CN206379441U - A kind of heat management device and electrical source of power device - Google Patents

Abstract

The utility model embodiment provides a kind of heat management device and electrical source of power device, belongs to battery thermal management technical field.The heat management device includes the cold flat tube of liquid and at least one heat conducting sleeve.The heat conducting sleeve is sheathed on cell, the heat transfer that the cell is given out to the cold flat tube of liquid.The cold flat tube of liquid is set around between multiple rows of battery pack in power battery module, and the heat of absorption is dispersed into outside power battery module by the flowing of coolant in fluid pipeline.Compared with some existing battery heat dissipation technologys, the heat management device that the utility model embodiment is provided has more preferable radiating effect, disclosure satisfy that the power battery module of high radiating requirements, and can preferably ensure electrical source of power device uses safety.

Description

A kind of heat management device and electrical source of power device

Technical field

The utility model is related to battery thermal management technical field, in particular to a kind of heat management device and power electric Source device.

Background technology

In some existing technologies, the power battery pack of electric automobile is radiated using S-shaped cooled plate to battery mostly Management.S-shaped cooled plate detours in battery modules, is contacted with battery core, absorbs the heat given out in cell operations.But It is that in this kind of radiating mode, the contact area of cooled plate and each battery core is limited, causes radiating effect undesirable, it is impossible to meet The power battery pack of high radiating requirements.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of heat management device and electrical source of power device, to improve Above mentioned problem.

The utility model preferred embodiment provides a kind of heat management device, applied to power battery module, heat management dress Put including the cold flat tube of liquid and at least one heat conducting sleeve, wherein：

The heat conducting sleeve is sheathed on the cell in the power battery module, and is connect with the cold flat tube of the liquid Touch, the heat transfer that the cell is given out to the cold flat tube of the liquid；The cold flat tube of liquid includes liquid feeding end, goes out liquid The fluid pipeline of the liquid feeding end and outlet end is held and connects, the cold flat tube of the liquid is set around multiple rows of in the power battery module Between battery pack, radiating management is carried out to the cell by the flowing of coolant in the fluid pipeline, wherein, often arrange Battery pack includes several cells.

At least two row's batteries are gripped between the cold flat tube of adjacent two sections of liquid being preferably located in the power battery module The heat conducting sleeve is arranged with least a portion cell in group, at least two row's battery packs.

Preferably, two row's battery packs are gripped between the cold flat tube of adjacent two sections of liquid, it is each in the two rows battery pack The heat conducting sleeve is all arranged with cell.

Preferably, the medial and lateral wall of the heat conducting sleeve is provided with thermally conductive insulating layer.

Preferably, the thermally conductive insulating layer is one kind in plastic-spraying insulating barrier and oxidation insulating layer.

Preferably, the heat conducting sleeve is the cylindrical sleeve of aluminum.

Preferably, the heat management device includes the heat conduction that multiple length are less than or equal to the half of the cell length Sleeve, each two heat conducting sleeve one cell of correspondence, described two heat conducting sleeves are respectively sleeved at the cell phase To two ends.

Preferably, the heat management device includes two cold flat tubes of liquid, this two cold flat tubes of liquid rotating around located at In the power battery module, the liquid feeding end of one of cold flat tube of liquid is arranged at described with the outlet end of the cold flat tube of another liquid The first side of power battery module, outlet end in addition is arranged in the power battery module and first side with liquid feeding end The relative second side in face.

Another preferred embodiment of the utility model provides a kind of electrical source of power device, including power battery module and as above State any one described heat management device.

Preferably, the electrical source of power device also includes being used for for the two opposite side surfaces for being arranged at the power battery module The first supporting plate and the second supporting plate of cell are clamped, one end of the heat conducting sleeve is fixed with first supporting plate to be connected Connect, the other end is detachably connected with second supporting plate.

In heat management device and electrical source of power device that the utility model embodiment is provided, the heat management device includes liquid Cold flat tube and at least one heat conducting sleeve.The heat conducting sleeve is sheathed on cell, and the cell is given out Heat transfer to the cold flat tube of liquid.The cold flat tube of liquid is set around between multiple rows of battery pack in power battery module, passes through liquid The heat of absorption is dispersed into outside power battery module by the flowing of coolant in body pipeline.The heat management device takes dual Radiating is ensured carries out radiating management to cell, one is absorbing the cell in power battery module by the cold flat tube of liquid The heat given out, the second is by the heat conducting sleeve that is sheathed on cell by not by the cold flat tube of the liquid be absorbed to it is surplus At least a portion in waste heat amount is transferred to the cold flat tube of liquid, finally takes heat out of power battery module together by coolant again Outside.Compared with the S-shaped cooled plate applied in some existing technologies, the heat management device that the utility model embodiment is provided has More preferable radiating effect, disclosure satisfy that the power battery module of high radiating requirements, and then preferably ensure electrical source of power device Use safety.

Brief description of the drawings

In order to illustrate more clearly of the technical scheme of the utility model embodiment, it will use below required in embodiment Accompanying drawing be briefly described, it will be appreciated that the following drawings illustrate only some embodiments of the present utility model, therefore should not be by Regard the restriction to scope as, for those of ordinary skill in the art, on the premise of not paying creative work, may be used also To obtain other related accompanying drawings according to these accompanying drawings.

A kind of exploded perspective view for electrical source of power device that Fig. 1 provides for the utility model embodiment；

A kind of stereochemical structure signal for cell for being arranged with heat conducting sleeve that Fig. 2 provides for the utility model embodiment Figure；

The stereochemical structure for another cell for being arranged with heat conducting sleeve that Fig. 3 provides for the utility model embodiment is shown It is intended to；

A kind of dimensional structure diagram for the cold flat tube of liquid that Fig. 4 provides for the utility model embodiment；

The fitting area analysis of a kind of cold flat tube of liquid and cell that Fig. 5 A provide for the utility model embodiment is illustrated Figure；

A kind of winding mode of the cold flat tube of liquid that Fig. 5 B are provided for the utility model embodiment in power battery module is shown It is intended to；

One when two cold flat tubes of liquid that Fig. 6 is provided for the utility model embodiment are rotating around in power battery module Plant winding schematic diagram.

Icon：100- electrical source of power devices；200- power battery modules；300- heat management devices；220- cells； The cold flat tube of 310- liquid；320- heat conducting sleeves；312- liquid feeding ends；314- outlet ends；316- fluid pipelines；The clamping portions of 230- first Point；The sandwiched parts of 240- second；The sandwiched parts of 250- the 3rd；The supporting plates of 400- first；The supporting plates of 500- second；420- first collects Flow plate；The collector plates of 520- second.

Embodiment

It is new below in conjunction with this practicality to make the purpose, technical scheme and advantage of the utility model embodiment clearer Accompanying drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that retouched The embodiment stated is a part of embodiment of the utility model, rather than whole embodiments.Generally here described in accompanying drawing and The component of the utility model embodiment shown can be arranged and designed with a variety of configurations.

Therefore, the detailed description of embodiment of the present utility model below to providing in the accompanying drawings is not intended to limit requirement The scope of the present utility model of protection, but it is merely representative of selected embodiment of the present utility model.Based in the utility model Embodiment, the every other embodiment that those of ordinary skill in the art are obtained under the premise of creative work is not made, all Belong to the scope of the utility model protection.

Referring to Fig. 1, being a kind of stereochemical structure signal for electrical source of power device 100 that the utility model embodiment is provided Figure.The electrical source of power device 100 includes power battery module 200 and the heat management device applied to the power battery module 200 300.Wherein, the power battery module 200 includes the battery pack of multiple rows of stacked arrangement.Often row's battery pack includes several monomers electricity Pond 220.The heat management device 300 includes the cold flat tube 310 of liquid and at least one heat conducting sleeve 320.

As shown in figure 1, the heat conducting sleeve 320 is sheathed on the cell 220 in the power battery module 200, And contacted with the cold flat tube of the liquid 310, for absorbing heat that the cell 220 gives out and passing the heat being absorbed to It is handed to the cold flat tube 310 of the liquid.The corresponding relation of the heat conducting sleeve 320 and the cell 220 is one under normal circumstances To one, the three-dimensional structure diagram of the cell 220 for being arranged with heat conducting sleeve 320 shown in Fig. 2 for details, reference can be made to.Of course, it is possible to Understand, in other embodiments, both corresponding relations can also be arranged with two on the cell of many-one, i.e., one 220 Individual or more than two heat conducting sleeves 320.Referring to Fig. 3, as a kind of embodiment, this kind of many-to-one situation can be one The two ends of cell 220 are respectively arranged the heat conducting sleeve 320 that a length is less than or equal to the length half of cell 220.

Again as shown in figure 1, the set-up mode of the cold flat tube 310 of the liquid is to be set around in the power battery module 200 Between multiple rows of battery pack.The concrete structure of the cold flat tube 310 of the liquid can refer to Fig. 4.As shown in figure 4, the cold flat tube 310 of liquid includes Liquid feeding end 312, outlet end 314 and the fluid pipeline 316 for connecting the liquid feeding end 312 and outlet end 314.Coolant by it is described enter Liquid end 312 is flowed into after the cold flat tube 310 of the liquid, through the fluid pipeline 316 reach outlet end 314, finally again from it is described go out liquid The outflow of the end 314 cold flat tube 310 of liquid.Coolant absorbs heat and the institute that cell 220 gives out in flow process The heat that heat conducting sleeve 320 is passed over is stated, then takes heat outside power battery module 200 out of, is reached to cell 220 Carry out the purpose of radiating management.

Heat conducting sleeve 320 in the heat management device 300 is coated on outside cell 220, absorption that can be comprehensive The heat that cell 220 gives out, compared with carrying out radiating using only the cold flat tube 310 of liquid, radiating efficiency is obviously improved.In detail Ground, referring to Fig. 5 A, it can be seen that when not being arranged the heat conducting sleeve 320, each cell 220 and the liquid of winding are cold flat Contact area between pipe 310 only about accounts for the 1/4 of the cell total surface area, that is, 55.46 ° of angle shown in figure Corresponding surface area, other parts are then and air contact, and air is the non-conductor of heat.So, set up heat conducting sleeve 320 Compared with carrying out radiating using the cold flat tube 310 of liquid merely, heat transfer efficiency increase effectively.

It is appreciated that winding form of the cold flat tube 310 of liquid in the power battery module 200 has a variety of.As A kind of possible winding mode, as shown in Figure 5 B, the power battery module 200 include 6 row's battery packs, the cold flat tube of liquid The 310 winding mode in the power battery module 200 is battery sandwiched between the adjacent cold flat tube 310 of two sections of liquid from the bottom to top The row of group is respectively 3,2 and 1, and is correspondingly named as the first sandwiched part 230, the second sandwiched part 240 and the 3rd successively Sandwiched part 250.

Be not difficult to find out, in the first sandwiched part 230 positioned at a middle row battery pack not with the cold flat tube of the liquid 310 Produce and directly contact.Thus, the heat that cell 220 is distributed in row's battery pack timely can not be inhaled by the cold flat tube 310 of liquid Receive, cause heat to be built up here, so as to cause the potential safety hazard of power battery module 200.Based on this, in first clamping portion Selection at least a portion cell 220 in the two rows battery pack in 230 is divided to be arranged the heat conducting sleeve 320, so that institute State heat conducting sleeve 320 and absorb heat that it is set in or that cell 220 in contact is distributed, and by heat transfer To the cold flat tube 310 of liquid, and then effectively alleviate heat accumulation.

If only partial monosomy battery 220 is arranged with the heat conducting sleeve 320 in above-mentioned two rows battery pack, as It should be almost equidistant intervals to be preferably located between the adjacent heat conducting sleeve 320 of any two of same row.Such as, positioned at upper 2 or 3 cells 220 are spaced between the adjacent heat conducting sleeve 320 of each two of the row of face one.If it will be appreciated, of course, that The heat conducting sleeve 320 is arranged on each cell 220 in above-mentioned two rows battery pack, be so, it is possible preferably slow Solve the accumulation of heat

The second sandwiched part 240 includes two row's battery packs.The wherein upper surface of row's battery pack and following above The lower surface of one row's battery pack is directly contacted with the cold flat tube of the liquid 310, what the cell 220 in the two rows battery pack was distributed Heat is transferred to the cold flat tube 310 of the liquid by the surface contacted with the cold flat tube of the liquid 310, and then passes through the cold flat tube 310 of liquid The flowing of interior coolant is distributed heat to outside power battery module 200.But, due to two other surface not with the liquid Cold flat tube 310 is directly contacted, and partial heat can be accumulated between two row's battery packs, caused heat to distribute insufficient, caused power The potential safety hazard of battery modules 200.In consideration of it, choosing at least a portion in two row's battery packs of the second sandwiched part 240 Cell 220 is arranged the heat conducting sleeve 320, can effectively alleviate accumulation of the heat between two row's battery packs.

The first sandwiched part 230 includes row's battery pack.Upper and lower two surfaces of row's battery pack and the liquid are cold Flat tube 310 is directly contacted.The heat that cell 220 in row's battery pack is distributed can by with the cold flat tube of the liquid 310 Two surfaces of contact are transferred to the cold flat tube 310 of the liquid, and then by the flowing of coolant in the cold flat tube 310 of the liquid by heat Amount is distributed to outside power battery module 200.But, it is still necessary to consideration, cell 220 adjacent in row's battery pack it Between still can build up partial heat, it is impossible to be timely transmitted to the cold flat tube 310 of liquid.In consideration of it, the part in row's battery pack Or the heat conducting sleeve 320 is arranged on whole cells 220, it can effectively alleviate the accumulation of heat.

According to the description of above-mentioned embodiment as can be seen that sandwiched at least one between the adjacent cold flat tube 310 of two sections of liquid The cell 220 that at least a portion or whole are chosen in row's battery pack is arranged the heat conducting sleeve 320, can effectively alleviate The accumulation of heat in power battery module 200, improves the security and reliability of power battery module 200.

It is emphasized that above-mentioned embodiment is only exemplarily, in other embodiments, positioned at the electrokinetic cell The row of sandwiched battery pack can be arbitrary number between the adjacent cold flat tube 310 of two sections of liquid in module 200, not by above-mentioned tool The limitation of body description.

In the present embodiment, the base material of the cold flat tube 310 of liquid can be but not limited to aluminium harmonica pipe.The aluminium harmonica Money is the mouth organ flat tube that aluminium alloy is made.Aluminium alloy density is low, but intensity is higher, near or above high-quality steel, and plasticity is good, can Various section bars are processed into, with excellent thermal conductivity and corrosion resistance.Both it is easy to be made as using the aluminium harmonica pipe Flat tube shape needed for the present embodiment, again can improving heat radiation efficiency.By Fig. 4 it can easily be seen that being set around the power battery module The contact surface of the cold flat tube 310 of liquid and cell 220 in 200 is curve form, the surface undulate of whole body.Such as This, can effectively increase the cold flat tube 310 of liquid with often arranging the contact area of battery pack, compared with smooth surface, with higher Radiating efficiency.

In the present embodiment, the heat conducting sleeve 320 is metal sleeve, alternatively, such as the cylindrical sleeve of aluminum.Easily manage Solution, the heat conducting sleeve 320 can be with the identical material of the cold flat tube of liquid 310, but be not restricted to this, such as can also be copper Matter sleeve.The heat conducting sleeve 320 being sheathed on cell 220 can be comprehensive the heat that gives out of absorption cell 220 Amount.Superior thermal conductivity again based on aluminium, copper etc., it is cold that the heat that the heat conducting sleeve 320 is absorbed to can timely be transferred to liquid Flat tube 310, and then taken heat outside power battery module 200 out of by the flowing of liquid in pipeline.With individually using liquid cold flat Pipe 310 is compared, and is set up after the heat conducting sleeve 320, and the overall radiating efficiency in power battery module 200 is obviously improved.

It is further contemplated that arriving, the material of heat conducting sleeve 320 and the cold flat tube 310 of liquid is generally all metal material, and golden Accessory has good electric conductivity, once cell 220 leaks electricity, easily causes the short circuit of power battery module 200, triggers quick-fried It is fried to wait peril.In consideration of it, in the present embodiment, the inside and outside side of the heat conducting sleeve 320 and the cold flat tube 310 of liquid it is upper, Lower surface is designed with thermally conductive insulating layer.The thermally conductive insulating layer can be insulate plastic-spraying layer and one kind in oxidation insulating layer.

The mode of plastic-spraying processing be using electrostatic generator make to be adsorbed in after powder to be sprayed is powered heat conducting sleeve 320 or The surface of the cold flat tube 310 of liquid, is then heated to design temperature by the powder of surface spraying and is incubated the corresponding time, be allowed to molten Change, levelling, solidification, obtain the insulation plastic-spraying layer.

The mode of oxidation processes is that heat conducting sleeve 320 or the cold flat tube 310 of liquid are placed in the electrolytic cell equipped with acid solution, After electrolytic cell is powered, oxidation reaction occurs under the outer function of current for aluminium anodes, forms the alundum (Al2O3) film layer with insulating properties, I.e. described insulating oxide.

Again as shown in figure 1, also including being arranged at relative the two of the power battery module 200 in the power battery device The first supporting plate 400 and the second supporting plate 500 that are used to clamp cell 220 of individual side.In first supporting plate 400 Also it is plugged with the first collector plate 420, second supporting plate 500 and is also plugged with the second collector plate 520.

Wherein, first supporting plate 400 is located at the first side of the power battery module 200, second support Plate 500 is located at the second side of the power battery module 200.When as shown in Fig. 2 the heat conducting sleeve 320 and cell 220 for it is man-to-man be arranged relation when, the heat conducting sleeve 320 can be fixedly connected with one end with above-mentioned first supporting plate 400, another End is detachably connected with above-mentioned second supporting plate 500.In this way, being easy to the assembling of whole electrical source of power device 100.Again when such as Fig. 3 Shown, the heat conducting sleeve 320 is two pair one when being arranged relation, the one of one of heat conducting sleeve 320 with cell 220 End is fixedly connected with first supporting plate 400, and one end of another heat conducting sleeve 320 is fixed with second supporting plate 500 Connection.In this way, also allowing for the assembling of whole electrical source of power device 100.

In addition, the radiating efficiency in order to further lift heat management device 300, as shown in fig. 6, the heat management device 300 can include the cold flat tube 310 of two liquid.This two cold flat tubes 310 of liquid are rotating around located at the power battery module 200 In, the liquid feeding end 312 of one of cold flat tube 310 of liquid is arranged at the power with the outlet end 314 of the cold flat tube 310 of another liquid 3rd side of battery modules 200, outlet end 314 in addition is arranged in the power battery module 200 and institute with liquid feeding end 312 State the 4th relative side of the 3rd side.

Generally, the cold flat tube 310 of a liquid is only set to carry out radiating management in each power battery module 200.And this implementation The reason for cold flat tube 310 of a liquid are set up in example be, it is contemplated that during the liquid feeding end 312 of the cold flat tube 310 of coolant influent, at the beginning of it Beginning temperature is relatively low, during flowing through whole fluid pipeline 316, constantly absorbs the heat in power battery module 200, reaches out The temperature of coolant will be apparently higher than its initial temperature during liquid end 314.The temperature of coolant is higher, itself and power battery module Temperature difference in 200 will be smaller, and heat conduction efficiency also will be reduced gradually, has thereby resulted in different positions in power battery module 200 There is obvious temperature difference in the cell 220 put, serious unfavorable shadow is caused to the state-of-charge of power battery module 200 Ring.The flow direction for the coolant flow direction and the coolant in the cold flat tube of stoste 310 in the cold flat tube 310 of liquid set up is mutual Inversely, in this way, the temperature difference in power battery module 200 can be neutralized, and then it is reached for the mesh of all Homogeneouslly-radiatings of cell 220 's.

In the present embodiment, preferably, the winding side by side in the power battery module 200 of the cold flat tube 310 of two liquid When, it is spaced apart between the two.In addition, the gap between the cold flat tube 310 of two liquid is also provided with thermal insulation The good material of energy, such as silica-gel heat-insulating pad makes that heat conduction can not be carried out between the two.

In addition to winding mode side by side, described two cold flat tubes 310 of liquid can also alternately be set around multiple rows of battery pack it Between.Both alternating winding mode can be, the upper surface of each row's battery pack or lower surface only with the cold flat tube of described two liquid One of 310 are in contact.Either, when the upper surface of row's battery pack and/or lower surface and the cold flat tube 310 of two liquid After one of them is in contact, then the surface is no longer contacted with the cold flat tube of another liquid 310.

The description of summary, heat management device and electrical source of power device that the utility model embodiment is provided, takes Double-radiation function is ensured carries out radiating management to cell 220.One is, electrokinetic cell mould is directly absorbed by the cold flat tube 310 of liquid The heat that cell 220 in group 200 gives out；Two are, will by the heat conducting sleeve 320 being sheathed on cell 220 At least a portion in the after-heat not being absorbed to by the cold flat tube 310 of the liquid is transferred to the cold flat tube 310 of liquid, finally passes through again The flowing of coolant takes heat outside power battery module 200 out of together.Compared with prior art, the utility model embodiment is carried The heat management device 300 of confession has more preferable radiating effect, disclosure satisfy that the power battery module 200 of high radiating requirements, can be with Preferably ensure electrical source of power device 100 uses safety.

, it is necessary to explanation, the orientation of the instruction such as term " on ", " under ", " interior ", " outer " in description of the present utility model Or position relationship is that, based on orientation shown in the drawings or position relationship, or the utility model product is usually put when using Orientation or position relationship, are for only for ease of description the utility model and simplify description, rather than indicate or imply signified dress Put or element there must be specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to the utility model Limitation.

In description of the present utility model, in addition it is also necessary to which explanation, unless otherwise clearly defined and limited, term " are set Put ", " connection " should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected, or be integrally connected；Can To be mechanical connection or electrical connection；Can be joined directly together, can also be indirectly connected to by intermediary, Ke Yishi The connection of two element internals.For the ordinary skill in the art, with concrete condition above-mentioned term can be understood at this Concrete meaning in utility model.

In the utility model, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or it " under " can directly be contacted including the first and second features, it is not direct contact but logical that can also include the first and second features The other characterisation contact crossed between them.

It should also be noted that arriving：Similar terms is represented in similar label and alphabetical superincumbent accompanying drawing, therefore, once a certain item It is defined in an accompanying drawing, then it further need not be defined and explained in subsequent accompanying drawing.

It is described above, embodiment only of the present utility model, but protection domain of the present utility model do not limit to In this, any one skilled in the art can readily occur in change in the technical scope that the utility model is disclosed Or replace, it should all cover within protection domain of the present utility model.Therefore, protection domain of the present utility model should be with the power The protection domain that profit is required is defined.

Claims (10)

1. a kind of heat management device, applied to power battery module, it is characterised in that the heat management device include the cold flat tube of liquid with And at least one heat conducting sleeve, wherein：

The heat conducting sleeve is sheathed on the cell in the power battery module, and is contacted with the cold flat tube of the liquid, with The heat transfer that the cell is given out is to the cold flat tube of the liquid；

The cold flat tube of liquid includes liquid feeding end, outlet end and connects the fluid pipeline of the liquid feeding end and outlet end, and the liquid is cold flat Pipe is set around between multiple rows of battery pack in the power battery module, by the flowing of coolant in the fluid pipeline to institute State cell and carry out radiating management.

2. device according to claim 1, it is characterised in that adjacent two sections of liquid in the power battery module is cold At least two row's battery packs are gripped between flat tube, are arranged at least a portion cell at least two row's battery packs State heat conducting sleeve.

3. device according to claim 2, it is characterised in that two rows electricity is gripped between the cold flat tube of adjacent two sections of liquid The heat conducting sleeve is arranged with each cell in pond group, the two rows battery pack.

4. device according to claim 1, it is characterised in that the medial and lateral wall of the heat conducting sleeve is exhausted provided with heat conduction Edge layer.

5. device according to claim 4, it is characterised in that the thermally conductive insulating layer is plastic-spraying insulating barrier and oxide isolated One kind in layer.

6. device according to claim 1, it is characterised in that the heat conducting sleeve is the cylindrical sleeve of aluminum.

7. device according to claim 1, it is characterised in that the heat management device includes multiple length and is less than or equal to institute State the heat conducting sleeve of the half of cell length, each two heat conducting sleeve one cell of correspondence, described two heat conducting sleeves Cylinder is respectively sleeved at the relative two ends of the cell.

8. device according to claim 1, it is characterised in that the device includes two cold flat tubes of liquid, two institutes The cold flat tube of liquid is stated rotating around in the power battery module, the liquid feeding end and another liquid of one of cold flat tube of liquid are cold flat The outlet end of pipe is arranged at the first side of the power battery module, and outlet end in addition is arranged at the power electric with liquid feeding end The second side relative with the first side in the module of pond.

9. a kind of electrical source of power device, it is characterised in that including power battery module and such as claim 1-8 any one institute The heat management device stated.

10. device according to claim 9, it is characterised in that the device also includes being arranged at the power battery module Two opposite side surfaces be used for clamp the first supporting plate and the second supporting plate of cell, one end of the heat conducting sleeve with First supporting plate is fixedly connected, and the other end is detachably connected with second supporting plate.