The present invention comprises: a display unit (10); a movable reflection member (40); a drive unit (50) that rotates the movable reflection member around the axis of a rotary shaft (53) to change the display position of a virtual image; a support member (54) that is fixed to a lower case (70A) and has a groove-shaped bearing part (54a) into which the rotary shaft is fitted; a first elastic member (55) that is fixed to the support member and presses the rotary shaft toward the groove bottom of the bearing part by means of a resilient force toward the groove bottom; and a second elastic member (56) that regulates the displacement of the rotary shaft in the axial direction. The second elastic member has a fitting part (56a) to which a fitted part (73) is fitted in a fitting direction orthogonal to the axis of the rotary shaft, and a flexible piece part (56b) that can undergo bending deformation in the axial direction of the rotary shaft. The flexible piece part keeps the rotary shaft at a prescribed attachment position by a reaction force on a protrusion part (53a) accompanying the bending deformation. An upper case (70C) is provided with a locking part (74) that locks the fitting part and keeps the fitting part in a state of being held in the fitted part.
The present invention comprises a display unit (10), a plane mirror (20) that reflects display light from a display device (11), a first concave mirror (30) that reflects the reflected light of the plane mirror, and a second concave mirror (40) that reflects the reflected light of the first concave mirror and projects the reflected light from an emission port (70a) of an outer case onto a projection target part (Rwf). The outer case includes: a lower case (70A) that has an inlet port (70b) that causes the display light from the display device of the display unit fixed outside a compartment to enter the inside of the compartment, and that holds the plane mirror and the second concave mirror in the compartment and is fixed to a vehicle body; a lower cover (70B) that accommodates the display unit and is fixed to the lower case; and an upper case (70C) that has an outlet port, is fixed to the lower case, and clamps the first concave mirror together with the lower case. An inner case (80) is fixed to the lower case inside the compartment of the lower case, and clamps the plane mirror together with the lower case.
An image display device (100) comprises: a housing (10) in which an opening (10a) is formed in an upper wall (11a), and which accommodates a light source that irradiates light toward the opening (10a); a liquid crystal display unit (20) which is disposed at a position that closes the opening (10a), and which emits the light from the light source as display light L for an image; a bezel part (30) that is formed in a frame shape along the edge of the opening (10a) and is fixed to the housing (10) with the liquid crystal display unit (20) sandwiched between the bezel part and the edge of the opening (10a); and a flexible printed circuit board part (40) electrically connected to the liquid crystal display unit (20) and attached to the outer surface of a side wall (11b) of the housing (10) via an adhesive material.
F21S 2/00 - Systems of lighting devices, not provided for in main groups or , e.g. of modular construction
F21V 9/40 - Elements for modifying spectral properties, polarisation or intensity of the light emitted, e.g. filters with provision for controlling spectral properties, e.g. colour, or intensity
This image display device (100) comprises: a metal housing (10) in which an opening (10a) is formed in an upper wall (11a) and which accommodates a light source that emits light toward the opening (10a); a liquid crystal display unit (20) that is disposed at a position blocking the opening (10a) and outputs light from the light source as display light (L) of an image; a glass plate (60) that is disposed between the opening of the housing and the liquid crystal display unit, is in contact with the liquid crystal display unit, and transmits light from the light source to the liquid crystal display unit side; and a heat conduction sheet (80) that is disposed between the edge of the opening in the housing and the edge of the glass plate, receives the heat of the liquid crystal display unit via the glass plate, and transfers the heat to the housing.
F21S 2/00 - Systems of lighting devices, not provided for in main groups or , e.g. of modular construction
F21V 9/40 - Elements for modifying spectral properties, polarisation or intensity of the light emitted, e.g. filters with provision for controlling spectral properties, e.g. colour, or intensity
F21V 29/502 - Cooling arrangements characterised by the adaptation for cooling of specific components
F21V 29/503 - Cooling arrangements characterised by the adaptation for cooling of specific components of light sources
Provided is a bus bar arrangement structure (1) comprising a bus bar (3) that is disposed on an arrangement member (9), a holding member (5) that holds the bus bar (3), and a fixing member (7) that fixes the holding member (5) to the arrangement member (9), wherein the fixing member (7) is assembled to the holding member (5) so as to be movable in a plane direction parallel to the length direction of the bus bar (3) and is fixed to the arrangement member (9) so as to be movable in a direction orthogonal to the length direction of the bus bar (3).
A vehicular display device (1) according to the present invention comprises: a housing (71); a display unit (10) that emits, as display light in the housing (71), display information that can be visually recognized as a virtual image by an occupant in the vehicle cabin; a planar mirror (20) that reflects, in the housing (71), the display light emitted from a display (11) of the display unit (10); a first concave mirror (30) that reflects, in the housing (71), the display light reflected by the planar mirror (20); a second concave mirror (40) that reflects, in the housing (71), the display light reflected by the first concave mirror (30), and that causes the display light to be projected from an opening (71a) in the housing (71) to a projection section (Rwf) in the vehicle cabin. A planar mirror that transmits infrared light and a P-polarized light component of visible light and that reflects an S-polarized light component of visible light is used as the planar mirror (20).
A vehicle display device according to the present invention comprises: a housing; a display unit that emits, as display light into the housing, display information to be visually recognized as a virtual image by an occupant in a cabin; a plurality of reflective members that reflect the display light emitted from the display of the display unit in the housing; a holding member (45) molded of a high-rigidity material having higher rigidity than a movable reflective member (40), which is one of the plurality of reflective members, and holding the movable reflective member (40) from the rear surface on the back side of a display-light reflection surface (40a); a bezel member (46) that covers an outer peripheral edge of the reflection surface (40a) of the movable reflective member (40) and sandwiches the movable reflective member (40) with the holding member (45); and a drive unit (50) that rotates the movable reflective member (40) about the axis of a rotary shaft (53) of the holding member (45) to change the display position of the virtual image.
This electrical connection unit has a first bus bar and a metal component. At least a portion of the first bus bar has a plate shape. The metal component is disposed between the first bus bar and a connection target component which is an electronic component or a second bus bar. The metal component electrically connects the first bus bar and the connection target component. At least a portion of the metal component has a thickness greater than the plate thickness of the first bus bar.
This method for manufacturing an electrical connection unit includes: forming an assembly in which a connection object component and a metal component are integrated by fixing the metal component to the connection object component by using a first fastening member; and electrically connecting the connection object component and a bus bar by fixing the metal component included in the assembly to the bus bar by using a second fastening member after forming the assembly.
An electrical connection unit according to the present invention comprises a first member, a second member, a first electronic component, a second electronic component, a first bus bar, a metal member, and a first heat conduction member. The first bus bar has a first end, a second end, and an extension section. The extension section has a plate shape and extends along the first member. The metal member is disposed, on the first member, on the side opposite from that of the second member. The first heat conduction member is disposed between the extension section and the metal member in a first direction. The first heat conduction member has an outer shape that is smaller than that of the extension section in a second direction. The first heat conduction member overlaps the extension section at a position closer to the first end than the center of the extension section in the second direction.
A bus bar according to the present invention comprises a plate-shaped extension part. When viewed in a cross section intersecting the extension direction of the extension part, the extension part has a first main surface, a first side part, and a first corner part. The first side part faces a direction different from that of the first main surface. The first corner part connects the first main surface and the first side part. The first corner portion has a curved surface that protrudes toward the outside of the extension part, and/or an inclined surface that is inclined at an angle greater than 45 degrees with respect to the first main surface.
H01R 4/58 - Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one anotherMeans for effecting or maintaining such contactElectrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation characterised by the form or material of the contacting members
12.
ELECTRICAL CONNECTION BOX AND FIXING STRUCTURE OF ELECTRICAL CONNECTION BOX TO FIXING MEMBER
An electrical connection box (3) is provided with: a first case (41) having a peripheral wall (412) that opens to one side in a first direction; and a ground terminal (7) that is grounded and fixed to the first case (41). When viewed from the one side in the first direction, an exposed fixing part (413) that is exposed to the one side in the first direction on the inside of the peripheral wall (412) is formed in the first case (41). A ground terminal fixing part (414) for grounding and fixing the ground terminal (7) and a fixing member fixing part (415) for fixing the first case (41) to a fixing member (2) are formed in the exposed fixing part (413).
H02G 3/16 - Distribution boxesConnection or junction boxes structurally associated with support for line-connecting terminals within the box
H01R 9/00 - Structural associations of a plurality of mutually-insulated electrical connecting elements, e.g. terminal strips or terminal blocksTerminals or binding posts mounted upon a base or in a caseBases therefor
H05K 7/00 - Constructional details common to different types of electric apparatus
A bus bar arrangement structure (1) comprises a plurality of bus bars (3) that are arranged such that end portions thereof are grouped at a connector portion (13), the bus bars being formed in rectangular shapes having the same cross-sectional shape and being such that the cross-sectional areas thereof are set to be the same, wherein each bus bar (3) has large-width end surfaces (9) that are positioned at the thickness-direction ends and small-width end surfaces (11) that are positioned at the width-direction ends, the plurality of bus bars (3) are disposed apart from each other, and the large-width end surfaces (9) of adjacent bus bars (3) are disposed at positions that do not overlap in a vertical direction V.
In the present invention, a connector comprises: a housing in which a terminal (5) is disposed; a terminal holder (7) that is assembled to the housing and holds the terminal (5) in the housing; a thermistor (9) that is disposed in the terminal holder (7) and detects the temperature of the terminal (5); and a thermistor holder (11) that is assembled to the terminal holder (7) and holds the thermistor (9) in the terminal holder (7). The thermistor holder (11) is disposed on the side of the terminal (5) exposed from the terminal holder (7) toward the housing side, and is fixed to the terminal holder (7) by means of a fixing unit (41).
This flat conductor (1) is provided with a conductive plate material (2) having an elongated shape with a width larger than the thickness of a cross section orthogonal to the longitudinal direction. The plate material (2) is provided with: an end portion (3) in which at least one of both ends in the longitudinal direction of the plate material (2) is folded back at least once in the thickness direction so as to be in surface contact with a portion that is not folded back and which is electrically connected to another conductive member; and a central portion (5) which is a portion adjacent to the end portion (3) in the longitudinal direction. The thickness of the end portion (3) is greater than the thickness of the central portion (5), and the conductor resistance per unit length of the end portion (3) is lower than the conductor resistance per unit length of the central portion (5).
H01B 5/02 - Single bars, rods, wires or stripsBus-bars
H01M 50/503 - Interconnectors for connecting terminals of adjacent batteriesInterconnectors for connecting cells outside a battery casing characterised by the shape of the interconnectors
H01M 50/505 - Interconnectors for connecting terminals of adjacent batteriesInterconnectors for connecting cells outside a battery casing comprising a single busbar
H01M 50/517 - Methods for interconnecting adjacent batteries or cells by fixing means, e.g. screws, rivets or bolts
H01M 50/588 - Means for preventing undesired use or discharge for preventing incorrect connections inside or outside the batteries outside the batteries, e.g. incorrect connections of terminals or busbars
A wire harness 1 comprises: a flat wiring material (100) formed in a U-shape having a first portion (110), a second portion (120), and an intermediate portion (130) connecting an end of the first portion and an end of the second portion; a first case (10) for retaining the first portion; a second case (20) for retaining the second portion; a rotation structure (60) for linking the first case and the second case so as to be rotatable relative to each other; and a space portion (23) provided in the second case. The first case and the second case can engage with each other with the shape of the flat wiring material formed as a linear shape. The linear-shaped flat wiring material has a first folded-back portion and a second folded-back portion. The space portion accommodates an extra length of the second portion created when the first case and the second case rotate relative to each other while forming the second folded-back portion (160).
H02G 3/04 - Protective tubing or conduits, e.g. cable ladders or cable troughs
H02G 1/14 - Methods or apparatus specially adapted for installing, maintaining, repairing, or dismantling electric cables or lines for joining or terminating cables
A wire harness (1) comprises a flat wiring material (100), a first case (10) that accommodates a first portion (110) of the flat wiring material, and a second case (20) that accommodates a second portion (120) of the flat wiring material. The first portion and the second portion extend in the same extension direction X. The first case has a first support wall that supports the first portion, and a first side wall (14) that is erected from the first support wall and extends in the extension direction. The second case has a second support wall that supports the second portion, and a second side wall (23) that is erected from the second support wall and extends in the extension direction. The first side wall is provided with a gap for dividing the first side wall into a plurality of first piece parts (14a) arranged in the extension direction. The second side wall is inserted into the gap and arranged on the same line as the plurality of first piece parts.
H02G 3/04 - Protective tubing or conduits, e.g. cable ladders or cable troughs
H02G 1/14 - Methods or apparatus specially adapted for installing, maintaining, repairing, or dismantling electric cables or lines for joining or terminating cables
A wire harness (1) comprises: a flat routing material (100) formed in a U-shape including a linear first section (110), a linear second section (120), and an intermediate section (130) connecting an end of the first section and an end of the second section; a first case (10) that holds the first section; a second case (20) that holds the second section; and a connection part (70) that connects the first case and the second case. The first case has a first support wall that supports the first section. The second case has a second support wall that supports the second section. The connection part is configured to connect the first case and the second case in a state in which the first support wall and the second support wall are arranged along the width direction (Y) of the flat routing material. The connection part (70) includes a hinge (72) that enables the first case and the second case to rotate relatively so that the first support wall and the second support wall face each other.
H02G 3/04 - Protective tubing or conduits, e.g. cable ladders or cable troughs
H02G 1/14 - Methods or apparatus specially adapted for installing, maintaining, repairing, or dismantling electric cables or lines for joining or terminating cables
A wire harness (1) comprises: a flat wiring material (100) formed in a U-shape and having a linear first portion (110), a linear second portion (120), and an intermediate portion (130) connecting an end portion of the first portion and an end portion of the second portion; a first case that holds the first portion; and a second case that holds the second portion. The first case and the second case can engage with each other such that the shape of the flat wiring material is formed as a linear shape. The linear-shaped flat wiring material has a first folded-back portion (150) and a second folded-back portion (160). In the first folded-back portion, the intermediate portion is folded back along a folded-back line (L1) along the extension direction (X) in which the first portion extends. In the second folded-back portion, the second portion is folded back along a folded-back line (L2) orthogonal to the extension direction so that a part of the second portion overlaps the intermediate portion.
H02G 3/04 - Protective tubing or conduits, e.g. cable ladders or cable troughs
H01B 7/00 - Insulated conductors or cables characterised by their form
H01B 13/012 - Apparatus or processes specially adapted for manufacturing conductors or cables for manufacturing wire harnesses
H01M 50/204 - Racks, modules or packs for multiple batteries or multiple cells
H01M 50/298 - MountingsSecondary casings or framesRacks, modules or packsSuspension devicesShock absorbersTransport or carrying devicesHolders characterised by the wiring of battery packs
H01M 50/569 - Constructional details of current conducting connections for detecting conditions inside cells or batteries, e.g. details of voltage sensing terminals
A wire harness (1) is provided with: a flat routing material (100) formed in a U-shape; a first case (10) for holding a first section (110); a second case (20) for holding a second section (120); and a rotation structure (60). The first case and the second case can engage with each other, with the shape of the flat routing material being made into a linear shape. The linear-shaped flat routing material includes a first fold-back section (150) and a second fold-back section. At the first fold-back section, an intermediate part is folded back along a fold-back line that follows the extension direction (X) of the first section. At the second fold-back section, the second section is folded back along a fold-back line orthogonal to the extension direction. The rotation structure is configured so that the second fold-back section is formed at the second section by causing the first case and the second case to rotate relatively.
H02G 3/04 - Protective tubing or conduits, e.g. cable ladders or cable troughs
H02G 1/14 - Methods or apparatus specially adapted for installing, maintaining, repairing, or dismantling electric cables or lines for joining or terminating cables
A connector (1) according to an embodiment comprises: a terminal fitting (10); a housing (20); a fixing fitting (30); a conductive component (40, 50); a cover member (80); a first heat transfer member (90) that is sandwiched between the cover member (80) and a portion (31a) of the fixing fitting (30) which is exposed from the housing (20); a metallic shield member (70) that covers the housing (20); and a second heat transfer member (100) that is sandwiched between the shield member (70) and the cover member (80). The cover member (80) engages with the housing (20) such that displacement thereof relative to the housing (20) is restricted. The first heat transfer member (90) has flexibility so as to be deformable in accordance with the shape of a gap between the portion (31a) of the fixing fitting (30) and the cover member (80). The second heat transfer member (100) has flexibility so as to be deformable in accordance with the shape of a gap between the shield member (70) and the cover member (80).
This connector comprises: a terminal fitting; a housing that accommodates the terminal fitting; a fixing fitting that is embedded in the housing and fixes the terminal fitting; a conductive component that is electrically connected to the terminal fitting; a metal shield member that covers the housing; and a heat transfer member that thermally connects the shield member and the housing. The heat transfer member is disposed so as to sandwich a part of the housing between the heat transfer member and the fixing fitting, and has flexibility that allows deformation so as to match the shape of the gap between the shield member and the housing.
A shielded wire (1) is provided with an electric wire (10) and a conductive nonwoven fabric tape (20) wound around the electric wire. The conductive nonwoven fabric tape has a conductive nonwoven fabric (21) and an adhesive layer (22) disposed on one surface of the conductive nonwoven fabric, and has a lap part (L) wound so that the winding pitch is t/3 or more and t/2 or less with the width defined as t. The adhesive layer is arranged at a position different from the lap part, has an adhesive force of 2.0 N/19 mm or more as measured by an adhesive force test according to JIS C2107, has a width of t/10 or more, and has a thickness of 0.01 mm or more and a thickness of the conductive nonwoven fabric or less.
This communication cable (1) is provided with a twisted pair wire (TW), a sheath (20), and a silicone oil layer (30). The sheath has a solid form, and includes resin that is identical to resin contained in a material constituting an insulator as a material constituting the sheath. The silicone oil layer includes silicone oil having a viscosity of 300 CS-1000 CS inclusive. The adhesion force between the twisted pair wire and the sheath is 5N or more, and is equal to or less than the value (N) of the product of the cross-sectional area (mm2) of the insulator and the tensile strength (MPa) of the insulator.
The purpose of the present invention is to provide a connector support device having a connector-receiving jig suitable for automation. A connector support device (1) is used for supporting a connector (13) provided to a terminal of an electric wire (110), wherein: the connector support device (1) comprises a base (2), and a connector-receiving jig (30) rotatably provided to the base (2); the connector-receiving jig (30) has a recessed connector-accommodating part (302) for accommodating the connector (13); and in a state in which the connector (13) is accommodated in the connector-accommodating part (302), the drawing direction (X1) of the electric wire (110) follows the rotational-axis direction (X) of the connector-receiving jig (30).
H01B 13/012 - Apparatus or processes specially adapted for manufacturing conductors or cables for manufacturing wire harnesses
H01R 43/00 - Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors
Provided is a protective tape for a wire harness, with which excellent tape winding workability is attained, and wear resistance and suppression of peeling at a tape terminal are achieved. A protective tape 10 for a wire harness has a base material 102 and an adhesive layer 104 formed on the base material 102. The base material 102 contains thermoplastic resin, and has a thickness of 120 μm-190 μm inclusive, a 10% modulus (N/19 mm width) of 12.5-18.5 inclusive, and a rewinding adhesive force (N/19 mm width) of 0.8-4.5 inclusive.
The present invention enables the automatic wrapping and tying of a cable tie around an object to be tied. A cable tie attaching device (10) comprises: a holding part (4) that holds a protector (2) and electric wires (1); a first unit (11); and a second unit (12). The first unit (11) comprises: a feed roller (53) for feeding a band portion (31) of a cable tie (3); a stopper part (51) for positioning an engaging portion (32) of the cable tie (3); a forward guide part (57) for guiding the band portion (31) to the second unit (12) side; a return guide part (58) for guiding the band portion (31) having passed through the second unit (12) to the stopper part (51) side; and a tightening roller (59) that tightens the band portion (31) that has passed through the stopper part (32) The second unit (12) comprises a loopback guide part (7) that loops back, in a U-shape, the band portion (31) having been guided from the forward guide part (57), and guides said portion to the return guide part (58) side.
B65B 27/00 - Bundling particular articles presenting special problems using string, wire, or narrow tape or bandBaling fibrous material, e.g. peat, not otherwise provided for
B65B 13/34 - Securing ends of binding material by applying separate securing members, e.g. deformable clips
The present invention provides a sheathing material attaching device that can accept a sheathing material in an accepting direction different from the extension direction of an electric wire and attach the sheathing material to the electric wire. The sheathing material attaching device (1) is characterized by comprising: a twist tube (W12) (sheathing material) accepting part (11); a guide part (12) inclined with respect to the accepting part (11) to guide the twist tube (W12) (sheathing material) in an inclined direction (D13); a conveying part (13) that delivers the twist tube (W12) (sheathing material) guided by the guide part (12); a first frame part (14) on which the accepting part (11), the guide part (12) and the conveying part (13) are mounted; a swivel part (15) that swivels this first frame part (14) reciprocally between a first orientation (P11) enabling accepting by the accepting part (11) and a second orientation (P12) enabling alignment of the guide part (12) with an electric wire (W11); and a second frame part (16) on which the first frame part (14) and the swivel part (15) are mounted.
Provided is an exterior material attachment device capable of attaching an exterior material to an electric wire in a stable state by suppressing positional deviation of a tip position and a terminal position and fluctuation of the total length. This exterior material attachment device (1) is characterized by comprising: an exterior material delivery unit (11) that delivers a twist tube (W12) (exterior material) in a delivery direction (D12) from any starting position (P11) along an electric wire (W11) such that the electric wire (W11) is accommodated on the inner side; an electric wire direction movement unit (13) that moves the exterior material delivery unit (11) in an electric wire direction (D14); and a control unit (15) that controls the exterior material delivery unit (11) and the electric wire direction movement unit (13) such that the electric wire direction movement unit (13) moves the exterior material delivery unit (11) from the starting position (P11) in the opposite direction to the delivery direction (D12) in accordance with the delivery of the twist tube (W12) (exterior material) by the exterior material delivery unit (11).
The present invention enables a self-closing sleeve to be attached to an electric wire automatically. An automatic attaching device (1) for self-closing sleeves comprises: a first jig (7a) and a second jig (7b) that hold an electric wire (11) therebetween; a feed belt (63) that feeds a self-closing sleeve (9) over the outer surfaces of the first jig (7a) and the second jig (7b); and a tape wrapping mechanism. With the self-closing sleeve (9) covering the outer surfaces of the first jig (7a) and the second jig (7b), one end (9b) in the wrapping direction of the self-closing sleeve (9) is positioned in the space between a first extension plate part (72) and a second extension plate part (75) and the other end (9a) is positioned on the outer surface of the first extension plate part (72). Tape (14) drawn from a reel of the tape wrapping mechanism is passed through a slit (S) between the one end (9b) and the other end (9a) of the self-closing sleeve (9) and wrapped around the outer circumference of the self-closing sleeve (9).
The purpose of the present invention is to provide a wrapping device capable of easily attaching a cover member to an object to be covered. A wrapping device (1) wraps a roll tape (R) around an electric wire bundle (23) that has an axis line (L). The wrapping device (1) comprises a link base plate (60) that reciprocates in the forward-backward direction (X) which crosses the axis line (L) direction of the electric wire bundle (23). Further, the wrapping device (1) comprises a driven head part (70) that sandwiches the roll tape (R) between an outer peripheral surface of the electric wire bundle (23) and the wrapping device (1) and attaches the roll tape (R). Further, the wrapping device (1) comprises a link mechanism (80) that rotates the driven head part (70) around the axis line (L) of the electric wire bundle (23) in accordance with reciprocation of the link base plate (60).
H02G 1/06 - Methods or apparatus specially adapted for installing, maintaining, repairing, or dismantling electric cables or lines for laying cables, e.g. laying apparatus on vehicle
The objective of the present invention is to provide a continuity testing device that improves work efficiency. A continuity testing device (1) for testing the continuity of a wire harness (10) that includes a harness main body (11) comprising a plurality of electric wires and a plurality of connectors (12A, 12B) provided at the terminals of the harness main body comprises a jig plate (21) on which the wire harness is placed, a plurality of testing jigs (2A, 2B) which are installed on the jig plate (21) and which supporting each of the plurality of connectors, and a control unit (5) which is electrically connected to the plurality of testing jigs and which controls the plurality of testing jigs, wherein: the plurality of testing jigs (2A, 2B) include one specific testing jig (2A) connected to the control unit (5) and another testing jig (2B); and the other testing jig (2B) is electrically connected to the control unit (5) via the specific testing jig (2A).
A case (1) for a flat wiring material comprises: a first case (10) having a storage space for storing a first portion of a flat wiring material, a holding part, and a first engagement part (12); and a second case (20) having a storage space for storing a second portion of the flat wiring material, a holding part, and a second engagement part (22). The first case and the second case have an extension direction (X) in which the flat wiring material extends, the first case and the second case are configured so as to be able to be arranged at a first relative position and a second relative position, the first case and the second case are arranged in a direction orthogonal to the extension direction at the first relative position, the first case and the second case are linearly arranged along the extension direction at the second relative position, and the first case and the second case are fixed at the second relative position.
H02G 3/04 - Protective tubing or conduits, e.g. cable ladders or cable troughs
H01M 50/507 - Interconnectors for connecting terminals of adjacent batteriesInterconnectors for connecting cells outside a battery casing comprising an arrangement of two or more busbars within a container structure, e.g. busbar modules
H01M 50/519 - Interconnectors for connecting terminals of adjacent batteriesInterconnectors for connecting cells outside a battery casing comprising printed circuit boards [PCB]
H01M 50/569 - Constructional details of current conducting connections for detecting conditions inside cells or batteries, e.g. details of voltage sensing terminals
H05K 5/00 - Casings, cabinets or drawers for electric apparatus
H05K 7/00 - Constructional details common to different types of electric apparatus
34.
ELECTRIC WIRE AND METHOD FOR ROUTING ELECTRIC WIRE
An electric wire (1) comprises a conductor (11), an orange dye (12) provided over the conductor (11), and a transparent resin (13) coated onto the orange dye (12), wherein the conductor (11) has an outer diameter (L1) of 10-30 mm, and the orange dye (12) has a thickness of 1 mm or less and an elongation percentage of at least 44.5%, which prevents cracking during R20 bending in the radial direction.
I/FI/F) receives a cell voltage detection signal from a cell monitoring unit (CMU) and transmits a charge-limiting signal for limiting the charge power of a string to an MCU (101) of a power converter (PCS) if the cell voltage is equal to or higher than an upper threshold. The MCU (101) controls the power converter (PCS) to make the charge power of the string approach a designated charge power value while a control signal is received from a string controller (SC) but the charge-limiting signal is not received from the MCU (100), and controls the power converter to make the charge power of the string approach the designated charge power value while the control signal is received from the string controller (SC) and the charge-limiting signal is received from the MCU (100).
H02J 7/02 - Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries for charging batteries from AC mains by converters
H01M 10/48 - Accumulators combined with arrangements for measuring, testing or indicating the condition of cells, e.g. the level or density of the electrolyte
H02J 7/00 - Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
Provided is an electrical wire transport device capable of transporting an electrical wire with an exterior covering without bending the exterior covering. An electrical wire transport device (1) has a transport mechanism (14) that holds and transports a one-end-side connector gripping part (11) and an exterior covering gripping part (13). The electrical wire transport device (1) is characterized in that the exterior covering gripping part (13) is provided with a pressing part (134) that, when an electrical wire (W11) is placed in a bent state with the one-end-side connector gripping part (11) gripping a one-end-side connector (W15) and the exterior covering gripping part (13) gripping a corrugated tube (W12) (exterior covering), linearly extends the corrugated tube (W12) (exterior covering) by being pressed against the outer peripheral surface of the peripheral wall of the corrugated tube (W12) (exterior covering) on the inside of the bend.
According to the present invention, after setting communication IDs to module controllers (MC1-MCm), a string controller (SC) executes arrangement identification processing. The arrangement identification processing includes: transmission processing for transmitting, to any one of the module controllers (MC1-MCm), a control signal for allowing switches (S31-S3m) to make a connection; acquisition processing for acquiring a measured value by a voltage sensor (12) in a state in which the switches (S31-S3m) make connections; and identification processing in which the module controllers (MC1-MCm) identify an arrangement in the string (St) of the corresponding storage battery modules (M1-Mm) in accordance with the acquired measured value by the voltage sensor (12).
H02J 7/00 - Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
H01M 10/42 - Methods or arrangements for servicing or maintenance of secondary cells or secondary half-cells
H01M 10/48 - Accumulators combined with arrangements for measuring, testing or indicating the condition of cells, e.g. the level or density of the electrolyte
H02J 7/02 - Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries for charging batteries from AC mains by converters
This resin composition contains a polyolefin, a zeolite, an antioxidant, and a metal hydroxide. The resin composition contains 0.1-3.5 parts by mass of the zeolite per 100 parts by mass of the polyolefin. The resin composition contains 1-6.5 parts by mass of the antioxidant per 100 parts by mass of the polyolefin. Additionally, the mass ratio of the zeolite to the antioxidant is 0.08-3.
C08L 23/00 - Compositions of homopolymers or copolymers of unsaturated aliphatic hydrocarbons having only one carbon-to-carbon double bondCompositions of derivatives of such polymers
This harness heat dissipation structure (1) comprises: a wire harness (3) that is routed in a vehicle body (115) of a vehicle (100); and a pressing member (5) that presses the wire harness (3) against the vehicle body (115). The wire harness (3) has a conductive plate-shaped conductor (10), and the plate-shaped conductor (10) has a rectangular cross-section in a direction orthogonal to the routing direction of the wire harness (3). The vehicle body (115) has a thick portion (117), which is formed thicker than the surrounding portions, at the location where the pressing member (5) is attached and the plate-shaped conductor (10) of the wire harness (3) is pressed by the pressing member (5).
H02G 3/04 - Protective tubing or conduits, e.g. cable ladders or cable troughs
B60K 1/00 - Arrangement or mounting of electrical propulsion units
B60R 16/02 - Electric or fluid circuits specially adapted for vehicles and not otherwise provided forArrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for electric
H02G 3/30 - Installations of cables or lines on walls, floors or ceilings
H05K 7/20 - Modifications to facilitate cooling, ventilating, or heating
A harness heat dissipation structure (1) comprises: a wire harness (3) that is routed in a vehicle body (115) of a vehicle (100); and a pressing member (5) that presses the wire harness (3) against the vehicle body (115). The wire harness (3) includes an electric wire (10) having a conductive conductor core wire (11) and a covering insulator (13) that covers the conductor core wire (11). The electric wire (10) has a flat portion (15) having a flattened cross-sectional surface in a direction orthogonal to the routing direction of the wire harness (3). The vehicle body (115) has a thick wall portion (117), which is formed thicker than the peripheral portion thereof, at a location to which the pressing member (5) is attached, and against which the flat portion (15) of the electric wire (10) in the wire harness (3) is pressed by the pressing member (5).
The present invention is characterized by comprising a main shielded electric wire (10) in which a main electric wire (11) is covered by a tubular main braided body (12), the main electric wire being drawn out from an opening of a terminal (12a) of the main braided body, a sub-shielded electric wire (20) that runs alongside the main shielded electric wire and in which a sub-electric wire (21) is covered by a tubular sub-braided body (22), the sub-electric wire having a branch line (21a) branching outside the sub-braided body at a branch point (20a) along the sub-braided body, an annular shield bracket (30) that is ground-connected to a vehicle body, has the main electric wire passed therethrough, and has an outer peripheral surface covered by the terminal, which is expanded, of the main braided body, and a fixing member (40) circumferentially surrounding the terminal of the main braided body and crimping the terminal of the main braided body to the outer peripheral surface of the shield bracket, wherein: the branch line of the sub-electric wire is passed through the shield bracket while running alongside the main electric wire; and a branch line (22a) of the sub-braided body that starts from the branch point is passed between the terminal of the main braided body and the fixing member and is crimped to the shield bracket together with the terminal of the main braided body by the fixing member.
H01R 13/6592 - Specific features or arrangements of connection of shield to conductive members the conductive member being a shielded cable
H01B 7/00 - Insulated conductors or cables characterised by their form
H01R 4/18 - Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one anotherMeans for effecting or maintaining such contactElectrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation effected solely by twisting, wrapping, bending, crimping, or other permanent deformation by crimping
H02G 3/04 - Protective tubing or conduits, e.g. cable ladders or cable troughs
A vehicular display device (10) is provided with: a housing (11) that has a wall section in which is provided an opening (15) through which image display light (L) passes to the outside; and an image display device (20) that is housed within the housing (11) and that outputs the image display light (L). Additionally, the vehicular display device (10) is provided with a reflective mirror (50) that is housed within the housing (11) and that reflects the image display light (L) toward a reflector (WS) arranged in front of a vehicle occupant (D). A frame section (70) that extends along the upper edge section (69) of the reflective mirror (50) and covers the edge section (69) is arranged on the edge section (69).
The present invention analyzes temperature distribution of a circuit including an electronic component. In the present invention, a heat equivalence circuit of each of constituent elements of a series circuit is modeled as a device having a terminal for connecting to the heat equivalence circuit of another constituent element of the series circuit, and the heat equivalence circuits modeled by a first modeling process are connected to each other via the terminal to model the heat equivalence circuit of the series circuit.
Provided are a bus bar and a shielded electric wire capable of enhancing heat dissipation efficiency without increasing weight. A bus bar (10) is provided with a conductor layer (11), an insulator layer (13) covering the outer periphery of the conductor layer (11), and a shield layer (15) covering the outer periphery of the insulator layer (13). The thermal conductivity of the insulator layer (13) is 0.2 [W/m•k] or more.
This vehicle charging device comprises: a second cover (20) that is supported by a slide body (4) and surrounds a connector unit (5) from the forward direction side of the slide body, said slide body being able to slide in a first direction (X) with respect to a main body (2); and third covers (30) that are supported by the slide body, are disposed to face each other with an interval therebetween in a second direction (Y), and arrange the connector unit therebetween. The second cover and the pair of third covers extend upward in conjunction with the swing motion when an arm (52) stands up, and form a movable frame (6) surrounding the arm at a standing position. The second cover is provided with a first buffer member (23) which has flexibility at least at the upper end thereof and can be brought into contact with a vehicle before being brought into contact with the upper end of the second cover. The pair of third covers are provided with second buffer members (33) which have flexibility at least at the upper ends thereof and can be brought into contact with the vehicle before being brought into contact with the upper ends thereof.
A diagnostic device (10) comprises: a microcomputer (11) that outputs, to an overvoltage detection circuit (12) and a low voltage detection circuit (13), a simulation signal for simulating an abnormal state; and a detection circuit (18) that detects that switching elements (61, 62) are ON after the simulation signal has been outputted by the microcomputer (11). The microcomputer (11) determines failures of the switching elements (61, 62) or failures of the overvoltage detection circuit (12) and the low voltage detection circuit (13) when the detection circuit (18) detects that the switching elements (61, 62) are ON.
H03K 17/00 - Electronic switching or gating, i.e. not by contact-making and -breaking
H02H 7/20 - Emergency protective circuit arrangements specially adapted for specific types of electric machines or apparatus or for sectionalised protection of cable or line systems, and effecting automatic switching in the event of an undesired change from normal working conditions for electronic equipment
H02J 1/00 - Circuit arrangements for dc mains or dc distribution networks
H03K 17/687 - Electronic switching or gating, i.e. not by contact-making and -breaking characterised by the use of specified components by the use, as active elements, of semiconductor devices the devices being field-effect transistors
47.
MOUNTING STRUCTURE FOR MOUNTING HEAD-UP DISPLAY DEVICE TO VEHICLE
Provided is a mounting structure for mounting a head-up display device to a vehicle, the structure capable of reducing virtual image shake caused by vibration. An HUD device (1) is provided with a housing (70), a display (30), a planar mirror (21), a concave mirror (20), and a control unit (60). The concave mirror (20) is rotatably supported by the housing (70). A mounting structure (101) for mounting a HUD device (1) to a vehicle is provided with a first elastic member (42) and a second elastic member (43) for reducing virtual image shake caused by vibration. The first elastic member (42) is provided between a vehicle body structure (100) and a protruding part (41) provided to the housing (70). The second elastic member (43) is provided between the rear surface (the surface on the side which is not a reflective surface) of the concave mirror (20) and an inner surface of the housing (70).
A dialog system (1) for a vehicle uses interactive AI (10). A microphone (2) inputs the voice spoken by a driver. A voice recognition unit (41) converts the voice input by the microphone (2) into text data. A voice interaction unit (42) inputs, to the interactive AI (10), as input information (S1), text data converted by the voice recognition unit (41) and text data indicating a state of a driver or a vehicle driven by the driver when the driver speaks, or a command corresponding to the state. A voice synthesis unit (43) converts response information (S2) from the interactive AI (10) into voice. A speaker (5) outputs the voice converted by the voice synthesis unit (43).
G10L 15/22 - Procedures used during a speech recognition process, e.g. man-machine dialog
G10L 13/00 - Speech synthesisText to speech systems
G10L 13/08 - Text analysis or generation of parameters for speech synthesis out of text, e.g. grapheme to phoneme translation, prosody generation or stress or intonation determination
A speech interaction unit (42) determines whether text data converted by a speech recognition unit (41) indicates an operation instruction of an in-vehicle device (11). When the speech interaction unit (42) determines that the text data indicates the operation instruction of the in-vehicle device (11), the speech interaction unit (42) controls the in-vehicle device (11) according to the operation instruction. When the speech interaction unit (42) determines that the text data does not indicate the operation instruction of the in-vehicle device (11), the speech interaction unit (42) inputs, as input information (S1), the text data of the speech to an interactive AI (10).
G10L 13/08 - Text analysis or generation of parameters for speech synthesis out of text, e.g. grapheme to phoneme translation, prosody generation or stress or intonation determination
G10L 15/10 - Speech classification or search using distance or distortion measures between unknown speech and reference templates
50.
METHOD FOR MANUFACTURING WIRE HARNESS, AND WIRE HARNESS
This method for manufacturing a wire harness includes: a step for accommodating a plurality of wires (3) in a groove section (110) of a jig plate (100) having said groove section; and a step for forming a trunk line section in which the plurality of wires are bundled by attaching a plurality of first binding members (4) to the plurality of wires accommodated in the groove section, wherein in the step for forming the trunk line section, the first binding members are attached to the plurality of wires at each of a plurality of through holes (140) formed at intervals in the groove section, and one of the first binding members encircles the plurality of wires at the same position in the direction in which the wires extend.
In the present invention, a server comprises: a time-series data acquisition unit that acquires, for each of a plurality of operations, a time-series data item in which position information of at least one vehicle for transporting cargos between two centers is associated with time point information; a travel time identification unit that identifies, on the basis of each of the plurality of time-series data items, a travel time during which the vehicle was traveling; a stop time identification unit that identifies, on the basis of said each of the plurality time-series data items, a stop time during which the vehicle was stopped and a stop location at which the vehicle was stopped; and an analysis result presentation unit that presents the analysis result on the travel time, the stop time, and the stop location in the plurality of operations.
A charging inlet (1) comprises an inlet body (2) that is disposed in a vehicle (200) and that has an insertion port (21) into which a charging connector (310) is inserted, a flexible annular cover (3) that covers the inlet body (2) so as to surround the inlet body (2) and that has an opening (31) through which the connector (310) can pass, a drive mechanism (4) that causes the cover (3) to rotate so as to move the position of the opening (31), and a control unit (50) that controls the drive mechanism (4).
Provided is an additional twisting device capable of increasing a twisted portion at an end part of a twisted wire by twisting an untwisted portion. An additional twisting device (1) comprises a chuck unit (18) that grips an untwisted portion (yh) of a twisted wire (2) having a twisted portion (ts) in which a pair of electric wires (2a, 2b) are twisted together, and the untwisted portion (yh) in which the pair of electric wires (2a, 2b) are not twisted together. The additional twisting device (1) further comprises: a chuck unit (36) that grips a boundary portion of the twisted portion (ys) that is located at the boundary with the untwisted portion (yh); and a motor (12) that rotates the chuck unit (18) in a direction for twisting the untwisted portion (yh) so that the untwisted portion (yh) twisted is continuous with the twisted portion (ts).
In the present invention, a twisted wire is inspected. A two-dimensional image (IM) that captures a twisted wire (TW) in which two electrical wires (L1, L2) are twisted is acquired, and on the basis of the two-dimensional image (IM), the pitch length (LP) of the twisted wire (TW) is measured.
The purpose of the present invention is to inspect a twisted wire. The present invention involves: acquiring a two-dimensional image showing a twisted wire in which two electric wires are twisted together (S3101); and measuring the twist direction of the twisted wire on the basis of the two-dimensional image (S3103).
G01B 11/02 - Measuring arrangements characterised by the use of optical techniques for measuring length, width, or thickness
G01N 21/892 - Investigating the presence of flaws, defects or contamination in moving material, e.g. paper, textiles characterised by the flaw, defect or object feature examined
According to the present invention, a twisted wire is inspected. A two-dimensional image (IM) is acquired in which a twisted wire (TW) formed by twisting two wires (L1, L2) is captured. A boundary position (BP), which is a position where an untwisted portion (UP) and a twisted portion (TP) of the twisted wire (TW) are divided, is measured on the basis of the two-dimensional image (IM).
The present invention relates to a lithium-ion battery (LiB) having a binder-free anode comprising an active material and about 1-5% by weight of single wall carbon nanotubes (SWCNT) as a conductive additive, wherein the SWCNT has an inorganic impurity content of less than 10% by weight. The LiB of the present invention having a binder-free anode, provides higher capacity than a LiB having an anode that contains a polymeric binder.
Provided is a polyester resin having a structural unit represented by general formula (1) and a number-average molecular weight of 42,000 to 50,000. Also provided is a molded article obtained by molding the polyester resin. [In general formula (1), m represents an integer of 2-10, and n represents an integer of 230-275.]
An electricity storage system (1) comprises: a plurality of strings (ST1-STm); a solar power generation device (10); and an array system (20) that executes control for causing the voltage, phase, and frequency of a slave string (ST) to match those of a master string (ST). The array system (20) acquires information on the remaining discharge power capacity and the remaining charge power capacity of each of the plurality of strings (ST1 to STm), determines a string having a remaining discharge power capacity equal to or less than a first threshold value and a string having a remaining charge power capacity equal to or less than a second threshold value as low capacity strings (ST), and selects the master string (ST) on the basis of the total value of the remaining discharge power capacity and remaining charge power capacity of each of the strings (ST) being master candidates excluding the determined low capacity strings (ST).
H02J 7/02 - Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries for charging batteries from AC mains by converters
H02J 3/32 - Arrangements for balancing the load in a network by storage of energy using batteries with converting means
H02J 3/38 - Arrangements for parallelly feeding a single network by two or more generators, converters or transformers
H02J 7/00 - Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
H02J 7/35 - Parallel operation in networks using both storage and other DC sources, e.g. providing buffering with light sensitive cells
This optical transceiver comprises: a photoelectric conversion element 102; a lens 103 through which light that is emitted from the photoelectric conversion element 102 or that is entering the photoelectric conversion element 102 passes; a lens cap 104 in which the lens 103 is embedded; a stub 105 into which an optical fiber 106 for guiding light passing through the lens 103 is inserted and which has one end side attached to the lens cap 104; and a split sleeve 12 which connects the other end side of the stub 105 and one end side of a ferrule 22 through which the optical fiber 2 is inserted, in the state of being butted against each other. The lens cap 104 includes: a recessed part 104C into which one end portion of the stub 105 is inserted; and a step part 104S which has a diameter enlarged from an opening edge portion of the recessed part 104. The step part 104S of the lens cap 104 and a flange 105F of the stub 105 that are both formed of an epoxy resin are bonded by an epoxy adhesive agent 107.
Provided are a clamp attachment device and a clamp attachment method with which a cable clamp can be automatically attached to a constituent wire of a wire harness. A clamp mounting device (1) is characterized by comprising: a first chuck (11) that grasps and holds a cable clamp; a chuck moving part (12) that moves the first chuck (11) so as to stack the cable clamp on a constituent wire; a second chuck (13) that grasps and holds both the cable clamp and the constituent wire that are stacked on each other; and a tape winding part (14) that winds a tape around the cable clamp held by the first chuck (11), and that winds the tape around the cable clamp and the constituent wire held by the second chuck (13) starting at the location at which the tape was wound on the cable clamp.
A protector (1) comprises a cylindrical part (10), a covering part (20), and a support part (30). The cylindrical part (10) is formed in a cylindrical shape around the axis (X1) thereof, is locked to a cylindrical headrest stay (H) in a state of being inserted inside the headrest stay (H), and has inserted therein a wiring material (W). The covering part (20) is provided on one side in the axial direction (X) along the axis (X1) of the cylindrical part (10), is positioned outside the headrest stay (H), and covers a tip (Ha) in the axial direction (X) of the headrest stay (H). The support part (30) is provided on the other side in the axial direction (X) of the cylindrical part (10), extends along the axial direction (X) from the other side of the cylindrical part (10) to the side opposite to the covering part (20), and has wound therearound a tape member (T), together with the wiring material (W), in a state in which the wiring material (W) is supported.
A health support apparatus (100) comprises a target information acquisition unit (111) that acquires target information corresponding to the health needs of a user, and a measurement device selection unit (112) that selects a biological information acquisition device to be used by the user in accordance with the target information. The health support device (100) also comprises a use device notification unit (113) that notifies a user terminal used by the user of information relating to the selected biological information acquisition device. The health support device (100) also comprises a device information acquisition unit (114) that acquires the biological information of the user acquired by the biological information acquisition device used by the user. Furthermore, the health assistance device (100) comprises a health state determination unit (115) that determines the health state of the user on the basis of the biological information, and a determination result notification unit (116) that notifies the user terminal of the result determined by the health state determination unit (115).
G16H 20/00 - ICT specially adapted for therapies or health-improving plans, e.g. for handling prescriptions, for steering therapy or for monitoring patient compliance
A61B 5/145 - Measuring characteristics of blood in vivo, e.g. gas concentration or pH-value
A charging system (1) comprises: a plurality of charging connectors (5) that are disposed on a charging stand (100) for charging a vehicle; a switching unit (10) that is disposed between one charging cable (120) of the charging stand and the plurality of charging connectors; a creation unit for creating a charging schedule of the charging cable on the basis of a charging request from a user by wireless communication; and a control unit (20) for controlling the switching unit on the basis of the created charging schedule, and connecting the charging cable to one charging connector that is connected to a vehicle to be charged.
H02J 13/00 - Circuit arrangements for providing remote indication of network conditions, e.g. an instantaneous record of the open or closed condition of each circuitbreaker in the networkCircuit arrangements for providing remote control of switching means in a power distribution network, e.g. switching in and out of current consumers by using a pulse code signal carried by the network
H02J 1/00 - Circuit arrangements for dc mains or dc distribution networks
H02J 7/00 - Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
A wire harness (WH) comprises an electroconductive wiring material (W) and a mold-molded member (1) that is an exterior member for the wiring material (W) and is provided integrally with the wiring material (W) so as to cover the wiring material (W). The mold-molded member (1) has a plurality of slits (3) formed from the outer surface (2) of the mold-molded member (1) toward the side where the wiring material (W) is located. When molding the mold-molded member (1) using a die (20), the wiring material (W) can be arranged at an appropriate position by controlling the position of the wiring material (W) with respect to the mold-molded member (1) by means of ribs (22) in the die (20), the ribs (22) being used for forming the slits (3) in the mold-molded member (1).
The objective of the present invention is to provide a connector structure 1 that is reduced in size in a direction in which a pair of first connectors are arranged. The connector structure 1 comprises a base 2, a pair of first connectors 3A, 3B provided upright from the base, and lever connectors 4A, 4B which can be fitted respectively to the pair of first connectors, wherein: each first connector includes a first housing 30 which is provided upright in a cylindrical shape from the base, and a pair of bosses 34, 34 which are provided so as to project from an outer surface of the first housing; each lever connector includes a lever housing 40 which can be fitted to the first housing, and a lever 10 which has a boss groove 110 allowing each of the pair of bosses to enter, and is pivotally supported by the lever housing and rotated to bring the first housing and the lever housing closer to one other; and the pair of bosses are provided facing away from one other in an orthogonal direction Y that is orthogonal to a direction X in which the pair of first connectors are arranged.
A vehicle display device (1) comprises a liquid crystal display element (20) that emits display light (L) that is to be reflected by a windshield (101) of a vehicle (100), sapphire glass (21) that is adhered to a back surface (20b) of the liquid crystal display element (20), and a temperature detection body (24) that is provided to the sapphire glass (21) and detects the temperature of the liquid crystal display element (20). Heat generated by the liquid crystal display element (20) is transmitted to the temperature detection body (24) via the sapphire glass (21).
This string system controller (SSC) selectively executes one of standard slope control and shortest slope control, said standard slope control individually calculating a string charge/discharge power instruction value for each predetermined cycle for each string controller (SC1 to SCx) in accordance with an electricity storage system charge/discharge power instruction value and individually transmitting the string charge/discharge power instruction values to the string controllers (SC1 to SCx) for each predetermined cycle, said shortest slope control calculating a string charge/discharge power instruction value common to the plurality of string controllers (SC1 to SCx) in accordance with the electricity storage system charge/discharge power instruction value and simultaneously transmitting the common string charge/discharge power instruction value to the plurality of string controllers (SC1 to SCx). Thus, the charge/discharge power of the entire electricity storage system (1) is changed from a current value to a target value.
H02J 7/34 - Parallel operation in networks using both storage and other DC sources, e.g. providing buffering
H02J 3/32 - Arrangements for balancing the load in a network by storage of energy using batteries with converting means
H02J 3/46 - Controlling the sharing of output between the generators, converters, or transformers
H02J 13/00 - Circuit arrangements for providing remote indication of network conditions, e.g. an instantaneous record of the open or closed condition of each circuitbreaker in the networkCircuit arrangements for providing remote control of switching means in a power distribution network, e.g. switching in and out of current consumers by using a pulse code signal carried by the network
The present invention makes it possible to automatically mount a protector cover (8) to a protector body (7). This device (1) for automatically mounting a protector cover is provided with: a protector holding section (2) for holding a protector body (7) in which an electric wire of a wire harness is accommodated; an operation unit (3) for mounting the protector cover (8) to the protector body (7); a movement means such as a robot arm for moving the operation unit (3); and a control unit. The operation unit (3) is provided with a pressing element (4) for pressing the protector cover (8) stacked on the protector body (7) toward the protector body (7) side, a base section (31) to which the pressing element (4) is retractably mounted, and a sensor (37) for detecting the amount of protrusion of a rod (41) of the pressing element (4) from the base section (31) on the opposite side from the protector holding section (2). The control unit stops pressing operation by the pressing element (4) when the amount of protrusion of the rod (41) on the opposite side becomes equal to or greater than a predetermined amount.
An electricity storage system controller (100) executes a charge/discharge mode in which a part of a plurality of electricity storage strings (S1 to Sx) is set to a discharge state and the electricity storage strings (S1 to Sx) other than the part thereof are set to a charge standby state, or a part of the plurality of electricity storage strings (S1 to Sx) is set to a charge state and the electricity storage strings (S1 to Sx) other than the part thereof are set to a discharge standby state. On the basis of transition prediction information obtained by predicting the transitions of the generated power of a solar power generation device (5) and the power consumption of a load (4) connected to a power reception point, the ratio between the electricity storage strings (S1 to Sx) set to the discharge state and the electricity storage strings (S1 to Sx) set to the charge standby state or the ratio between the electricity storage strings (S1 to Sx) set to the charge state and the electricity storage strings (S1 to Sx) set to the discharge standby state is determined.
A connector terminal (W11) is crimped to a harness wire (W12) while reducing various burdens on a worker. A terminal crimping unit (1) is characterized by comprising: a length measurement part (11); a conveying part (12); a peeling part (13); a crimping part (14); a crimping-checking part (21) that performs a crimping-checking process on the basis of a post-crimping image obtained by imaging an electric wire end portion (W121) to which the connector terminal (W11) has been crimped; and a selective discarding part (23) that performs a selective discarding process for sending a harness wire (W12) that satisfies a crimping standard to a post-process, and discarding a harness wire (W12) that does not satisfy the crimping standard.
G01N 21/892 - Investigating the presence of flaws, defects or contamination in moving material, e.g. paper, textiles characterised by the flaw, defect or object feature examined
H01R 43/05 - Crimping apparatus or processes with wire-insulation stripping
H01R 43/052 - Crimping apparatus or processes with wire-feeding mechanism
An electrical connection box (1) comprises a pair of relays (20A, 20B) that are separated by a gap (S), a case (10), and a heat transfer member (70). Each of the pair of relays (20A, 20B) has a plurality of terminals (51–54) and a protruding part (23) that protrudes toward the gap (S) near at least one (51, 52) of the plurality of terminals. The heat transfer member (70) absorbs heat emitted from the terminals and transfers the heat away from the terminals.
H02G 3/16 - Distribution boxesConnection or junction boxes structurally associated with support for line-connecting terminals within the box
B60R 16/02 - Electric or fluid circuits specially adapted for vehicles and not otherwise provided forArrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for electric
An electrical connection box (1) is provided with a pair of relays (20A, 20B), bus bars (40A, 40B), and a case (10). Each of the pair of relays, when viewed from a direction in which the relay is accommodated in the case, has a quadrangular shape having one side surface (21) facing a gap (S) and an opposite side surface (22) on the opposite side to the one side surface. The bus bars (40A, 40B) have a shape such that, when viewed from the accommodating direction, the entire bus bars are positioned within an area (H1) sandwiched between a straight line (L1) in which the opposite side surface (22) of one relay (20A) is virtually extended and a straight line (L2) in which the opposite side surface (22) of the other relay (20B) is virtually extended.
In the present invention, an electric connector-attached wire bundle (W1) is fit with jacketing materials by various fitting methods, and manual work is curtailed. A jacketing unit (1) is characterized by comprising: a first jacketing mechanism (11) that retains, in a circulatingly movable manner, vertically oriented retainers (111) each retaining an electric connector-attached wire bundle (W1) in a vertically oriented stance, and that also performs a first jacketing process for fitting the electric connector-attached wire bundles (W1), which are being moved in the vertically oriented stance, with a first jacketing material (W13); and a second jacketing mechanism (12) that retains, in a circulatingly movable manner, horizontally oriented retainers (121) each retaining a jacketing-in-progress electric wire bundle (W1a), on which the first jacketing process has been implemented, in a horizontally oriented stance, and that also performs a second jacketing process for fitting the jacketing-in-progress electric wire bundles (W1a), which are being moved in the horizontally oriented stance, with a second jacketing material (W14).
B23P 21/00 - Machines for assembling a multiplicity of different parts to compose units, with or without preceding or subsequent working of such parts, e.g. with programme control
H01B 13/012 - Apparatus or processes specially adapted for manufacturing conductors or cables for manufacturing wire harnesses
H02G 3/04 - Protective tubing or conduits, e.g. cable ladders or cable troughs
75.
TERMINAL INSERTION UNIT AND TERMINAL INSERTION METHOD
The present invention efficiently and repeatedly inserts a terminal into a connector housing (C1). A terminal insertion unit (1) is characterized by comprising: housing pallets (11); a pallet holding frame (12) that holds two or more of the housing pallets (11) in a state of being able to perform movement along a circulation route (R11) for moving, from a housing supply position (121), to a standby position (122), a terminal insertion position (123), and a housing removal position (124) in the stated order, and returning to the housing supply position (121); a terminal insertion part (13); and a pallet drive part (14) that moves the housing pallets (11) along the circulation route (R11) such that, by the time when one of the housing pallets (11) having undergone housing supply completes terminal insertion, another one of the housing pallets (11) undergoes housing supply and then stands by at the standby position (122).
H01R 43/20 - Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for assembling or disassembling contact members with insulating base, case or sleeve
76.
TERMINAL INSERTION UNIT AND TERMINAL INSERTION METHOD
The present invention allows an end terminal (W11) of a terminal-equipped electric wire (W1) to be smoothly inserted into the cavity of a connector housing (C1), while suppressing a burden on an operator. A terminal insertion unit (1) is characterized by comprising: a housing palette (11); a first transport unit (16); an inclination correction unit (17) that receives the terminal-equipped electric wire (W1) from the first transport unit (16), and detects and corrects an inclination thereof; a second transport unit (18) that transports the terminal-equipped electric wire (W1) after the inclination correction; and a terminal insertion unit (13) that receives the terminal-equipped electric wire (W1) from the second transport unit (18), detects and corrects positional deviation between the tip position of the end terminal (W11) and the position of the cavity to be inserted into, and inserts the end terminal (W11) after the positional deviation correction into the cavity to be inserted into.
H01R 43/20 - Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for assembling or disassembling contact members with insulating base, case or sleeve
A holding unit (3) holds a smartphone (2). A rotation unit (4) rotates the holding unit (3) about an axis intersecting a display screen (21). When vehicle information indicates a backward vehicle movement, an on-vehicle ECU (6) rotates the rotation unit (4) so that the longitudinal direction of the display screen (21) is along the left-right direction (horizontal placement), and when the vehicle information does not indicate the backward vehicle movement, the on-vehicle ECU (6) rotates the rotation unit (4) so that the longitudinal direction of the display screen (21) is along the up-down direction (vertical placement).
B60R 11/02 - Arrangements for holding or mounting articles, not otherwise provided for for radio sets, television sets, telephones, or the likeArrangement of controls thereof
B60K 35/81 - Arrangements for controlling instruments for controlling displays
G06F 3/0346 - Pointing devices displaced or positioned by the userAccessories therefor with detection of the device orientation or free movement in a 3D space, e.g. 3D mice, 6-DOF [six degrees of freedom] pointers using gyroscopes, accelerometers or tilt-sensors
H04M 1/11 - Supports for sets, e.g. incorporating armrests
This waterproof structure 1 includes: a corrugated tube 3 into which an electric wire 2 is inserted; and a grommet 4 that holds the corrugated tube and has a first cylindrical part 41 into which the corrugated tube is inserted. The first cylindrical part has: a first seal part 43 that protrudes toward the central axis of the first cylindrical part and is in close contact with the outer circumferential surface of the corrugated tube; a second seal part 44 that protrudes toward the central axis and is in close contact with the outer circumferential surface of the corrugated tube; and a flexible part 45 that is disposed between the first seal part and the second seal part and is capable of bending.
A storage battery connection device (100) connects in series a plurality of types of storage battery modules (M1-M10) having different distances between a positive electrode terminal (P) and a negative electrode terminal (N). The storage battery connection device (100) comprises a power line that provides electrical conduction between adjacent ones of the storage battery modules (M1-M10). The power line comprises: a main bus bar (102) electrically connected to the positive electrode terminal (P) of one storage battery module (M1-M10) and the negative electrode terminal (N) of the other storage battery module (M1-M10); and sub-bus bars (105, 106) electrically connected to the main bus bar (102) and electrically and mechanically connected to one of the positive electrode terminal (P) and the negative electrode terminal (N). The mechanical connection position between the sub-bus bar (105, 106) and the positive electrode terminal (P) or the negative electrode terminal (N) can be adjusted in accordance with the distance between the positive electrode terminal (P) and the negative electrode terminal (N).
H01M 50/507 - Interconnectors for connecting terminals of adjacent batteriesInterconnectors for connecting cells outside a battery casing comprising an arrangement of two or more busbars within a container structure, e.g. busbar modules
H01M 50/267 - MountingsSecondary casings or framesRacks, modules or packsSuspension devicesShock absorbersTransport or carrying devicesHolders having means for adapting to batteries or cells of different types or different sizes
H01M 50/503 - Interconnectors for connecting terminals of adjacent batteriesInterconnectors for connecting cells outside a battery casing characterised by the shape of the interconnectors
This grommet comprises a hard resin base member (10X) and a grommet body (60) that is assembled with the base member and obtained by integrally molding an elastically deformable soft resin water-stop member (60A) and a hard resin support member (60B). Between the base member and a support member, a plurality of engagement mechanisms (80) that engages a first engaging portion (81) of the base member with a second engaging portion (82) of the support member to hold the base member and the grommet body in the assembly completion position is provided around the axis of a cylindrical shaft of the base member. One of the first engaging portion and the second engaging portion is formed as a cavity that opens in a direction perpendicular to the cylindrical shaft, and the other is formed as a protrusion that is inserted into the cavity from the opening in the perpendicular direction.
H02G 3/22 - Installations of cables or lines through walls, floors or ceilings, e.g. into buildings
B60R 16/02 - Electric or fluid circuits specially adapted for vehicles and not otherwise provided forArrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for electric
H01B 17/58 - Tubes, sleeves, beads or bobbins through which the conductor passes
A hard resin base member (10X) has an annular flange (20). An elastically deformable soft resin grommet body (60) has: an annular body (61); an annular lip (61) that is brought into close contact with the outer peripheral edge part (20a) side of a first annular wall surface (20c) of the flange at an assembly completion position; a first annular part (64) disposed so as to face the outer peripheral edge part (61a) of the annular body on the outer peripheral edge part side of the flange coaxially with a gap therebetween; and a second annular part (65) connecting the outer peripheral edge part of the annular body to the outer peripheral edge part of the first annular part. The first annular part is hooked from the second annular wall surface (20d) side on the back side of the first annular wall surface to the outer peripheral edge part of the flange over one circumference at the assembly completion position.
H02G 3/22 - Installations of cables or lines through walls, floors or ceilings, e.g. into buildings
B60R 16/02 - Electric or fluid circuits specially adapted for vehicles and not otherwise provided forArrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for electric
H01B 17/58 - Tubes, sleeves, beads or bobbins through which the conductor passes
A hard resin base member (10X) has an annular flange (20). An elastically deformable soft resin grommet body (60) has a plurality of shaft-shaped holding shafts (64) protruding toward the flange. The flange has a through-hole-shaped holding hole (14) for each holding shaft, the holding hole (14) allowing a first annular wall surface (20c) side with which the grommet body is brought into close contact to be in communication with a second annular wall surface (20d) side on the rear side thereof, and the holding shaft being inserted through the holding hole (14) at an assembly completion position. Each holding shaft has: a shaft body (64a) which is inserted into the holding hole from the tip thereof from the first annular wall surface side to the second annular wall surface side and which has an outer peripheral surface that is brought into close contact with an inner peripheral wall of the holding hole at the assembly completion position; and an annular locked part (64b) which is expanded concentrically from the outer peripheral surface of the shaft body. Each holding hole has: a hole body (14a) with which the shaft body is brought into close contact; and an annular locking part (14b) in which an annular peripheral edge of the hole body on the second annular wall surface side is chamfered and into which the locked part is fitted and locked at the assembly completion position.
H02G 3/22 - Installations of cables or lines through walls, floors or ceilings, e.g. into buildings
B60R 16/02 - Electric or fluid circuits specially adapted for vehicles and not otherwise provided forArrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for electric
H01B 17/58 - Tubes, sleeves, beads or bobbins through which the conductor passes
The present invention improves the efficiency of tape winding work while securing a desired lap width (R11). This tape winding method is characterized by comprising: a winding start step (step S11 to step S14); a lap winding step (step S15 and step S16) for performing lap winding, in which adjacent tapes (21) partially overlap each other, while moving a tape set (2) by the movement amount of the sum of a tape interval (T11) and the lap width (R11) per lap winding; and a winding end step.
The present invention improves the work efficiency of tape winding work while maintaining a winding tape interval (P11) at a desired interval. This tape winding method is characterized by comprising an oblique winding step of arranging a tape set (2) in an inclined manner so that each tape (21) is wound obliquely at a predetermined angle (θ1) and performing oblique winding in a state in which a tape interval (W11) is adjusted so that the winding tape interval (P11) is equal to or less than a tape width (T11), while moving the tape set in the moving direction (D14) by setting a tape number multiplication of the sum of a winding tape width (T12) for one tape and the winding tape interval (P11) as a moving amount per turn of the oblique winding.
An aluminum electric wire (1) comprises a conductor (10) and an insulator (20). The conductor (10) is constituted by a central twisted wire (11) and a plurality of outer-circumference twisted wires (12) layered in two or more layers on the outer circumference of the central twisted wire (11). The central twisted wire (11) and the outer-circumference twisted wires (12) are formed by twisting wires formed of pure aluminum. The wires each have a wire diameter of at least 0.21 mm and less than 1.0 mm. The adhesive force between the conductor (10) and the insulator (20) is 6-45 N. The insulator (20) has a thickness of 0.72-1.80 mm.
The present invention provides a display device (5) capable of displaying in a wide range of a windshield (2) without distortion. The present invention comprises a display unit (1) disposed along a windshield (2) of a vehicle, the display unit (1) being constituted from a plurality of display devices (1A-1J) having a display region having the same curvature as the windshield (2), and light emitted from the display unit (1) being directly reflected by the windshield (2) to form a virtual image (3).
The present invention provides a display device (5) capable of forming a display in a wide range of a windshield (2) without distortion. This display device (5) is provided with a display unit (1) that has the same curvature as that of the windshield (2) of a vehicle and is disposed along the windshield (2). The display unit (1) includes a plurality of light emitting diodes (1a) arranged in a dot matrix form and light emitted from the display unit (1) is directly reflected on the windshield (2) to form a virtual image.
According to the present invention, a second bus bar (20) is provided with: a first electrical connection part (21) that is to be connected to one electrode terminal (BC2); a second electrical connection part (22) that is to be connected to the other electrode terminal; and a U-shaped bypass part (23) that connects the electrical connection parts to each other and bypasses the periphery of a protrusion (Bpro) on a battery module (BM). A housing case (40) has: a first bus bar housing part (41) that houses a first bus bar (10); a second bus bar housing part (42) that houses the first electrical connection part (21); a third bus bar housing part (43) that houses the second electrical connection part (22); and an electric wire housing part (44) that guides an electric wire (32) along a bottom wall (45) which is disposed so as to face the battery module. The electric wire housing part is disposed so as to be adjacent to the first bus bar housing part, the second bus bar housing part and the third bus bar housing part, and so as to extend in the arrangement direction. The electric wire is routed along one wall surface (45a) of the bottom wall in the arrangement direction, and the second bus bar has the bypass part disposed on the other wall surface (45b) side of the bottom wall.
H01M 50/507 - Interconnectors for connecting terminals of adjacent batteriesInterconnectors for connecting cells outside a battery casing comprising an arrangement of two or more busbars within a container structure, e.g. busbar modules
H01M 50/209 - Racks, modules or packs for multiple batteries or multiple cells characterised by their shape adapted for prismatic or rectangular cells
H01M 50/298 - MountingsSecondary casings or framesRacks, modules or packsSuspension devicesShock absorbersTransport or carrying devicesHolders characterised by the wiring of battery packs
H01M 50/503 - Interconnectors for connecting terminals of adjacent batteriesInterconnectors for connecting cells outside a battery casing characterised by the shape of the interconnectors
H01M 50/569 - Constructional details of current conducting connections for detecting conditions inside cells or batteries, e.g. details of voltage sensing terminals
The aluminum alloy bus bar (1) comprises a flat conductor (10) composed of an aluminum alloy having a composition containing 0.35-0.8 mass% of magnesium and 0.3-0.7 mass% of silicon, with the remainder being aluminum and inevitable impurities. A plurality of Mg-Si needle-like particles (16) containing magnesium and silicon are dispersed inside the aluminum alloy. The average length of the Mg-Si needle-like particles (16) is 67.1-378.4 nm, and the number density of the Mg-Si needle-like particles (16) in the aluminum alloy is 4.5×10 20/m 3-6.8×1021/m3.
C22C 21/02 - Alloys based on aluminium with silicon as the next major constituent
C22C 21/06 - Alloys based on aluminium with magnesium as the next major constituent
C22F 1/00 - Changing the physical structure of non-ferrous metals or alloys by heat treatment or by hot or cold working
C22F 1/04 - Changing the physical structure of non-ferrous metals or alloys by heat treatment or by hot or cold working of aluminium or alloys based thereon
H01M 50/503 - Interconnectors for connecting terminals of adjacent batteriesInterconnectors for connecting cells outside a battery casing characterised by the shape of the interconnectors
A storage battery control device (100): sets, by means of a power converter (PC), a string current to a first prescribed value so as to satisfy a first condition where the total voltage of a storage battery string (STR) is equal to or lower than withstand voltages of bypass switch units (B1-Bn), and where arc discharge is generated in switches (S1, S2) which are mechanical relays; sets, by means of the bypass switch units (B1-Bn), a state of the connection or bypass of storage battery modules (M1-Mn) to a prescribed state; and executes an oxide film removal process for opening/closing the switches (S1, S2), which are mechanical relays, in a state where the first condition is satisfied.
H01M 10/48 - Accumulators combined with arrangements for measuring, testing or indicating the condition of cells, e.g. the level or density of the electrolyte
A panel (2) is attached to a vehicle body (10) and partitions a front compartment from the cabin of the vehicle body (10). A wire harness (3) is arranged on the panel (2). Each terminal (35) provided with a bolt-through hole (351) is attached to an end of a body ground wire (33). Bolts (4) pass through bolt-through holes (21) of the panel (2) and the bolt-through holes (351) of the terminals (35) to thereby attach the panel to the vehicle body (10).
B60R 16/02 - Electric or fluid circuits specially adapted for vehicles and not otherwise provided forArrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for electric
This method for manufacturing a wire harness includes: a first welding step for welding a core wire exposed part (Waa) and a wire connection part (22) of a first terminal (2A) accommodated in a first terminal accommodation groove (32); a second welding step for welding a core wire exposed part (Waa) and a wire connection part (22) of a second terminal (2B) accommodated in a second terminal accommodation groove (42); a first cover attaching step for attaching a first cover (7A) to a first housing (5); and a second cover attaching step for attaching a second cover (7B) to a second housing (6) so as to close the second terminal accommodation groove (42). The method further includes, after said steps, a connector forming step for laminating, in the height direction (Z), the first housing (5) and the second housing (6), attaching the same to each other, and forming a connector (1) to be fitted to a counterpart connector (9).
H01R 43/02 - Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for soldered or welded connections
H01R 13/514 - BasesCases formed as a modular block or assembly, i.e. composed of co-operating parts provided with contact members or holding contact members between them
A short circuit determination circuit (60) comprises: a current detection unit (61); a voltage detection unit (62); a current abnormality determination unit (63); a voltage abnormality determination unit (64); and a short circuit determination unit (65). The current detection unit (61) detects current flowing to a power circuit (P), and the voltage detection unit (62) detects voltage applied to the power circuit (P). The current abnormality determination unit (63) determines a current abnormality on the basis of a current value of the current detected by the current detection unit (61) and a predetermined current threshold value. The voltage abnormality determination unit (64) determines a voltage abnormality on the basis of a voltage value of the voltage detected by the voltage detection unit (62) and a predetermined voltage threshold value. The short circuit determination unit (65) determines an electrical connection abnormality such as a short circuit or a ground fault (electric leakage) on the basis of the determination result determined by the current abnormality determination unit (63) and the determination result determined by the voltage abnormality determination unit (64).
H02H 3/087 - Emergency protective circuit arrangements for automatic disconnection directly responsive to an undesired change from normal electric working condition, with or without subsequent reconnection responsive to excess current for DC applications
B60R 16/02 - Electric or fluid circuits specially adapted for vehicles and not otherwise provided forArrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for electric
H02J 1/00 - Circuit arrangements for dc mains or dc distribution networks
H02J 7/00 - Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
A wire harness (1) comprises: a connector (2) which includes a plurality of terminals (5) each having rod-shaped or tubular insertion portions (52), and a housing in which the plurality of terminals are arrayed and held in a plurality of rows with the insertion portions protruding therefrom, the arrayed plurality of terminals including a first terminal group (5A) and a second terminal group (5B); a first flexible printed wiring board (10) having through-holes into which the insertion portions of the first terminal group are inserted, and a printed circuit (12) connected to the insertion portions of the first terminal group; and a second flexible printed wiring board (20) having through-holes into which the insertion portions of the second terminal group are inserted, and a printed circuit (22) connected to the insertion portions of the second terminal group.
A wire harness (1) is provided with: a connector (2) comprising a plurality of terminals (5) each having an insertion section (52), and housings (3, 4) that hold the plurality of terminals so that the same are arrayed in a plurality of columns lined up in a first direction X, the plurality of terminals including a first terminal group arranged on a first side X1 and a second terminal group arranged on a second side X2; a first flexible printed wiring board (10) having through holes into which the insertion sections of the first terminal group are inserted; a second flexible printed wiring board (20) having through holes into which the insertion sections of the second terminal group are inserted; and a holding member that is attached to the housings and configured so as to be able to hold the first flexible printed wiring board and the second flexible printed wiring board. The holding member has exit sections, and the first flexible printed wiring board and the second flexible printed wiring board, which are overlaid onto one another, are made to extend out of the exit sections.
Provided is a power storage system, in which a CAN data frame including a CAN ID and information about the state of a plurality of power storage batteries is transmitted from the power storage battery side to a state monitoring device side over a CAN, wherein the state monitoring device is enabled to acquire the information about the states of the plurality of power storage batteries. A communication device (100) comprises a CAN ID conversion device (101-1) that converts the CAN ID included in the CAN data frame into a BMS ID for identifying the state information of a battery B1 and the battery.
H02J 7/00 - Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
H01M 10/48 - Accumulators combined with arrangements for measuring, testing or indicating the condition of cells, e.g. the level or density of the electrolyte
H02J 7/02 - Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries for charging batteries from AC mains by converters
H04L 43/026 - Capturing of monitoring data using flow identification
H04L 69/08 - Protocols for interworkingProtocol conversion
Provided is a communication device (100) that performs a state information transmission process for sending a plurality of types of battery state information from a battery (B1) side to a BMS (10) side via serial communication. The state information transmission process includes: a process for sending a frame including a plurality of types of battery state information from the battery (B1) side; a process for changing the order of the plurality of types of battery state information in the frame sent from the battery (B1) side to a prescribed order which is common with another frame; a process for providing battery no. information to the frame in which the order of the plurality of types of battery state information has been changed to the prescribed order; and a process for sending, to the BMS (10) side, the frame in which the order of the plurality of types of battery state information has been changed to the prescribed order and which has been provided with battery no. information.
H02J 7/00 - Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
H01M 10/48 - Accumulators combined with arrangements for measuring, testing or indicating the condition of cells, e.g. the level or density of the electrolyte
H04L 43/04 - Processing captured monitoring data, e.g. for logfile generation
H04L 69/08 - Protocols for interworkingProtocol conversion
The present invention comprises a base member (10X) wherein a seal member (71) is provided between joining surfaces (10a) of a plurality of split base members (10) that are radially split around the axis of an insertion passage. The base member has a tubular body (40) that is formed by combining respective split tubes (13) of the plurality of split base members and has an opening (40a) out of which a wiring material (We) from the inner insertion passage is led. The tubular body has a curved part (41) and a straight tube part (42) that includes the opening. The opening is sealed with water-stopping tape (Tp) that is wound over an outer circumferential surface (40b) of the straight tube part and the wiring material that is led out of the opening (40a). A tape position indication part (44) that indicates an allowable range for the position of the end of the water-stopping tape on the straight tube part side is provided to the outer circumferential surface of the straight tube part at the location at which the seal member is provided between the inner joining surfaces.
H02G 3/22 - Installations of cables or lines through walls, floors or ceilings, e.g. into buildings
B60R 16/02 - Electric or fluid circuits specially adapted for vehicles and not otherwise provided forArrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for electric
A waterproof member (60A) has: an annular body (61) that is to be coaxially locked on a flange surface (20c) at an assembly completion position with respect to a base member (10X); an annular outer circumferential lip (63) that coaxially projects from an inner circumferential edge portion (61b) of the body toward a circumferential edge portion (503) and that elastically deforms at an attachment completion position to be in close contact with the annular flat surface (503a) of the circumferential edge portion over the entire circumference; an annular inner circumferential lip (64) that is coaxially disposed further toward a cylindrical body (30) than the outer circumferential lip is and is in close contact with the annular flat surface at the attachment completion position over the entire circumference; and a connecting body (65) that is disposed as spaced apart from the flange surface at the assembly completion position, connects the base of the inner circumferential lip to the inner circumferential edge portion of the body and/or the body-side base of the outer circumferential lip, and undergoes flexural deformation toward the flange surface side upon receiving force from the inner circumferential lip at the attachment completion position.
H02G 3/22 - Installations of cables or lines through walls, floors or ceilings, e.g. into buildings
B60R 16/02 - Electric or fluid circuits specially adapted for vehicles and not otherwise provided forArrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for electric
An electronic device unit (1, 1X) comprises: a case (2); a substrate that is accommodated in an interior of the case (2), and has a plurality of components mounted thereto; a routing layer space (4) that is formed inside the case (2) adjacent to and in parallel with the substrate (3); and a plurality of routing members (8) that are routed inside the routing layer space (4). A plurality of terminals (6) that are electrically connected to the components are erected from the substrate (3) toward the routing layer space (4). Inside the routing layer space (4), ends of the routing members (8) are respectively electrically connected to the terminals (6), and are independently routed inside the routing layer space.
H05K 7/00 - Constructional details common to different types of electric apparatus
B60R 16/02 - Electric or fluid circuits specially adapted for vehicles and not otherwise provided forArrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for electric
H01R 4/2416 - Connections using contact members penetrating or cutting insulation or cable strands the contact members having insulation-cutting edges, e.g. of tuning fork type
H01R 12/53 - Fixed connections for rigid printed circuits or like structures connecting to cables except for flat or ribbon cables
H02G 3/16 - Distribution boxesConnection or junction boxes structurally associated with support for line-connecting terminals within the box
H05K 5/00 - Casings, cabinets or drawers for electric apparatus
patents
