CN207165719U - Quick connector, heat abstractor and battery modules - Google Patents

Abstract

The utility model embodiment provides a kind of quick connector, heat abstractor and battery modules.The quick connector is applied to the heat abstractor, the heat abstractor includes radiating subassembly, the radiating subassembly includes a cavity, the quick connector includes plug connector and hollow connectors, the first end of the hollow connectors connects with the cavity, second end of the hollow connectors and the plug connector are connected pluggablely, by the cooperation between the hollow connectors and the plug connector, to realize and the state of heat-retaining mass in the cavity is adjusted.The quick connector easily can be adjusted to heat-retaining mass in heat abstractor, improve the service life of the heat abstractor, the heat abstractor is set to carry out radiating treatment to cell for a long time, so as to complete the radiating treatment to battery modules within the extremely short time, improve the service life problem of battery modules in the prior art.

Description

Quick connector, heat abstractor and battery modules

Technical field

Battery modules technical field is the utility model is related to, in particular to a kind of quick connector, heat abstractor and electricity Pond module.

Background technology

With the fast development of electronic technology, the use of pure electric or hybrid automobile is popularized all the more, pure electronic or mixed Requirement of the power vehicle to battery system is closed also constantly to improve, and the energy of battery system derives from battery modules, this is just needed Want to include multiple cells in battery modules.And for each cell, it can be produced during discharge and recharge is carried out Raw amount of heat, makes the battery modules of opposing seal be operated in the higher environment of temperature, so as to influence the use of battery modules Life-span.

Therefore, industry main flow would generally be provided with the cooling device for being radiated to cell in battery modules To reduce the operating ambient temperature of battery modules, wherein this cooling device generally use enclosed storage heat absorption material is i.e. using envelope The mode of closed type structure storage heat absorption material, to be radiated to battery modules.But this cooling device service life is short, radiating It is ineffective, heat absorption material change difficulty it is big, can not effectively improve the service life problem of battery modules.

Utility model content

In order to overcome above-mentioned deficiency of the prior art, the purpose of this utility model is to provide a kind of quick connector, dissipated Thermal and battery modules.The quick connector easily can be adjusted to heat-retaining mass in the heat abstractor, be improved The service life of the heat abstractor, the heat abstractor is set to carry out radiating treatment to cell for a long time, so as to The radiating treatment to battery modules is completed within the extremely short time, improves the service life problem of battery modules in the prior art.

For quick connector, the utility model preferred embodiment provides a kind of quick connector, and the quick connector should For heat abstractor, the heat abstractor includes radiating subassembly, and the radiating subassembly includes a cavity, and the quick connector includes Plug connector and hollow connectors, the first end of the hollow connectors connect with the cavity, and the second of the hollow connectors End with the plug connector it is pluggable be connected, with pass through the cooperation between the hollow connectors and the plug connector, realization pair The state of heat-retaining mass is adjusted in the cavity.

In the utility model preferred embodiment, above-mentioned hollow connectors are cylindrical-shaped structure, the hollow connectors First end and the second end between the radial direction of the hollow connectors is provided with boss, be correspondingly arranged on the plug connector There is snap fit, the plug connector is set on the second end of the hollow connectors, and the snap fit is fixed and leaned in the boss The side of the nearly cavity, realize the plug connection between the plug connector and the hollow connectors.

In the utility model preferred embodiment, above-mentioned quick connector also includes sealing ring, and the sealing ring is arranged on On the hollow connectors, and between the second end and the boss, for being set in the hollow company in the plug connector When on the second end of fitting, the gap between the plug connector and the hollow connectors is filled.

In the utility model preferred embodiment, above-mentioned plug connector is hollow pipeline structure, and the quick connector passes through The plug connector injects heat-retaining mass or by the heat-retaining mass from the cavity to the cavity that is connected with the hollow connectors Middle taking-up, so as to form heat-retaining mass circulation in the cavity.

In the utility model preferred embodiment, the one end of above-mentioned plug connector away from the hollow connectors is provided with stifled Head, the quick connector are intercepted by the plug to injecting the heat-retaining mass in the cavity, make the heat accumulation thing of injection Matter is deposited in the cavity.

For heat abstractor, the utility model preferred embodiment provides a kind of heat abstractor, the heat abstractor bag Include radiating subassembly and above-mentioned quick connector；

The radiating subassembly includes fixed plate, is provided with the relative two sides of the fixed plate and treats heat-dissipating thing for accommodating The groove of body, the fixed plate are provided with cavity between relative two sides；

The quick connector includes plug connector and hollow connectors, and the first end of the hollow connectors connects with the cavity Logical, the second end of the hollow connectors and the plug connector are connected pluggablely, for by the plug connector and it is described in Cooperation between empty connector, the cavity is set to store heat-retaining mass, so as to treat that thermal dissipating object radiates to described Processing.

In the utility model preferred embodiment, two quick connectors of setting on above-mentioned each radiating subassembly, described two Individual quick connector is separately positioned on the relative both ends of the fixed plate, for making the cavity pair by described two quick connectors Heat-retaining mass is stored.

In the utility model preferred embodiment, position of the above-mentioned groove on the fixed plate opposite sides face is mutual Staggeredly.

For battery modules, the utility model preferred embodiment provides a kind of battery modules, the battery modules bag Multilayer submodule group and above-mentioned heat abstractor are included, includes multiple cells per straton module, the number of the heat abstractor is Multiple, between the heat abstractor sets the adjacent submodule group, the heat abstractor includes radiating subassembly and quick connector；

The radiating subassembly includes fixed plate, and the fixed plate is housed by the groove being arranged on the fixed plate side The cell；

The quick connector is arranged on radiating subassembly, and is connected with the cavity of the radiating subassembly, for by described Quick connector is dissipated by the heat-retaining mass to the cell externally to injecting heat-retaining mass in the cavity Heat treatment.

In the utility model preferred embodiment, position of the above-mentioned groove on two opposite sides of adjacent fixed plate Put and be oppositely arranged, for the cell between adjacent fixed plate to be fixed.

In terms of existing technologies, quick connector, heat abstractor and the electricity that the utility model preferred embodiment provides Pond module has the advantages that：The quick connector can be adjusted easily to heat-retaining mass in the heat abstractor It is whole, the service life of the heat abstractor is improved, the heat abstractor is carried out for a long time to cell at radiating Reason, so as to be completed within the extremely short time to the radiating treatments of battery modules, improve battery modules in the prior art uses the longevity Life problem.Specifically, the quick connector includes plug connector and hollow connectors, and the heat abstractor includes radiating subassembly, institute Stating radiating subassembly includes a cavity, and the first end of the hollow connectors connects with the cavity, and the of the hollow connectors Two ends and the plug connector are connected pluggablely, for by the cooperation between the hollow connectors and the plug connector, to The cavity injects heat-retaining mass, takes out the heat-retaining mass or to injecting the heat accumulation thing in the cavity from the cavity Matter is intercepted, and the state of the heat-retaining mass in the cavity is adjusted so as to realize, the heat abstractor is grown Radiating treatment is temporally carried out to cell, and the radiating treatment to battery modules is completed within the extremely short time, is improved existing There is the service life problem of battery modules in technology.Wherein, the state of the heat-retaining mass includes the species of the heat-retaining mass State, motion state and physical property state etc..

To enable above-mentioned purpose of the present utility model, feature and advantage to become apparent, the utility model cited below particularly compared with Good embodiment, and accompanying drawing appended by cooperation, are described in detail below.

Brief description of the drawings

, below will be to required use in embodiment in order to illustrate more clearly of the technical scheme of the utility model 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 the utility model claims protection domain as, for those of ordinary skill in the art, do not paying On the premise of creative work, other related accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is a kind of structural representation for the heat abstractor that the utility model preferred embodiment provides.

Fig. 2 is a kind of structural representation of the quick connector shown in Fig. 1 that the utility model preferred embodiment provides.

Fig. 3 is another structural representation of the quick connector shown in Fig. 1 that the utility model preferred embodiment provides Figure.

Fig. 4 is a kind of structural representation for the battery modules that the utility model preferred embodiment provides.

Icon：10- battery modules；100- heat abstractors；110- radiating subassemblies；120- quick connectors；111- fixed plates； 112- grooves；121- hollow connectors；122- plug connectors；123- boss；124- snap fits；125- sealing rings；126- plugs；200- Submodule group；210- cells.

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 embodiment of the utility model is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model part of the embodiment, rather than whole embodiments.Generally here described in accompanying drawing and The component of the utility model embodiment shown can be configured to arrange and design with a variety of.

Therefore, the detailed description of the embodiment of the present utility model to providing in the accompanying drawings is not intended to limit requirement below The scope of the 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.

It should be noted that：Similar label and letter represents similar terms in following accompanying drawing, therefore, once a certain Xiang Yi It is defined, then it further need not be defined and explained in subsequent accompanying drawing in individual accompanying drawing.

, it is necessary to explanation, the side of the instruction such as term " " center ", " on ", " interior ", " outer " in description of the present utility model Position or position relationship be based on orientation shown in the drawings or position relationship, or the utility model product using when usually put Orientation or position relationship, be for only for ease of description the utility model and simplify and describe, rather than instruction or imply signified Device or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that new to this practicality The limitation of type.In addition, term " first ", " second " etc. are only used for distinguishing description, and it is not intended that indicating or implying relatively heavy The property wanted.

In description of the present utility model, it is also necessary to which explanation, unless otherwise clearly defined and limited, term " are set Put ", " installation ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, Or it is integrally connected；Can be mechanical connection or electrical connection；Can be joined directly together, intermediary can also be passed through It is indirectly connected, can is the connection of two element internals.For the ordinary skill in the art, can be managed with concrete condition Solve concrete meaning of the above-mentioned term in the utility model.

Below in conjunction with the accompanying drawings, some embodiments of the present utility model are elaborated.In the case where not conflicting, under Feature in the embodiment and embodiment stated can be mutually combined.

Fig. 1 is refer to, is a kind of structural representation for the heat abstractor 100 that the utility model preferred embodiment provides. In the utility model embodiment, the heat abstractor 100 includes quick connector 120, and the heat abstractor 100 can be by described The state of the easily heat-retaining mass to being stored in the heat abstractor 100 of quick connector 120 is adjusted, and improves described dissipate The service life of thermal 100, the heat abstractor 100 is treated thermal dissipating object for a long time and carry out radiating treatment, from And treat thermal dissipating object normal operation at a suitable temperature described in enabling.Wherein, the state of the heat-retaining mass includes described Species state, motion state and physical property state of heat-retaining mass etc., the heat abstractor 100 can pass through the quick connector Physical property is changed in heat-retaining mass, the circulation of formation heat-retaining mass described in the different types of heat-retaining mass of 120 replacings, enclosed storage Different heat-retaining masses, thermal dissipating object can be treated to described with the heat-retaining mass ensured in the heat abstractor 100 for a long time Radiated.

In the present embodiment, the heat-retaining mass can be phase-change material (PCM-Phase Change Material).Phase Become material to refer to vary with temperature and change physical property and the material of latent heat can be provided.The process for changing physical property is phase Change process, now phase-change material will absorb or discharge substantial amounts of latent heat.Thus, the heat abstractor 100 can pass through the heat accumulation Material treats that thermal dissipating object carries out heat management to described.

Wherein, phase-change material can be divided into inorganic PCM, organic PCM and the classes of compound PCM tri-.Wherein, inorganic PCM mainly has Crystalline hydrate salt, molten salts, metal or alloy class etc..Organic PCM mainly includes paraffin, acetic acid and other organic matters. And composite phase-change heat-storage material the shortcomings that can effectively overcoming single inorganic matter or organic matter phase-change heat-storage material to exist, and can Improve the application effect of phase-change material.

In the present embodiment, the heat abstractor 100 can also include radiating subassembly 110, and the heat abstractor 100 passes through The radiating subassembly 110 stores to the heat-retaining mass, and treats that thermal dissipating object enters to described by the radiating subassembly 110 Row is accommodating, with by the heat-retaining mass being stored in the radiating subassembly 110, pair waits to dissipate with what the radiating subassembly 110 contacted Hot object carries out radiating treatment.

Specifically, the radiating subassembly 110 includes fixed plate 111, and the fixed plate 111 is provided with relative two sides For the accommodating groove 112 for treating thermal dissipating object, the fixed plate 111 is provided with cavity between relative two sides, described Radiating subassembly 110 is stored by the cavity to the heat-retaining mass.

In the present embodiment, position of the groove 112 on the opposite sides face of fixed plate 111 is interlaced.Tool Body, the position and the position of another side upper groove 112 of a side upper groove 112 of the fixed plate 111 are interlaced, To reduce the volume of the radiating subassembly 110.

In the present embodiment, the quick connector 120 is arranged on the radiating subassembly 110 and connected with the cavity, For being adjusted to the state of the heat-retaining mass in the cavity.Specifically, two are provided with each radiating subassembly 110 Individual quick connector 120, described two quick connectors 120 are separately positioned on the relative both ends of the fixed plate 111, with by described Two quick connectors 120 enable the cavity to store the heat-retaining mass being an externally injected into.

Fig. 2 is refer to, is one kind of the quick connector 120 shown in Fig. 1 of the utility model preferred embodiment offer Structural representation.In the present embodiment, the quick connector 120 includes plug connector 122 and hollow connectors 121, described hollow The first end of connector 121 is connected with the cavity leads to, and the second end of the hollow connectors 121 can with the plug connector 122 Plug ground connection, by the cooperation between the hollow connectors 121 and the plug connector 122, to realize in the cavity The state of heat-retaining mass is adjusted, and so as to improve the service life of the heat abstractor 100, enables the heat abstractor 100 Enough thermal dissipating objects for the treatment of for a long time carry out radiating treatment.

In the present embodiment, the hollow connectors 121 are cylindrical-shaped structure, the first end of the hollow connectors 121 The radial direction of the hollow connectors 121 is provided with boss 123 between the second end, the plug connector 122 is towards described The one end at the end of hollow connectors 121 second is correspondingly arranged on the snap fit 124 matched with the boss 123.

When the plug connector 122 is set on the second end of the hollow connectors 121, the card on the plug connector 122 Hooking 124 will fix in corresponding boss 123 close to the side of the cavity, so that the plug connector 122 is connected to institute pluggablely State on hollow connectors 121.Wherein, the boss 123 can be annular boss, and the number of the snap fit 124 is at least one.

In the present embodiment, the quick connector 120 also includes sealing ring 125, the sealing ring 125 be arranged on it is described in It is described for being set in the plug connector 122 on empty connector 121, and between second end and the boss 123 When on the second end of hollow connectors 121, the gap between the plug connector 122 and the hollow connectors 121 is filled, is used for Improve the sealing ability of the quick connector 120.

In a kind of embodiment of the utility model embodiment, the plug connector 122 is hollow pipeline structure, described fast Connection-peg 120 injects heat-retaining mass or by described in by the plug connector 122 to the cavity connected with the hollow connectors 121 Heat-retaining mass takes out from the cavity, so as to form heat-retaining mass circulation in the cavity, makes the radiating subassembly 110 logical Cross the heat-retaining mass circulation and treat thermal dissipating object progress radiating treatment.Specifically, two on the radiating subassembly 110 insert soon One in joint 120 can be injected into the heat-retaining mass that outside obtains in the cavity, in described two quick connectors 120 Another can take out the heat-retaining mass for filling the cavity out of described cavity, so as to form the heat accumulation in the cavity Material circulates.

Refer to Fig. 3, be the utility model preferred embodiment provide Fig. 1 shown in quick connector 120 it is another Kind structural representation.In the another embodiment of the utility model embodiment, the plug connector 122 is away from the hollow company One end of fitting 121 is provided with plug 126, and the quick connector 120 is by the plug 126 to injecting the storage in the cavity Hot material is intercepted, and the heat-retaining mass of injection is deposited in the cavity, so as to realize the sky by the trans of closing Storage of the chamber to the heat-retaining mass.

Specifically, the first quick connector 120 in two quick connectors 120 on the radiating subassembly 110 is in hollow The state that connector 121 is connected with plug connector 122, now first quick connector 120 can be used for the heat-retaining mass is entered Row intercepts, and the second quick connector 120 in described two quick connectors 120 divides in hollow connectors 121 and plug connector 122 From state when, can be by the hollow connectors 121 of second quick connector 120 externally to injecting heat accumulation in the cavity Material, and the cavity is stored the heat-retaining mass in the presence of first quick connector 120.Treat the sky When chamber is filled by the heat-retaining mass, the plug connector 122 of second quick connector 120 can by with second quick connector The mode of the 120 plug connection of hollow connectors 121, closes to the cavity, is deposited in the heat-retaining mass described In cavity.

In the present embodiment, the plug 126 can be designed manufacture according to the structure of regulator, in closing When physical property phase transformation occurs for the heat-retaining mass in the cavity, pressure regulation processing is carried out to the cavity of closing, makes the sky The heat-retaining mass of intracavitary being capable of proper heat reduction；Or the plug 126 can an external regulator, and pass through the external pressure regulation Pressure caused by heat-retaining mass phase transformation in the cavity is adjusted device, it is ensured that the heat-retaining mass energy in the cavity Enough proper heat reductions.

Fig. 4 is refer to, is a kind of structural representation for the battery modules 10 that the utility model preferred embodiment provides. In the utility model embodiment, the heat abstractor 100 can be applied to the battery modules 10, for complete within the extremely short time Cell 210 in the paired battery modules 10 carries out radiating treatment, so that each monomer in the battery modules 10 Battery 210 can normal work, improve the service life problems of battery modules 10 in the prior art.Thus, the battery modules 10 can include the heat abstractor 100 and multilayer submodule group 200, and the submodule group 200 is stacked, each submodule group 200 Including multiple cells 210, the number of the heat abstractor 100 is multiple, and the heat abstractor 100 is arranged on adjacent institute Between stating submodule group 200, carried out for the cell 210 in the submodule group 200 to the both sides of heat abstractor 100 at radiating Reason.

In the present embodiment, the radiating subassembly 110 in the heat abstractor 100 includes the fixed plate 111, the fixation Plate 111 is arranged between the adjacent submodule group 200, and on the two sides relative by being arranged on the fixed plate 111 Groove 112 houses to the cell 210 in the submodule group 200.

In the present embodiment, the quick connector 120 in the heat abstractor 100 is arranged on the radiating subassembly 110, and Connected with the cavity of the radiating subassembly 110, for by the quick connector 120 externally to injecting heat accumulation in the cavity Material, and radiating treatment is carried out to the cell 210 by the heat-retaining mass.In the present embodiment, when multiple radiatings When the plug connector 122 of hollow pipeline structure be present in the quick connector 120 on component 110, the plug connector 122 of hollow structure pair It can be interconnected between the quick connector 120 answered by mode in series or in parallel with each other, for ensuring multiple radiating dresses Heat-retaining mass will not be revealed between putting 100.

In the present embodiment, the groove 112 in the adjacent heat abstractor 100 is in adjacent fixed plate 111 opposite Position on two sides is oppositely arranged, for the cell 210 between adjacent fixed plate 111 to be fixed.Specifically Ground, in the adjacent heat abstractor 100,112 position of groove one a pair on opposite side is corresponded in two fixed plates 111 Should, the chamber resettling for the accommodating fixed cell 210 is formed, so as to which the adjacent heat abstractor will be arranged on The cell 210 of the submodule group 200 between 100 is fixed.

In the present embodiment, the number of the groove 112 on each side of fixed plate 111 and monomer in the submodule group 200 The number of battery 210 is identical, wherein the length of the groove 112 is less than the length of the cell 210, so that the monomer The both positive and negative polarity of the cell 210 when being positioned on the radiating subassembly 110 of battery 210 can be in the radiating subassembly Outside 110.

In the present embodiment, the material on the radiating subassembly 110 can be the high iron of thermal conductivity, copper, antimony, tin, aluminium etc. Metal.For example not only thermal conductivity is high for aluminium and aluminium alloy, and have the characteristics that intensity is high, corrosion resistance is good.Using aluminium and aluminium When alloy makes the radiating subassembly 110, can not only heat management be carried out to the battery modules 10, and to the battery modules 10 have supporting role.

In summary, in the utility model preferred embodiment provides quick connector, heat abstractor and battery modules, institute State quick connector easily can be adjusted to heat-retaining mass in the heat abstractor, and that improves the heat abstractor uses the longevity Life, the heat abstractor is set to carry out radiating treatment to cell for a long time, so as to the completion pair within the extremely short time The radiating treatment of battery modules, improve the service life problem of battery modules in the prior art.Specifically, the quick connector bag Plug connector and hollow connectors are included, the heat abstractor includes radiating subassembly, and the radiating subassembly includes a cavity, described hollow The first end of connector is connected with the cavity, and the second end of the hollow connectors and the plug connector are connected pluggablely, For by the cooperation between the hollow connectors and the plug connector, heat-retaining mass is injected, by the storage to the cavity Hot material takes out from the cavity or intercepted to injecting the heat-retaining mass in the cavity, so as to realize to the cavity The state of interior heat-retaining mass is adjusted, and the heat abstractor is carried out radiating treatment to cell for a long time, And the radiating treatment to battery modules is completed within the extremely short time, the service life for improving battery modules in the prior art is asked Topic.Wherein, the state of the heat-retaining mass includes species state, motion state and the physical property state of the heat-retaining mass Deng.

Preferred embodiment of the present utility model is the foregoing is only, is not limited to the utility model, for this For the technical staff in field, the utility model can have various modifications and variations.It is all in the spirit and principles of the utility model Within, any modification, equivalent substitution and improvements made etc., it should be included within the scope of protection of the utility model.

Claims (10)

1. a kind of quick connector, applied to heat abstractor, the heat abstractor includes radiating subassembly, it is characterised in that described to dissipate Hot component includes a cavity, and the quick connector includes plug connector and hollow connectors, the first end of the hollow connectors with Cavity connection, the second end of the hollow connectors and the plug connector are connected pluggablely, to pass through the hollow company Cooperation between fitting and the plug connector, realize and the state of heat-retaining mass in the cavity is adjusted.

2. quick connector according to claim 1, it is characterised in that the hollow connectors are cylindrical-shaped structure, described The radial direction of the hollow connectors is provided with boss, the plug connector between the first end of hollow connectors and the second end On be correspondingly arranged on snap fit, the plug connector is set on the second end of the hollow connectors, and by the snap fit fix exist The boss realizes the plug connection between the plug connector and the hollow connectors close to the side of the cavity.

3. quick connector according to claim 2, it is characterised in that the quick connector also includes sealing ring, described close Seal is arranged on the hollow connectors, and between the second end and the boss, for being set in the plug connector When on the second end of the hollow connectors, the gap between the plug connector and the hollow connectors is filled.

4. according to the quick connector described in any one in claim 1-3, it is characterised in that the plug connector is hollow pipeline Structure, the quick connector inject heat-retaining mass or by institute by the plug connector to the cavity that is connected with the hollow connectors State heat-retaining mass to take out from the cavity, so as to form heat-retaining mass circulation in the cavity.

5. according to the quick connector described in any one in claim 1-3, it is characterised in that the plug connector is away from described One end of empty connector is provided with plug, and the quick connector is entered by the plug to injecting the heat-retaining mass in the cavity Row intercepts, and the heat-retaining mass of injection is deposited in the cavity.

6. a kind of heat abstractor, it is characterised in that the heat abstractor includes any one in radiating subassembly and claim 1-5 Described quick connector；

The radiating subassembly includes fixed plate, is provided with the relative two sides of the fixed plate and treats thermal dissipating object for accommodating Groove, the fixed plate are provided with cavity between relative two sides；

The quick connector includes plug connector and hollow connectors, and the first end of the hollow connectors connects with the cavity, Second end of the hollow connectors and the plug connector are connected pluggablely, for passing through the plug connector and the hollow company Cooperation between fitting, the cavity is set to store heat-retaining mass, so as to treat that thermal dissipating object carries out radiating treatment to described.

7. heat abstractor according to claim 6, it is characterised in that two quick connectors are set on each radiating subassembly, Described two quick connectors are separately positioned on the relative both ends of the fixed plate, described for being made by described two quick connectors Cavity stores to heat-retaining mass.

8. heat abstractor according to claim 6, it is characterised in that the groove is on the fixed plate opposite sides face Position it is interlaced.

9. a kind of battery modules, it is characterised in that the battery modules include any one in multilayer submodule group and claim 6-8 Heat abstractor described in, include multiple cells per straton module, the number of the heat abstractor is multiple, the radiating Between device sets the adjacent submodule group, the heat abstractor includes radiating subassembly and quick connector；

The radiating subassembly includes fixed plate, and the fixed plate is accommodating described by the groove being arranged on the fixed plate side Cell；

The quick connector is arranged on radiating subassembly, and is connected with the cavity of the radiating subassembly, for by described fast slotting Joint is carried out at radiating by the heat-retaining mass to the cell externally to injecting heat-retaining mass in the cavity Reason.

10. battery modules according to claim 9, it is characterised in that the groove adjacent fixed plate it is opposite two Position on individual side is oppositely arranged, for the cell between adjacent fixed plate to be fixed.