JP2017188396A - Power storage device pack - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power storage device pack that is able to improve workability in harness assembly.SOLUTION: A cell pack 1 comprises a housing 2 and a cell module 3 accommodated in the housing 2. The cell module 3 has: a plurality of secondary cells 11 arrayed in one direction; a cell holder 12 holding the secondary cells 11; and a restraining unit 10 that restrains the plurality of secondary cells 11 in the direction of array of the secondary cells 11. A support part 25 supporting a harness 24 is provided on an external face 19a of the cell holder 12. The support part 25 has a pair of locking pieces 26 projecting from the external face 19a of the cell holder 12 toward a sideways direction and locking the harness 24 between them in the direction of height of the cell holder 12.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a power storage device pack.

  As a conventional power storage device pack, for example, a device including a battery module described in Patent Document 1 is known. In the battery module described in Patent Document 1, a hook-shaped support portion that supports wiring is fixed to the surface of the covering portion of the battery holder that holds the battery cells. The support part has a rectangular plate-like standing part standing from the surface of the covering part, and an extending part provided at the tip of the standing part and extending in the longitudinal direction of the covering part.

Japanese Patent Laid-Open No. 2015-60653

  However, in the above prior art, when the harness as the wiring is assembled to the battery module, the harness is pushed into the support portion from above or below the battery module. For this reason, it is difficult to apply force when assembling the harness, resulting in a decrease in workability.

  The objective of this invention is providing the electrical storage apparatus pack which can improve the workability | operativity at the time of attaching a harness.

  One embodiment of the present invention is a power storage device pack including a housing and a power storage device module housed in the housing. The power storage device module holds a plurality of power storage devices arranged in one direction and the power storage device. And a restraining unit that restrains the plurality of power storage devices in the arrangement direction of the power storage devices, and a support portion that supports the harness is provided on the outer surface of the holder. It protrudes so that it may extend toward a side from a side surface, and it has a pair of latching piece which latches and clamps a harness in the height direction of a holder, It is characterized by the above-mentioned.

  As described above, in the power storage device pack according to the present invention, the support portion that supports the harness protrudes so as to extend from the outer surface of the holder to the side, and the harness is sandwiched and locked in the height direction of the holder. It has a pair of locking pieces. Therefore, when assembling the harness to the power storage device module, the harness is moved from the front side of the power storage device module toward the outer surface of the holder and pushed between the pair of locking pieces. It becomes easy. Thereby, workability | operativity at the time of assembling a harness improves.

  The outer surface of the holder opposes the wall constituting the housing, and the interval between the locking piece and the wall may be shorter than the diameter of the harness. In this case, even if the harness is about to be detached from the support portion due to vibration impact or the like, the harness does not hit the wall and the harness does not completely come out from between the pair of locking pieces. Thereby, it is prevented that a harness remove | deviates from a support part.

  The outer surface of the holder is opposed to the wall constituting the housing, and an elastic body is fixed to the surface of the wall facing the outer surface of the holder, and the interval between the locking piece and the elastic body is It may be shorter than the diameter of the harness. In this case, even if the harness is about to be detached from the support portion due to vibration impact or the like, the harness will hit the elastic body and the harness will not come out completely between the pair of locking pieces. Thereby, it is prevented that a harness remove | deviates from a support part, protecting a harness with an elastic body.

  At least two power storage device modules are accommodated in the housing, and the two power storage device modules are arranged so that the outer surfaces of the holders face each other, and the outer surfaces of the holders in the two power storage device modules The support portions provided on the holder are displaced from each other in the height direction of the holder, the locking piece projecting from the outer surface of the holder in one of the two power storage device modules, and the outer surface of the holder in the other of the two power storage device modules May be shorter than the diameter of the harness. In this case, even if the harness is about to be detached from the support portion due to vibration shock or the like, the harness does not hit the outer surface of the holder and the harness does not come out completely between the pair of locking pieces. Thereby, it is prevented that a harness remove | deviates from a support part.

  At least two power storage device modules are accommodated in the housing, and the two power storage device modules are arranged so that the outer surfaces of the holders face each other, and the outer surfaces of the holders in the two power storage device modules The support portions provided on the two are opposed to each other, and the locking piece protruding from the outer surface of the holder in one of the two power storage device modules and the locking protrusion protruding from the outer surface of the holder in the other of the two power storage device modules The interval between the pieces may be shorter than the diameter of the harness. In this case, even if the harness is about to be detached from the support portion due to vibration impact or the like, the harness does not hit the other support portion facing each other, and the harness does not completely come out from between the pair of locking pieces. Thereby, it is prevented that a harness remove | deviates from a support part.

  ADVANTAGE OF THE INVENTION According to this invention, the electrical storage apparatus pack which can improve workability | operativity at the time of assembling a harness is provided.

1 is a cross-sectional plan view schematically showing a battery pack as a power storage device pack according to a first embodiment of the present invention. It is a perspective view which shows the external appearance of the battery module shown by FIG. FIG. 3 is an exploded perspective view of the battery unit shown in FIG. 2. It is an expanded sectional view which shows the part containing the support part in the cell holder shown by FIG. 3 with a housing | casing. It is an expanded sectional view showing an example of the conventional support part. FIG. 5 is an enlarged cross-sectional view showing a portion including a support portion together with a housing in a modification of the battery pack shown in FIG. 4. It is a planar view sectional view showing roughly a battery pack as a power storage device pack according to a second embodiment of the present invention. It is an expanded sectional view which shows the part containing the support part in the cell holder of the two battery modules facing each other shown in FIG. It is an expanded sectional view which shows the part containing a support part in the modification of the battery pack shown by FIG.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the drawings, the same or equivalent elements are denoted by the same reference numerals, and redundant description is omitted.

  FIG. 1 is a cross-sectional plan view schematically showing a battery pack as a power storage device pack according to the first embodiment of the present invention. In FIG. 1, a battery pack 1 (power storage device pack) of this embodiment includes a rectangular box-shaped housing 2 and a plurality of battery modules 3 (power storage device modules) housed in the housing 2. Yes. The housing | casing 2 is formed with the metal (for example, iron). The housing | casing 2 has the main body wall 2a and the side wall 2b welded to this main body wall 2a. The battery module 3 is fixed to the inner wall surface of the main body wall 2a by a plurality of bolts (not shown).

  FIG. 2 is a perspective view showing the external appearance of the battery module 3. In FIG. 2, the battery module 3 includes a battery unit group 5 including a plurality (seven in this case) of battery units 4 arranged in one direction, and a pair of battery units 5 arranged on both sides of the battery unit group 5. An end plate 6 and an elastic member 7 disposed between one end plate 6 and the battery unit 4 are provided. The pair of end plates 6 are connected by a plurality of sets of bolts 8 and nuts (not shown). A control unit 9 is disposed above the battery unit group 5.

  The end plate 6, the bolt 8, and the nut (not shown) constitute a restraining unit 10 that restrains secondary batteries 11 (described later) of the plurality of battery units 4 in the arrangement direction of the battery units 4. The end plate 6 is made of a highly rigid metal (for example, iron). The end plate 6 is provided with a plurality of insertion holes 6 a through which shaft portions of bolts (not shown) for fixing the battery module 3 to the main body wall 2 a of the housing 2 pass. The elastic member 7 is a flat rubber that absorbs expansion of a secondary battery 11 (described later) of the battery unit 4. Two bolts 8 are arranged above and below the battery module 3.

  As shown in FIG. 3, the battery unit 4 includes a secondary battery 11 that is a power storage device, a cell holder 12 that holds the secondary battery 11, and an L-shape that is disposed so as to contact the secondary battery 11. And a heat transfer plate 13.

  The secondary battery 11 is a lithium ion secondary battery in which an electrode assembly (not shown) is accommodated in a rectangular parallelepiped case 14, for example. The electrode assembly has a structure in which a plurality of positive electrode sheets and a plurality of negative electrode sheets are alternately stacked via separators. A positive electrode terminal 15 and a negative electrode terminal 16 are attached to the upper portion of the case 14 via an insulating ring 17. The positive electrode terminal 15 is electrically connected to the positive electrode sheet. The negative electrode terminal 16 is electrically connected to the negative electrode sheet. The case 14 is filled with an electrolytic solution (not shown).

  The cell holder 12 is a frame-shaped member that is integrally formed of resin. The cell holder 12 includes a bottom wall portion 18 on which the secondary battery 11 is placed, a pair of side wall portions 19 that are erected from both ends of the bottom wall portion 18 and sandwich the secondary battery 11 in the width direction, and each side wall. It has the connection part 20 which connects the parts 19 mutually. A space surrounded by the bottom wall portion 18, the side wall portion 19, and the connecting portion 20 defines an accommodation region S in which the secondary battery 11 is accommodated.

  A terminal accommodating portion 21 that surrounds a part of the positive electrode terminal 15 and the negative electrode terminal 16 of the secondary battery 11 is provided at an upper portion of both ends of the connecting portion 20. Bolt guide portions 22 each having a through hole 22a through which the shaft portion 8a of the bolt 8 passes are provided in the upper portion of the connecting portion 20 on the inner side in the width direction of the terminal accommodating portion 21. Bolt guide portions 23 each having a through hole 23 a through which the shaft portion 8 a of the bolt 8 passes are provided at the lower portions of both end portions of the bottom wall portion 18.

  On the outer surface 19a of the side wall portion 19 of the cell holder 12 (hereinafter simply referred to as the outer surface 19a of the cell holder 12), two support portions 25 for supporting the circular cross-section harness 24 (see FIG. 2) are provided vertically. Yes. The support portion 25 is integrally provided on one outer surface 19 a of the cell holder 12. The harness 24 includes a power harness connected to the secondary battery 11 and a communication harness connected to the control unit 9. The power harness is an assembly in which a plurality of positive (+) and negative (−) power wires are bundled. The communication harness is an assembly in which a plurality of signal lines are bundled.

  As shown in FIG. 4, the support portion 25 projects so as to extend from the outer surface 19 a of the cell holder 12 to the side, and holds the harness 24 in the height direction (vertical direction) of the cell holder 12. A pair of locking pieces 26 is provided. A claw 27 on which the harness 24 is hooked is provided at the tip of each locking piece 26 so as to face each other. This makes it difficult for the harness 24 to come out between the locking pieces 26.

  One outer surface 19 a of the cell holder 12 faces the side wall 2 b of the housing 2. As shown in FIG. 4, the interval P between the locking piece 26 and the side wall 2 b is shorter than the diameter Q of the harness 24. The interval P between the locking piece 26 and the side wall 2b is the distance between the tip of the locking piece 26 and the inner wall surface of the side wall 2b.

  Returning to FIG. 2, the plurality of battery units 4 are arranged so that every other support portion 25 is located on the opposite side of the battery module 3 in the front-rear direction. That is, the locations of the support portions 25 in the adjacent battery units 4 are opposite to each other in the front-rear direction of the battery modules 3. More specifically, one support portion 25 of the adjacent battery units 4 is located on the front side (side wall 2b side) of the battery module 3, and the other support portion 25 of the adjacent battery units 4 is located behind the battery module 3. It is located on the side (opposite side of the side wall 2b). For this reason, the gap between the tips of the locking pieces 26 in the support portion 25 faces the front side and the back side of the battery module 3.

  When the harness 24 is assembled to the battery module 3 in a state where the battery module 3 is fixed to the inner wall surface of the main body wall 2a of the housing 2, the harness 24 is attached to the outer surface 19a of the cell holder 12 from the front side of the battery module 3. It moves toward and pushes between a pair of locking pieces 26. Thereby, the harness 24 is supported by the support portion 25.

  FIG. 5 is an enlarged cross-sectional view showing an example of a conventional support portion. In FIG. 5, the support portion 50 has an L-shaped locking piece 51 protruding from the outer surface 19 a of the cell holder 12. A claw 52 is provided at the tip of the locking piece 51. Further, a claw-like protrusion 53 on which the harness 24 is hooked in cooperation with the claw 52 is provided on the outer surface 19 a of the cell holder 12 so as to face the claw 52.

  When the harness 24 is assembled to the battery module 3 having such a support portion 50, the harness 24 is pushed into the support portion 50 from above the battery module 3. For this reason, it is difficult to apply force when the harness 24 is assembled, resulting in a decrease in workability. Further, the harness 24 may be detached from the support portion 50 due to vibration impact or the like.

  On the other hand, in the present embodiment, the support portion 25 that supports the harness 24 projects so as to extend from the outer surface 19a of the cell holder 12 to the side, and the harness 24 is sandwiched and locked in the height direction of the cell holder 12. A pair of locking pieces 26 is provided. Therefore, when the harness 24 is assembled to the battery module 3, the harness 24 is moved from the front side of the battery module 3 toward the outer surface 19 a of the cell holder 12 and pushed between the locking pieces 26. The harness 24 can be easily assembled. Thereby, workability | operativity at the time of assembling the harness 24 improves.

  Further, since the interval P between the locking piece 26 and the side wall 2b is shorter than the diameter Q of the harness 24, the harness 24 hits the side wall 2b and the harness 24 It does not come out completely between the locking pieces 26. Thereby, the harness 24 is prevented from being detached from the support portion 25.

  FIG. 6 is an enlarged cross-sectional view showing a portion including the support portion 25 in the modification of the battery pack 1 shown in FIG. In this modification, an elastic body 30 for shock absorption is fixed to the inner wall surface of the side wall 2b of the housing 2, that is, the surface of the side wall 2b facing the outer surface 19b of the cell holder 12. As the elastic body 30, sponge or rubber is used. The interval P between the locking piece 26 and the elastic body 30 is shorter than the diameter Q of the harness 24.

  In such a modification, even if the harness 24 is about to be detached from the support portion 25 due to vibration impact or the like, the harness 24 does not hit the elastic body 30 and the harness 24 does not completely come out from between the locking pieces 26. . Thus, the harness 24 is prevented from being detached from the support portion 25 while the harness 24 is protected by the elastic body 30.

  FIG. 7 is a cross-sectional plan view schematically showing a battery pack as a power storage device pack according to the second embodiment of the present invention. In FIG. 7, the battery pack 1 of the present embodiment includes a housing 2 and a plurality of battery modules 3 as in the first embodiment. The battery module 3 is fixed to the inner wall surface of the main body wall 2a and the side wall 2b of the housing 2 by a plurality of bolts (not shown).

  As shown in FIG. 8, the plurality of battery modules 3 are arranged so that the outer surfaces 19 a of the cell holder 12 face each other. The support portions 25 provided on the outer surface 19a of the cell holder 12 in the two battery modules 3 facing each other are displaced from each other in the height direction of the cell holder 12. The support portion 25 has a pair of locking pieces 26 as in the first embodiment.

  The distance P between the locking piece 26 protruding from the outer surface 19a of the cell holder 12 in one of the two battery modules 3 facing each other and the outer surface 19a of the cell holder 12 in the other of the two battery modules 3 is the diameter of the harness 24. Shorter than Q.

  Also in this embodiment, when the harness 24 is assembled to the battery module 3, the harness 24 is moved from the front side of the battery module 3 toward the outer side surface 19 a of the cell holder 12, and between the locking pieces 26. Therefore, the harness 24 can be easily assembled. Thereby, the workability | operativity at the time of assembling the harness 24 improves like the said 1st Embodiment.

  Even if the harness 24 is about to be detached from the support portion 25 due to vibration shock or the like, the harness 24 does not hit the outer surface 19 a of the cell holder 12 and the harness 24 does not completely come out from between the locking pieces 26. Thereby, the harness 24 is prevented from being detached from the support portion 25.

  FIG. 9 is an enlarged cross-sectional view showing a portion including the support portion 25 in the modification of the battery pack 1 shown in FIG. In this modification, the support portions 25 provided on the outer surface 19a of the cell holder 12 in the two battery modules 3 facing each other face each other.

  The distance between the locking piece 26 protruding from the outer surface 19a of the cell holder 12 in one of the two battery modules 3 facing each other and the locking piece 26 protruding from the outer surface 19a of the cell holder 12 in the other of the two battery modules 3. P is shorter than the diameter Q of the harness 24.

  In such a modification, even if the harness 24 is about to be detached from the support portion 25 due to vibration impact or the like, the harness 24 hits the other support portion 25 facing the harness 24 and the harness 24 is completely disengaged from between the locking pieces 26. Never get out of it. Thereby, the harness 24 is prevented from being detached from the support portion 25.

  The present invention is not limited to the above embodiment. For example, in the above-described embodiment, the support portion 25 is provided on one outer surface 19a of the cell holder 12. However, the shape is not particularly limited, and the support portion 25 is provided on both outer surface 19a of the cell holder 12. It may be.

  In the above embodiment, the upper and lower two support portions 25 are provided on the outer surface 19 a of the cell holder 12. However, the shape is not particularly limited, and one support portion 25 is provided on the outer surface 19 a of the cell holder 12. May be provided, or three or more may be provided on the outer surface 19 a of the cell holder 12.

  Moreover, in the said embodiment, although the nail | claw 27 on which the harness 24 is hooked is provided in the front-end | tip part of a pair of latching piece 26, such a nail | claw 27 may not be in particular. In this case, when the harness 24 is assembled to the battery module 3, the harness 24 can be smoothly pushed between the locking pieces 26.

  Furthermore, in the said embodiment, although the battery unit 4 has the several cell holder 12 which hold | maintains each secondary battery 11 separately, as a cell holder to be used, it is not restricted especially, A several secondary battery 11 may be a type that holds 11 collectively.

  Moreover, in the said embodiment, although the restraint unit 10 which restrains the several secondary battery 11 to the arrangement direction of the secondary battery 11 is comprised from the end plate 6, the volt | bolt 8, and the nut (not shown), The form is not limited, and a rubber band or the like may be used instead of the bolt 8 and the nut.

  Moreover, in the said embodiment, although the some battery module 3 is accommodated in the housing | casing 2, as a number of the battery modules 3 accommodated in the housing | casing 2, it is not restricted especially to it. In the first embodiment, the number of battery modules 3 accommodated in the housing 2 may be one. In the second embodiment, the number of battery modules 3 accommodated in the housing 2 may be at least two.

  Furthermore, although the said embodiment is the battery pack 1 provided with the battery module 3 which has secondary batteries 11, such as a lithium ion secondary battery, this invention is not restricted to the secondary battery 11 in particular, For example, an electric secondary The present invention is also applicable to a power storage device pack including a power storage device module having a power storage device such as a multilayer capacitor or a lithium ion capacitor.

  DESCRIPTION OF SYMBOLS 1 ... Battery pack (electric storage device pack), 2 ... Housing, 2b ... Side wall (wall), 3 ... Battery module (electric storage device module), 10 ... Restraint unit, 11 ... Secondary battery (electric storage device), 12 ... Cell holder (Holder), 19a ... outer surface, 24 ... harness, 25 ... support, 26 ... locking piece, 30 ... elastic body.

Claims (5)

In a power storage device pack comprising a housing and a power storage device module accommodated in the housing,
The power storage device module includes a plurality of power storage devices arranged in one direction, a holder that holds the power storage device, and a restraining unit that restrains the plurality of power storage devices in the arrangement direction of the power storage devices,
A support portion for supporting a harness is provided on the outer surface of the holder,
The power storage unit includes a pair of locking pieces that protrude from the outer surface of the holder so as to extend sideward and that hold the harness in the height direction of the holder. Equipment pack. The outer surface of the holder is opposed to a wall constituting the housing,
The power storage device pack according to claim 1, wherein a distance between the locking piece and the wall is shorter than a diameter of the harness. The outer surface of the holder is opposed to a wall constituting the housing,
An elastic body is fixed to a surface of the wall facing the outer surface of the holder,
The power storage device pack according to claim 1, wherein a distance between the locking piece and the elastic body is shorter than a diameter of the harness. In the housing, at least two power storage device modules are accommodated,
The two power storage device modules are arranged such that the outer surfaces of the holder face each other,
The support portions provided on the outer surface of the holder in the two power storage device modules are shifted from each other in the height direction of the holder,
The interval between the locking piece protruding from the outer surface of the holder in one of the two power storage device modules and the outer surface of the holder in the other of the two power storage device modules is shorter than the diameter of the harness. The power storage device pack according to claim 1, wherein: In the housing, at least two power storage device modules are accommodated,
The two power storage device modules are arranged such that the outer surfaces of the holder face each other,
The support portions provided on the outer surface of the holder in the two power storage device modules are opposed to each other,
The distance between the locking piece protruding from the outer surface of the holder in one of the two power storage device modules and the locking piece protruding from the outer surface of the holder in the other of the two power storage device modules is the harness. The power storage device pack according to claim 1, wherein the power storage device pack is shorter than the diameter.

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