CN109860802A - A kind of cylindrical lithium ion battery - Google Patents

Abstract

Cylindrical lithium ion battery, it includes cylindrical shell, positive cover board, negative cover, Positive Poles, negative pole and battery core, the battery case is coated on the outside of battery core, the battery core includes positive plate, diaphragm, negative electrode tab, diaphragm is set between negative electrode tab and positive plate, the negative electrode tab includes negative current collector and coated in the anode active material layer on negative current collector, 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 by: being provided with thermally conductive heat collection body in positive plate or/and negative electrode tab, the thermally conductive heat collection body is the positive part of plus plate current-collecting body or/and negative current collector or/and the collector of the local uncoated active material layer of reverse side, thermally conductive heat collection body builds up the heat sink runner of thermally conductive thermal-arrest in the same area up and down at least more than two panels, constitute battery core Thermal energy pass in and out heat sink runner, heat sink runner overlaps or is connected with film heating piece, and heat sink runner and film heating piece constitute heat sink runner heating component.It can effectively solve the problems such as battery temperature is too high or too low.

Description

A kind of cylindrical lithium ion battery

(1) technical field

The present invention relates to a kind of lithium ion battery more particularly to a kind of cylindrical lithium ion batteries.

(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, pollution-free, memory-less effect etc. with specific energy Advantage becomes the optimal candidate of new-energy automobile dynamical system.But lithium ion battery is very sensitive to temperature, in suitable temperature Battery pack high-efficiency discharge and could keep good performance in range.High temperature can make lithium ion battery aging speed become faster, is hot Resistance increase becomes faster, cycle-index tails off, service life shortens, or even the problems such as initiation battery thermal runaway；Low temperature can be electrolysed The conductivity of 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, by electrolyte by energy It is transmitted to battery case, then outside batteries etc. are transferred to by battery case.Make although the prior art can play certain heat dissipation With, but heat still cannot be exported directly to outside batteries from main heating position pole piece, heat conduction and heat radiation effect is poor.Cause This, studying a kind of novel cylindrical lithium ion 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 cylindrical lithium ion battery, it can effectively solve battery temperature Spend the problems such as too high or too low.

The technical solution of the present invention is as follows: cylindrical lithium ion battery comprising cylindrical shell, positive cover board, negative cover Plate, Positive Poles, negative pole and battery core, the anode cover board and the negative cover are respectively and fixedly installed to the shell Both ends, the Positive Poles and the negative pole are respectively arranged in the anode cover board and the negative cover, and the battery core includes Negative electrode tab, diaphragm and positive plate, described in negative electrode tab, diaphragm and positive plate successively overlap after be wound into it is cylindric；Positive plate It is connected with anode ear, is connect with Positive Poles；Negative electrode tab is connected with negative electrode lug, connect with negative pole；The anode ear and negative The ipsilateral or two sides of battery core main body are arranged in tab, and the negative electrode tab includes negative current collector and is coated on negative current collector Anode active material layer, the positive plate includes plus plate current-collecting body and coated in the positive electrode active materials on plus plate current-collecting body Layer, it is characterised in that: thermally conductive heat collection body is provided on positive plate or/and negative electrode tab, the thermally conductive heat collection body is plus plate current-collecting body Or/and negative current collector positive part or/and the local uncoated active material layer of reverse side collector, at least more than two panels lead Hot heat collection body builds up the heat sink runner of thermally conductive thermal-arrest in the same area up and down, constitutes the thermal energy disengaging heat sink runner of battery core, heat sink Runner overlaps or is connected with film heating piece, and heat sink runner and film heating piece constitute heat sink runner heating component.In this way, will lead Hot heat collection body overlaps to form heat sink runner in upper and lower the same area, and is heated by film heating piece to heat sink runner, Ji Keshi Existing internal temperature of battery increases, and avoids because battery temperature is low, and causes battery working efficiency low, the adverse effect such as lost of life； Thermally conductive heat collection body can be integrally formed with positive plate, simplify process, improve production efficiency；Thermally conductive heat collection body can with positive plate one at Type simplifies process, improves production efficiency.

Optionally, of the invention to be further characterized in that the thermally conductive heat collection body of at least two panels or more is spaced in the same area up and down and builds up The heat sink runner of the thermally conductive thermal-arrest of sandwich constitutes the heat sink runner of battery core thermal energy disengaging.

Optionally, of the invention to be further characterized in that the heat sink runner is thermally conductive heat collection body by being welded and fixed to be formed.This Sample, thermally conductive heat collection body are not needed additionally to increase component, can be fixed together, and heat can be led rapidly by heat sink runner Enter and export, controls battery in suitable temperature range.

Of the invention be further characterized in that described is welded as supersonic welding, Laser Welding or friction welding (FW).

Optionally, of the invention to be further characterized in that the heat sink runner is thermally conductive heat collection body by bolt or rivets fixed shape At.In this way, thermally conductive heat collection body can be fixed together, heat can be imported rapidly and be exported by heat sink runner, control battery In suitable temperature range.

Optionally, of the invention to be further characterized in that the heat sink runner is that thermally conductive heat collection body bending described in multilayer is fixed into one Body.In this way, the heat on thermally conductive heat collection body would be even more beneficial to concentrate on heat sink runner, is conducive to radiate or heat.

Further, of the invention to be further characterized in that the thermally conductive heat collection body bending is vertical with pole piece or 0-89 ° of inclination angle.This Sample, the heat on thermally conductive heat collection body would be even more beneficial to concentrate on heat sink runner, are conducive to radiate or heat.

Optionally, of the invention to be further characterized in that the heat sink runner is that the thermally conductive unidirectional bending of heat collection body described in multilayer is fixed Integrally.In this way, heat sink runner not only installed it is more convenient, but also be conducive to radiate or heat.

Optionally, of the invention to be further characterized in that the heat sink runner is the thermally conductive forward and reverse bending of heat collection body described in multilayer It is integrally fixed.In this way, heat sink runner is conducive to radiate or heat.

Optionally, it is of the invention be further characterized in that the heat sink runner be the bending of part multilayer the thermally conductive heat collection body with The straight thermally conductive heat collection body is integrally fixed.In this way, heat sink runner is conducive to radiate or heat.

Optionally, the thermally conductive heat collection body of the invention for being further characterized in that part multilayer bending is unidirectional bending.In this way, Heat sink runner not only installed it is more convenient, but also be conducive to radiate or heat.

Optionally, the thermally conductive heat collection body of the invention for being further characterized in that part multilayer bending be positive, inverse bending.This Sample, heat sink runner are conducive to radiate or heat.

Optionally, of the invention to be further characterized in that the perforation of some or all of thermally conductive heat collection body or 3D perforation or 3D are concave-convex. In this way, the surface area of thermally conductive heat collection body increases, it is more advantageous to heat dissipation or heating.

Optionally, of the invention to be further characterized in that that perforation, netted, 3D perforation, 3D are accompanied between thermally conductive heat collection body is concave-convex Thermally conductive heat-collecting part.In this way, the heat dissipation of thermally conductive heat collection body or heating efficiency will be more preferable.

Optionally, of the invention be further characterized in that is characterized in that heat sink runner is provided with thermal connection part.In this way, being thermally connected part Can heat rapidly be imported or be exported heat sink runner.

Further, of the invention to be further characterized in that the thermal connection part is cooling fin.In this way, cooling fin can rapidly will be warm Amount export heat sink runner.

Further, of the invention to be further characterized in that the thermal connection part is sheet metal.In this way, sheet metal can be fast by heat Speed export heat sink runner.

Further, of the invention to be further characterized in that the sheet metal is identical as thermally conductive heat collection body material.In this way, sheet metal It would be even more beneficial to connect with thermally conductive heat collection body.

Optionally, of the invention to be further characterized in that between thermally conductive heat collection body or surface is provided with fin.In this way, thermally conductive thermal-arrest Heat on body can quickly be exported by fin, and then reduce the temperature of battery.

Optionally, it is of the invention be further characterized in that on thermally conductive heat collection body be provided with it is heat sink.In this way, thermally conductive by heat sink control Heat collection body is within suitable temperature range.

Optionally, of the invention be further characterized in that is characterized in that heat sink runner is provided with heat-exchanging part.In this way, passing through heat Replacement part can control the temperature of heat sink runner within the scope of suitable, and battery performance is avoided to be done harm to.

Further, of the invention to be further characterized in that the heat sink runner and the heat-exchanging part are integrally welded.This Sample, heat sink runner, which does not need addition additional components with heat-exchanging part, securely to be connect, and connects also more convenient.

Further, of the invention to be further characterized in that the heat sink runner and heat-exchanging part bolt, cementing or riveting It is connected into one.In this way, heat sink runner can be securely joined together with heat-exchanging part.

Optionally, of the invention to be further characterized in that the heat sink runner connection on the housing, the shell serves as scattered Hot device.In this way, the heat on heat sink runner is beneficial to reach the surface of battery, be conducive to radiate.

Optionally, of the invention to be further characterized in that there are insulating layer, thermal insulation layer or insulating film in thermally conductive heat collection body surface.This Sample will avoid causing short circuit in inside battery, cause the danger such as explosion.

Optionally, of the invention to be further characterized in that the heat sink water passage surface has insulating layer or insulating film.In this way, will avoid Short circuit is caused in inside battery, causes the danger such as explosion.

Optionally, it is of the invention be further characterized in that the heat sink runner be located at the ipsilateral of the positive pole ear, opposite side and At least side of sides adjacent.

Optionally, of the invention to be further characterized in that the heat sink runner has one or two or three in the side of positive pole ear It is a.It imports or exports from heat sink runner in this way, heat is more advantageous to.

Optionally, of the invention to be further characterized in that thermally conductive heat collection body protrudes from positive plate.In this way, be conducive to heat import or Export.

Further, the thermally conductive heat collection body of the invention for being further characterized in that protrusion protrudes into the electrolyte in battery case In.In this way, the heat of thermally conductive heat collection body can import in electrolyte, heat reaches rapidly battery surface through electrolyte, avoid because every Film heat transfer property is bad, and heat is caused to gather in inside battery, causes dangerous；The heat in electrolyte can also be by leading simultaneously Hot heat collection body and rapidly import pole piece, avoid battery temperature too low.

Further, electrolyte heat exchanger is heated or cooled in of the invention be further characterized in that in the electrolyte. In this way, electrolyte can be such that battery temperature maintains in suitable range by the way that thermally conductive heat collection body is heated or cooled.

Optionally, of the invention to be further characterized in that thermally conductive heat collection body is depressed in negative electrode tab.In such manner, it is possible to save inside battery Space can make the capacity of the battery of same volume bigger.

Optionally, of the invention to be further characterized in that thermally conductive heat collection body is connected position with negative electrode tab with wide.In this way, heating conduction It is good, and production process is simple.

Optionally, of the invention to be further characterized in that collector of showing up is parallel to anode active material layer.

Further, of the invention to be further characterized in that collector of showing up is complete or collected works' fluid.

Optionally, of the invention to be further characterized in that collector of showing up is in the middle part of ipsilateral covering anode active material layer.

Optionally, of the invention be further characterized in that on the heat sink runner is provided with temperature sensor.In this way, can accurately obtain Obtain the temperature data on heat sink runner.

Optionally, of the invention be further characterized in that on the heat-exchanging part is provided with temperature sensor.In this way, can be accurate Obtain the temperature data on heat-exchanging part.

Further, of the invention to be further characterized in that the temperature sensor is film temperature sensor.

Optionally, of the invention to be further characterized in that the positive electrode active materials are LiFePO4, cobalt acid lithium, LiMn2O4 or three First material.

Optionally, of the invention to be further characterized in that the negative electrode active material is carbon negative pole material, tin base cathode material, contains Lithium transition-metal nitride negative electrode 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 structural schematic diagram of the embodiment of the present invention 2；

Fig. 3 is the structural schematic diagram of the embodiment of the present invention 3；

Fig. 4 is the structural schematic diagram of the embodiment of the present invention 4；

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.

(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: cylindrical lithium ion battery comprising cylindrical shell, positive cover board, negative cover Plate, Positive Poles, negative pole and battery core, the anode cover board and the negative cover are respectively and fixedly installed to the shell Both ends, the Positive Poles and the negative pole are respectively arranged in the anode cover board and the negative cover, and the battery core includes Negative electrode tab, diaphragm and positive plate, described in negative electrode tab, diaphragm and positive plate successively overlap after be wound into it is cylindric；Positive plate It is connected with anode ear, is connect with Positive Poles；Negative electrode tab is connected with negative electrode lug, connect with negative pole；The anode ear and negative The ipsilateral or two sides of battery core main body are arranged in tab, and the negative electrode tab includes negative current collector and is coated on negative current collector Anode active material layer, the positive plate includes plus plate current-collecting body and coated in the positive electrode active materials on plus plate current-collecting body Layer, it is characterised in that: thermally conductive heat collection body is provided on positive plate or/and negative electrode tab, the thermally conductive heat collection body is plus plate current-collecting body Or/and negative current collector positive part or/and the local uncoated active material layer of reverse side collector, at least more than two panels lead Hot heat collection body builds up the heat sink runner of thermally conductive thermal-arrest in the same area up and down, constitutes the thermal energy disengaging heat sink runner of battery core, heat sink Runner overlaps or is connected with film heating piece, and heat sink runner and film heating piece constitute heat sink runner heating component.

In each attached drawing, 1 is cylindrical shell, and 2 be positive cover plate, and 3 be Positive Poles, and 4 be battery core, and 5 be thermally conductive heat collection body, 6 be fluid course component, and 7 be heat-exchange device.

As shown in figure 1, thermally conductive heat collection body and fluid course component are arranged in anode end, the inlet and outlet of fluid course component The different location of positive cover board side is set simultaneously, and the inlet and outlet of fluid course component and the heat-exchange device of outside batteries connect It connects.

In Fig. 2, thermally conductive heat collection body and fluid course component are arranged in anode end, the inlet and outlet of fluid course component The same position of positive cover board side is set simultaneously, and the inlet and outlet of fluid course component and the heat-exchange device of outside batteries connect It connects.

In Fig. 3, thermally conductive heat collection body and fluid course component are arranged in anode end, the inlet and outlet of fluid course component The center of Positive Poles is set simultaneously, and the inlet and outlet of fluid course component and the heat-exchange device of outside batteries connect.

In Fig. 4, thermally conductive heat collection body and fluid course component are arranged in battery cathode end, the inlet and outlet of fluid course component The different location of the bottom (negative pole end) of cylindrical shell is set simultaneously, the inlet and outlet of fluid course component and outside batteries Heat-exchange device connection.

In Fig. 5, thermally conductive heat collection body and fluid course component are arranged in battery cathode end, the inlet and outlet of fluid course component The same position of the bottom (negative pole end) of cylindrical shell is set simultaneously, the inlet and outlet of fluid course component and outside batteries Heat-exchange device connection.

In Fig. 6, thermally conductive heat collection body and fluid course component are arranged in battery cathode end, the inlet and outlet of fluid course component The same position of the side of cylindrical shell is set simultaneously, and the inlet and outlet of fluid course component and the heat exchange of outside batteries fill Set connection.

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 hair The improvement of technical solution disclosed in bright claims and specification is considered to be without departing from claims of the present invention And range disclosed in specification.

Claims (10)

1. cylindrical lithium ion battery comprising cylindrical shell, positive cover board, negative cover, Positive Poles, negative pole and Battery core, the anode cover board and the negative cover are respectively and fixedly installed to the both ends of the shell, the Positive Poles and institute Negative pole to be stated to be respectively arranged in the anode cover board and the negative cover, the battery core includes negative electrode tab, diaphragm and positive plate, Negative electrode tab, diaphragm and the positive plate is wound into cylindric after successively overlapping；Positive plate is connected with anode ear, with Positive Poles Connection；Negative electrode tab is connected with negative electrode lug, connect with negative pole；The ipsilateral of battery core main body is arranged in the anode ear and negative electrode lug Or two sides, the negative electrode tab includes negative current collector and coated in the anode active material layer on negative current collector, described Positive plate includes plus plate current-collecting body and coated in the anode active material layer on plus plate current-collecting body, it is characterised in that: positive plate or/ Be provided with thermally conductive heat collection body in negative electrode tab, the thermally conductive heat collection body is the positive office of plus plate current-collecting body or/and negative current collector The collector of the local uncoated active material layer of portion or/and reverse side, thermally conductive heat collection body is up and down in the same area at least more than two panels The heat sink runner for building up thermally conductive thermal-arrest constitutes the thermal energy disengaging heat sink runner of battery core, and heat sink runner, which overlaps or is connected with film, to be added Backing, heat sink runner and film heating piece constitute heat sink runner heating component.

2. cylindrical lithium ion battery as described in claim 1, it is characterised in that at least more than two panels above and below thermally conductive heat collection body It is spaced in the heat sink runner that the same area builds up the thermally conductive thermal-arrest of sandwich, constitutes the heat sink runner of battery core thermal energy disengaging.

3. cylindrical lithium ion battery as claimed in claim 2, it is characterised in that the heat sink runner is that thermally conductive heat collection body is logical It crosses and is welded and fixed to be formed.

4. cylindrical lithium ion battery as claimed in claim 3, it is characterised in that the heat sink runner is that thermally conductive heat collection body is logical It crosses and is welded and fixed to be formed.

5. cylindrical lithium ion battery as claimed in claim 4, it is characterised in that it is described be welded as supersonic welding, Laser Welding or Friction welding (FW).

6. cylindrical lithium ion battery as claimed in claim 2, it is characterised in that the heat sink runner is that thermally conductive heat collection body is logical Cross bolt or the fixed formation of riveting.

7. cylindrical lithium ion battery as claimed in claim 3, it is characterised in that the heat sink runner is thermally conductive described in multilayer Heat collection body bending is integrally fixed.

8. cylindrical lithium ion battery as described in claim 1, it is characterised in that the thermally conductive heat collection body bending and pole piece Angle is 0-90 °.

9. the cylindrical lithium ion battery as described in any claim in claim 1 to 8, it is characterised in that the heat sink stream Road is that the thermally conductive unidirectional bending of heat collection body described in multilayer is integrally fixed；Or the heat sink runner is thermally conductive heat collection body described in multilayer Forward and reverse bending is integrally fixed；Or the heat sink runner be multilayer bending the thermally conductive heat collection body with it is straight described Thermally conductive heat collection body is integrally fixed；Or the thermally conductive heat collection body of multilayer bending is positive, inverse bending；Or heat sink runner is Part multilayered thermally-conductive heat collection body bending and straight thermally conductive heat collection body are integrally welded；Or some or all of thermally conductive heat collection body is worn Hole or 3D perforation or 3D are concave-convex；Or accompanied between thermally conductive heat collection body perforation, netted, 3D perforation, 3D bumps thermally conductive thermal-arrest portion Part；Or accompanied between thermally conductive heat collection body the perforation of itself bending, netted, 3D perforation, 3D bumps thermally conductive heat collection body；Or heat Confluence road is provided with thermal connection part；Or the thermal connection part is cooling fin；Or the thermal connection part is sheet metal；Or institute Stating sheet metal is more sheet metals；Or the sheet metal is identical as thermally conductive heat collection body material；Or between thermally conductive heat collection body or table Face is provided with fin；Or it is provided on thermally conductive heat collection body heat sink；Or heat sink runner is provided with heat-exchanging part；Or it is described Heat sink runner and the heat-exchanging part are integrally welded；Or the heat sink runner bolts with the heat-exchanging part, is cementing Or it is riveted into one.

10. the cylindrical lithium ion battery as described in any claim in claim 1 to 8, it is characterised in that thermally conductive thermal-arrest There are insulating layer, thermal insulation layer or insulating film in body surface face；Or the heat sink water passage surface has insulating layer or insulating film；Or institute State at least side that heat sink runner is located at the ipsilateral of the positive pole ear, opposite side and sides adjacent；Or the heat sink runner exists There are one or two or three in the side of positive pole ear；Or thermally conductive heat collection body protrudes from positive plate；Or the described of protrusion is led Hot heat collection body gos deep into the electrolyte in battery case；Or electrolyte heat exchange is heated or cooled in the electrolyte Device；Or thermally conductive heat collection body is depressed in negative electrode tab；Or thermally conductive heat collection body is connected position with negative electrode tab with wide；Or the heat sink Temperature sensor is provided on runner；Or temperature sensor is provided on the heat-exchanging part；Or the temperature sensing Device is film temperature sensor or fiber grating temperature sensor；Or the temperature sensor is film temperature sensor or light Fine grating temperature sensor；Or the heat sink runner connection is on the housing, the shell serves as radiator.