JP6960593B2 - Storage panel, power storage device, and power storage system - Google Patents

Description

The present invention relates to a storage board, a power storage device, and a power storage system.

Conventionally, a power storage device including a plurality of battery modules (storage battery units) is known (see, for example, Patent Document 1). The power storage device described in Patent Document 1 includes a plurality of battery modules and a housing (storage panel) for holding the plurality of battery modules. Each of the plurality of battery modules is composed of a battery pack and a case for storing the battery pack. The housing is composed of a frame block composed of a plurality of frames and a housing composed of a plurality of panels.

Japanese Unexamined Patent Publication No. 2013-196858

Since the power storage device described in Patent Document 1 has a structure in which a plurality of battery modules are housed in one housing, workability when assembling the battery modules may be reduced.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a storage board, a power storage device, and a power storage system with improved workability.

The storage board of the present invention is a storage board in which a plurality of storage battery units each having one or a plurality of storage batteries in a housing are stored side by side in the vertical direction, and is a box-shaped board body having an opening formed on the front surface. The positions of the lid attached to the panel body so as to close the opening and the positions of the plurality of storage battery units so that the storage battery unit located on the lower side in the vertical direction of the plurality of storage battery units is closer to the lid. and a support member for supporting in a state shifted, the in the direction of shifting the positions of a plurality of storage batteries units, the length of the support member rather short than a length of the board main body, wherein the support member, the storage battery unit It is characterized in that it includes a support base on which the support base is placed, is arranged so as to cover the upper surface of the support base, and further includes an insulating sheet having electrical insulation .

The power storage device of the present invention is characterized by including the above-mentioned storage board and the plurality of storage battery units housed in the storage board.

The power storage system of the present invention is characterized by including the above-mentioned power storage device and a power conversion device that converts the electric power of the power storage device.

The present invention has the effect of improving workability.

It is sectional drawing which looked at the power storage device of embodiment from the side. It is a front view of the state which removed the lid body from the power storage device of an embodiment. 3A is a front view of the storage board used in the power storage device of the embodiment, FIG. 3B is a left side view, and FIG. 3C is a plan view. 4A is a rear view of the storage board used in the power storage device of the embodiment, FIG. 4B is a right side view, and FIG. 4C is a bottom view. It is a schematic block diagram of the power storage system using the power storage device of the embodiment. It is a perspective view of the board body which comprises the storage board used for the power storage device of embodiment. FIG. 7A is a cross-sectional view of the power storage device of the embodiment as viewed from above, and FIG. 7B is an enlarged view of part X of FIG. 7A. 8A is a front view of the storage battery unit used in the power storage device of the embodiment, FIG. 8B is a left side view, and FIG. 8C is a plan view. 9A to 9D are partially omitted perspective views for explaining a procedure for attaching the storage battery unit to the storage panel in the power storage device of the embodiment. It is a front view of the state in which the power storage devices of the embodiment are installed side by side. It is a front view of the power conversion system of an embodiment.

The following embodiments relate to a storage board, a power storage device, and a power storage system, and particularly to a storage board, a power storage device, and a power storage system capable of storing a plurality of storage battery units.

(1) Outline In the storage board 2 of the present embodiment, as shown in FIGS. 1 to 5, a plurality of storage battery units 5 (5A, 5B) are stored side by side in the vertical direction (vertical direction). Each of the plurality of storage battery units 5 has one or a plurality of storage batteries 50 in the housing 51. The storage board 2 includes a board main body 3, a lid body 4, and support members (support bar 33 and support base 34). The board body 3 has a box shape with an opening 30 formed on the front surface. The lid 4 is attached to the board body 3 so as to close the opening 30. The support member supports the plurality of storage battery units 5 in a state where the positions of the plurality of storage battery units 5 are shifted in a direction (front-back direction) orthogonal to the vertical direction.

(2) Details Hereinafter, the storage panel, the power storage device, and the power storage system of the present embodiment will be described with reference to the drawings. However, the configuration described below is merely an example of the present invention, and the present invention is not limited to the following embodiments. Therefore, other than this embodiment, various changes can be made according to the design and the like as long as the technical idea of the present invention is not deviated.

In the following, unless otherwise specified, the vertical direction (vertical direction) and the horizontal direction when the board body 3 is viewed from the front (opening 30 side) with the storage board 2 installed on the floor are up and down. It will be described as a direction and a left-right direction. That is, in FIG. 2, each direction of up, down, left, and right is defined as indicated by the arrows of "up", "down", "left", and "right". Further, in the following description, with the storage board 2 installed on the floor, the depth direction when the board body 3 is viewed from the front (opening 30 side) is the front-rear direction, and the opening 30 side is the front. That is, in FIG. 1, each of the front and rear directions is defined as indicated by the "front" and "rear" arrows. However, these directions are not intended to define the installation direction of the power storage device 1. In addition, the arrows indicating each direction in the drawing are shown only for the sake of explanation, and are not accompanied by an entity.

(2.1) Power storage system FIG. 5 is a schematic configuration diagram of the power storage system of the present embodiment. The power storage system of the present embodiment includes a plurality of power storage devices 1 (two in the present embodiment) and a plurality of power conversion devices 8 (two in the present embodiment). Further, the power storage system of the present embodiment includes a plurality of (two in the present embodiment) solar power generation devices 9, a junction box 10, a distribution board 11, a shared distribution board 12, and a backup distribution board 13. And further equipped. In FIG. 5, the connection relationship by the power line is shown by a solid line, and the connection relationship by communication is shown by a broken line.

As shown in FIG. 5, the power storage device 1 includes a plurality of (two in this embodiment) storage battery units 5 and a storage board 2 for storing the plurality of storage battery units 5. In the present embodiment, when distinguishing between the two storage battery units 5, the upper storage battery unit 5 in the vertical direction is referred to as the second storage battery unit 5B, and the lower storage battery unit 5 is referred to as the first storage battery unit 5A. do. Further, the storage battery unit 5 includes a storage battery 50 and a housing 51 for accommodating the storage battery 50.

As shown in FIG. 5, the power converter 8 includes an inverter (power conditioner) 81, an independent control unit 82 (82A or 82B), a plurality of DC / DC converters 83, and DC / DC converters 84 and 85. It has. The plurality of DC / DC converters 83 are provided on a plurality of solar cell panels included in the photovoltaic power generation device 9 in a one-to-one correspondence. The DC / DC converters 84 and 85 are provided in the two storage battery units 5 in a one-to-one correspondence.

Here, as shown in FIG. 5, the ground terminal Ec of the storage board 2 is connected to the ground terminal Ec of the shared distribution board 12 via an electric wire. Further, the ground terminal Ec of the housing 51 of the storage battery unit 5 is connected to the ground terminal Ec of the housing 86 of the power conversion device 8 via an electric wire. Further, the ground terminal Ec of the housing 86 of the power conversion device 8 is connected to the ground terminal Ec of the shared distribution board 12 via an electric wire. That is, in the power storage system of the present embodiment, the ground terminal Ec of the storage panel 2 and the ground terminal Ec of the housing 51 of the storage battery unit 5 are not directly connected, and the ground terminal Ec of the housing 86 of the power conversion device 8 is not directly connected. It is indirectly connected via.

(2.2) Storage board Next, a specific configuration of the storage board 2 will be described with reference to FIGS. 1 to 4C.

The storage board 2 includes a board body 3 and a lid body 4. The board body 3 has a panel block 31, a plurality of (two in this embodiment) vertical frames 32A, and a plurality of (four in this embodiment) horizontal frames 32B. Further, the board main body 3 has a plurality of (4 in this embodiment) support bars 33, a plurality of (2 in this embodiment) support bases 34, and a plurality of (4 in this embodiment) first holding. It further has a member 35 and a plurality of (four in this embodiment) second holding members 36.

The panel block 31 is formed of a plurality of metal panels (first to fifth panels 31 to 315) in a vertically long rectangular box shape having an opening 30 formed on the front surface. As shown in FIG. 6, the panel block 31 includes a first panel 311 forming the upper surface, a second panel 312 forming the lower surface, a third panel 313 forming the right side surface, and a fourth panel forming the left side surface. It has a panel 314 and a fifth panel 315 forming a rear surface.

The first panel 311 has a rectangular plate shape that is long in the left-right direction. The first panel 311 is provided with a first wiring hole 311A and a second wiring hole 311B. The first wiring hole 311A is opened in a rectangular shape as shown in FIGS. 3C and 6. The first wiring hole 311A is located on the rear surface side (fifth panel 315 side) and to the right in the left-right direction with respect to the straight line SL that bisects the first panel 311 in the front-rear direction (vertical direction in FIG. 3C). It is provided. The first wiring hole 311A is closed by the first lid plate 38A formed in the shape of a rectangular plate. Further, the second wiring hole 311B is opened in a rectangular shape as shown in FIGS. 3C and 6. The second wiring hole 311B is provided on the rear surface side with respect to the straight line SL and at a position on the left side in the left-right direction. The second wiring hole 311B is closed by a second lid plate 38B formed in a rectangular plate shape.

In the present embodiment, as shown in FIG. 2, the electric wire pipe 42A is attached to the first lid plate 38A that closes the first wiring hole 311A, and the electric wire pipe 42B is attached to the second lid plate 38B that closes the second wiring hole 311B. Has been done. The first DC electric wire 43A electrically connected to the storage battery unit 5 is drawn into the storage panel 2 through the electric conduit 42A, and is electrically connected to each storage battery unit 5 through the space on the back side of the storage battery unit 5. Be connected. The AC second electric wire 43B electrically connected to the heater unit 6 (described later) is drawn into the storage panel 2 through the conduit 42B, and passes through the space on the back side of the storage battery unit 5 to the terminal block 7 (). (See FIG. 2) is electrically connected. The terminal block 7 is electrically connected to the heater unit 6. Further, the second electric wire 43B for grounding that electrically connects the ground terminal 40 (see FIG. 1) of the panel body 3 and the ground terminal Ec (see FIG. 5) of the shared distribution board 12 also passes through the conduit 42B. It is pulled into the storage board 2 and electrically connected to the ground terminal 40. The ground terminal 40 of the board body 3 is the ground terminal Ec (see FIG. 5) of the storage board 2.

As a specific example, a wire hole is formed in the first lid plate 38A, and an end portion of the electric wire tube 42A is attached to the peripheral edge of the opening of the wire hole, so that the first electric wire 43A is a wire through the first lid plate 38A. It is pulled into the storage board 2 through the hole. Similarly, a wire hole is formed in the second lid plate 38B, and the end portion of the electric wire tube 42B is attached to the peripheral edge of the opening of the wire hole, so that the second electric wire 43B has a wire hole of the second lid plate 38B. It is pulled into the storage board 2 through.

As shown in FIGS. 4A and 6, the fifth panel 315 is formed in the vertical direction by welding two plates in the butt portion in a state where two plates long in the vertical direction are butted in the left-right direction. Make up one long panel. As shown in FIG. 7B, ribs 315A projecting forward are integrally provided at the abutting portion of the two plate members in the fifth panel 315. Each of the two plate members has a shape in which the abutting portion is bent forward, and the rib 315A is formed by these abutting portions. That is, in the present embodiment, the rib 315A is integrated with the fifth panel 315.

In the storage board 2 of the present embodiment, the first electric wire 43A drawn into the storage board 2 through the first wiring hole 311A and the second electric wire drawn into the storage board 2 through the second wiring hole 311B by the rib 315A. The 43B can be wired separately in the left-right direction. That is, the internal space of the storage board 2 is divided into two in the left-right direction by the rib 315A. Then, the first electric wire 43A passes through the space on the first wiring hole 311A side (on the right side in this embodiment) with respect to the rib 315A, and the second electric wire 43B is on the second wiring hole 311B side with respect to the rib 315A. The space (on the left side in this embodiment) can be passed through.

The vertical frame 32A is made of metal and is formed long in the vertical direction. The vertical frame 32A is arranged at a corner portion composed of the fifth panel 315 and the third panel 313, and a corner portion composed of the fifth panel 315 and the fourth panel 314, respectively. As shown in FIGS. 6 and 7A, the vertical frame 32A has a frame body 321 having an L-shaped cross section orthogonal to the longitudinal direction (vertical direction) and a mounting piece 322. The frame body 321 has a portion that protrudes forward from the front surface of the fifth panel 315 and a portion that extends from the front end edge of the portion along the fifth panel 315 toward the side opposite to the rib 315A. It is formed in an L-shaped cross section. The mounting piece 322 is formed so as to project from the rear end edge of the frame main body 321 toward the rib 315A along the fifth panel 315. The vertical frame 32A is connected to the panel block 31 by fixing the mounting piece 322 to the fifth panel 315.

The horizontal frame 32B is made of metal and is formed long in the front-rear direction. The horizontal frame 32B is attached to the inner surface of each of the third panel 313 and the fourth panel 314. Two horizontal frames 32B are attached on the inner side surface of the third panel 313 with a vertical interval, and two horizontal frames 32B are attached on the inner surface of the fourth panel 314 with a vertical interval. Has been done. Further, the horizontal frame 32B attached to the third panel 313 and the horizontal frame 32B attached to the fourth panel 314 have the same vertical position. That is, the horizontal frame 32B attached to the third panel 313 and the horizontal frame 32B attached to the fourth panel 314 are arranged so as to face each other in the left-right direction. The cross-sectional shape orthogonal to the longitudinal direction (front-back direction) of the horizontal frame 32B is a convex shape in which the central portion in the vertical direction protrudes inward (toward the opposite horizontal frame 32B side) (see FIG. 9A).

As described above, in the present embodiment, the board main body 3 has a panel surrounding the storage space (first to fifth panels 31 to 315) and a frame fixed to the inner side surface of the panel (vertical frame 32A and horizontal frame 32B). And have.

The support bar 33 is made of metal and is formed long in the left-right direction. The cross-sectional shape orthogonal to the longitudinal direction (horizontal direction) of the support bar 33 is a convex shape in which the central portion in the front-rear direction protrudes upward. The support bar 33 is attached across the pair of horizontal frames 32B so as to be bridged between the pair of horizontal frames 32B. The pair of horizontal frames 32B referred to here are horizontal frames 32B that face each other in the left-right direction. That is, the support bar 33 is held by the horizontal frame 32B. Further, the support bars 33 are a set of two arranged in the front-rear direction, and a pair of support members 33 are attached to the pair of horizontal frames 32B.

The support base 34 is a metal plate material. The support base 34 is screw-fixed to the pair of support bars 33 in a state of being arranged so as to straddle the pair of support bars 33 arranged side by side in the front-rear direction. In the present embodiment, the pair of horizontal frames 32B and the pair of support bars 33 are provided in pairs in the vertical direction. Therefore, the support base 34 is also provided with two stages (upper and lower two stages) of the support base 34 in the vertical direction.

The support base 34 includes a rectangular plate-shaped base body 341 that is long in the left-right direction, a first stopper 342 that protrudes upward from the rear end edge of the base body 341, and a second stopper that protrudes upward from the left end edge of the base body 341. It has 343 and. The first stopper 342 is arranged behind the storage space (first storage space S1 or second storage space S2) for storing the storage battery unit 5, and when the first stopper 342 comes into contact with the rear surface of the storage battery unit 5, the storage battery unit 5 is moved backward. It functions as a movement control member (stopper) that regulates movement. An insulating sheet 39 is attached to the support base 34 so as to cover the upper surface of the base body 341, the front surface of the first stopper 342, and the right side surface of the second stopper 343. Therefore, when the storage battery unit 5 is mounted on the support base 34, the support base 34 and the housing 51 of the storage battery unit 5 are electrically insulated from each other. Although the support base 34 is also indicated by reference numerals in the drawings, for example, in FIG. 6, the support base 34 is actually hidden by the insulating sheet 39.

With the above configuration, the storage board 2 of the present embodiment has a first storage space S1, a second storage space S2, and a third storage space S3, as shown in FIG. The first storage space S1 is a space surrounded by the first panel 311 and the third panel 313, the fourth panel 314, and the upper support base 34. The second storage space S2 is a space surrounded by the upper support base 34, the third panel 313, the fourth panel 314, and the lower support base 34. The third storage space S3 is a space surrounded by the lower support base 34, the second panel 312, the third panel 313, and the fourth panel 314. Then, in the storage board 2 of the present embodiment, the storage battery unit 5 is stored in the first storage space S1 and the second storage space S2, and the heater unit 6 is stored in the third storage space S3. That is, of the first to third storage spaces S1 to S3, the storage battery unit 5 is stored only in the first storage space S1 and the second storage space S2. The term "storage space" simply means the first storage space S1 or the second storage space S2 in which the storage battery unit 5 is stored.

The first holding member 35 and the second holding member 36 are arranged apart from each other in the horizontal plane in the sliding direction (left-right direction in the present embodiment) intersecting the front-rear direction. In the present embodiment, two first holding members 35 and two second holding members 36 are provided for one storage space (first storage space S1 or second storage space S2). That is, the storage battery unit 5 housed in one storage space is held by four holding members (first holding member 35 and second holding member 36). Further, in the present embodiment, since two storage spaces are provided in one board body 3, four first holding members 35 and four second holding members 36 are provided for one board body 3. It will be. Hereinafter, when a plurality of (four in the present embodiment) first holding members 35 are not distinguished, each of the plurality of first holding members 35 will be simply referred to as a “first holding member 35”. Similarly, when a plurality of (four in the present embodiment) second holding members 36 are not distinguished, each of the plurality of second holding members 36 is simply described as a "second holding member 36".

The first holding member 35 is provided in the panel body 3 on the left side of the storage space (first storage space S1 or second storage space S2). The first holding member 35 is provided on the frame (vertical frame 32A). Here, the position of the first holding member 35 in the vertical direction is determined according to the position of the first mounting portion 55 (see FIG. 8A) of the storage battery unit 5 in the state of being stored in the storage space. Specifically, the height from the upper surface of the base body 341 of the support base 34 to the first holding member 35 substantially coincides with the height from the lower surface of the storage battery unit 5 to the first mounting portion 55. The details of the first mounting portion 55 will be described in the column of “(2.3) Storage battery unit”.

The first holding member 35 is formed with an insertion port that opens on the right side surface facing the storage space (first storage space S1 or second storage space S2) in the sliding direction. The insertion port is a pocket (hole) into which the first mounting portion 55 is inserted. That is, when the first mounting portion 55 is inserted into the insertion port of the first holding member 35 from the storage space side in the slide direction, the first mounting portion 55 is inserted into the first holding member 35. In this state, the first holding member 35 holds the first mounting portion 55 in the insertion port, and restricts the movement of the first mounting portion 55 in the front-rear direction. In other words, the first holding member 35 and the first mounting portion 55 are inserted in a state in which the first mounting portion 55 moves relative to the first holding member 35 in the sliding direction and is inserted in the front-rear direction. The movement of the first mounting portion 55 is restricted. In the present embodiment, the first holding member 35 regulates the movement of the first mounting portion 55 not only in the front-rear direction but also in the vertical direction.

The second holding member 36 is provided in the panel body 3 on the right side of the storage space (first storage space S1 or second storage space S2). The second holding member 36 is provided on the frame (vertical frame 32A). Here, the position of the second holding member 36 in the vertical direction is determined according to the position of the second mounting portion 56 of the storage battery unit 5 in the state of being stored in the storage space. Specifically, the height from the upper surface of the base body 341 of the support base 34 to the second holding member 36 substantially matches the height from the lower surface of the storage battery unit 5 to the second mounting portion 56. The details of the second mounting portion 56 will be described in the column of "(2.3) Storage battery unit". In the present embodiment, since the positions of the first mounting portion 55 and the second mounting portion 56 are the same in the vertical direction, the positions of the first holding member 35 and the second holding member 36 in the vertical direction are also the same. be.

The second holding member 36 is configured to be split into two in the front-rear direction so as to restrict the movement of the second attachment portion 56 in the front-rear direction and the slide direction by sandwiching the second attachment portion 56 from both sides in the front-rear direction. Has been done. Specifically, the second holding member 36 is a fastener that holds the second mounting portion 56 between the pedestal 361 fixed to the vertical frame 32A and the pedestal 361 by being attached to the pedestal 361 from the front. It has 362 and. A recess is formed on the surface (rear surface) of the fastener 362 facing the pedestal 361 to avoid interference with the second mounting portion 56. As a result, when the fastener 362 is attached to the pedestal 361, the second attachment portion 56 is held in the gap formed between the front surface of the pedestal 361 and the rear surface of the fastener 362 by the recess of the fastener. It will be. In the present embodiment, the second holding member 36 regulates the movement of the second mounting portion 56 not only in the front-rear direction and the slide direction but also in the vertical direction. Here, the fastener 362 is screw-fixed to the pedestal 361, but the present invention is not limited to this configuration, and the pedestal 361 may be fixed to the fastener 362 by another fixing method.

Here, the movement of the second mounting portion 56 in the slide direction is not regulated by the second holding member 36 alone, but is regulated by the first holding member 35 and the second holding member 36 in cooperation with each other. .. That is, the first mounting portion 55 and the second mounting portion 56 are provided so as to project on both the left and right sides of the storage battery unit 5, and their respective tip portions are inserted into the first holding member 35 and the second holding member 36. It is held in this way. Therefore, in a state where the first mounting portion 55 is held by the first holding member 35 and the second mounting portion 56 is held by the second holding member 36, the first holding member 35 moves to the left. 1 The movement of the mounting portion 55 is restricted, and the movement of the second mounting portion 56 to the right is restricted by the second holding member 36. As a result, the movement of the second mounting portion 56 in the sliding direction (left and right) is restricted.

"Movement is restricted" of "A" here means that "A" can be moved while leaving so-called "play" as well as a state in which "A" is completely fixed so as not to move. It means that the state where the range is limited is also included. In the present embodiment, both the first mounting portion 55 and the second mounting portion 56 are not completely fixed, but are in a state in which the movable range is limited while leaving "play". , Movement is restricted. In other words, the first holding member 35 can restrict the movement of the first mounting portion 55 in the front-rear direction while having an appropriate gap between the first holding member 35 and the first mounting portion 55. Similarly, the second holding member 36 can restrict the movement of the second mounting portion 56 in the front-rear direction and the sliding direction while having an appropriate gap between the second holding member 36 and the second mounting portion 56.

Further, the first holding member 35 located on the left side of the second storage space S2 is located in front of the first holding member 35 located on the left side of the first storage space S1. Similarly, the second holding member 36 located on the right side of the second storage space S2 is located in front of the second holding member 36 located on the right side of the first storage space S1 (see FIG. 1). .. The procedure for attaching the storage battery unit 5 to the storage panel 2 will be described in the column of "(2.5) Installation procedure for the storage battery unit".

As shown in FIG. 1, the heater unit 6 is housed in the third storage space S3. The heater unit 6 is an AC drive device in which a heater and a fan are integrally configured, and is configured so that air warmed by the heater is discharged to the outside through the fan. The heater unit 6 is housed in the third storage space S3 in a state where the blowing direction is orthogonal to the vertical direction (rear in the present embodiment).

Further, a wind direction panel 37 is provided in the panel body 3 behind the third storage space S3. The wind direction panel 37 is a metal plate material. The wind direction panel 37 has an inclined wall 371, a first mounting piece 372, and a second mounting piece 373. The first mounting piece 372 protrudes forward from the front end edge of the inclined wall 371, and the second mounting piece 373 protrudes upward from the rear end edge of the inclined wall 371. Then, the first mounting piece 372 is screwed to the second panel 312 of the panel block 31, and the second mounting piece 373 is screwed to the fifth panel 315, so that the wind direction panel 37 is mounted to the panel block 31. ..

When the wind direction panel 37 is attached to the panel block 31, the heater unit 6 and the wind direction panel 37 face each other in the front-rear direction as shown in FIG. Further, the inclined wall 371 of the wind direction panel 37 is inclined so that the surface facing the heater unit 6 faces diagonally upward. In this configuration, the direction of the wind from the heater unit 6 is changed from backward to upward by hitting the inclined wall 371 of the wind direction panel 37 (see arrow A1 in FIG. 1). Here, in the present embodiment, the blower unit is composed of the heater unit 6 and the inclined wall 371 of the wind direction panel 37, and the heater unit 6 is a fan.

As shown in FIGS. 1 to 4C, a mounting base 41 for fixing the board body 3 to the floor is mounted on the lower portion of the board body 3 described above. The mounting base 41 is made of metal. The mounting base 41 is formed in a rectangular frame shape by combining the first member 411, the second member 412, the third member 413, and the fourth member 414 in which the cross-sectional shape orthogonal to the longitudinal direction is formed in a U shape. (See FIG. 4C). On the lower surface of the first member 411, a plurality of insertion holes 411A through which anchor bolts installed on the floor are inserted (four in FIG. 4C) are provided at equal intervals in the left-right direction. Further, on the lower surface of the second member 412, a plurality of insertion holes 412A through which anchor bolts are inserted (four in FIG. 4C) are provided at equal intervals in the left-right direction.

The lid 4 is made of metal and is formed in a flat rectangular box shape. The external dimensions of the lid 4 (vertical dimensions and horizontal dimensions) are set to be slightly larger than the opening dimensions of the opening 30 of the panel body 3. The lid body 4 is screwed and fixed to the board body 3 in a state where the opening 30 formed on the front surface of the board body 3 is closed.

(2.3) Storage Battery Unit As shown in FIGS. 8A to 8C, the storage battery unit 5 includes a rectangular parallelepiped housing 51 and a storage battery 50 (see FIG. 5) housed in the housing 51. ing. The housing 51 has a rectangular box-shaped body 52 having an open front surface, and a cover 53 attached to the body 52 so as to close the opening of the body 52. Further, the cover 53 has a cover main body 531 that closes the opening of the body 52, and a mounting piece 532 that projects rearward from the upper end edge of the cover main body 531. Then, in the storage battery unit 5 of the present embodiment, the cover 53 is attached to the body 52 so as to close the opening of the body 52, and the housing 51 is assembled by screwing the cover 53 from above via the attachment piece 532.

Further, a first mounting portion 55 and a second mounting portion 56 are mounted on the rear surface of the body 52. The first mounting portion 55 is made of metal. The first mounting portion 55 is formed in a rectangular plate shape, and is mounted on the body 52 in a state where at least one end portion in the left-right direction is projected outward (left side) from the left side surface of the body 52. Further, two first mounting portions 55 are mounted on one housing 51 with a space in the vertical direction. The second mounting portion 56 is made of metal like the first mounting portion 55. The second mounting portion 56 is formed in a rectangular plate shape, and is mounted on the body 52 in a state where at least one end portion in the left-right direction is projected outward (right side) from the right side surface of the body 52. Further, like the first mounting portion 55, two second mounting portions 56 are mounted on one housing 51 with a space in the vertical direction.

Here, the distance between the two first mounting portions 55 arranged in the vertical direction is the same as the distance between the two first holding members 35 provided in the storage space (first storage space S1 or second storage space S2). Is. Further, the distance between the two second mounting portions 56 arranged in the vertical direction is the same as the distance between the two second holding members 36 provided in the storage space. Of the first mounting portion 55 and the second mounting portion 56, the portion protruding from the side surface of the body 52 is covered with an insulating member so as to be electrically insulated from the first holding member 35 and the second holding member 36. Is preferable.

(2.4) Positional relationship of storage battery units By the way, in a structure in which a plurality of storage battery units 5 are stored side by side in the vertical direction as in the storage board 2 of the present embodiment, the plurality of storage battery units 5 are arranged in the front-rear direction (depth direction). If they are in the same position, the workability when attaching the storage battery unit 5 may decrease. In particular, in the case of a structure in which the cover 53 is screwed to the body 52 from above like the storage battery unit 5 of the present embodiment, the cover 53 can be attached and detached if the distance between the storage battery units 5 adjacent in the vertical direction is short. It may not be possible.

Therefore, in the storage board 2 of the present embodiment, as shown in FIG. 1, the first storage battery unit 5A and the second storage battery unit 5B are arranged so that the first storage battery unit 5A is closer to the lid 4 than the second storage battery unit 5B. The position of is shifted in the front-back direction. In other words, the distance from the first storage battery unit 5A to the lid 4 is shorter than the distance from the second storage battery unit 5B to the lid 4. The first storage battery unit 5A is the lower storage battery unit 5 of the two storage battery units 5 adjacent to each other in the vertical direction (vertical direction). The second storage battery unit 5B is the upper storage battery unit 5 of the two storage battery units 5 adjacent to each other in the vertical direction (vertical direction).

Specifically, the upper support bar 33 and the support base 34 that support the second storage battery unit 5B are behind the lower support bar 33 and the support base 34, as shown in FIG. On the other hand, the lower support bar 33 and the support base 34 to which the first storage battery unit 5A is attached are located in front of the upper support bar 33 and the support base 34 as shown in FIG. When the first storage battery unit 5A and the second storage battery unit 5B are mounted on the corresponding support bases 34, the lower first storage battery unit 5A is closer to the front and the upper second storage battery unit 5B is closer to the rear. It is stored in the storage board 2 in a state where each is positioned.

In this case, the cover 53 can be easily attached to and detached even if the cover 53 is screw-fixed from above as in the storage battery unit 5 of the present embodiment. That is, in the storage board 2 of the present embodiment, workability when attaching / detaching the cover 53 of the storage battery unit 5 can be improved as compared with the case where a plurality of storage battery units 5 are arranged at the same position in the front-rear direction. Further, like the storage board 2 of the present embodiment, the direction of shifting the position of the storage battery unit 5 is parallel to the vertical direction in the normal direction of the surface having the largest surface area among the four surfaces of the housing 51 of the storage battery unit 5. In some cases, the heat dissipation efficiency of the heat generated in the storage battery unit 5 can be improved.

Further, in the storage board 2 of the present embodiment, as shown in FIG. 1, it is preferable that the distance L2 is shorter than the distance L1. The distance L1 is the distance between the upper second storage battery unit 5B in the vertical direction (vertical direction) and the upper surface (first panel 311) of the panel body 3. The distance L2 is the distance between the lower end of the support member supporting the upper second storage battery unit 5B (the lower end of the support bar 33) and the lower first storage battery unit 5A. Further, in the storage board 2 of the present embodiment, it is more preferable that the distance L3 is shorter than the distance L1. The distance L3 is the distance between the first storage battery unit 5A and the second storage battery unit 5B that are adjacent to each other in the vertical direction (vertical direction). As a result, the storage board 2 can be miniaturized in the vertical direction (vertical direction) while improving workability when attaching and detaching the cover 53.

Further, in the storage board 2 of the present embodiment, as shown in FIGS. 1 and 2, the heater unit 6 and the wind direction panel 37 are in the third storage space S3, which is a space below the first storage battery unit 5A on the lower side. A blower unit consisting of is stored. The air discharged from the heater unit 6 moves backward, but moves upward after hitting the inclined wall 371 of the wind direction panel 37 (see arrow A1 in FIG. 1). Further, the air that hits the inclined wall 371 moves upward in the space behind the first storage battery unit 5A (see arrow A2 in FIG. 1), and then is between the first storage battery unit 5A and the second storage battery unit 5B. (See arrow A3 in FIG. 1). Then, the air that has moved forward between the first storage battery unit 5A and the second storage battery unit 5B further moves upward in the space on the front side of the second storage battery unit 5B (see arrow A4 in FIG. 1). As a result, the air in the storage board 2 can be convected. Moreover, when the direction of the wind from the blower is upward as in the storage board 2 of the present embodiment, heat can be efficiently transferred in the board body 3 by convection.

(2.5) Procedure for Attaching the Storage Battery Unit Next, the procedure for attaching the storage battery unit 5 to the storage panel 2 will be described with reference to FIGS. 9A to 9D. As shown in FIG. 9A, the operator places the storage battery unit 5 on the base body 341 of the support base 34 in a state where the storage battery unit 5 is tilted so that the front surface of the storage battery unit 5 faces diagonally forward to the left.

After that, the operator pushes the right end portion of the front surface of the storage battery unit 5 rearward to rotate the storage battery unit 5 in a horizontal plane around the left end edge of the front surface of the storage battery unit 5, and as shown in FIG. 9B, the storage battery unit 5 Is stored in the board body 3. At this time, the storage battery unit 5 rotates counterclockwise in a plan view until the front surface faces the front, and the rear surface of the housing 51 comes into contact with the first stopper 342 to restrict the movement to the rear. In the state shown in FIG. 9B, the storage battery unit 5 is located in the panel body 3 at a position slightly shifted to the right of the first storage space S1. The insulating sheet 39 attached to the support base 34 is preferably made of a material having a small friction coefficient (for example, polycarbonate) so that the storage battery unit 5 can be easily moved.

Further, the operator slides the storage battery unit 5 to the left as shown in FIG. 9C. As a result, the two first mounting portions 55 projecting to the left from the left side surface of the housing 51 are inserted into the corresponding first holding members 35, respectively. At this time, the storage battery unit 5 is restricted from moving to the left when the left side surface of the housing 51 comes into contact with the second stopper 343. That is, in the state shown in FIG. 9C, the storage battery unit 5 is positioned in the front-rear direction and the left-right direction. After that, the operator holds the two second mounting portions 56 projecting to the right from the right side surface of the housing 51 by the corresponding second holding members 36, thereby completing the mounting of the storage battery unit 5. At this time, the two second mounting portions 56 are held by the second holding member 36 by being sandwiched between the pedestal 361 and the fastener 362 of the corresponding second holding member 36, respectively.

(2.6) Connection of Storage Boards By the way, in the storage board 2 of the present embodiment, as shown in FIG. 10, two storage boards 2 can be installed (connected) side by side in the left-right direction. In this case, the screws 44 are removed from the third panel 313 of the storage board 2 on the left side and the fourth panel 314 of the storage board 2 on the right side, respectively, and after the third panel 313 and the fourth panel 314 are brought into contact with each other, the screws are screwed. The third panel 313 and the fourth panel 314 are fastened by 44. As a result, the two storage boards 2 can be installed in an integrally connected state. Further, by the same procedure, three or more storage boards 2 can be installed side by side in the left-right direction.

Further, the storage board 2 can be installed (connected) side by side in the left-right direction with respect to the power conversion device 8. That is, the storage board 2 which is the housing of the power storage device 1 and the housing 86 of the power conversion device 8 can be connected to each other. Therefore, it is preferable that the storage board 2 and the housing 86 are unified in appearance. For example, the storage board 2 and the housing 86 are configured to have the same height from the floor surface.

Further, fixing metal fittings for fixing the storage boards 2 to the wall may be attached to the upper surfaces of the plurality of storage boards 2. In this configuration, since the plurality of storage boards 2 are fixed to the wall, the earthquake resistance can be improved. Further, in order to further improve the earthquake resistance, a connecting metal fitting for connecting the plurality of fixing metal fittings attached to the plurality of storage boards 2 may be further attached.

(2.7) Power Conversion System Hereinafter, the power conversion system 80 of the present embodiment will be described with reference to FIG. The power conversion system 80 of the present embodiment includes a mounting base 87 and a plurality of (two in this embodiment) power conversion devices 8. A plurality of (two in this embodiment) (second) housings 86 are mounted side by side on the mounting base 87 in the left-right direction. A power conversion unit is housed in each of the two housings 86. The power conversion unit referred to here is a unit constituting the power conversion device 8, and includes an inverter 81, an independent control unit 82 (82A or 82B), a plurality of DC / DC converters 83, and DC / DC converters 84 and 85. Includes. That is, the power conversion device 8 is configured by accommodating the power conversion unit in the housing 86.

In the power conversion system 80 of the present embodiment, since a plurality of power conversion devices 8 are mounted side by side on the mounting base 87, they are integrated in one place as compared with the case where the plurality of power conversion devices 8 are separately installed on the ground. It is possible to build a new system.

As shown in FIG. 11, the housing 86 includes a first housing 861 and a second housing 862. Both the first housing 861 and the second housing 862 are formed of a metal plate in a rectangular box shape. The first housing 861 is mounted on the second housing 862 and is connected to the second housing 862 by, for example, bolts. That is, the first housing 861 and the second housing 862 are arranged in the vertical direction (vertical direction). For example, an inverter 81 or the like is housed in the first housing 861, and for example, an independent control unit 82 or the like is housed in the second housing 862.

By the way, when such a power conversion device 8 or a power conversion system 80 and a power storage device 1 (storage board 2) are installed side by side in the left-right direction, it is preferable that the appearance can be unified when viewed from the front. Specifically, when the storage board 2 and the housing 86 have different dimensions in the vertical direction, the height adjustment base is attached to one of the storage board 2 and the housing 86 to form the storage board 2. It is preferable that the height from the floor surface is the same as that of the housing 86. For example, when the vertical dimension of the storage board 2 is smaller than that of the housing 86, the height adjustment base is mounted below the mounting base 41, so that the height of the storage board 2 and the housing 86 from the floor surface is increased. Are aligned.

If the storage board 2 and the housing 86 have different dimensions in the front-rear direction, the storage board 2 and the housing 86 are installed so that the front surface of the storage board 2 and the front surface of the housing 86 are flush with each other. It is preferable to be done. For example, when the storage board 2 and the housing 86 are installed near the wall, the front surface is surfaced by making the distance from the wall to the rear surface of the storage board 2 different from the distance from the wall to the rear surface of the housing 86. Become one. Therefore, when a fixing bracket for fixing the storage board 2 and the housing 86 to the wall is attached to the upper surface of each of the storage board 2 and the housing 86, the fixing bracket is attached to the storage board 2 and the housing 86. It is preferable that the dimensions in the front-rear direction are different. For example, when the size of the storage board 2 in the front-rear direction is larger than that of the housing 86, the size of the fixing bracket for the storage board 2 that is closer to the wall is smaller than that of the fixing metal fitting for the housing 86 in the front-rear direction.

(3) Effect As described above, in the storage board 2 of the present embodiment, the support members (support bar 33 and support base 34) have the positions of the plurality of storage battery units 5 in the direction orthogonal to the vertical direction (front-rear direction). A plurality of storage battery units 5 are supported in a staggered state. According to this configuration, the positions of the plurality of storage battery units 5 are shifted in the direction orthogonal to the vertical direction, so that the cover 53 of the storage battery unit 5 is screwed and fixed to the body 52 from above as in the present embodiment. The cover 53 can be easily attached and detached even if it has such a structure. Therefore, the cover 53 can be easily attached and detached as compared with the case where the plurality of storage battery units 5 are arranged at the same position in the direction orthogonal to the vertical direction, and the workability when attaching the storage battery unit 5 to the storage panel 2 is improved. be able to. Further, the plurality of storage battery units 5 are distributed and arranged in the direction orthogonal to the vertical direction, and as a result, heat can be evenly dissipated from both sides of the storage board 2 in the direction orthogonal to the vertical direction.

Further, it is preferable that the housing 51 is a rectangular parallelepiped like the storage board 2 of the present embodiment. In this case, the support member supports the plurality of storage battery units 5 in a state where the positions of the plurality of storage battery units 5 are shifted in the normal direction of the surface having the largest surface area among the four surfaces of the housing 51 parallel to the vertical direction. It is preferable that it is configured to do so. According to this configuration, the amount of heat radiated increases in proportion to the surface area. Therefore, by shifting the position of the storage battery unit 5 in the normal direction of the surface area of the housing 51 having a large surface area, the heat radiated by the storage battery unit 5 is dissipated. Efficiency can be increased. However, this configuration is not essential for the storage board 2, and for example, the positions of the plurality of storage battery units 5 may be shifted in the normal direction of the surfaces other than the surface having the largest surface area among the above four surfaces.

Further, as in the storage board 2 of the present embodiment, the support member has a plurality of storage battery units 5 (5A) in a state where the position of the support member is shifted so that the first storage battery unit 5A is closer to the lid 4 than the second storage battery unit 5B. , 5B) is preferably configured to support. The first storage battery unit 5A is located on the lower side of the two storage battery units 5 that are vertically adjacent to each other among the plurality of storage battery units 5. The second storage battery unit 5B is located on the upper side of the two storage battery units 5 that are vertically adjacent to each other among the plurality of storage battery units 5. According to this configuration, the cover 53 can be easily attached to and detached even if the cover 53 of the storage battery unit 5 is screwed and fixed to the body 52 from above as in the present embodiment. Therefore, the cover 53 can be easily attached and detached as compared with the case where the plurality of storage battery units 5 are arranged at the same position in the direction orthogonal to the vertical direction, and the workability when attaching the storage battery unit 5 to the storage panel 2 is improved. be able to. However, this configuration is not essential for the storage panel 2, and for example, the first storage battery unit 5A and the second storage battery unit 5B are arranged so that the second storage battery unit 5B is closer to the lid 4 than the first storage battery unit 5A. The position may be shifted.

Further, it is preferable that the distance L2 is shorter than the distance L1 as in the storage board 2 of the present embodiment. The distance L1 is the distance between the second storage battery unit 5B located at the top of the plurality of storage battery units 5 and the upper surface (first panel 311) of the panel body 3. The distance L2 is the distance between the second storage battery unit 5B located at the top of the plurality of storage battery units 5 and the first storage battery unit 5A adjacent to the second storage battery unit 5B. According to this configuration, the storage board 2 can be miniaturized in the vertical direction while improving the workability when the storage battery unit 5 is attached to the storage board 2. However, this configuration is not essential for the storage board 2, and for example, the distance L2 may be longer than the distance L1.

Further, it is preferable that the distance L3 is shorter than the distance L1 as in the storage board 2 of the present embodiment. The distance L1 is the distance between the second storage battery unit 5B located at the top of the plurality of storage battery units 5 and the upper surface (first panel 311) of the panel body 3. The distance L3 is the distance between the lower end of the support member that supports the second storage battery unit 5B located at the top of the plurality of storage battery units 5 and the first storage battery unit 5A adjacent to the second storage battery unit 5B. Is. According to this configuration, the storage board 2 can be miniaturized in the vertical direction while improving the workability when the storage battery unit 5 is attached to the storage board 2.

Further, like the storage board 2 of the present embodiment, the blower unit (heater unit 6 and wind direction panel 37) is arranged in a space below the storage battery unit 5 located at the bottom of the plurality of storage battery units 5. It is preferable that the above is further provided. According to this configuration, the air in the panel body 3 can be moved by the blower, and the heat can be transferred in the panel body 3 by convection. However, this configuration is not essential for the storage board 2, and the blower portion may be omitted.

Further, it is preferable that the direction of the wind from the blower portion is upward as in the storage board 2 of the present embodiment. According to this configuration, the air in the panel body 3 can be moved upward by sending the wind from the lower side, and the heat can be efficiently transferred in the panel body 3 by the convection. However, this configuration is not indispensable for the storage board 2, and for example, the direction of the wind from the blower portion may be backward.

Further, as in the storage board 2 of the present embodiment, the blower portion faces the fan (heater unit 6) arranged so that the direction orthogonal to the vertical direction is the blower direction and faces the fan in the blower direction. It is preferable to have an arranged inclined wall 371. In this case, the inclined wall 371 is preferably inclined so that the surface facing the fan faces diagonally upward. According to this configuration, the direction of the wind generated by the fan can be directed upward by the inclined wall 371, and the air in the board body 3 is moved upward by sending the wind from the lower side, and the board body is convected. Heat can be efficiently transferred within 3. Further, according to this configuration, the fan can be arranged sideways, which has an advantage that dust is less likely to collect on the fan. However, this configuration is not indispensable for the storage board 2, and it is sufficient that it has at least a fan.

The power storage device 1 of the present embodiment includes the above-mentioned storage board 2 and a plurality of storage battery units 5 (5A, 5B) housed in the storage board 2. According to this configuration, it is possible to provide the power storage device 1 with improved workability by using the storage board 2 described above.

The power storage system of the present embodiment includes the above-mentioned power storage device 1 and a power conversion device 8 that converts the power of the power storage device 1. According to this configuration, it is possible to provide a power storage system with improved workability by using the storage board 2 described above.

(4) Deformation Example The relationship between the first mounting portion and the first holding member may be the opposite of that of the above embodiment. That is, the first holding member may have a configuration in which the movement of the first mounting portion in the front-rear direction is restricted while one of the first mounting portion and the first holding member is inserted into the other. .. Specifically, the first holding member is composed of a plate-like body extending toward the second holding member, and an insertion port into which the first holding member is inserted is formed in the first mounting portion with respect to the first mounting portion. The first holding member may be inserted.

Further, the positional relationship between the first holding member and the second holding member may be the opposite of that of the above embodiment. That is, the first holding member may be provided on the right side of the storage space, and the second holding member may be provided on the left side of the storage space.

Further, each of the first holding member 35 and the second holding member 36 is provided in a configuration in which two are provided for one storage space (first storage space S1 or second storage space S2) as in the above embodiment. Not limited to this, one or three or more may be provided for one storage space. For example, when the first holding member 35 and the second holding member 36 are provided one by one in one storage space, the storage battery unit 5 stored in one storage space has two holding members (first holding member). It will be held by 35 and the second holding member 36). In a configuration in which two or more of the first holding member 35 and the second holding member 36 are provided for one storage space, each of the first holding member 35 and the second holding member 36 is provided for one storage space. The storage battery unit 5 can be easily fixed as compared with the configuration provided with one.

Similarly, each of the first mounting portion 55 and the second mounting portion 56 is not limited to the configuration in which two are provided for one housing 51 as in the above embodiment, and one housing 51 is also provided. One or three or more may be provided with respect to. For example, when the first holding member 35 and the second holding member 36 are provided one by one for one storage space, the first mounting portion 55 and the second mounting portion 56 are also provided for one housing 51. It is provided one by one. In a configuration in which two or more of the first mounting portion 55 and the second mounting portion 56 are provided for one housing 51, the first mounting portion 55 and the second mounting portion are provided for one housing 51. The storage battery unit 5 can be easily fixed as compared with the configuration in which one of each of the 56 is provided.

Further, in the above embodiment, the heater unit 6 containing the heater and the fan and the wind direction panel 37 form the blower unit, but for example, the blower unit 6 alone may form the blower unit. In this case, by adjusting the direction of the heater unit 6 so that the air blowing direction of the heater unit 6 is in the vertical direction, heat can be efficiently transferred in the panel body 3 by convection. Further, in the above embodiment, the heater unit 6 having a built-in heater and fan is used, but only the fan may be used.

Further, in the above embodiment, the two storage battery units 5 are arranged in the vertical direction, but the three or more storage battery units 5 may be arranged in the vertical direction. In this case, the positions of both storage battery units 5 are set in the front-rear direction so that the lower storage battery unit 5 of the two vertically adjacent storage battery units 5 is on the front side (cover 4 side) of the upper storage battery unit 5. It is preferable to shift to.

Further, in the above embodiment, the position of the storage battery unit 5 is shifted in the normal direction (front-back direction) of the surface having the largest surface area among the four surfaces of the housing 51 parallel to the vertical direction. On the other hand, when it is not necessary to consider heat dissipation, the storage battery unit is in the normal direction (left-right direction) of the remaining four surfaces of the housing 51 excluding the surface having the largest surface area. The position of 5 may be shifted.

Further, in the above embodiment, the first holding member and the second holding member are provided on the storage board side, and the first mounting portion and the second mounting portion are provided on the storage battery unit side, but the first mounting portion is provided on the storage board side. And a second mounting portion may be provided, and a first holding member and a second holding member may be provided on the storage battery unit side.

Further, in the above embodiment, the storage battery unit 5 in which one storage battery 50 is housed in the housing 51 has been described, but the number of storage batteries 50 housed in the housing 51 is not limited to one and may be plural. ..

Further, in the above embodiment, the rib 315A is integrated with the fifth panel 315, but the rib 315A may be formed separately from the fifth panel 315 and attached to the fifth panel 315.

Further, when a plurality of storage boards 2 are installed (connected) side by side in the left-right direction, there may be a gap between the pair of adjacent storage boards 2. That is, the plurality of storage boards 2 may not only be connected without a gap, but may also be connected at a predetermined interval. Further, the plurality of storage boards 2 may be connected by using the mounting base 41. In this case, a plurality of storage boards 2 are mounted side by side on one mounting base 41.

Further, in the above embodiment, an example in which a plurality (two) of the storage battery units 5 are stored in one storage board 2 is shown, but the number of the storage battery units 5 stored in the storage board 2 is not limited to one. It may be an individual. Further, at least a part of the power conversion device 8 such as the inverter 81 may be stored in the storage board 2. In this case, the storage battery unit 5 and the inverter 81 and the like are housed together in one storage board 2.

1 Power storage device 2 Storage board 3 Board body 4 Lid 5 Storage battery unit 5A 1st storage battery unit 5B 2nd storage battery unit 6 Heater unit (blower, fan)
8 Power converter 33 Support bar (support member)
34 Support base (support member)
37 Wind direction panel (blower)
371 Inclined wall 50 Storage battery 51 Housing 311 First panel (upper surface of the panel body)
L1, L2, L3 distance

Claims (10)

A storage board in which a plurality of storage battery units each having one or a plurality of storage batteries in a housing are stored side by side in the vertical direction.
A box-shaped board body with an opening on the front and
A lid attached to the board body so as to close the opening, and
Among the plurality of storage battery units, the storage battery unit located on the lower side in the vertical direction is provided with a support member that supports the plurality of storage battery units in a state of being shifted so as to be closer to the lid.
Wherein in a direction of shifting the positions of a plurality of storage batteries units, the length of the support member rather short than a length of the board main body,
The support member includes a support base on which the storage battery unit is placed.
A storage board which is arranged so as to cover the upper surface of the support base and further includes an insulating sheet having electrical insulation. The housing is a rectangular parallelepiped
The support member supports the plurality of storage battery units in a state where the positions of the plurality of storage battery units are shifted in the normal direction of the surface having the largest surface area among the four surfaces of the housing parallel to the vertical direction. The storage battery according to claim 1, wherein the storage battery is configured in. The support member is positioned so that the lower first storage battery unit of the two vertically adjacent storage battery units among the plurality of storage battery units is closer to the lid than the upper second storage battery unit. The storage board according to claim 2, wherein the storage battery unit is configured to support the plurality of storage battery units in a staggered state. The distance between the second storage battery unit located at the top of the plurality of storage battery units and the first storage battery unit adjacent to the second storage battery unit is the distance between the second storage battery unit and the upper surface of the panel body. The storage battery according to claim 3, wherein the storage battery is configured to be shorter than the distance between the battery and the battery. The distance between the lower end of the support member that supports the second storage battery unit located at the top of the plurality of storage battery units and the first storage battery unit adjacent to the second storage battery unit is the second. The storage board according to claim 3 or 4, wherein the storage battery unit is configured to be shorter than the distance between the storage battery unit and the upper surface of the board body. The invention according to any one of claims 1 to 5, further comprising a blower unit arranged in a space below the storage battery unit located at the bottom of the plurality of storage battery units. Storage board. The storage board according to claim 6, wherein the direction of the wind from the blower portion is upward. The blower portion has a fan arranged so that the direction orthogonal to the vertical direction is the blower direction, and an inclined wall arranged so as to face the fan in the blower direction.
The storage board according to claim 7, wherein the inclined wall is inclined so that the surface facing the fan is obliquely upward. A power storage device including the storage board according to any one of claims 1 to 8 and the plurality of storage battery units housed in the storage board. A power storage system comprising the power storage device according to claim 9 and a power conversion device that converts electric power of the power storage device.

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