CN1893171A

CN1893171A - End plate incorporated in battery power source unit and cooling device for battery power source

Info

Publication number: CN1893171A
Application number: CNA200610092465XA
Authority: CN
Inventors: 高津克已; 小林贵树; 丸川修平; 江藤丰彦; 渡边功; 深尾泰祥; 垣野学; 乾究; 金丸邦郎
Original assignee: Toyota Motor Corp; Matsushita Electric Industrial Co Ltd
Current assignee: Toyota Motor Corp; Panasonic Holdings Corp
Priority date: 1997-03-24
Filing date: 1998-03-24
Publication date: 2007-01-10
Anticipated expiration: 2018-03-24
Also published as: CN100492754C; JPH10270006A; JP3774977B2

Abstract

Provided are a battery power source device, which comprises a plurality of battery modules(9) composed of multiple unit cells electrically and mechanically connected in series, a holder casing(10) in which the battery modules(9) are disposed in parallel, and a pass bar(28) for electrically connecting the terminals of the battery module(9), which is disposed on each of end plates(9,10) positioned at both ends of the holder casing(10). In the battery power source device, the end plate(9,10) is made of a resin plate, the pass bar(28) is fixed to the end plate(9,10) by insertion molding, so that even cooling of the device between unit cells connected in series forming the battery modules is achieved.

Description

Be used for the end plate of battery power supply and the cooling device of battery supply

The application be that March 24, application number in 1998 are 200410058969.0 the applying date, denomination of invention divides an application for the Chinese patent application of " being used for the end plate of battery power supply and the cooling device of battery supply ".

Technical field

The present invention relates to be used for the end plate of battery power supply of motor driven power supply etc. of electric motor car and the cooling device that utilizes air cooling that this battery power supply is cooled off.

Background technology

As this battery power supply, we know to have and a kind ofly are electrically connected and be connected in series battery module that a plurality of monocells form of machinery carries out many configurations in parallel and makes it remain in the support box, then these battery modules is carried out electric being connected in series to take out the structure of high-tension electricity single.

Present inventors etc. have developed following battery power supply: by many battery module parallel connections are configured in the support box that is made of enclosure body and two end plates, the end of battery module is remained in the retaining hole of being located at end plate, and the end of battery module and the metal path liner (パスバ-) that is configured in the end plate outside are carried out fastening, will carry out electric being connected in series between the battery module then.

But, adopt this existing structure, because end plate and path liner are not same one, thus exist bearing strength, the rigidity deficiency of battery module, with pack into the more loaded down with trivial details problem of operation in the support box of battery module.In addition, also exist the positive pole of battery module and negative pole got wrong and in the support box of packing into misplug into problem, and when battery module and path liner are fastening, between monocell, produce the problem of reversing.

In addition, in battery power supply as described above, how to because of high density state to be configured in that intensification that the heating from battery module in the support box produces suppresses be an important problem.

As the battery of this battery power supply, though used nickel-hydrogen secondary cell, when unusual, can spill hydrogen from battery can, also be an important problem for this safety measure that spills hydrogen.

We know, the battery supply aggregate device of 1 pair of battery power supply carries in electric motor car though will electrically be connected in series, having constituted the structure of supplying with high-tension electricity, is an important problem but how reasonably each battery power supply at this moment to be cooled off.

Be to suppress the intensification that brought because of the heating of the battery in the above-mentioned battery power supply, present inventor etc. study intensively support box, have developed the cooling device of the air stream guide way with an amount of tempering air that flows along each battery module.

But, adopt this existing structure, it is difficult not only suitably distributing the air stream with respect to each battery module, and, also be difficult for evenly cooling off between the monocell that is connected in series that constitutes each battery module.Promptly, along battery module and flow air, flowing between the downstream from upstream side, the heat that the reason monocell is suffered and heating up, cooling effect reduces gradually, yet evenly the air quantity control and the wind speed control of each battery module unit of carrying out of each monocell of cooling from the upstream side to the downstream are very difficult in order to compensate it.

Summary of the invention

Main purpose of the present invention is, provides a kind of and solves the shortcoming in the above-mentioned existing structure and can reasonably carry out battery power supply and the employed end plate thereof that the unusual intensification of the voltage detecting of battery module and monocell detects with simple structure.

Another main purpose of the present invention is, provide a kind of solve in the above-mentioned existing structure shortcoming and to spilling the better simply cooling device of structure that hydrogen has safety measure, can rationally cool off the battery supply aggregate device with a pair of battery power supply.

For achieving the above object, battery power supply of the present invention is, be electrically connected and the machinery battery module that a plurality of monocells form that is connected in series carries out many configurations in parallel and it is remained in the support box single, on the end plate separately that is positioned at described support box both ends, the path liner that is electrically connected between the terminal with battery module is set, its characteristics are that end plate constitutes with resin plate, and the path liner is fixed on the end plate by inserting to be shaped.

Battery power supply of the present invention, owing to utilize and to have said structure and path liner one is packed in the end plate, so the bearing strength of battery module, rigidity are significantly improved, and can be only battery module be combined with the path liner with the terminal operation of bolt etc., as a result, the operation of battery module being packed in the support box is just easily simple.

In foregoing invention, the structure that preferably is constructed as follows: monocell constitutes nickel-hydrogen secondary cell, and be configured in all battery modules in the support box and alternately be connected with the path liner work of the end plate of opposite side by the path liner of the end plate of a side and do electric being connected in series as a whole, again with battery module respectively in length and breadth on the straight line horizontal arrangement become rectangular and remain in the support box.

In battery power supply of the present invention, the lead of having made the voltage between terminals that will be used for measuring single or many battery module by insert being shaped is embedded in the structure in the described end plate, set fuse midway at the lead that is used for measuring voltage between terminals again, and make described fuse is installed in structure on the fuse installation sheet that is fixed in by insert being shaped on the end plate, in addition, make the structure that each lead is concentrated on a position and can draw to the outside from end plate, by insert being shaped lead only is embedded in 2 end plates in the end plate of a side again, and each lead is connected with each path liner, thereby can constitute the structure that the voltage between terminals of 2 battery modules is measured.

By making structure as above, can provide a kind of lead that the voltage between terminals of measuring single or many battery module is used to be built in the voltage check device of end plate, easy and simple to handle, no wrong wire distribution and battery module simple in structure, in addition, utilize described fuse and safety short circuit can be obtained the time.

In battery power supply of the present invention, make on each monocell from the outer setting temperature sensor that resistance sharply increases when heating up, these temperature sensors are connected in series and detect the unusual structure that heats up with battery module unit at least, in addition, the retention tab that will be kept the end of the connecting line of each temperature sensor that is connected in series is made by inserting to be shaped and is fixed on structure on the end plate, connecting line is set in each battery module unit again, the retention tab that keeps these ends is done electric being connected in series, thereby constitute with many battery module units and detect the unusual structure that heats up, in addition, connected in electrical series is connected brace between the retention tab to be made by inserting to be shaped and is fixed on structure on the end plate, the temperature sensor of the rapid increase of resistance when heating up is installed from the outside on the monocell of all in being disposed at support box again, the temperature sensors that these are all are connected in series, and detect the unusual structure that heats up thereby can constitute.

By making structure as above, can detect the unusual intensification of monocell at least with battery module unit, according to circumstances, the available simple structure that only has 2 outside lead detects the unusual intensification of all monocells that belong to battery power supply, in addition, constitute by the brace and the end plate one that will connect between described retention tab and the retention tab, can obtain the simplification and the facilitation that is connected operation of structure.

In battery power supply of the present invention, end at battery module has the nut member that becomes anodal non-circular shape respectively, the nut member that has the non-circular shape that becomes negative pole at the other end, by to pass screw member that the through hole that is located on the path liner screws in these nut members carry out fastening constituted battery module is fixed on structure on the path liner of two end plates, in addition, the profile that will become anodal nut member is made different shapes with the profile of the nut member that becomes negative pole, and make when two shapes are overlapped, all not by structure that the opposing party comprised fully, in addition, the maintenance recess of the corresponding shape of profile of setting and nut member on end plate, constitute and make the chimeric structure that remains on this maintenance recess of nut member, in addition, will make different shapes with the shape that gives the maintenance recess of chimeric maintenance for the nut member that becomes negative pole for becoming the shape that anodal nut member gives the maintenance recess of chimeric maintenance.

By making structure as above, can utilize the fastening of screw member and battery module is fixed on the path liner simply, in addition, by making non-circular nut member remain on maintenance recess chimeric and trip bolt member with it, can stop the common rotation of the battery module when fastening, the result, can easily carry out terminal operation, and can prevent between monocell, to produce and reverse, again, make different shapes by becoming anodal nut member and reaching with the shape of its corresponding maintenance recess, thereby can solve the problem that misplugs into battery module with the shape of its corresponding maintenance recess and the nut member that becomes negative pole.

In battery power supply of the present invention, the end plate that can make a side of support box is fixed on the support box body, and the end plate of opposite side is bearing in structure on the support box body movably to the length direction of battery module.

Utilize so structure, even, also can support battery module all the time reliably because of the difference of thermal coefficient of expansion changes the relevant position of support box and battery module.

In battery power supply of the present invention, support box has the battery module support plate parallel with two end plates, being provided with on the battery module support plate slides inserts the through hole of each battery module, by each vibrationproof ring is pressed into each through hole, in battery module support plate upper edge itself and assemble the anti-vibration plate that integratedly have vibrationproof ring corresponding with each through hole, insert at the pars intermedia suitable position of the length direction that makes each battery module and to be embedded under the state of each vibrationproof ring, be bearing on the battery module support plate, in addition, the connecting portion of battery module between monocell has dead ring, and do the slotting dead ring external diameter that is embedded in the position of vibrationproof ring wherein bigger than other dead ring, again, the battery module support plate constitutes with the next door that the battery module in the division support box sets the space, and the structure integrally formed with support box can be made in this next door.

Utilize so structure, available simple structure realizes tackling the vibration-proof structure from the vibration protection battery module of outside.

In the present invention, have a plurality of described battery power supplies, can constitute the battery supply aggregate device that connected in electrical series between the battery power supply is connected, in addition, in this battery power supply, the stube cable that connects between the battery power supply is flexible.

Adopt above-mentioned battery supply aggregate device, can take out high-tension electric power, become the electric power of the motor driven power supply that is suitable for electric motor car, in addition, by connecting between the battery power supply with flexible stube cable, under the situation of the relevant position of two battery power supplies change, also can connect both reliably.

For achieving the above object, the present invention is a kind of end plate that is used for battery power supply, be electrically connected and the machinery battery module that a plurality of monocells form that is connected in series carries out many configurations in parallel and it is remained in the support box single, on the end plate that is positioned at described support box both ends, the path liner that is electrically connected between the terminal with battery module is set, its characteristics are, described end plate constitutes with resin plate, and the path liner is fixed on the resin plate by inserting to be shaped to bury underground, one side at resin plate, for the part that the battery module end that makes the path liner connects is exposed the maintenance recess that forms the chimeric maintenance in end of battery module, at the another side of resin plate, expose for the part that makes the contact of screw member that the battery module end of path liner is fastening and to form the fastening recess of using.

End plate of the present invention, utilization has above-mentioned structure and the bearing strength of battery module, rigidity is significantly improved, and it is easily simple that the operation in the support box of battery module can being packed into becomes.

In end plate of the present invention, the shape that will give the maintenance recess of chimeric maintenance to a side end that becomes the battery module positive pole is made different shapes with the shape that end to the side that becomes the battery module negative pole gives the maintenance recess of chimeric maintenance, and make when two shapes are overlapped all not structure by the opposing party comprised fully, in addition, there is interchangeability ground to be formed with on the function and keeps recess and the fastening recess of using, again, be positioned at the fastening recess of using of rear side that a side end that becomes the battery module positive pole is carried out the maintenance recess of chimeric maintenance, can form the structure of a side end that becomes the battery module negative pole being carried out the maintenance recess of chimeric maintenance, be positioned at the fastening recess of using of rear side that a side end that becomes the battery module negative pole carries out the maintenance recess of chimeric maintenance, can form the structure of a side end that becomes the battery module positive pole being carried out the maintenance recess of chimeric maintenance.

By making this structure, can solve the problem that misplugs into battery module, in addition, can provide a kind of end plate that two battery power supplies can be general in the battery supply aggregate device of 1 pair of battery power supply about having.

Again, for achieving the above object, the present invention be a kind of to single be electrically connected and machinery be connected in series battery module that a plurality of monocells form carry out many configurations in parallel make it remain in the support box and in described support box by force air ground is flowed and device that many battery modules in the support box are cooled off to a direction, its characteristics are, the flow direction of described air is the direction with the length direction quadrature of battery module.

Adopt the cooling device of battery supply of the present invention, because the flow direction of tempering air is the direction with the length direction quadrature of each battery module, just can easily carry out uniformly cooling mutually so need not special design to the monocell that constitutes each battery module, for because of flow to the measure that cooling effect that the atmosphere temperature rising that produces between the downstream brings reduces from upstream side, the unnecessary elephant carried out with battery module unit the prior art, if carry out and can more easily realize with battery power supply integral body.

In foregoing invention, monocell is a nickel-hydrogen secondary cell, and battery module is configured to level, constitute the structure that air flows upward from the below, in addition, with battery module respectively in length and breadth on the straight line horizontal arrangement become rectangular and remain in the support box, again, the mandatory air that makes preferably is configured in the forced action type fan of support box upstream side to the device that a direction flows.

Especially in the battery power supply that uses nickel-hydrogen secondary cell, at upstream side configuration forced action type fan, in support box, air is flowed upward from the below and battery module is cooled off by mandatory, then spill under the situation of hydrogen from battery module in contingency, can prevent reliably that also hydrogen is sent to forced action type fan one side, thereby can guarantee the safety when spilling hydrogen.

In the cooling device of the battery supply of the invention described above, for the flow velocity downstream that makes flow air in support box than the fast rectifying device that in support box, disposes of upstream side, in addition, downstream side part in support box makes the diminishing structure of aisle spare for making in support box flow air flow velocity slowly become to make greatly to the direction of air flows.

Adopt this structure, can make from upstream side downstream the air velocity of side flow increase gradually, owing to can roughly improve cooling effect with the square root of flow velocity with being directly proportional, so can compensate because of flow to the reduction of the cooling effect that atmosphere temperature rising brought that produces between the downstream from upstream side, can all battery modules roughly be cooled off uniformly.

In the cooling device of the battery supply of the invention described above, for making the area that is exposed to the battery module in the flow air in support box become the downstream than the little structure of having made configuration masking device in support box of upstream side, in addition, only the upstream side position in support box disposes masking device, and, can constitute described masking device for the area that is exposed to the battery module in the flow air in support box is slowly become greatly to the direction of air flows.

Adopt this structure, can prevent battery module cold excessively of upstream side, thereby the cooling to the battery module of battery power supply integral body can effectively utilize air stream, and can make the battery module in downstream contact more air than upstream side, so can compensate because of flow to the reduction of the cooling effect that atmosphere temperature rising brought that produces between the downstream from upstream side, can all battery modules roughly be cooled off uniformly.

And,, can realize the even cooling of the battery module of battery power supply integral body easily by making the combination of above-mentioned rectifying device and masking device.

In the cooling device of the battery supply of the invention described above, the both ends of each battery module are bearing on the two end plates of support box, suitable position in the centre position of two end plates, heating panel is adjusted in the cooling that will have a through hole that slide to insert each battery module parallel with them and can be to be assembled in the support box with taking off, the fin that the fin that rectifying device can be used or masking device are used with cool off the adjustment heating panel and be provided with integratedly.

Adopt this structure, can realize the even cooling of above-mentioned battery module, and a kind of simple in structure, easy cooling device of the assembleability of cooling adjustment heating panel on support box can be provided.

For achieving the above object, the present invention be a kind of have to single be electrically connected and machinery be connected in series battery module that a plurality of monocells form carry out many configurations flatly in parallel make its remain in the support box about 1 pair of battery power supply, below described support box, form the air supply chamber respectively, from the forced action type fan by about the air supply chamber and air is delivered to the lower openings of the support box of battery power supply separately, utilization is risen in each support box and is flowed the device that battery module is cooled off from the air that upper opening is discharged, its characteristics are, the forced action type fan has the direction parallel with end plate supplied with 2 air outlets from air to battery power supply separately, described air outlet is at the position opening of the end plate of a side separately that approaches each battery power supply, in the bottom surface of each air supply chamber, be formed with from the end plate side of the end plate side direction opposite side of a described side and make the diminishing slope of channel cross-sectional area.

Adopt foregoing invention, available 1 forced action type fan battery power supply is to the left and right blown, even the air capacity that in each battery power supply, in support box, enters from the air supply chamber, also because of being provided with described slope, and can prevent the air capacity error owing to the position on the direction of end plate side of opposite side from the end plate side direction of a side.

In the cooling device of the battery supply of the invention described above, near the inlet portion of air supply chamber, be provided with the rectification guide way that will change to the end plate side of opposite side from the flow direction of the air sent here at the air outlet of the position of the end plate that approaches side opening, in addition, near the inlet portion of air supply chamber, be provided with the wind direction guide way of the flow direction guiding top of the air that will send here from air outlet, in addition, on the slope of the bottom surface of air supply chamber, wind direction guide way with the flow direction of air guiding top is set, thereby can constitutes the structure that the air quantity of the middle part that is sent to the two end plates that is positioned at support box is guaranteed.

Adopt this structure, inlet leaked-in air from the air supply chamber of the position of the end plate that approaches a side can be utilized the rectification guide way and successfully be directed to the end plate side of opposite side, in addition, near the wind direction guide way that utilization is provided with the inlet portion of air supply chamber, prevent the mistake of air and do not go into, can guarantee near the air output in support box at the position described inlet portion, again, the wind direction guide way that utilization is provided with on described slope, can guarantee the air output that is positioned at the middle position of two end plates to support box, as a result, can not can be partial to privileged site, but tempering air is supplied with on whole regional ground equably in support box.Therefore, can be evenly and carry out the cooling of a plurality of battery modules in two battery power supplies effectively.

In the cooling device of the battery supply of foregoing invention, for the flow velocity downstream that makes flow air in support box than the fast structure of having made configuration rectifying device in support box of upstream side, in addition, upper portion position in support box, make the diminishing structure of aisle spare for making in support box flow air flow velocity slowly become to have made greatly to the direction of air flows, again, for making the area that is exposed to the battery module in the flow air in support box become upper side than the little structure of having made configuration masking device in support box of lower side, again, only the following quadrate part position in support box disposes masking device, and, can constitute described masking device for the area that is exposed to the battery module in the flow air in support box is slowly become greatly to the direction of air flows.

Adopt this structure,, can not be partial to above-below direction ground and equably a plurality of battery modules in each battery power supply be carried out air cooling because of the effect of described rectifying device and masking device.

Description of drawings

Fig. 1 is the diagrammatic side view of expression automobile and battery case unit relation.

Fig. 2 is a stereogram of roughly representing the battery case unit.

Fig. 3 is the stereogram of expression battery supply aggregate device.

(a) of Fig. 4 is the front view of expression battery module, (b) is its left view, (c) is its right view.

Fig. 5 is a stereogram of representing the battery module of outer tubulature with imaginary line.

Fig. 6 is the cutaway view of biopsy cavity marker devices of the major part of expression battery module.

Fig. 7 is the stereogram of exploded representation battery power supply.

Fig. 8 is the cutaway view of expression battery power supply.

Fig. 9 is the amplification view of the major part of expression battery power supply.

Figure 10 is a front view of seeing the 1st end plate from inner face side.

(a) of Figure 11 is the amplification view along A-A line among Figure 10, (b) is its front view.

Figure 12 is the amplification view along B-B line among Figure 10.

Figure 13 is that side is seen the front view of the 2nd end plate from the outside.

Figure 14 is the amplification view along C-C line among Figure 13.

Figure 15 is the schematic diagram of the connection status of expression battery module.

Figure 16 is the schematic diagram of the connection status of expression PTC transducer.

Figure 17 is the cutaway view of battery case unit.

Figure 18 is the exploded perspective view of battery case unit.

Embodiment

Fig. 1 represents to make internal combustion engine and battery driven motor combination and as the composite automobile of the drive source that travels.This composite automobile makes internal combustion engine with optimum condition, when producing the power output deficiency because of driving conditions, with the described power output deficiency of the output power back off of battery driven motor, in addition, absorb by when slowing down, carrying out regenerated electric power, compare with the independent traveling automobile of general internal combustion engine, the operating range of per unit fuel is increased tremendously.

As the electric power source of battery driven motor, use nickel-hydrogen secondary cell, be contained in Fig. 1, the battery case unit 1 shown in Figure 2.This battery case unit 1 is configured in the space between the rear platform 3 at pillion 2 and its rear.Battery case unit 1 has: the external shell 4 that is made of resin forming product; The forced draft fan 5 of portion's configuration within it; 1 pair of

battery power supply

6,6 about the internal configurations of external shell 4.For each battery power supply 6, be that 126 monocells (being also referred to as cell device (battery セ Le) sometimes) 7 that become the unit cells of nickel-hydrogen secondary cell are carried out the connected in electrical series connection, thereby can supply with the electric power of about 125V voltage.About battery power supply the 6, the 6th, same spline structure, and both connected in electrical series connect and constitute battery supply aggregate device 8, can supply with the electric power of about 250V voltage.That is, can supply with the electric power of about 250V voltage for battery driven motor.

Fig. 3 represent by about 1 pair of battery supply aggregate device 8 that

battery power supply

6,6 constitutes.Each battery power supply 6 has and is electrically connected and be connected in series battery module 9 that 6 monocells form of machinery carries out horizontal 3 rows, vertical 7 rows and amounts to 21 parallel connection configuration and make it remain on structure in the support box 10 single.

As Fig. 4, Fig. 5 and shown in Figure 6, battery module 9 is will to be connected in series between each monocell 7 by metal connecting ring 50 usefulness spot welding S.In addition, the square nut 11 that has bottom 11a at the positive terminal of battery module 9 is connected with the monocell 7 of positive terminal by described connecting ring 50 usefulness spot welding, the negative pole end of battery module 9 have bottom the six-sided nut 12 of 12a be connected with the monocell 7 of negative pole end by described connecting ring 50 usefulness spot welding.Be of a size of between the opposite side of size and described six-sided nut 12 between the opposite side of described square nut 11 identical, thereby these

nuts

11,12 can not keep recess 30b mistake chimeric with the square maintenance recess of aftermentioned 30a, hexagon.At described connecting portion, be equiped with the resinous dead ring 13a, the 13b that are used for preventing the short circuit of anodal and negative pole in the same monocell.For this

dead ring

13a, 13b, have different 2 kinds of external diameter, in amounting to 6

dead ring

13a, 13b, 2 external diameters representing with 13b are big.

Lateral circle surface at each monocell 7 is bonded with PTC (Positive Temperature Coefficient) transducer 14.This PTC transducer 14 be a kind of when heating up when monocell 7 internal abnormality resistance sharply increase and to its temperature sensor that detects unusually, for example, when reaching 80 ℃, its resistance sharply increases.The PTC transducer is also referred to as compound transducer (Port リセ Application サ).In addition, as this temperature sensor 14, can use the transducer except the PTC transducer certainly.6 PTC transducer 14 usefulness connecting lines 15 are connected in series, and the terminal plate 16 by flexible metallic plate constituted is installed at its two ends.Two-

terminal sheet

16,16 sets with protruding in battery module 9 two ends.

Outer peripheral face with resinous outer tubulature 17 clad battery modules 9 with electric insulating qualities such as polyvinyl chloride and heat-shrinkable.PTC transducer 14 and connecting line 15 thereof are reinstated outer tubulature 17 protections with monocell 7 one, become the square nut 11 of described positive pole, the six-sided nut 12 that becomes described negative pole and described two-

terminal sheet

16,16 and are exposed to outer tubulature 17.

Described support box 10 mainly comprises as Fig. 3, Fig. 7 and shown in Figure 8: rack body 18; The 1st end plate 19; The 2nd end plate 20; 21,21,21 and 2 blocks of vibration-

proof rubber plates

22,22 of 3 blocks of cooling heat dissipation plates.

Rack body 18 is the open integrally formed product of the resin that is rectangular box in top and bottom.The space 26 that forms in the inside of the

end walls

23,23 of 4 formation vertical walls and two

side

24,24 is divided into 3

space

26a, 26b, 26c about equally by 2

next doors

25,25 parallel with end walls 23,23.Divide the 2nd of space 26a, central authorities in the 1st of separately the 2nd end plate 20 sides and divide the 3rd of space 26b, the 1st end plate 19 sides and divide space 26c, be arranged in its central portion and abreast cooling heat dissipation plate 21 inserted from the top with

end walls

23,23 and be fixed on rack body 18.

On

end wall

23,23,

next door

25,25 and cooling

heat dissipation plate

21,21,21, on same correspondence position, be provided with horizontal stroke (horizontal direction) 3 rows vertical (vertical) 7 rows and amount to 21 through

hole

23a, 25a, 21a that are used for connecting battery module 9.Vertical 7 rows' of horizontal 3 rows through

hole

23a, 25a, 21a are with equidistant from distance setting in length and breadth, and the formation diameter bigger than the external diameter of battery module 9.

In an end of rack body 18, utilize the screw hole 70 at 4 angles and the 1st end plate 19 usefulness trip bolts are fixed on the end wall 23.The 27th, the flange part that forms around the end wall 23 of rack body 18 is used for holding the 1st end plate 19 with chimerism.In the other end of rack body 18, can maintain the 2nd end plate 20 with end wall 23 with separating, be connected.That is, with on the flange part 27 of the other end that is formed at rack body 18 movably state chimeric, maintain the 2nd end plate 20.

As Fig. 7～shown in Figure 12, the 1st end plate 19 usefulness resin plates constitute, and, path liner 28 utilization is inserted and is shaped and buries underground and be fixed in the resin plate, at the inner face 29 of resin plate, be provided with the hexagonal maintenance recess 30b that six-sided nut 12 is carried out chimeric maintenance that the square shaped nut 11 that becomes battery module 9 positive terminals carries out the square maintenance recess 30a of chimeric maintenance and becomes battery module 9 negative pole ends.Described

maintenance recess

30a, 30b are arranged on and described through hole 23a, position that 25a, 21a are corresponding, and integral body is provided with horizontal 3 rows, vertical 7 rows amount to 21.And, as shown in figure 10, with one in adjacent 2 be the square maintenance recess 30a of side of the positive electrode, the relation of another hexagonal maintenance recess 30b that is negative side, be arranged alternately 2 kinds and keep recess 30a, 30b.Each keeps

recess

30a, 30b because the shape of

nut

11,12 tablings of the electrode tip of formation and described battery module 9, so square nut 11 can only remain in the square maintenance recess 30a, can prevent trouble before it happens to situation about remaining in the square maintenance recess 30a with getting wrong.

In the outside 31 of the 1st end plate 19, with described maintenance recess 30a, position that 30b is corresponding, be formed with amount to 21 fastening with recess 32a, 32b.This fastening shape with recess 32a, 32b has square and 2 kinds of hexagons, square fasteningly be and the described square identical shape of maintenance recess 30a hexagonally fasteningly to be and the identical shape of described hexagonal maintenance recess 30b with recess 32b with recess 32a.And, as shown in figure 10, the hexagonal fastening recess 32b that uses is set at the back side of square maintenance recess 30a respectively, the square fastening recess 32a that uses is set at the back side of hexagonal maintenance recess 30b.Make this structure and be because, as constitute battery supply aggregate device 8 shown in Figure 3 about the 1st end plate 19,19 separately of 1 pair of battery power supply 6,6 can shared identical member.The 1st end plate 19 that is used for the battery power supply 6 in left side, can state group recited above be contained on the rack body 18, and be used for the 1st end plate 19 of the battery power supply 6 on right side, outside in using on the contrary, that is, will be equivalent to described fastening one side with recess 32a, 32b is assembled on the rack body 18 land used as maintenance recess 30a, 30b.

The metal path liner 28 that is electrically connected between the terminal of battery module 9 lays fixed in the central authorities of the resin plate thickness direction of the 1st end plate 19 by insert being shaped.And with described

maintenance recess

30a, 30b and the fastening part that surrounds with

recess

32a, 32b, path liner 28 exposes to the outside, at the center of this part of exposing, is provided with through hole 33.

The

nut

11,12 of battery module 9 ends, with with the state of described maintenance recess 30a, the chimeric maintenance of 30b from fastening with

recess

32a, 32b side by described through hole 33 with insert after bolt 34 screw, by fastening bolt 34, described

nut

11,12 can electric and mechanically combine with path liner 28.Become the square nut 11 of battery module 9 positive poles and since correctly with the square chimeric maintenance of maintenance recess 30a of side of the positive electrode, so the positive pole of battery module 9 just partly is connected with the side of the positive electrode of path liner 28 reliably.Equally, become the six-sided nut 12 of battery module 9 negative poles and since correctly with the chimeric maintenance of hexagonal maintenance recess 30b of negative side, so the negative pole of battery module 9 just partly is connected with the negative side of path liner 28 reliably.In addition, owing to can utilizing, described

nut

11,12 keep

recess

30a, 30b to be prevented from rotation, so can successfully carry out the terminal operation of bolt 34.

As Fig. 8, Figure 13 and shown in Figure 14, the 2nd end plate 20 is the same with the 1st end plate 19, constitute with resin plate, and path liner 28 is fixed in the resin plate by inserting to be shaped to bury underground, face 29 has the recess of

maintenance

30a, 30b within it, has fastening with

recess

32a, 32b in its outside 31.And the same with the situation of the 1st end plate 19, the nut of the end of each battery module 9 11,12 is by bolt 34 and electric with path liner 28 and mechanically combine.In addition, certainly can with the square relative position of maintenance recess 30a of the 1st end plate 19, dispose the hexagonal maintenance recess 30b of the 2nd end plate 20, with the relative position of hexagonal maintenance recess 30b of the 1st end plate 19, dispose the square maintenance recess 30a of the 2nd end plate 20.

Parallel connection is configured in 21 battery modules 9 in the battery power supply 6, the path liner 28 by described the 1st end plate 19 and the path liner 28 of the 2nd end plate 20 and electrically be connected in series.Bury the path liner 28 that is fixed in the 1st end plate 19 underground, there are 11, with among Figure 10 shown in (1), (3), (5), (7), (9), (11), (13), (15), (17), (19), (21), bury the path liner 28 that is fixed in the 2nd end plate 20 underground, there are 11, with among Figure 13 shown in (2), (4), (6), (8), (10), (12), (14), (16), (18), (20), (22), and the annexation of they and each battery module 9 is shown in Figure 15.

With (1) path liner with (22) expression, strictly, be the path liner, not as good as the former is called the negative terminal liner, that the latter is called the positive terminal liner is suitable, and the present invention does not contain the notion of path liner, carries out following explanation but be called the path liner for ease of the explanation present embodiment.With the path liner of (2)～(21) expressions, have in connected in electrical series with the contact of battery module 9 positive poles of adjacency and with the contact of negative pole, and the battery module 9 of described adjacency carried out electric being connected in series.As shown in figure 15, the path liner with shown in (2) has positive contact 2a and negative contacts 2b, and the path liner with (21) expression has positive contact 21a and negative contacts 21b.Among Figure 15, the contact of representing with 1ab becomes negative terminal in the integral body of battery supply aggregate device 8, connects at the connection end ring 35a (with reference to Fig. 7) of this power cable that is connected with battery driven motor 35.In addition, in Figure 15, the contact of representing with 22ab becomes the positive terminal of a battery power supply 6, connects in the connection end of this stube cable 36 (with reference to Fig. 3) that is connected with the negative terminal of another battery power supply 6.Voltage between described two contact 1ab, 22ab is approximately 125V.In addition, shown in stube cable 36 have pliability, even produce, also can between two battery power supplies 6,6, be electrically connected reliably along with the moving of the 2nd flexible end plate 20 of the heat of battery module 9.

As Fig. 7, Figure 10, Figure 12 and shown in Figure 15, the 1st end plate 19, the lead 37 that will be used for measuring the voltage between terminals of 2 battery module 9,9 units by insert being shaped is embedded in the resin plate.Shown in single-point line among Figure 15, on the path liner 28 of usefulness separately described (1), (3), (5), (7), (9), (11), (13), (15), (17), (19), (21) expression, connect lead 37, and formation can be to the voltage V between the path liner of for example (1) and (3) _1-3(19) and the voltage V between the path liner of (21) _19-21The structure of measuring.Described voltage V _1-32 battery modules 9,9 that connected in electrical series is connected between the path liner that is illustrated in (1) and the path liner of (3) i.e. voltage between 12 monocells 7, voltage V shown in Figure 15 _3-5, V _5-7V _19-21Also represent the voltage between same 2 battery modules 9,9.Measure these voltages, when detecting its abnormal conditions some are unusual owing to just produce among in belonging to 12 monocells 7 of corresponding 2 battery modules 9,9 at least 1, carry out so described correspondence can be limited in the narrower scope.

Each lead 37 is provided in the resin plate of the 1st end plate 19 as shown in figure 10, and concentrates on the regulation position of a side of the 1st end plate 19, gathers to the outside and draws.And as shown in Figure 7, voltage determination portion is fixed and be directed into to each lead 37 by banded resin sheet 38.

As Figure 10, shown in Figure 11, at the connecting portion of each lead 37 and path liner 28 fuse 39 is installed, to prevent flowing through overcurrent in the lead 37.This fuse 39 was installed on the prolongation sheet (fuse installation sheet) 40 that the lead that is wholely set with path liner 28 is connected usefulness by the later stage.Though the central portion table of described prolongation sheet 40, the back side, expose externally by peristome 41,42, but the part that will prolong sheet 40 through after processing stamping-out and after making off-state, become the structure of installation insurance silk 39 again, with the conducting disconnection portion both sides of (representing disconnection portion with imaginary line among Figure 11 (b)).Described peristome 41,42 carries out resin forming 39a then.

Described lead 37 only is located on the 1st end plate 19, is not arranged on the 2nd end plate 20.

For the 1st end plate 19, as Fig. 7, Figure 10 and shown in Figure 12, the terminal plate 16 of connecting line 15 that 6 described PTC transducers 14 are connected in series is connected the retention tab 43 of usefulness, be fixed on the resin plate by inserting to be shaped.

Retention tab 43 has screwed hole 45 exposing the part of being located at the pass through openings portion 44 on the 1st end plate 19.And as shown in figure 12, it is crooked that described terminal plate 16 is inserted described pass through openings portion 44 backs, then with screw 46 that terminal plate 16 and retention tab 43 is electric and mechanically be connected.

Retention tab 43 has 2 screwed

holes

45,45 at both ends, the effect as the path liner that the

terminal plate

16,16 between described connecting line 15 adjacent is electrically connected is arranged.Have only the retention tab of representing with P among Figure 10, Figure 16 only to have independent screwed hole 45, only bring into play effect as negative terminal.

For the 2nd end plate 20, as shown in figure 13, above-mentioned same retention tab 43 also is fixed on the resin plate by inserting to be shaped.The retention tab 43 of the 2nd end plate 20 also has 2 screwed

holes

45,45 at both ends, the effect as the path liner is arranged.Have only the retention tab of representing with Q among Figure 13, Figure 16 only to have independent screwed hole 45, only bring into play effect as positive terminal.

Figure 16 represents that the PTC transducer 14 that is connected with 126 all monocells 7 that will be disposed at battery power supply 6 by the retention tab 43 of the 1st end plate 19 and the 2nd end plate 20 carries out the state that connected in electrical series connects.Owing to be with to utilize 28 pairs of battery modules shown in Figure 15 of path liner 9 to carry out the situation that connected in electrical series is connected identical, so the detailed description omission.

On retention tab 43, be connected outside lead 47,48 (with reference to Fig. 3) respectively, and be connected with resistance measurement device 49 as the retention tab 43 of the negative terminal represented with P and the positive terminal of representing with Q.Even when producing unusual the intensification for 1 in described 126 monocells 7, the resistance value of the PTC transducer 14 that is connected with described monocell 7 increases by leaps and bounds, the result, resistance measurement device 49 detects its abnormal conditions.Therefore, can be limited to minimum 2 simple structure, the unusual intensification of all monocells 7 of battery power supply 6 is detected by quantity with outside lead 47,48.In addition, another battery power supply 6 for constituting battery supply aggregate device 8 also has same structure.

On the support box 10 of battery power supply 6, as Fig. 3, Fig. 7, Fig. 8 and shown in Figure 9, the two ends of 21 battery module 9 are fixed, are bearing in the 1st end plate 19, reach on the 2nd end plate 20.In addition, each battery module 9 is bearing in the through hole 25a in described

next door

25,25 by

vibrationproof ring

51,51 at 2 positions from about respectively 1/3 extension position in two ends of its length direction.This vibrationproof ring 51 is integrally formed with vibration-proof rubber plate 22, and outstanding its surface.Vibration-proof rubber plate 22 with 21 vibrationproof rings 51, by all vibrationproof rings 51 are pressed into the through hole 25a in next door 25 and along the next door 25 one side install.

As, support box 10 is divided into 3 spaces by 2 next doors 25,25, promptly, in turn be divided into the 1st from the 2nd end plate 20 to the 1st end plate 19 and divide space 26a, the 2nd division space 26b, the 3rd division space 26c, and at division space 26a separately, the central portion of 26b, 26c, insert cooling from the top and adjust heating panel 21 and be fixed in the rack body 18.Fig. 8, Figure 17 are illustrated in the cooling adjusting fin 52 (comprising the 1st layer of fin 52a, the 2nd layer of fin 52b, the 3rd layer of fin 52c, the 4th layer of fin 52d, the 5th layer of fin 52e, the 6th layer of fin 52f, the 7th layer of fin 52g, the 8th layer of fin 52h) that forms on the cooling adjustment heating panel 21 and the relation of each battery module 9 of the through hole 21a of the insertion cooling adjustment heating panel 21 that slides.As everyone knows,, be the unusual intensification that prevents to bring, need cool off the device of usefulness battery because of the battery heating for battery power supply 6.In the present embodiment, with the lower opening portion of support box 10 as air introduction part 53, the top peristome as air leading-out portion 54, by (upstream side) (downstream) flow air stream upward from the below, is cooled off each battery module 9 of vertical 7 horizontal rows, 3 row of horizontal configuration.

The air cooling structure of battery module 9 is described with the example that is divided into the 2nd division space 26b that is positioned at central authorities, then as Fig. 7, shown in Figure 8, the plate body 21b that adjusts heating panel 21 from cooling regulates fin 52 to each outstanding cooling of two directions and extends to position near

next door

25,25, constitutes the structure that can regulate the flow direction and the flow velocity of described air stream.As shown in figure 17, near the bottom separately of 3 through hole 21a of orlop (being also referred to as the 1st layer sometimes) (through hole be expressed as 1.～7.), the cross section is set and is the 1st layer of circular-arc fin 52a from the 1st layer to the 7th layer in Figure 17, with control as far as possible air directly with the 1st layer of ratio that battery module 9 contacts.

Separately 3 through holes of the 1st layer 3 through holes of the 2nd layer above 1. with it 2., 3 through holes of the 2nd layer 2. and 3 through holes of the 3rd layer above it 3., 3 through holes of the 3rd layer 3 through holes of the 4th layer above 3. with it centre position up and down between the corresponding through hole in 4., the 2nd layer of fin 52b, the 3rd layer of fin 52c, the 4th layer of fin 52d that cross sectional shape has being of disconnection portion flat H word shape are set.The 2nd layer of fin 52b is the both sides formation disconnection t of portion of H word shape portion in the cross section, t, the 3rd layer of fin 52c is the formation disconnection t1 of portion of central authorities of H word shape portion in the cross section, the 4th layer of fin 52d is H word shape portion in the cross section central authorities form the t2 of disconnection portion of big width, make battery module 9 increases of the 1st layer of ratio that air directly contacts with the 2nd layer battery module 9, and then make the battery module 9 of the 2nd layer of ratio that air directly contact with the 3rd layer battery module 9 increase, and then make battery module 9 increases of the 3rd layer of ratio that air battery module 9 direct and the 4th layer contacts.

3 through holes of the 4th layer 4. and 3 through holes of the 5th layer above it 5. between, the fin that the ellipse that 2 cross sections are vertical length (cross sectional shape is hollow to ellipse shown in Figure 17 for lightweight, but does not also have the ellipse of hollow bulb) is set and 2 cross sections be vertical length half elliptic (hollow, no hollow bulb all can) fin by horizontal 4 the 5th layer of fin 52e that fin constituted side by side.About the oval-shaped fin that 2 cross sections that are positioned at center side are vertical length lays respectively at around it up and down 4 through holes 4., 4., 5., central point 5., the half elliptic fin that 2 cross sections that are positioned at both end sides are vertical length the up/down perforation hole of correspondence 4., 5. up and down in the middle of be positioned at outside side, and join with the side of described plate body 21b.3 through holes of the 5th layer 5. and 3 through holes of the 6th layer above it 6. between and 3 through holes of the 6th layer 6. and 3 through holes of the 7th layer above it 7. between, also be provided with by with the roughly same shape of the 5th layer of fin 52e and be in 4 the 6th layer of fin 52f and the 7th layer of fin 52g that fin constituted of same relevant position.Again in 3 through hole top positions 7. of the superiors' (being also referred to as the 7th layer sometimes), be provided with by the first half and cut the fin of back shape and be in 4 the 8th layer of fin 52h that fin constituted of same relevant position with the 7th layer of fin 52g with each fin of the 7th layer of fin 52g.And, do the sectional area of each fin of the 6th layer of fin 52f bigger than the sectional area of each fin of the 5th layer of fin 52e, do the sectional area of each fin of the 7th layer of fin 52g bigger than the sectional area of each fin of the 6th layer of fin 52f.So, regulate fin 52e by cooling off to upside more, 52f, the sectional area of 52g is done greatly more, then the passage of the air stream that forms between battery module 9 and cooling adjusting fin 52 makes progress and more dwindles, the flow air flow velocity is big around the battery module 9 of the 4th layer of flow air velocity ratio around the 5th layer the battery module 9, the flow air flow velocity is big around the battery module 9 of the 5th layer of flow air velocity ratio around the 6th layer the battery module 9, and the flow air flow velocity is big around the battery module 9 of the 6th layer of flow air velocity ratio around the 7th layer the battery module 9.Here it is utilizes when making the air velocity increase, the structure that cooling effect and its square root increase with being directly proportional.

Divide space 26b with the 2nd and as an example the air cooling structure of battery module 9 has been carried out above-mentioned explanation, the air cooling structure in the 1st division space 26a, the 3rd division space 26c in addition constitutes too.And in any one, with from below in a plurality of battery modules 9 of Multi-layer Parallel configuration on the direction of air stream quadrature above flowing to, for the battery module 9 that belongs to one group of lower layer side (occasion shown in Figure 17 is the battery module 9 from the 1st layer to the 4th layer of configuration), cover the bottom of battery module 9 by the fin 52a～52d of the shielded type that the air capacity that directly contacts with battery module 9 is regulated, and, make along with from orlop (the 1st layer) (the 2nd layer to the upper strata, the 3rd layer, the 4th layer) and structure that the air capacity that contacts with battery module 9 is slowly increased.Thus, by the air capacity that contacts with battery module 9 is increased, to prevent the supercooling of undermost battery module 9, and reduce along with compensate the cooling effect that slowly produces the air that heats up because of battery heating towards the upper strata, thereby roughly equably the battery module 9 of each layer (the 1st layer～the 4th layer) is cooled off.

The air that the battery module 9 that belongs to one group of lower layer side is cooled off as shown in figure 17, rise in the passage 56,56 that forms between the passage 55,55 that its more than half air forms between left and right sides battery module 9 and battery module 9 and the sidewall 24, a part enters battery module 9 rear flank, to described passage 55,56 interflow, arrive the below of the 5th layer battery module 9 again.Then described air stream is used for cooling off the battery module 9 (occasion shown in Figure 17 is the battery module 9 from the 5th layer to the 7th layer of configuration) that belongs to one group of upper layer side, because the 4th layer of battery module 9 that belongs to one group of lower layer side cooled off, so air themperature is quite high, cooling effect reduces.For compensating it, make the reduced cross-sectional area of air stream, improve battery module 9 ambient airs stream flow velocity, the battery module 9 that belongs to one group of upper layer side is cooled off.At described each passage 55,55,56,56 top, be positioned at the 5th layer, the 6th layer, each battery module 9 of the 7th layer tiltedly down and the oblique upper of the 7th layer battery module 9 ground set with and battery module 9 between the interval do little and improve fin 52e～52h that air flows the passage scaled-down version that flow velocity uses, and, for along with (the 5th layer towards the upper strata, the 6th layer, the 7th layer) and take turns doing described interval little, reduce with the cooling effect that compensates the air that slowly heats up because of rising, battery module 9 ambient airs are flowed the flow velocity raising, thereby can roughly cool off the battery module 9 of each layer (the 5th layer～the 7th layer) equably.

Like this, constituted the structure of roughly equably all battery modules 9 from orlop to the superiors being cooled off.In addition, in the present embodiment, fin 52a～52d to the battery module 9 usefulness shielded type of 4 layers of downsides, fin 52e～52h to the battery module 9 usefulness passage scaled-down versions of 3 layers of upsides has constituted the structure that can roughly cool off all battery modules 9 equably, certainly, also can be to the fin of the battery module 9 usefulness shielded type of 3 layers of downsides for example, corresponding to middle the 4th layer of battery module 9 fin is not set,, thereby air stream is adjusted the fin of the battery module 9 usefulness passage scaled-down versions of 3 layers of upsides.

Because the battery that uses is a nickel-hydrogen secondary cell in the present embodiment, so must seek when unusual for the safety that spills hydrogen from battery can.The force feed of the forced draft fan 5 of described air and being sent in the battery power supply 6 through having multi blade fan, for make described hydrogen not be sent to described forced draft fan 5 and drive its inside of motor 57 or its near, this consideration particular importance.Therefore, in the present embodiment, as Fig. 8, Figure 17 and shown in Figure 180, with forced draft fan 5, motor 57 is configured in the bottom, side of described support box 10, make its air outlet 58 be positioned at the below of support box 10, air by forced draft fan 5 force feeds, after arriving the air introduction part 53 of support box 10 lower ends by the air supply chamber 59 that is formed at described external shell 4 bottoms, in support box 10, flow from bottom to top and battery module 9 is cooled off, after leaving the air leading-out portion 54 of support box 10 then, discharge chamber 60 by the air that is formed at described external shell 4 tops, discharge to the outside of external shell 4 from the outlet 61 that is formed at described external shell 4 top sides.By adopting this structure,, can prevent that also hydrogen is sent to forced draft fan 5 one sides just in case the battery module 9 in support box 10 spills hydrogen.

The structure of the

battery power supply

6,6 about Figure 18 represents with 1 forced draft fan 5 tempering air to be sent to.The 1 pair of multi blade fan and

air outlet

58,58 about described forced draft fan 5 has suck the indoor air of cars from air suction inlet 62, again from 1 pair of

air outlet

58,58 with even air the

air supply chamber

59,59 about delivering to.

The base plate 4a of the described external shell 4 of each air supply chamber 59 usefulness, the front side wall 4b, the following space that surrounds of support box 10 of forward position that is erected at Figure 18 of base plate 4a constitute, at the inlet 63 relative, will erect and be arranged on the described base plate 4a from the air guide inboard of air outlet 58 and several forniciform rectification guide

way

64a, 64b, the 64c of side with described air outlet 58.Described inlet 63 is located at the center side of the Width of external shell 4, and is configured to be positioned at the below that the 1st of support box 10 is divided space 26a.Described base plate 4a has outside side one side in air supply chamber 59, and promptly divide space 26b, the 3rd and divide the slope 65 that 26c one side in space slowly becomes the high position to the 2nd, and, form and have the slope 66 that slowly becomes the high position to the inboard.In addition, the 2nd of 65 the divides the boundary portion lower position that space 26b and the 3rd divides space 26c on the slope, and the lower wind direction guide way 67 (with reference to Fig. 8) of height with the air guide top is set.

From described inlet 63 inhaled airs, lead inboard and the 2nd, the

3rd division space

26b, 26c by each middle formed 2 air duct, simultaneously in its a part of guiding the 1st division space 26a at 3 rectification guide

way

64a, 64b, 64c.Cross to go at described air duct for the air stream of managing to make this moment, the 1st air capacity of dividing in the 26a of space that leads is enough, then is provided with the wind direction guide way 68 above the air guide near the inlet portion of the air duct of the 2nd end plate 20 sides.From described 2 air that air duct comes out, its a part of guiding the 2nd is divided in the 26b of space, remainder the 3rd below of dividing space 26c of leading.At this moment, the 2nd air capacity of dividing in the 26b of space is enough in order to lead, and described wind direction guide way 67 is set.The 3rd air of dividing space 26c below that leads is directed to the 3rd and divides in the 26c of space.

As mentioned above, by

rectification guide way

64a, 64b, 64c, wind direction guide way 67,68,

slope

65,66 are set, can make that to enter into the air capacity of respectively dividing

space

26a, 26b, 26c roughly even, can prevent from simultaneously to enter in each divide the space in face of side be inhomogeneous state with inboard air capacity.In addition, divide the middle position that 2 monocells 7 in the 26b of space are in battery module 9 owing to be configured in the 2nd, be subjected to being configured in the 1st, the 3rd influence of heating of dividing the monocell 7 of

space

26a, 26c easily, so, compare the cooling of often more necessary air stream with described monocell 7.

Therefore, described wind direction guide way 67 is set preferably, other divides the air capacity of

space

26a, 26c so that the air capacity in the 2nd division space 26b that leads is a bit larger tham guiding.

As Figure 18, shown in Figure 8, on the base plate 4a of described external shell 4, have support box mount pad portion 71, here, about support box 10 usefulness bolts, nut 73 be fixed in its foot 72.In addition, at the circumference of external shell 4, has the flange portion 74 that is installed on the automobile body.

In the above-described embodiments, as shown in figure 15, all battery modules 9 in the battery power supply 6 connected in electrical series all the time connect, but the safety for seeking when maintenance activity etc. preferably is provided with the safety plug 75 that the described temporarily disconnected that is connected in series is used.Therefore, shown in imaginary line among Figure 15, for example making, the path liner 28 of (17) exposes at the peristome of being located on the 1st end plate 19, to be cut off at the position that N represents in back processing, the position that 17a, 17b are represented is set again gets final product with the loop that safety plug 75 usefulness leads 76,77 to be opened/closed are connected.

Adopt the present invention, can provide a kind of bearing strength of battery module, rigidity of significantly making to improve, simultaneously can be simple and the errorless ground that inserts battery module is assembled in battery power supply and employed end plate thereof in the support box.

Adopt the present invention in addition, with battery module and path liner when fastening, can solve and between the monocell that constitutes battery module, produce the shortcoming of reversing, in addition, can obtain simply to carry out the voltage detecting of battery module and the effects such as unusual intensification detection of monocell rational in infrastructurely.

Again, adopt the present invention, the battery module that can be disposed in the support box many parallel connections equably cools off, and also can the monocell that constitute battery module be cooled off each other uniformly.

Especially adopt the present invention, can solve the relative upstream side of tempering air heats up and the shortcoming of reduction cooling effect in the downstream, and all can evenly cool off with respect to the battery module that is in any upstream side, downstream, and can prevent the supercooling of the battery module of upstream side, thereby effectively utilize air stream.

In addition, adopt the present invention, can guarantee the fail safe of relevant hydrogen, can the battery supply that use nickel-hydrogen secondary cell be cooled off simultaneously.

In cooling, only use 1 forced action type fan just can all battery modules evenly to be cooled off for battery supply aggregate device with 1 pair of battery power supply again.

Claims

1. the cooling device of a battery supply, be to single be electrically connected and machinery be connected in series battery module that a plurality of cylinder type monocells form carry out many configurations in parallel make it remain in the support box and in described support box by force air ground is flowed and device that many battery modules in the support box are cooled off to a direction, it is characterized in that

The flow direction of described air is the direction with the length direction quadrature of battery module.

2. the cooling device of battery supply as claimed in claim 1 is characterized in that, battery module is configured to level, constitutes the structure that air flows upward from the below.

3. the cooling device of battery supply as claimed in claim 1 is characterized in that, with battery module respectively in length and breadth on the straight line horizontal arrangement become rectangular and remain in the support box.

4. the cooling device of battery supply as claimed in claim 1 is characterized in that, forcibly makes air to the device that a direction flows, and is the forced action type fan that is configured in the support box upstream side.

5. the cooling device of battery supply as claimed in claim 1, it is characterized in that, the both ends of each battery module are bearing on the two end plates of support box, suitable position in the centre position of two end plates, heating panel is adjusted in the cooling that will have a through hole that slide to insert each battery module parallel with them and can be to be assembled in the support box with taking off, the fin that fin that rectifying device is used or masking device are used with cool off the adjustment heating panel and be provided with integratedly.

6. the cooling device of battery supply as claimed in claim 1 is characterized in that, monocell is a nickel-hydrogen secondary cell.