DE112015004338T5 - BATTERY PACK AND INDUSTRIAL VEHICLE - Google Patents

Abstract

A battery pack (30) is obtained by housing a plurality of battery modules (40) in a housing (50). The housing (50) comprises: a main body (51) having a first wall portion (53) with a first mounting surface (55) on which a battery module (40) is installed, and a second wall portion (56) extending continuously from the first mounting surface (55) first wall portion (53) extending to intersect with the first mounting surface (55); and a cover portion (61) having a second mounting surface (63) on which another battery module (40) is installed. The main body (51) and the cover portion (61) are coupled together using a fastener (71) by interconnecting the end portion (56A) of the second wall portion (56) and the second mounting surface (63) while the first mounting surface (56). 55) and the second mounting surface (63) facing each other.

Description

Technical area

The present invention relates to a battery pack and an industrial vehicle.

Background of the prior art

In the prior art, for example, in Patent Document 1, a battery pack is discussed. The battery pack of Patent Document 1 has a plurality of battery modules and a housing in which the battery modules are housed. The plurality of battery modules are disposed on the inner surface of the housing and the battery modules are arranged over three stages in the vertical direction and two rows in the horizontal direction.

List of the prior art

patent literature

• Patent Document 1: Unexamined Japanese Patent Publication JP 2014-80282

Summary of the invention

Technical problem

As a structure for carrying out such a two-row arrangement as described above, it can be considered, for example, that frames provided as a pair having the same structure in U-shape when viewed in cross section, each of which has a first wall portion and a pair second wall portions that extend from the first wall portion are coupled together by end portions of the second wall portions are interconnected. In this structure, for example, the frames are coupled together by fixing a screw penetrating through the second wall portion of one of the frames along its extending direction into one end portion of the second wall portion of the other frame. However, in this case, the screw increases the size as it penetrates the second wall portion. Accordingly, a hole for receiving the screw also increases the size. This can lead to a cost increase.

In addition, it can be considered that a hollow frame is open on both sides and flat cover portions are arranged so as to block each opening so that the frame and the cover portions are coupled to each other using screws penetrating through the cover portions. However, in this structure, it is necessary to couple the cover portions on both sides of the frame. Therefore, the number of attachment portions increases. This can degrade the assemblability.

In view of the problems outlined above, the present invention is intended to provide a battery pack and an industrial vehicle capable of securing a good assembling capability of a housing provided with a plurality of rows of battery modules while avoiding an increase in cost.

the solution of the problem

In accordance with one aspect of the present invention, a battery pack has been provided that includes a plurality of battery modules; and a housing housing the plurality of battery modules, the housing comprising: a main body having a first wall portion having a first mounting surface on which a battery module is installed and a second wall portion extending continuously from the first wall portion extends so as to intersect with the first installation surface, and a flat cover portion having a second installation surface on which other battery modules are installed, the main body and the cover portion are coupled together using a fastener by an end portion of the second wall portion and the second mounting surface are connected, while the first mounting surface and the second mounting surface facing each other.

In the battery pack described above, the battery modules are installed on the first mounting surface of the main body and the second mounting surface of the cover portion, and the mounting surfaces are arranged to face each other, so that it is possible to arrange the battery modules over a plurality of rows. In addition, since the main body and the cover portion are coupled together so that the end portion of the second wall portion and the flat cover portion are connected, it is possible to avoid increasing the length of the fastening member. In addition, since the coupling portion is only the connecting portion between the end portion of the second wall portion and the cover portion, it is possible to avoid an increase in the number of fastening portions. Therefore, it is possible to avoid an increase in cost and to ensure a good assemblability of the housing in which a plurality of battery modules are arranged.

In the battery pack described above, the main body may be a pair have second wall portions which face each other by the first mounting surface is disposed therebetween. In this battery pack, since the main body and the cover portion are coupled to each other at the end parts of the pair of second wall portions, it is possible to firmly couple the main body and the cover portion.

In the battery pack described above, one of the second wall portions may have a thickness smaller than that of the other second wall portion. In this battery pack, a center of the battery pack is arranged on the other second wall portion with a larger thickness. As a result, it is possible to improve the stability by, for example, arranging the other second wall portion vertically on a lower side. In addition, by changing the thickness of the second wall portion, it is possible to change a center position of the battery pack.

In the battery pack described above, the first wall portion and the cover portion may have thicknesses larger than those of the first of the second wall portions. In this battery pack, since the first wall portion where the battery modules are arranged and the cover portion have larger thicknesses, it is possible to secure the strength for supporting the battery modules.

In the battery pack described above, the main body and the cover portion may be coupled to each other using the fastener while the end portion of the second wall portion comes into contact with the second mounting surface, and a sealing member may be disposed in the contact portion therebetween. In this battery pack, since the main body and the cover portion are coupled to each other at a contact portion between the end portion of the second wall portion and the flat cover portion, it is possible to even better prevent extension of the fixing member. In addition, if each coupling surface is necessarily sealed for reasons of watertightness, the number of sealing surfaces may increase. This can increase the cost. In this regard, it is possible with this battery pack to avoid an increase in the coupling portions. Therefore, it is possible to avoid an increase in the number of sealing surfaces and to avoid cost increase.

In the above-described battery pack, either the edge surface of the second wall portion or the contact portion of the second mounting surface that contacts the end portion of the second wall portion may be provided with a positioning protrusion for positioning between the main body and the cover portion, and the other member may be provided with a hole into which the projection is inserted. In this battery pack, it is possible to easily position the end portion of the second wall portion and the second mounting surface. Therefore, it is possible to further improve the assemblability between the main body and the cover portion.

The sealing member may have a positioning hole into which the projection is inserted for use in positioning with either the main body or the cover portion provided with the projection. In this battery pack, it is possible to easily perform positioning between the sealing member and the main body or the cover portion. Therefore, it is possible to improve the assemblability between the sealing member and the main body or the cover portion.

According to another aspect of the present invention, there is provided an industrial vehicle having the battery pack described above, wherein the housing of the battery pack is used as a counterweight.

In this industrial vehicle, the battery modules are installed on the first mounting surface of the main body and the second mounting surface of the cover portion, and the mounting surfaces are arranged to face each other, so that it is possible to arrange the battery modules over a plurality of rows. In addition, since the main body and the cover portion are coupled together by connecting the end portion of the second wall portion and the flat cover portion, it is possible to prevent extension of the fixing member. In addition, since the coupling portion is only the connecting portion between the end portion of the second wall portion and the cover portion, it is possible to avoid an increase in the number of fastening portions. Therefore, it is possible to avoid an increase in cost and ensure a good assemblability of the housing in which a plurality of battery modules are arranged.

Advantageous Effects of the Invention

According to the aspects of the present invention, it is possible to provide a battery pack and an industrial vehicle capable of avoiding an increase in cost and ensuring a good assemblability of a housing in which a plurality of rows of battery modules are arranged.

Brief description of the drawings

1 shows a schematic side view of an industrial vehicle.

2 shows a schematic perspective view of a battery pack.

3 shows a perspective view of a battery module.

4 shows a schematic cross-sectional view of a battery pack.

5 shows a schematic exploded perspective view of the battery pack.

6 shows a schematic cross-sectional view of a battery pack according to a first comparative example.

7 shows a schematic cross-sectional view of a battery pack according to a second comparative example.

8th shows a schematic cross-sectional view of a battery pack according to a modification.

Description of the embodiments

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in which like numerals denote like elements, and they will not be described repeatedly.

1 shows a schematic side view of an industrial vehicle. In this embodiment, as shown in FIG 1 1, an industrial vehicle according to an aspect of the present invention is applied to a forklift. The forklift has forks 18 that are used to perform a load handling operation.

Like this in 1 shown has an industrial vehicle 10 a chassis (a chassis) 11 , a load handling unit 12 attached to a front part of the chassis 11 is arranged, and a cabin 13 in the middle of the chassis 11 is arranged as main components. drive wheels 14 are in a front lower part of the chassis 11 provided, and steering wheels 15 are at a rear lower part of the chassis 11 intended. Also, it's on the chassis 11 a wheel drive motor M1 acting as a drive source of the drive wheels 14 and a fork drive motor M2 mounted as a drive source of the forks 18 serves.

The load handling unit 12 has a mast 16 attached to a front part of the chassis 11 is upright, and a pair of left and right fork 18 at the mast 16 by intervening arrangement of a lifting bracket 17 are grown. The forks 18 be used to support a load 19 used. The forks 18 are together with the lift bracket 17 by means of a driving force of the lifting cylinder 20 vertically movable on the mast 16 is grown. In addition, by means of a driving force of a tilting cylinder 21 who is at the mast 16 is grown, the forks 18 with respect to a mounting point of the tilt cylinder 21 along with the mast 16 rotatable to the rear and / or forward.

The cabin 13 is with an operator seat 22 provided on which an operator (user) can sit. A steering wheel 23 is in front of the operator's seat 22 intended. A battery pack 30 is under the cabin 13 assembled.

2 shows a schematic perspective view of a battery pack. Like this in 2 shown has the battery pack 30 a variety of battery modules 40 (in this example, there are seven modules) and a housing 50 in which a variety of battery modules 40 are housed. In 2 are the battery modules 40 and the case 50 shown schematically.

3 shows a perspective view of the battery module. In the battery module 40 are a variety of battery cells 41 (in this example, there are seven cells) through a battery holder 42 held. The battery cell 41 is a battery formed by accommodating an electrode assembly in a bag, and is a nonaqueous electrolyte secondary battery such as a lithium ion secondary battery. Every battery cell 41 has positive and negative electrodes. A variety of battery cells 41 is arranged so that the electrodes having different polarities are adjacent to each other and in series with each other through a bus bar 43 are electrically connected. endplates 44 are at both longitudinal ends of the assembly of the battery cells 41 intended. brackets 45 are at the end plates 44 built-in. The brackets 45 are on a first and second mounting surface 55 and 63 , which are described below, fixed using a fastener such as a screw. As a result, the battery module 40 on the housing 50 fixed.

The housing 50 is made of metal and has a rectangular shape. For example, the housing 50 made of iron or the like. The housing 50 serves as a counterbalance to balance the weight of the load 19 , by the forks 18 in the industrial vehicle 10 is supported. In other words, the chassis has 11 of the industrial vehicle 10 the housing 50 as a counterweight.

4 shows a schematic cross-sectional view of the battery pack. 5 shows a schematic exploded perspective view of the battery pack. In 4 are the front and rear wall portion of the housing 50 having been deliberately omitted from the picture plane for the sake of simplicity. Like this in the 4 and 5 shown has the housing 50 a main body 51 and a cover portion 61 ,

The main body 51 has a first wall section 53 with a rectangular plate shape and a pair of second wall sections 56 and 57 having a rectangular plate shape formed in a U-shape when viewed in cross-section.

The first wall section 53 has a first installation area 55 where the battery modules are installed. On the first installation surface 55 are the battery modules 40 built in via two vertical steps. More specifically, as is in 5 shown is two battery modules 40 installed in the lower stage, and a single battery module 40 is installed in the upper stage. As described above, the battery modules are 40 at the first installation surface 55 using the bracket 45 fixed (sh. 3 ). As the number of battery modules 40 installed in the upper stage is less than the number of battery modules 40 for example, which are installed at the lower stage, is a controller (not shown) for controlling the charging and discharging of the battery modules 40 mounted on the space formed on the side of the upper stage (see FIG. 2 ).

The second wall sections 56 and 57 extend continuously from the first wall portion 53 and perpendicular to the first wall section 53 , The second wall sections 56 and 57 are continuous to the first wall section 53 formed and integral with this, without a fastener or the like is used. One of the pair on second wall sections 56 and 57 extends from one end of the first wall portion 53 (the upper end in the 4 and 5 ), and the other second wall section 57 extends from the other end of the first wall portion 53 (the lower end in the 4 and 5 ). These second wall sections formed as a pair 56 and 57 extend parallel to each other and are facing each other, wherein the first mounting surface 55 is arranged in between. In this example, a thickness W2 of the second wall portion 56 less than a thickness W3 of the second wall portion 57 ,

The cover section 61 is flat, for example in a plate shape. The cover section 61 has a second mounting surface 63 at which the battery modules 40 are installed. On the second installation surface 63 are the battery modules 40 built in via two vertical steps. More specifically, as is in 5 shown is two battery modules 40 installed in the lower stage, and two battery modules 40 are installed in the upper stage. The battery modules 40 are at the second installation surface 63 with a holder 45 (Sh. 3 ), as described above. In this example, a thickness W4 of the cover portion 61 equal to a thickness W1 of the first wall section 53 , In addition, the thickness W1 of the first wall portion 53 and the thickness W4 of the cover portion 61 greater than the thickness W2 of the second wall portion 56 and smaller than the thickness W3 of the second wall portion 57 ,

According to this embodiment, end parts arrive 56A and 57A the second wall sections 56 and 57 in contact with the second mounting surface 63 , and the main body 51 and the cover section 61 are together using a fastener 71 assembled by the cover section 61 in the contact section 67 penetrates. In this case, the first mounting surface extend 55 and the second mounting surface 63 parallel to each other and they are facing each other. In this example, the main body 51 and the cover section 61 assembled by a sealing element 73 is arranged in between. As a result, it is possible to ensure liquid tightness in the coupling portion.

The fastener 71 is for example a screw. edge surfaces 56B and 57B the end parts 56A and 57A the second wall sections 56 and 57 are with a variety of mounting holes 58 for fastening the fastening elements 71 Mistake. The cover section 61 is with through holes 64 provided, which are adapted to the mounting holes 58 fit to the fasteners 71 introduce. Like this in 5 is shown, the fasteners 71 in the through holes 64 from the opposite side to the second mounting surface 63 the cover section 61 inserted and at the mounting holes 58 attached.

The sealing element 73 For example, is a ring-like packing and is made of resin (plastic). The sealing element 73 is between the edge surfaces 56B and 57B and the second installation surface 63 arranged and pressed when the main body 51 and the cover section 61 be assembled, allowing a watertight sealing between the edge surfaces 56B and 57B and the second installation surface 63 is obtained. The sealing element 73 is with through holes 75 provided in which the fasteners 71 be introduced to the mounting holes 58 and the through holes 64 to fit together.

The edge surfaces 56B and 57B the second wall sections 56 and 57 are with a variety of positioning projections 59 provided for positioning between the main body 51 and the cover portion 61 , In this example, there are two protrusions 59 at a predetermined interval at each edge surface 56B and 57B provided, and they are from the mounting holes 58 arranged inwards. There are also a lot of holes 65 at which the projections 59 be introduced, so that they are with the protrusions 59 match, in the contact section 67 at the second installation surface 63 trained, with the end parts 56A and 57A the second wall sections 56 and 57 connected is. In this example are two holes 65 at a predetermined interval from the through holes 64 inside in each of the contact sections 67 with the edge surfaces 56B and 57B intended. The holes 65 penetrate the cover section 61 not and have depths leading to the projections 59 fit. The projections 59 For example, they are formed in a cylindrical shape. The holes 65 inside, for example, have cylindrical spaces that the projections 59 correspond. The lead 59 has an outer diameter equal to, for example, an inner diameter of the hole 65 is, so the protrusions 59 in the holes 65 can be fitted.

According to this embodiment, the main body has 51 a symmetrical shape with respect to an extension direction of the edge surfaces 56B and 57B the second wall sections 56 and 57 (in the depth direction of 5 ). In addition, the mounting holes 58 and the projections 59 the second wall sections 56 and 57 symmetrical to each other with respect to a direction provided perpendicular to the second wall portions 56 and 57 is (vertical direction in 5 ). In addition, the cover section 61 symmetric with respect to both the depth direction and the vertical direction of 5 educated. Because of this, the main body can 51 and the cover section 61 be assembled together regardless of the orientation of the vertical direction of 5 , As a result, the assemblability between the main body is possible 51 and the cover portion 61 to improve.

The sealing element 73 is with a variety of positioning holes 77 provided, which are used to insert the projections 59 and positioning with the main body 51 to enable. The positioning holes 77 are penetratingly adapted to the projections 59 fit. In this example, there is a pair of positioning holes 77 in each of the parts of the second wall sections 56 and 57 the edge surfaces 56B and 57B facing at a predetermined interval from the through holes 64 provided in the interior. An inner diameter of the positioning holes 77 For example, is equal to or slightly larger than the outer diameter of the projection 59 , The sealing elements 73 are also symmetrical to each other in the depth direction of 5 educated. In the vertical direction of 5 are the through holes 75 and the positioning holes 77 provided symmetrically to each other.

According to this embodiment, in the assembling operation, first, the sealing member becomes 73 on the main body 51 grown. The sealing element 73 For example, is provided with an adhesive layer or the like on both sides, so that the sealing elements 73 with the edge surfaces 56B and 57B the second wall sections 56 and 57 be connected to the adhesive layer. In this case, the sealing elements approach 73 the edge surfaces 56B and 57B so that the projections 59 into the positioning holes 77 be introduced. In addition, the sealing elements 73 with the main body 51 connected while they are positioned. In this assembly activity, since the sealing elements 73 symmetrically arranged as described above, any of the adhesive layers formed on both sides with the sealing member 73 get connected. As a result, it is possible the assembling ability of the sealing member 73 attached to the main body 51 is grown to improve.

Then the main body 51 and the cover section 61 assembled together. By the main body 51 and the cover section 61 approach each other so relatively that the projections 59 in the holes 65 become the main body 51 and the cover section 61 coupled together while they are positioned. As a result, the end parts arrive 56A and 57A the second wall sections 56 and 57 with the second mounting surface 63 in contact. Then the fasteners 71 at the mounting holes 58 through the through holes 64 and 75 attached. As a result, the main body 51 and the cover section 61 coupled together in a sealed condition to the battery pack 30 train. The battery pack 30 is under the cabin 13 for example, mounted so that the second wall section 57 is arranged on the lower side in the vertical direction.

It should be noted here that the front and rear wall section of the housing 50 , in the 4 having been intentionally omitted, as contemplated on the plane of the paper, extending continuously from both the first and second wall sections 53 . 56 and 57 perpendicular to both the first and second wall sections 53 . 56 and 57 extend. The front and rear wall section of the housing 50 has the same thickness as the thickness W1 of the first wall section when viewed on the paper plane 53 , As a result, it is possible to manufacture the main body 51 to facilitate. Besides, it is possible to use the main body 51 symmetrical in the depth direction of 5 to arrange and arrange the center position in a middle of the depth direction.

Below are the functional effects of the above-explained battery pack 30 described.

6 shows a schematic cross-sectional view of a battery pack of a first comparative example. The battery pack 30A of the first comparative example differs from the battery pack 30 according to the embodiment of the invention in view of the structure of the housing. The housing 150 the battery pack 30A has a pair of frames 151 with the same shape. The frame 151 has a first wall section 153 and a pair of second wall sections 156 extending from the first wall section 153 extend, and its cross-section has a U-shape. On a surface of the first wall section 153 that the second wall section 156 facing, are the battery modules 40 built-in. Pairwise provided frames 151 are coupled together by corresponding end portions of the second wall sections 156 face each other. This coupling is achieved by the fastener 171 that the second wall section 156 from a frame 151 penetrates along the extension direction, with the end portion of the second wall portion of the other frame 151 is attached. In addition, a sealing element 173 arranged on each coupling surface.

In the battery pack 30A of the first comparative example becomes the fastener 171 big as it passes through the second wall section 156 penetrates. Accordingly, the size of the hole in which the fastener takes 171 is also admitted. This can increase the cost. In contrast, in the battery pack 30 according to the embodiment of the invention, the main body 51 and the cover section 61 at the contact section 67 between the end parts 56A and 57A the second wall sections 56 and 57 and the flat cover portion 61 coupled. Therefore, it is possible to extend the fastener 71 and to avoid an increase in costs.

7 shows a schematic cross-sectional view of a battery pack of a second comparative example. The battery pack 30B of the second comparative example is different from the battery pack 30 of the embodiment of the invention with regard to a structure of the housing. A housing 250 the battery pack 30B has a hollow frame 251 which is open at both ends, and a pair of plate-shaped cover portions 261 , At each of the pair of cover sections 261 are battery modules 40 built-in. The frame 251 and the cover sections 261 are coupled with each other so that every opening of the frame 251 through the cover section 261 is blocked. This coupling is achieved by the fasteners 271 covering the cover section 261 penetrate the frame 251 are attached. In addition, a sealing element 273 arranged on each coupling surface.

In the battery pack 30B of the second comparative example, it is necessary to use the cover portions 261 on both sides of the frame 251 to couple. Therefore, the number of fixing portions increases, and this may degrade the assembling ability. Since it is also necessary to seal each coupling surface for reasons of watertightness, the number of sealing surfaces increases. This can increase the cost. In contrast, in the battery pack 30 According to the embodiment of the invention, the coupling portion only the contact portion 67 between the end parts 56A and 57A the second wall sections 56 and 57 and the cover portion 61 , Therefore, it is possible to reduce the number of fixing portions and the number of sealing surfaces. This makes it possible to avoid a deterioration in assemblability and an increase in cost.

As described above, in the battery pack 30 according to the embodiment of the invention, the battery modules 40 at the first installation surface 55 of the main body 51 and the second installation surface 63 the cover section 61 installed, and the first and second mounting surface 55 and 63 are arranged so that they face each other. Therefore it is possible to use the battery modules 40 to arrange over a variety of rows. In addition, the main body 51 and the cover section 61 are coupled together by the end sections 56A and 57A the second wall sections 56 and 57 and the flat cover portion 61 are connected, it is possible to extend the fastener 71 to avoid. In addition, since the attachment portion only the coupling portion between the end portions 56A and 57A the second wall sections 56 and 57 and the cover 61 is, it is possible to avoid an increase in the number of coupling sections. Therefore, it is possible to have a favorable assembling ability of the housing 50 Ensure by using a variety of battery modules 40 while avoiding an increase in cost.

Because in the battery pack 30 the main body 51 and the cover section 61 with each other at the end parts 56A and 57A a pair of second wall sections 56 and 57 coupled, it is possible the main body 51 and the cover section 61 firmly to couple. Besides, the main body has 51 a pair of second wall sections 56 and 57 facing each other, the first mounting surface 55 is interposed, and the space between the wall sections 56 and 57 and the cover portion 61 is sealed. Therefore, it is possible to obtain a sealing structure by fitting both sides of the installation surface 55 (the upper and lower side in the 4 and 5 ) are coated. In addition, the case has 50 the front and rear wall section, which in 4 have been omitted under consideration on the paper plane, and the sealing is between the wall portions and the cover portion 61 intended. Therefore, it is possible to use the entire circumference of the first installation surface 55 to coat and seal. In addition, the front and the rear wall portion of the housing 50 when viewed on the plane of the paper, the same thickness as the thickness W1 of the first wall section 53 , As a result, it is possible to manufacture the main body 51 to facilitate. Therefore, it is possible to use the main body 51 symmetric with respect to the depth direction in 5 to arrange and set the center position in a middle of the depth direction.

In the battery pack 30 is the middle of the battery pack 30 on the side of the second wall section 57 arranged, which has a large thickness. As a result, for example, the second wall portion 57 can be arranged vertically on the lower side, and the stability can be improved. Moreover, it is by the thickness of the second wall section 57 is changed, possible, the center position of the battery pack 30 to change.

In the battery pack 30 are the thickness W1 of the first wall section 53 and the thickness W4 of the cover portion 61 greater than the thickness W2 of the second wall portion 56 , Since the thicknesses W1 and W4 of the first wall section 53 and the cover section 61 where the battery modules 40 are built in, are large, it is possible in this way, the strength to support the battery modules 40 sure. In addition, it is possible to provide the strength for supporting the second wall sections 56 and 57 sure. Moreover, according to the embodiment of the invention, the main body 51 and the cover section 61 made of metal. Therefore, it is possible to distribute the heat dissipating from the battery modules 40 is generated to improve.

In the battery pack 30 are the main body 51 and the cover section 61 with each other at the contact portion 67 between the end parts 56A and 57A the second wall sections 56 and 57 and the flat cover portion 61 coupled. Therefore, it is possible the length of the fastener 61 continue to decrease. In addition, since it is possible to avoid an increase in the number of coupling portions, it is possible to avoid an increase in the number of sealing surfaces and an increase in cost.

Because in the battery pack 30 the end parts 56A and 57A the second wall sections 56 and 57 and the second mounting surface 63 can be positioned with ease, it is possible the assemblability between the main body 51 and the cover portion 61 continue to improve. The projections 59 be in the holes 65 introduced after assembly activity. Therefore, if an external force on the main body 51 or the cover section 61 is applied and a shearing force in the fastener 71 is applied, the corresponding sections take the load. Therefore, it is possible to break the fastener 71 to avoid. In addition, it is using a difference between the outer diameter of the projection 59 and the inner diameter of the hole 65 possible, a maximum slip amount during the assembly work between the main body 51 and the cover portion 61 define.

In the battery pack 30 it is possible with ease the sealing element 73 and the main body 51 using the positioning holes 77 and the projections 59 to position. Therefore, it is possible the assembling ability between the sealing member 73 and the main body 51 to improve.

While preferred embodiments of the present invention are described above, they are not intended to limit the scope of the invention. Instead, various changes, modifications or variations may be made without departing from the scope of the present invention, which is disclosed in the appended claims.

For example, the battery pack 30 as a variation as in 8th shown to be built. In the battery pack 30C this modification has the housing 50 a main body 51 and a pair of cover sections 61 , In the main body 51 serve both surfaces of the first wall section 53 as the first installation space 55 , and the battery modules 40 are at each of the first installation areas 55 built-in. As a pair of provided second wall sections 56 and 57 extend continuously from each of the first installation surfaces 55 , In addition, the battery modules 40 at the second installation surfaces 63 a pair of cover sections 61 installed, and as a pair of provided cover sections 61 are with one side (left side in 8th ) and the other side (right side in 8th ) of the main body 51 coupled. More specifically, the main body 51 and the cover section 61 coupled together while the first mounting surface 55 the second installation surfaces 63 facing and they come into contact using fasteners 71 in the contact section 67 in which a sealing element 73 is arranged in between. In this example, the thickness W1 of the first wall portion 53 greater than the thicknesses of the other wall sections to ensure heat dissipation. More specifically, the thickness W1 of the first wall portion 53 , the thickness W2 of the second wall section 56 , the thickness W3 of the second wall section 57 and the thickness W4 of the cover portion 61 set to have the following relationship: "W1>W3>W4>W2".

Although seven battery modules 40 in the case 50 are accommodated in the embodiment explained above, the number or arrangement of the battery modules 40 not limited. At least a single battery module 40 can be attached to each of the first and second installation surfaces 55 and 63 be installed, and they can have a variety of rows inside the case 50 be arranged. Although a control device or the like is mounted on the space formed at the upper end in the above-described embodiment, the control device may be disposed at any other location. In addition, the number or arrangement of the battery modules 40 standing at the side of the main body 51 and the side of the cover portion 61 are installed, preferably on the basis of a weight balance (balance) of the battery pack 30 certainly. For example, if the battery pack 30 at the industrial vehicle 10 is mounted, the battery pack 30 effectively the weight of the battery modules 40 to use as a counterweight by the battery modules 40 are arranged on the rear side of the vehicle. In addition, if more battery modules 40 vertically arranged on the lower side, it is possible to change the center position of the battery pack 30 lower (lower).

Although the main body 51 a pair of second wall sections 56 and 57 in the above-explained embodiment, the main body 51 only one of the second wall sections 56 and 57 to have. In this case, the side on which the second wall section 56 or 57 is not provided (upper or lower side in the 4 and 5 ) by connecting another element, such as a floor surface, or installing another element. Although the second wall sections 56 and 57 perpendicular to the first mounting surface 55 extend in the embodiment described above, the second wall sections 56 and 57 extend in any other direction, as long as they are with the first mounting surface 55 to cut.

The thickness W1 of the first wall section 53 , the thickness W2 of the second wall section 56 , the thickness W3 of the second wall section 57 and the thickness W4 of the cover portion 61 can be set to any size without being limited to those described in the above-mentioned embodiments. For example, the thickness W1 of the first wall section 53 or the thickness W4 of the cover portion 61 be set to a thickness that is capable of strength for supporting the battery modules 40 to get. In addition, the thickness W2 of the second wall portion 56 depending on a weight of the battery pack 30 or a strength set in an upper part of the battery pack 30 is required. In addition, the thickness W3 of the second wall portion 57 be set based on a center position to ensure stability of the battery pack 30 sure. In addition, the thickness W2 of the second wall portion 56 and the thickness W3 of the second wall portion 57 be set to the same thickness. If the thickness W2 of the second wall section 56 and the thickness W3 of the second wall portion 57 set to the same thickness becomes the main body 51 vertically symmetrical. This facilitates manufacturing or assembling work of the main body 51 ,

Although the projections 59 on the edge surfaces 56B and 57B the second wall sections 56 and 57 are formed, and the holes 65 in the contact section 67 the second mounting surface 63 are formed in the above-described embodiment, the holes 65 in the border areas 56B and 57B be formed and can the projections 59 in the contact section 67 the second mounting surface 63 be educated. In addition, the projections 59 and the holes 65 also be omitted. Furthermore, although the outer diameter of the projection 59 approximately equal to the inner diameter of the hole 65 in the above-mentioned embodiment, the outer diameter of the projection 59 be smaller by a predetermined length than the inner diameter of the hole 65 , As a result, as described above, it is possible to have the maximum slip amount during the assembling operation between the main body 51 and the cover portion 61 to change.

Although the main body 51 and the cover section 61 are coupled together while the end parts 56A and 57A the second wall sections 56 and 57 with the second mounting surface 63 come in contact in the above-described embodiments, the end parts 56A and 57A and the second mounting surface 63 be coupled directly to each other by the sealing element 73 is omitted when sealing (watertightness) in the housing 50 is not required. Besides, the main body can 51 and the cover section 61 be coupled with each other while leaving a space between the end parts 56A and 57A and the second installation surface 63 is trained. For example, if the projections 59 and the holes 65 are not formed as described above, the positioning holes 77 in the sealing element 73 be omitted. In addition, the sealing element 73 have an adhesive layer only on a single surface. Alternatively, the adhesive layer may also be omitted.

The number of fasteners 71 or the arrangement of the mounting portions is not limited to the above information. For example, the attachment portion between the projections 59 be added. The number of protrusions 59 and the holes 65 or the arrangement of them is not limited to the above-described. For example, the projections 59 and the holes 65 be arranged asymmetrically in a direction perpendicular to the second wall sections 56 and 57 (in the vertical direction of 5 ). If the number of protrusions 59 vertically arranged on the upper side increases, it is possible to cover the cover 61 stable even when vibration is applied. In addition, when such an asymmetrical structure is formed in this direction, it is possible to have a directional characteristic in the assembling operation between the main body 51 and the cover portion 61 define. Moreover, although the industrial vehicle according to one aspect of the present invention is applied to a forklift in the above-described embodiment, the industrial vehicle according to the present invention may be applied to other areas such as a truck or a special vehicle without a specific limitation.

LIST OF REFERENCE NUMBERS

• 10 : Industrial vehicle, 11 : Frame, 12 : Load handling unit, 13 Photos: Cabin, 14 : Drive wheels, 15 : Steering wheels (steering wheels), 16 : Mast, 17 Photos: Lifting bracket, 18 : Fork, 19 : Load, 20 : Lifting cylinder, 21 : Tilt cylinder, 22 : User seat (operator seat), 23 Photos: steering wheel, 30 . 30C : Battery pack, 40 Photos: Battery module, 41 : Battery cell, 42 : Battery holder, 43 Photos: Bus bar, 44 : End plate, 45 : Bracket, 50 : Casing, 51 Image: Main body, 53 : first wall section, 55 : first installation area, 56 : second wall section, 57 : second wall section, 56A . 57A : End part, 56B . 57B : Border area, 58 : Mounting hole, 59 : Head Start, 61 : Cover section, 63 : second installation surface, 64 : Through hole, 65 Photos: hole, 67 : Contact section, 71 Photos: Fastening element, 73 : Sealing element, 75 : Through hole, 77 : Positioning hole, M1: wheel drive motor, M2: fork drive motor.

Claims (8)

 Battery pack with: a plurality of battery modules; and a housing in which the plurality of battery modules is housed, the housing comprising: a main body with a first wall portion having a first mounting surface on which a battery module is installed, and a second wall portion continuously extending from the first wall portion so as to intersect with the first installation surface, and a flat cover section with a second mounting surface, on which other battery modules are installed, wherein the main body and the cover portion are coupled together using a fastener by connecting one end portion of the second wall portion and the second mounting surface, while the first mounting surface and the second mounting surface face each other.  The battery pack according to claim 1, wherein the main body has a pair of the second wall portions facing each other by interposing the first mounting surface therebetween.  A battery pack according to claim 2, wherein one of the second wall portions has a thickness smaller than that of the other second wall portion.  The battery pack according to claim 3, wherein the first wall portion and the cover portion have thicknesses larger than those of the one of the second wall portions. A battery pack according to any one of claims 1 to 4, wherein the main body and the cover portion are coupled to each other using the fastener, while the end portion of the second wall portion comes into contact with the second mounting surface, and a sealing member is disposed in the contact portion.  A battery pack according to claim 5, wherein one of the edge surfaces of the second wall portion and the contact portion of the second mounting surface come into contact with each other, the end portion of the second wall portion is provided with a positioning projection for positioning between the main body and the cover portion, and the other with a hole is provided, in which the projection is introduced.  A battery pack according to claim 6, wherein the sealing member has a positioning hole in which the projection is inserted for use in positioning with either the main body or the cover portion provided with the projection.  An industrial vehicle with the battery pack according to any one of claims 1 to 7, wherein the housing of the battery pack is used as a counterweight.

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