JP2021136164A - Bus bar module - Google Patents

Abstract

To provide a bus bar module that is able to maintain a state in which an electric wire is securely accommodated in an electric-wire laying grooved portion.SOLUTION: A bus bar module 10 includes: a case 20 fitted to a battery assembly 1 composed of a plurality of single cells 3; a bus bar 50 supported by the case 20 and electrically connected to electrodes 5 of the single cells 3 of the battery assembly 1; an electric-wire laying grooved portion 31A formed in the case 20; a plurality of electric wires 61 accommodated in the electric-wire laying grooved portion 31A; and a cover 25 covering the electric-wire laying grooved portion 31A. The bus bar module has an electric-wire pressing portion 70 comprising: a pressing rib 71 provided on the cover 25 and inserted and fitted into the electric-wire laying grooved portion 31A; and an engaging recessed portion 72 formed in a place where the pressing rib 71 is inserted into the electric-wire laying grooved portion 31A and into which the electric wires 61 to be pressed by the pressing rib 71 are pushed.SELECTED DRAWING: Figure 5

Description

The present invention relates to a busbar module.

The power supply device installed in various vehicles such as electric vehicles that run using an electric motor and hybrid vehicles that run with an engine and an electric motor in combination is a bus bar module on the top of a battery assembly consisting of multiple cells. Is assembled. The busbar module has busbars that are electrically connected to the electrodes of multiple cell cells, and these busbars are housed and held in a resin case that is mounted on top of the battery assembly ( For example, see Patent Document 1). The case of the busbar module houses wires such as a voltage detection line connected to the electrode of the cell to detect the voltage of the cell and a temperature detection line connected to the thermistor to detect the temperature of the cell. It has an electric wire distribution groove for arranging the wires.

Japanese Unexamined Patent Publication No. 2012-164591

By the way, in the electric wire distribution groove portion, after accommodating the electric wire, the accommodated electric wire may be lifted. In particular, in the vicinity of the electric wire lead-out portion provided in the electric wire distribution groove portion and from which the electric wire is drawn out, the cover covering the electric wire distribution groove portion is removed by being pulled by the electric wire drawn out from the electric wire lead-out portion, and the electric wire is pulled out from the electric wire distribution groove portion. It may pop out from.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a bus bar module capable of reliably maintaining a state in which an electric wire is housed in an electric wire distribution groove portion.

The above object of the present invention is achieved by the following configuration.
(1) A case assembled to a battery assembly composed of a plurality of cells, a bus bar supported by the case and electrically connected to an electrode of the cell assembly of the battery assembly, and the case. A bus bar module including a formed electric wire distribution groove portion, a plurality of electric wires accommodated in the electric wire distribution groove portion, and a cover covering the electric wire distribution groove portion.
A holding rib provided on the cover and inserted into the electric wire distribution groove portion to be fitted.
An engaging recess formed at the insertion position of the holding rib in the electric wire distribution groove portion and into which the electric wire pressed by the holding rib is pushed.
A bus bar module characterized by having an electric wire retainer made of.

According to the bus bar module having the configuration of (1) above, when the cover is attached to the electric wire distribution groove portion accommodating the electric wire, the holding rib of the cover is fitted into the electric wire distribution groove portion, and the electric wire is pushed into the engaging recess. As a result, it is possible to suppress the floating of the electric wire accommodated in the electric wire distribution groove portion and suppress the protrusion from the electric wire distribution groove portion. Further, since the electric wire is pushed into the engaging recess and engaged, even if the electric wire is pulled in the direction of coming out of the electric wire distribution groove portion, the electric wire can be suppressed from coming out by the engaging force with the engaging concave portion.
Moreover, since the electric wire enters the engaging recess when the presser rib is fitted, there is a problem that the electric wires on both sides in the width direction of the electric wire distribution groove portion are caught between the presser rib to be fitted and the side wall portion. It can be suppressed.

(2) The bus bar module according to (1), wherein the engaging recess is provided on the side intersecting the insertion direction of the holding rib in the electric wire distribution groove portion.

According to the bus bar module having the configuration of (2) above, since the engaging recess into which the electric wire is pushed is provided on the side of the electric wire distribution groove portion, the electric wire protrudes while suppressing the bulkiness in the height direction of the case. Can be suppressed. Further, the electric wire pushed into the engaging recess provided on the side is locked by the wall portion on the upper side constituting the engaging recess. As a result, the engaging force of the electric wire in the engaging recess can be increased, and the retaining effect can be further enhanced.

(3) The bus bar module according to (2), wherein the holding rib has a tapered guide portion that guides the electric wire toward the engaging recess.

According to the bus bar module having the configuration of (3) above, by attaching a cover to the electric wire distribution groove portion and fitting the holding rib into the electric wire distribution groove portion, the electric wire is smoothly engaged by the tapered guide portion of the holding rib. It can be led to the joint recess.

(4) The holding rib is characterized by having a pressing projection for pushing the electric wire toward the engaging recess on the side opposite to the guiding direction of the electric wire to the engaging recess by the guide portion (3). ) Described in the bus bar module.

According to the bus bar module having the configuration of (4) above, the electric wire arranged on the opposite side to the engaging recess is pressed by attaching the cover to the electric wire distribution groove and fitting the holding rib into the electric wire distribution groove. It can be pushed out to the guide part side by the protrusion. As a result, the guide portion can smoothly guide the electric wire to the engaging recess.

(5) Any of (1) to (4), wherein the electric wire holding portion is provided in the electric wire distribution groove portion and is provided in the vicinity of both ends of the electric wire taking-out portion from which the electric wire is pulled out. The bus bar module described in one.

According to the bus bar module having the configuration of (5) above, since the electric wire holding portions are provided near both ends of the electric wire extraction portion, even if the electric wire pulled out from the electric wire extraction portion is pulled, the electric wire is drawn near both ends of the electric wire extraction portion. It can be held well, and it is possible to prevent the electric wire from coming out from the electric wire distribution groove portion.

According to the present invention, it is possible to provide a bus bar module capable of reliably maintaining a state in which an electric wire is housed in an electric wire distribution groove portion.

The present invention has been briefly described above. Further, the details of the present invention will be further clarified by reading through the embodiments described below (hereinafter referred to as "embodiments") with reference to the accompanying drawings. ..

FIG. 1 is an exploded perspective view of the bus bar module according to the present embodiment. FIG. 2 is a perspective view of a case and a cover constituting the bus bar module. FIG. 3 is a plan view of a part of the case constituting the bus bar module. 4A and 4B are views for explaining the electric wire holding portion of the electric wire distribution groove portion, FIG. 4A is an enlarged view of part A in FIG. 3, and FIG. 4B is B in FIG. 4A. −B sectional view. FIG. 5 is a diagram showing a state of accommodating an electric wire in the electric wire holding portion of the electric wire distribution groove portion, and FIGS. It is sectional drawing in the width direction in the part. FIG. 6 is a diagram showing a state of accommodating the electric wire in the electric wire distribution groove portion of the reference example, and FIGS. It is a cross-sectional view in the width direction in.

Hereinafter, examples of embodiments according to the present invention will be described with reference to the drawings.
FIG. 1 is an exploded perspective view of the bus bar module according to the present embodiment.

As shown in FIG. 1, the bus bar module 10 according to the present embodiment is assembled on the upper part of the battery assembly 1 to form the power supply device 2. The power supply device 2 is mounted on and used in various vehicles such as an electric vehicle traveling by using an electric motor and a hybrid vehicle traveling by using an engine and an electric motor in combination, and supplies power to the electric motor.

The battery assembly 1 is composed of a plurality of single batteries 3 arranged in a row along one direction. Each cell 3 is formed in a rectangular parallelepiped shape, and includes a pair of electrodes 5 provided so as to project from one end and the other end of the upper surface. One of the pair of electrodes 5 is a positive electrode and the other is a negative electrode.

The battery assembly 1 is a set of a plurality of (4 in this example) cell cells 3 adjacent to each other, and the electrodes 5 are aligned. The bus bar module 10 is a cell cell by a bus bar 50 described later. Connect each set of 3 in series.

The bus bar module 10 includes a case 20, a bus bar 50, and a wire harness 60.

The case 20 is formed of, for example, a synthetic resin or the like, and has a plurality of bus bar accommodating portions 21.

The bus bar accommodating portions 21 are arranged in two rows along the arrangement direction of the plurality of cell batteries 3. The bus bar accommodating portion 21 is formed in a frame shape, and the bus bar 50 is accommodated in the bus bar accommodating portion 21.

A first electric wire distribution groove portion (electric wire distribution groove portion) 31A and a second electric wire distribution groove portion (electric wire distribution groove portion) 31B are provided between the two rows of bus bar accommodating portions 21. The first electric wire distribution groove portion 31A and the second electric wire distribution groove portion 31B are each formed along the row of the bus bar accommodating portion 21 along the longitudinal direction of the case 20. Further, between the first electric wire distribution groove portion 31A and the second electric wire distribution groove portion 31B, a first electric wire passing portion 33A, a second electric wire connecting portion 33B, and a third electric wire connecting portion 33C are provided.

The first wire passing portion 33A is provided near one end 20A in the case 20, the second wire passing portion 33B is provided in the middle of the case 20, and the third wire passing portion 33C is provided near the other end 20B in the case 20. It is provided. The cover 25 is attached to the case 20 from above. Then, by attaching this cover 25 to the case 20, the first electric wire distribution groove portion 31A, the second electric wire distribution groove portion 31B, the first electric wire passing portion 33A, the second electric wire passing portion 33B, and the third electric wire connecting portion 33C Is sealed by the cover 25.

Further, the case 20 has an electric wire take-out portion 35. The electric wire take-out portion 35 is provided between the first electric wire passing portion 33A and the second electric wire passing portion 33B in the first electric wire distribution groove portion 31A. The electric wire holding cover 36 can be attached to the electric wire taking-out portion 35 from above.

The wire harness 60 has a plurality of electric wires 61. The electric wire 61 constituting the wire harness 60 is a voltage detecting electric wire having a connection terminal 62 connected to the end portion, or a temperature detecting electric wire having a thermistor 63 connected to the end portion. The connection terminal 62 is fastened together with each bus bar 50 to the electrode 5 of the cell 3 and is electrically connected to the bus bar 50. Further, the thermistor 63 is brought into contact with a specific cell 3 of the battery assembly 1 to detect the temperature of the cell 3. In the wire harness 60, each electric wire 61 is connected to a control circuit board (not shown) provided with a voltage monitoring circuit and a temperature monitoring circuit.

The electric wire 61 of the wire harness 60 is housed in the first electric wire distribution groove portion 31A, the second electric wire distribution groove portion 31B, the first electric wire passing portion 33A, the second electric wire connecting portion 33B, and the third electric wire connecting portion 33C. Will be done. Then, each electric wire 61 is pulled out from the electric wire extraction portion 35 provided in the first electric wire distribution groove portion 31A.

FIG. 2 is a perspective view of a case and a cover constituting the bus bar module. FIG. 3 is a plan view of a part of the case constituting the bus bar module. 4A and 4B are views for explaining the electric wire holding portion of the electric wire distribution groove portion, FIG. 4A is an enlarged view of part A in FIG. 3, and FIG. 4B is B in FIG. 4A. −B sectional view. FIG. 5 is a diagram showing a state of accommodating an electric wire in the electric wire holding portion of the electric wire distribution groove portion, and FIGS. It is sectional drawing in the width direction in the part.

As shown in FIGS. 2 and 3, a plurality of electric wire locking portions 43 are provided in the first electric wire distribution groove portion 31A and the second electric wire distribution groove portion 31B. These electric wire locking portions 43 have a pair of locking pieces 44, and by pushing the electric wire 61 between these locking pieces 44, the electric wire 61 is made into the first electric wire distribution groove portion 31A and the second. It is housed in the electric wire distribution groove portion 31B. Then, the electric wires 61 housed in the first electric wire distribution groove portion 31A and the second electric wire distribution groove portion 31B are locked by the locking piece 44 of the electric wire locking portion 43 and are prevented from coming off.

Further, the case 20 is provided with two electric wire holding portions 70. The electric wire holding portion 70 is provided near both ends of the electric wire taking-out portion 35 in the first electric wire distribution groove portion 31A. The electric wire pressing portion 70 is composed of a plate-shaped pressing rib 71 provided on the cover 25 and an engaging recess 72 provided on the first electric wire distribution groove portion 31A. The pressing rib 71 is inserted into and fitted into the first electric wire distribution groove portion 31A. The engaging recess 72 is provided at the insertion position of the holding rib 71 in the first electric wire distribution groove portion 31A.

As shown in (a) of FIG. 4 and (b) of FIG. 4, the first electric wire distribution groove portion 31A has a bottom portion 75 and side wall portions 76a and 76b raised from both edges of the bottom portion 75. Have. The engaging recess 72 is formed at a corner of one side wall portion 76a and the bottom portion 75 of the first electric wire distribution groove portion 31A.

As shown in FIG. 5A, the holding rib 71 is formed in a plate shape, and is integrally formed and projected on the surface of the cover 25 on the side to be mounted on the first electric wire distribution groove portion 31A. There is. The holding rib 71 has a width dimension slightly smaller than the groove width between the side wall portions 76a and 76b of the first electric wire distribution groove portion 31A. As a result, by mounting the cover 25 on the first electric wire distribution groove portion 31A, the holding rib 71 is inserted and fitted between the side wall portions 76a and 76b. The pressing rib 71 has a guide portion 81 at its tip. The guide portion 81 is fitted in the first electric wire distribution groove portion 31A and is inclined toward the engaging recess 72 in a direction gradually separated from the bottom portion 75. Further, a pressing protrusion 83 is formed at an end of the pressing rib 71 on the opposite side of the engaging recess 72.

Next, a case where the holding rib 71 is fitted into the first electric wire distribution groove portion 31A accommodating the electric wire 61 and the cover 25 is attached to the first electric wire distribution groove portion 31A will be described.

As shown in FIG. 5B, when the holding rib 71 is fitted into the first electric wire distribution groove portion 31A, the electric wire 61 housed in the first electric wire distribution groove portion 31A is directed toward the bottom 75 by the pressing rib 71. Is pushed down.

Then, as shown in FIG. 5 (c), the electric wire 61 on the opposite side of the engaging recess 72 is pushed out to the engaging recess 72 side by the pressing projection 83 of the pressing rib 71, and further, a plurality of electric wires 61 are pressed ribs. It is gathered in the engaging recess 72 by the guide portion 81 of 71. As a result, the electric wire 61 arranged on the engaging recess 72 side is pushed into the engaging recess 72. The holding rib 71 is fitted in the first electric wire distribution groove portion 31A, and the gap C between the tip and the bottom portion 75 of the pressing protrusion 83 at the lowermost end is set to be equal to or larger than the outer diameter of the electric wire 61.

Here, a reference example will be described.
FIG. 6 is a diagram showing a state of accommodating the electric wire in the electric wire distribution groove portion of the reference example, and FIGS. It is a cross-sectional view in the width direction in.

As shown in FIG. 6A, in the reference example, the first electric wire distribution groove portion 31A is not provided with the engaging recess 72, and the cover 25 does not have the pressing protrusion 83 and the guide portion 81. A retainer rib 91 having a flat end is provided.

As shown in FIG. 6B, in this reference example, when the pressing rib 91 is fitted into the first electric wire distribution groove portion 31A, the electric wire 61 housed in the first electric wire distribution groove portion 31A is replaced with the pressing rib 91. Pushes down toward the bottom 75.

In this reference example, since the plurality of electric wires 61 housed in the first electric wire distribution groove portion 31A are simply pressed from above by the pressing rib 91, the cover 25 is removed when the electric wire 61 is pulled, and the first electric wire distribution groove portion There is a risk that it will rise from 31A.

Further, in the reference example, when the pressing rib 91 is fitted into the first electric wire distribution groove portion 31A, the electric wire 61 is pushed to both sides in the width direction of the first electric wire distribution groove portion 31A, and the electric wires 61 on both sides are fitted. It may be bitten and damaged between the pressing rib 91 and the side wall portions 76a and 76b.

On the other hand, according to the bus bar module 10 according to the present embodiment, when the cover 25 is attached to the electric wire distribution groove portion 31A accommodating the electric wire 61, the holding rib 71 of the cover 25 is fitted into the electric wire distribution groove portion 31A. , The electric wire 61 is pushed into the engaging recess 72. As a result, it is possible to suppress the floating of the electric wire 61 housed in the electric wire distribution groove portion 31A and suppress the protrusion from the electric wire distribution groove portion 31A. Further, since the electric wire 61 is pushed into the engaging recess 72 and engaged, even if the electric wire 61 is pulled in the direction of coming out of the electric wire distribution groove 31A, the electric wire 61 is pulled out by the engaging force with the engaging recess 72. It can be suppressed.

Moreover, since the electric wire 61 enters the engaging recess 72 when the pressing rib 71 is fitted, the electric wires 61 on both sides in the width direction of the electric wire distribution groove portion 31A are fitted into the pressing rib 71 and the side wall portions 76a and 76b. It is also possible to suppress problems such as being bitten in between.

Further, since the engaging recess 72 is provided on the side intersecting the insertion direction of the holding rib 71 in the electric wire distribution groove portion 31A, the bulkiness of the case 20 in the height direction is suppressed and the electric wire 61 is suppressed from popping out. can. Further, the electric wire 61 pushed into the engaging recess 72 provided on the side is locked by the upper wall portion 72a constituting the engaging recess 72 (see FIG. 5). As a result, the engaging force of the electric wire 61 in the engaging recess 72 can be increased, and the retaining effect can be further enhanced. Since the engaging recess 72 is provided in a part of the electric wire distribution groove portion 31A in the longitudinal direction, the amount of resin used for molding the case 20 hardly increases even if the engaging recess 72 is provided.

Further, the holding rib 71 has a tapered guide portion 81 that guides the electric wire 61 toward the engaging recess 72. Therefore, by attaching the cover 25 to the electric wire distribution groove 31A and fitting the presser rib 71 into the electric wire distribution groove 31A, the tapered guide portion 81 of the presser rib 71 smoothly engages the electric wire 61 to the engaging recess 72. Can be guided.

Moreover, the pressing rib 71 has a pressing protrusion 83 that pushes the electric wire 61 toward the engaging recess 72 on the side opposite to the guiding direction of the electric wire 61 to the engaging recess 72 by the guide portion 81. Therefore, by attaching the cover 25 to the electric wire distribution groove 31A and fitting the pressing rib 71 into the electric wire distribution groove 31A, the electric wire 61 arranged on the opposite side to the engaging recess 72 is guided by the pressing projection 83. It can be pushed to the 81 side. As a result, the guide portion 81 can smoothly guide the electric wire 61 to the engaging recess 72.

Further, since the electric wire holding portions 70 are provided near both ends of the electric wire extraction portion 35, even if the electric wire 61 pulled out from the electric wire extraction portion 35 is pulled, the electric wire 61 can be satisfactorily held in the vicinity of both ends of the electric wire extraction portion 35. It is possible to prevent the electric wire 61 from coming off from the electric wire distribution groove portion 31A.

In the above embodiment, the electric wire holding portion 70 composed of the pressing rib 71 and the engaging recess 72 is provided only in the first electric wire distribution groove portion 31A, but the electric wire pressing portion 70 is provided in the first electric wire distribution groove portion 31A and the second electric wire distribution. It may be provided in both of the chordee groove portions 31B.

The present invention is not limited to the above-described embodiment, and can be appropriately modified, improved, and the like. In addition, the material, shape, dimensions, number, arrangement location, etc. 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 are briefly summarized and listed below in [1] to [5], respectively.
[1] A case (20) assembled to a battery assembly (1) composed of a plurality of cell cells (3), and the cell cell of the battery assembly (1) supported by the case (20). The bus bar (50) electrically connected to the electrode (5) of (3), the electric wire wiring groove portions (31A, 31B) formed in the case (20), and the electric wire wiring groove portion (31A, 31B). A bus bar module (10) including a plurality of electric wires (61) accommodated in (1) and a cover 25 for covering the electric wire distribution groove portions (31A, 31B).
A holding rib (71) provided on the cover (25) and inserted into the electric wire distribution groove portion (31A) to be fitted.
An engaging recess (72) formed at the insertion position of the pressing rib (71) in the electric wire distribution groove portion (31A) and into which the electric wire (61) pressed by the pressing rib (71) is pushed.
A bus bar module having an electric wire holding portion (70) made of the above.
[2] The engaging recess (72) is provided on the side intersecting the insertion direction of the holding rib (71) in the electric wire distribution groove portion (31A) [1]. Described busbar module.
[3] The holding rib (71) has a tapered guide portion (81) for guiding the electric wire (61) toward the engaging recess (72), according to [2]. Busbar module.
[4] The pressing rib (71) has the electric wire (61) on the opposite side of the guide portion (81) from the guiding direction of the electric wire (61) to the engaging recess (72). (72) The bus bar module according to [3], which has a pressing protrusion (83) for pushing out to the side.
[5] The electric wire holding portion (70) is provided in the electric wire distribution groove portion (31A) and is provided in the vicinity of both ends of the electric wire taking-out portion (35) from which the electric wire (61) is pulled out. The bus bar module according to any one of [1] to [4], which is a feature.

1: Battery assembly 3: Battery 5: Electrode 10: Bus bar module 20: Case 25: Covers 31A, 31B: Wire distribution groove 35: Wire outlet 50: Bus bar 61: Wire 70: Wire presser 71: Presser rib 72: Engagement recess 81: Guide portion 83: Pressing protrusion

Claims (5)

A case assembled to a battery assembly composed of a plurality of cell cells, a bus bar supported by the case and electrically connected to the electrodes of the cell assembly of the battery assembly, and a bus bar formed in the case. A bus bar module including an electric wire distribution groove portion, a plurality of electric wires accommodated in the electric wire distribution groove portion, and a cover covering the electric wire distribution groove portion.
A holding rib provided on the cover and inserted into the electric wire distribution groove portion to be fitted.
An engaging recess formed at the insertion position of the holding rib in the electric wire distribution groove portion and into which the electric wire pressed by the holding rib is pushed.
Has an electric wire retainer consisting of
A busbar module that features that. The engaging recess is provided on the side intersecting the insertion direction of the holding rib in the electric wire distribution groove portion.
The bus bar module according to claim 1. The holding rib has a tapered guide portion that guides the electric wire toward the engaging recess.
The bus bar module according to claim 2. The holding rib has a pressing protrusion for pushing the electric wire toward the engaging recess on the side opposite to the guiding direction of the electric wire to the engaging recess by the guide portion.
The bus bar module according to claim 3. The electric wire holding portion is provided in the electric wire distribution groove portion and is provided in the vicinity of both ends of the electric wire taking-out portion from which the electric wire is pulled out.
The bus bar module according to any one of claims 1 to 4.

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