CN207559020U - Heat management device, battery modules and electrical equipment - Google Patents

Abstract

The utility model provides a kind of heat management device, battery modules and electrical equipment, which includes spaced multiple heat conduction baffles along the first direction, the space for accommodating battery core is formed between the adjacent heat conduction baffle of each two.Metallic conduit is provided in each heat conduction baffle, which extends through the heat conduction baffle along the second direction vertical with first direction, and multiple heat conduction baffle is respectively arranged with end plate by perforative both ends.End plate offers the cavity connected with each metallic conduit and the passway connected with the cavity, and fluid can pass through the into and out heat management device in the passway.End plate includes the conductive part contacted with each metallic conduit and the insulation division for the conductive part to be isolated, and the conductive part of each end plate is electrically connected with the power supply respectively, so that metallic conduit conductive exothermal in electric power starting, for the battery core heating being arranged between heat conduction baffle.It is equably heated in this way, each battery core in device can be managed with opposite heat tube.

Description

Heat management device, battery modules and electrical equipment

Technical field

The utility model is related to battery thermal management technical field, in particular to a kind of heat management device, battery modules And electrical equipment.

Background technology

Battery modules are the critical components of electric vehicle, directly affect electricity as the main energy-storage travelling wave tube on electric vehicle The performance of electrical automobile.Battery core in battery modules may be heated or be radiated in use, so as to avoid battery core For a long time in low temperature or the condition of high temperature, and then the performance of battery core is influenced, reduce the service life of battery core.

At present, it is typically employed in battery modules and conduit is installed, and injection is higher than the liquid of certain temperature into conduit Mode is heated for battery core, however, the temperature of liquid can change with the flowing of liquid, it can not be to each in battery modules A battery is uniformly heated, so as to influence the performance of battery modules.

Utility model content

In view of this, the utility model provides a kind of heat management device, battery modules and electrical equipment, to improve above-mentioned ask Topic.

In order to achieve the above object, the utility model embodiment provides a kind of heat management device, applied to including battery core Battery modules, the heat management device include spaced multiple heat conduction baffles along the first direction, the adjacent heat conduction of each two The space for accommodating the battery core is formed between partition board；

It is provided with metallic conduit in each heat conduction baffle, the metallic conduit is along vertical with the first direction the Two directions extend through the heat conduction baffle, and the multiple heat conduction baffle is respectively arranged with end plate by perforative both ends；

The end plate offers the cavity connected with each metallic conduit and the passway connected with the cavity, fluid The into and out heat management device in the passway can be passed through；

The end plate includes the conductive part contacted with each metallic conduit and the insulation division for the conductive part to be isolated, The conductive part of each end plate is electrically connected with the power supply respectively, so that metallic conduit conduction in the electric power starting is sent out Heat, for the battery core heating being arranged between the heat conduction baffle.

Optionally, in heat management device provided in this embodiment, the end plate includes the first sub- end plate and the second sub- end Plate, the first sub- end plate are in contact with each metallic conduit, and the second sub- end plate is arranged on the described first sub- end plate Away from one end of the multiple heat conduction baffle；

The first sub- end plate offers the first cavity connected with each metallic conduit, and the second sub- end plate offers The second cavity connected with first cavity, first cavity form the cavity of the end plate with second cavity；The channel Mouth is set to one end that the described second sub- end plate deviates from the described first sub- end plate, and connects with the second cavity of the second sub- end plate It is logical；

The first sub- end plate is made of an electrically conducting material, and the second sub- end plate is made of insulating materials, the conductive part For the described first sub- end plate, the insulation division is the described second sub- end plate.

Optionally, in heat management device provided in this embodiment, the passway includes being respectively arranged at described second The the first subchannel mouth and the second subchannel mouth of the different location of sub- end plate, wherein, coolant can pass through first subchannel The into and out heat management device of mouth, compressed air can pass through the into and out heat management of the second subchannel mouth and fill It puts, the coolant in the heat management device is drained.

Optionally, in heat management device provided in this embodiment, the first subchannel mouth and second subchannel Mouth is provided with movable barrier piece.

Optionally, in heat management device provided in this embodiment, the first subchannel mouth and second subchannel Mouth is connected with block.

Optionally, in heat management device provided in this embodiment, the first sub- end plate and the multiple heat conduction baffle The one end being in contact offers the through-hole connected respectively with each metallic conduit, so that first in the first sub- end plate Cavity is connected with each metallic conduit.

Optionally, in heat management device provided in this embodiment, the heat conduction baffle is by flexible Heat Conduction Material It is made.

Optionally, in heat management device provided in this embodiment, the heat conduction baffle is made of heat-conducting glue.

The utility model embodiment also provides a kind of battery modules, the heat management dress provided including the utility model embodiment The battery core in the heat management device is put and is arranged on, the battery core is heated or radiated by the heat management device.

The utility model embodiment also provides a kind of electrical equipment, the battery mould provided including the utility model embodiment Group, and powered by the battery modules.

In terms of existing technologies, the utility model embodiment has the advantages that：

The utility model embodiment provides a kind of heat management device, battery modules and electrical equipment, heat management device and includes Spaced multiple heat conduction baffles along the first direction form the sky for accommodating battery core between the adjacent heat conduction baffle of each two Between.Metallic conduit is provided in each heat conduction baffle, which extends and pass through along the second direction vertical with first direction The heat conduction baffle is worn, multiple heat conduction baffle is respectively arranged with end plate by perforative both ends.End plate offers and each metallic conduit The cavity of connection and the passway connected with the cavity, fluid can pass through the into and out heat management device in the passway.End plate Insulation division including the conductive part contacted with each metallic conduit and for the conductive part to be isolated, the conductive part of each end plate respectively with Power supply is electrically connected, so that metallic conduit conductive exothermal in electric power starting, for the battery core heating being arranged between heat conduction baffle. It is equably heated in this way, each battery core in device can be managed with opposite heat tube.

Description of the drawings

It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing be briefly described, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore should not be by Regard the restriction to range as, for those of ordinary skill in the art, without creative efforts, may be used also To obtain other relevant attached drawings according to these attached drawings.

Fig. 1 is the schematic diagram of a kind of battery modules that the utility model embodiment provides；

Fig. 2 is the schematic view of the mounting position of a kind of heat conduction baffle that the utility model embodiment provides and battery core；

Fig. 3 is the side schematic view of structure shown in Fig. 2；

Fig. 4 is the structure diagram of a kind of end plate that the utility model embodiment provides；

Fig. 5 is the structure diagram of another end plate that the utility model embodiment provides；

Fig. 6 is the first sub- end plate and the connection diagram of the second sub- end plate and power supply that the utility model embodiment provides.

Icon：10- battery modules；100- heat management devices；110- heat conduction baffles；111- metallic conduits；112- passways； 113- cavitys；120- end plates；The first sub- end plates of 121-；1211- through-holes；The second sub- end plates of 122-；200- battery cores；300- power supplys.

Specific embodiment

Purpose, technical scheme and advantage to make the utility model embodiment are clearer, new below in conjunction with this practicality Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model part of the embodiment, instead of all the embodiments.Usually here described in attached drawing and The component of the utility model embodiment shown can be configured to arrange and design with a variety of different.

Therefore, requirement is not intended to limit to the detailed description of the embodiment of the utility model provided in the accompanying drawings below The scope of the utility model of protection, but it is merely representative of the selected embodiment of the utility model.Based in the utility model Embodiment, those of ordinary skill in the art's all other embodiments obtained without making creative work, all Belong to the range of the utility model protection.

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

As shown in Figure 1, it is that the utility model embodiment provides a kind of structure diagram of heat management device 100, the heat Managing device 100 is applied to the battery modules 10 for including battery core 200, is carried out with the battery core 200 included to the battery modules 10 Heat management, for example, the battery core 200 is radiated or heated.

The heat management device 100 includes spaced multiple heat conduction baffles 110 along the first direction, and each two is adjacent The space for accommodating the battery core 200 is formed between heat conduction baffle 110.Wherein, the size in the space and the battery core 200 Size mutually agree with, that is, the battery core 200 just can be mounted on the space that the adjacent heat conduction baffle 110 of each two is formed It is interior.Optionally, the battery core 200 can be the soft-package battery of cubic.

Please refer to Fig. 2 and Fig. 3, wherein, Fig. 2 be the utility model embodiment provide a kind of heat conduction baffle 110 with The schematic view of the mounting position of battery core 200, Fig. 3 are the side structure schematic diagrams of Fig. 2.

In the present embodiment, metallic conduit 111 is provided in each heat conduction baffle 110, each metallic conduit 111 extend through the heat conduction baffle 110 along the second direction vertical with the first direction.Wherein, X1 directions shown in Fig. 2 Or the negative direction in the X1 directions can be considered the first direction, correspondingly, X2 directions shown in Fig. 2 or the X2 directions Negative direction can be considered the second direction.

The metallic conduit 111 can be used for for fluid (e.g., coolant) flow, with to be arranged on heat conduction baffle 110 it Between battery core 200 radiate.

Optionally, multiple metallic conduits 111 can be set up in parallel in each heat conduction baffle 110, with pair with the heat conduction The each region for the battery core 200 that partition board 110 contacts carries out heat management, that is, increase carries out heat management to the heat conduction baffle 110 Area, and then reach preferably heat dissipation or heating effect.Correspondingly, each heat conduction baffle 110 is along the second direction Two ends are run through respectively by the multiple metallic conduit 111, so as to form multiple pipe holes.

It should be appreciated that the metallic conduit 111 is hollow pipeline.In the present embodiment, the metallic conduit 111 is outer Diameter can be 1.2 millimeters -2 millimeters, and thickness can be 0.1 millimeter -0.3 millimeter, in a kind of specific embodiment, the gold The overall diameter of metal conduit 111 can be 1.4 millimeters, and thickness can be 0.2 millimeter.

Fig. 1 and Fig. 4 are please referred to, wherein, Fig. 4 is a kind of structure for the end plate 120 that the utility model embodiment provides Schematic diagram.In the present embodiment, the multiple heat conduction baffle 110 is respectively arranged with end plate 120 by perforative both ends.Such as Fig. 4 institutes Show, the end plate 120 offers the cavity 113 connected with each metallic conduit 111 and connected with the cavity 113 logical Road junction 112.

Optionally, in the present embodiment, the passway 112 can be with as shown in figure 4, open up on the end plate 120 Opening；The passway 112 can also be as shown in Figure 1, being the opening opened up on the end plate 120 and being set to the opening The entirety that pipeline is formed, the present embodiment do not limit this.

During implementation, fluid can pass through the into and out heat management device 100 in the passway 112.When the fluid From the passway 112 of the multiple 110 one end of heat conduction baffle enter the heat management device 100 when, the passway 112 as into Entrance, correspondingly, the passway 112 of the multiple 110 other end of heat conduction baffle are used as outflux.Optionally, the fluid can To be the flowable materials such as liquid, gas.

In the present embodiment, the end plate 120 includes the conductive part contacted with each metallic conduit 111 and is used for The insulation division of the conductive part is isolated, the conductive part of each end plate 120 is electrically connected with the power supply respectively.When needing to battery When battery core 200 in module 10 heats, the power supply can be opened, due to each metallic conduit 111 and is arranged on described more The end plate 120 at a 110 both ends of heat conduction baffle is in contact, therefore, each meeting of metallic conduit 111 conductive exothermal, so as to be setting Battery core 200 between heat conduction baffle 110 heats.

In the prior art, the liquid higher than certain temperature is led to typically in the fluid channel contacted with battery core or battery Come to the battery core or battery heating.But with the flowing of fluid, temperature can change, to the heating effect of battery core It can change, the heating so as to cause the battery core of different location in battery modules is uneven, so as to influence the property of battery modules Energy.And by above-mentioned design, the power supply can be opened, due to each when needing to heat the battery core 200 in battery modules 10 Heat caused by the metallic conduit 111 is roughly the same, and equably battery core 200 each in battery modules 10 can be added Heat.

In practical applications, typically multiple battery modules 10 are arranged together use, thus, the insulation division is set, It can directly be contacted to avoid conductive part with other battery modules 10.

Fig. 1 and Fig. 5 are please referred to, in a kind of specific embodiment, the end plate 120 includes the first sub- end plate 121 With the second sub- end plate 122, wherein, the first sub- end plate 121 is in contact with each metallic conduit 111, second son End plate 122 is arranged on one end that the described first sub- end plate 121 deviates from the multiple heat conduction baffle 110.

The first sub- end plate 121 offers the first cavity connected with each metallic conduit 111, second son End plate 122 offers the second cavity connected with first cavity, which forms the end plate with second cavity Cavity 113.For example, it is assumed that one end of the multiple heat conduction baffle 110 is provided with end plate A, end plate A is offered and each metal The cavity S that pipeline 111 connects, end plate A include the first sub- sub- end plate A2 of end plate A1 and second, are offered in the first sub- end plate A1 Offering the second cavity S2 in first cavity S1, the second sub- end plate A2, then the first cavity S1 and the second cavity S2 are interconnected, and Collectively form cavity S.

During implementation, the fluid entered from any one passway 112 is followed by the second cavity, the first cavity, metal tube Road 111, the first cavity and the second cavity.

The first sub- end plate 121 can be made of conductive material (e.g., metal), and the second sub- end plate 122 can be by Insulating materials is made.In this case, the described first sub- end plate 121 can be the conductive part of the end plate 120, second son End plate 122 can be the insulation division of the end plate 120.

As shown in fig. 6, at this point, the first sub- end plate 121 and the second sub- end plate 122 are electrical with power supply 300 respectively Connection forms a closed circuit.When power supply 300 is opened, the first sub- end plate 121, the second sub- end plate 122 and described The metallic conduit 111 connected between first sub- 121 and second sub- end plate 122 of end plate forms the resistance of the closed circuit.

Referring to Fig. 5, one end that the first sub- end plate 121 is in contact with the multiple heat conduction baffle 110 can be with The through-hole 1211 connected respectively with the metallic conduit 111 is offered, so as to make the first cavity in the described first sub- end plate 121 It is connected by the through-hole 1211 with each metallic conduit 111.

Through inventor the study found that the coolant for radiating to battery core 200 is electrically conductive, opened in the power supply 300 Afterwards, if still remaining coolant in the heat management device 100 (including passway 112, end plate 120, metallic conduit 111 etc.), It still influences whether other battery modules 10 contacted with 200 place battery modules 10 of the battery core or the battery modules 10 is installed The component of equipment (e.g., electric vehicle).

Thus, in one embodiment, before the power supply 300 is opened, pressure can be passed through in the passway 112 Contracting air will remain in coolant in the heat management device 100 and discharge, so as to which the coolant electrification be avoided to flow to institute It states outside battery modules 10, and then influences the other component outside the battery modules 10.

In another embodiment, the passway 112 can include being respectively arranged at the described second sub- end plate 122 The the first subchannel mouth and the second subchannel mouth of different location.Wherein, coolant can be entered by the first subchannel mouth Or the outflow heat management device 100, compressed air can pass through the into and out heat management of the second subchannel mouth Device 100 drains the coolant in the heat management device 100.

That is, the both ends of the multiple heat conduction baffle 110 be respectively arranged to circulation coolant the first subchannel mouth and For the second subchannel mouth of the compressed air that circulates.

It, can be directly by the first subchannel mouth by setting the first subchannel mouth and the second subchannel mouth It is connected with coolant storage organization, the second subchannel mouth is connected with compressed air storage organization, it is complicated without setting Switching connection mechanism or switched over by artificial mode.

Optionally, in the present embodiment, the first subchannel mouth and the second subchannel mouth can be provided with activity Barrier sheet, block, solenoid valve or other constructions of switch.When needing logical coolant, the phase of the second subchannel mouth can be closed Inductive switch structure；When needing heating, the respective switch structure of the first subchannel mouth can be closed.

When the battery core 200 is soft-package battery, battery core 200 is understood as the variation of own temperature expands or shrinks, It is preferable so as to reach in order to still ensure that the contact with battery core 200 of heat conduction baffle 110 is good when battery core 200 changes Thermal conduction effect may be used flexible Heat Conduction Material and make the heat conduction baffle 110, for example, heat-conducting glue may be used Make the heat conduction baffle 110.

The heat management device 100 that the utility model embodiment provides can use in the following way：

When needing to radiate for battery core 200, coolant is passed through from the passway 112 on an end plate 120, so that the cooling Liquid stream flows out after the metallic conduit 111 in each heat conduction baffle 110 from the passway 112 on another end plate 120, so as to set The battery core 200 put in the heat management device 100 radiates；

When needing to heat for battery core 200, compressed air is passed through from the passway 112 on an end plate 120, by described in Coolant in heat management device 100 drains, and opens the power supply 300 being electrically connected with conductive part, so that each heat conduction baffle 110 In 111 conductive exothermal of metallic conduit, so as to be heated for the battery core 200 that is arranged in the heat management device 100.

The utility model embodiment also provides a kind of battery modules 10, and the battery modules 10 include provided in this embodiment Heat management device 100 and the battery core 200 being arranged in the heat management device 100, the battery core 200 are filled by the heat management 100 are put to be heated or radiated.

The utility model embodiment also provides a kind of electrical equipment, which includes the battery modules 10, and leads to The battery modules 10 are crossed to power.For example, the electrical equipment can be electric vehicle.

In conclusion heat management device 100, method and battery modules 10 that the utility model embodiment provides, heat management Device 100 includes spaced multiple heat conduction baffles 110 along the first direction, shape between the adjacent heat conduction baffle 110 of each two Into for accommodating the space of battery core 200.Be provided with metallic conduit 111 in each heat conduction baffle 110, the metallic conduit 111 along with The vertical second direction of first direction extends through the heat conduction baffle 110, and multiple heat conduction baffle 110 is by perforative both ends point It is not provided with end plate 120.End plate 120 offers the cavity 113 connected with each metallic conduit 111 and is connected with the cavity 113 Passway 112, fluid can pass through the 112 into and out heat management device 100 of passway.End plate 120 includes and each metal tube The conductive part and insulation division for the conductive part to be isolated that road 111 contacts, the conductive part of each end plate 120 respectively with power supply 300 It is electrically connected, so that the conductive exothermal when power supply 300 is opened of metallic conduit 111, for the battery core being arranged between heat conduction baffle 110 200 heating.It is equably heated in this way, each battery core 200 in device 100 can be managed with opposite heat tube.

In the description of the present invention, it should also be noted that, unless otherwise clearly defined and limited, term " is 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；It can be directly connected, intermediary can also be passed through It is indirectly connected, can be the connection inside two elements.For the ordinary skill in the art, it can be managed with concrete condition Solve concrete meaning of the above-mentioned term in the utility model.

In addition it is also necessary to explanation, herein, relational terms such as first and second and the like be used merely to by One entity or operation are distinguished with another entity or operation, without necessarily requiring or implying these entities or operation Between there are any actual relationship or orders.Moreover, term " comprising ", "comprising" or its any other variant meaning Covering non-exclusive inclusion, so that process, method, article or equipment including a series of elements not only include that A little elements, but also including other elements that are not explicitly listed or further include for this process, method, article or The intrinsic element of equipment.In the absence of more restrictions, the element limited by sentence "including a ...", is not arranged Except also there are other identical elements in the process, method, article or apparatus that includes the element.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of heat management device, which is characterized in that applied to the battery modules including battery core, the heat management device includes edge First direction spaced multiple heat conduction baffles form between the adjacent heat conduction baffle of each two to accommodate the battery core Space；

Metallic conduit, the metallic conduit edge second party vertical with the first direction are provided in each heat conduction baffle To the heat conduction baffle is extended through, the multiple heat conduction baffle is respectively arranged with end plate by perforative both ends；

The end plate, which offers the cavity connected with each metallic conduit and the passway connected with the cavity, fluid, to be led to Cross the into and out heat management device in the passway；

The end plate includes the conductive part contacted with each metallic conduit and the insulation division for the conductive part to be isolated, each The conductive part of the end plate is electrically connected with the power supply respectively, so that metallic conduit conductive exothermal in the electric power starting, For the battery core heating being arranged between the heat conduction baffle.

2. heat management device according to claim 1, which is characterized in that the end plate includes the first sub- end plate and the second son End plate, the first sub- end plate are in contact with each metallic conduit, and the second sub- end plate is arranged on the described first sub- end The one end of backboard from the multiple heat conduction baffle；

The first sub- end plate offers the first cavity connected with each metallic conduit, and the second sub- end plate offers The second cavity connected with first cavity, first cavity form the cavity of the end plate with second cavity；The channel Mouth is set to one end that the described second sub- end plate deviates from the described first sub- end plate, and connects with the second cavity of the second sub- end plate It is logical；

The first sub- end plate is made of an electrically conducting material, and the second sub- end plate is made of insulating materials, and the conductive part is institute The first sub- end plate is stated, the insulation division is the described second sub- end plate.

3. heat management device according to claim 2, which is characterized in that the passway includes being respectively arranged at described the The the first subchannel mouth and the second subchannel mouth of the different location of two sub- end plates, wherein, coolant can be logical by the described first son The into and out heat management device in road junction, compressed air can be filled by the into and out heat management of the second subchannel mouth It puts, the coolant in the heat management device is drained.

4. heat management device according to claim 3, which is characterized in that the first subchannel mouth and second son are logical Road junction is provided with movable barrier piece.

5. heat management device according to claim 3, which is characterized in that the first subchannel mouth and second son are logical Road junction is connected with block.

6. according to claim 2-5 any one of them heat management devices, which is characterized in that the first sub- end plate with it is described more One end that a heat conduction baffle is in contact offers the through-hole connected respectively with each metallic conduit, so that the first sub- end The first cavity in plate is connected with each metallic conduit.

7. according to claim 1-5 any one of them heat management devices, which is characterized in that the heat conduction baffle is by having elasticity Heat Conduction Material be made.

8. heat management device according to claim 7, which is characterized in that the heat conduction baffle is made of heat-conducting glue.

9. a kind of battery modules, which is characterized in that including claim 1-8 any one of them heat management device and be arranged on institute The battery core in heat management device is stated, the battery core is heated or radiated by the heat management device.

10. a kind of electrical equipment, which is characterized in that the electrical equipment includes the battery modules described in claim 9, and passes through institute State battery modules power supply.