CN203826452U - Battery module with medium cooling and gas balancing functions - Google Patents

Abstract

The utility model discloses a battery module with medium cooling and gas balancing functions. The battery module with the medium cooling and gas balancing functions comprises a shell, a gas balancing device, an external balancing pipeline, a medium cooling device and a battery fixing seat, wherein a plurality of battery case chambers are arranged in the shell, one battery cell is arranged in each battery case chamber; an internal balancing gas circuit is arranged between adjacent battery case chambers; the external balancing pipeline is connected in gas space above the battery case chambers; the medium cooling device comprises a battery cooling channel arranged on the side wall of the shell, the battery cooling channel is connected with a circulating cooling device; the battery fixing seat is arranged at the bottom of the shell; the gas balancing device can guarantee that the air pressures of all the battery case chambers are the same, battery parameters can be balanced as the air pressures are balanced; the medium cooling device timely takes away heat produced in a charging or discharging process of a battery, and the difficulty of heat dissipation of the battery during high magnification charging and discharging is thoroughly solved. The battery module with the medium cooling and gas balancing functions has the advantages that structure is reasonable and compact, the problems of gas balancing and heat dissipation of the battery during high magnification charging and discharging in the prior art are solved, and service life of the battery is prolonged.

Description

A kind of battery module with the cooling and gas equalization function of medium

Technical field

The utility model relates to a kind of electric car power supply, relates in particular to a kind of medium cool batteries module.

Background technology

Fast development along with New-energy electric vehicle, existing traditional lead acid accumulator is because problems such as environmental requirement and useful lifes, restricted the development of motor vehicle, novel Ni-MH battery is high because having charge-discharge magnification, can complete at short notice charging, there is best cryogenic property simultaneously, but the high power charging-discharging of battery, can produce very high temperature, be restriction Ni-MH battery a great problem in reality is used.

Summary of the invention

Technical problem to be solved in the utility model is to provide that a kind of charge-discharge magnification is high, a kind of battery module with the cooling and gas equalization function of medium of environmental protection and long service life.

For solving the problems of the technologies described above, the technical solution of the utility model is: a kind of battery module with the cooling and gas equalization function of medium, comprising:

Housing, in described housing, be provided with some separate and sealing battery compartment, a battery is installed in battery compartment described in each, in described battery compartment, be loaded with electrolyte;

Gas balancer, is respectively equipped with the internal balance gas circuit that is communicated with described battery compartment between adjacent described battery compartment, described internal balance gas circuit is positioned at the gas compartment more than described liquid level of electrolyte; In the described gas compartment, be connected with and outreach balanced pipeline;

Medium cooling device, comprises the battery cooling duct on the sidewall that is arranged on described housing, and the cooling medium inlet of described battery cooling duct and coolant outlet are connected with cooling back installation;

Battery mounting, is arranged on the bottom of described housing by housing fixture, two long sides of described battery mounting are provided with expansion jockey.

As a kind of preferred technical scheme, described battery comprises the pole piece group being comprised of positive plate and negative plate, described positive plate and negative plate interval vertical array, described positive plate stretches out and is vertically connected with plus plate current-collecting body from a side of described pole piece group, and described plus plate current-collecting body is connected with positive current carrier; Described negative plate stretches out and is vertically connected with negative current collector from the opposite side of described pole piece group, and described negative current collector is connected with negative current carrier.

As a kind of preferred technical scheme, described positive current carrier comprises the anodal baffler being connected with described plus plate current-collecting body, the top of described anodal baffler is provided with the anodal diversion column mounting panel of vertical bending, on described anodal diversion column mounting panel, anodal diversion column is installed; Described negative current carrier comprises the negative pole baffler being connected with described negative current collector, and the top of described negative pole baffler is provided with the negative pole diversion column mounting panel of vertical bending, on described negative pole diversion column mounting panel, negative pole diversion column is installed.

As a kind of preferred technical scheme, described in outreach balanced pipeline and comprise the balanced transverse tube being arranged on described housing, described balanced transverse tube is provided with balanced vertical tube, the two ends of described balanced transverse tube are installed with that equalized seal stops up or expansion tube connector.

As a kind of preferred technical scheme, described expansion tube connector is provided with balanced locking projection, and described housing is provided with the equilibrium locking draw-in groove coordinating with described balanced locking projection; Described equalized seal is also provided with the equilibrium locking projection corresponding with described balanced locking draw-in groove on stopping up.

As a kind of preferred technical scheme, described housing comprises the battery case of upper end open, in described battery case, be set with the battery inner casing of upper end open, the port of described battery case and described battery inner casing is tightly connected, described in each, battery compartment is arranged in described battery inner casing, in the described battery inner casing between adjacent described battery compartment, is provided with battery compartment wall; The top of described battery inner casing is provided with battery cover; Between described battery inner casing and described battery case, be provided with the gap as described battery cooling duct; Described battery case is provided with cooling medium inlet and coolant outlet;

Described battery inner casing outer peripheral face in described battery cooling duct is provided with labyrinth channel dividing plate, described labyrinth channel dividing plate and described battery case inwall, described battery inner casing form cooling duct, labyrinth, described cooling medium inlet and the outlet of described coolant are separately positioned on the two ends of described battery case bottom surface, and the two ends of cooling duct, described labyrinth are communicated with described cooling medium inlet and the outlet of described coolant respectively.

As a kind of preferred technical scheme, two side external surfaces of described battery inner casing are respectively equipped with to the cooling crack extending in the wall of described battery compartment wall, described labyrinth channel dividing plate extends to described battery compartment within the walls along described cooling crack surface, described battery case inwall is provided with the divider passages wallboard being plugged in described cooling crack, and described battery case inwall, described battery inner casing outer wall, described divider passages wallboard, described labyrinth channel dividing plate, described cooling crack inner surface form the described battery cooling duct around battery compartment described in each.

As a kind of preferred technical scheme, described cooling back installation comprises the cooling vertical tube that described cooling medium inlet is connected separately with described coolant outlet, described cooling vertical tube lower end is connected with cooling transverse tube, one end of described cooling transverse tube is provided with expansion and pegs graft female mouthful, the other end of described cooling transverse tube is provided with the expansion grafting rim of the mouth coordinating with the female mouth of described expansion grafting, without the described expansion of pegging graft, peg graft female mouthful and be installed with female mouthful of shutoff plug, without the expansion grafting rim of the mouth of pegging graft, by pipeline, be connected with refrigerating units.

As a kind of preferred technical scheme, described housing fixture comprises the claw that is separately positioned on described battery mounting both sides, and described housing is provided with the Ka Tai coordinating with described claw.

As a kind of preferred technical scheme, described expansion jockey comprises the dovetail groove being arranged on described battery mounting side, and another side of described battery mounting is provided with the dovetails of mating with described dovetail groove.

Owing to having adopted technique scheme, a kind of battery module with the cooling and gas equalization function of medium, comprise: housing, in described housing, be provided with some separate and sealing battery compartment, a battery is installed in battery compartment described in each, in described battery compartment, is loaded with electrolyte; Gas balancer, is respectively equipped with the internal balance gas circuit that is communicated with described battery compartment between adjacent described battery compartment, described internal balance gas circuit is positioned at the gas compartment more than described liquid level of electrolyte; In the described gas compartment, be connected with and outreach balanced pipeline; Medium cooling device, comprises the battery cooling duct on the sidewall that is arranged on described housing, and the cooling medium inlet of described battery cooling duct and coolant outlet are connected with cooling back installation; Battery mounting, is arranged on the bottom of described housing by housing fixture, two long sides of described battery mounting are provided with expansion jockey; Internal balance gas circuit makes each battery compartment air pressure identical with the gas balancer outreaching after balanced pipeline coordinates formation airtight, and battery parameter also can be balanced because of the equilibrium of air pressure; Battery cooling duct and cooling back installation coordinate, and the heat producing in battery charge or discharge process is taken away in time, have thoroughly solved the heat radiation difficult problem of battery when high power charging-discharging; The utility model compactness rational in infrastructure, while having solved in prior art high power charging-discharging, the heat dissipation problem of battery and gas equalization problem, extended useful life of battery.

accompanying drawing explanation

The following drawings is only intended to the utility model to schematically illustrate and explain, does not limit scope of the present utility model.Wherein:

Fig. 1 is the explosive view of the utility model embodiment;

Fig. 2 is the package assembly schematic diagram of battery inner casing, battery case and the battery mounting of the utility model embodiment;

Fig. 3 is the explosive view of the battery of the utility model embodiment;

Fig. 4 is the cutaway view of the utility model embodiment;

Fig. 5 is I place enlarged drawing in Fig. 4;

Fig. 6 is the battery inner casing structural representation of the utility model embodiment;

Fig. 7 is the scheme of installation that the utility model embodiment outreaches balanced pipeline;

Fig. 8 is the locking state schematic diagram that the utility model embodiment outreaches balanced pipeline;

Fig. 9 is the explosive view of the utility model embodiment cooling back installation;

Figure 10 is the structural representation that the utility model forms group of battery modules;

Figure 11 is the vertical view of the utility model embodiment;

Figure 12 is II place enlarged drawing in Figure 11;

Figure 13 is the expansion connection status structural representation of the utility model embodiment cooling water pipe;

In figure: 11-battery case; 12-battery inner casing; 21-pole piece group; 22-positive plate; 23-negative plate; 241-anode collection plate; 242-positive plate engaging lug; The anodal water conservancy diversion engaging lug of 243-; The anodal baffler of 244-; The anodal diversion column mounting panel of 245-; The anodal diversion column of 246-; 251-negative pole currect collecting plate; 252-negative plate engaging lug; 253-negative pole water conservancy diversion engaging lug; 254-negative pole baffler; 255-negative pole diversion column mounting panel; 256-negative pole diversion column; The rectangular welding hole of 257-; 26-electrode connecting plate; 271-positive terminal; 272-negative terminal; 28-pole nut; 31-battery cover; 32-upper cover; 41-internal balance gas circuit; The balanced transverse tube of 42-; The balanced vertical tube of 43-; 44-equalized seal stops up; 45-expands tube connector; The balanced locking of 46-projection; The balanced locking of 47-draw-in groove; 51-battery cooling duct; 511-battery compartment wall; 512-labyrinth channel dividing plate; 513-divider passages wallboard; 52-cooling water pipe; The cooling transverse tube of 521-; The cooling vertical tube of 522-; 53-refrigerating units; Female mouthful of shutoff plug of 54-; 551-expansion is pegged graft female mouthful; 552-expands grafting rim of the mouth; 61-battery mounting; 621-claw; 622-Ka Tai; 63-dovetail groove; 64-dovetails; 71-liquid filling hole; 72-liquid feeding plug.

Embodiment

Below in conjunction with drawings and Examples, further set forth the utility model.In the following detailed description, only by the mode of explanation, some one exemplary embodiment of the present utility model has been described.Undoubtedly, those of ordinary skill in the art can recognize, in the situation that not departing from spirit and scope of the present utility model, can to described embodiment, revise by various mode.Therefore, accompanying drawing is illustrative with being described in essence, rather than for limiting the protection range of claim.

As depicted in figs. 1 and 2, a kind of battery module with the cooling and gas equalization function of medium, comprising:

Housing, in described housing, be provided with some separate and sealing battery compartment, a battery is installed in battery compartment described in each, in described battery compartment, be loaded with electrolyte; As shown in Figure 3, described battery comprises the pole piece group 21 being comprised of positive plate 22 and negative plate 23, described positive plate 22 and negative plate 23 interval vertical array, described positive plate 22 stretches out and is vertically connected with plus plate current-collecting body from a side of described pole piece group 21, described plus plate current-collecting body comprises anode collection plate 241, upper positive plate engaging lug 242 and the anodal water conservancy diversion engaging lug 243 extending in opposite directions that be vertically provided with of described anode collection plate 241; Described plus plate current-collecting body is connected with positive current carrier by described anodal water conservancy diversion engaging lug 243, described positive current carrier comprises the anodal baffler 244 being connected with described plus plate current-collecting body, the top of described anodal baffler 244 is provided with the anodal diversion column mounting panel 245 of vertical bending, on described anodal diversion column mounting panel 245, anodal diversion column 246 is installed; Described negative plate 23 stretches out and is vertically connected with negative current collector from the opposite side of described pole piece group 21, described negative current collector comprises negative pole currect collecting plate 251, upper negative plate engaging lug 252 and the negative pole water conservancy diversion engaging lug 253 extending in opposite directions that be vertically provided with of described negative pole currect collecting plate 251; Described negative current collector is connected with negative current carrier by described negative pole water conservancy diversion engaging lug 253, described negative current carrier comprises the negative pole baffler 254 being connected with described negative current collector, the top of described negative pole baffler 254 is provided with the negative pole diversion column mounting panel 255 of vertical bending, on described negative pole diversion column mounting panel 255, negative pole diversion column 256 is installed.On described anodal baffler 244 and described negative pole baffler 254, be provided with rectangular welding hole 257.

In the present embodiment, adjacent battery adopts and is connected in series, and particularly, between the described anodal diversion column 246 of adjacent described battery and described negative pole diversion column 256, electrode connecting plate 26 is installed; The anodal diversion column 246 in outside that is positioned at the battery of battery tandem sequence head end is connected with positive terminal 271; The outside negative pole diversion column 256 that is positioned at the battery of battery tandem sequence end is connected with negative terminal 272; The top of the top of positive terminal 271 and negative terminal 272 all passes and is provided with pole nut 28 from the top of housing, and positive terminal 271 is the positive terminal of cell voltage output, and negative terminal 272 is the negative pole end of cell voltage output.

Gas balancer, as shown in Figure 6, is respectively equipped with the internal balance gas circuit 41 that is communicated with described battery compartment between adjacent described battery compartment, described internal balance gas circuit 41 is positioned at the gas compartment more than described liquid level of electrolyte; As shown in Figure 1, in the described gas compartment, be connected with and outreach balanced pipeline, describedly outreach balanced pipeline and comprise the balanced transverse tube 42 being arranged on described housing, described balanced transverse tube 42 is provided with balanced vertical tube 43, as shown in Figure 7 and Figure 8, the two ends of described balanced transverse tube 42 are installed with equalized seal obstruction 44 or expansion tube connector 45, and described expansion tube connector 45 is provided with balanced locking projection 46, and described housing is provided with and described balanced equilibrium locking draw-in groove 47 of locking projection 46 cooperations; Described equalized seal stops up on 44 and is also provided with and the described balanced equilibrium locking projection 46 that draw-in groove 47 is corresponding of locking; Particularly, described housing comprises the battery cover 31 that is positioned at described housing top, on described battery cover 31, upper cover 32 is installed, described battery cover 31 is provided with balanced pipeline hole, the bottom of described balanced vertical tube 43 is passed described balanced pipeline hole and is communicated with described internal balance gas circuit 41, between described balanced vertical tube 43 and described balanced pipeline hole, sealing ring is installed, described balanced locking draw-in groove 47 is arranged on described upper cover 32.

Medium cooling device, comprises the battery cooling duct 51 on the sidewall that is arranged on described housing, and the cooling medium inlet of described battery cooling duct 51 and coolant outlet are connected with cooling back installation;

As shown in Figure 1, Figure 2 with shown in Fig. 6, described housing comprises the battery case 11 of upper end open, in described battery case 11, be set with the battery inner casing 12 of upper end open, described battery case 11 is tightly connected with the port of described battery inner casing 12, described in each, battery compartment is arranged in described battery inner casing 12, in the described battery inner casing 12 between adjacent described battery compartment, is provided with battery compartment wall 511; The top of described battery inner casing 12 is provided with battery cover 31; Between described battery inner casing 12 and described battery case 11, be provided with the gap as described battery cooling duct 51; Described battery case 11 is provided with cooling medium inlet and coolant outlet; Described battery inner casing 12 outer peripheral faces in described battery cooling duct 51 are provided with labyrinth channel dividing plate 512, described labyrinth channel dividing plate 512 forms cooling duct, labyrinth with the inwall of described battery case 11, described battery inner casing 12, described cooling medium inlet and the outlet of described coolant are separately positioned on the two ends of described battery case 11 bottom surfaces, and the two ends of cooling duct, described labyrinth are communicated with described cooling medium inlet and the outlet of described coolant respectively.

As Fig. 6, shown in Figure 11 and Figure 12, two side external surfaces of described battery inner casing 12 are respectively equipped with to the cooling crack extending in the wall of described battery compartment wall 511, described labyrinth channel dividing plate 512 is along described cooling crack surface to the interior extension of described battery compartment wall 511, as shown in Figure 4, described battery case 11 inwalls are provided with the divider passages wallboard 513 being plugged in described cooling crack, described battery case 11 inwalls, described battery inner casing 12 outer walls, described divider passages wallboard 513, described labyrinth channel dividing plate 512, described cooling crack inner surface forms the described battery cooling duct 51 around battery compartment described in each.

As shown in Fig. 9 and Figure 13, described cooling back installation comprises the cooling vertical tube 522 that described cooling medium inlet is connected separately with described coolant outlet, described cooling vertical tube 522 lower ends are connected with cooling transverse tube 521, one end of described cooling transverse tube 521 is provided with expansion and pegs graft female mouthful 551, the other end of described cooling transverse tube 521 is provided with and female mouthful of 551 expansion grafting rims of the mouth 552 that coordinate of described expansion grafting, without the described expansion of pegging graft, peg graft and be installed with female mouthful of shutoff plug 54 for female mouthful 551, without the expansion grafting rim of the mouth 552 of pegging graft, by pipeline, be connected with refrigerating units 53.

Battery mounting 61, is arranged on the bottom of described housing by housing fixture, two long sides of described battery mounting 61 are provided with expansion jockey; As shown in Figure 4 and Figure 5, described housing fixture comprises the claw 621 that is separately positioned on described battery mounting 61 both sides, and described housing is provided with the card platform 622 coordinating with described claw 621.As shown in figure 11, described expansion jockey comprises the dovetail groove 63 being arranged on described battery mounting 61 sides, and another side of described battery mounting 61 is provided with the dovetails 64 of mating with described dovetail groove 63.

Described battery cover 31 is provided with liquid filling hole 71, in described liquid filling hole 71, is sealed and installed with liquid feeding plug 72; When insufficient electrolyte, can open upper cover 32, by liquid filling hole 71, in battery compartment, add electrolyte.

When product only comprises a Battery pack module, the two ends of balanced transverse tube 42 are separately installed with an equalized seal and stop up 44; While only having a Battery pack module, balanced transverse tube 42 and equalized seal obstruction 44 can be removed, the balanced pipeline hole sealing on battery cover 31 is blocked; While only having a Battery pack module, the expansion grafting rim of the mouth 552 of cooling transverse tube 521 is connected with refrigerating units 53 by pipeline, and the expansion of cooling transverse tube 521 is pegged graft and is sealed and installed with female mouthful of shutoff plug 54 of pipe for female mouthful 551.

When battery module that product comprises two groups or more, take that to comprise seven Battery pack modules be example, as shown in figure 10, seven battery mountings 61 link together by dovetail groove 63 and dovetails 64, the upper cover 32 of each battery module is interior is all provided with a balanced transverse tube 42, expansion tube connector 45 is installed between adjacent balanced transverse tube 42, the outer end of the balanced transverse tube 42 of first battery module and the 7th battery module is sealed and installed with respectively equalized seal and stops up 44, balanced vertical tube 43 on balanced transverse tube 42 is communicated with corresponding internal balance gas circuit 41 by the balanced pipeline hole on corresponding battery cover 31, so balanced transverse tube 42, balanced vertical tube 43 and expansion tube connector 45 are communicated with the internal balance gas circuit of seven battery modules 41.Cooling transverse tube 521 between adjacent battery modules links together by the interface mutually mating between the two, female mouthful 551 of i.e. expansion grafting and expansion grafting rim of the mouth 552, expansion grafting rim of the mouth 552 cylindrical peripheral face diameters are identical with the diameter of bore of the female mouth 551 of expansion grafting, on 552 outer peripheral faces of expansion grafting rim of the mouth, O RunddichtringO is housed, insert in the female mouth 551 of expansion grafting of adjacent cooling water pipe 52 in expansion grafting rim of the mouth 552, form sealing pipeline, the cooling water pipe 52 of first battery module after serial connection is connected with pipeline, by pipeline, be connected with refrigerating units 53 again, cooling water pipe 52 outer ends of the 7th battery module are provided with female mouthful of shutoff plug 54, form airtight cooling recirculation system.

Battery adopts rectangular configuration, two collectors respectively with positive plate 22 and negative plate 23 vertical weldings, collector outside again with baffle welding, can strengthen battery output conductor sectional area, positive plate 22 and negative plate 23 vertical array, and the long side of positive plate 22 and negative plate 23 is connected with corresponding collector, efficiency for charge-discharge is high, improve the charge-discharge magnification of battery, the top of positive current carrier and negative current carrier is separately installed with anodal diversion column 246 and negative pole diversion column 256, anodal diversion column 246 and negative pole diversion column 256 are all fixed on battery cover 31, between anodal diversion column 246 and negative pole diversion column 256 and battery cover 31, be equipped with sealing ring, anodal diversion column 246 and the negative pole diversion column 256 of adjacent cell core are connected battery pack both positive and negative polarity by electrode connecting plate 26, the two ends of the battery after series connection are in groups connected with negative terminal 272 with the positive terminal 271 of battery module respectively, positive terminal 271 and negative terminal 272 are rear fixing with pole nut 28 through upper cover 32, the both positive and negative polarity output of battery module.

Battery inner casing 12 adopts conjoined structure, according to Voltage-output, require to determine battery compartment quantity, battery inner casing 12 adopts heat-conducting polymer material, to improve the heat conduction of battery temperature, battery inner casing 12 is assemblied in battery case 11, and battery inner casing 12 adopts rubber seal rubber sealing with battery case 11, battery inner casing 12 is screwed with the border, upper end of battery case 11 junctions, battery inner casing 12 upper end assembling battery covers 31, bonding by special glue, guarantee the sealing of battery compartment; Battery cover 31 is provided with diversion column hole, be used for fixing battery, on battery cover 31, be also provided with liquid filling hole 71, after bonding the solidifying of battery inner casing 12 and battery cover 31, by filling opening, quantitatively inject electrolyte, after completing liquid feeding, screw in liquid feeding plug 72, liquid feeding plug 72 covers have O RunddichtringO, with battery cover 31 sealings; Upper cover 32 is installed on battery cover 31 tops, and it is rear fixing with pole nut 28 that positive and negative terminals 272 passes upper cover 32, and upper cover 32 is with battery cover 31 except pole nut 28 is fixing, and centre position is also provided with hold-down screw, to guarantee that installation firmly.

The fixed structure of battery module adopts fast-assembling mode, battery mounting 61 bottoms are provided with bolt hole, during installation, be fixed by bolts on vehicle, the both sides, long limit of battery mounting 61 are provided with dovetail groove 63 and the dovetails 64 cooperatively interacting, cooperation by dovetail groove 63 and dovetails 64 while assembling in groups connects together all battery mountings 61, battery mounting 61 minor face both sides are provided with claw 621, battery module is installed card platform 622 lockings that are pressed into rear claw 621 and battery case 11, and this structure facilitates to later maintenance.

The medium cooling device of battery module, coolant adopts cold water, cold-producing medium, cold air etc., by pipeline, connects refrigerating units 53, forms airtight circulating cooling pipeline system.

Medium cooling device comprises battery cooling duct 51, the outer border of battery inner casing 12 is provided with rotation cooling bath, battery inner casing 12 is assemblied in battery case 11, after battery inner casing 12 assembles with battery case 11 sealings, between form airtight rotation cooling duct, the manhole appendix of rotation cooling duct is located at battery case 11 two ends, bottom, and the manhole appendix of battery cooling duct 51 is connected with cooling water pipe 52.

As shown in Figure 9, medium cooling device also comprises cooling back installation, two cooling water pipes 52 are fixed on the two ends of battery mounting 61, cooling water pipe 52 adopts fast-assembling connected structure, cooling water pipe 52 is three-port structure, cooling vertical tube 522 is provided with O RunddichtringO, when battery module, installs and is pressed into after battery mounting 61, and cooling vertical tube 522 inserts in the cooling medium inlet and coolant outlet at battery case 11 two ends, bottom; When battery module forms group of battery modules, while installing in groups, insert in the female mouth 551 of expansion grafting of another cooling transverse tube 521 in the expansion grafting rim of the mouth 552 of a cooling transverse tube 521, form sealing pipeline, cooling water pipe 52 after serial connection is connected with pipeline, by pipeline, be connected with refrigerating units 53, form airtight cooling recirculation system, the tail end of cooling water pipe 52 seals with female mouthful of shutoff plug 54, airtight medium cooling system, can thoroughly solve the battery difficult problem of dispelling the heat when high power charging-discharging.

In battery module of the present utility model, be provided with gas balancer, described balanced gas circuit comprises internal balance gas circuit 41 and outreaches balanced pipeline.Internal balance gas circuit 41, battery inner casing 12 adopts conjoined structure, several battery compartment, consists of, after upper end and battery cover 31 are installed, form independent sealed battery compartment, in battery inner casing 12 upper ends, between each battery compartment, be provided with narrow gap as internal balance gas circuit 41.

Outreach balanced pipeline, battery cover 31 is provided with balanced pipeline hole, by balanced transverse tube 42, balanced vertical tube 43, expansion tube connector 45, the gas circuit of the battery module after is in groups connected, balanced transverse tube 42 is fixed on upper cover 32, after upper cover 32 is arranged on battery cover 31, balanced vertical tube 43 inserts in the balanced pipeline hole of battery covers 31, between have the sealing of O RunddichtringO.Between battery module, by expansion tube connector 45, connect, the two ends of expansion tube connector 45 are provided with O RunddichtringO, during connection, insert balanced transverse tube 42, gas circuit tail end in groups and top are provided with equalized seal and stop up 44, equalized seal stops up 44 and seals by O type circle with balanced transverse tube 42, two nose ends of upper cover 32 fixing balanced transverse tubes 42 are provided with balanced locking draw-in groove 47, expansion tube connector 45 and equalized seal stop up on 44 and are equipped with the equilibrium of balanced locking draw-in groove 47 cooperations and lock projection 46, after pipeline connects, equalized seal stops up 44, with expansion tube connector 45 90-degree rotations, equilibrium is locked to interior the fixing of projection 46 screw-in balanced locking draw-in grooves 47.The balanced gas circuit forming after airtight makes each battery compartment internal gas pressure identical, and battery parameter also can be balanced because of the equilibrium of air pressure, there will not be single battery to overcharge and the Decrepitation Phenomena that causes.

Description of the present utility model provides for example with for the purpose of describing, and is not exhaustively or by the utility model to be limited to disclosed form.Many modifications and variations are obvious for the ordinary skill in the art.Selecting and describing embodiment is for better explanation principle of the present utility model and practical application, thereby and makes those of ordinary skill in the art can understand the various embodiment with various modifications that the utility model design is suitable for special-purpose.

Claims (10)

1. a battery module with the cooling and gas equalization function of medium, is characterized in that, comprising:

Housing, in described housing, be provided with some separate and sealing battery compartment, a battery is installed in battery compartment described in each, in described battery compartment, be loaded with electrolyte;

Gas balancer, is respectively equipped with the internal balance gas circuit that is communicated with described battery compartment between adjacent described battery compartment, described internal balance gas circuit is positioned at the gas compartment more than described liquid level of electrolyte; In the described gas compartment, be connected with and outreach balanced pipeline;

Medium cooling device, comprises the battery cooling duct on the sidewall that is arranged on described housing, and the cooling medium inlet of described battery cooling duct and coolant outlet are connected with cooling back installation;

Battery mounting, is arranged on the bottom of described housing by housing fixture, two long sides of described battery mounting are provided with expansion jockey.

2. the battery module with the cooling and gas equalization function of medium as claimed in claim 1, it is characterized in that, described battery comprises the pole piece group being comprised of positive plate and negative plate, described positive plate and negative plate interval vertical array, described positive plate stretches out and is vertically connected with plus plate current-collecting body from a side of described pole piece group, and described plus plate current-collecting body is connected with positive current carrier; Described negative plate stretches out and is vertically connected with negative current collector from the opposite side of described pole piece group, and described negative current collector is connected with negative current carrier.

3. the battery module with the cooling and gas equalization function of medium as claimed in claim 2, it is characterized in that, described positive current carrier comprises the anodal baffler being connected with described plus plate current-collecting body, the top of described anodal baffler is provided with the anodal diversion column mounting panel of vertical bending, on described anodal diversion column mounting panel, anodal diversion column is installed; Described negative current carrier comprises the negative pole baffler being connected with described negative current collector, and the top of described negative pole baffler is provided with the negative pole diversion column mounting panel of vertical bending, on described negative pole diversion column mounting panel, negative pole diversion column is installed.

4. the battery module with the cooling and gas equalization function of medium as claimed in claim 1, it is characterized in that, describedly outreach balanced pipeline and comprise the balanced transverse tube being arranged on described housing, described balanced transverse tube is provided with balanced vertical tube, and the two ends of described balanced transverse tube are installed with equalized seal obstruction or expansion tube connector.

5. the battery module with the cooling and gas equalization function of medium as claimed in claim 4, is characterized in that, described expansion tube connector is provided with balanced locking projection, and draw-in groove is locked in the equilibrium that described housing is provided with and described balanced locking projection coordinates; Described equalized seal is also provided with the equilibrium locking projection corresponding with described balanced locking draw-in groove on stopping up.

6. the battery module with the cooling and gas equalization function of medium as claimed in claim 1, it is characterized in that, described housing comprises the battery case of upper end open, in described battery case, be set with the battery inner casing of upper end open, the port of described battery case and described battery inner casing is tightly connected, described in each, battery compartment is arranged in described battery inner casing, in the described battery inner casing between adjacent described battery compartment, is provided with battery compartment wall; The top of described battery inner casing is provided with battery cover; Between described battery inner casing and described battery case, be provided with the gap as described battery cooling duct; Described battery case is provided with cooling medium inlet and coolant outlet;

Described battery inner casing outer peripheral face in described battery cooling duct is provided with labyrinth channel dividing plate, described labyrinth channel dividing plate and described battery case inwall, described battery inner casing form cooling duct, labyrinth, described cooling medium inlet and the outlet of described coolant are separately positioned on the two ends of described battery case bottom surface, and the two ends of cooling duct, described labyrinth are communicated with described cooling medium inlet and the outlet of described coolant respectively.

7. the battery module with the cooling and gas equalization function of medium as claimed in claim 6, it is characterized in that, two side external surfaces of described battery inner casing are respectively equipped with to the cooling crack extending in the wall of described battery compartment wall, described labyrinth channel dividing plate extends to described battery compartment within the walls along described cooling crack surface, described battery case inwall is provided with the divider passages wallboard being plugged in described cooling crack, described battery case inwall, described battery inner casing outer wall, described divider passages wallboard, described labyrinth channel dividing plate, described cooling crack inner surface forms the described battery cooling duct around battery compartment described in each.

8. the battery module with the cooling and gas equalization function of medium as claimed in claim 6, it is characterized in that, described cooling back installation comprises the cooling vertical tube that described cooling medium inlet is connected separately with described coolant outlet, described cooling vertical tube lower end is connected with cooling transverse tube, one end of described cooling transverse tube is provided with expansion and pegs graft female mouthful, the other end of described cooling transverse tube is provided with the expansion grafting rim of the mouth coordinating with the female mouth of described expansion grafting, without the described expansion of pegging graft, peg graft female mouthful and be installed with female mouthful of shutoff plug, without the expansion grafting rim of the mouth of pegging graft, by pipeline, be connected with refrigerating units.

9. the battery module with the cooling and gas equalization function of medium as claimed in claim 1, is characterized in that, described housing fixture comprises the claw that is separately positioned on described battery mounting both sides, and described housing is provided with the Ka Tai coordinating with described claw.

10. the battery module with the cooling and gas equalization function of medium as claimed in claim 1, it is characterized in that, described expansion jockey comprises the dovetail groove being arranged on described battery mounting side, and another side of described battery mounting is provided with the dovetails of mating with described dovetail groove.