CN110137614A - A kind of lithium-ion-power cell - Google Patents

Abstract

The invention discloses a kind of lithium-ion-power cells, including battery core, metal shell, electrolyte and the top cover being fixedly connected on the metal shell；Battery core includes positive plate, negative electrode tab and diaphragm；Positive pole ear and negative lug are respectively equipped in positive plate and negative electrode tab；Top cover is equipped with Positive Poles and negative pole；Negative electrode tab includes negative current collector and anode active material layer；Positive plate includes plus plate current-collecting body and anode active material layer, it is characterized in that being respectively provided with thermally conductive heat collection body in positive plate and negative electrode tab, thermally conductive heat collection body is the collector of the local uncoated active material layer of plus plate current-collecting body and negative current collector front part or/and reverse side, thermally conductive heat collection body builds up heat sink runner at least more than two panels, and heat sink runner protrudes into the intracorporal electrolyte more than needed of metal-back.The present invention can effectively solve the problems such as battery temperature is too high or too low, reach temperature control and improve battery life and other effects.

Description

A kind of lithium-ion-power cell

(1) technical field

The present invention relates to a kind of lithium ion battery more particularly to a kind of lithium-ion-power cells.

(2) background technique

Traffic brings dual-pressure to energy crisis and environmental pollution, efficient, cleaning that there is an urgent need to Devoting Major Efforts To Developings and research, The new-energy automobile of safety realizes energy-saving and emission-reduction.Lithium ion battery is due to high, the pollution-free, memory-less effect with specific energy The advantages that optimal candidate as new-energy automobile dynamical system.But lithium ion battery is very sensitive to temperature, in suitable temperature It spends battery pack ability high-efficiency discharge in range and keeps good performance.High temperature can make lithium ion battery aging speed become faster, Thermal resistance increase becomes faster, cycle-index tails off, service life shortens, or even the problems such as initiation battery thermal runaway；Low temperature can make electricity The conductivity for solving liquid reduces, and the ability decline of conductive activity ion, impedance increases, capacity decline.

The prior art or the riding position by changing battery core increase the purpose of heat dissipation to reach improvement fluid course； Or by the improvement to battery case, such as case material is changed to by aluminium alloy by thermoelectric material and the compound system of aluminum material It is standby, housing side is added into many places heat dissipation convex edge；Or electrode slice extension is extend into electrolyte, it will by electrolyte Amount is transmitted to battery case, then is transferred to outside batteries etc. by battery case.Although the prior art can play certain heat dissipation Effect, but heat still cannot be exported directly to outside batteries from main heating position pole piece, heat conduction and heat radiation effect is poor. Therefore, studying a kind of Novel lithium ion power battery has been urgent need.

(3) summary of the invention

In view of the deficiencies of the prior art, the present invention provides a kind of lithium-ion-power cell, it can effectively solve battery temperature The problems such as too high or too low, reach temperature control and improve battery life and other effects.

The technical solution of the present invention is as follows:

Lithium-ion-power cell, metal shell including battery core, for accommodating the battery core are injected into the metal shell Interior electrolyte and the top cover being fixedly connected on the metal shell；The battery core includes positive plate, negative electrode tab and is interval in Diaphragm between the positive plate and negative electrode tab, successively battery core is made in lamination or winding in order；The positive plate is equipped with anode Tab；The negative electrode tab is equipped with negative lug；The top cover be equipped be electrically connected with the positive pole ear Positive Poles, and The negative pole of the negative lug electrical connection；The negative electrode tab includes negative current collector and is coated on negative current collector Anode active material layer；Positive plate includes plus plate current-collecting body and coated in the anode active material layer on plus plate current-collecting body, It is characterized in that being provided with thermally conductive heat collection body in positive plate and negative electrode tab, the thermally conductive heat collection body is plus plate current-collecting body and cathode The collector of the local uncoated active material layer of the positive part of collector or/and reverse side, thermally conductive heat collection body at least more than two panels The heat sink runner of thermally conductive thermal-arrest is built up in the same area up and down, the thermal energy that heat sink runner constitutes battery core passes in and out heat sink runner；Heat sink Runner protrudes into the intracorporal electrolyte more than needed of metal-back.In this way, thermally conductive heat collection body respectively with positive plate and negative electrode tab one at Type simplifies process, improves production efficiency, and thermally conductive heat collection body is overlapped to form heat sink runner in upper and lower the same area, will be hot Confluence road protrudes into the intracorporal electrolyte more than needed of metal-back, the heat on pole piece can be made to import electrolyte rapidly, and reach metal Shell avoids causing heat to be assembled in inside battery because the heating conduction of diaphragm is not good enough, causes safety accident.

The heat sink runner is thermally conductive heat collection body by being welded and fixed to be formed.In this way, by welding by thermally conductive collection Hot body overlapping fixation forms heat sink runner, is not only firmly combined, but also advantageously reduce battery quality, it is close to improve the energy content of battery Degree.

It is described to be welded as supersonic welding, Laser Welding or friction welding (FW).

The heat sink runner is that thermally conductive heat collection body is formed by the way that bolt or riveting are fixed.In this way, by bolt or riveting Mode overlaps fixed thermally conductive heat collection body and forms heat sink runner, will not damage to diaphragm etc..

The heat sink runner is that thermally conductive heat collection body bending described in multilayer is integrally fixed.In this way, the heat on thermally conductive heat collection body Amount would be even more beneficial to concentrate on heat sink runner, is conducive to cooling or heats.

The thermally conductive heat collection body bending and positive plate and the angle of negative electrode tab are respectively 0-90 °.In this way, on thermally conductive heat collection body Heat would be even more beneficial to concentrate on heat sink runner, be conducive to cooling or heat.

The heat sink runner is that the thermally conductive unidirectional bending of heat collection body described in multilayer is integrally fixed.In this way, heat sink runner was both pacified It fills more convenient, and is conducive to cooling or heats.

The heat sink runner is that the thermally conductive forward and reverse bending of heat collection body described in multilayer is integrally fixed.In this way, thermally conductive heat collection body Between contact, heat sink runner is conducive to cooling or heats.

The heat sink runner is that the thermally conductive heat collection body of part multilayer bending is fixed with the straight thermally conductive heat collection body Integrally.In this way, contacting between thermally conductive heat collection body, heat sink runner is conducive to cool down.

The thermally conductive heat collection body of part multilayer bending is unidirectional bending.In this way, process is fairly simple.

The thermally conductive heat collection body of part multilayer bending is positive, inverse bending.In this way, being contacted between thermally conductive heat collection body, heat Confluence road is conducive to cooling or heats.

The perforation of some or all of described thermally conductive heat collection body or 3D perforation or 3D are concave-convex.In this way, the surface of thermally conductive heat collection body Product increases, and is more advantageous to cooling or heating.

Perforation is accompanied between the thermally conductive heat collection body, netted, 3D perforates, the thermally conductive heat-collecting part of 3D bumps.In this way, thermally conductive The surface area of heat collection body increases, and is more advantageous to cooling or heating.

The perforation of bending is accompanied between the thermally conductive heat collection body, netted, 3D perforates, itself thermally conductive heat collection body of 3D bumps. In this way, the cooling of thermally conductive heat collection body or heating effect are good.

The heat sink runner is provided with thermal connection part.In this way, heat importing or export heat sink can be achieved by being thermally connected part Runner, to control the temperature of battery within the scope of suitable.

The thermal connection part is cooling fin.It is led from battery in this way, the heat on heat sink runner can run through radiating piece Out, battery temperature is reduced.

The thermal connection part is sheet metal.It is led from battery in this way, the heat on heat sink runner can run through sheet metal Out, battery temperature is reduced.

The sheet metal is more sheet metals.In this way, the heat on heat sink runner can run through more sheet metals from battery Export reduces battery temperature.

The sheet metal is identical as thermally conductive heat collection body material.In this way, be conducive to connect between thermally conductive heat collection body and sheet metal, And be conducive to thermally conductive.

Between the thermally conductive heat collection body or surface is provided with fin.In this way, the heat on thermally conductive heat collection body can pass through fin Quickly export, and then reduce the temperature of battery.

It is provided on the thermally conductive heat collection body heat sink.In this way, being conducive to maintain temperature equalization on thermally conductive heat collection body, electricity is kept Pond temperature is in suitable range.

The heat sink runner is provided with heat-exchanging part.In this way, by heat-exchanging part, it can be by heat from heat sink runner Export imports, and maintains battery temperature in suitable range.

The heat sink runner and the heat-exchanging part are integrally welded.In this way, being tied between heat sink runner and heat-exchanging part It closes securely, and is not required to increase other components, be conducive to improve battery energy density.

The heat sink runner bolts with the heat-exchanging part, cementing or be riveted into one.In this way, heat sink runner and heat are handed over It changes between component and is firmly combined, and diaphragm etc. will not be damaged.

There are insulating layer, thermal insulation layer or insulating film in the thermally conductive heat collection body surface.This way it is possible to avoid thermally conductive heat collection body Short circuit occurs for place, eliminates safe hidden trouble.

The heat sink water passage surface has insulating layer or insulating film.This way it is possible to avoid short circuit occurs at heat sink runner, eliminate Security risk.

Electrolyte heat exchanger is heated or cooled in the electrolyte.In this way, by heat-exchange device to electrolyte It is heated or cooled, electrolyte is again heated or cooled thermally conductive heat collection body, and battery temperature is made to maintain suitable model In enclosing.

The thermally conductive heat collection body is connected position with wide with positive plate and negative electrode tab respectively.In this way, not increasing battery weight In the case where, thermally conductive heat collection body and pole piece connecting portion contact area are maximum, and heat-conducting effect is best.

The collector of showing up is respectively parallel to anode active material layer and anode active material layer.In this way, production technology It is convenient, high production efficiency.

The collector of showing up is complete or collected works' fluid.In this way, good heat conduction effect.

The collector of showing up is respectively ipsilateral covering anode active material layer middle part and ipsilateral covering negative electrode active material Layer middle part.

Temperature sensor is provided on the heat sink runner.In this way, the temperature on heat sink runner can be monitored accurately, reach control The purpose of heating confluence channel temp.

Temperature sensor is provided on the heat-exchanging part.In this way, the temperature on heat-exchanging part can be monitored accurately.

The temperature sensor is film temperature sensor.In this way, not only can accurately monitor temperature, but also small etc. with weight The energy density of battery can be improved in feature.

The lamination is composite laminate or packed or shred lamination.

The positive electrode active materials are LiFePO4, cobalt acid lithium, LiMn2O4 or ternary material.

The negative electrode active material is carbon negative pole material, tin base cathode material, lithium-containing transition metal nitride negative material Or alloy type negative material.

(4) Detailed description of the invention

Fig. 1 is the structural schematic diagram of the embodiment of the present invention 1；

Fig. 2 is the schematic diagram of cell structure in Fig. 1；

Fig. 3 is the diagrammatic cross-section of Fig. 2；

Fig. 4 is the schematic diagram of the section structure of battery core；

Fig. 5 is the structural schematic diagram of the embodiment of the present invention 5；

Fig. 6 is the structural schematic diagram of the embodiment of the present invention 6；

Fig. 7 is the structural schematic diagram of the embodiment of the present invention 7；

Fig. 8 is the structural schematic diagram of the embodiment of the present invention 8；

Fig. 9 is the structural schematic diagram of the embodiment of the present invention 9；

Figure 10 is the structural schematic diagram of the embodiment of the present invention 10

Figure 11 is the structural schematic diagram of the embodiment of the present invention 11；

Figure 12 is the structural schematic diagram of the embodiment of the present invention 12；

Figure 13 is the structural schematic diagram of the embodiment of the present invention 13.

(5) specific embodiment

The present invention is described in further detail below in conjunction with the accompanying drawings.

The technical solution of the present invention is as follows: lithium-ion-power cell, including battery core, the metal-back for accommodating the battery core Body, the top cover for being injected into the intracorporal electrolyte of the metal-back and being fixedly connected on the metal shell；The battery core includes Positive plate, negative electrode tab and the diaphragm being interval between the positive plate and negative electrode tab, successively electricity is made in lamination or winding in order Core；The positive plate is equipped with positive pole ear；The negative electrode tab is equipped with negative lug；The top cover is equipped with and the positive pole The Positive Poles of ear electrical connection, the negative pole being electrically connected with the negative lug；The negative electrode tab includes negative current collector With the anode active material layer being coated on negative current collector；Positive plate include plus plate current-collecting body and be coated in plus plate current-collecting body On anode active material layer, it is characterised in that thermally conductive heat collection body, the thermally conductive thermal-arrest are provided on positive plate and negative electrode tab Body is the positive part of plus plate current-collecting body and negative current collector or/and the collector of the local uncoated active material layer of reverse side, until More than few two panels thermally conductive heat collection body builds up the heat sink runner of thermally conductive thermal-arrest in the same area up and down, and heat sink runner constitutes battery core Thermal energy passes in and out heat sink runner；Heat sink runner protrudes into the intracorporal electrolyte more than needed of metal-back.

In each attached drawing, 1 is positive pole ear, and 2 be negative lug, and 3 be positive terminal, and 4 be negative terminal, and 5 be thermally conductive thermal-arrest Body, 6 be fluid course component, and 7 be battery core, and 8 be heat-exchange device, and 9 be metal shell, and 10 top covers, 11 be heat sink runner.

As shown in figure 1, positive and negative tab setting is provided with thermally conductive heat collection body 5 on the same end, positive/negative plate, and is arranged in pole The positive terminal 3 being arranged on the opposite end of ear, the i.e. bottom end of metal shell 9, positive pole ear 1 and top cover 10 is by being electrically connected in succession It connects, the negative terminal 4 being arranged in negative lug 1 and top cover 10 is by being electrically connected connection.Fig. 2 is the structural representation of battery core in Fig. 1 Figure, Fig. 3 are the diagrammatic cross-section of Fig. 2, and thermally conductive heat collection body 5 is connect integral with collector in Fig. 2, Fig. 3.It is multiple thermally conductive in Fig. 4 Heat collection body 5 links together, and forms the heat sink runner 11 of thermally conductive thermal-arrest.

As shown in figure 5, positive and negative tab setting is in the same end, thermally conductive heat collection body 5 is arranged between positive/negative plate, multiple thermally conductive Heat collection body 5 is overlapped into heat sink runner 11, and fluid course component 6 is arranged on heat sink runner 11, and fluid course component 6 is from cathode The intermediate of terminal 4 enters, and comes out from 3 one end of positive terminal, is reserved with fluid stream in the centre of positive terminal 3 and negative terminal 4 The disengaging pore of road component 6, another program fluid course component 6 can also enter from positive terminal 3, go out from negative terminal 4 Come, there is heat-exchange device 8 and fluid course component 6 to constitute a complete energy circulation outside battery case 9.

As shown in fig. 6, positive and negative tab setting is in the same end, thermally conductive heat collection body 5 is arranged between positive/negative plate, multiple thermally conductive Heat collection body 5 is overlapped into heat sink runner 11, and fluid course component 6 is arranged on heat sink runner 11, and fluid course component 6 is from top cover The side of 10 end faces enters, and comes out from the side of 10 end face of top cover, there is heat-exchange device 8 and fluid stream outside battery case Road component 6 constitutes a complete energy circulation.

As shown in fig. 7, positive and negative tab setting is in the same end, thermally conductive heat collection body 5 is arranged between positive/negative plate, can be set It on positive plate, also can be set in negative electrode tab, multiple thermally conductive heat collection bodies 5 are overlapped into heat sink runner 11, fluid course component 6 are arranged on heat sink runner 11, and the port that fluid course component 6 is reserved from 10 end face of top cover passes in and out, and inlet and outlet is all provided with It sets in the port, there is heat-exchange device 8 and fluid course component 6 to constitute a complete energy circulation outside battery case.

As shown in figure 8, positive and negative tab is arranged in the same end, the opposite end of positive and negative tab is arranged in thermally conductive heat collection body 5, can be with It is arranged on positive plate, also can be set in negative electrode tab, multiple thermally conductive heat collection bodies 5 are overlapped into heat sink runner 11, fluid course Component 6 is arranged on heat sink runner 11, and fluid course component 6 enters from the bottom surface side of metal shell 9, from 9 bottom of metal shell The other side in face comes out, and has heat-exchange device 8 and fluid course component 6 to constitute a complete energy outside battery case Circulation.

As shown in figure 9, positive and negative tab is arranged in the same end, the opposite end of positive and negative tab is arranged in thermally conductive heat collection body 5, can be with It is arranged on positive plate, also can be set in negative electrode tab, multiple thermally conductive heat collection bodies 5 are overlapped into heat sink runner 11, fluid course Component 6 is arranged on heat sink runner 11, and the port that fluid course component 6 is reserved from the bottom surface of metal shell 9 passes in and out, import It is arranged at the port with outlet, has heat-exchange device 8 and fluid course component 6 to constitute one completely outside battery case Energy circulation.

As shown in Figure 10, positive and negative tab setting is in the same end, and thermally conductive heat collection body 5 is arranged between positive/negative plate, thermally conductive collection Hot body 5 connect integral with negative electrode tab, and multiple thermally conductive heat collection bodies 5 are overlapped into heat sink runner 11, and the setting of fluid course component 6 exists On heat sink runner 11, fluid course component 6 is come in from the pore that the centre of negative terminal 4 is reserved, in positive terminal and cathode The centre of terminal is reserved with the disengaging pore of fluid course component 6；(thermally conductive heat collection body 5 is connected into positive plate in another program Whole, case fluid course component 6 reserves the disengaging pore disengaging of fluid flow path features 6 from positive terminal 3), outside battery case Face has heat-exchange device 8 and fluid course component 6 to constitute a complete energy circulation.

As shown in figure 11, positive and negative tab is arranged in the same end, and the side of battery core 7 is arranged in thermally conductive heat collection body 5, multiple thermally conductive Heat collection body 5 is overlapped into heat sink runner 11, and fluid course component 6 is arranged on heat sink runner 11, and fluid course component 6 is from metal The reserved port disengaging in the side of shell 9, has heat-exchange device 8 and fluid course component 6 to constitute one outside battery case Complete energy circulation.

As shown in figure 12, positive and negative tab is arranged in the same end, and the side of battery core 7, and indent is arranged in thermally conductive heat collection body 5 With pole piece, multiple thermally conductive heat collection bodies 5 are overlapped into heat sink runner 11, and fluid course component 6 is arranged on heat sink runner 11, fluid The port that flow path features 6 are reserved from the side of metal shell 9 passes in and out, and has heat-exchange device 8 and fluid stream outside battery case Road component 6 constitutes a complete energy circulation.

As shown in figure 13, positive and negative tab is arranged in the same end, and the side of battery core 7 is arranged in thermally conductive heat collection body 5, multiple thermally conductive Heat collection body 5 is overlapped into heat sink runner 11, and fluid course component 6 is arranged on heat sink runner 11, the entrance of fluid course component 6 The side of metal shell 9 is set, the different location of the ipsilateral of metal shell 9 is arranged in the outlet of fluid course component 6, There are heat-exchange device 8 and fluid course component 6 to constitute a complete energy circulation outside battery case.

Above content is enumerating for specific embodiments of the present invention, for the equipment and structure of wherein not detailed description, is answered When being interpreted as that the existing common apparatus in this field and universal method is taken to be practiced.

The above embodiment of the present invention is only to illustrate that technical solution of the present invention is used simultaneously, only the column of technical solution of the present invention It lifts, the technical solution and its protection scope being not intended to restrict the invention.Using equivalent technologies mean, equivalent apparatus etc. to this The improvement of technical solution disclosed in invention claims and specification is considered to be without departing from the claims in the present invention Range disclosed in book and specification.

Claims (7)

1. lithium-ion-power cell, metal shell including battery core, for accommodating the battery core is injected into the metal shell Electrolyte and the top cover that is fixedly connected on the metal shell；The battery core includes positive plate, negative electrode tab and is interval in institute The diaphragm between positive plate and negative electrode tab is stated, successively battery core is made in lamination or winding in order；The positive plate is equipped with positive pole Ear；The negative electrode tab is equipped with negative lug；The top cover be equipped be electrically connected with the positive pole ear Positive Poles, with it is described The negative pole of negative lug electrical connection；The negative electrode tab includes negative current collector and coated in the cathode on negative current collector Active material layer；Positive plate includes plus plate current-collecting body and coated in the anode active material layer on plus plate current-collecting body, and feature exists In being provided with thermally conductive heat collection body on positive plate and negative electrode tab, the thermally conductive heat collection body is plus plate current-collecting body and negative current collector The collector of the local uncoated active material layer of positive part or/and reverse side, thermally conductive heat collection body is up and down same at least more than two panels One region builds up the heat sink runner of thermally conductive thermal-arrest, and the thermal energy that heat sink runner constitutes battery core passes in and out heat sink runner；Heat sink runner protrudes into In the intracorporal electrolyte more than needed of metal-back.

2. lithium-ion-power cell as described in claim 1, it is characterised in that the heat sink runner is that thermally conductive heat collection body passes through It is welded and fixed to be formed；Or the heat sink runner is that thermally conductive heat collection body is formed by the way that bolt or riveting are fixed；Or the heat sink Runner is that thermally conductive heat collection body bending described in multilayer is integrally fixed；Or the heat sink runner is that the described of part multilayer bending is led Hot heat collection body is integrally fixed with the straight thermally conductive heat collection body；Or heat sink runner is provided with heat-exchanging part；Or institute Stating heat sink water passage surface has insulating layer or insulating film；Or electrolyte heat exchanger is heated or cooled in the electrolyte； Or temperature sensor is provided on the heat sink runner.

3. lithium-ion-power cell as claimed in claim 2, it is characterised in that described to be welded as supersonic welding, Laser Welding or rub Wipe weldering；Or the thermally conductive heat collection body bending and the angle of positive plate and negative electrode tab are respectively 0-90 °；Or the heat sink runner It is integrally fixed for the unidirectional bending of thermally conductive heat collection body described in multilayer；Or the heat sink runner is thermally conductive heat collection body described in multilayer Forward and reverse bending is integrally fixed；Or the thermally conductive heat collection body of part multilayer bending is unidirectional bending；Or part multilayer The thermally conductive heat collection body of bending is positive, inverse bending；Or the heat sink runner and the heat-exchanging part it is integrally welded； Or the heat sink runner bolts with the heat-exchanging part, is cementing or be riveted into one；Or it is set on the heat-exchanging part It is equipped with temperature sensor；Or the temperature sensor is film temperature sensor.

4. lithium-ion-power cell as claimed in claim 3, it is characterised in that the temperature sensor is film temperature sensing Device.

5. lithium-ion-power cell as described in claim 1, it is characterised in that some or all of thermally conductive heat collection body perforation or 3D perforation or 3D are concave-convex；Or accompanied between thermally conductive heat collection body perforation, netted, 3D perforation, 3D bumps thermally conductive heat-collecting part；Or The perforation of bending is accompanied between the thermally conductive heat collection body of person, netted, 3D perforates, itself thermally conductive heat collection body of 3D bumps；Or heat sink stream Road is provided with thermal connection part；Or there are insulating layer, thermal insulation layer or insulating film in thermally conductive heat collection body surface；Or thermally conductive heat collection body On be provided with it is heat sink；Or between thermally conductive heat collection body or surface is provided with fin；Or thermally conductive heat collection body respectively with positive plate and Negative electrode tab is connected position with wide；Or collector of showing up is respectively parallel to anode active material layer and anode active material layer；Or Person shows up collector for complete or collected works' fluid；Or collector of showing up is respectively in the middle part of ipsilateral covering anode active material layer and cathode is living Property material layer in the middle part of；Or the lamination is composite laminate or packed or shred lamination；Or the positive electrode active materials are phosphorus Sour iron lithium, cobalt acid lithium, LiMn2O4 or ternary material；Or the negative electrode active material be carbon negative pole material, tin base cathode material, Lithium-containing transition metal nitride negative material or alloy type negative material.

6. lithium-ion-power cell as claimed in claim 5, it is characterised in that the thermal connection part is cooling fin；Or it is described Thermal connection part is sheet metal.

7. lithium-ion-power cell as claimed in claim 6, it is characterised in that the sheet metal is more sheet metals；Or it is described Sheet metal is identical as thermally conductive heat collection body material.