JP2013016381A - Battery wiring module - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a battery wiring module whose lid is prevented from being detached.SOLUTION: A battery wiring module 20 is mounted to a single cell group 14, in which plural single cells 13 having positive and negative electrode terminals 11 are aligned. The battery wiring module 20 comprises an output bus bar 42 connected to the single cells 13, and a resin protector 21 having an output bus bar holding part 60 holding the output bus bar 42. The output bus bar holding part 60 has holding walls 61 holding the output bus bar 42, and a lid 71 coupled to the holding wall 61 via a hinge 70 and covering the output bus bar 42. A first locking part 67 locking the lid 71 while covering the output bus bar 42 is formed on a first holding wall 61A of the holding walls 61, on which the hinge 70 is formed, and a first locked part 73 locked by the first locking part 67 is formed on the lid 71.

Description

  The present invention relates to a battery wiring module.

In battery modules for electric vehicles and hybrid vehicles, a plurality of single cells having positive and negative electrode terminals are arranged side by side. In such a battery module, a plurality of single cells are electrically connected by connecting a positive electrode terminal (positive electrode terminal) and a negative electrode terminal (negative electrode terminal) with a bus bar. .
In order to electrically connect a plurality of single cells, for example, a battery wiring module as described in Patent Document 1 is used.

Japanese Unexamined Patent Publication No. 2011-8955

  The battery wiring module described in Patent Literature 1 includes members such as a bus bar and a voltage detection line, and a synthetic resin resin protector having a holding portion for holding and housing these members. In order to hold | maintain the insulation state of the member hold | maintained at a holding | maintenance part, the resin protector may be provided with the cover part which covers a holding | maintenance part. In the battery wiring module described in Patent Document 1, the lid that covers the holding part is connected to the holding part via a hinge.

In the battery wiring module having such a configuration, since the lid is opened and closed during work, when the battery wiring module is made of a flame-retardant resin, the hinge is cut off by repeated opening and closing operations, and the lid Sometimes dropped out. If the cover part falls off, the electrode terminals, bus bars, etc. may be exposed and the insulation state may not be maintained.
This invention is completed based on the above situations, Comprising: It aims at providing the battery wiring module which prevented the drop-off | omission of the cover part.

  In order to solve the above problems, the present invention provides a battery wiring module attached to a unit cell group in which a plurality of unit cells having positive and negative electrode terminals are arranged, and a member connected to the unit cell, A resin protector having a holding portion for holding the member, and the holding portion has a holding wall for holding the member, and a lid portion that is connected to the holding wall via a hinge and covers the member, Among the holding walls, the first holding wall on which the hinge is formed is formed with a first locking portion that locks the lid in a state of covering the member, A first locked portion locked by the first locking portion is formed.

  In the present invention, the first holding wall on which the hinge is formed is formed with a first locking portion that locks the lid portion that covers the member, and the first locking portion is formed on the lid portion. The 1st to-be-latched part latched by is formed. Therefore, according to the present invention, even when the hinge connecting the lid and the holding wall is cut due to repeated opening / closing of the lid, etc., when the member is covered with the lid, the first of the lid Since the locked portion is locked by the first locking portion of the holding wall, the lid portion does not fall off.

The present invention may have the following configuration.
The holding wall has a second holding wall provided at a position facing the first holding wall, and the second holding wall is locked with the lid covering the member in a second state. A locking part may be formed, and a second locked part locked by the second locking part may be formed on the lid part.

  With such a configuration, the lid portion is not only locked by the first locking portion of the first holding wall, but also by the second locking portion of the second holding wall at a position facing the first holding wall. Is also locked, so that the lid can be reliably prevented from falling off.

  A handle portion may be provided on the lid portion. With such a configuration, the lid can be opened and closed smoothly.

The holding portion may hold a bus bar that connects the electrode terminal and another device.
The holding portion of the resin protector holds members such as a bus bar that connects the electrode terminals, a bus bar that connects the electrode terminals and other devices, and a voltage detection line. In the holding portion that holds the bus bar that connects the electrode terminal and another device, the lid is frequently opened and closed, so that the hinge is easily cut. Therefore, the above configuration is preferable because the lid portion can be prevented from falling off where the hinge is easily cut.

  ADVANTAGE OF THE INVENTION According to this invention, the battery wiring module which prevented the drop-off | omission of the cover part can be provided.

FIG. 3 is a plan view of a battery module including the battery wiring module according to Embodiment 1, and a partial plan view showing a state where a lid is opened The partial top view which shows the state which opened the cover part, and is a partial top view of a battery wiring module Side view of the battery wiring module in the state of FIG. Sectional drawing of the battery wiring module in the AA line of FIG. Partial plan view of the battery wiring module showing a state in which the lid is closed The left view of the battery wiring module in the state of FIG. The right view of the battery wiring module in the state of FIG. Sectional drawing of the battery wiring module in the BB line of FIG. Sectional drawing of the battery wiring module in the BB line which shows the state in the middle of closing a cover part

<Embodiment 1>
An embodiment embodying the present invention will be described with reference to FIGS. The battery wiring module 20 of the present embodiment is attached to a unit cell group 14 in which a plurality of unit cells 13 each having a positive electrode electrode 11 and a negative electrode terminal 11 are arranged side by side. The terminal 11 is electrically connected. The battery module 10 in which the battery wiring module 20 is attached to the unit cell group 14 is used as a drive source of, for example, an electric vehicle or a hybrid vehicle.

(Single cell 13)
The unit cell 13 has a flat, substantially rectangular parallelepiped shape, and a power generation element (not shown) is accommodated therein. A voltage detection connection terminal 12 and positive and negative electrode terminals 11 and 11 are provided on the upper surface of the unit cell 13. The connection terminal 12 is provided between the two electrode terminals 11 and 11.

  The upper surface of the unit cell 13 is an electrode surface. The electrode terminal 11 constituting the positive electrode terminal and the electrode terminal 11 constituting the negative electrode terminal have the same shape and the same size. The electrode terminal 11 has a screw portion (not shown) that can be screwed with a screw thread of a bolt 15 to be connected to a bus bar 40 described later in the vicinity of both ends in the longitudinal direction of a metal terminal block (not shown). It is provided in the hole shape provided with.

  The voltage detection connection terminal 12 is also provided in a hole shape having a screw portion (not shown) that can be screwed with a screw thread of a bolt (not shown) for connection to a second voltage detection terminal 55 described later. It has been. The connection terminal 12 has a smaller diameter than the positive electrode terminal 11 and the negative electrode terminal 11. The unit cells 13 are arranged so that the adjacent electrode terminals 11 have different polarities. A plurality of unit cells 13 are arranged in series in the left-right direction in FIG.

(Battery wiring module 20)
The battery wiring module 20 includes a plurality of metal bus bars 40 connected to the positive and negative electrode terminals 11 of the adjacent unit cells 13, the electrode terminal 11 of the unit cell 13 at the left end in FIG. Connected to the output bus bar 42 connected to the device), the first voltage detection terminal 50 overlapped and electrically connected to the bus bar 40 and the output bus bar 42, and the connection terminal 12 for voltage detection of the unit cell 13. A second voltage detection terminal 55, a detection electric wire 45 connected to the first voltage detection terminal 50 and the second voltage detection terminal 55, and a resin protector that holds these members (members connected to the unit cell 13). 21.

(Bus bar 40 and output bus bar 42)
The bus bar 40 and the output bus bar 42 are formed by pressing a metal plate material made of copper, copper alloy, stainless steel (SUS), aluminum or the like into a predetermined shape. Metals such as tin and nickel may be plated on the surface of the bus bar 40 and the surface of the output bus bar 42, respectively.

  As shown in FIGS. 1 and 2, the bus bar 40 has a substantially rectangular shape as a whole. The bus bar 40 is formed with a pair of terminal through-holes 41, 41 having a substantially circular shape through which the bolt 15 for connecting to the electrode terminal 11 is inserted, through the bus bar 40. The terminal through hole 41 is set to be slightly larger than the hole diameter of the electrode terminal 11. The bolt 15 is inserted into the terminal through hole 41 and the screw thread is screwed into the hole of the electrode terminal 11 so that the bus bar 40 is sandwiched between the head of the bolt 15 and the terminal block. Terminal 11 and bus bar 40 are electrically connected.

  As shown in FIGS. 1 and 2, the output bus bar 42 has a substantially L shape as a whole. A terminal insertion hole 44 having a substantially circular shape through which the bolt 15 for connecting to the electrode terminal 11 is inserted is formed at one end portion of the output bus bar 42 through the bus bar 40. Similar to the terminal through hole 41 of the terminal connection bus bar 40, the terminal insertion hole 44 is set to be slightly larger than the hole diameter of the electrode terminal 11, and the bolt 15 is inserted into the terminal insertion hole 44 and the screw thread thereof is the electrode terminal. 11, the output bus bar 42 is sandwiched between the head of the bolt 15 and the terminal block, whereby the electrode terminal 11 and the output bus bar 42 are electrically connected.

A terminal 43 for external connection for electrically connecting the battery module 10 and another electrical device protrudes upward from the end (other end) opposite to the terminal insertion hole 44 of the output bus bar 42. ing. The external connection terminal 43 has a bolt shape with a threaded outer peripheral surface, and is fixed to the output bus bar 42 by being press-fitted into a through hole (not shown) formed in the output bus bar 42. Between the two end portions of the output bus bar 42, a positioning protrusion 42A that fits into a positioning recess 68 of the output bus bar holding portion 60 described later is formed to protrude.
(Voltage detection terminals 50, 55)
Of the bus bar holding portion 22 of the resin protector 21, a first voltage detection terminal 50 for detecting the electrode voltage of the unit cell 13 is overlapped with the bus bar 40 on the side where the barrel holding portion 23 is extended and formed. Is arranged. In the present embodiment, the first voltage detection terminal 50 has a substantially rectangular shape, and one of its corners is inserted into a through hole 22A provided in the bus bar holding portion 22, and the two corners are recessed 22B. Is positioned with respect to the bus bar 40. Further, an insertion hole 51 through which the connection bolt 15 is inserted when connecting to the positive terminal or the negative terminal is formed near the center, and the first voltage detection terminal 50 is positioned with respect to the bus bar 40. In some cases, the terminal is set to overlap the terminal through hole 41 of the bus bar 40.

  The first voltage detection terminal 50 is formed with a barrel portion 52 connected to the end portion of the detection electric wire 45, and the barrel portion 52 is caulked so as to be wound around the core wire of the detection electric wire 45, thereby 1 voltage detection terminal 50 and the detection electric wire 45 are electrically connected. The detection electric wire 45 is connected to ECU etc. which are not shown in figure. The ECU or the like detects the electrode voltage of the unit cell 13.

  In addition, a second voltage detection terminal 55 for detecting the internal voltage of the unit cell 13 is disposed in the detection terminal holding unit 25 of the resin protector 21. The second voltage detection terminal 55 of the present embodiment has a substantially rectangular shape that is smaller than the first voltage detection terminal 50 described above. Similar to the first voltage detection terminal 50, the connection of the unit cell 13 near the center thereof. It has an insertion hole 56 through which a connecting bolt is inserted when connecting to the terminal 12, and a barrel portion 57 connected to the end of the detection electric wire 45 is extended and formed at the end.

  The first voltage detection terminal 50 and the second voltage detection terminal 55 are formed by pressing a metal plate material such as copper, copper alloy, stainless steel, or aluminum into a predetermined shape. The surfaces of the voltage detection terminals 50 and 55 may be plated with a metal such as tin or nickel.

(Resin protector 21)
The resin protector 21 is formed by connecting a plurality of connecting units (retaining parts), and has an elongated shape in the arrangement direction of the cells 13 (left and right direction in FIG. 1) as shown in FIG. The resin protector 21 includes holding parts 22, 25, 30 that hold members (the bus bar 40, the output bus bar 42, the first voltage detection terminal 50, the second voltage detection terminal 55, and the detection electric wire 45) connected to the unit cell 13. Are formed respectively.

  The resin protector 21 is provided with a plurality of bus bar holding portions 22 that are open upward and have a partition wall 24 that can hold the bus bar 40 by partitioning from the outside in two rows along the longitudinal direction thereof. An output bus bar holding unit 60 that holds the output bus bar 42 is provided outside the unit cell group 14 at the left end of the bus bar holding unit 22 arranged in the rear side in FIG. It is arranged to overhang.

  Each bus bar holding portion 22 is formed with a through hole 22A that passes through one corner of the first voltage detection terminal 50 and two recesses 22B into which the other corner is fitted. A groove-like barrel holding portion 23 that holds the barrel portion 52 of the terminal 50 is formed to extend obliquely with respect to the longitudinal direction of the bus bar holding portion 22. Thus, the first voltage detection terminal 50 can be installed obliquely with respect to the direction in which the bus bars 40 are arranged.

  As shown in FIG. 2 and FIG. 3, the bus bar 40 is held on the inner wall surfaces of the pair of partition walls 24, 24 arranged substantially parallel to the arrangement direction of the cells 13 of each bus bar holding portion 22. A retaining protrusion 27 that protrudes inwardly is formed. Of the pair of partition walls 24, 24, one retaining wall 27 is provided on one partition wall 24 and two on the other partition wall 24. A slit is formed in the peripheral edge excluding the upper edge of the retaining protrusion 27 so that it can be bent and deformed. When the bus bar 40 is inserted into each bus bar holding portion 22, the bending piece 28 formed with the retaining protrusion 27 is pushed by the bus bar 40 and bent outward, and when the bus bar 40 is arranged at the bottom of the bus bar holding portion 22, The flexure piece 28 is elastically restored and the bus bar 40 is prevented from coming off.

  As shown in FIG. 4, the output bus bar holding portion 60 has a holding wall 61 that opens upward, can hold the output bus bar 42 while being partitioned from the outside, and has a lid portion 71 that covers a part of the opening. The holding wall 61 of the output bus bar holding portion 60 is provided so as to stand upward so as to surround the output bus bar 42.

  Similar to the bus bar holding part 22, the output bus bar holding part 60 is formed with a through hole 62A that penetrates one corner of the first voltage detection terminal 50 and two recesses 62B into which the other corner is fitted. In addition, a groove-shaped barrel holding portion 63 that holds the barrel portion 52 of the first voltage detection terminal 50 is formed to extend obliquely with respect to the longitudinal direction of the bus bar holding portion 22.

  Further, the pair of holding walls 61 </ b> C and 61 </ b> D arranged substantially parallel to the arrangement direction of the unit cells 13 of the output bus bar holding unit 60 and the pair of holding units arranged substantially parallel to the side surface of the unit cell 13. Each of the holding walls 61B arranged on the inner side of the walls 61A and 61B is formed with a retaining protrusion 66A that retains the output bus bar 42 in a retaining state so as to protrude inward one by one. Of the pair of holding walls 61C, 61D arranged substantially parallel to the arrangement direction of the cells 13 of the output bus bar holding part 60, the holding wall 61C on the detection terminal holding part 25 side is defined as the third holding wall 61C, and the opposite side The wall is referred to as a fourth holding wall 61D. A part of the third holding wall 61C is cut out, and a terminal of the external device can be derived from the cut out part.

  The retaining protrusion 66A formed on the output bus bar holding part 60 is formed with a slit on the periphery except for the upper edge and can be bent and deformed similarly to the retaining protrusion 27 of the bus bar holding part 22. When the output bus bar 42 is inserted into the output bus bar holding part 60, the bending piece 66 formed with the retaining protrusion 66A is pushed by the output bus bar 42 and bent outward, and the output bus bar 42 is bent to the bottom 61E of the output bus bar holding part 60. The flexible piece 66 is elastically restored to prevent the output bus bar 42 from coming off.

Here, a pair of holding walls 61A. Of 61B, the holding wall 61A arranged on the outer side is connected to the lid 71 via the hinge 70 (an example of a first holding wall). Of the pair of holding walls 61A and 61B arranged substantially parallel to the side surface of the unit cell 13, the holding wall 61B arranged on the inner side is provided at a position facing the first holding wall 61A ( It is an example of a 2nd holding wall.
Hereinafter, the holding wall 61A is referred to as a first holding wall 61A, and the holding wall 61B is referred to as a second holding wall 61B.

  On the first holding wall 61A of the output bus bar holding portion 60, a positioning recess 68 capable of receiving the positioning protrusion 42A provided on the output bus bar 42 is formed.

  Now, in the first holding wall 61A of the output bus bar holding portion 60, two cutout portions 67 cut into a square shape are formed. The locking claw 73 formed on the lid portion 71 is locked to the notch portion 67, so that the lid portion 71 is locked in a state of covering the output bus bar 42 (of the first locking portion). One case). On the outer surface of the second holding wall 61B, a lock protrusion 69 that locks the cover 71 in a state of covering the output bus bar 42 is formed to protrude outward (an example of a second locking portion).

  The lid 71 is continuous with the first holding wall 61A and the two hinges 70, and is provided so as to cover the region of the output bus bar 42 that is disposed outside the unit cell group 14. The lid portion 71 is provided with a handle portion 72 that is disposed on the second holding portion side when the lid portion 71 is closed.

  At the portion adjacent to the hinge 70 on the inner side surface 71A of the lid portion 71 (the surface disposed on the inner side when the lid portion 71 is closed), the engagement is secured to the two cutout portions 67 of the first holding wall 61A. A pawl 73 is formed to protrude corresponding to the notch 67 (an example of a first locked portion). In addition, the handle portion 72 of the lid portion 71 is formed with a lock hole 75 (an example of a second locked portion) into which a lock protrusion 69 provided on the outer surface of the second holding wall 61B is fitted.

  Furthermore, two projecting pieces 74 are formed on the inner surface of the lid portion 71 so as to project at a position facing the lock hole 75 of the handle portion 72. When the lid portion 71 is closed, the protruding piece 74 of the lid portion 71 is disposed on the inner side surface of the second holding wall 61B. The strength of the locking structure between the second holding wall 61 </ b> B and the lid portion 71 is ensured by the protruding piece 74 of the lid portion 71.

  Between the two rows of bus bar holding portions 22, a plurality of detection terminal holdings capable of holding the second voltage detection terminal 55 having a partition wall that opens upward and is partitioned from the outside to hold the second voltage detection terminal 55. The portions 25 are provided in a line along the longitudinal direction.

  Furthermore, between the detection terminal holding part 25 and each bus-bar holding part 22 and 22, the electric wire accommodation groove | channel 30 for accommodating the detection electric wire 45 connected to the 1st voltage detection terminal 50 and the 2nd voltage detection terminal 55, 30 are provided along the longitudinal direction of the resin protector 21, respectively.

  As shown in FIGS. 1 and 2, the electric wire accommodation groove 30 has a pair of groove wall portions 31 </ b> A and 31 </ b> B and a bottom portion 32 connecting them, and can accommodate a plurality of detection electric wires 45 therein. The groove wall portion 31A on the bus bar holding portion 22 side is provided with a first wire insertion portion 34 for introducing the detection electric wire 45 into the electric wire receiving groove 30 from the bus bar holding portion 22 side. 23 is connected to the first electric wire insertion portion 34 so that the bus bar holding portion 22 and the electric wire receiving groove 30 are connected to each other.

  On the other hand, the second electric wire for introducing the detection electric wire 45 into the electric wire accommodation groove 30 from the detection terminal holding portion 25 side to the groove wall portion 31B on the detection terminal holding portion 25 side of the pair of groove wall portions 31A and 31B. An insertion part 35 is provided. The second wire insertion portion 35 has a groove-like barrel holding portion 26 formed from the detection terminal holding portion 25 along the longitudinal direction of the resin protector 21 and bent into an L shape so as to form a groove wall portion of the wire receiving groove 30. The detection terminal holding part 25 and the electric wire accommodating part 30 are connected to each other at a position perpendicular to 31B. In addition, the bending direction of the barrel holding part 26 from the detection terminal holding part 25 to the pair of electric wire receiving grooves 30, 30 (the direction in which the detection electric wire 45 is pulled out) is staggered in the length direction of the electric wire receiving groove 30. One by one is formed toward the opposite side.

  A pair of restricting pieces 36 and 37 for restricting the protruding of the detection wire 45 from the wire receiving groove 30 are provided at the upper end edges of the pair of groove wall portions 31 </ b> A and 31 </ b> B of the wire receiving groove 30. It protrudes toward the groove wall portions 31B and 31A facing each other at positions shifted in the vertical direction.

  An electric wire escape hole 39 is provided in the bottom portion 32 of the electric wire receiving groove 30 immediately below the pair of restricting pieces 36 and 37. These electric wire escape holes 39 allow a part of the detection electric wires 45 to escape into the holes when a large number of the detection electric wires 45 are disposed in the electric wire receiving grooves 30 and are pressed by the restricting pieces 36 and 37. This makes it difficult for the detection electric wire 45 to protrude from the opening of the electric wire receiving groove 30 to the outside.

(Assembly of battery wiring module 20 and connection with external equipment)
When assembling the battery wiring module 20 of the present embodiment described above, first, the bus bar 40 is accommodated in the bus bar holding part 22 of the resin protector 21, and the output bus bar 42 is accommodated in the output bus bar holding part 60.

  Next, the first voltage detection terminal 50 is attached to the resin protector 21. Specifically, the barrel portion 52 of the first voltage detection terminal 50 is caulked to the detection electric wire 45, and the first voltage detection terminal 50 is received from above at a predetermined position in the bus bar holding portion 22 of the resin protector 21. And overlap the bus bar 40. And the barrel part 52 of the 1st voltage detection terminal 50 is hold | maintained in the barrel holding part 23 of the resin protector 21, and the detection electric wire 45 is introduce | transduced in the electric wire accommodation groove | channel 30 from the 1st electric wire insertion part 34. FIG. Next, the 2nd voltage detection terminal 55 is installed in the detection terminal holding | maintenance part 25, and the detection electric wire 45 connected to this is arrange | positioned in the electric wire accommodation groove | channel 30 similarly to the above.

  The battery wiring module 20 of the present embodiment assembled in this way is attached to the upper surface side of the unit cell group 14 arranged with the hole-like electrode terminals 11 and the connection terminals 12 facing upward. That is, the battery wiring module 20 is placed on the upper side of the unit cell group 14, and the connection bolt 15 is inserted into the insertion hole 51 of the first voltage detection terminal 50, the terminal through hole 41 of the bus bar 40, and the first voltage detection terminal. The 50 insertion holes 51 and the terminal insertion holes 44 of the output bus bar 42 are inserted. Further, a connecting bolt (not shown) is inserted through the insertion hole 56 of the second voltage detection terminal 55, and the adjacent positive and negative electrode terminals 11, the electrode terminal 11 and the first voltage detection terminal 50, and The connection terminal 12 and the second voltage detection terminal 55 are electrically connected. Thereby, the battery module 10 is completed.

  The battery module 10 assembled as described above is connected to an external device (other device). Specifically, the lid 71 of the output bus bar holding unit 60 is opened, and the external connection terminal 43 of the output bus bar 42 is connected to a terminal of an external device (not shown).

(Operation of this embodiment)
After the connection work with the external device is finished, the handle portion 72 of the lid portion 71 of the output bus bar holding portion 60 is pinched and the lid portion 71 is placed on the output bus bar 42. When the handle portion 72 is pinched and the lid portion 71 is rotated, the locking claw 73 of the lid portion 71 is disposed in the notch portion 67 of the first holding wall 61A as shown in FIG. When the lid portion 71 is rotated slightly downward from the position shown in FIG. 9, the latching claw 73 of the lid portion 71 is fitted into the notch 67 of the first holding wall 61 </ b> A and is latched. The projecting piece 74 is arranged on the inner wall surface side of the second holding wall 61B, and the locking projection 69 of the second holding wall 61B is arranged in the lock hole 75. In this state, since the lid 71 covers the output bus bar 42 and is locked to the first holding wall 61A, the lid 71 does not fall off even if the hinge 70 is broken.

  When the lid 71 is moved to a position where the lock projection 69 of the second holding wall 61B is fitted in the lock hole 75 of the lid 71 (position shown in FIGS. 5 to 8), the lid 71 is held second. Locked to the wall 61B. In this state, since the lid portion 71 is locked to the output bus bar holding portion 60 at four places, the lid portion 71 will not fall off even if the hinge 70 is cut. 5 to 9, the terminals of the external device and the unit cell group 14 are omitted.

(Effect of this embodiment)
In the present embodiment, the first holding wall 61A on which the hinge 70 is formed is formed with a notch 67 (first locking portion) that locks the lid portion 71 that covers the member. The lid 71 is formed with a locking claw 73 (first locked portion) that is locked by a notch 67. Therefore, according to the present embodiment, even if the hinge 70 that connects the lid portion 71 and the first holding wall 61 </ b> A is broken due to repeated opening / closing of the lid portion 71, the output bus bar 42 (member) is moved by the lid portion 71. When the cover 71 is in the covered state, the locking claw 73 of the lid 71 is locked by the notch 67 of the first holding wall 61A, so that the lid 71 does not fall off.

  In addition, according to the present embodiment, the lock protrusion 69 (the second protrusion) that locks the cover 71 on the second holding wall 61B provided at a position facing the first holding wall 61A while covering the member. The locking portion 75 is formed in the lid portion 71, and the locking claw 73 of the lid portion 71 is formed in the notch portion of the first holding wall 61 </ b> A. In addition to being locked by 67, it is also locked by the locking projection 69 of the second holding wall 61B at a position facing the first holding wall 61A, so that the lid portion 71 can be reliably prevented from falling off. Can do.

  Moreover, according to this embodiment, since the handle part 72 is provided in the cover part 71, the opening / closing operation | work of the cover part 71 can be performed smoothly.

  Furthermore, according to this embodiment, since the present invention is applied to the output bus bar holding portion 60, it is possible to prevent the lid portion 71 from falling off at a portion where the hinge 70 is easily cut.

<Other embodiments>
The present invention is not limited to the embodiments described with reference to the above description and drawings. For example, the following embodiments are also included in the technical scope of the present invention.
(1) In the above embodiment, the first holding wall 61A is provided with the notch portion 57 as the first locking portion, and the lid portion 71 is provided with the locking claw 73 as the first locked portion. The first holding wall 61A may be provided with a locking projection as a first locking portion, and the lid 71 may be provided with a locking hole for receiving the locking projection.
(2) In the above-described embodiment, the configuration in which the lock projection 69 is provided in the second holding wall 61B and the lock hole 75 is provided in the lid 71 has been described, but the relationship between the second holding wall 61B and the lid 71 is shown. You may not provide a stop structure. Further, a lock hole may be provided as the second locking portion, and a lock protrusion may be provided as the second locked portion.
(3) In the above embodiment, the example in which the present invention is applied to the output bus bar holding unit 60 has been described. However, for example, the present invention may be applied as a configuration in which the bus bar holding unit 22 includes the lid portion 71, and detection is performed. The present invention may be applied as a configuration in which the terminal holding portion 25 is provided with the lid portion 71, and the present invention is applied as a configuration in which the electric wire holding portion that holds the detection electric wire 45 connected to the detection terminal is provided with the lid portion 71. May be.
(4) In the above embodiment, the lid portion 71 including the handle portion is shown. However, the lid portion 71 may not include the handle portion 72.
(5) In the above embodiment, the lid portion 71 covers a part of the output bus bar holding portion 60, but the lid portion 71 may cover the entire output bus bar holding portion 60.
(6) In the above embodiment, the battery module 10 to which the two types of voltage detection terminals 50 and 55 are connected is shown, but the voltage detection terminals 50 and 55 may not be connected, or one type. The voltage detection terminal may be connected.
(7) In the above embodiment, the resin protector 21 is formed by connecting a plurality of connecting units. However, it may be a single plate.

DESCRIPTION OF SYMBOLS 11 ... Electrode terminal 13 ... Single cell 14 ... Single cell group 20 ... Battery wiring module 21 ... Resin protector 22 ... Bus bar holding part 25 ... Detection terminal holding part 30 ... Electric wire accommodation groove 40 ... Bus bar (member)
42 ... Output bus bar (member)
45 ... Detection wire (member)
50 ... 1st voltage detection terminal (member)
55. Second voltage detection terminal (member)
60 ... Output bus bar holding part (holding part)
61 ... Holding wall 61A ... First holding wall 61B ... Second holding wall 67 ... Notch (first locking part)
69 ... Lock protrusion (second locking part)
70 ... Hinge 71 ... Lid 72 ... Handle part 73 ... Locking claw (first locked part)
75 ... Lock hole (second locked part)

Claims (4)

A battery wiring module attached to a unit cell group in which a plurality of unit cells having positive and negative electrode terminals are arranged,
A member connected to the unit cell; and a resin protector having a holding portion for holding the member;
The holding portion has a holding wall that holds the member, and a lid portion that is continuous with the holding wall via a hinge and covers the member,
Among the holding walls, the first holding wall on which the hinge is formed is formed with a first locking portion that locks the lid in a state of covering the member, A battery wiring module, wherein a first locked portion that is locked by the first locking portion is formed. The holding wall has a second holding wall provided at a position facing the first holding wall,
The second holding wall is formed with a second locking portion for locking the lid portion in a state of covering the member, and the lid portion is locked by the second locking portion. The battery wiring module according to claim 1, wherein a locked portion is formed. The battery wiring module according to claim 1, wherein a handle portion is provided on the lid portion. 4. The battery wiring module according to claim 1, wherein a bus bar that connects the electrode terminal and another device is held in the holding portion. 5.

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