KR20200002046U - Adjustable formation fixture - Google Patents

Abstract

The adjustable formation clamp of the present invention specifically belongs to the field of battery formation and machinery. This clamp comprises two support bases, a guide support and a laminate, a plurality of laminates are supported on the guide support while being able to slide along the guide support, and four guide bars are installed in parallel between the two support bases. In the driving structure, the laminated plate moves to one side by driving the pressing parts to slide along the four guide bars. A lifter structure is installed between the two support bases, the guide support is installed on the lifter structure, and at least a set of electrode tab electrical connection structures are installed on the laminate. The adjusting structure adjusts the distance in the transverse direction from the electrode tab electrical connection module to the center of the laminate, and the lifter structure adjusts the height of the guide support. This ensures that the battery receives even force, and one clamp can be applied to the formation of several batteries.

Description

Adjustable formation fixture {Adjustable formation fixture}

The present invention belongs to the technical field of an adjustable formation clamp, and specifically relates to an adjustable formation clamp (clamp).

Batteries are currently indispensable parts for electronic devices, and are widely applied to products such as electronic devices and power batteries for electric vehicles. Many of the current batteries are batteries with flexible covers installed. When manufacturing a battery with a flexible cover installed, it is necessary to perform a formation process. The utility model's publication number is CN207269044U, and the utility model's name is "Formation clamp capable of adjusting lithium-ion polymer". In the Chinese utility model, "A battery is installed between adjacent laminates and the battery is pushed with a power transmission structure. A technical matter is described that the electrode tabs of the battery are electrically connected to the formation circuit, and thus formation is performed. There are many types of batteries with flexible covers currently sold in the market, and their specifications and sizes are also different. When forming the battery, it is necessary to form the battery under a certain pressure. In order to secure electrical connection between the electrode tabs of the battery and the formation circuit, it is necessary to change the position of the battery installed between the laminates according to different sizes of the battery. When the battery is formed, the center of the load is mismatched, and the center of the load of the battery and the driving center of the formation clamp do not match, which affects the quality of the formation. Also, when installing batteries of different types, different formations are caused. There is a fear that the cost of the formation will increase as it needs to be changed. In the following, there is a need to provide an adjustable formation clamp capable of solving the above problem.

The technical problem to be solved by the present invention is by providing an adjustable formation clamp, whereby the center of the load of the battery and the driving center of the formation clamp coincide when forming for batteries of different sizes by the formation clamp of the prior art. It is in trying to solve the problem of not being able to secure what is done.

In order to solve the conventional problem, this paper provides the following adjustable formation clamp. The adjustable formation clamp includes two support bases, a guide support and a laminate, and the plurality of laminates may be supported on the guide support and slide along the guide support. Four guide bars are installed in parallel between the two support bases, and the driving structure pushes the laminate to move the laminate to one side by driving the pressing parts to slide along the four guide bars. A lifter structure is installed between the two support bases, the guide support part is installed on the lifter structure, and at least a set of electrode tab electrical connection structures are installed on the laminate. The electrode tab electrical connection structure includes a slide component, an electrode tab electrical connection module, and an electrode tab pressing module, and the slide component is installed to move in a horizontal direction of the laminate, and the electrode tab electrical connection module and the electrode tab are pressed. All of the modules are fixedly connected to the slide component, and the electrode tab electrical connection module and the electrode tab pressing module are installed to face both sides of the laminate. The adjusting structure adjusts the distance in the transverse direction from the slide part to the center of the laminate, and the lifter structure adjusts the height of the guide support.

The electrode tab pressing module includes a mounting plate, a silicon pressing part, and a compression spring. Both ends of the mounting plate are connected to the slide component, their rear surfaces are in contact with the laminate, and side plates extending outward are respectively formed on both sides of the mounting plate, and mounting recesses are provided by the two side plates and the mounting plate. Is formed. Limits are formed by bending the side plate into the mounting recess, the plurality of silicon pressing parts are installed in a parallel state in the mounting recess, and limit steps extending outward are formed on both sides of the lower end of the silicon pressing part. The limit steps are coupled above the limit by the compression spring pressing the silicon pressing part.

The electrode tab electrical connection module includes a connection plate and an electrical connection plate, both ends of the connection plate are connected to the slide part, and slide recesses are formed by bending both sides of the connection plate to the outside, and the slide The second limit is formed by bending both sides of the recess inward, and the electrical connection plate is installed in the slide recess, and two independent circuits are installed on the electrical connection plate.

A connection component is further installed at one end of the electrical connection plate, the connection component is fixedly connected to the slide component, an airflow path is formed in the connection component, and a gas in communication with the airflow path on the side of the connection component A pipe connection part is formed, and a ventilation concave part communicating with the airflow passage is formed at the bottom of the electrical connection plate.

The electrode tab electrical connection structure is two sets, and the control structure adjusts the distance between the two electrode tab electrical connection structures.

The slide component includes a slide rail and a slide base, and the two slide rails are fixed to the upper and lower portions of the laminated plate, respectively, the slide base is installed on the two slide rails, and both ends of the electrical connection module are Each is connected to the same side of the two slide bases, and both ends of the electrode tab pressing module are connected to the other side of the two slide bases, respectively. The adjustment structure adjusts and adjusts the position of the slide base by driving the two slide bases to slide along the slide rail.

The lifter structure includes two lifter modules, an electric module and a drive motor, and the two lifter modules are respectively installed on the rear surfaces of the corresponding support bases.

The lifter modules all include a lifter mounting portion and a lifted screw pair, and the lifter mounting portion is slidably connected to a rear surface of the predetermined support base, and the lifter mounting portion screws of the lifted screw pair are Is fixedly connected to, and the electric module is connected to the lead screw of the two refilled screw pairs, the driving motor is driven to rotate the lead screw of any one of the relifted screw pairs, and the guide support has two It is connected to the lifter mounting part.

A connection hole is formed on the slide base, and the operation bar is inserted into the predetermined connection hole on the slide base, and the control structure presses both ends of the operation bar at the same time, so that the slide base slides. Drive to do it.

The adjustment structure includes two sets of bolt control structures and a transmission structure, two bolt control structures are respectively installed on the lifter mounting portion, and the bolt control structure includes two sets of bolt modules and a second electric module, Two sets of the bolt modules are installed in parallel at both upper and lower ends of the laminate, the second electric module is connected between the two bolt modules, the bolt module includes a mounting base and a bolt, and the bolt is the mounting It is rotatably connected to the base, both ends of the bolt are connected to the bearings in the second bearing base, the second bearing base is fixedly connected to the corresponding lifter mounting part, and a left rotation screw is formed at one end of the bolt And, a right rotation screw is formed at the other end, a predetermined first nut is coupled on the left rotation screw, a predetermined second nut is coupled on the right rotation screw, and the two first nuts installed oppositely of one of the operation rods Two second nuts are connected to both ends, respectively, and two second nuts installed oppositely are connected to both ends of the other operation bar.

The transmission module includes a first transmission shaft and a rotation transmission module connected between the bolt and the first transmission shaft, and the first transmission shaft is coupled to a third bearing base fixedly connected to the lifter mounting portion.

The transmission structure includes two rotation gear cases and a second transmission shaft connecting the rotation shafts of the two rotation gear cases, and the other rotation shafts of the two rotation gear cases are connected to the predetermined first transmission shaft, and By driving or manually rotating any one of the first conductive shafts, the two slide parts are driven to move in the same or opposite directions.

The guide support portion is two support rails installed in parallel between the two lifter mounting portions, the two support rails are located on both sides of the laminate, and the laminate is supported on the two support rails. A first guide recess is formed on the upper part of the support rail, a second guide recess is formed on this side, and an extension extending outward is formed on both sides of the laminate, and in the first guide recess at the bottom of the extension A first rotation roller to be inserted is formed, and a second rotation roller inserted into the second guide recess is formed on a side surface of the laminate.

One end of the support rail is coupled to one of the lifter mounting portions, and an elliptical hole is formed at the other end, and a connecting rotating shaft is inserted into the elliptical hole and connected to the other lifter mounting portion.

The drive structure is a cylinder, a hydraulic cylinder or an electric lead screw.

Compared with the conventional technology, the adjustable formation clamp of the present design can obtain the following design effects.

By adjusting the position of the electrode tab electrical connection module according to the external size of the battery, the center of the battery, the center of the laminate, and the center of the driving structure are located on a straight line in the moving direction of the laminate, and the electrode tab of the battery Make sure to contact the tap electrical connection module. This ensures that the battery receives an even force, and one clamp can be applied to the formation of another battery.

1 is a three-dimensional view showing an adjustable formation clamp of the present invention.
Figure 2 is a three-dimensional view showing a laminated plate of the adjustable formation clamp of the present invention.
3 is a three-dimensional view in another direction showing a laminate of the adjustable formation clamp of the present invention.
4 is a three-dimensional view showing another embodiment of the laminate of the adjustable formation clamp of the present invention.
Figure 5 is a three-dimensional view in another direction showing another embodiment of the laminate of the adjustable formation clamp of the present invention.
6 is an exploded view showing an electrode tab electrical connection device of an adjustable formation clamp according to the present invention.
7 is a three-dimensional view showing an electrode tab electrical connection module of an adjustable formation clamp according to the present invention.
8 is an exploded view showing an electrode tab electrical connection module of an adjustable formation clamp according to the present invention.
9 is a cross-sectional view showing an electrode tab electrical connection module of an adjustable formation clamp according to the present invention.
10 is an exploded view showing an electrode tab pressing module of an adjustable formation clamp according to the present invention.
11 is a cross-sectional view showing an electrode tab pressing module of an adjustable formation clamp according to the present invention.
12 is a front view showing the lifter structure of the adjustable formation clamp of the present invention.
13 is a three-dimensional view showing a part of the lifter structure of the adjustable formation clamp of the present invention.
14 is a three-dimensional view showing a lifter module of the adjustable formation clamp of the present invention.
15 is a partially enlarged view showing a lifter module of an adjustable formation clamp according to the present invention.
16 is a partially enlarged view showing another lifter module of the adjustable formation clamp of the present invention.
17 is a partial enlarged view showing an electrical connection structure of an electrode tab of an adjustable formation clamp according to the present invention.
18 is a structural diagram showing an adjustable formation clamp of the present invention.
19 is a structural diagram showing the bottom of the adjustable formation clamp according to the present invention.
20 is a structural diagram showing a bolt structure of an adjustable formation clamp according to the present invention.
21 is a structural diagram showing another bolt structure of the adjustable formation clamp of the present invention.
22 is a structural diagram showing that the laminate of the adjustable formation clamp of the present invention is supported on the slide rail for support.
23 is a partially enlarged view showing that the laminate of the adjustable formation clamp of the present invention is supported on the slide rail for support.
24 is a partial enlarged view showing a slide rail for support of an adjustable formation clamp according to the present invention.

Hereinafter, the present invention will be described in more detail with reference to specific embodiments and the drawings.

By describing a plurality of detailed technical details of this paper in the following sentence, we intend to understand and receive technical details constituting the following embodiments in more detail. A person skilled in the art may implement the present draft according to some or all technical details of the following embodiments. In the absence of special circumstances, well-known technical matters are not described in detail.

1 to 6, the adjustable formation clamp in the present document includes two support bases 5A and 5B, a guide support 8 and a laminated plate 1, and the plurality of laminated plates 1 includes the guide It is supported on the support part 8 and can slide along the guide support part 8 at the same time. Four guide bars 6 are installed in parallel between the two support bases 5A and 5B, and the driving structure 7 is driven so that the pressing part 9 slides along the four guide bars 6 By doing so, the laminated plate 1 is pressed to move to one side. Between the two support bases 5A and 5B, a lifter structure 50 is installed, and the guide support 8 is installed on the lifter structure 50. At least a set of electrode tab electrical connection structures (2) are installed on the laminate (1), and the electrode tab electrical connection structure (2) includes a slide component 20, an electrode tab electrical connection module 21, and an electrode tab pressing module. It includes (22). The slide component 20 is installed to move in the horizontal direction of the laminated plate 1, and both the electrode tab electrical connection module 21 and the electrode tab pressing module 22 are fixedly connected to the slide component 20 And, the electrode tab electrical connection module 21 and the electrode tab pressing module 22 are installed to face both sides of the laminated plate 1. The adjustment structure 3 adjusts the distance in the transverse direction from the slide part 20 to the center of the laminate 1, and the lifter structure 50 adjusts the height of the guide support part 8. When forming the battery, the adjustment structure 3 adjusts the position of the electrode tab electrical connection module 22 according to the size of the external appearance of the battery, and the lifter structure 50 adjusts the height of the laminated plate 1. Thus, it is ensured that the center of the battery and the center of the driving structure 7 are positioned on a straight line in the moving direction of the laminate 1 and that the electrode tabs of the battery contact the electrode tab electrical connection module. This ensures that the battery receives an equal force, and one clamp can be applied to the formation of several batteries.

10 and 11, the electrode tab pressing module 22 includes a mounting plate 220, a silicon pressing part 221, and a compression spring 222. Both ends of the mounting plate 220 are connected to the slide component 20, the rear surface thereof is in contact with the laminated plate 1, and side plates 2200 extending to the outside are respectively provided on both sides of the mounting plate 220. Is formed, and a mounting recess 2201 is formed by the two side plates 2200 and the mounting plate 220, and the limit 2202 is formed by bending the side plate 2200 into the mounting recess 2201. Is formed. The plurality of silicon pressing parts 221 are installed in a parallel state in the mounting recess 2201, and limit steps 2211 extending to the outside are formed at both lower sides of the silicon pressing part 221, and the compression spring The limit staircase 2211 is coupled to the limit 2202 by 222 pressing the silicon pressing part 221. There are multiple sets of adjustable formation clamps, which are installed in parallel in the formation clamp. When forming a battery, a battery is installed between two adjacent laminates 1, and by pressing the electrode tabs of the battery with the electrode tab pressing module 22, this is the electrical connection plate of the other laminated plate 1 ( 211) Make sure to connect above.

7 to 9, the electrode tab electrical connection module 21 includes a connection plate 210 and an electrical connection plate 211, and both ends of the connection plate 210 are attached to the slide component 20. It is connected, the slide recess 2100 is formed by bending both sides of the connecting plate 210 to the outside, and the second limit 2101 is formed by bending both sides of the slide recess 2100 to the inside. The electrical connection plate 211 is installed in the slide recess 2100, and the electrical connection plate 211 has a circuit electrically connected to the electrode tabs of the battery. Specifically, the electrode tab pressing module 22 can supply power to the battery by bringing the electrode tab of the battery into contact with the electrical connection plate 211. For example, when the positive electrode tab and the negative electrode tab are brought into contact with the electrical connection plate 211 on the same side, an independent circuit and a battery that are electrically connected to the positive electrode tab and the negative electrode tab on the electrical connection plate 211 are formed. A detection circuit for detecting the voltage of is formed.

A connection part 212 is further installed at one end of the electrical connection plate 211 of the embodiment. 7 to 9, the connection part 212 is fixedly connected to the slide part 20. An air flow path is formed in the connection part 212, a gas pipe connection part 213 in communication with the air flow path is formed on a side surface of the connection part 212, and the lower part of the electrical connection plate 211 has the Ventilation concave portions 2110 in communication with the airflow passage are formed. The gas pipe connection part 213 is connected to the pipe line of the gas supply facility, and when forming, the temperature of the electrical connection plate 211 is lowered by feeding the cooling gas to the ventilation recess 2110, and the electrode tab is electrically connected. When electrically connected to the plate 211, it is possible to avoid heat being transmitted to the inside of the battery.

4 to 6, the electrode tab electrical connection structure 2 is a head, and the adjustment structure 3 adjusts the distance between the two electrode tab electrical connection structures 2. In this embodiment, the positive electrode tab and the negative electrode tab are formed for the batteries on both sides, respectively. By simultaneously adjusting the distance between the two electrode tab electrical connection structures 2 by the control structure, the positive electrode tab and the negative electrode tab of the battery can be connected to the two electrode tab electrical connection modules 21. .

The slide component 20 includes a slide rail 200 and a slide base 201. The two slide rails 200 are fixed to the upper and lower portions of the laminated plate 1, respectively, the slide base 201 is installed on the two slide rails 200, and the electrical connection module 21 Both ends are connected to the same side of the two slide bases 201, respectively, and both ends of the electrode tab pressing module 22 are connected to the other side of the two slide bases 201, respectively. The adjustment structure adjusts the position of the slide base 201 by driving the two slide bases 201 to slide along the slide rail 200, thereby adjusting the position of the electrode tab electrical connection device 2 The position of the can be adjusted.

1 and 12 to 16, the lifter structure 50 includes two lifter modules 50A and 50B, an electric module 50C, and a drive motor 50D, and the two lifter modules 50A , 50B) are respectively installed on the rear surfaces of the corresponding support bases 5A and 5B.

Each of the lifter modules 50A and 50B includes a lifter mounting unit 500 and a leadscrewpair 501. The lifter mounting part 500 is slidably connected to the rear surface of the predetermined support base 5A or 5B, and the screw of the relifted screw pair 501 is fixedly connected to the lifter mounting part 500 Then, the electric module 50C is connected to the lead screw of the two refilled screw pairs 501. The drive motor 50D drives the lead screw of any one of the refilled screw pairs 501 to rotate. The guide support portion 8 is connected to the two lifter mounting portions 500. Specifically, an avoidance recess is formed on the support bases 5A and 5B, a connection part 500a passing through the avoidance recess is formed on the side of the lifter mounting part 500, and a bearing base ( 500b) is installed, and both ends of the lead screw of the lifted screw pair 501 are connected to the bearings in the bearing base 500b. The screw of the lifted screw pair 501 is fixedly connected to the connection part 500a. The lifter mounting portion 500 is connected to a predetermined support base by a guide rail. The transmission module 50C may be a chain type transmission structure or an interlocking belt transmission structure.

Referring to Figs. 17-19, a connection hole 2010 is formed on the slide base 201, and the operation bar 4 is inserted into the predetermined connection hole 2010 on the slide base 201, When the adjustment structure simultaneously presses both ends of the operation bar 4, the operation bar 4 drives the slide base 201 to slide. The operation bar 4 is inserted into a predetermined connection hole 2010 formed in parallel on the slide base 201 of the formation clamp, and the operation bar 4 moves the slide base 201 by driving the adjustment structure. By doing so, the positions of all the electrode tab electrical connection structures 2 can be simultaneously adjusted.

17-20, the adjustment structure 3 includes a bolt adjustment structure 30 and a transmission structure 31 of a head, and the two bolt adjustment structures 30 are on the lifter mounting part 500. Each is installed. The bolt control structure 30 includes a bolt module 300 of a head and a second electric module 301, and the bolt module 300 of a head is installed in parallel to both upper and lower ends of the laminated plate 1, and the The second electric module 301 is connected between the two bolt modules 300. The bolt module 300 includes a mounting base 3000 and a bolt 3001, the bolt 3001 is rotatably connected to the mounting base 3000, and both ends of the bolt 3001 2 It is connected to the bearing in the bearing base 3002, and the second bearing base 3002 is fixedly connected to the corresponding lifter mounting part 500. A left rotation screw 3001a is formed at one end of the bolt 3001, a right rotation screw 300lb is formed at the other end, and a predetermined first nut 3003 is coupled on the left rotation screw 3001a, and the right rotation screw A predetermined second nut 3004 is coupled on the (300lb). Two first nuts 3003 installed oppositely are connected to both ends of one operation bar 4, and two second nuts 3004 installed oppositely are connected to both ends of the other operation bar 4, respectively. .

The electric module 301 includes a first electric shaft 3010 and a rotation electric module 3011 connected between the bolt 3001 and the first electric shaft 3010. The first power shaft 3010 is coupled to a third bearing base 3012 fixedly connected to the lifter mounting portion 500. The rotational transmission module 3011 may be a pair of conical gears, a pair of helical gears, or a worm and worm gear coupled to each other. When the first power shaft 3010 rotates, the two bolts 3001 on the support base rotate together, and the two bolts 3001 on the other support base rotate together by the driving of the transmission structure 31. do. Thereby, the first nut 3003 and the second nut 3004 move in the same direction or in the opposite direction, and the operation bar 4 drives the predetermined slide base 201 to move, thereby electrically connecting the electrode tab. Adjust the position of the structure (2).

The transmission structure 31 includes two rotating gear cases 310 and a second transmission shaft 311 connecting the rotating shafts of the two rotating gear cases 310. The other rotation shafts of the two rotation gear cases 310 are connected to the predetermined first transmission shaft 3010. The two slide parts 20 are driven to move in the same direction or in opposite directions by rotating any one of the first electric shafts 3010 either by electric drive or manually. The transmission structure 31 may be an interlocking belt transmission structure or a chain transmission structure.

22 to 24, the guide support portion 8 is two support rails 8a, 8b installed in parallel between the two lifter mounting portions 500, and the two support rails 8a, 8b ) Are located on both sides of the laminated plate 1, and the laminated plate 1 is supported on the two support rails 8a and 8b. A first guide recess 80 is formed on the upper portion of the support rails 8a and 8b, and a second guide recess 81 is formed on the side thereof. Both sides of the laminated plate 1 are formed with extensions 10 extending outward, and at the bottom of the extension 10, a first rotating roller 11 inserted into the first guide recess 80 is formed, and the laminated plate A second rotation roller 12 inserted into the second guide recess 81 is formed on the side of (1). The first rotary roller 11 and the second rotary roller 12 are formed by two guide supports 8 supporting the laminate 1 while the driving structure 7 drives the laminate 1 to move. The laminated plate 1 may be guided according to the first guide recess 80 and the second guide recess 81. At one end of the second guide recess 81, a avoidance opening with an opening facing upward is formed, and the laminated plate 1 can be mounted through the avoidance opening.

22 and 24, one end of the support rail (8a, 8b) is coupled to one of the lifter mounting portion (500), an elliptical hole (82) is formed at the other end, and the connecting rotation shaft (83) is the above While being inserted into the oval hole 82, it is connected to the other lifter mounting portion 500.

The drive structure 7 is a cylinder, a hydraulic cylinder or an electric lead screw.

Referring to Figure 21, the drive structure 7 is an electric lead screw, four lead screws 70 installed in parallel between the support bases 5A and 5B, coupled to the screws of the lead screw 70 It includes a motor module 72 that drives the nut 71 and the four lead screws 70 to rotate simultaneously. The nut is connected to the pressing component 9, and the pressing component 9 includes a nurum plate 90, a pressing plate 91 and a pressure holding spring 92. The nurum plate 90 and the pressing plate 91 are slidably coupled on the four guide bars 6, and the plurality of pressure holding springs 92 are provided with the nurum plate 90 and the pressing plate 91 It is installed between. When the battery is formed, the motor module 72 drives the lead screw 70 to rotate, so that the pressurizing component 9 presses the laminate 1 and uses a pressure retaining spring 92 to prevent the battery between the laminates 1 By compressing the pressure formation.

This draft is not limited only to the above specific embodiments. According to the above embodiments, the engineer in this paper can derive various modifications without creative research, and it goes without saying that even if there are such modifications, they are included in this paper.

1: laminated plate
2: Electrode tap electrical connection structure
20: slide part
200: slide rail
201: slide base
2010: connection hole
21: Electrode tap electrical connection module
210: connecting plate
2100: slide recess
2101: second limit
211: electrical connection plate
2110: ventilation required
212: connecting parts
213: gas pipe connection
22: electrode tap pressure module
220: mounting plate
2200: side plate
2201: mounting part
2202: limit
221: silicon pressing part
2211: limit stairs
222: compression spring
3: control structure
30: bolt adjustment structure
300: bolt module
3000: mounting base
301: second electric module
3001: bolt
3001a: left turn screw
3001b: right turn screw
3010: first transmission shaft
3011: rotary electric module
3012: third bearing base
3002: second bearing base
3003: first nut
3004: second nut
31: transmission structure
310: rotating gear case
311: second transmission shaft
4: operation bar
50: lifter structure
5A, 5B: support base
50A, 50B: Lifter module
50C: Electric module
50D: drive motor
500: lifter wit unit
501: lifter lead screw pair
500a: connection
500b: bearing base
6: guide bar
7: drive structure
70: lead screw
71: nut
72: motor module
8: guide support
8a, 8b: support rail
80: first guide essential part
81: 2nd guidance essential part
82: oval hole
83: connecting rotary shaft
9: pressurized parts
90: nurumpan
91: pressure plate
92: pressure holding spring
10: extension
11: first rotating roller
12: second rotating roller

Claims (10)

It includes two support bases, a guide support and a laminate, and a plurality of the laminates are supported on the guide support and can slide along the guide support, and four guide bars are installed in parallel between the two support bases. And, the driving structure is in the adjustable formation clamp that presses the laminate so that the laminate moves to one side by driving the pressing parts to slide along the four guide bars.
A lifter structure is installed between the two support bases, the guide support part is installed on the lifter structure, at least a set of electrode tab electrical connection structures are installed on the laminate, and the electrode tab electrical connection structure is a slide component, an electrode A tab electrical connection module and an electrode tab pressing module, wherein the slide component is installed to move in a horizontal direction of the laminate, and both the electrode tab electrical connection module and the electrode tab pressing module are fixedly connected to the slide component, The electrode tab electrical connection module and the electrode tab pressurization module are installed to be opposite to both sides of the laminate, and the control structure adjusts the distance in the horizontal direction from the slide part to the center of the laminate, and the lifter structure is the guide support part. Adjustable formation clamp, characterized in that to adjust the height of the. The method of claim 1, wherein the electrode tab pressing module includes a mounting plate, a silicon pressing part, and a compression spring, and both ends of the mounting plate are connected to the slide component, and a rear surface thereof is in contact with the laminated plate, and the mounting plate is mounted. Side plates extending to the outside are respectively formed on both sides of the plate, mounting recesses are formed by the two side plates and the mounting plate, limits are formed by bending the side plates into the mounting recesses, and a plurality of the silicon pressurization The part is installed in a parallel state in the mounting recess, and limit steps extending to the outside are formed on both sides of the lower end of the silicon pressing part, and the limit steps are coupled to the limit by pressing the compression spring on the silicon pressing part,
The electrode tab electrical connection module includes a connection plate and an electrical connection plate, both ends of the connection plate are connected to the slide component, and slide recesses are formed by bending both sides of the connection plate to the outside, and the slide A second limit is formed by bending both sides of the recess inward, the electrical connection plate is installed in the slide recess, and at least two independent circuits are installed on the electrical connection plate. clamp. The method of claim 2, wherein a connection component is further installed at one end of the electrical connection plate, the connection component is fixedly connected to the slide component, an air flow path is formed in the connection component, and a side surface of the connection component An adjustable formation clamp, characterized in that a gas pipe connection part in communication with the air flow passage is formed, and a ventilation concave part in communication with the air flow passage is formed at a bottom of the electrical connection plate. The adjustable formation clamp according to any one of claims 1 to 3, wherein the electrode tab electrical connection structure is a head, and the adjustment structure adjusts the distance between the two electrode tab electrical connection structures. . The method of claim 4, wherein the slide component includes a slide rail and a slide base, and two slide rails are fixed to an upper and a lower part of the laminated plate, respectively, and the slide base is installed on the two slide rails, Both ends of the electrical connection module are connected to the same side of the two slide bases, and both ends of the electrode tab pressing module are connected to the other side of the two slide bases, respectively, and the adjustment structure includes two slide bases. An adjustable formation clamp, characterized in that the position of the slide base is adjusted by driving to slide along the slide rail. The method according to claim 5, wherein the lifter structure includes two lifter modules, an electric module and a drive motor, and the two lifter modules are respectively installed on the rear surface of the corresponding support base,
The lifter modules all include a lifter mounting portion and a lifted screw pair, the lifter mounting portion is slidably connected to the rear surface of the predetermined support base, and the screw of the lifted screw pair is fixedly connected to the lifter mounting portion. And, the electric module is connected to the lead screw of the two retreaded screw pairs, the driving motor drives the lead screw of any one of the retardant screw pairs to rotate, and the guide support part is the two lifters Adjustable formation clamp, characterized in that connected to the mounting portion. The operation according to claim 6, wherein a connection hole is formed on the slide base, an operation stick is inserted into the predetermined connection hole on the slide base, and the adjustment structure simultaneously presses both ends of the operation bar. The stick is driven to slide the slide base,
The adjustment structure includes two sets of bolt control structures and a transmission structure, two bolt control structures are respectively installed on the lifter mounting portion, and the bolt control structure includes two sets of bolt modules and a second electric module, Two sets of the bolt modules are installed in parallel at both upper and lower ends of the laminate, the second electric module is connected between the two bolt modules, the bolt module includes a mounting base and a bolt, and the bolt is the mounting It is rotatably connected to the base, both ends of the bolt are connected to the bearings in the second bearing base, the second bearing base is fixedly connected to the corresponding lifter mounting unit, and a left-hand screw is formed at one end of the bolt And, a right-rotating screw is formed at the other end, a predetermined first nut is coupled to the left-rotating screw, a predetermined second nut is coupled to the right-rotating screw, and two first nuts installed oppositely of one of the operation sticks Two second nuts respectively connected to both ends and installed oppositely are connected to both ends of the other operation bar,
The transmission module includes a first transmission shaft and a rotation transmission module connected between the bolt and the first transmission shaft, and the first transmission shaft is coupled to a third bearing base fixedly connected to the lifter mounting portion,
The transmission structure includes two rotating gear cases and a second transmission shaft connecting the rotating shafts of the two rotating gear cases, and the other rotating shafts of the two rotating gear cases are connected to the predetermined first transmission shaft, and An adjustable formation clamp, characterized in that the two slide parts are driven to move in the same direction or in opposite directions by rotating any one of the first transmission shafts by driving or manually. The method of claim 7, wherein the guide support portion is two support rails installed in parallel between the two lifter mounting portions, the two support rails are located on both sides of the laminate, and the laminate is on the two support rails. It is supported, and a first guide recess is formed on the upper part of the support rail, a second guide recess is formed on this side surface, an extension extending outward is formed on both sides of the laminated plate, and the first guide recess is formed at the bottom of the extension part. A first rotation roller inserted into the guide recess is formed, and a second rotation roller inserted into the second guide recess is formed on a side surface of the laminated plate. The method of claim 8, wherein one end of the support rail is coupled to one of the lifter mounting portions, and an elliptical hole is formed at the other end, and the connecting shaft is inserted into the elliptical hole while being connected to the other lifter mounting portion. Adjustable formation clamp, characterized in that the. The adjustable formation clamp according to claim 1, wherein the drive structure is a cylinder, a hydraulic cylinder, or an electric lead screw.

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