JP2013171673A - Power storage device and cabinet thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power storage device with excellent fire resistance, and a cabinet thereof.SOLUTION: A cabinet of a power storage device 1 comprises: a metallic container 5 housing and supporting plural battery modules 4 inside; and a protective member 7 provided in the container. The protective member 7 is arranged between the battery modules 4 and the container 5. The protective member 7 has fire resistance and an electrical insulation property. The protective member 7 has a plate-like shape. A location face for locating the battery modules 4 is provided on an upper face of the protective member 7. Furthermore, the power storage device 1 can be provided with a cable 6 for power. The cable 6 is housed in the container 5. The cable 6 is coated with a coating having fire resistance and an electrical insulation property. Such a constitution can restrain deterioration of the electrical insulation property between the battery modules 4 and the container 5 even if the power storage device 1 is fired.

Description

  The present invention relates to a power storage device that houses a plurality of batteries, and a cabinet thereof.

  Patent Document 1 discloses a gantry for arranging a plurality of batteries. Furthermore, patent document 2 is disclosing the container for batteries which considered the fire resistance of the battery.

Japanese Utility Model Publication No. 2-49065 JP 2001-229982 A

  In the configuration of the prior art, when a battery container containing a battery is caught in a fire, the resin parts may be melted or burnt down due to the high temperature accompanying the fire. When the outer wall of the battery container is a resin part, the battery inside may be exposed. Further, when the outer wall of the battery container is a metal part, there is a possibility that the internal resin part melts and the battery directly contacts the metal part forming the outer wall.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a power storage device excellent in fire resistance and a cabinet thereof.

  Another object of the present invention is to provide a power storage device that can maintain insulation between an internal battery and the outside even in the event of a fire, and a cabinet therefor.

  The present invention employs the following technical means to achieve the above object.

  According to the first aspect of the present invention, a metal container (5) for accommodating and supporting a plurality of battery modules (4) therein, and a metal container (5) disposed between the battery module and the container. And a protective member (7, 309) having fire resistance and electrical insulation.

  According to this configuration, the protective member having fire resistance and electrical insulation is provided in the metal container. The protection member is disposed between the battery module and the container in a state where the battery module is disposed in the container. For this reason, even after a fire, the exposure of the battery module is suppressed by the metal container. Further, the protective member suppresses deterioration of electrical insulation between the battery module and the metal container even after a fire.

  Note that the reference numerals in parentheses described in the claims and the above-described means indicate the correspondence with the specific means described in the embodiments described later as one aspect, and are technical terms of the present invention. It does not limit the range.

It is a perspective view which shows the electrical storage apparatus which concerns on 1st Embodiment to which this invention is applied. It is sectional drawing of the electrical storage apparatus of 1st Embodiment. It is sectional drawing of the electrical storage apparatus of 2nd Embodiment to which this invention is applied. It is sectional drawing of the electrical storage apparatus of 3rd Embodiment to which this invention is applied.

  A plurality of modes for carrying out the present invention will be described below with reference to the drawings. In each embodiment, parts corresponding to the matters described in the preceding embodiment may be denoted by the same reference numerals, and redundant description may be omitted. When only a part of the configuration is described in each mode, the other modes described above can be applied to the other parts of the configuration. Further, in the following embodiments, the correspondence corresponding to the matters corresponding to the matters described in the preceding embodiments is indicated by adding reference numerals that differ only by one hundred or more, and redundant description may be omitted. . Not only combinations of parts that clearly show that combinations are possible in each embodiment, but also combinations of the embodiments even if they are not explicitly stated unless there is a problem with the combination. Is also possible.

(First embodiment)
FIG. 1 shows an installed state of the power storage device 1 according to the first embodiment of the present invention. The power storage device 1 has a box shape. The power storage device 1 is installed in a relatively small consumer and is connected to a local power network in the consumer. The power storage device 1 is connected to a local power network through a power conversion device such as an inverter circuit. The power storage device 1 supplies power to the local power network and is charged from the local power network. The power storage device 1 has a power capacity suitable for a general electric power network in a general house or business office.

  The power storage device 1 can be installed indoors or outdoors. For example, the power storage device 1 can be installed outdoors. In the illustrated example, the power storage device 1 is installed outside the building 2. The power storage device 1 is installed on the ground 3 or the floor. When the building 2 encounters a fire with the power storage device 1 installed on the ground 3 or the floor, the bottom wall of the power storage device 1 is not easily affected by the heat from the fire. For this reason, there is a high possibility that the components at the bottom of the power storage device 1 are free from damage due to the heat of the fire. Therefore, it may be desirable to arrange the component for improving fire resistance at the bottom of the power storage device 1.

  The power storage device 1 includes a plurality of battery modules 4. Each battery module 4 is formed in a rectangular parallelepiped shape. The plurality of battery modules 4 have a shape that can be stacked in the vertical direction.

  The power storage device 1 includes a cabinet. The cabinet provides an outer wall of the power storage device 1. The cabinet can also be referred to as a case or rack for housing the batteries.

  The cabinet of the power storage device 1 includes a container 5 for accommodating and supporting a plurality of battery modules 4 therein. The container 5 is made of a conductive metal. The container 5 suppresses exposure of the battery module 4. The container 5 suppresses the exposure of the battery module 4 even when the power storage device 1 is exposed to a fire. The container 5 is a hollow box shape. The container 5 has a ventilation port 5 a on the back surface facing the building 2. The ventilation opening 5a can be provided with a metal mesh, a filter, or the like as necessary. The container 5 has a bottom wall 5b. The bottom wall 5b is parallel to the ground 3 or the floor surface.

  In the container 5, the plurality of battery modules 4 are stacked in the vertical direction. The container 5 can include an openable / closable door portion for taking in and out the battery module 4. The door portion is not shown. The battery module 4 can be replaced from the door portion. Instead of the door portion, the container 5 can be configured to be splittable in the vertical direction or the front-rear direction.

  The cabinet of the power storage device 1 includes a protective member 7 provided in the container 5. The protection member 7 is disposed between the position where the battery module 4 is to be installed in the container 5 and the wall surface of the container 5. The protection member is disposed between the battery module 4 and the container 5 in a state where the battery module 4 is disposed in the container 5.

  The protective member 7 has fire resistance and electrical insulation. The protection member 7 provides electrical insulation between the battery module 4 and the container 5. The protective member 7 suppresses deterioration of electrical insulation between the battery module 4 and the container 5 even after a fire. The protection member 7 is plate-shaped. Therefore, deterioration of electrical insulation is suppressed with a simple configuration. The protective member 7 can be provided by a ceramic plate-like member. It is desirable that the protective member 7 has a heat insulating property.

  The protection member 7 is disposed below the position where the battery module 4 is to be disposed. This configuration suppresses the contact between the dropped part and the container 5 even after the parts in the container 5 and / or the parts of the battery module 4 are damaged by the high temperature of the fire. As a result, deterioration of electrical insulation between the battery module 4 and the container 5 is suppressed even after a fire.

  The upper surface of the protection member 7 provides a mounting surface on which the battery module 4 is placed. The battery module 4 is directly placed on the protective member 7. This configuration contributes to positioning the battery module 4 on the protective member 7 even after a fire. For this reason, even after a fire, deterioration of the electrical insulation between the battery module 4 and the container 5 is suppressed.

  The protective member 7 is provided only on the bottom wall 5 b of the container 5. The protective member 7 covers only the inner surface of the bottom wall 5b. The protection member 7 covers substantially the entire inner surface of the bottom wall 5b. In this embodiment, the protective member 7 is provided only between the lowermost battery module 4 and the bottom wall 5 b of the container 5.

  The bottom wall 5b is closest to the ground 3 or the floor on which the power storage device 1 is installed. Even when exposed to fire, the bottom wall is relatively difficult to heat. For this reason, even in a fire, the protective member 7 can maintain its fire resistance and electrical insulation for a long period of time. This configuration is a simple configuration and suppresses deterioration of electrical insulation between the battery module 4 and the container 5 even after a fire.

  2 is a longitudinal sectional view taken along line II-II in FIG. In the figure, a state where the front wall surface of the container 5 is removed is shown.

  Each battery module 4 includes a plurality of battery cells 4a and a holding member 4b that holds the plurality of battery cells 4a. One battery cell 4a can be formed in a flat rectangle. The battery cell 4a is a secondary battery. For example, the battery cell 4a can be provided by a lithium ion battery.

  The plurality of battery cells 4a are stacked and held in a stacked state by a holding member 4b. The plurality of battery cells 4 a are connected in series or in parallel so that a pair of positive and negative poles are positioned on one battery module 4. The holding member 4b can be provided by a conductive metal such as iron or a resin material. According to this configuration, electrical insulation between the plurality of battery cells 4a and the container 5 is maintained even after a fire. For example, even if the holding member 4b may be damaged, the battery cell 4a stays in contact with the protective member 7.

  Furthermore, a plurality of power cables 6 connected to the battery module 4 are provided. The conductor of the cable 6 may be charged to the potential of the battery module 4. The plurality of cables 6 include cables for electrically connecting adjacent battery modules 4 in series or in parallel. These cables constitute an assembled battery by electrically connecting a plurality of battery modules 4.

  The plurality of cables 6 are accommodated in the container 5. The cable 6 is laid in the container 5. A part of the cable 6 is in contact with the inner surface of the container 5. The plurality of cables 6 are covered with a coating having fire resistance and heat resistance. The coating can be provided by refractory resin, glass fiber cloth, and the like. In this embodiment, all power cables 6 provided in the container 5 have a fireproof coating. In this configuration, the covering of the cable 6 remains even after a fire. For this reason, even after a fire, deterioration of electrical insulation due to the cable 6 is suppressed.

(Second Embodiment)
FIG. 3 shows a power storage device 201 according to the second embodiment. FIG. 3 shows a cross-section corresponding to FIG. Also in this embodiment, a metal container 5 is employed, and a protective member 7 is provided. Therefore, similarly to the above embodiment, the effect of suppressing the exposure of the battery module 4 and suppressing the deterioration of electrical insulation can be obtained.

  Further, in this embodiment, a gap 205 c is provided between the cable 206 and the container 5. The cable 206 is covered with a coating having fire resistance and heat resistance. The gap 205c prevents direct contact between the cable 206 and the container 5. As a result, even after a fire, deterioration of electrical insulation due to the cable 206 is suppressed.

(Third embodiment)
FIG. 4 shows a power storage device 301 according to the third embodiment. FIG. 4 shows a cross-section corresponding to FIG. Also in this embodiment, a metal container 5 is employed, and a protective member 7 is provided. Therefore, similarly to the above embodiment, the effect of suppressing the exposure of the battery module 4 and suppressing the deterioration of electrical insulation can be obtained.

  Furthermore, in this embodiment, the cabinet of the power storage device 301 further includes a support member 308 that supports the battery module 4 in the container 5 in addition to the above-described embodiment. The support member 308 is made of a conductive metal. The support member 308 is suspended from the upper part of the inner surface of the container 5. The support member 308 forms a rack in the container 5. The plurality of battery modules 4 are placed on and supported on the support member 308.

  In this embodiment, in addition to the protection member 7, a protection member 309 is further provided. The protection member 309 is provided between the support member 308 and the container 5. As a result, electrical conduction between the support member 308 and the container 5 is prevented. Therefore, even after a fire, deterioration of electrical insulation due to the support member 308 is suppressed.

  The protection member 7 of this embodiment does not provide a mounting surface for the battery module 4. However, the protection member 7 is provided under the battery module 7. Moreover, the protection member 7 covers almost the entire inner surface of the bottom wall 5b. Therefore, even if the components of the battery module 4 fall in the container 5, direct contact between the dropped components and the bottom wall 5b is avoided.

(Other embodiments)
The preferred embodiments of the present invention have been described above, but the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the spirit of the present invention. The structure of the said embodiment is an illustration to the last, Comprising: The scope of the present invention is not limited to the range of these description. The scope of the present invention is indicated by the description of the scope of claims, and further includes meanings equivalent to the description of the scope of claims and all modifications within the scope.

  For example, the container 5 can accommodate a battery control device for monitoring the voltage of the battery module 4 or the battery cell 4a and controlling the voltage. Further, in addition to the power cables 6 and 206, a signal cable for the control device may be provided with a coating having fire resistance and insulation.

  In the above embodiment, a plurality of battery cells are arranged in one battery module. Alternatively, one battery module may be provided by one battery cell.

  In the said embodiment, the protection member 7 was provided only on the bottom wall 5b. Alternatively, a protective member may be provided on the other inner surface of the container 5.

1, 201, 301 power storage device, 2 building, 3 ground,
4 battery module, 4a battery cell, 4b holding member,
5 container, 5a ventilation opening, 5b bottom wall, 205c gap,
6 cables, 206 cables,
7 Protection member, 308 Support member, 309 Protection member.

Claims (10)

A metal container (5) for accommodating and supporting a plurality of battery modules (4) therein;
A cabinet for a power storage device, comprising a protective member (7, 309) provided in the container and having fire resistance and electrical insulation disposed between the battery module and the container.   The said protective member (7,309) is plate shape, The cabinet of the electrical storage apparatus of Claim 1 characterized by the above-mentioned.   The said protection member (7) is arrange | positioned under the position where the said battery module should be arrange | positioned, The cabinet of the electrical storage apparatus of Claim 2 characterized by the above-mentioned.   The power storage device cabinet according to claim 3, wherein the upper surface of the protective member (7) provides a mounting surface for mounting the battery module.   The said protective member (7) is provided only on the bottom wall (5b) of the said container, The cabinet of the electrical storage apparatus in any one of Claims 1-4 characterized by the above-mentioned. And a support member (308) for supporting the battery module in the container.
The said protective member (7,309) is provided between the said supporting member and the said container, The cabinet of the electrical storage apparatus in any one of Claims 1-4 characterized by the above-mentioned. A cabinet (5, 7, 309) according to any of claims 1 to 6,
A power storage device comprising: a plurality of battery modules (4) housed in the container.   The power storage device according to claim 7, further comprising a power cable (6) housed in the container, covered with a coating having fire resistance and electrical insulation, and connected to the battery module. apparatus.   The power storage device according to claim 8, wherein a gap (205c) is provided between the cable and the container. The battery module is
A plurality of battery cells (4a);
The power storage device according to any one of claims 7 to 9, further comprising a holding member (4b) that holds the plurality of battery cells.

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