JP6411864B2 - Insulation cover and power storage device assembly including the insulation cover - Google Patents

Description

  The present invention relates to an insulating cover and a power storage device assembly including the insulating cover.

  Since various devices such as electric vehicles and hybrid electric vehicles require a large-capacity power source, as shown in FIG. 11, a battery module including a plurality of single cells 90 having positive and negative electrode terminals (not shown) is used. It is done.

  As shown in FIG. 12, this type of battery module includes a plurality of bus bars 91 that are electrically connected to the electrode terminals of the unit cell 90. In addition, the battery module includes a connection terminal 92 that is electrically connected to the unit cell 90 and an external device, and is connected to the unit cell 90. Accordingly, the battery module includes a resin protector 93 that covers and insulates the connection terminal 92 (see, for example, Patent Document 1).

  The resin protector 93 is a holding unit 930 that houses and holds the connection terminal 92, and includes a holding unit 930 having an open surface, a lid 931 that covers the open surface of the holding unit 930, and the lid 931. And a resin fulcrum part 932 that is connected to the part 930 so as to be capable of opening and closing.

  Therefore, the resin protector 93 rotates the lid portion 931 with respect to the holding portion 930 so that the open surface of the holding portion 930 is opened and the open surface of the holding portion 930 is closed by the lid portion 931. It is said that it can be switched to a state.

  By the way, in the battery module, when performing an operation of connecting an external device to the connection terminal 92 or an operation of removing an external device from the connection terminal 92, the lid 931 is rotated to open the open surface of the holding unit 930. Need to open.

  Therefore, in the battery module, if the installation object installed around the resin protector 93 is present in the track region of the cover part 931, the cover part 931 interferes with the installation object, and the open surface of the holding part 930 is obtained. Could not open enough. Thus, in the battery module, access to the resin protector 93 may be difficult.

JP 2013-97962 A

  In view of the above problems, an object of the present invention is to provide an insulating cover for a power storage device that can prevent access to the insulating cover from becoming difficult, and a power storage device assembly including the insulating cover. .

The insulating cover according to the present invention is
A first lid covering a part of the power storage device ;
A fitted portion into which a part of the first lid portion can be inserted , and
The first lid portion is disposed between a first fulcrum portion serving as a rotation fulcrum of the first lid portion itself, and the first fulcrum portion and a tip portion of the first lid portion. a second fulcrum portion, a fitting portion formed on the distal end portion of the first lid portion, possess a fitting portion extending in the direction of extension of said first lid portion,
The first lid portion is configured such that the direction rotating around the first fulcrum portion and the direction rotating around the second fulcrum portion are the same direction,
The fitting portion can insert the fitting portion of the first lid portion rotated around the second fulcrum portion and the first fulcrum portion .

  According to such a configuration, the first lid portion rotates by using the first fulcrum portion as a fulcrum, thereby opening the state including the region including the external terminal of the power storage element and the region including the external terminal of the power storage device. It can be switched to the state.

  The insulating cover can rotate the first lid with the second fulcrum as a fulcrum. That is, the insulating cover can bend the first lid portion at the second fulcrum portion disposed between the first fulcrum portion and the tip portion. Therefore, the first lid portion of the insulating cover can rotate with the first fulcrum portion as a fulcrum in a state where it is bent at the second fulcrum portion.

  Thereby, the insulation cover can make small the track area of the 1st lid which rotates using the 1st fulcrum as a fulcrum. Therefore, in the insulating cover, the first lid part hardly interferes with the installation object, and it becomes easy to sufficiently open a part of the power storage device (an area covered by the first lid part). Therefore, the insulating cover can suppress difficulty in accessing the inside.

Moreover , the direction which operates the part between the 2nd fulcrum part in a 1st cover part and a front-end | tip part, and the 1st cover part in the state bent by the 2nd fulcrum part can be unified. . Therefore, when switching to a state where a part of the power storage device is opened or a state where a part of the power storage device is covered, the first lid can be easily operated.

Moreover , the state which open | released the area | region containing the external terminal of an electrical storage element can be maintained by inserting a fitting part in a to-be-fitted part.

  Further, the fitting portion extends from the tip end portion of the first lid portion in the extending direction of the first lid portion. Therefore, the insulating cover is configured so that the fitting portion does not extend above the first lid portion that covers a part of the power storage device. Therefore, the insulating cover prevents the fitting portion from interfering with a peripheral device disposed above the first lid portion in a state where the first lid portion covers a part of the power storage device. it can.

Further, the insulating cover according to the present invention is:
A first lid covering a part of the power storage device;
The first lid portion is disposed between a first fulcrum portion serving as a rotation fulcrum of the first lid portion itself, and the first fulcrum portion and a tip portion of the first lid portion. A second fulcrum part,
The first lid portion is formed in a flat plate shape, and has a first surface that faces the power storage device, and a second surface that is a surface opposite to the first surface,
Said 1st fulcrum part and said 2nd fulcrum part are comprised by the groove | channel formed in said 1st surface of said 1st cover part .

According to such a configuration, the first lid portion rotates by using the first fulcrum portion as a fulcrum, thereby opening the state including the region including the external terminal of the power storage element and the region including the external terminal of the power storage device. It can be switched to the state.

The insulating cover can rotate the first lid with the second fulcrum as a fulcrum. That is, the insulating cover can bend the first lid portion at the second fulcrum portion disposed between the first fulcrum portion and the tip portion. Therefore, the first lid portion of the insulating cover can rotate with the first fulcrum portion as a fulcrum in a state where it is bent at the second fulcrum portion.

Thereby, the insulation cover can make small the track area of the 1st lid which rotates using the 1st fulcrum as a fulcrum. Therefore, in the insulating cover, the first lid part hardly interferes with the installation object, and it becomes easy to sufficiently open a part of the power storage device (an area covered by the first lid part). Therefore, the insulating cover can suppress difficulty in accessing the inside.

Moreover, according to this structure, it can suppress that the 1st fulcrum part and said 2nd fulcrum part advance above the 1st cover part which has covered a part of electrical storage apparatus. Therefore, the insulating cover is a peripheral device in which the first fulcrum part and the second fulcrum part are arranged above the first lid part in a state where the first lid part covers a part of the power storage device. Can be prevented from interfering with.

Further, the insulating cover according to the present invention is:
A first lid covering a part of the power storage device;
And a second cover portion covering a part of said power storage device,
The first lid portion is disposed between a first fulcrum portion serving as a rotation fulcrum of the first lid portion itself, and the first fulcrum portion and a tip portion of the first lid portion. A second fulcrum part,
The first fulcrum portion is configured to be rotatable with respect to the second lid portion .

According to such a configuration, the first lid portion rotates by using the first fulcrum portion as a fulcrum to open the state including the region including the external terminal of the power storage element and the region including the external terminal of the power storage device. It can be switched to the state.

The insulating cover can rotate the first lid with the second fulcrum as a fulcrum. That is, the insulating cover can bend the first lid portion at the second fulcrum portion disposed between the first fulcrum portion and the tip portion. Therefore, the first lid portion of the insulating cover can rotate with the first fulcrum portion as a fulcrum in a state where it is bent at the second fulcrum portion.

Thereby, the insulation cover can make small the track area of the 1st lid which rotates using the 1st fulcrum as a fulcrum. Therefore, in the insulating cover, the first lid part hardly interferes with the installation object, and it becomes easy to sufficiently open a part of the power storage device (an area covered by the first lid part). Therefore, the insulating cover can suppress difficulty in accessing the inside.

Moreover, according to this structure, since a 1st cover part and a 2nd cover part can be formed integrally, the number of parts can be suppressed.

The first lid portion is configured such that the direction rotating around the first fulcrum portion and the direction rotating around the second fulcrum portion are the same direction.
You may do it.

According to such a configuration, the direction in which the first lid portion in the state of being bent at the second fulcrum portion or the portion between the second fulcrum portion and the tip portion of the first lid portion is unified. can do. Therefore, when switching to a state where a part of the power storage device is opened or a state where a part of the power storage device is covered, the first lid can be easily operated.

The power storage device assembly of the present invention includes:
A power storage device having a power storage element and a bus bar electrically connected to the power storage element;
Any one of the above insulating covers.

  According to this configuration, the power storage device can prevent the first lid from interfering with the installation object and the area including the external terminal of the power storage element from being sufficiently opened. In this way, it is possible to suppress difficulty in accessing the inside of the insulating cover.

  As described above, according to the present invention, it is possible to provide an insulating cover for a power storage device that can prevent access to the inside of the insulating cover from becoming difficult, and a power storage device assembly including the insulating cover.

FIG. 1 is a perspective view of a power storage device according to an embodiment of the present invention. FIG. 2 is a perspective view of a power storage element of the power storage device according to the embodiment. FIG. 3 is a perspective view of the power storage device according to the embodiment. FIG. 4 is a diagram in which a bus bar is attached to the power storage device according to the embodiment. FIG. 5 is a diagram in which an insulating cover is attached to the power storage device according to the embodiment. FIG. 6 is a plan view of the insulating cover of the power storage device according to the embodiment. FIG. 7 is a plan view of the insulating cover of the power storage device according to the embodiment. FIG. 8 is an enlarged view of a first lid portion in the insulating cover of the power storage device according to the embodiment. FIG. 9 is an enlarged view of a first lid portion in the insulating cover of the power storage device according to the embodiment. FIG. 10 is an enlarged view of a first lid portion in the insulating cover of the power storage device according to the embodiment. FIG. 11 is a side view of a conventional power storage device. FIG. 12 is a plan view of a conventional power storage device.

  Hereinafter, an embodiment of a power storage device of the present invention will be described with reference to the drawings. In addition, the name of each structural member of this embodiment is in this embodiment, and may differ from the name of each structural member in background art.

  As shown in FIG. 1, the power storage device includes a power storage element 1 having an external terminal 11, a spacer 2 adjacent to the power storage element 1, and a holding member 3 that holds the power storage element 1 and the spacer 2 together. The holding member 3 is formed of a conductive material. Accordingly, the power storage device includes an insulator 4 disposed between the power storage element 1 and the holding member 3.

  Further, in the power storage device, a portion where the external terminal 11 of the power storage element 1 is disposed is covered and insulated by the insulating cover 5 (see FIG. 5). In the following description, the power storage device with the insulating cover 5 attached may be referred to as a power storage device assembly.

  As shown in FIG. 2, the power storage device 1 includes an electrode body including a positive electrode and a negative electrode, a case 10 that houses the electrode body, and a pair of external terminals 11 that are disposed on the outer surface of the case 10.

  The case 10 includes a case main body 100 having an opening, and a cover plate 101 that closes the opening of the case main body 100, and a pair of external terminals 11 are disposed on the outer surface.

  The power storage device according to the present embodiment includes a plurality of power storage elements 1. Each of the plurality of power storage elements 1 is aligned in one direction. As shown in FIG. 4, in the power storage device, external terminals 11 of two adjacent power storage elements 1 are electrically connected by a bus bar B.

  In the following description, for convenience, the direction (first direction) in which the power storage elements 1 are aligned is referred to as the X-axis direction. In addition, one direction (second direction) of the two axial directions orthogonal to the direction in which the energy storage elements 1 are aligned (X-axis direction) is referred to as the Y-axis direction, and the remaining one direction (third direction) is Z. It shall be the axial direction. Accordingly, in each drawing, three orthogonal axes (coordinate axes) corresponding to the X-axis direction, the Y-axis direction, and the Z-axis direction are supplementarily illustrated.

  The spacer 2 has an insulating property. As described above, the power storage device includes a plurality of power storage elements 1. Accordingly, as shown in FIG. 3, the power storage device includes a spacer 2 disposed between two power storage elements 1 adjacent in the X-axis direction and a power storage element disposed at both ends in the X-axis direction as spacers 2. 1 and a spacer 2 adjacent thereto.

  In the present embodiment, the holding member 3 is made of metal. The holding member 3 includes a pair of termination members 30 disposed at positions adjacent to the spacers 2 disposed at both ends in the X-axis direction, and a frame 31 that connects each of the pair of termination members 30.

  The insulator 4 is made of an insulating material. The insulator 4 is disposed between each of the plurality of power storage elements 1 and the plurality of holding members 3 (frames 31). Thereby, in the power storage device, the power storage element 1 is insulated from the holding member 3.

  As described above, the insulating cover 5 covers and insulates the portion where the external terminal 11 of the electricity storage device 1 is disposed. That is, the insulating cover 5 covers and insulates the conductive part.

  The power storage device according to the present embodiment is a connection terminal T that is electrically connected to the power storage element 1, and is a connection terminal T that is electrically connected to an external device or a power storage adjacent in the X-axis direction. A plurality of bus bars B electrically connected to each of the elements 1 are provided (see FIG. 4).

  In addition, in this embodiment, in addition to what is electrically connected to each of the electrical storage elements 1 adjacent in the X-axis direction, the plurality of bus bars B include the electrical storage elements 1 arranged at both ends in the X-axis direction. Also included are those that are electrically connected to one external terminal 11.

  Therefore, as illustrated in FIGS. 5 to 7, the insulating cover 5 includes a lid portion 50 that covers the external terminal 11 of the power storage element 1 that is electrically connected to the connection terminal T that is a part of the power storage device. The insulating cover 5 includes a lid 51 that covers the external terminals 11 of the power storage elements 1 that are electrically connected to each other by the bus bar B that is a part of the power storage device. In the present embodiment, the following description will be made with the lid 50 as the first lid 50 and the lid 51 as the second lid 51.

  The insulating cover 5 includes a pedestal 52 (hereinafter referred to as the first pedestal 52) disposed between the first lid 50 and the power storage element 1. The insulating cover 5 includes a fulcrum part 54 (hereinafter referred to as a first fulcrum part 54) that rotatably connects the first lid part 50 to the second lid part 51. That is, the first lid 50 according to the present embodiment is formed with a first fulcrum portion 54 that is a rotation fulcrum of the first lid 50 itself.

  As shown in FIGS. 6 and 7, the first lid 50 has a first end connected to the second lid 51 and a second end opposite to the first end. Therefore, as for the 1st cover part 50 which concerns on this embodiment, said 1st fulcrum part 54 is arrange | positioned at the 1st end. FIG. 6 is a plan view showing a state where each of the first lid portion 50 and the second lid portion 51 covers a region including the external terminal 11 of the power storage device 1. FIG. 7 is a plan view showing a state in which each of the first lid portion 50 and the second lid portion 51 opens an area including the external terminal 11 of the power storage device 1. In FIG. 7, the first lid 50 is shown in a state where it is not bent.

  The first lid 50 has a first surface facing the external terminal 11 of the electricity storage device 1 and a second surface opposite to the first surface. Note that the first surface of the first lid 50 according to the present embodiment faces the external terminal 11 via the bus bar B.

  This will be described more specifically. The 1st cover part 50 has the flat plate part 500 formed in flat form. The flat plate portion 500 has a first end rotatably connected to the adjacent second lid portion 51 by the first fulcrum portion 54, and a second end opposite to the first end. Therefore, in the insulating cover 5, the first end of the first lid 50 is configured by the first end of the flat plate portion 500, and the second end of the first lid 50 is configured by the second end of the flat plate portion 500. The The first end of the flat plate portion 500 extends straight in the Y-axis direction.

  Moreover, the flat plate part 500 has a first surface and a second surface opposite to the first surface in the plane orthogonal direction. The flat plate portion 500 is rotated with the first end as a fulcrum, so that the first surface faces the first base portion 52 and the first surface does not face the first base portion 52. It can be switched to. Therefore, in the insulating cover 5, the first surface of the first lid portion 50 is configured by the first surface of the flat plate portion 500, and the second surface of the first lid portion 50 is configured by the second surface of the flat plate portion 500. The

  A groove R1 extending straight along the first end of the first lid 50 (along the Y-axis direction) at the boundary between the flat plate portion 500 of the first lid 50 and the second lid 51. Is formed (see FIG. 8). The groove R <b> 1 is formed on the first surface of the flat plate part 500 of the first lid part 50.

  Thus, in the insulating cover 5, the boundary portion between the flat plate portion 500 of the first lid portion 50 and the flat plate portion 510 of the second lid portion 51 is formed in a thin shape, and the boundary portion portion is made flexible. Configured to have. Thus, the first fulcrum part 54 according to the present embodiment is configured by forming the groove R1 at the boundary between the flat plate part 500 of the first lid part 50 and the second lid part 51. .

Furthermore, the 1st cover part 51 is a 2nd fulcrum part arrange | positioned between a 1st end and a 2nd end, Comprising: It has a 2nd fulcrum part used as a rotation fulcrum. Thereby, the 1st cover part 51 is comprised so that bending is possible between a 1st end and a 2nd end. The 1st cover part 51 which concerns on this embodiment is the bending part 502 formed by making the part between a 1st end and a 2nd end thinner than another part as a 2nd fulcrum part. Have

The bent portion 502 extends straight in a direction orthogonal to the direction in which the first end and the second end are aligned (in the present embodiment, the Y-axis direction). Therefore, in the 1st cover part 50, the 1st fulcrum part 54 and the bending part 502 are mutually parallel.

This will be described more specifically. The bent portion 502 according to the present embodiment is configured by forming a groove R2 extending straight in the Y-axis direction at a portion between the first end and the second end of the flat plate portion 500 (see FIG. 8). . Further, the groove R <b> 2 for constituting the bent portion 502 is formed on the first surface of the first lid portion 50.

In the present embodiment, a portion on the first end side of the bent portion 502 of the first lid portion 50 is a first lid piece 503, and the second portion of the first lid portion 50 is more than the bent portion 502 . The following description may be given with the end portion as the second lid piece 504.

Further, the first lid portion 50 is configured to maintain a state in which the first surface is made to correspond to the first base portion 52. Therefore, as shown in FIG. 7, the first lid portion 50 according to the present embodiment includes a claw portion 501 (hereinafter referred to as a first claw portion 501 ) that can be hooked on the first base portion 52. .

  The first pedestal 52 includes a placement unit 520 (hereinafter referred to as a first placement unit 520) disposed around the external terminal 11 of the electricity storage element 1 (on the cover plate 101 of the electricity storage element 1), And a wall portion 521 (hereinafter referred to as a first wall portion 521) standing up from the outer peripheral edge of the first placement portion 520.

  The first mounting portion 520 has a flat plate shape, and an insertion hole 522 is formed at a position corresponding to the external terminal 11 of the power storage device 1. Moreover, the first placement unit 520 has a first surface that faces the power storage element 1 (the cover plate 101 of the power storage element 1) and a second surface opposite to the first surface.

  Therefore, in the first base 52, when the first placement unit 520 is arranged on the cover plate 101 of the power storage element 1, the external terminal 11 of the power storage element 1 is connected to the first surface of the first placement unit 520. It will be in the state protruded to the 2nd surface side of the 1st mounting part 520 from the side.

  The first wall portion 521 is formed with a slit 523 that extends straight in the standing direction. For this reason, the first base 52 passes a cable or the like (not shown) electrically connected to the bus bar B through the slit 523 so that the cable or the like is placed inside or outside the region surrounded by the first wall 521. It is comprised so that it can arrange | position over.

Further, as described above, the first lid portion 50 includes the first claw portion 501 that can be hooked on the first base portion 52. Therefore, the 1st stand part 52 further has the latching | locking part 524 (henceforth the 1st latching | locking part 524) for latching the 1st nail | claw part 501 of the 1st cover part 50 (referred to below). (See FIG. 7 and FIG. 9).

  As described above, the insulating cover 5 includes the second lid portion 51 that covers the external terminals 11 of the power storage elements 1 that are electrically connected to each other by the bus bar B. Accordingly, as shown in FIGS. 5 to 7, the insulating cover 5 includes a base portion 53 (hereinafter referred to as a second base portion 53) disposed between the second lid portion 51 and the power storage element 1. ). The insulating cover 5 includes a fulcrum part 55 (hereinafter referred to as a third fulcrum part 55) that rotatably connects the second lid part 51 to the second base part 53.

  As shown in FIG.6 and FIG.7, the 2nd cover part 51 has the 1st end used as the rotation fulcrum of this 2nd cover part 51 itself, and the 2nd end on the opposite side to this 1st end. Have. The second lid 51 has a first surface facing the external terminal 11 of the electricity storage device 1 and a second surface opposite to the first surface. In addition, the 1st surface of the 2nd cover part 51 which concerns on this embodiment opposes the external terminal 11 via the bus bar B. FIG.

  This will be described more specifically. The 2nd cover part 51 has the flat plate part 510 formed in flat form.

  The flat plate portion 510 has a first end rotatably connected to the second base portion 53 by the third fulcrum portion 55 and a second end opposite to the first end. In the insulating cover 5, the first end of the second lid portion 51 is constituted by the first end of the flat plate portion 510, and the second end of the second lid portion 51 is constituted by the second end of the flat plate portion 510.

  Further, the flat plate portion 510 has a first surface and a second surface opposite to the first surface in the plane orthogonal direction. Therefore, the flat plate portion 510 rotates with the first end as a fulcrum, so that the first surface faces the second pedestal 53 and the first surface faces the second pedestal 53. It is configured to be switchable to a non-existing state.

  In the insulating cover 5 according to the present embodiment, the first surface of the second lid portion 51 is configured by the first surface of the flat plate portion 510, and the second surface of the second lid portion 51 is the second surface of the flat plate portion 510. Consists of.

  Further, the second lid portion 51 is configured to maintain a state in which the first surface is made to correspond to the second base portion 53. Therefore, as shown in FIG. 7, the second lid portion 51 includes a claw portion 511 (hereinafter referred to as a second claw portion 511) that can be hooked on the second base portion 53.

  The second pedestal 53 includes a placement part 530 (hereinafter referred to as a second placement part 530) disposed around the external terminal 11 of the electricity storage element 1 (on the cover plate 101 of the electricity storage element 1), The second placement portion 530 and a wall portion 531 (hereinafter referred to as a second wall portion 531) that stands up from the outer peripheral edge of the second placement portion 530.

  The second placement portion 530 according to the present embodiment has a flat plate shape, and an insertion hole 532 is formed at a position corresponding to the external terminal 11 of the power storage element 1. The second placement unit 530 has a first surface facing the power storage element 1 (the cover plate 101 of the power storage element 1) and a second surface opposite to the first surface.

  Therefore, in the second base 53, when the second placement portion 530 is disposed on the cover plate 101 of the electricity storage device 1, the external terminal 11 of the electricity storage device 1 is connected to the first surface of the second placement portion 530. It will be in the state protruded to the 2nd surface side of the 2nd mounting part 530 from the side.

  The second wall portion 531 is formed with a slit 533 that extends straight in the standing direction. Therefore, the second pedestal 53 passes a cable or the like (not shown) electrically connected to the bus bar B through the slit 533 so that the cable or the like is placed inside or outside the region surrounded by the second wall 531. It is comprised so that it can arrange | position over.

  In addition, as described above, the second lid portion 51 includes the second claw portion 511 that can be hooked on the second base portion 53. Therefore, the 2nd base part 53 further has the latching | locking part 534 (henceforth the 2nd latching | locking part 534) for latching the 2nd nail | claw part 511 in the 2nd cover part 51 (henceforth). (See FIG. 7 and FIG. 9).

  Insulating cover 5 concerning this embodiment is constituted so that the state where the 1st surface of the 1st lid part 50 is not made to counter stand part 52 can be maintained. That is, the insulating cover 5 is configured such that the first lid 50 can maintain a state where the external terminal 11 of the power storage device 1 is opened. In the insulating cover 5 according to the present embodiment, the second end of the first lid 50 is configured to be detachable from the second lid 51 to which the first end of the first lid 50 is connected.

  This will be described more specifically. As shown in FIG. 8, the first lid 50 has a fitting portion 505 formed at the second end. The fitting portion 505 is an extension piece 505a extending from the second end of the first lid portion 50, and the extension piece 505a orthogonal to the second surface of the first lid portion 50; And a protruding portion 505b protruding from the extending piece 505a.

  The protruding portion 505b has a first end connected to the extending piece 505a and a second end opposite to the first end. Further, the second end of the protruding portion 505b is formed to be thicker than the first end of the protruding portion 505b.

  In addition, the 1st cover part 50 which concerns on this embodiment is comprised so that the area | region including the external terminal 11 of the electrical storage element 1 to which the connection terminal T and the connection terminal T are electrically connected may be covered.

As described above, the first lid 50 is configured such that the second end can be attached to and detached from the second lid 51. Therefore, as shown in FIGS. 6 and 7, the second lid portion 51 includes a fitted portion 512 formed in the flat plate portion 510.
The fitted portion 512 has a pair of sandwiching pieces 512b extending from a portion defining the through hole 512a formed in the flat plate portion 510, and a pair of sandwiching pieces 512b extending in a direction approaching each other. The pair of sandwiching pieces 512b is inclined in the direction in which the protruding portion 505b of the first lid portion 50 is inserted.

  The first base portion 52 is a terminal placement portion 525 adjacent to the placement portion 520, and further includes a terminal placement portion 525 in which the connection terminal T is disposed.

  As described above, the boundary between the flat plate portion 500 of the first lid portion 50 and the flat plate portion 510 of the second lid portion 51 is along the first end of the first lid portion 50 (Y-axis direction). A groove R1 is formed that extends straight along (). That is, the first fulcrum portion 54 is a portion formed in a thin shape at the boundary with the flat plate portion 510 of the second lid portion 51.

  The third fulcrum part 55 has flexibility. The third fulcrum part 55 is connected to the flat plate part 510 in the second lid part 51 and the wall part 531 of the second base part 53.

  Note that the power storage device according to the present embodiment includes a plurality of bus bars B that electrically connect the external terminals 11 of the power storage elements 1 adjacent in the X-axis direction. Therefore, the insulating cover 5 according to this embodiment includes a plurality of second lid parts 51 and a plurality of second base parts 53.

  In addition, each of the plurality of second lid portions 51 is formed so as to collectively cover the plurality of base portions 53 (three base portions 53 in the present embodiment).

  Here, the operation of the insulating cover in the power storage device according to the present embodiment will be described.

As shown in FIG. 8, the case where the operation | work with respect to the connection terminal T covered with the 1st cover part 50 is performed is demonstrated. First, the second lid piece 504 is rotated using the bent portion 502 as a fulcrum. Then, as shown in FIG. 9, the first lid portion 50 is bent (turned back) at the bent portion 502 .

  Then, the first lid 50 is rotated with the first end as a fulcrum. Thus, the 1st cover part 50 of the state folded in the part between a 1st end and a 2nd end is rotated. Thereby, the connection terminal T is opened as shown in FIG.

  Further, when the protruding portion 505b of the first lid portion 50 is fitted into the fitted portion 512, the protruding portion 505b is sandwiched between the pair of sandwiching pieces 512b. Therefore, by attaching the second end of the first lid 50 to the second lid 51, it is possible to maintain a state where the connection terminal T is open.

  As described above, in the insulating cover 5 in the power storage device according to the present embodiment, the lids 50 and 51 are regions including the external terminals 11 of the power storage element 1 by rotating each of the plurality of lids 50 and 51. And a state in which the region including the external terminal 11 of the power storage element 1 is released.

Moreover, the 1st cover part 50 can rotate as a 2nd fulcrum part (folding part 502 ). That is, the first lid 50 can be bent between the first end and the second end. The first lid 50 according to this embodiment is bent at a bent portion 502 formed by forming a linear groove extending in a direction intersecting with the direction in which the first end and the second end are arranged. Can do.

Therefore, the portion between the first end and the second end of the first lid portion 50 is thinner than the other portion of the first lid portion 50. Therefore, the first lid part 50 can weaken the rigidity of the part where the bent part 502 is formed. Thereby, the 1st cover part 50 can be bend | folded by the bending part which exists between a 1st end and a 2nd end.

Therefore, the first lid portion 50 can rotate with the first fulcrum portion 54 as a fulcrum in a state where the first lid portion 50 is bent at the bent portion 502 . Thereby, the insulating cover 5 can reduce the track area of the first lid 50 that rotates with the first end as a fulcrum. Therefore, in the insulating cover 5, the first lid 50 is less likely to interfere with the installation object, and the region including the external terminal 11 of the power storage device 1 can be easily opened sufficiently. In this way, the insulating cover 5 can suppress difficulty in accessing the inside.

And since the 1st cover part 50 is comprised so that the direction rotated about the 1st fulcrum part 54 and the direction rotated about the bending part 502 may become the same direction, the 1st It is possible to unify the direction in which the first lid 50 in the state of being bent at the bent portion 502 and the portion between the bent portion 502 and the tip portion of the lid 50 is operated. Therefore, the insulating cover 5 can easily operate the first lid 50 when switching to a state where a part of the power storage device is opened or a state where a part of the power storage device is covered.

  And the 1st cover part 50 inserts the insertion part 505 in the to-be-inserted part 512 of the 2nd cover part 51 (the 2nd cover part 51 to which a 1st end is connected), and 2nd cover The part 51 is configured to be detachable from the second end.

  Therefore, the first lid part 50 can fit the fitting part 505 into the fitted part 512 of the second lid part 51 in a state where the region including the external terminal 11 of the power storage element 1 is open. it can. Thereby, the 1st cover part 50 can maintain the state which has open | released the area | region containing the external terminal 11 of the electrical storage element 1. FIG.

  And if the fitting part 505 is removed from the to-be-fitted part 512 of the 2nd cover part 51, the 1st cover part 50 will be able to be rotated by using a 1st end as a fulcrum. As a result, the first lid 50 can cover the region including the external terminal 11 of the electricity storage device 1.

  Further, the fitting portion 505 extends from the distal end portion of the first lid portion 50 in the extending direction of the first lid portion 50. Therefore, the insulating cover 5 is configured so that the fitting portion 505 does not extend above the first lid portion 50 that covers a part of the power storage device. Therefore, the insulating cover 5 prevents the fitting portion 505 from interfering with peripheral devices arranged above the first lid portion 50 in a state where the first lid portion 50 covers a part of the power storage device. Can be suppressed.

  The first fulcrum part 54 of the first lid part 50 is configured to be rotatable with respect to the second lid part 51. Therefore, the insulating cover 5 can form the 1st cover part 50 and the 2nd cover part 51 integrally, and can suppress a number of parts.

  In the insulating cover 5, the first lid portion 50 has a groove R <b> 1 formed on the first surface. Therefore, the insulating cover 5 can prevent the first lid 50 from interfering with the second lid 51 when the first lid 50 is rotated about the first end.

  Further, since the pair of sandwiching pieces 512b is inclined in the direction in which the protruding portion 505b of the first lid 50 is inserted, the protruding portion 505b is prevented from being inadvertently detached from the fitted portion 512. it can.

  The power storage device assembly includes the power storage device 1, a power storage device having a bus bar B electrically connected to the power storage device 1, and the insulating cover 5 described above. It can be prevented that the region including the external terminal 11 of the power storage device 1 cannot be sufficiently opened due to interference with objects. In this way, the power storage device assembly can suppress difficulty in accessing the inside of the insulating cover 5.

  In addition, the electrical storage apparatus which concerns on this invention is not limited to the said one Embodiment, Of course, in the range which does not deviate from the summary of this invention, various changes are made.

  In the above-described embodiment, the spacer 2 has a substantially rectangular shape, and is approximately the same size as the case main body 100 (one surface of the case main body 100 in the X-axis direction) of the electricity storage element 1. However, the inner spacer 2 is not limited to a substantially rectangular shape as long as the postures of the two adjacent power storage elements 1 can correspond to each other, and the inner spacer 2 is substantially the same size as the case body 100 of the power storage element 1. It is not limited to what is.

  In the above-described embodiment, the spacer 2 has a rectangular wave shape to form a ventilation path between the spacer 2 and the power storage element 1. However, the spacer 2 is not limited to a rectangular wave shape as long as the fluid can pass between the first surface and the electricity storage device 1 (between the second surface and the electricity storage device 1). Moreover, when it is not necessary to form a ventilation path between the spacer 2 and the electrical storage element 1, the spacer 2 may be formed in flat form.

  Although not particularly mentioned in the above embodiment, the second lid portion 51 may be configured to be bendable between the first end and the second end. If it does in this way, the rotation area | region of the 2nd cover part 51 opened with a 1st end as a fulcrum can be made small. Therefore, it is also possible to prevent the access to the part covered with the second lid part 51 from becoming difficult.

  In the above embodiment, the fulcrum part 54 is configured by thinning the boundary between the flat plate part 500 of the first lid part 50 and the flat plate part 510 of the second lid part 51. For example, a configuration such as a hinge may be employed as the fulcrum portion 54.

Moreover, although the bending part 502 was formed by making the part between the 1st end of the 1st cover part 50 and the 2nd end thinner than other parts, it is limited to this. Instead, for example, a configuration such as a hinge may be adopted as the bent portion 502 .

  In the above embodiment, the first lid 50 is bent so that the second surface of the first lid piece 503 and the second surface of the second lid piece 504 face each other. However, the present invention is not limited to this. For example, the first lid 50 is configured so that the first surface of the first lid piece 503 and the first surface of the second lid piece 504 face each other. May be bent.

  In the said embodiment, although the 1st fulcrum part 54 was arrange | positioned at the 1st end of the 1st cover part 50, it is not limited to this. For example, the first fulcrum part 54 may be arranged at a position shifted from the first end of the first lid part 50 to the second end side.

DESCRIPTION OF SYMBOLS 1 ... Power storage element, 2 ... Spacer, 3 ... Holding member, 4 ... Insulator, 5 ... Insulating cover, 10 ... Case, 11 ... External terminal, 30 ... Termination member, 31 ... Frame, 50 ... First cover part, 51 2nd lid part, 52 ... 1st base part, 53 ... 2nd base part, 54 ... 1st fulcrum part, 55 ... 3rd fulcrum part, 100 ... Case main body, 101 ... Cover plate, 500 ... Flat plate part, 501 ... Claw part , 502 ... Bent part (second fulcrum part) , 503 ... First lid piece, 504 ... Second lid piece, 505 ... Insertion part, 505a ... Extension piece, 505b ... projecting portion, 510 ... flat plate portion, 512 ... inserted portion, 512a ... through hole, 512b ... clamping piece, 520 ... first placement portion, 530 ... second placement portion, 521 ... first Wall portion, 531 ... second wall portion, 522, 532 ... insertion hole, 523, 533 ... slit, 524 ... first latching portion, 534: second hooking portion, 525: terminal mounting portion, B: bus bar, R1: groove, R2: groove, T: connection terminal

Claims (5)

A first lid covering a part of the power storage device;
A fitted portion into which a part of the first lid portion can be inserted, and
The first lid portion is disposed between a first fulcrum portion serving as a rotation fulcrum of the first lid portion itself, and the first fulcrum portion and a tip portion of the first lid portion. A second fulcrum portion, and a fitting portion formed at a tip portion of the first lid portion, the fitting portion extending in a direction in which the first lid portion extends,
The first lid portion is configured such that the direction rotating around the first fulcrum portion and the direction rotating around the second fulcrum portion are the same direction,
The fitting portion is capable of inserting the fitting portion of the first lid portion rotated around the second fulcrum portion and the first fulcrum portion,
Insulation cover. A flat first lid that covers a part of a power storage device having a plurality of power storage elements aligned in the first direction from a third direction side orthogonal to the first direction ;
A flat second lid that covers a part of the power storage device from the third direction side ,
It said first lid, a first surface facing the electric power storage device, and a second surface which is opposite to the first side, and having a is constituted by a groove formed in the first surface and a first fulcrum portion which is a rotational fulcrum of said first lid itself, said is constituted by a groove formed on the first surface and the first fulcrum portion lid of the said first tip A second fulcrum portion disposed between,
Before SL Each of the first fulcrum portion and said second fulcrum portion, extending in a second direction perpendicular to said first direction and said third direction,
It said second lid, it is connected to the first lid portion with the first fulcrum portion,
Insulation cover. A flat first lid that covers a part of a power storage device having a plurality of power storage elements aligned in a first direction from a third direction side orthogonal to the one direction ;
A flat second lid that covers a part of the power storage device from the third direction side ,
The first lid and the second lid are located on the same plane,
The first lid portion is disposed between a first fulcrum portion serving as a rotation fulcrum of the first lid portion itself, and the first fulcrum portion and a tip portion of the first lid portion. A second fulcrum part,
Each of the first fulcrum part and the second fulcrum part extends in a second direction orthogonal to the first direction and the third direction,
The first fulcrum portion is configured to be rotatable with respect to the second lid portion ,
It said second lid, it is connected to the first lid portion with the first fulcrum portion,
Insulation cover. The first lid portion is configured such that the direction rotating around the first fulcrum portion and the direction rotating around the second fulcrum portion are the same direction.
The insulating cover according to claim 2 or claim 3. A power storage device having a power storage element and a bus bar electrically connected to the power storage element;
An insulating cover according to any one of claims 1 to 4,
A power storage device assembly.

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