JP5989426B2 - Battery installation structure - Google Patents

Description

  Embodiments described herein relate generally to a battery installation structure.

  Conventionally, a battery such as an assembled battery in which a plurality of single cells are accommodated in a housing is known.

JP 2011-76936 A

  In this type of battery, for example, it is desirable that the installation work on the installation target is easy.

The battery installation structure of the embodiment includes an assembled battery and a fixing unit. The assembled battery has a first housing and a plurality of single cells housed in the first housing. The fixing portion has a plurality of hook-and-loop fasteners, and the assembled battery is fixed to an installation target using a combination of the hook-and-loop fasteners. The assembled battery has a terminal portion exposed from the first casing, the assembled battery is arranged in a plurality, and the terminal portions of the adjacent assembled batteries are connected by a conductive member. It was.

FIG. 1 is a perspective view of an example of a battery unit according to the first embodiment. FIG. 2 is a plan view of an example of the assembled battery according to the first embodiment. FIG. 3 is a bottom view of an example of the assembled battery according to the first embodiment. FIG. 4 is a perspective view of an example of a part of the battery unit according to the first embodiment. FIG. 5 is an exploded perspective view of an example of a part of the battery unit according to the first embodiment. FIG. 6 is a perspective view of an example of a part of the battery unit according to the second embodiment. FIG. 7 is a plan view of an example of a part of the battery unit shown in FIG. FIG. 8 is an arrow view of an example of a part of the battery unit viewed from the F8 direction in FIG. FIG. 9 is a perspective view of an example of a part of the battery unit according to the third embodiment. FIG. 10 is a plan view of an example of a part of the battery unit shown in FIG. FIG. 11 is a perspective view of an example of a part of the battery unit according to the fourth embodiment. FIG. 12 is an exploded perspective view of an example of a part of the battery unit according to the fourth embodiment. FIG. 13 is a perspective view of an example of a part of the battery unit according to the fifth embodiment. FIG. 14 is a plan view of an example of a part of the battery unit shown in FIG. FIG. 15 is a perspective view of an example of a part of the battery unit according to the sixth embodiment. FIG. 16 is a side view of an example of a fixture according to the sixth embodiment. FIG. 17 is a perspective view of an example of a part of the battery unit according to the seventh embodiment.

  The following exemplary embodiments include similar components. Therefore, below, the same code | symbol is attached | subjected to the same component, and the overlapping description is abbreviate | omitted. In each figure, directions (X direction, Y direction, Z direction) are shown for convenience of explanation. The X direction, the Y direction, and the Z direction are orthogonal to each other.

<First Embodiment>
In the present embodiment, as an example, as shown in FIG. 1, the battery unit A (power supply device) includes a plurality of assembled batteries 1 (battery modules) and a container 100 that houses the plurality of assembled batteries 1. I have. The assembled battery 1 is an example of a battery. As an example, the battery unit A can be used as a stationary power source such as a power source for a POS (point of sales) system.

  As an example, the storage 100 includes a housing 101 (second housing), a plurality of drawers 102 (first drawer) inserted into the housing 101, and a single drawer 103 inserted into the housing 101. (Second drawer). The battery pack 1 is installed in the drawer 102, and a management device (not shown) for monitoring charge / discharge control and voltage of the battery pack 1 is installed in the drawer 103.

  The housing 101 includes a main body 104 and a door 105 connected to the main body 104 so as to be opened and closed. The main body 104 has a substantially rectangular parallelepiped appearance that is relatively long in the vertical direction (height direction, Z direction).

  The main body 104 is provided with accommodating portions 104a and 104b. The drawer 102 is inserted in the housing portion 104a so that it can be pulled out, and the drawer 103 is inserted in the housing portion 104b so that it can be pulled out. As an example, a plurality of accommodating portions 104a are provided, and one accommodating portion 104b is provided. The accommodating part 104a is provided in a plurality of stages above and below, and the accommodating part 104b is provided above the plural accommodating parts 104a. The accommodating portions 104 a and 104 b are provided in a concave shape from the front surface 104 c of the main body 104 toward the rear surface of the main body 104. The drawers 102 and 103 are inserted into the accommodating portions 104a and 104b from the respective openings 104d and 104e of the accommodating portions 104a and 104b. The openings 104d and 104e are provided on the front surface 104c of the housing 101. The accommodating portions 104a and 104b support the drawers 102 and 103 so as to be slidable. For example, the insertion direction of the drawers 102 and 103 with respect to the housing portions 104a and 104b is the rear (X direction) in the front-rear direction of the housing 101, and the pulling direction of the drawer 102 with respect to the housing portions 104a and 104b is the housing 101. It is the front in the front-back direction.

  The door 105 is connected to the main body 104 by a hinge (not shown) so as to be rotatable between a position covering the front surface 104c of the main body 104 and a position opening the front surface 104c of the main body 104. The door 105 is provided with a ventilation portion 105a. The ventilation part 105a is provided corresponding to each of the upper and lower stages of the accommodating part 104a, and is provided corresponding to the accommodating part 104b. The ventilation part 105a is provided with a plurality of openings (ventilation holes). The ventilation part 105a communicates the inside and outside of the main body 104. Outside air flows into the main body 104 via the ventilation part 105a, and air inside the main body 104 flows out to the outside via the ventilation part 105a.

  As an example, the drawer 102 has a substantially rectangular parallelepiped appearance that is relatively long in the front-rear direction (depth direction, insertion direction of the drawer 102, X direction). The drawer 102 is provided with a recess 102c (housing portion, installation portion) that is recessed from the upper surface 102a toward the lower surface 102b. The assembled battery 1 is accommodated in the recess 102c.

  The drawer 102 has a quadrangular (for example, rectangular) bottom wall 102d and a rectangular annular peripheral wall 102e erected on the peripheral edge of the bottom wall 102d. The bottom wall 102d and the peripheral wall 102e constitute a recess 102c. The bottom wall 102d is provided with a placement surface 102f (surface, surface portion, upper surface, upper surface portion, placement portion, installation portion, installation object, see FIG. 4). The mounting surface 102f constitutes the upper surface of the bottom wall 102d and the bottom surface of the recess 102c. A plurality of assembled batteries 1 are mounted (fixed) on the mounting surface 102f. The peripheral wall 102e has a front wall 102g, a rear wall (not shown), and a pair of side walls 102h. The front wall 102g is provided at the front edge of the bottom wall 102d. The rear wall is provided at the rear edge of the bottom wall 102d. The pair of side walls 102h are provided at a pair of side edges of the bottom wall 102d. A handle 102i is provided on the front wall 102g, and an operator can open and close (slide) the drawer 102 by holding the handle 102i. The front wall 102g is provided with a ventilation portion 102j. For example, the ventilation portion 102j is provided below the handle 102j. The ventilation part 102j is provided with a plurality of openings (ventilation holes). The ventilation part 102j communicates the inside and outside of the drawer 102 (recessed part 102c). Accordingly, outside air flows into the drawer 102 through the ventilation portions 105a and 102j, and air in the drawer 102 flows out to the outside through the ventilation portions 102j and 105a.

  As shown in FIG. 1, the assembled battery 1 is provided in plural on the mounting surface 102 f (see FIG. 4) of the drawer 102 as an example along the insertion direction (X direction) of the drawer 102. ing. In the present embodiment, as an example, the plurality of assembled batteries 1 are electrically connected in series. In addition, the some assembled battery 1 may be electrically connected in parallel.

  As an example, the assembled battery 1 includes a plurality of single batteries 2 (single battery unit, single cell, battery cell, battery) electrically connected in series or in parallel as shown in FIG. And a housing 3 (a case, a casing, a housing, and a first housing) containing the battery 2. For example, the assembled battery 1 can be configured as a secondary battery (storage battery, rechargeable battery). In the present embodiment, the assembled battery 1 is installed in the storage 100 and constitutes a stationary battery unit A as described above, but may be installed in other various devices, machines, facilities, and the like. . For example, the assembled battery 1 is provided in a relatively small device such as a mobile phone, a personal computer, or a portable music player and used as a power source thereof, as well as an electric bicycle, a hybrid electric vehicle, an electric vehicle, etc. It is provided in a relatively large apparatus and used as a power source for them. Moreover, the number, arrangement | positioning, etc. of the cell 2 contained in the assembled battery 1 are not limited to what is disclosed by this embodiment. The assembled battery 1 can also include wiring for monitoring the voltage and temperature of the battery, a monitoring board, a control board for battery control, and the like.

  In the present embodiment, as an example, each of the single cells 2 can be configured as a lithium ion secondary battery. The unit cell 2 may be another secondary battery such as a nickel metal hydride battery, a nickel cadmium battery, or a lead storage battery. A lithium ion secondary battery is a kind of non-aqueous electrolyte secondary battery, and lithium ions in the electrolyte are responsible for electrical conduction. Examples of the positive electrode material include lithium manganese composite oxide, lithium nickel composite oxide, lithium cobalt composite oxide, lithium nickel cobalt composite oxide, lithium manganese cobalt composite oxide, spinel type lithium manganese nickel composite oxide, and olivine structure. As the negative electrode material, for example, an oxide-based material such as lithium titanate (LTO), a carbonaceous material, a silicon-based material, or the like is used. In addition, as an electrolyte (for example, an electrolytic solution), for example, a lithium salt such as a fluorine-based complex salt (for example, LiBF4, LiPF6) is blended, for example, ethylene carbonate, propylene carbonate, diethyl carbonate, ethyl methyl carbonate, dimethyl carbonate. These organic solvents are used alone or in combination.

  As an example, the housing 3 is relatively long in one direction (the Y direction, the arrangement direction of the single cells 2, the arrangement direction of the single cells 2, the overlapping direction of the single cells 2) as shown in FIGS. It has a rectangular parallelepiped appearance. The housing 3 has a shape having a height direction (Z direction), a short direction (X direction) orthogonal to the height direction, and a long direction (Y direction) orthogonal to the height direction and the short direction. Yes.

  The housing 3 includes, as an example, a lower surface 3a (surface, surface, surface portion, see FIG. 2), an upper surface 3b (surface, surface, surface portion, see FIG. 3), and a peripheral surface 3c (surface, surface, side surface, side surface, Spanning surface, surface portion, see FIG. 4). The lower surface 3a is an example of a first surface (first surface portion), the upper surface 3b is an example of a second surface (second surface portion), and the peripheral surface 3c is a third surface (third surface portion). ).

  The lower surface 3a has a relatively long rectangular shape in one direction (Y direction, arrangement direction of the single cells 2, arrangement direction of the single cells 2, and overlapping direction of the single cells 2). Therefore, the lower surface 3a has a shape having a short side direction (X direction) and a long side direction (Y direction). The lower surface 3a faces the mounting surface 102f (installation target) (facing or facing).

  The upper surface 3b is a surface opposite to the lower surface 3a. The upper surface 3b has a rectangular shape that is relatively long in one direction (the Y direction, the arrangement direction of the single cells 2, the arrangement direction of the single cells 2, and the overlapping direction of the single cells 2). Therefore, the upper surface 3b has a shape having a short side direction (X direction) and a long side direction (Y direction).

  The peripheral surface 3c is provided over the lower surface 3a and the upper surface 3b, and connects the lower surface 3a and the upper surface 3b. The peripheral surface 3c has four surfaces 3c1 to 3c4.

  The surfaces 3c1 and 3c3 are provided at the end portions 3d and 3f of the housing 3 in the short direction (X direction) of the lower surface 3a. In other words, the surfaces 3c1 and 3c3 are provided at the end portions 3d and 3f of the housing 3 in the direction in which the plurality of assembled batteries 1 are arranged (the direction in which the drawer 102 is inserted). The surface 3c1 is provided at the end 3d on the rear side in the insertion direction of the drawer 102 (the front side in the front-rear direction of the housing 3) of the ends 3d and 3f. The surface 3c3 is provided at an end 3f on the front side in the insertion direction of the drawer 102 (the rear side in the front-rear direction of the housing 3) of the ends 3d and 3f. The surface 3c3 is a surface on the opposite side of the surface 3c1 in the housing 3. The surfaces 3c1 and 3c3 are substantially planar and are along the YZ plane. The surfaces 3c1 and 3c3 are substantially parallel to each other.

  The surfaces 3c2 and 3c4 are provided at end portions 3e and 3g of the housing 3 in the longitudinal direction (Y direction) of the lower surface 3a. In other words, the surfaces 3c2 and 3c4 are the end portions 3e and 3e of the housing 3 in the width direction (Y direction) of the housing 3 orthogonal to the arrangement direction of the plurality of assembled batteries 1 (insertion direction of the drawer 102). 3g. The surface 3c2 is provided at one end 3e of the ends 3e and 3g, and the surface 3c4 is provided at the other end 3g of the ends 3e and 3g. The surface 3c4 is a surface on the opposite side of the surface 3c2 in the housing 3. The surfaces 3c2 and 3c4 are substantially planar and are along the XZ plane. The surfaces 3c2 and 3c4 are substantially parallel to each other.

  Moreover, the housing | casing 3 has the bottom wall 3h (wall, wall part) which has the lower surface 3a, and the upper wall 3i (wall, wall part) which has the upper surface 3b. The bottom wall 3h and the top wall 3i have a rectangular shape (in the present embodiment, a rectangular shape as an example). Moreover, the housing | casing 3 has the surrounding wall 3j which has the surrounding surface 3c. The peripheral wall 3j includes a wall 3j1 having a surface 3c1, a wall 3j2 having a surface 3c2, a wall 3j3 having a surface 3c3, and a wall 3j4 having a surface 3c4. The housing 3 can be configured as a combination of a plurality of members. For example, the housing 3 may be configured to include a first member including a bottom wall 3h and a peripheral wall 3j and a second member including an upper wall 3i. In this case, the first member and the second member are coupled to each other by means such as welding, adhesion, and screwing.

  The casing 3 is made of, for example, an insulating synthetic resin material (for example, modified PPE (polyphenylene ether), PFA (perfluoroalkoxyalkane, tetrafluoroethylene / perfluoroalkyl vinyl ether copolymer), etc.). Composed. Further, as the synthetic resin material of the housing 3, a thermoplastic resin can be used. For example, olefin resin such as PE, PP, and PMP, polyester resin such as PET, PBT, and PEN, POM resin, PA6, and the like. Polyamide resins such as PA66, PA12, crystalline resins such as PPS resin, LCP resin and their alloy resins, or PS, PC, PC / ABS, ABS, AS, modified PPE, PES, PEI, PSF, etc. Non-crystalline resins and their alloy resins can be used. In addition, the housing | casing 3 may be comprised with the metal material as another example. In this case, an insulating film is preferably provided on the surface of the metal material.

  The assembled battery 1 has terminal portions 4 and 5. In the present embodiment, as an example, the terminal portion 4 is a positive electrode terminal portion, and the terminal portion 5 is a negative electrode terminal portion. The terminal part 4 is electrically connected to the positive terminal part of the unit cell 2, and the terminal part 5 is electrically connected to the negative terminal part of the unit cell 2. In addition, the terminal part 4 may be a negative electrode terminal part, and the terminal part 5 may be a positive electrode terminal part. The terminal portions 4 and 5 are exposed from the housing 3. The terminal portions 4 and 5 protrude from the housing 3. As an example, the terminal portions 4 and 5 penetrate the upper surface 3 b (upper wall 3 i) of the housing 3. The terminal portions 4 and 5 are provided close to the end portion 3 e of the housing 3. The terminal portions 4 and 5 are exposed from the upper surface 3b at a position close to the surface 3c2 among the surfaces 3c2 and 3c4 of the housing 3. The terminal portions 4 and 5 are located at a distance from each other in the short direction (X direction) of the lower surface 3a. The terminal portions 4 and 5 are made of, for example, a conductive metal material.

  As an example, the terminal parts 4 and 5 of the adjacent assembled battery 1 are connected (joined, coupled, fixed, electrically connected) by a bus bar 6 (conductive member) as shown in FIG. In FIG. 1, two assembled batteries 1 are shown as an example, and the terminal portion 5 of the assembled battery 1 on the rear side in the insertion direction of the drawer 102 and the terminal portion of the assembled battery 1 on the front side in the insertion direction of the drawer 102. 4 are connected by a bus bar 6. For example, the bus bar 6 is made of a conductive metal material. As an example, the bus bar 6 has a strip shape (strip shape, flat plate shape) as shown in FIG. The bus bar 6 may have a bent shape, for example. The bus bar 6 is provided with holes 6 a (fitting portions, fitting holes) at both ends in the longitudinal direction of the bus bar 6. The terminal portion 4 or the terminal portion 5 can be inserted into the hole 6a. The bus bar 6 is fitted to the terminal portions 4 and 5 inserted into the hole 6a and the peripheral surface of the hole 6a. In the present embodiment, the bus bar 6 is spanned between the adjacent assembled batteries 1 so that the longitudinal direction of the bus bar 6 is along the insertion direction of the drawer 102 (short direction of the lower surface 3a). As an example, the bus bar 6 and the terminal portions 4 and 5 are joined (coupled, fixed, connected, electrically connected) by fitting or the like, but are not limited thereto. For example, the bus bar 6 and the terminal portions 4 and 5 may be joined by welding or screwing. In the present embodiment, as an example, among the plurality of assembled batteries 1, the terminal portion 4 of the assembled battery 1 located on the rearmost side (the front side in FIG. 1) in the insertion direction of the drawer 102 and the plurality of assembled batteries 1. Among them, the terminal portion 5 of the assembled battery 1 located on the foremost side (the back side in FIG. 1) in the insertion direction of the drawer 102 is electrically connected to the management device.

  In the present embodiment, as an example, the assembled battery 1 is fixed to the mounting surface 102f by the fixing unit 10, as shown in FIGS. The fixed part 10 constitutes a battery installation structure 200 together with the assembled battery 1 and the storage 100.

  The fixing | fixed part 10 has the some surface fastener 11, and is fixing the assembled battery 1 to the mounting surface 102f using the coupling | bonding of the surface fasteners 11 mutually. In the present embodiment, as an example, the plurality of surface fasteners 11 include a surface fastener 11A and a surface fastener 11B. In the present embodiment, the surface fastener 11A is an example of a first surface fastener, and the surface fastener 11B is an example of a second surface fastener.

  Each surface fastener 11 has flexibility (softness, elasticity) and cushioning properties. Each surface fastener 11 has a substantially strip shape (strip shape). Each surface fastener 11 includes a base portion 11a (base surface, base material portion), an engagement portion 11b (engagement surface, system attachment portion, system attachment surface, coupling portion, coupling surface, hooking portion, hooking surface), have. The engaging portion 11 b is located on the opposite side of the base portion 11 a in the surface fastener 11. The engaging part 11b extends from the base part 11a. In the drawing, the base portion 11a and the engaging portion 11b are schematically shown. The engaging portion 11b includes a plurality of hook members or hook members on which the hook members are detachably engaged (hooked). In this embodiment, the engaging portion 11b of the hook and loop fastener 11A has one of a hook member and a hook member, and the engaging portion 11b of the hook and loop fastener 11B has the other of the hook member and the hook member. Have. That is, when the engaging portion 11b of the hook and loop fastener 11A has a hook member, the engaging portion 11b of the hook and loop fastener 11B has a hook member, and when the engaging portion 11b of the hook and loop fastener 11A has a hook member. The engaging portion 11b of the surface fastener 11B has a hook member. The surface fasteners 11 </ b> A and 11 </ b> B can be coupled to each other by the engaging portions 11 b. The surface fasteners 11A and 11B are detachable from each other. In the surface fastener 11, it is affixed (attached) to the attachment target (fixation target) of the surface fastener 11 such as the housing 3 and the mounting surface 102f by a fixing means such as a double-sided adhesive tape or an adhesive. . In addition, the coupling | bonding of the surface fastener 11 of subsequent embodiment is also made by engagement with the hook member of the engaging part 11b of one surface fastener, and the hook member of the other surface fastener 11. FIG. Moreover, when there is no special description, the surface fastener 11 of subsequent embodiment is affixed on the attachment object (fixation object), for example by fixing means, such as a double-sided adhesive tape and an adhesive agent.

  The surface fastener 11A is provided on the lower surface 3a of the housing 3 as shown in FIGS. A plurality of surface fasteners 11A are provided at intervals. The plurality of surface fasteners 11A are provided at intervals in the longitudinal direction (Y direction) of the lower surface 3a.

  As shown in FIGS. 4 and 5, the surface fastener 11 </ b> B is provided on the mounting surface 102 f below the lower surface 3 a of the housing 3 and is coupled to the surface fastener 11 </ b> A. In other words, the surface fastener 11B is provided in a region 3k (see FIG. 5) facing the lower surface 3a of the mounting surface 102f, and the engaging portion 11b of the surface fastener 11B is engaged with the engaging portion of the surface fastener 11A. 11b is engaged. A plurality of surface fasteners 11B are provided corresponding to the plurality of surface fasteners 11A. That is, a plurality of surface fasteners 11B are provided with a space therebetween. The plurality of surface fasteners 11B are provided at intervals in the longitudinal direction (Y direction) of the lower surface 3a.

  Next, an example of a procedure for installing the assembled battery 1 on the mounting surface 102f will be described. In the process of placing the assembled battery 1 on the mounting surface 102f, the operator puts the surface fastener 11A on the surface fastener 11B and connects (engages) the surface fasteners 11A and 11B. The assembled battery 1 is fixed to the mounting surface 102f by the coupling of the surface fastener 11A and the surface fastener 11B, and the assembled battery 1 is mounted on the mounting surface 102f via the surface fastener 11A and the surface fastener 11B. After fixing each assembled battery 1 at a predetermined position, the operator connects the terminal portions 4 and 5 of the adjacent assembled batteries 1 by the bus bar 6. Here, the outer shape of the region 3k facing the lower surface 3a on the mounting surface 102f may be represented by a line or the like. Thereby, it becomes easy to understand the target position where the assembled battery 1 is placed.

  As described above, the battery installation structure 200 of the present embodiment includes the assembled battery 1 (battery) and the fixed portion 10. And the fixing | fixed part 10 has the some surface fastener 11 (surface fastener 11A, 11B), and is fixing the assembled battery 1 to the mounting surface 102f using the coupling | bonding of the surface fasteners 11 mutually. Therefore, according to the present embodiment, as an example, the installation work of the assembled battery 1 on the placement surface 102f is relatively easy. Moreover, in this embodiment, in order to fix the assembled battery 1 to the mounting surface 102f as an example, since it is not necessary to provide an opening such as a screw hole on the assembled battery 1 side, the assembled battery 1 is mounted on the mounting surface 102f. There is no need to change the configuration of the assembled battery 1 (housing 3) for fixing.

  In the present embodiment, the surface fastener 11A is provided on the lower surface 3a of the housing 3, and the surface fastener 11B is provided on the placement surface 102f below the lower surface 3a. Therefore, according to the present embodiment, as an example, an operator places the assembled battery 1 with respect to the hook-and-loop fastener 11B so that the hook-and-loop fasteners 11A and 11B are coupled to each other, and the assembled battery 1 is fixed to the placement surface 102f. Therefore, the installation work of the assembled battery 1 on the mounting surface 102f is relatively easy.

  In the present embodiment, the assembled battery 1 is provided in a plurality along the mounting surface 102f along the insertion direction (X direction) of the drawer 102, and the terminal portions 4 and 5 of the adjacent assembled batteries 1 are Connected by bus bar 6. The surface fastener 11A is provided on the lower surface 3a of the housing 3, and the surface fastener 11B is provided on the mounting surface 102f below the lower surface 3a and is coupled to the surface fastener 11A2. Therefore, according to the present embodiment, as an example, the hook-and-loop fasteners 11A and 11B are positioned below the assembled battery 1 and are not positioned between the assembled batteries 1, so that the interval between the adjacent assembled batteries 1 is relatively long. Can be narrowed. Therefore, according to the present embodiment, as an example, the installation space of the plurality of assembled batteries 1 can be made relatively small, and the length of the bus bar 6 can be made relatively short.

  In the present embodiment, a plurality of hook-and-loop fasteners 11A are provided at intervals, and a plurality of hook-and-loop fasteners 11B are provided corresponding to the plurality of hook-and-loop fasteners 11A. Therefore, according to this embodiment, as an example, the assembled battery 1 can be fixed to the mounting surface 102f relatively firmly.

<Second Embodiment>
In the present embodiment, the surface fastener 11 is different from that of the first embodiment. The plurality of surface fasteners 11 of the present embodiment include, as an example, surface fasteners 11C, 11D, and 11E as shown in FIGS. In the present embodiment, the surface fastener 11C is an example of a first surface fastener, the surface fastener 11D is an example of a second surface fastener, and the surface fastener 11E is an example of a third surface fastener.

  The surface fastener 11 </ b> C is provided on the peripheral surface 3 c (third surface) of the housing 3. The surface fasteners 11C are provided on the surface 3c1 and the surface 3c3, respectively. A plurality (two in this embodiment) of the surface fasteners 11C are provided on each of the surfaces 3c1 and 3c3 at intervals in the longitudinal direction of the lower surface 3a. As an example, the surface fastener 11C provided on the surface 3c1 and the surface fastener 11C provided on the surface 3c3 are provided in plane symmetry with respect to the YZ plane passing through the center of the housing 3 in the short direction (X direction). . In the present embodiment, the surface 3c1 is an example of a fourth surface, and the surface 3c3 is an example of a fifth surface. Further, the surface 3c1 and the surface 3c3 are the end portions 3d and 3f of the housing 3 in the short direction (X direction) of the lower surface 3a and the end portion 3e of the housing 3 in the longitudinal direction (Y direction) of the lower surface 3a. , 3g (in this embodiment, the end portions 3d, 3f) is an example of a surface provided.

  The surface fastener 11D is provided outside the region 3k facing the lower surface 3a (first surface) of the placement surface 102f. As an example, one surface fastener 11D is provided (corresponding to) each surface fastener 11C. As an example, the surface fastener 11D has the same position (coordinate position) in the longitudinal direction (Y direction) of the lower surface 3a as the corresponding surface fastener 11C. The surface fastener 11D is provided at a position facing the surface 3c1 or 3c3 (with an end portion). The surface fastener 11D is provided in the vicinity of the corresponding surface fastener 11C. The distance in the short direction (X direction) of the housing 3 between the surface fastener 11D located on the surface 3c1 side of the housing 3 and the surface fastener 11C located on the surface 3c3 side of the housing 3 is the surface fastener. It is longer than the length of the portion of the housing 3 located between 11C. That is, the hook-and-loop fastener 11C is in a state of being separated from the housing 3 when the housing 3 is placed at the normal position.

  The surface fastener 11E is coupled to the surface fastener 11C and the surface fastener 11D. The surface fastener 11E is located on the surface 3c1 side and the surface 3c3 side of the housing 3. The surface fastener 11E has a strip shape longer than the surface fasteners 11C and 11D. As an example, the surface fastener 11E is bent at a substantially central portion in the longitudinal direction of the surface fastener 11E and is provided in a substantially L-shaped state. The surface fastener 11E includes a bent portion 11c and first and second portions 11d and 11e connected to each other by the bent portion 11c. The first portion 11d is coupled to the hook-and-loop fastener 11C and overlaps the housing 3 via the hook-and-loop fastener 11C. The second portion 11e is coupled to the surface fastener 11D and overlaps the placement surface 102f via the surface fastener 11D.

  Next, an example of a procedure for installing the assembled battery 1 on the mounting surface 102f will be described. First, the operator places each assembled battery 1 at a predetermined position on the mounting surface 102f. Next, the operator secures the bus bar 6 to the terminal portions 4 and 5 of the assembled battery 1 and connects the terminal portions 4 and 5 of the adjacent assembled battery 1 to each other by the bus bar 6. Next, the operator overlaps the surface fasteners 11C and 11D with the surface fasteners 11E, and couples the surface fasteners 11C and 11D and the surface fasteners 11E. The assembled battery 1 is fixed to the mounting surface 102f by the coupling of the surface fasteners 11C and 11D and the surface fastener 11E. In addition, the operator temporarily fixes the bus bar 6 to the terminal portions 4 and 5 of the assembled battery 1 before joining the hook and loop fasteners 11C and 11D and the hook and loop fastener 11E, and the hook and loop fasteners 11C and 11C, 11D and the hook-and-loop fastener 11E may be combined, and then the bus bar 6 may be permanently fixed. Here, since the hook and loop fastener 11 has flexibility, as described above, the bus bar 6 is permanently fixed to the terminal portions 4 and 5 or temporarily mounted before the hook and loop fasteners 11C and 11D and the hook and loop fastener 11E are coupled. By stopping, it is possible to absorb the shape error of the bus bar 6 and the assembled battery 1 by adjusting the position of the assembled battery 1. Thereby, it is suppressed that an abnormal external force acts on the bus bar 6.

  As described above, in the present embodiment, the fixing portion 10 has a plurality of surface fasteners 11 (surface fasteners 11C, 11D, and 11E), and the assembled battery 1 is placed on the mounting surface 102f using the coupling of the surface fasteners 11 to each other. It is fixed to. Therefore, also in this embodiment, as in the first embodiment, as an example, the installation work of the assembled battery 1 on the placement surface 102f is relatively easy.

  Further, in the present embodiment, the surface fastener 11C is provided on the peripheral surface 3c, the surface fastener 11D is provided outside the region 3k facing the lower surface 3a on the mounting surface 102f, and the surface fastener 11E is provided with the surface fasteners 11C and 11D. Are connected. Therefore, according to the present embodiment, as an example, the joining operation of the hook-and-loop fasteners 11 is relatively easy.

<Third Embodiment>
In the present embodiment, the positions of the hook and loop fasteners 11C, 11D, and 11E are different from those of the second embodiment.

  In the present embodiment, as an example, as shown in FIGS. 9 and 10, the hook-and-loop fastener 11 </ b> C is provided on each of the surfaces 3 c 2 and 3 c 4 of the peripheral surface 3 c (third surface) of the housing 3. As an example, one surface fastener 11C is provided on each of the surfaces 3c2 and 3c4. As an example, the surface fastener 11C provided on the surface 3c2 and the surface fastener 11C provided on the surface 3c4 are provided in plane symmetry with respect to the XZ plane passing through the center in the longitudinal direction (Y direction) of the housing 3. In the present embodiment, the surface 3c2 is an example of a fourth surface, and the surface 3c4 is an example of a fifth surface. Further, the surface 3c2 and the surface 3c4 are the end portions 3d and 3f of the housing 3 in the short direction (X direction) of the lower surface 3a and the end portion 3e of the housing 3 in the longitudinal direction (Y direction) of the lower surface 3a. , 3g (in this embodiment, the end portions 3e, 3g) is an example of a surface provided.

  The surface fastener 11D is provided outside the region 3k facing the lower surface 3a (first surface) of the placement surface 102f. As an example, one surface fastener 11D is provided (corresponding to) each surface fastener 11C. As an example, the surface fastener 11D has the same position (coordinate position) in the short direction (X direction) of the lower surface 3a as the corresponding surface fastener 11C. The surface fastener 11D is provided at a position facing the surface 3c2 or 3c4 (with an end portion). The surface fastener 11D is provided in the vicinity of the corresponding surface fastener 11C. The distance in the longitudinal direction (Y direction) of the housing 3 between the surface fastener 11D located on the surface 3c2 side of the housing 3 and the surface fastener 11C located on the surface 3c4 side of the housing 3 is the surface fastener 11C. It is longer than the length of the part of the housing 3 located between them. That is, the hook-and-loop fastener 11C is in a state of being separated from the housing 3 when the housing 3 is placed at the normal position.

  The surface fastener 11E is coupled to the surface fastener 11C and the surface fastener 11D. The surface fastener 11E is located on the surface 3c2 side and the surface 3c4 side of the housing 3. The procedure for installing the assembled battery 1 on the mounting surface 102f is the same as that of the second embodiment as an example.

  As described above, in the present embodiment, the fixing portion 10 has a plurality of surface fasteners 11 (surface fasteners 11C, 11D, and 11E), and the assembled battery 1 is placed on the mounting surface 102f using the coupling of the surface fasteners 11 to each other. It is fixed to. Therefore, also in this embodiment, as in the first and second embodiments, as an example, the installation work of the assembled battery 1 on the mounting surface 102f is relatively easy.

  Further, in the present embodiment, the surface fastener 11C is provided on the peripheral surface 3c, the surface fastener 11D is provided outside the region 3k facing the lower surface 3a on the mounting surface 102f, and the surface fastener 11E is provided with the surface fasteners 11C and 11D. Are connected. Therefore, according to the present embodiment, as an example, the same effects as those of the second embodiment can be achieved.

<Fourth Embodiment>
In the present embodiment, the surface fastener 11 is different from the first and second embodiments. As shown in FIGS. 11 and 12, the plurality of surface fasteners 11 according to the present embodiment include surface fasteners 11 </ b> A, 11 </ b> B, 11 </ b> C, 11 </ b> D, and 11 </ b> E as an example. In the present embodiment, the surface fastener 11A is an example of a first surface fastener, the surface fastener 11B is an example of a second surface fastener, the surface fastener 11C is an example of a third surface fastener, and the surface fastener 11D. Is an example of a fourth hook-and-loop fastener, and hook-and-loop fastener 11E is an example of a fifth hook-and-loop fastener.

  Also in this embodiment, the terminal portions 4 and 5 are brought close to the surface 3c2 (one side) of the surface 3c2 and the surface 3c4 as in the above-described embodiment. The surface fasteners 11A and 11B are brought close to the surface 3c4 (the other) among the surfaces 3c2 and 3c4. The surface fastener 11C is provided on the surface 3c2 (one side) of the surface 3c2 and the surface 3c4, and the surface fasteners 11C, 11D, and 11E are the surface 3c2 (one side) of the surface 3c2 and the surface 3c4. It is sent to. As another example, the terminal portions 4 and 5 are brought close to the surface 3c4 (one side) of the surface 3c2 and the surface 3c4, and the surface fasteners 11A and 11B are surface 3c2 of the surface 3c2 and the surface 3c4 ( The surface fastener 11C may be provided on the surface 3c4 (the other) of the surface 3c2 and the surface 3c4. In the present embodiment, the surface 3c2 is an example of a fourth surface, and the surface 3c4 is an example of a fifth surface.

  In the present embodiment, a spacer 12 is provided on the lower surface 3 a of the housing 3. The spacer 12 is brought close to the surface 3c2 (one side) out of the surface 3c2 and the surface 3c4. The spacer 12 has a rectangular plate shape as an example. The spacer 12 is in contact with the placement surface 102f.

  Next, an example of a procedure for installing the assembled battery 1 on the mounting surface 102f will be described. In the process of placing the assembled battery 1 on the mounting surface 102f, the operator puts the surface fastener 11A on the surface fastener 11B and connects (engages) the surface fasteners 11A and 11B. Next, the operator secures the bus bar 6 to the terminal portions 4 and 5 of the assembled battery 1 and connects the terminal portions 4 and 5 of the adjacent assembled battery 1 to each other by the bus bar 6. Next, the operator overlaps the surface fasteners 11C and 11D with the surface fasteners 11E, and couples the surface fasteners 11C and 11D and the surface fasteners 11E. As described above, the assembled battery 1 is fixed to the placement surface 102f by the coupling between the surface fastener 11A and the surface fastener 11B and the coupling between the surface fasteners 11C and 11D and the surface fastener 11E. In addition, the operator temporarily fixes the bus bar 6 to the terminal portions 4 and 5 of the assembled battery 1 before joining the hook and loop fasteners 11C and 11D and the hook and loop fastener 11E, and the hook and loop fasteners 11C and 11C, 11D and the hook-and-loop fastener 11E may be combined, and then the bus bar 6 may be permanently fixed. Here, since the hook and loop fastener 11 has flexibility, as described above, the bus bar 6 is permanently fixed to the terminal portions 4 and 5 or temporarily mounted before the hook and loop fasteners 11C and 11D and the hook and loop fastener 11E are coupled. By stopping, the assembled battery 1 can be rotated about the hook-and-loop fasteners 11A and 11B as fulcrums, so that the shape error of the bus bar 6 and the assembled battery 1 can be absorbed by adjusting the position of the assembled battery 1. . Thereby, it is suppressed that an abnormal external force acts on the bus bar 6.

  As described above, in the present embodiment, the fixing portion 10 has a plurality of surface fasteners 11 (surface fasteners 11A, 11B, 11C, 11D, and 11E), and the assembled battery 1 is connected using the connection between the surface fasteners 11. It is fixed to the mounting surface 102f. Therefore, also in this embodiment, as in the first embodiment, as an example, the installation work of the assembled battery 1 on the placement surface 102f is relatively easy.

  Further, in the present embodiment, the surface fastener 11A is provided on the lower surface 3a, and the surface fastener 11B is provided on the mounting surface 102f below the lower surface 3a, and is coupled to the surface fastener 11A. Further, the surface fastener 11C is provided on the peripheral surface 3c, the surface fastener 11D is provided outside the region 3k facing the lower surface 3a on the mounting surface 102f, and the surface fastener 11E is coupled to the surface fasteners 11C and 11D. . Therefore, according to the present embodiment, as an example, the shape error of the bus bar 6 and the assembled battery 1 can be absorbed by the position adjustment of the assembled battery 1, and an abnormal external force acting on the bus bar 6 can be suppressed. .

<Fifth Embodiment>
In the present embodiment, the surface fastener 11 is different from the second embodiment. As shown in FIGS. 13 and 14, the plurality of hook-and-loop fasteners 11 of the present embodiment include hook-and-loop fasteners 11 </ b> C and 11 </ b> F as an example. In the present embodiment, the surface fastener 11C is an example of a first surface fastener, and the surface fastener 11F is an example of a second surface fastener.

  The attachment position of the surface fastener 11C is the same as that of the second embodiment, and is provided on the surface 3c1 and the surface 3c3 of the peripheral surface 3c (third surface) of the housing 3, respectively.

  The surface fastener 11F is fixed to the outside of the region 3k facing the lower surface 3a (first surface) on the mounting surface 102f by a screw 13 (male screw member, coupler), and is coupled to the surface fastener 11C. As an example, one surface fastener 11F is provided (corresponding to) each surface fastener 11C. The surface fastener 11F is located on the surface 3c1 side and the surface 3c3 side of the housing 3.

  The surface fastener 11F has a strip shape longer than the surface fastener 11C. As an example, the surface fastener 11F is bent in a substantially central portion in the longitudinal direction of the surface fastener 11F and provided in a substantially L-shaped state, similarly to the surface fastener 11E. The surface fastener 11F includes a bent portion 11c and first and second portions 11d and 11e connected to each other by the bent portion 11c. The first portion 11d is coupled to the hook-and-loop fastener 11C and overlaps the housing 3 via the hook-and-loop fastener 11C. The second portion 11e is fixed to the mounting surface 102f (bottom wall 102d) by the screw 13 in a state of being superimposed on the mounting surface 102f. The second portion 11e is provided with an insertion hole 11f (hole, opening, opening) through which the screw 13 is inserted. The insertion hole 11f is a long hole whose longitudinal direction is the direction in which the assembled batteries 1 are arranged (X direction). The screw 13 is connected to the female screw portion provided in the bottom wall 3h while being inserted into the insertion hole 11f, and fixes the surface fastener 11E to the placement surface 102f (bottom wall 102d). As an example, in a state where the screw 13 is inserted into the insertion hole 11f and coupled to the female screw portion and the surface fastener 11F is not fixed (the screw 13 is loosened), the surface fastener 11F is connected to the screw 13. It is possible to move with respect to.

  Next, an example of a procedure for installing the assembled battery 1 on the mounting surface 102f will be described. First, the operator places each assembled battery 1 at a predetermined position on the mounting surface 102f. Next, the operator overlaps the surface fastener 11F with the surface fastener 11C to couple the surface fastener 11C and the surface fastener 11F. Next, the operator inserts the screw 13 into the insertion hole 11f of the surface fastener 11F, and temporarily fixes (temporarily tightens) the screw 13 to the bottom wall 3h. At this time, the hook and loop fastener 11 </ b> F is movable with respect to the screw 13. Next, an operator adjusts the position of the assembled battery 1 so that an abnormal external force does not act on the bus bar 6, and finally fixes the bus bar 6 to the terminal portions 4, 5 of the assembled battery 1, so that the adjacent assembled battery 1 terminal portions 4 and 5 are connected to each other by a bus bar 6. Next, the operator permanently secures (fastens) the screw 13 and fixes the surface fastener 11F to the placement surface 102f (bottom wall 102d). Thereby, the assembled battery 1 is fixed to the mounting surface 102f. Note that after the operator fastens the bus bar 6, the operator overlaps the surface fastener 11 </ b> F with the surface fastener 11 </ b> C to couple the surface fastener 11 </ b> C and the surface fastener 11 </ b> F, and the surface fastener 11 </ b> F is fixed to the mounting surface 102 f with the screw 13. May be. At this time, the relative positional relationship between the surface fastener 11F and the screw 13 can be adjusted because the insertion hole 11f is a long hole. Therefore, the operator can adjust the position of the assembled battery 1 so that an abnormal external force does not act on the bus bar 6. Even when the insertion hole 11f is not a long hole, the position of the bent portion 11c of the surface fastener 11C is adjusted by the flexibility of the surface fastener 11F, so that an abnormal external force does not act on the bus bar 6. The position can be adjusted.

  As described above, in the present embodiment, the fixing unit 10 has a plurality of surface fasteners 11 (surface fasteners 11C and 11F), and the assembled battery 1 is fixed to the mounting surface 102f using the connection between the surface fasteners 11. doing. Therefore, also in this embodiment, as in the first embodiment, as an example, the installation work of the assembled battery 1 on the placement surface 102f is relatively easy.

  In the present embodiment, the surface fastener 11F is fixed to the mounting surface 102f by the screw 13. Therefore, according to the present embodiment, as an example, the surface fastener 11F can be fixed to the placement surface 102f relatively firmly.

  Note that a substantially L-shaped plate member (reinforcing member, skeleton member) may be fixed to the hook-and-loop fastener 11F inside the bend of the hook-and-loop fastener 11F. Thereby, the assembled battery 1 can be fixed to the mounting surface 102f relatively firmly while suppressing the deformation of the surface fastener 11F. At this time, it is preferable to provide an insertion hole (long hole) through which the screw 13 is inserted in the plate member. Thereby, the surface fastener 11F and the plate member and the screw 13 can be relatively moved.

<Sixth Embodiment>
In this embodiment, the fixing | fixed part 10 differs with respect to 1st Embodiment. The fixing | fixed part 10 is provided with the fixing tool 14, as FIG. 15 shows. Further, as an example, the plurality of surface fasteners 11 of the present embodiment include surface fasteners 11D, 11G, 11H, and 11I as shown in FIG. In the present embodiment, the surface fastener 11G is an example of a first surface fastener, the surface fastener 11D is an example of a second surface fastener, the surface fastener 11H is an example of a third surface fastener, and the surface fastener. 11I is an example of a fourth surface fastener.

  As an example, as shown in FIG. 15, a plurality of (two in the present embodiment) fixing tools 14 are provided at intervals in the longitudinal direction (Y direction) of the lower surface 3 a. Each fixing tool 14 is provided over both sides of the assembled battery 1 in the arrangement direction (X direction) of the plurality of assembled batteries 1. The fixture 14 is provided across the assembled battery 1 in the insertion direction (X direction) of the drawer 102.

  As shown in FIGS. 15 and 16, the fixture 14 includes a pair of plate portions 14b (wall portion, first portion) provided at a distance from each other and an upper end portion (end portion) of the pair of plate portions 14b. ) The plate portion 14a (wall portion, second portion) connected to each other, and the plate portion 14c (plate portion, third portion) provided on each of the lower end portions (end portions) of the pair of plate portions 14b, Have. A pair of board part 14b is provided in the transversal direction (short direction of the lower surface 3a, X direction) of the housing | casing 3 at intervals. The distance between the pair of plate portions 14b is equal to or greater than the width (length) of the casing 3 in the short direction. The plate portion 14a is located above the upper surface 3b of the housing and is separated from the upper surface 3b. The pair of plate portions 14c extends substantially horizontally (along the mounting surface 102f) from the pair of plate portions 14b in directions away from each other. The housing 3 is inserted into the fixture 14 having the above configuration.

  As an example, one hook fastener 11G is provided corresponding to each fixing tool 14 (each). The surface fastener 11G is provided on the upper surface 3b (second surface) of the housing 3. A plurality of surface fasteners 11G are provided at intervals. The plurality of hook-and-loop fasteners 11G are provided at intervals in the longitudinal direction of the lower surface 3a (first surface) (the width direction of the housing 3 perpendicular to the arrangement direction of the plurality of assembled batteries 1 and the Y direction). Yes.

  Two hook-and-loop fasteners 11D are provided corresponding to each hook-and-loop fastener 11G. The surface fastener 11D is provided outside the region 3k facing the lower surface 3a in the mounting surface 102f, as in the second embodiment. The hook-and-loop fastener 11D is located on both sides of the assembled battery 1 (housing 3) in the arrangement direction (X direction) of the plurality of assembled batteries 1. The hook-and-loop fastener 11D is positioned in front of and behind the assembled battery 1 (housing 3) in the insertion direction (X direction) of the drawer 102.

  The surface fastener 11H is provided on the lower surface of the plate portion 14b of the fixture 14 and is coupled to the surface fastener 11G.

  The surface fastener 11I is provided on each of the pair of plate portions 14c of the fixture 14, and is coupled to the surface fastener 11D.

  Next, an example of a procedure for installing the assembled battery 1 on the mounting surface 102f will be described. First, the operator places each assembled battery 1 at a predetermined position on the mounting surface 102f. Next, the operator secures the bus bar 6 to the terminal portions 4 and 5 of the assembled battery 1 and connects the terminal portions 4 and 5 of the adjacent assembled battery 1 to each other by the bus bar 6. Next, the operator puts the fixture 14 on the assembled battery 1 (housing 3) (extrapolated and fits), overlaps the surface fastener 11H with the surface fastener 11G, and attaches the surface fastener 11G and the surface fastener 11H. At the same time, the surface fastener 11I is overlapped with the surface fastener 11D to connect the surface fastener 11D and the surface fastener 11I. Thereby, the assembled battery 1 is fixed to the mounting surface 102f.

  As described above, in the present embodiment, the fixing unit 10 includes a plurality of surface fasteners 11 (surface fasteners 11D, 11G, 11H, and 11I), and the assembled battery 1 is mounted using the coupling between the surface fasteners 11. It is fixed to the surface 102f. Therefore, also in this embodiment, as in the first embodiment, as an example, the installation work of the assembled battery 1 on the placement surface 102f is relatively easy.

  Moreover, in this embodiment, since the fixing | fixed part 10 has the fixing tool 14, the assembled battery 1 can be fixed to the mounting surface 102f comparatively firmly.

<Seventh Embodiment>
In this embodiment, the fixing | fixed part 10 differs with respect to 6th Embodiment. As shown in FIG. 17, the fixing unit 10 of the present embodiment includes a fixing tool 14. In addition, as an example, the plurality of surface fasteners 11 of the present embodiment include surface fasteners 11G and 11H. In the present embodiment, the surface fastener 11G is an example of a first surface fastener, and the surface fastener 11H is an example of a second surface fastener. The attachment of the hook-and-loop fasteners 11G and 11H is the same as that in the sixth embodiment.

  The fixture 14 is basically the same as that of the sixth embodiment, but in this embodiment, each plate portion 14c is overlaid on the placement surface 102f, and the placement surface 102f is secured by the screw 13. It is fixed to (bottom wall 102d). The plate portion 14c is provided with an insertion hole 14d (hole, opening, opening) through which the screw 13 is inserted. The insertion hole 14d is a long hole whose longitudinal direction is the direction in which the assembled batteries 1 are arranged (X direction). The screw 13 is connected to the female screw portion provided in the bottom wall 3h while being inserted into the insertion hole 14d, and fixes the plate portion 14c (fixing tool 14) to the mounting surface 102f (bottom wall 102d). That is, in this embodiment, the fixing tool 14 is fixed to the outside of the region 3k facing the lower surface 3a on the mounting surface 102f by the screw 13. Here, in a state where the screw 13 is inserted into the insertion hole 14d and coupled to the female screw portion and the plate portion 14c is not fixed (the screw 13 is loosened), the fixing tool 14 is the screw 13. It is possible to move with respect to.

  Next, an example of a procedure for installing the assembled battery 1 on the mounting surface 102f will be described. First, the operator places each assembled battery 1 at a predetermined position on the mounting surface 102f. Next, the operator secures the bus bar 6 to the terminal portions 4 and 5 of the assembled battery 1 and connects the terminal portions 4 and 5 of the adjacent assembled battery 1 to each other by the bus bar 6. Next, the operator puts the fixture 14 on the assembled battery 1 (housing 3) (extrapolated and fits), overlaps the surface fastener 11H with the surface fastener 11G, and attaches the surface fastener 11G and the surface fastener 11H. Combine. Next, the operator fixes the assembled battery 1 to the placement surface 102f. Next, the operator inserts the screw 13 into the insertion hole 14d and fully secures the screw 13 to the bottom wall 3h. Thereby, the assembled battery 1 is fixed to the mounting surface 102f. The operator may temporarily fix the bus bar 6, temporarily fix the fixing tool 14 to the bottom wall 3 h with the screw 13, and then permanently fix each part. As described above, the operator can adjust the position of the assembled battery 1 so that an abnormal external force does not act on the bus bar 6.

  As described above, in the present embodiment, the fixing unit 10 includes a plurality of surface fasteners 11 (surface fasteners 11G and 11H), and the assembled battery 1 is fixed to the mounting surface 102f using the connection between the surface fasteners 11. doing. Therefore, also in this embodiment, as in the first embodiment, as an example, the installation work of the assembled battery 1 on the placement surface 102f is relatively easy.

  In the present embodiment, the fixing tool 14 is fixed to the mounting surface 102 f by the screw 13. Therefore, according to this embodiment, as an example, the fixture 14 (the assembled battery 1) can be fixed to the mounting surface 102f relatively firmly.

  In each of the above embodiments, the assembled battery 1 has been described as an example of the battery fixed by the fixing unit 10, but the battery is not limited to this, and the battery fixed by the fixing unit 10 is, for example, a single cell 2 or the like. It may be.

  Although several embodiments of the present invention have been described, these embodiments have been presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are also included in the scope of the invention described in the claims and the average thereof.

  DESCRIPTION OF SYMBOLS 1 ... Assembly battery, 2 ... Single cell, 3 ... Housing | casing (1st housing | casing), 3a ... Lower surface (1st surface), 3b ... Upper surface (2nd surface), 3c ... Peripheral surface (3rd Surface), 3c1, 3c2 ... surface (fourth surface), 3c3, 3c4 ... surface (fifth surface), 3k ... region, 4, 5 ... terminal portion, 6 ... bus bar (conductive member), 10 ... fixing portion 11, 11 </ b> A to 11 </ b> I... Hook fastener, 13... Screw (coupler), 14 .. Fixing tool, 101 ..Case (second casing), 102. ... Battery installation structure.

Claims (12)

An assembled battery having a first housing and a plurality of single cells housed in the first housing;
A plurality of hook-and-loop fasteners, and a fixed portion that fixes the assembled battery to an installation target using a combination of the hook-and-loop fasteners;
Equipped with a,
The assembled battery has a terminal portion exposed from the first housing,
A plurality of the assembled batteries are arranged side by side,
A battery installation structure in which the terminal portions of the adjacent assembled batteries are connected by a conductive member . An assembled battery having a first housing and a plurality of single cells housed in the first housing;
A plurality of hook-and-loop fasteners, and a fixed portion that fixes the assembled battery to an installation target using a combination of the hook-and-loop fasteners;
A second housing;
A drawer inserted into the second housing;
With
The installation target is a placement surface provided in the drawer,
The battery pack is arranged along the insertion direction of the drawer plurality obtained batteries installation structure. A first surface fastener and a second surface fastener included in the plurality of surface fasteners,
The first housing has a first surface facing the installation target,
The first surface fastener is provided on the first surface,
3. The battery installation structure according to claim 1, wherein the second surface fastener is provided on the installation target below the first surface and is coupled to the first surface fastener. An assembled battery having a first housing and a plurality of single cells housed in the first housing;
A plurality of hook-and-loop fasteners, and a fixed portion that fixes the assembled battery to an installation target using a combination of the hook-and-loop fasteners;
A first surface fastener, a second surface fastener, and a third surface fastener included in the plurality of surface fasteners ;
With
The first housing has a first surface facing the installation target, a second surface opposite to the first surface, and a first surface connecting the first surface and the second surface. Has three sides,
The first surface fastener is provided on the third surface,
The second surface fastener is provided outside an area facing the first surface in the installation target,
Said third face fastener, said first fastener and said second fastener with the bound batteries installation structure. The third surface has a fourth surface and a fifth surface opposite to the fourth surface;
The battery installation structure according to claim 4 , wherein the first surface fastener is provided on the fourth surface and the fifth surface. An assembled battery having a first housing and a plurality of single cells housed in the first housing;
A plurality of hook-and-loop fasteners, and a fixed portion that fixes the assembled battery to an installation target using a combination of the hook-and-loop fasteners;
A first surface fastener, a second surface fastener, a third surface fastener, a fourth surface fastener, and a fifth surface fastener included in the plurality of surface fasteners ;
With
The first housing has a first surface facing the installation target, a second surface opposite to the first surface, and a first surface connecting the first surface and the second surface. Has three sides,
The first surface fastener is provided on the first surface,
The second surface fastener is provided on the installation object below the first surface, and is coupled to the first surface fastener,
The third surface fastener is provided on the third surface;
The fourth surface fastener is provided outside an area facing the first surface in the installation target,
Said fifth surface fastener, the third fastener and the fourth fastener and bound batteries installation structure. The assembled battery has a terminal portion exposed from the first housing,
A plurality of the assembled batteries are arranged side by side,
The terminal portions of the adjacent assembled batteries are connected by a conductive member,
The third surface has a fourth surface and a fifth surface opposite to the fourth surface;
The fourth surface and the fifth surface are provided at an end of the first casing in the direction in which the plurality of assembled batteries are arranged,
The terminal portion is exposed from the second surface, and is brought to one of the fourth surface and the fifth surface,
The first surface fastener is brought to the other of the fourth surface and the fifth surface,
Said third face fastener battery installation structure according to claim 6, wherein provided on one of said fourth surface and the fifth surface. A second housing;
A drawer inserted into the second housing so as to be capable of being pulled out;
With
The installation target is a placement surface provided in the drawer,
The assembled battery is provided in a plurality along the insertion direction of the drawer,
The third surface has a fourth surface and a fifth surface opposite to the fourth surface;
The fourth surface and the fifth surface are provided at the end of the first housing in the width direction of the first housing orthogonal to the insertion direction,
The first surface fastener is brought to one of the fourth surface and the fifth surface;
The battery installation structure according to claim 6 , wherein the second surface fastener is provided on the other of the fourth surface and the fifth surface. An assembled battery having a first housing and a plurality of single cells housed in the first housing;
A plurality of hook-and-loop fasteners, and a fixed portion that fixes the assembled battery to an installation target using a combination of the hook-and-loop fasteners;
A first surface fastener and a second surface fastener included in the plurality of surface fasteners ;
With
The first housing has a first surface facing the installation target, a second surface opposite to the first surface, and a first surface connecting the first surface and the second surface. Has three sides,
The first surface fastener is provided on the third surface,
Said second fastener, said installation outside the region facing the said first surface in a subject is fixed by fastener, said first fastener and bound batteries installation structure. An assembled battery having a first housing and a plurality of single cells housed in the first housing;
A plurality of hook-and-loop fasteners, and a fixed portion that fixes the assembled battery to an installation target using a combination of the hook-and-loop fasteners;
A fixture,
A first surface fastener, a second surface fastener, a third surface fastener, and a fourth surface fastener included in the plurality of surface fasteners;
With
The first housing has a first surface facing the installation target and a second surface opposite to the first surface;
The first surface fastener is provided on the second surface;
The second surface fastener is provided outside an area facing the first surface in the installation target,
The third hook-and-loop fastener is provided on the fixture and coupled to the first hook-and-loop fastener;
Said fourth fastener are provided on said fixture said second surface fastener and bonded batteries installation structure. An assembled battery having a first housing and a plurality of single cells housed in the first housing;
A plurality of hook-and-loop fasteners, and a fixed portion that fixes the assembled battery to an installation target using a combination of the hook-and-loop fasteners;
A fixture,
A first surface fastener and a second surface fastener included in the plurality of surface fasteners;
With
The first housing has a first surface facing the installation target, a second surface opposite to the first surface, and a first surface connecting the first surface and the second surface. Three sides, and
The first surface fastener is provided on the second surface;
The fixture is fixed by a coupler outside the region facing the first surface of the installation target,
It said second surface fastener is provided in the fixture, the first surface fastener and bonded batteries installation structure. The assembled battery has a terminal portion exposed from the first housing,
A plurality of the assembled batteries are arranged side by side,
The battery installation structure according to claim 4 , wherein the terminal portions of the adjacent assembled batteries are connected by a conductive member.

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