably disposed inside the housing, the piston configured to press the pressed member toward the distal end; an elastic member configured to urge the piston toward the distal end; a separate ring arranged between the piston and the elastic member; and a flow path for supplying a compressible fluid between the separate ring and the piston.
A compact versatile cell-type cleaning device and cell-type drying device is provided. A cleaning apparatus includes: a cover having a loading port formed on a wall surface of a cleaning chamber, and an unloading port formed on a wall surface of a drying chamber; a partition plate having an intermediate transfer port for dividing into the cleaning chamber and the drying chamber; an intermediate door that opens and closes the intermediate transfer port; a turntable disposed inside the drying chamber and having a first gripping device that grips an object, and a moving device having a gripping device that grips the object through a loading port, cleans the object inside the cleaning chamber while gripping the object, and moves the object to the turntable.
B08B 3/10 - Nettoyage impliquant le contact avec un liquide avec traitement supplémentaire du liquide ou de l'objet en cours de nettoyage, p. ex. par la chaleur, par l'électricité ou par des vibrations
B08B 13/00 - Accessoires ou parties constitutives, d'utilisation générale, des machines ou appareils de nettoyage
A burnishing machine is provided in which both sides of a groove is machined by a single tool without changing the movement direction of a piston.
The burnishing machine, includes: a tip configured to press and process a process face; and a pressurizing unit configured to press the tip against the process face, the pressurizing unit including, a piston configured to reciprocate in a direction orthogonal to the tip, a cylinder portion that accommodates the piston such that the piston reciprocates; and a pressurizing mechanism configured to urge the tip to the process face at both timing of pushing the tip against the process face and pulling the tip against the process face by making the piston reciprocate.
B24B 39/04 - Machines ou dispositifs à brunir, c.-à-d. utilisant des organes de pression pour durcir les surfacesAccessoires à cet effet pour travailler extérieurement des surfaces de révolution
B24B 39/06 - Machines ou dispositifs à brunir, c.-à-d. utilisant des organes de pression pour durcir les surfacesAccessoires à cet effet conçus pour le travail de surfaces planes
B24B 39/00 - Machines ou dispositifs à brunir, c.-à-d. utilisant des organes de pression pour durcir les surfacesAccessoires à cet effet
A dryer for increasing the dryness by fixing the inside of a bowl-shaped workpiece toward a rotating table side is provided.
A dryer for drying an object includes a rotatable hollow cylindrical rotation shaft, a center shaft supported inside of the rotation shaft via a bearing and does not rotate, the center shaft having an inner blow passage therein extending along the center shaft, a rotation plate fixed to the first end of the rotation shaft; an inner fixed nozzle extending along the first end of the rotation shaft from the center shaft, a jig disposed on the rotation plate for fixing the object, a drive motor for rotating the rotation shaft, and a blower connected to the inner blow passage.
F26B 7/00 - Procédés de séchage d'un matériau solide ou d'objets utilisant une combinaison de procédés non couverts par un seul des groupes ou
F26B 3/02 - Procédés de séchage d'un matériau solide ou d'objets impliquant l'utilisation de chaleur par convection, c.-à-d. la chaleur étant transférée d'une source de chaleur au matériau ou aux objets à sécher par un gaz ou par une vapeur, p. ex. l'air
F26B 5/08 - Procédés de séchage d'un matériau solide ou d'objets n'impliquant pas l'utilisation de chaleur par traitement centrifuge
F26B 1/00 - Traitement préliminaire d'un matériau solide ou d'objets pour faciliter le séchage
F26B 11/18 - Machines ou appareils à mouvement non progressif pour le séchage d'un matériau solide ou d'objets sur des plateaux ou dans des cuvettes, des cuves ou autres récipients quasi ouverts, mobiles
F26B 21/00 - Dispositions pour l'alimentation ou le réglage de l'air ou des gaz pour le séchage d'un matériau solide ou d'objets
To improve the measurement accuracy of the state of the jet. The nozzle inspection apparatus includes a pump, a nozzle, a body having a cylinder, a pressure receiving plate receiving the jet generated by the nozzle, a piston load meter fixed to the pressure receiving plate and including a stem reciprocating in the cylinder, and a load meter measuring the load on the pressure receiving plate, and a moving mechanism moving the nozzle and the pressure receiving plate relative to each other.
G01L 5/00 - Appareils ou procédés pour la mesure des forces, du travail, de la puissance mécanique ou du couple, spécialement adaptés à des fins spécifiques
B05B 12/00 - Aménagements de commande de la distributionAménagements de réglage de l’aire de pulvérisation
G01L 1/00 - Mesure des forces ou des contraintes, en général
B05B 12/18 - Aménagements de commande de la distributionAménagements de réglage de l’aire de pulvérisation pour régler l’aire de pulvérisation en utilisant des fluides, p. ex. des courants de gaz
B05B 12/08 - Aménagements de commande de la distributionAménagements de réglage de l’aire de pulvérisation sensibles à l'état du liquide ou d'un autre matériau fluide expulsé, du milieu ambiant ou de la cible
The present invention makes it possible to achieve more efficient surface modification and refinement and to perform surface modification and atomization suitable for dispersion for different materials. Provided is a wet-type atomization method in which: gas is supplied to the interiors of a pair of hollow electrodes 31, 32, which are disposed so as to face each other inside a chamber 40, thereby causing the gas to be sprayed toward an opposing electrode; a pulse voltage is imparted to the electrodes 31, 32, thereby generating an in-liquid plasma in a plasma generation region; and a raw material solution 10 is sprayed from a high-pressure nozzle 41 disposed inside the chamber 40, thereby producing cavitation in the plasma generation region.
