CN207896222U - Top side seal tooling and soft package lithium battery assembly tooling - Google Patents

Abstract

The utility model discloses top side seal tooling and soft package lithium battery assembly toolings, are related to soft package lithium battery assembly tooling field.The utility model provides a kind of top side seal tooling, for fixing battery core, top side seal tooling includes supporting body, press part and sliding assembly, supporting body has the first side and second side being oppositely arranged, first side is for carrying battery core, press part can be pressed on first side to press battery core, sliding assembly is connected to supporting body, and sliding assembly is set to second side, and sliding assembly passes through supporting body and protrudes from first side, and sliding assembly can be mobile relative to supporting body and battery core is driven to be moved relative to supporting body.A kind of soft package lithium battery assembly tooling, which employs above-mentioned top side seal toolings.Top side seal tooling provided by the utility model and soft package lithium battery assembly tooling can adjust the position of battery core when battery core is assembled, and ensure the planarization of battery core, and be avoided that the case where battery core is destroyed in assembling process.

Description

Top side seal tooling and soft package lithium battery assembly tooling

Technical field

The utility model is related to soft package lithium battery assembly tooling fields, in particular to top side seal tooling and Soft Roll lithium Battery assembly tooling.

Background technology

Soft package lithium battery is another call of polymer battery, compared with lithium ion battery, has small, weight Gently, a variety of advantages such as, safe, flexible design higher than energy.

Specifically, soft package lithium battery has many advantages.For example, having a safety feature：Soft package lithium battery is adopted in structure With laminated aluminum film, in the case where security risk occurs, soft package lithium battery at most only understands air-blowing and splits, rather than box hat aluminum hull Battery core can explode like that；It is light-weight：Soft package lithium battery weight is light by 40% compared with the box hat lithium electricity of equivalent capability, compared with aluminum-shell battery It is light by 20%；Capacity is big：Soft package lithium battery is high by 10~15% compared with the box hat battery capacity of equivalent specifications size, and high compared with aluminum-shell battery 5 ~10%；Internal resistance is small：The internal resistance of soft package lithium battery is small compared with lithium battery, and the internal resistance minimum of current domestic soft package lithium battery core can accomplish 35m Ω hereinafter, greatly reduce battery from power consumption；Flexible design：The shape of soft package lithium battery can be according to the demand of client Customization, develops new battery core model.

In soft-package battery production process, need to carry out top side seal operation.Top side seal tooling there is also some problems at present, example Such as, battery core top side seal position is non-adjustable, and so as to cause battery core out-of-flatness, battery core is more easily damaged.

Utility model content

The purpose of this utility model is to provide a kind of top side seal toolings, and the position of battery core can be adjusted when battery core is assembled It sets, and ensures the planarization of battery core, and be avoided that the case where battery core is destroyed in assembling process.

The another object of the utility model is to provide a kind of soft package lithium battery assembly tooling, can when battery core is assembled tune The position of whole battery core, and ensure the planarization of battery core, and it is avoided that the case where battery core is destroyed in assembling process.

The utility model provides a kind of technical solution：

A kind of top side seal tooling, for fixing battery core, the top side seal tooling includes supporting body, press part and sliding group Part, the supporting body have the first side and second side being oppositely arranged, and the first side is for carrying the battery core, institute The first side can be pressed on to press the battery core by stating press part, and the sliding assembly is connected to the supporting body, and The sliding assembly is set to the second side, and the sliding assembly passes through the supporting body and protrudes from described first Side, the sliding assembly can be mobile relative to the supporting body and the battery core are driven to be moved relative to the supporting body.

Further, the first sliding groove is offered on the supporting body, the first sliding groove is from the first side to described Second side runs through the supporting body, and the both ends of the first sliding groove are respectively facing two opposite sides of the supporting body Extend, the sliding assembly can be slidably connected to the supporting body, and sliding assembly energy edge by the first sliding groove The first sliding groove movement.Second sliding slot corresponding with the first sliding groove is offered in the press part, described second slides Slot is for the accommodating sliding assembly for stretching out in the first side.

Further, one of the extending direction of the first sliding groove and the supporting body side are perpendicular, and Wherein one end of the first sliding groove has spacing with the side of the supporting body.

Further, the depth of the second sliding slot is less than the thickness of the press part.

Further, storage tank is offered on the supporting body, the depth of the storage tank is less than the thickness of the supporting body Degree, and the first sliding groove is connected to through the supporting body and with the storage tank, and the storage tank is for housing the electricity Core.Pressing block is convexly equipped in the press part, the pressing block is adapted with the storage tank, and the pressing block is for stretching into institute Storage tank is stated to press the battery core, the second sliding slot is opened in the pressing block.

Further, the thickness of the pressing block is identical as the depth of the storage tank.

Further, the sliding assembly includes impeller, is provided on the impeller opposite with the first sliding groove The first protrusion answered, first protrusion can stretch into the first sliding groove and protrude from the first side, and the promotion Part can be mobile relative to the supporting body and first protrusion is driven to be moved along the first sliding groove.

Further, the sliding assembly further includes fixing piece, and the fixing piece is removably attachable to the second side Face, and the impeller is slidably connected between the fixing piece and the supporting body.

Further, clamping piece is additionally provided on the supporting body, the clamping piece is connected to the first side, and The press part is held between the clamping piece and the supporting body to be pressed on the first side.

A kind of soft package lithium battery assembly tooling, including top side seal tooling.The top side seal tooling is described for fixing battery core Top side seal tooling includes supporting body, press part and sliding assembly, and the supporting body has the first side and second being oppositely arranged Side, for the first side for carrying the battery core, the press part can be pressed on the first side to press the electricity Core, the sliding assembly is connected to the supporting body, and the sliding assembly is set to the second side, and the cunning It moves component to pass through the supporting body and protrude from the first side, the sliding assembly can be moved relative to the supporting body and band The battery core is moved to move relative to the supporting body.

Compared with prior art, top side seal tooling provided by the utility model and the advantageous effect of soft package lithium battery assembly tooling It is：

Top side seal tooling provided by the utility model and soft package lithium battery assembly tooling pass through the first side on supporting body Carrying battery core, and the sliding by sliding assembly with respect to supporting body drives battery core to be slided with respect to supporting body, is held relatively in battery core When carrier slides into designated position, first side is pressed on by press part, and battery core pressure holding can be incited somebody to action in first side Battery core presses between press part and supporting body, to ensure the integrality that is smooth and ensureing battery core on the surface of battery core, avoids Battery core is destroyed.Also, the position that sliding assembly adjusts battery core can be passed through, ensure the controllability of battery core installation so that can will be electric Core adjusts the assembly precision that can guarantee battery core to the position suitable for assembly.

Description of the drawings

It, below will be to required use 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 appreciated that the following drawings illustrates only some embodiments of the utility model, therefore should not be by Regard the restriction to range as.For those of ordinary skill in the art, without creative efforts, may be used also To obtain other relevant attached drawings according to these attached drawings.

Fig. 1 is the structural schematic diagram when top side seal tooling that the first embodiment of the utility model provides presses battery core；

Fig. 2 is the structural schematic diagram at the first visual angle of supporting body that the first embodiment of the utility model provides；

Fig. 3 is the structural schematic diagram at the second visual angle of supporting body that the first embodiment of the utility model provides；

Fig. 4 is the structural schematic diagram for the press part that the first embodiment of the utility model provides；

Fig. 5 is the structural schematic diagram for the sliding assembly that the second embodiment of the utility model provides.

Icon：10- top side seal toolings；11- battery cores；100- supporting bodies；111- first sides；112- second sides；120- The first sliding groove；130- storage tanks；140- clamping pieces；141- clips；150- mounting holes；200- press parts；210- second sliding slots； 220- pressing blocks；300- sliding assemblies；310- impellers；The first protrusions of 311-；320- fixing pieces；The second protrusions of 321-.

Specific implementation mode

It is new below in conjunction with this practicality to keep the purpose, technical scheme and advantage of the utility model embodiment clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described.Obviously, it is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Usually here described in attached drawing and The component of the utility model embodiment shown can be arranged and be designed with a variety of different configurations.

Therefore, the detailed description of the embodiments of the present invention to providing in the accompanying drawings is not intended to limit requirement below The scope of the utility model of protection, but it is merely representative of the selected embodiment of the utility model.Based in the utility model Embodiment, the every other embodiment that those of ordinary skill in the art are obtained without creative efforts, all Belong to the range of the utility model protection.

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

In the description of the present invention, it should be understood that term "upper", "lower", "inner", "outside", "left", "right" etc. The orientation or positional relationship of instruction be based on the orientation or positional relationship shown in the drawings or the utility model product use when The orientation or positional relationship that the orientation or positional relationship or those skilled in the art usually put usually understand, be only for Described convenient for description the utility model and simplifying, do not indicate or imply the indicated equipment or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore should not be understood as limiting the present invention.

In addition, term " first ", " second " etc. are only used for distinguishing description, it is not understood to indicate or imply relatively important Property.

In the description of the present invention, it should also be noted that, unless otherwise clearly defined and limited, " setting ", Terms such as " connections " shall be understood in a broad sense, for example, " connection " may be a fixed connection, may be a detachable connection, or one Ground connects；It can be mechanical connection, can also be electrical connection；Can be directly connected to, can also by between intermediary in succession It connects, can be the connection inside two elements.For the ordinary skill in the art, can understand as the case may be The concrete meaning of above-mentioned term in the present invention.

Below in conjunction with the accompanying drawings, specific embodiment of the present utility model is described in detail.

First embodiment

Referring to Fig. 1, a kind of top side seal tooling 10 is provided in the present embodiment, it, can be in battery core for fixing battery core 11 The position of battery core 11 is adjusted when 11 assembly, and ensures the planarization of battery core 11, and is avoided that battery core 11 in assembling process The case where being destroyed.

It should be noted that wherein battery core 11 is a part for soft package lithium battery, when carrying out the assembly of soft package lithium battery, Need progress top side seal operation that it is non-adjustable usually to occur 11 top side seal position of battery core when top side seal operates in the prior art The case where, when often result in the case where assembly precision reduces, and it is also possible to there is 11 out-of-flatness of battery core during top side seal Situation, at the same be also possible to damage battery core 11 the case where.

Fig. 1, Fig. 2 and Fig. 3 are please referred to, top side seal tooling 10 includes supporting body 100, press part 200 and sliding assembly 300.Supporting body 100 has the first side 111 being oppositely arranged and second side 112, wherein first side 111 is for carrying Battery core 11.Press part 200 can be pressed on first side 111 pressing battery core 11 in first side 111, to ensure that battery core 11 exists It keeps stablizing when assembly, and the surface of battery core 11 can be flattened, to ensure the flatness on 11 surface of battery core.It can also keep away simultaneously The maloperation for exempting from operator makes the possibility of other tool damage battery cores 11.In addition, sliding assembly 300 is connected to supporting body 100, sliding assembly 300 is set to second side 112, and sliding assembly 300 passes through supporting body 100 simultaneously from second side 112 First side 111 is protruded from, sliding assembly 300 can move relative to supporting body 100 and battery core 11 is driven to be moved with respect to supporting body 100 It is dynamic.

In the present embodiment, battery core 11 is first positioned over first side 111, and first is protruded from by sliding assembly 300 The part of side 111 supports battery core 11, so that sliding assembly 300 can drive 11 phase of battery core simultaneously when being moved relative to supporting body 100 Supporting body 100 is moved.When battery core 11 is moved to designated position, by the pressure holding of press part 200 in battery core 11, so that pressing Part 200 can press battery core 11 in first side 111.Wherein, the size of press part 200 can be adapted with battery core 11, so that Press part 200 can press battery core 11.In the present embodiment, the area of press part 200 is more than the area of battery core 11, so that Press part 200 can completely press battery core 11, fully ensure the planarization and safety guarantee of battery core 11, wherein sliding assembly 300 parts for protruding from first side 111 are placed in inside press part 200, with further such that press part 200 can be pressed completely Hold battery core 11.

In the present embodiment, supporting body 100 is the tablet of quadrangle, and press part 200 is similarly the tablet of quadrangle.

Wherein, the first sliding groove 120 is offered on supporting body 100, the first sliding groove 120 is from first side 111 to second side 112 run through supporting body 100, and the both ends of the first sliding groove 120 are respectively facing the side being oppositely arranged on supporting body 100 and extend. Sliding assembly 300 is slidably connected to supporting body 100 by the first sliding groove 120, i.e. sliding assembly 300 is passed through from second side 112 The first sliding groove 120 stretches to first side 111, and protrudes from first side 111 can support battery core 11.300 energy of sliding assembly It is moved along the first sliding groove 120 to be moved relative to supporting body 100 and battery core 11 is driven to move, so that battery core 11 can be moved to specific bit It sets.

Wherein, the both ends of the first sliding groove 120 are respectively facing two opposite sides of supporting body 100 and extend, so that sliding For component 300 when being moved along the first sliding groove 120, the part that first side 111 can be protruded from by sliding assembly 300 drives battery core 11 move along the first sliding groove 120, just can so that battery core 11 is more to be had by being completed to the less operational motion of sliding assembly 300 Effect acts, and ensures the convenient quickly adjusted to 11 position of battery core.In the present embodiment, the extending direction of the first sliding groove 120 is vertical In a side of supporting body 100, so that sliding assembly 300 can be directly past by battery core 11 when being moved along the first sliding groove 120 Another side pushes, can supporting body 100 rapidly be released in the heat-sealable area on 11 periphery of battery core, can rapidly push away battery core 11 It moves to designated position.It should be appreciated that in other embodiments, the extending direction of the first sliding groove 120 can also be with supporting body 100 Side forms acute angle, and only need to meet sliding assembly 300 can make battery core 11 towards supporting body when being moved relative to supporting body 100 100 side movement.

Further, the quantity of the first sliding groove 120 is two in the present embodiment, and two the first sliding grooves 120 are mutually parallel And it is arranged at intervals at supporting body 100, and sliding assembly 300 is each passed through two the first sliding grooves 120 and protrudes from the first side Face 111 so that it is two parts that sliding assembly 300, which protrudes first side 111, that is, sliding assembly 300 is in opposite supporting body When 100 movement, two parts are held in battery core 11 simultaneously, so that sliding assembly 300 can guarantee battery core when pushing battery core 11 11 steadily move, and the controllability that enhancing battery core 11 moves, personnel easy to operation operate the position of battery core 11.

It should be appreciated that in other embodiments, the quantity of the first sliding groove 120 can also be more than two, that is, the first sliding groove 120 can also be three, four etc., and wherein, multiple the first sliding grooves 120 can not also be mutually parallel entirely, it is possibility to have portion Divide the side for being not orthogonal to supporting body 100 that can be improved to reduce the sensitivity that sliding assembly 300 is moved relative to supporting body 100 The accuracy operated for battery core 11.

In addition, in the present embodiment, wherein one end of the first sliding groove 120 and the side of supporting body 100 have a spacing, i.e., the One sliding slot 120 extends from one of supporting body 100 side towards opposite side, and the length of the first sliding groove 120 is small In the width of supporting body 100 so that wherein one end of the first sliding groove 120 has spacing with a side of supporting body 100.Its In, only it need to ensure battery core 11 are pushed to designated position when sliding assembly 300 slides into the end of the first sliding groove 120, it can The heat-sealable area of battery core 11 is pushed into 100 outside of supporting body.By the set-up mode, the intensity of supporting body 100 can be enhanced, The service life of supporting body 100 is extended to a certain extent.

Further, storage tank 130 is further opened on supporting body 100, the depth of storage tank 130 is less than supporting body 100 Thickness, and the first sliding groove 120 is connected to through supporting body 100 and with storage tank 130, wherein and storage tank 130 is for housing battery core 11.That is, in the present embodiment, battery core 11 is positioned in storage tank 130, drive battery core 11 is opposite to carry by sliding assembly 300 Body 100 is moved to after designated position, is stretched into press battery core 11 inside storage tank 130 by press part 200, can be passed through appearance Position-limiting action of the slot 130 to press part 200 is set, ensures that press part 200 not will produce opposite supporting body 100 in operation It is mobile to lead to the dislocation of battery core 11, and can be further ensured that press part 200 presses the stability of battery core 11.

In addition, being additionally provided with clamping piece 140 on supporting body 100, clamping piece 140 is connected to first side 111, and presses Part 200 is held on to be pressed on first side 111 between clamping piece 140 and supporting body 100, by clamping piece 140 by press part 200 pressure holdings improve the stability that press part 200 is pressed on first side 111 in first side 111, ensure 200 energy of press part Steadily battery core 11 is pressed between press part 200 and supporting body 100, ensures the stability of battery core 11.

In the present embodiment, clamping piece 140 is the clip 141 for being set to 130 both sides of storage tank, is pressed in press part 200 After battery core 11, by clip 141 by the sandwich of press part 200 in first side 111, ensure that press part 200 will not produce Raw offset can guarantee that battery core 11 can steadily be held on first side 111, improve the reliability of pressure holding battery core 11.

It should be appreciated that in other embodiments, clamping piece 140 can also be rotatably dispose in it is multiple on supporting body 100 Shrapnel, and multiple shrapnels are respectively arranged at the both sides of storage tank 130, after press part 200 is pressed on battery core 11, pass through rotation Shrapnel turns to shrapnel in press part 200, to pass through the elastic clamping press part 200 etc. of shrapnel.

Fig. 1 and Fig. 4 are please referred to, second sliding slot 210 corresponding with the first sliding groove 120 is offered in press part 200, Second sliding slot 210 is for the accommodating sliding assembly 300 for stretching out in first side 111, that is, is pressed on the first side in press part 200 When face 111 is to press battery core 11, the part that sliding assembly 300 protrudes from first side 111 is housed by second sliding slot 210, is protected Demonstrate,proving press part 200 can closely press battery core 11 in first side 111, ensure that press part 200 presses the stability of battery core 11.

In the present embodiment, second sliding slot 210 is two, i.e. two second sliding slots 210 correspond respectively to two first cunnings Slot 120, and the length of two second sliding slots 210 and width respectively with the length of corresponding the first sliding groove 120 and width Identical, i.e., when press part 200 is pressed on first side 111, two second sliding slots 210 are respectively superposed in two the first sliding grooves 120, so that sliding assembly 300, which is stretched out by the first sliding groove 120 and protrudes from the part of first side 111, can be placed in second Inside sliding slot 210, ensure that press part 200 can steadily press battery core 11.

Wherein, the depth of second sliding slot 210 is less than the thickness of press part 200, to ensure press part 200 to a certain extent Intensity, and being avoided that sundries is fallen on by second sliding slot 210 in battery core 11 causes the assembly of battery core 11 to be broken down.

In addition, in the present embodiment, pressing block 220 is convexly equipped in press part 200, pressing block 220 is suitable with 130 phase of storage tank Match, press part 200 is by stretching into inside storage tank 130 pressing block 220 to press the battery core 11 inside storage tank 130, wherein The width of pressing block 220 is of same size with storage tank 130, can be held in so that pressing block 220 stretches into 130 inside of storage tank The side wall of storage tank 130 avoids press part 200 from generating the offset relative to supporting body 100, causes the dislocation of battery core 11 so that dress With there is error.And wherein, second sliding slot 210 is opened on pressing block 220.

Further, the thickness of pressing block 220 is identical as the depth of storage tank 130, i.e., be not positioned over battery core 11 When 130 inside of storage tank, pressing block 220 can be just positioned over inside storage tank 130.When battery core 11 is positioned over storage tank 130 When internal, that is, it can guarantee that pressing block 220 can completely fit in the surface of battery core 11 so that battery core 11 is pressed on first side 111, ensure that press part 200 presses the reliability of battery core 11.

Fig. 1 and Fig. 5 are please referred to, sliding assembly 300 includes impeller 310 and fixing piece 320, wherein impeller 310 On be provided with first protrusion 311 opposite with the first sliding groove 120, the first protrusion 311 stretches into the first sliding groove 120 and protrudes from the One side 111, so that impeller 310 is slidably connected with supporting body 100, and impeller 310 can be moved relative to supporting body 100 And the first protrusion 311 is driven to be moved along the first sliding groove 120 so as to be driven by the first protrusion 311 and be positioned over first side 111 Battery core 11 is moved along the first sliding groove 120.In the present embodiment, the quantity of the first protrusion 311 is opposite with the quantity of the first sliding groove 120 It answers, i.e., the first protrusion 311 is two, and two the first protrusions 311 are arranged at intervals on impeller 310, and two first protrusions 311 are each passed through two the first sliding grooves 120 and protrude from first side 111.

Fixing piece 320 is used to be removably attachable to the second side 112 of supporting body 100, and can be so that impeller 310 is slided It is dynamic to be connected between fixing piece 320 and supporting body 100.Wherein in the present embodiment, the second protrusion is convexly equipped on fixing piece 320 321, also, offered on supporting body 100 and stretch into installation with the second raised 321 compatible mounting holes 150, the second protrusion 321 150 inside of hole is so that fixing piece 320 is connected to supporting body 100.Wherein, in the present embodiment, on fixing piece 320 there are two settings Second protrusion 321, and opened up on supporting body 100 there are two respectively with two second raised 321 corresponding mounting holes 150, Two the second protrusions 321 are respectively protruding into two mounting holes 150 so that fixing piece 320 is connected to supporting body 100.Further The line on ground, two mounting holes 150 is parallel with the extending direction of the first sliding groove 120, so that fixing piece 320 is held being connected to Impeller 310 can be clamped in the second side 112 of supporting body 100 when carrier 100, fallen off to avoid impeller 310.

The top side seal tooling 10 provided in the present embodiment carries battery core 11 by the first side 111 on supporting body 100, and And the sliding by sliding assembly 300 with respect to supporting body 100 drives battery core 11 to be slided with respect to supporting body 100, it is opposite in battery core 11 When supporting body 100 slides into designated position, first side 111 is pressed on by press part 200, and by the pressure holding of battery core 11 in the One side 111, can by battery core 11 press between press part 200 and supporting body 100, with ensure battery core 11 surface it is smooth And ensure the integrality of battery core 11, avoid battery core 11 from being destroyed.Also, the position of battery core 11 can be adjusted by sliding assembly 300 It sets, ensures the controllability that battery core 11 is installed so that battery core 11 can be adjusted to the dress that can guarantee battery core 11 to the position suitable for assembly With precision.

Second embodiment

A kind of soft package lithium battery assembly tooling (not shown) is provided in the present embodiment, which employs carried in first embodiment The top side seal tooling 10 of confession, and the soft package lithium battery assembly tooling can adjust the position of battery core 11 when battery core 11 is assembled, and And ensure the planarization of battery core 11, and it is avoided that the case where battery core 11 is destroyed in assembling process.

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

Claims (10)

1. a kind of top side seal tooling, for fixing battery core, which is characterized in that the top side seal tooling includes supporting body, press part And sliding assembly, the supporting body have the first side and second side being oppositely arranged, the first side is for carrying institute Battery core is stated, the press part can be pressed on the first side to press the battery core, and the sliding assembly is connected to described hold Carrier, the sliding assembly is set to the second side, and the sliding assembly passes through the supporting body and protrudes from institute First side is stated, the sliding assembly can be mobile relative to the supporting body and the battery core is driven to be moved relative to the supporting body.

2. top side seal tooling according to claim 1, which is characterized in that offer the first sliding groove, institute on the supporting body It states the first sliding groove and runs through the supporting body, and the both ends of the first sliding groove point from the first side to the second side Do not extend towards two opposite sides of the supporting body, the sliding assembly is slidably connected to described by the first sliding groove Supporting body, and the sliding assembly can be moved along the first sliding groove；

Second sliding slot corresponding with the first sliding groove is offered in the press part, the second sliding slot is stretched out for accommodating In the sliding assembly of the first side.

3. top side seal tooling according to claim 2, which is characterized in that the extending direction of the first sliding groove is held with described Between one of carrier side is perpendicular, and wherein one end of the first sliding groove and the side of the supporting body have Away from.

4. top side seal tooling according to claim 2, which is characterized in that the depth of the second sliding slot is less than the pressing The thickness of part.

5. top side seal tooling according to claim 2, which is characterized in that storage tank is offered on the supporting body, it is described The depth of storage tank be less than the supporting body thickness, and the first sliding groove through the supporting body and with the storage tank Connection, the storage tank is for housing the battery core；

Pressing block is convexly equipped in the press part, the pressing block is adapted with the storage tank, and the pressing block is for stretching into For the storage tank to press the battery core, the second sliding slot is opened in the pressing block.

6. top side seal tooling according to claim 5, which is characterized in that the thickness of the pressing block and the storage tank Depth is identical.

7. top side seal tooling according to claim 2, which is characterized in that the sliding assembly includes impeller, described to push away The first protrusion corresponding with the first sliding groove is provided on moving part, first protrusion can stretch into the first sliding groove and convex For the first side, and the impeller can be mobile relative to the supporting body and drives first protrusion along described the One sliding slot moves.

8. top side seal tooling according to claim 7, which is characterized in that the sliding assembly further includes fixing piece, described Fixing piece is removably attachable to the second side, and the impeller is made to be slidably connected to the fixing piece and described hold Between carrier.

9. top side seal tooling according to any one of claims 1 to 8, which is characterized in that be additionally provided on the supporting body Clamping piece, the clamping piece is connected to the first side, and the press part is held on the clamping piece and the carrying To be pressed on the first side between body.

10. a kind of soft package lithium battery assembly tooling, which is characterized in that include the top as described in any one of claim 1-9 Side seal tooling.