CN208507897U - A kind of radiator and battery modules - Google Patents

Abstract

The utility model provides a kind of radiator and battery modules, radiator is applied to the battery modules including flexible joining part, radiator passes through setting temperature detector, controller, conductive structure and fan, and temperature detector and conductive structure are respectively arranged at flexible joining part, and fan is set to conductive structure, heat transfer when flexible joining part being worked by the thermal-conductivity substrate on conductive structure is to multiple heat conduction fin on pieces, realize the conduction to the heat being flexible coupling, since the quantity of thermally conductive fin is more, it is also bigger with the contact area of air, and fan is being used to radiate thermally conductive fin when the temperature is excessively high, it can dissipate the heat to the air faster, reduce itself the temperature of being flexible coupling.When radiator is applied in battery modules, can effectively avoid being flexible coupling influence and the case where thermal run away occur by high temperature of battery in battery modules, to improve the power supply safety of battery modules.

Description

A kind of radiator and battery modules

Technical field

The utility model relates to battery technology fields, in particular to a kind of radiator and battery modules.

Background technique

The power battery of power resources as automobile generally may include multiple groups battery modules.Due to each group of battery It may include multiple single batteries in mould group, multiple single batteries can be by being arranged on anode collection plate and negative pole currect collecting plate Interconnecting piece is respectively formed the positive or negative pole of a battery modules.Between multiple groups battery modules mutual serial or parallel connection in groups when, The positive or negative pole of two battery modules can be connected by flexible joining part.

Since the quantity of single battery in battery modules is more, the electric current passed through in flexible joining part is larger, so that being flexible coupling The resulting heat of part is also higher.In the battery modules course of work, the temperature in flexible joining part can be more than even monomer The unstability temperature of battery brings hidden danger to the power supply safety of battery.

Utility model content

In view of this, the present invention provides a kind of radiator and battery modules, can solve the above problem.

The technical scheme that the utility model is provided is as follows:

A kind of radiator, applied to the battery modules including flexible joining part, the radiator include temperature detector, Controller, conductive structure and fan, the temperature detector and the fan are electrically connected with the controller respectively；

The conductive structure includes the thermal-conductivity substrate being bonded with the flexible joining part side and is arranged in the thermal-conductivity substrate On multiple thermally conductive fins, the fan is set to the thermal-conductivity substrate and close to the thermally conductive fin, the temperature detector The flexible joining part is set to detect the temperature of the flexible joining part, the controller controls the fan according to the temperature Working condition.

Optionally, in above-mentioned radiator, the flexible joining part includes the first conductive connection part, the second conductive connection part With the middle interconnecting piece for connecting first conductive connection part, the second conductive connection part, the flexible joining part is by plurality of conductive layers Constitute, the temperature detector be temperature sensor, and the temperature sensor be set to first conductive connection part and/or Second conductive connection part.

Optionally, in above-mentioned radiator, the thermal-conductivity substrate and the thermally conductive fin are mutually indepedent, the thermally conductive base The multiple card slots to match with the thermally conductive fin are provided on bottom, and each card slot is respectively along the axis of the middle interconnecting piece To setting, the thermally conductive fin is connected together by the card slot and the thermal-conductivity substrate, to constitute multiple air ventilation passages, The air outlet of the fan and each air ventilation passage face.

Optionally, in above-mentioned radiator, the conductive structure be it is multiple, the fan is multiple, and each fan A corresponding conductive structure, each conductive structure are respectively arranged at the flexible joining part, each fan point It is not set to the thermal-conductivity substrate that corresponding conductive structure includes.

Optionally, in above-mentioned radiator, on first conductive connection part and second conductive connection part respectively It is provided with fixation hole, the conductive layer is provided with through-hole in the position of the correspondence fixation hole.

Optionally, in above-mentioned radiator, the temperature sensor is two, and a temperature sensor is set to and leans on At the position for the fixation hole being arranged on nearly first conductive connection part, another temperature sensor is disposed in proximity to described second At the position for the fixation hole being arranged on conductive connection part.

Optionally, in above-mentioned radiator, the thermally conductive fin is sheet metal, and the conductive layer is aluminium foil layer or copper foil Layer.

Optionally, in above-mentioned radiator, the flexible joining part passes through the afflux on the fixation hole and battery modules Plate connection, the battery modules include multiple single batteries, are provided between the flexible joining part and the single battery heat-insulated Structure.

Optionally, in above-mentioned radiator, the thermal-conductivity substrate be insulating heat-conductive substrate, the insulating heat-conductive substrate with Insulating heat-conductive pad is provided between the flexible joining part.

The utility model also provides a kind of battery modules, including collector plate, flexible joining part, radiator and multiple batteries The electrode of monomer, each battery cell is connect with the collector plate respectively, and the collector plate passes through the flexible joining part and its He connects battery modules；

The radiator includes temperature detector, controller, conductive structure and fan, the temperature detector and institute Fan is stated to be electrically connected with the controller respectively；

The conductive structure includes the thermal-conductivity substrate being bonded with the flexible joining part side and is arranged in the thermal-conductivity substrate On multiple thermally conductive fins, the fan is set to the thermal-conductivity substrate and close to the thermally conductive fin, the temperature detector The flexible joining part is set to detect the flexible joining part temperature, the controller controls the fan according to the temperature Working condition.

A kind of radiator provided by the utility model and battery modules, radiator pass through setting flexible joining part, temperature Detector, controller, conductive structure and fan, heat when flexible joining part being worked by the thermal-conductivity substrate on conductive structure Amount is transmitted to multiple heat conduction fin on pieces, the conduction to the heat of flexible joining part is realized, since the quantity of thermally conductive fin is more, with air Contact area it is also bigger, and the flow velocity of the air at thermally conductive fin is made faster by using fan, and then realize and quickly will Heat is dispersed into air, reduces the temperature of flexible joining part itself.With radiator be applied to battery modules in when, Neng Gouyou Effect avoids the battery in battery modules from being influenced by the flexible joining part of high temperature and the case where thermal run away occur, improves the confession of battery modules Electric safety.

To enable the above objects, features, and advantages of the utility model to be clearer and more comprehensible, preferred embodiment is cited below particularly, and Cooperate appended attached drawing, is described in detail below.

Detailed description of the invention

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 a kind of structural schematic diagram of battery modules provided by the embodiment of the utility model.

Fig. 2 is a kind of connection block diagram of radiator provided by the embodiment of the utility model.

Fig. 3 is a kind of structural schematic diagram of radiator provided by the embodiment of the utility model.

Fig. 4 is a kind of another structural schematic diagram of battery modules provided by the embodiment of the utility model.

Fig. 5 is the enlarged view of part A in Fig. 4.

Fig. 6 is a kind of structural schematic diagram of flexible joining part provided by the embodiment of the utility model.

Icon: 10- battery modules；100- radiator；110- temperature detector；120- controller；130- conductive structure； 132- thermal-conductivity substrate；The thermally conductive fin of 134-；140- fan；200- flexible joining part；210- first connecting portion；Connection among 220- Portion；230- second connecting portion；240- fixation hole；300- collector plate；400- single battery.

Specific embodiment

Below in conjunction with attached drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out clear Chu is fully described by, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole realities Apply example.The component of the utility model embodiment being usually described and illustrated herein in the accompanying drawings can be come with a variety of different configurations Arrangement and design.Therefore, the detailed description of the embodiments of the present invention provided in the accompanying drawings is not intended to limit below The range of claimed invention, but it is merely representative of the selected embodiment of the utility model.Based on the utility model Embodiment, those skilled in the art's every other embodiment obtained without making creative work, all Belong to the range of the utility model protection.

It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined in a attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.Meanwhile it is practical new at this In the description of type, term " first ", " second " etc. are only used for distinguishing description, are not understood to indicate or imply relatively important Property.

Referring to Fig. 1, the embodiment of the present application provides a kind of battery modules 10, the battery modules 10 include collector plate 300, flexible joining part 200, radiator 100 and multiple single batteries 400, the electrode of each single battery 400 respectively with The collector plate 300 connects, and the collector plate 300 is connect by the flexible joining part 200 with other battery modules 10.

Since the quantity of single battery 400 in battery modules 10 is more, the electric current passed through in flexible joining part 200 is larger, makes It is also higher to obtain the heat that flexible joining part 200 generates, by above-mentioned setting, to realize when flexible joining part 200 generates excessive heat, The radiator 100 can carry out reliable and effective heat dissipation to flexible joining part 200, and then avoid battery modules 10 worked Cheng Zhong, the temperature in flexible joining part 200 even can be more than the unstability temperature of single battery 400, give 10 safety belt of battery modules The case where carrying out hidden danger.

Wherein, the quantity for the single battery 400 for including in the battery modules 10 is not specifically limited herein, the afflux The shape of plate 300 is not specifically limited herein, and is configured according to the quantity of the single battery 400 and actual demand, It is not specifically limited herein.

It is appreciated that the battery modules 10 may include than components more or fewer in Fig. 1, for example, the battery Mould group 10 can also include the component for each single battery 400 of encapsulation such as bottom plate, cover board, side plate, not limit specifically herein It is fixed.

Incorporated by reference to Fig. 2 and Fig. 3, the utility model also provides a kind of radiator that can be applied to above-mentioned battery modules 10 100, the radiator 100 includes temperature detector 110, controller 120, conductive structure 130 and fan 140, the temperature Degree detector 110 and the fan 140 are electrically connected with the controller 120 respectively.

Detailed incorporated by reference to Fig. 4 and Fig. 5, the conductive structure 130 includes being bonded with 200 side of flexible joining part Thermal-conductivity substrate 132 and the multiple thermally conductive fins 134 being arranged in the thermal-conductivity substrate 132, the fan 140 are set to described lead Hot substrate 132 and close to the thermally conductive fin 134, the temperature detector 110 are set to the flexible joining part 200 to detect 200 temperature of flexible joining part is stated, the controller 120 controls the working condition of the fan 140 according to the temperature.

By above-mentioned setting, to lead when being radiated using above-mentioned radiator 100 to the flexible joining part 200 In heat transfer to multiple thermally conductive fins 134 when thermal-conductivity substrate 132 on heat structure 130 works flexible joining part 200, realize Conduction to the heat of flexible joining part 200 is also bigger and logical with the contact area of air since the quantity of thermally conductive fin 134 is more It crosses the flow velocity for using fan 140 to make the air at thermally conductive fin 134 faster, and then realizes and quickly distribute heat to air In, reduce the temperature of flexible joining part 200 itself.Can effectively avoid when radiator 100 is applied in battery modules 10 Battery in battery modules 10 is influenced by the flexible joining part 200 of high temperature and the case where thermal run away occurs, improves battery modules 10 Power supply safety.

Wherein, the shape of the flexible joining part 200 can be arbitrary, for example, it may be the rule shape such as strip, rectangular Shape is also possible to any irregular shape, is not specifically limited herein, is configured according to actual needs, the soft company Fitting 200 can have the material of excellent conductive performance to be made by copper, aluminium or silver etc., be not specifically limited herein, according to reality Demand and cost of manufacture are configured, and are not specifically limited herein.

Incorporated by reference to Fig. 6, optionally, in the present embodiment, the flexible joining part 200 connects including first connecting portion 210, second Socket part 230 and the middle interconnecting piece 220 for connecting the first connecting portion 210, second connecting portion 230.

Wherein, the first connecting portion 210 can be arranged along the axis direction of the middle interconnecting piece 220, can also edge The direction setting vertical with the axis of the middle interconnecting piece 220, is not specifically limited herein, is configured according to actual needs , the second connecting portion 230 can be arranged along the axis direction of the middle interconnecting piece 220, can also along with it is described in Between interconnecting piece 220 axis it is vertical direction setting, be not specifically limited herein, it should be noted that the first connecting portion 210 and the extending direction of second connecting portion 230 can be identical, be also possible to different, be not specifically limited herein.

The flexible joining part 200 can be stacked gradually by multiple conductive tie layers and be constituted.Layer by layer by multiple conductive connections The folded flexible joining part 200 constituted, on the one hand each conductive tie layers can realize electric action, the thickness of another aspect lamella What can be made is very thin, and flexible joining part 200 still can be made to have certain flexibility after multiple conductive connection layer stackups, make its tool There is good structure adaptability.

In the present embodiment, the conductive tie layers can be aluminium foil layer, copper foil layer or silver foil layer, not limit specifically herein It is fixed, it is configured according to actual needs.

The mode that the flexible joining part 200 is connect with the collector plate 300 can be by the way of welding, be also possible to It is fixedly connected using screw.

Optionally, in the present embodiment, it is respectively arranged in the first connecting portion 210 and the second connecting portion 230 Fixation hole 240, the collector plate 300 is with the flexible joining part 200 by passing through the first connecting portion 210 or second company Fixation hole 240 in socket part 230 is connected and fixed.

It is appreciated that being provided with through-hole, the collection with the corresponding position of the fixation hole 240 in the collector plate 300 Flowing plate 300 and the flexible joining part 200 are by passing through the fixation in the first connecting portion 210 or the second connecting portion 230 Hole 240 and the through-hole are connected and fixed.

The temperature detector 110 can be temperature sensor, and the quantity of the temperature detector 110 can be one It can be multiple, and the temperature sensor can be set in any position of the flexible joining part 200.

Since the collector plate 300 and resistance of the flexible joining part 200 at link position are larger, in the connection The temperature generated at position is higher, therefore to keep the testing result of the temperature detector 110 more accurate.Optionally, at this In embodiment, the temperature detector 110 is temperature sensor, and the temperature sensor is two, and one of temperature passes Sensor is disposed in proximity at the position for the fixation hole 240 being arranged in the first connecting portion 210, the setting of another temperature sensor At the position for the fixation hole 240 being arranged in the second connecting portion 230.

Wherein, the mode that the controller 120 controls the working condition of the fan 140 can be, the controller 120 The revolving speed for adjusting fan 140 in real time according to the temperature detected is also possible to control the wind when temperature value is more than setting value 140 starting of fan, radiates to the flexible joining part 200 with realizing, is not specifically limited herein, is configured according to actual needs i.e. It can.

Optionally, in the present embodiment, the controller 120 controls the work shape of the fan 140 according to the temperature The mode of state is the first preset temperature value and the second preset temperature value to be prestored in the controller 120, and described first is default Temperature value is greater than second preset temperature value, and the controller 120 is in the temperature for receiving the temperature detector 110 and detecting Angle value controls the starting of fan 140 to radiate, until the controller 120 exists when being greater than first preset temperature value When receiving temperature value that the temperature detector 110 detects and being less than second preset temperature value, the fan 140 is controlled It stops operating.

Wherein, first preset temperature value can be but not limited to 55 degrees Celsius, 60 degrees Celsius or 65 degrees Celsius, described Second preset temperature value can be but not limited to 40 degrees Celsius, 45 degrees Celsius or 50 degrees Celsius, be not specifically limited herein.

Optionally, in the present embodiment, it is stored with default corresponding relationship in the controller 120, wherein described default pair It include that multiple temperature values and corresponding 140 revolving speed of fan of each temperature values, the controller 120 are also used in should being related to The temperature value and the default corresponding relationship that are detected according to the temperature detector 110 control the revolving speed of the fan 140.

The conductive structure 130 is fitted in the flexible joining part 200 by the thermal-conductivity substrate 132, it is possible to understand that It is that conductive structure 130 can be made of metal, utilizes the good thermal conductivity of metal.Or conductive structure 130 can use Insulating heat-conduction material is made, and after flexible joining part 200 is connected in battery modules 10, utilizes insulating heat-conduction material and other assemblies Insulation, avoids causing unnecessary electrical connection.

In addition, due to the flexibility that flexible joining part 200 needs to have certain, in the embodiment of the present application, in conductive structure 130 Thermal-conductivity substrate 132 can using a thinner thickness thin slice or use soft insulating heat-conduction material, can by welding or The mode of gluing is fixed on the side of flexible joining part 200, to guarantee the whole flexibility of flexible joining part 200.

Optionally, in the present embodiment, the thermally conductive fin 134 is sheet metal, and the thermal-conductivity substrate 132 is insulating heat-conductive Substrate 132 is provided with insulating heat-conductive pad between the insulating heat-conductive substrate 132 and the flexible joining part 200.

The thermal-conductivity substrate 132 and thermally conductive fin 134 for including in the conductive structure 130 can be split settings, can also be with It is to be integrally formed setting, is not specifically limited herein, is configured according to actual needs.

Optionally, in the present embodiment, the thermal-conductivity substrate 132 and the thermally conductive fin 134 are mutually indepedent, described thermally conductive The multiple card slots to match with the thermally conductive fin 134 are provided in substrate 132, and each card slot connects along the centre respectively The axial setting of socket part 220, the thermally conductive fin 134 are connected together by the card slot and the thermal-conductivity substrate 132, to constitute Multiple air ventilation passages, the air outlet of the fan 140 and each air ventilation passage face.

By above-mentioned setting, the fan 140 is enabled to increase the air flowing speed around each thermally conductive fin 134 Degree, and then make the better heat-radiation effect of the thermally conductive fin 134.

Since the radiator 100 is applied in battery modules 10, in order to avoid the heat transfer in flexible joining part 200 Onto neighbouring single battery 400, it is also provided with heat insulation between flexible joining part 200 and single battery 400, this is heat-insulated The size and number of block can be determines according to actual conditions.Heat insulation can be made of the lower material of pyroconductivity, will be soft Connector 200 is kept apart with neighbouring single battery 400, and the higher flexible joining part 200 of temperature is avoided to make single battery 400 At influence.

It is understood that the heat insulation can be made of the material insulating and heat transfer efficiency is low.Implement in the application In example, the single battery 400 in battery modules 10 can be cylindrical battery, and heat insulation has and the cylindrical battery The first end face that matches of side.In a battery modules 10, single battery 400 is in array arrangement connection, by by the One end face is arranged to the curved surface to match with cylindrical battery side, and heat insulation is being placed on single battery 400 and is being flexible coupling After between part 200, the curved surface in first end face can be matched and be bonded with multiple single batteries 400, and pass through flexible joining part 200 Pressing so that heat insulation is clipped in the middle by flexible joining part 200 and single battery 400, by the setting of curved surface so that heat insulation not Mobile problem can occur because of the vibration of battery modules 10.

In conclusion a kind of radiator 100 provided by the utility model and battery modules 10, radiator 100 is applied In the battery modules 10 including flexible joining part 200, radiator 100 passes through setting temperature detector 110, controller 120, thermally conductive Structure 130 and fan 140, and temperature detector 110 and conductive structure 130 are respectively arranged at flexible joining part 200, and will Fan 140 is set to conductive structure 130, when flexible joining part 200 being worked by the thermal-conductivity substrate 132 on conductive structure 130 Heat transfer to multiple thermally conductive fins 134 on, the conduction to the heat of flexible joining part 200 is realized, due to thermally conductive fin 134 Quantity is more, also bigger with the contact area of air, and makes the flow velocity of the air at thermally conductive fin 134 by using fan 140 Faster, and then realization quickly dissipates the heat to the air, and reduces the temperature of flexible joining part 200 itself.In radiator 100 When applied in battery modules 10, can effectively avoid battery in battery modules 10 influenced by the flexible joining part 200 of high temperature and There is the case where thermal run away, improves the power supply safety of battery modules 10.

Above description is only a specific implementation of the present invention, but the protection scope of the utility model is not limited to In this, anyone skilled in the art within the technical scope disclosed by the utility model, can readily occur in variation Or replacement, it should be covered within the scope of the utility model.Therefore, the protection scope of the utility model is answered described with power Subject to the protection scope that benefit requires.

Claims (10)

1. a kind of radiator, applied to the battery modules including flexible joining part, which is characterized in that the radiator includes temperature Degree detector, controller, conductive structure and fan, the temperature detector and the fan are electrically connected with the controller respectively It connects；

The conductive structure includes the thermal-conductivity substrate being bonded with the flexible joining part side and is arranged in the thermal-conductivity substrate Multiple thermally conductive fins, the fan are set to the thermal-conductivity substrate and close to the thermally conductive fin, the temperature detector settings The temperature of the flexible joining part is detected in the flexible joining part, the controller controls the work of the fan according to the temperature Make state.

2. radiator according to claim 1, which is characterized in that the flexible joining part include the first conductive connection part, Second conductive connection part and the middle interconnecting piece for connecting first conductive connection part, the second conductive connection part, it is described to be flexible coupling Part is made of plurality of conductive layers, and the temperature detector is temperature sensor, and the temperature sensor is set to described first Conductive connection part and/or second conductive connection part.

3. radiator according to claim 2, which is characterized in that the thermal-conductivity substrate and the thermally conductive fin are mutually only It is vertical, the multiple card slots to match with the thermally conductive fin are provided in the thermal-conductivity substrate, and each card slot is respectively along described The axial setting of middle interconnecting piece, the thermally conductive fin is connected together by the card slot and the thermal-conductivity substrate, more to constitute A air ventilation passage, the air outlet of the fan and each air ventilation passage face.

4. radiator according to claim 3, which is characterized in that the conductive structure be it is multiple, the fan is more It is a, and the corresponding conductive structure of each fan, each conductive structure are respectively arranged at the flexible joining part, Each fan is respectively arranged at the thermal-conductivity substrate that corresponding conductive structure includes.

5. radiator according to claim 2, which is characterized in that first conductive connection part and second conduction Fixation hole is respectively arranged on interconnecting piece, the conductive layer is provided with through-hole in the position of the correspondence fixation hole.

6. radiator according to claim 5, which is characterized in that the temperature sensor is two, and a temperature Sensor is disposed in proximity at the position for the fixation hole being arranged on first conductive connection part, the setting of another temperature sensor At the position for the fixation hole being arranged on second conductive connection part.

7. radiator according to claim 5, which is characterized in that the thermally conductive fin is sheet metal, the conductive layer For aluminium foil layer or copper foil layer.

8. radiator according to claim 5, which is characterized in that the flexible joining part passes through the fixation hole and battery Collector plate connection in mould group, the battery modules include multiple single batteries, the flexible joining part and the single battery it Between be provided with heat insulation structural.

9. radiator according to claim 1, which is characterized in that the thermal-conductivity substrate is insulating heat-conductive substrate, described Insulating heat-conductive pad is provided between insulating heat-conductive substrate and the flexible joining part.

10. a kind of battery modules, which is characterized in that including collector plate, flexible joining part, radiator and multiple battery cells, The electrode of each battery cell is connect with the collector plate respectively, and the collector plate passes through the flexible joining part and other batteries The connection of mould group；

The radiator includes temperature detector, controller, conductive structure and fan, the temperature detector and the wind Fan is electrically connected with the controller respectively；

The conductive structure includes the thermal-conductivity substrate being bonded with the flexible joining part side and is arranged in the thermal-conductivity substrate Multiple thermally conductive fins, the fan are set to the thermal-conductivity substrate and close to the thermally conductive fin, the temperature detector settings In the flexible joining part to detect the flexible joining part temperature, the controller controls the work of the fan according to the temperature State.