JP6454387B2 - Bus bar module and power supply - Google Patents

Description

  The present invention relates to a bus bar module and a power supply device.

  A power supply device mounted on a vehicle as a power source for an electric motor such as an electric vehicle or a hybrid vehicle includes a battery assembly in which a plurality of batteries are arranged, and a bus bar module that is stacked on a surface on which electrodes of the battery assembly are provided. And.

  As this bus bar module, a groove-shaped electric wire arrangement part that accommodates a voltage detection line connected to the electrode of each battery, and a lid that covers the opening that opens above the electric wire arrangement part. What has the electric wire wiring body provided is known (for example, refer patent document 1).

JP, 2014-233160, A

  By the way, the electric wire wiring part is arrange | positioned at the side of the electrode along the arrangement direction of the electrode of each battery. Therefore, in order to accommodate the voltage detection lines in the electric cable arrangement, the voltage detection lines connected to the battery electrodes are pulled out to the side with respect to the arrangement direction of the electrodes, and each voltage detection line is further connected to the electrode. Push the cable into the wire routing part while bending it above the wire routing part so as to follow the arrangement direction of the cable, and cover the lid with the opening while holding these voltage detection lines so that they do not come out of the wire routing part. This requires complicated work.

  This invention is made | formed in view of the situation mentioned above, The objective is to provide the bus bar module and power supply device which can route the electric wire connected to the electrode of the battery easily.

  In order to achieve the above-described object, a bus bar module and a power supply device according to the present invention are characterized by the following (1) to (5).

(1) a bus bar for electrically connecting adjacent battery electrodes of a battery assembly composed of a plurality of batteries;
A plurality of bus bar accommodating portions each accommodating the bus bars;
An electric wire routing body in which a plurality of electric wires are provided along the arrangement direction of the bus bar housing portion and connected to the electrodes together with the bus bar;
A bus bar module comprising:
The electric wire arrangement has an electric wire arrangement portion in which the electric wire drawn from the electrode is accommodated,
The wire routing portion, on the opposite side of the bus bar housing part side, have a opening formed along the arrangement direction,
The electric wire arrangement includes a lower surface plate portion and an upper surface plate portion that form the electric wire arrangement portion between each other,
The bus bar module, wherein the upper surface plate portion is formed with an introduction slit that communicates with the electric wire routing portion along a drawing direction of the electric wire drawn from the electrode .
( 2 ) The electric wire and the electrode are connected via a terminal fixed to the electrode,
The terminal has a wire connecting portion for connecting the wire,
The electric wire connecting portion is connected to the electric wire arrangement body at a position separated from the electrode and in a direction different from a drawing direction of the electric wire drawn out to the electric wire arrangement body. The bus bar module according to (1), which is characterized.
( 3 ) a bus bar that electrically connects the electrodes of the batteries adjacent to each other in a battery assembly composed of a plurality of batteries;
A plurality of bus bar accommodating portions each accommodating the bus bars;
An electric wire routing body in which a plurality of electric wires are provided along the arrangement direction of the bus bar housing portion and connected to the electrodes together with the bus bar;
A bus bar module comprising:
The wire arrangement body has a lower surface plate portion facing the wire drawn from the electrode,
The lower surface plate portion is formed with a guide portion for guiding the electric wire drawn from the electrode in a predetermined direction ,
The bus bar module according to claim 1, wherein the guide portion is an inverted conical guide protrusion having a small cross-sectional radius on the lower surface plate portion side and a larger cross-sectional radius toward the top .
(4) a bus bar for electrically connecting the electrodes of the batteries adjacent to each other in a battery assembly composed of a plurality of batteries;
A plurality of bus bar accommodating portions each accommodating the bus bars;
An electric wire routing body in which a plurality of electric wires are provided along the arrangement direction of the bus bar housing portion and connected to the electrodes together with the bus bar;
A bus bar module comprising:
The wire arrangement body has a lower surface plate portion facing the electric wire drawn out from the electrode,
The lower surface plate portion is formed with a guide portion for guiding the electric wire drawn from the electrode in a predetermined direction,
The lower surface plate portion is provided with an upper surface plate portion constituted by a separate body or a hinge cover, partially or entirely, at a location where the electric wire is routed.
A bus bar module.
(5) A power supply device, wherein the bus bar module according to any one of (1) to (4) is attached to a battery assembly including a plurality of batteries.

According to the bus bar module having the configuration of (1) above, the wires are drawn from the electrode side of the battery and introduced into the wire routing portion, and the wires drawn from the opening portion of the wire routing portion are bent together to be wired. You can put it in the club. As a result, compared to the case where the opening of the electric wire routing part is formed above the direction perpendicular to the drawing direction of the electric wire, the electric wires are bundled and accommodated together in the electric wire routing part in the arrangement direction of the bus bar accommodating parts. Can be routed. Therefore, it is possible to improve the wiring workability of the electric wires to the electric wire arrangement body.
Furthermore, according to the bus bar module having the above configuration ( 1 ), the electric wire drawn out from the electrode side can be easily introduced into the electric wire arrangement part from the introduction slit, and the electric wire arrangement workability is further improved. be able to.
According to the bus bar module having the above configuration ( 2 ), the electric wire connecting portion for connecting the electric wire is located farther than the electrode with respect to the electric wire routing body, and the electric wire is connected in a direction different from the drawing direction of the electric wire. As a result, it is possible to provide a space for the wired wires, and as a result, when a tension is applied to the wires, it is possible to suppress abruptly applying a tension to the wire connection portion.
According to the bus bar module having the configurations (3) and (4), the electric wires drawn from the electrode side of the battery can be bent in a predetermined direction by the guide protrusions. Thereby, an electric wire can be bundled and it can be made to route collectively in the predetermined direction of a lower surface board part. Therefore, it is possible to improve the wiring workability of the electric wires to the electric wire arrangement body.
According to the power supply device having the configuration (5), since the bus bar module having good workability for wiring the wires is provided, a power supply device with high productivity can be provided.

  ADVANTAGE OF THE INVENTION According to this invention, the bus bar module and power supply device which can wire the electric wire connected to the electrode of the battery easily can be provided.

  The present invention has been briefly described above. Further, the details of the present invention will be further clarified by reading through a mode for carrying out the invention described below (hereinafter referred to as “embodiment”) with reference to the accompanying drawings. .

FIG. 1 is a perspective view showing a bus bar module and a power supply device according to this embodiment. FIG. 2 is a plan view of the bus bar module according to the present embodiment. FIG. 3 is a perspective view of a part of the bus bar module shown in FIG. 4 is a diagram showing the bus bar module shown in FIG. 2, in which FIG. 4 (a) is a cross-sectional view along the width direction in a state where the opening of the wire routing portion is closed, and FIG. It is sectional drawing in alignment with the width direction of the state which opened the opening part of the cable part. FIG. 5 is a diagram for explaining a procedure for arranging the voltage detection line to the bus bar module, and FIGS. 5A to 5D are schematic plan views in the respective operations. FIG. 6 is a diagram for explaining the bus bar module according to the modification and the procedure for arranging the voltage detection line to the bus bar module. FIGS. 6 (a) and 6 (b) are schematic plan views in the respective operations. is there. FIG. 7 is a perspective view of a terminal showing a modification of the terminal. FIG. 8 is a cross-sectional view taken along the width direction of a bus bar module having other terminals. FIG. 9 is a schematic plan view of a bus bar module according to another embodiment. FIG. 10 is a schematic perspective view of a bus bar module according to still another embodiment.

  Specific embodiments relating to the present invention will be described below with reference to the drawings.

  FIG. 1 is a perspective view showing a bus bar module and a power supply device according to this embodiment.

  As shown in FIG. 1, the bus bar module 11 according to the present embodiment is attached to a battery assembly 13 including a plurality of batteries 12 to constitute a power supply device 14. The power supply device 14 is used by being mounted on, for example, an electric vehicle that travels using an electric motor, a hybrid vehicle that travels using both an engine and an electric motor, and supplies power to the electric motor.

  FIG. 2 is a plan view of the bus bar module according to the present embodiment. FIG. 3 is a perspective view of a part of the bus bar module shown in FIG.

  As shown in FIGS. 2 and 3, the bus bar module 11 is molded from a resin and includes a plurality of bus bar housing portions 20 and an electric wire routing body 21. The bus bar accommodating portion 20 is formed in a frame shape, and the bus bar 16 is accommodated and held in the bus bar accommodating portion 20. The bus bar 16 is fastened to an electrode 12a (see FIG. 1) protruding from each of the plurality of batteries 12 constituting the battery assembly 13. Each bus bar accommodating portion 20 accommodates a terminal 17.

  In a state where the bus bar module 11 is attached to the battery assembly 13, the terminal 17 is fastened to the electrode 12 a of the battery 12 together with the bus bar 16. The terminal 17 is connected to one end of the voltage detection line 19. Thereby, the voltage detection line 19 is connected to the electrode 12a via the terminal 17, and is pulled out from the electrode 12a to the side. The other end of the voltage detection line 19 is connected to the connector 18. The connector 18 is connected to a voltage detection device (not shown).

  The electric wire arrangement body 21 of the bus bar module 11 has an electric wire arrangement portion 22. The wire routing portion 22 is formed along the direction in which the bus bar accommodating portions 20 are arranged. This electric wire routing portion 22 has a lower surface plate portion 23 and an upper surface plate portion 24, and has an opening portion 25 on the front side in the drawing direction of the voltage detection line 19, which is opposite to the bus bar housing portion 20. Yes.

  An introduction slit 27 that is connected to the bus bar accommodating portion 20 is formed in the electric cable routing body 21. These introduction slits 27 are formed in the upper surface plate portion 24 that forms the electric wire routing portion 22, and in the present embodiment, the direction in which the voltage detection line 19 is drawn is perpendicular to the arrangement direction of the bus bar accommodating portion 20. Therefore, the introduction slit 27 is similarly formed along the drawing direction of the voltage detection line 19 which is a direction orthogonal to the arrangement direction of the bus bar accommodating portions 20. And each bus bar accommodating part 20 and the electric wire routing part 22 are connected by the introduction slit 27.

  4 is a diagram showing the bus bar module shown in FIG. 2, in which FIG. 4 (a) is a cross-sectional view along the width direction in a state where the opening of the wire routing portion is closed, and FIG. It is sectional drawing in alignment with the width direction of the state which opened the opening part of the cable part.

  As shown in FIG. 4A and FIG. 4B, a lid 28 is integrally provided in the electric wire routing portion 22. A plurality of the lid bodies 28 are provided along the wire routing portion 22 (see FIG. 2). These lid bodies 28 are rotatably connected to the edge portion of the lower surface plate portion 23 forming the electric wire routing portion 22 by a hinge 29. The opening part 25 of the electric wire routing part 22 is opened and closed by rotating the lid 28.

  As shown in FIG. 3, the terminal 17 connected to one end of the voltage detection line 19 is formed by pressing a conductive metal plate, and includes a bus bar connection portion 31 and a wire connection portion 32. And. The bus bar connection portion 31 is a portion that is overlapped with the bus bar 16 and is electrically connected to the electrode 12a together with the bus bar 16, and is formed in a substantially square shape. The bus bar connection portion 31 is provided with a hole portion 31 a at the center thereof, and the electrode 12 a of the battery 12 is passed through the hole portion 31 a together with the hole portion 16 a of the bus bar 16. The bus bar connection portion 31 is fastened to the electrode 12 a of the battery 12 in a state of being superimposed on the bus bar 16. The electric wire connection portion 32 is crimped to one end where the conductor of the voltage detection line 19 is exposed, whereby the terminal 17 is electrically connected to the conductor of the voltage detection line 19. In addition, the bus bar connection part 31 which comprises the terminal 17 is not restricted square shape, A rectangular shape, circular shape, etc. may be sufficient.

  The voltage detection line 19 connected to the terminal 17 is drawn along the surface of the bus bar connection portion 31 of the terminal 17 fixed to the electrode 12a of the battery 12. These voltage detection wires 19 are respectively introduced into the electric wire routing portion 22 through the introduction slits 27 formed in the upper surface plate portion 24 and accommodated therein. The voltage detection line 19 accommodated in the electric wire arrangement part 22 is pulled out from one end side of the electric wire arrangement part 22 and connected to the connector 18.

Next, the case where the voltage detection line 19 is routed to the wire routing body 21 of the bus bar module 11 attached to the battery assembly 13 will be described. Here, the bus bar connection part 31 of the terminal 17 is shown as a substantially circular shape.
FIG. 5 is a diagram for explaining a procedure for arranging the voltage detection line to the bus bar module, and FIGS. 5A to 5D are schematic plan views in the respective operations.

  As shown in FIG. 5A, first, the terminal 17 is connected to the voltage detection wire 19 using a long wire gripper 41 having a plurality of slits capable of holding the wire. Specifically, the electric wire gripper 41 grips the vicinity of the other end of the voltage detection line 19 with the connector 18 connected to one end thereof, and aligns them. And the electric wire connection part 32 of the terminal 17 is crimped | bonded to the edge part of these voltage detection wires 19, and it connects.

  As shown in FIG. 5B, the terminals 17 connected to the respective voltage detection lines 19 are accommodated in the respective bus bar accommodating portions 20 of the bus bar module 11, and at positions corresponding to the electrodes 12 a of the battery 12 in the bus bar 16. The bus bar 16 is fixed in a state where the hole 16a of the bus bar 16 and the hole 31a of the terminal 17 are overlapped. Then, each voltage detection line 19 is passed through the introduction slit 27 of the electric wire arrangement body 21 and introduced into the electric wire arrangement portion 22. At this time, the opening part 25 of the electric wire routing part 22 is left open. In this way, each voltage detection line 19 passed through each introduction slit 27 passes through the wire routing part 22 and from the opening 25 on the front side in the pulling direction of the voltage detection line 19 on the side opposite to the bus bar housing part 20. It is assumed that it has been pulled out.

  As shown in FIG. 5 (c), each voltage detection line 19 drawn from the opening 25 is accommodated in the electric wire routing portion 22 while pulling the connector 18 toward one end of the bus bar module 11.

  As shown in FIG. 5 (d), the lid body 28 is rotated so as to cover and close the opening 25 of the wire routing portion 22. Thereafter, the terminal 17 is fastened to the electrode 12a of the battery.

  As a result of the above work, the voltage detection line 19 to which the terminal 17 is connected is accommodated in the electric wire arrangement body 21 in the bus bar module 11 attached to the power supply device 14.

  As described above, according to the bus bar module 11 according to the present embodiment, the electric wire arrangement portion 22 of the electric wire arrangement body 21 has the opening 25 on the front side in the drawing direction of the voltage detection line 19. The voltage detection lines 19 introduced into the electric wire arrangement part 22 from the 12 electrode 12 a side and drawn out from the opening 25 of the electric wire arrangement part 22 can be bent together and put into the electric wire arrangement part 22. Thereby, compared with the case where the opening is formed above the direction perpendicular to the direction in which the voltage detection line is drawn, the voltage detection lines 19 are bundled and accommodated together in the electric wire routing portion 22, and the bus bar accommodating portion 20. Can be routed in the array direction. Therefore, the workability of the wiring of the voltage detection line 19 to the electric wire wiring body 21 can be improved.

  In addition, since the introduction slit 27 is formed in the upper surface plate portion 24 so as to communicate with the electric wire routing portion 22 along the drawing direction of the voltage detection line 19 connected to the electrode 12a and drawn out, it is drawn out from the electrode 12a side. The detected voltage detection line 19 can be easily introduced into the electric wire routing portion 22 from the introduction slit 27, and the routing workability of the voltage detection line 19 can be further improved.

  Thereby, according to this embodiment, since the bus bar module 11 with good wiring workability of the voltage detection line 19 is provided, the power supply device 14 with high productivity can be provided.

  In the above-described embodiment, the voltage detection line 19 is accommodated in the wire routing portion 22 and pulled out from one end of the wire routing body 21, but the voltage detection line 19 is accommodated in the wire routing portion 22 and the wire routing is performed. You may pull out from the center of the length direction of the body 21.

Here, the case where the voltage detection line 19 is pulled out from the center in the length direction of the electric cable arrangement 21 will be described.
FIG. 6 is a diagram for explaining the bus bar module according to the modification and the procedure for arranging the voltage detection line to the bus bar module. FIGS. 6 (a) and 6 (b) are schematic plan views in the respective operations. is there.

  As shown in FIG. 6A, the bus bar module 11 includes a wire lead-out portion 45 that does not have the lid 28 in the center portion in the longitudinal direction of the wire routing body 21.

  When wiring the voltage detection lines 19 to the bus bar module 11, first, the terminals 17 connected to the voltage detection lines 19 are accommodated in the bus bar accommodating portions 20 of the bus bar module 11, and the battery in the bus bar 16 is used. The hole 16a of the bus bar 16 and the hole 31a of the terminal 17 are fixed at positions corresponding to the 12 electrodes 12a. Then, each voltage detection line 19 is passed through the introduction slit 27 of the electric wire arrangement body 21 and put into the electric wire arrangement portion 22. In this way, each voltage detection line 19 passed through each introduction slit 27 passes through the wire routing part 22 and from the opening 25 on the front side in the pulling direction of the voltage detection line 19 on the side opposite to the bus bar housing part 20. It is assumed that it has been pulled out.

  Next, the connector 18 is arranged at the center in the longitudinal direction of the electric wire arrangement body 21 and each voltage detection line 19 drawn out from the opening 25 is accommodated in the electric wire arrangement section 22. Then, the voltage detection line 19 is bundled at the center of the electric cable routing body 21 and fixed with an attachment member 46 such as a tape or a band. At this time, it is preferable that the attachment member 46 formed of a band is attached to the bundle of the voltage detection wires 19 near the connector 18 and the attachment member 46 is slid toward the electric wire arrangement body 21 side. If it does in this way, the binding location of the voltage detection line 19 will move to the electric wire arrangement body 21 side by the slide to the electric wire arrangement body 21 side of the attachment member 46, and, thereby, each voltage detection line 19 will be the electric wire arrangement part. 22 is smoothly accommodated.

  Thereafter, as shown in FIG. 6 (b), the lid body 28 is rotated so as to cover the opening 25 of the electric wire routing portion 22 to be closed. Thereafter, the terminal 17 is fastened to the electrode 12 a of the battery 12.

  With the above operation, the bus bar module 11 has the electric wire arrangement body 21 accommodated with the voltage detection line 19, and the bundle of the voltage detection lines 19 is drawn out from the longitudinal center of the electric wire arrangement body 21. The

  Moreover, in the said embodiment, although the case where the terminal 17 provided with the electric wire connection part 32 crimped | bonded to the voltage detection wire 19 was used was illustrated, as a terminal, it is restricted to what connects the voltage detection wire 19 by crimping | compression-bonding. Absent.

Next, the bus bar module 11 provided with the terminal of another structure is demonstrated.
FIG. 7 is a perspective view of a terminal showing a modification of the terminal. FIG. 8 is a cross-sectional view taken along the width direction of a bus bar module having other terminals.

  As shown in FIGS. 7 and 8, the terminal 51 includes an electric wire connecting portion 54 having a pair of press contact blades 52 on one side of the bus bar connecting portion 31. The press contact blade 52 has a slit 52 a into which the voltage detection line 19 is press-fitted, and is arranged along the one side of the bus bar connecting portion 31 with a space therebetween. In this terminal 51, the voltage detection wire 19 is press-fitted into the slit 52a of the press contact blade 52, whereby the voltage detection wire 19 is cut off and the internal conductor bites into the slit 52a. Thereby, the terminal 51 is electrically connected to the conductor of the voltage detection line 19.

  As shown in FIG. 8, when using the terminal 51, the terminal 51 is accommodated in the bus bar accommodating part 20 of the bus bar module 11, and the hole 31a of the terminal 51 and the hole of the bus bar 16 are set so as to correspond to the position of the electrode 12a. 16a is matched and fixed to the bus bar 16. At this time, the terminal 51 is fixed so that the wire connection portion 54 faces sideways so that the press contact blades 52 of the wire connection portion 54 are arranged along the direction in which the voltage detection line 19 is drawn. Then, the voltage detection line 19 is pressed and connected to the pressure contact blade 52 of the electric wire connection portion 54 of the terminal 51, and after the voltage detection line 19 is pulled out from the electric wire arrangement body 21 by the same procedure as described above, the terminal 51 is connected to the battery. Twelve electrodes 12a are fastened.

  Thus, if the terminal 51 provided with the electric wire connection part 54 which has the press contact blade 52 is used, before connecting the voltage detection wire | line 19, the terminal 51 will be accommodated in the bus bar accommodating part 20 of the bus bar module 11, and the electrode of the battery 12 will be accommodated. It can be previously fixed at a position corresponding to 12a.

  In the above description, the terminal 51 is fixed so that the electric wire connecting portion 54 faces sideways, but the position of the electric wire connecting portion 54 is located farther from the electrode 12a than the electric wire arrangement body 21. In addition, the voltage detection line 19 may be pressed in a direction different from the drawing direction (the direction in which the introduction slit 27 extends).

  Thereby, the voltage detection line 19 arranged between the electric wire connection part 54 and the introduction slit 27 can have a clearance. As a result, when tension is applied to the voltage detection line 19, the electric wire connection It can suppress that a tension | tensile_strength is added to the part 54 rapidly. In particular, since the voltage detection line 19 is routed in the bus bar housing portion 20 by setting the position of the wire connecting portion 54 away from the wire routing body 21, voltage detection is performed by a holding portion such as a cantilever rib. Holding the wire 19 can further reduce the rapid application of tension to the wire connection portion 54. In addition, the voltage detection line 19 is routed in the bus bar accommodating portion 20 so as to bend in the pulling direction (direction in which the introduction slit 27 extends) from the direction connected to the electric wire connection portion 54, and the voltage detection line 19 is supported by the holding portion. If the bending is maintained, rapid application of tension to the wire connection portion 54 can be reliably reduced. It is optimal that the wire connecting portion 54 is positioned on the opposite side of the wire arrangement body 21 from the electrode 12a, and the voltage detection wire 19 is pressed so that the voltage detection wire 19 is 90 ° with respect to the drawing direction. As long as the same effect can be obtained, the voltage detection line 19a may be pressed to be 90 ° or less or 90 ° or more with respect to the drawing direction. Further, not only when the voltage detection line 19 is pressed against the terminal but also when the voltage detection line 19 is connected to the terminal by crimping or other methods, the direction in which the voltage detection line 19 is connected is drawn out (the introduction slit 27 extends). Different direction).

  Next, a bus bar module 61 according to another embodiment will be described. FIG. 9 is a schematic plan view of a bus bar module 61 according to another embodiment.

As shown in FIG. 9, the wire routing body 21 of the bus bar module 61 includes a lower surface plate portion 23. The lower surface plate portion 23 is formed with a guide protrusion 66 for guiding the voltage detection line 19 drawn from the battery electrode in a desired direction from the drawing direction.
Although FIG. 9 shows the case where the guide protrusion 66 is formed of a cylindrical member, it may be elliptical or arcuate. Further, when the guide protrusion 66 has an inverted conical shape in which the cross-sectional radius on the lower surface plate portion 23 side is small and the cross-sectional radius increases toward the top, when the voltage detection lines 19 are bent together in a desired direction, It is possible to suppress the voltage detection line 19 from floating from the lower surface plate portion 23. Further, in FIG. 9, the plurality of guide protrusions 66 are installed at different positions with respect to the electric wire drawing direction, but the plurality of guide protrusions 66 may be arranged in parallel with the arrangement direction of the bus bar accommodating portion 20. Good.

  Moreover, you may install the upper surface board part comprised by the separate body or the hinge cover partially or entirely in the location where the voltage detection line 19 is wired. For example, in the bus bar module 61 shown in FIG. 9, as shown in FIG. 10, an upper surface plate portion 73 having a hinge cover structure may be provided at a location where the voltage detection line 19 is routed. FIG. 10 shows a case where the upper surface plate portion 73 is partially provided with respect to the voltage detection line 19.

  In addition, this invention is not limited to embodiment mentioned above, A deformation | transformation, improvement, etc. are possible suitably. In addition, the material, shape, dimensions, number, arrangement location, and the like of each component in the above-described embodiment are arbitrary and are not limited as long as the present invention can be achieved.

Here, the features of the above-described embodiment of the bus bar module according to the present invention and the power supply device including the bus bar module are briefly summarized and listed in the following [1] to [5], respectively.
[1] A bus bar (16) for electrically connecting the electrodes (12a) of the batteries (12) adjacent to each other in a battery assembly (13) composed of a plurality of batteries (12);
A plurality of bus bar accommodating portions (20) each accommodating the bus bar (16);
A wire arrangement body (voltage detection line 19) provided along the arrangement direction of the bus bar housing portion (20) and connected to the electrode (12a) together with the bus bar (16) ( 21) and
A bus bar module (11) comprising:
The wire arrangement body (21) has an electric wire arrangement portion (22) in which the electric wire (voltage detection line 19) drawn from the electrode (12a) is accommodated,
The wire routing portion (22) has an opening (25) formed along the arrangement direction on the opposite side to the bus bar housing portion (20) side.
A bus bar module.
[2] The wire arrangement body (21) has a lower surface plate portion (23) and an upper surface plate portion (24) that form the electric wire arrangement portion between each other,
The upper surface plate portion (24) has an introduction slit (27) communicating with the electric wire routing portion (22) along the drawing direction of the electric wire (voltage detection wire 19) drawn from the electrode (12a). The bus bar module according to [1], which is formed.
[3] The electric wire (voltage detection line 19) and the electrode (12a) are connected via a terminal (51) fixed to the electrode (12a),
The terminal (51) has a wire connecting part (54) for connecting the wire (voltage detection wire 19),
The electric wire connection part (54) is a position separated from the electrode (12a) with respect to the electric wire arrangement body (21), and the electric wire (voltage) drawn out to the electric wire arrangement body (21). The bus bar module according to [1] or [2], wherein the electric wire (voltage detection line 19) is connected in a direction different from a drawing direction of the detection line 19).
[4] A bus bar (16) for electrically connecting the electrodes (12a) of the adjacent battery (12) of the battery assembly (13) composed of a plurality of batteries (12);
A plurality of bus bar accommodating portions (20) each accommodating the bus bar (16);
A wire arrangement body (voltage detection line 19) provided along the arrangement direction of the bus bar housing portion (20) and connected to the electrode (12a) together with the bus bar (16) ( 21) and
A bus bar module (11) comprising:
The wire arrangement body (21) has a lower surface plate part (23) facing the electric wire (voltage detection line 19) drawn from the electrode (12a),
The lower surface plate portion (23) is formed with a guide portion (guide protrusion 66) for guiding the electric wire (voltage detection wire 19) drawn from the electrode (12a) in a predetermined direction. Bus bar module to be used.
[5] A power source characterized in that the bus bar module (11) according to any one of [1] to [4] is mounted on a battery assembly (13) including a plurality of batteries (12). apparatus.

DESCRIPTION OF SYMBOLS 11 Bus bar module 12 Battery 12a Electrode 13 Battery assembly 14 Power supply device 16 Bus bar 19 Voltage detection wire (electric wire)
DESCRIPTION OF SYMBOLS 20 Bus bar accommodating part 21 Electric wire arrangement body 22 Electric wire arrangement part 23 Lower surface board part 24 Upper surface board part 25 Opening part 27 Introduction slit 66 Guide protrusion

Claims (5)

A bus bar for electrically connecting adjacent battery electrodes of a battery assembly composed of a plurality of batteries;
A plurality of bus bar accommodating portions each accommodating the bus bars;
An electric wire routing body in which a plurality of electric wires are provided along the arrangement direction of the bus bar housing portion and connected to the electrodes together with the bus bar;
A bus bar module comprising:
The electric wire arrangement has an electric wire arrangement portion in which the electric wire drawn from the electrode is accommodated,
The wire routing portion, on the opposite side of the bus bar housing part side, have a opening formed along the arrangement direction,
The electric wire arrangement includes a lower surface plate portion and an upper surface plate portion that form the electric wire arrangement portion between each other,
The bus bar module, wherein the upper surface plate portion is formed with an introduction slit that communicates with the electric wire routing portion along a drawing direction of the electric wire drawn from the electrode . The electric wire and the electrode are connected via a terminal fixed to the electrode,
The terminal has a wire connecting portion for connecting the wire,
The electric wire connecting portion is connected to the electric wire arrangement body at a position separated from the electrode and in a direction different from a drawing direction of the electric wire drawn out to the electric wire arrangement body. The bus bar module according to claim 1 , wherein A bus bar for electrically connecting adjacent battery electrodes of a battery assembly composed of a plurality of batteries;
A plurality of bus bar accommodating portions each accommodating the bus bars;
An electric wire routing body in which a plurality of electric wires are provided along the arrangement direction of the bus bar housing portion and connected to the electrodes together with the bus bar;
A bus bar module comprising:
The wire arrangement body has a lower surface plate portion facing the electric wire drawn out from the electrode,
The lower surface plate portion is formed with a guide portion for guiding the electric wire drawn from the electrode in a predetermined direction ,
The bus bar module according to claim 1, wherein the guide portion is an inverted conical guide protrusion having a small cross-sectional radius on the lower surface plate portion side and a larger cross-sectional radius toward the top . A bus bar for electrically connecting adjacent battery electrodes of a battery assembly composed of a plurality of batteries;
A plurality of bus bar accommodating portions each accommodating the bus bars;
An electric wire routing body in which a plurality of electric wires are provided along the arrangement direction of the bus bar housing portion and connected to the electrodes together with the bus bar;
A bus bar module comprising:
The wire arrangement body has a lower surface plate portion facing the electric wire drawn out from the electrode,
The lower surface plate portion is formed with a guide portion for guiding the electric wire drawn from the electrode in a predetermined direction ,
The bus bar module, wherein the lower surface plate portion is provided with an upper surface plate portion formed of a separate body or a hinge cover, partially or entirely, at a location where the electric wire is routed . A power supply device, wherein the bus bar module according to any one of claims 1 to 4 is mounted on a battery assembly including a plurality of batteries.

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