CN219435936U - Lamination fixing structure of lamination machine - Google Patents

Abstract

The utility model discloses a lamination fixing structure of a lamination machine, and relates to the technical field of lamination fixing of lamination machines. The utility model comprises a lamination table, a lamination table lifting assembly, a horizontal moving assembly, a vertical moving assembly and a pressing cutter assembly; when the film is placed on the lamination placing table, when the first electrode plate is placed on the film, the position of the lamination placing table is kept motionless, when the electrode plate and the film start to be laminated, the position of the lamination placing table moves towards the inside of the box body, when the lamination is finished, the lamination placing table moves to a certain distance away from the outside of the box body, a piece is taken out in the follow-up completion, the position of the lamination placing table moves towards the inside of the box body in the lamination process, so that the lamination position is unchanged, the pressure of the pressure knife is stable, and the pressure damage of the pressure knife to the electrode plate is reduced.

Description

Lamination fixing structure of lamination machine

Technical Field

The utility model belongs to the technical field of lamination machine lamination fixing, and particularly relates to a lamination fixing structure of a lamination machine.

Background

The lamination machine is mainly used in the battery manufacturing industry, the lamination type component separates positive and negative plates with specified width and length by using a diaphragm, and the positive plates, the diaphragm and the negative plates are continuously laminated according to the structure of the positive plates, the diaphragm and the negative plates, and when the positive plates and the negative plates of the battery are laminated, a compression fixing mechanism is needed, so that the lamination process can be better carried out.

When the lamination machine is used for lamination, the pressure of the pressure knife to the electrode plates is changed due to the fact that the number of the electrode plates is increased, and the pressure is not constant and the motor plates are easy to be crushed; the electrode plate is subjected to film tension in the displacement of the workbench, and the electrode plate can be displaced, so that a lamination fixing structure of a lamination machine is provided.

Disclosure of Invention

The utility model provides a lamination fixing structure of a lamination machine for solving the technical problems existing in the prior art.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to a lamination fixing structure of a lamination machine, which comprises a lamination table, a lamination table lifting assembly, a horizontal moving assembly, a vertical moving assembly and a pressing cutter assembly, wherein the lamination table lifting assembly is arranged in the lamination table, a plurality of horizontal moving assemblies, vertical moving assemblies and pressing cutter assemblies are arranged on two sides of the lamination table, the horizontal moving assemblies are positioned below the lamination table, the vertical moving assemblies are positioned above the horizontal moving assemblies, and the pressing cutter assemblies are positioned above the vertical moving assemblies.

Further, a lamination fixed knot of lamination machine construct, lamination platform include lamination place the platform, press from both sides and get groove and box, the box top is seted up flutedly, just be provided with in the box recess lamination place the platform, just lamination place the platform can be in the box recess is interior to be removed, lamination place the platform top on seted up press from both sides and get the groove.

Further, a stack ofLamination fixed knot of mascerating machine constructs, lamination platform lifting assembly includes bracing piece, lift ball screw, lift servo motor and support frame, the inside bottom side fixedly connected with of box recess the support frame, lamination place platform bottom fixedly connected with the bracing piece _， The support rod is far away from one end swing joint of lamination place platform has lift ball screw, lift ball screw is close to box recess bottom one end fixedly connected with lift servo motor, fixedly connected with on the support frame bottom lift servo motor.

Further, a lamination fixed knot of lamination machine constructs, horizontal migration subassembly include frame, moving platform, supporting shoe, guide rail, horizontal ball screw, ball bearing, horizontal servo motor and motor safety cover, box bottom fixed mounting has the motor safety cover, just motor safety cover bottom fixed mounting has the frame be provided with under the motor safety cover bottom horizontal servo motor, just horizontal servo motor fixed mounting is in the top upper middle part position of frame, horizontal servo motor fixedly connected with horizontal ball screw, just horizontal ball screw keeps away from horizontal servo motor's one end swing joint has ball bearing, the frame is kept away from horizontal servo motor one end is inlayed and is installed ball bearing, horizontal ball screw cup joints moving platform, fixed mounting has on the frame top the guide rail, just moving platform with guide rail swing joint, fixed mounting has on the moving platform top the supporting shoe.

Further, a lamination fixed knot of lamination machine construct, vertical removal subassembly include cylinder, piston rod, guide bar sleeve and cylinder mounting, fixed mounting has on the supporting shoe top the cylinder mounting, fixed mounting has on the cylinder mounting top the cylinder with the guide bar sleeve, the inside swing joint of guide bar sleeve has the guide bar.

Further, a lamination fixed knot of lamination machine construct, press the sword subassembly including press sword, press sword fixed plate, press sword support frame and diaphragm, the guide bar is kept away from telescopic one end fixed connection of guide bar the diaphragm, fixedly connected with on the top of diaphragm press the sword support frame, fixedly connected with on the top of pressing the sword support frame press the sword fixed plate, press fixedly mounted on the sword support frame top have press the sword.

Further, in the lamination fixing structure of the lamination machine, the length and width of the groove opening of the length-width ratio box body of the lamination placing platform are slightly smaller, and the slightly smaller length and width is defined as that the length and width of the lamination placing platform and the length and width of the groove opening of the box body are subtracted, and the length and width of the lamination placing platform are within 1% of the length and width of the lamination placing platform.

Further, in the lamination fixing structure of the lamination machine, the guide rods and the guide rod sleeves are provided with a plurality of groups and uniformly distributed around the cylinder.

The utility model has the following beneficial effects:

when the lamination machine operates, the electrode plate and the film are laminated, the film is placed at the top end of the lamination placing platform, the pressing knife is in contact with the film at the moment and fixes one end of the film, the mechanism moves towards the direction of the fixed end of the film, the pressing knife stops after reaching a designated position, the electrode plate is placed on the film, the pressing knife fixes one end of the electrode plate far away from the film, in the electrode plate placing process, the horizontal ball screw is started to drive the horizontal ball screw to rotate, the horizontal ball screw drives the moving platform to approach the lamination platform, the pressing knife is moved to the position right above the top end of the lamination placing platform, the horizontal servo motor stops working, the cylinder starts working at the moment, the piston rod is contracted into the cylinder, so that the pressing knife is driven to vertically move, the electrode plate is fixedly pressed, and the cylinder stops working at the moment; when the newly added electrode plates are fixed, a horizontal servo motor in a group is started to move a pressing knife to be far away from the lamination placing platform, at the moment, the horizontal servo motor stops working, a cylinder works again, a piston rod stretches out of the cylinder body of the cylinder to enable the position of the pressing knife to be lifted, at the moment, the cylinder stops working, the horizontal servo motor is restarted to move the pressing knife to be right above the top end of the lamination placing platform, at the moment, the cylinder works again, the piston rod is contracted into the cylinder body of the cylinder to enable the pressing knife to fix the newly added electrode plates or films, after the fixing is finished, a mechanism moves towards the fixed end of the electrode plates, the films are placed on the electrode plates, in the process, the horizontal moving assembly 3, the vertical moving assembly 4 and the pressing knife assembly repeat the previous operation, fix the end of the films far away from the fixed end of the electrode plates, and alternately reciprocate in this way, and laminate the electrode plates and the films; when the film is placed on the lamination placing platform, the first electrode plate is placed on the film, the lamination placing platform is kept stationary, the lifting servo motor starts working along with the fact that the electrode plate and the film start to be laminated, the lifting ball screw is driven to move, the supporting rod is driven to move, the lamination placing platform is moved towards the inside of the box, when lamination is finished, the lifting servo motor is driven to move again, the lamination placing platform is moved to the outside of the box by a certain distance through the supporting rod, the piece taking is completed subsequently, the device can be used, and the operation can be repeated.

In the lamination process, the pressure of the pressure knife to the electrode plates is increased due to the fact that the number of the electrode plates is increased, the position of the lamination placing platform moves towards the inside of the box body in the lamination process, the lamination position is unchanged, the pressure of the pressure knife is constant, and the pressure damage of the pressure knife to the electrode plates is reduced; meanwhile, in the process of descending the lamination placing platform, the inner wall of the box body can prevent the electrode plates from shifting in the lamination process; after lamination is completed, the lamination placing platform is moved to the outside of the box body by a certain distance through the support rod, the clamp can avoid contact with the lamination table through clamping the groove, abrasion is reduced, and a piece is conveniently taken.

Of course, it is not necessary for any one product to practice the utility model to achieve all of the advantages set forth above at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the utility model, the drawings that are needed for the description of the embodiments will be briefly introduced below, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic overall perspective view of the present utility model;

FIG. 2 is a schematic view of the overall perspective cross-sectional structure of the present utility model;

FIG. 3 is a second perspective view of the present utility model;

fig. 4 is a schematic diagram of the structure of fig. 2 a according to the present utility model.

In the drawings, the list of components represented by the various numbers is as follows:

1. a lamination stage; 101. a lamination placement platform; 102. a clamping groove; 103. a case; 2. a lamination table lifting assembly; 201. a support rod; 202. lifting the ball screw; 203. a lifting servo motor; 204. a support frame; 3. a horizontal movement assembly; 301. a frame; 302. a mobile platform; 303. a support block; 304. a guide rail; 305. a horizontal ball screw; 306. a ball bearing; 307. a horizontal servo motor; 308. a motor protection cover; 4. a vertical movement assembly; 401. a cylinder; 402. a piston rod; 403. a guide rod; 404. a guide rod sleeve; 405. a cylinder fixing member; 5. a knife pressing assembly; 501. a pressing knife; 502. a pressing knife fixing plate; 503. a pressing cutter supporting frame; 504. and a transverse plate.

Detailed Description

The following description of the technical solutions in the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, based on the embodiments in the utility model, which a person of ordinary skill in the art would obtain without inventive faculty, are within the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "open," "upper," "lower," "top," "middle," "inner," and the like indicate an orientation or positional relationship, merely for convenience of description and to simplify the description, and do not indicate or imply that the components or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the utility model.

Referring to fig. 1-4, the utility model discloses a lamination fixing structure of a lamination machine, which comprises a lamination table 1, a lamination table lifting assembly 2, a horizontal moving assembly 3, a vertical moving assembly 4 and a pressing cutter assembly 5, wherein the lamination table lifting assembly 2 is arranged in the lamination table 1, a plurality of horizontal moving assemblies 3, vertical moving assemblies 4 and pressing cutter assemblies 5 are arranged on two sides of the lamination table 1, the horizontal moving assembly 3 is positioned below the lamination table 1, the vertical moving assembly 4 is positioned above the horizontal moving assembly 3, and the pressing cutter assembly 5 is positioned above the vertical moving assembly 4.

When using this mechanism, the film is placed on lamination stage lifting assembly 2 tops, lamination stage 1 one side's pressure sword subassembly 5 is fixed the film this moment, mechanism is to the one side direction removal of lamination stage 1, stop after reaching the assigned position, place the electrode plate on the film, this moment lamination stage 1 opposite side's pressure sword subassembly 5 is fixed electrode plate and go on, in the electrode plate placing process, a plurality of horizontal migration subassemblies 3 that are close to lamination stage 1 opposite side drive vertical migration subassembly 4 and pressure sword subassembly 5 keep away from lamination stage lifting assembly 2, after lamination stage lifting assembly 2 top back is gone up to pressure sword subassembly 5, the electrode plate is placed on the film, this time vertical migration subassembly 4 drives pressure sword subassembly 5 upwards to pressure sword subassembly 5 is located the electrode plate top, horizontal migration subassembly 3 drives vertical migration subassembly 4 and pressure sword subassembly 5 and is toward being close to lamination stage 1 direction removal, pressure sword subassembly 5 is located the electrode plate this time, and vertical migration subassembly 4 drives pressure sword subassembly 5 down and move, film and electrode plate 5 are fixed, after the fixation is accomplished, mechanism is to lamination stage 1, the film stack 2 is placed in the lamination stage 2 top, when the lamination stage position is repeatedly moved in the position, the lamination stage 2 is moved in the time, the lamination stage is moved back to the lamination stage 2, the position is repeatedly, the lamination stage is moved in the position is moved, the lamination stage 2, the position is adjusted again, the lamination stage is moved in the lamination stage 2, the position is moved in the lamination stage is moved, the lamination stage 2 again, the position is adjusted to be moved in the lamination stage 2.

In one embodiment, for the lamination table 1 described above, the lamination table 1 includes a lamination placement table 101, a gripping slot 102, and a case 103; the top of the box body 103 is provided with a groove, the inside of the groove of the box body 103 is provided with the lamination placing platform 101, the lamination placing platform 101 can move relative to the inner wall of the groove of the box body 103, and the top of the lamination placing platform 101 is provided with the clamping groove 102.

When the mechanism is used, the lamination placing platform 101 restrains the positions of the electrode plates through the movement of the positions and the inner walls of the grooves of the box body 103, and fixes the electrode plates; in the traditional lamination process, the vertical moving component 4 works to drive the pressing knife component 5 to press the electrode slices downwards, so that the electrode slices are always pressed without offset, along with the increase of the number of the electrode slices, the vertical moving component 4 works to drive the pressing knife component 5 to change the pressure of the electrode slices in each lamination, the position of the mechanism lamination placing platform 101 can move relative to the inner wall of the groove of the box body 103, the lamination position is unchanged, the pressure of the pressing knife component 5 to the electrode slices is constant, and the pressure injury of the pressing knife component 5 to the electrode slices is reduced.

In one embodiment, for the lamination table lifting assembly 2, the lamination table lifting assembly 2 includes a supporting rod 201, a lifting ball screw 202, a lifting servo motor 203 and a supporting frame 204, the supporting frame 204 is fixedly connected to the bottom side surface inside the groove of the box 103, and the supporting rod 201 is fixedly connected to the bottom end of the lamination placement platform 101 _， The support rod 201 is far away from one end swing joint of lamination place platform 101 has lift ball screw 202, lift ball screw 202 is close to box 103 recess bottom one end fixedly connected with lift servo motor 203, fixedly connected with on the support frame 204 bottom lift servo motor 203.

When the mechanism is used, the lifting servo motor 203 is fixedly arranged on the bottom end of the supporting frame 204, the lifting ball screw 202 is driven to rotate by the lifting servo motor 203, and the lifting ball screw 202 drives the supporting rod 201 to move, so that the lamination placing platform 101 is driven to move.

In one embodiment, for the horizontal moving assembly 3, the horizontal moving assembly 3 includes a frame 301, a moving platform 302, a supporting block 303, a guide rail 304, a horizontal ball screw 305, a ball bearing 306, a horizontal servo motor 307 and a motor protection cover 308, the bottom end of the box 103 is fixedly provided with the motor protection cover 308, the horizontal servo motor 307 is disposed right below the bottom end of the motor protection cover 308, the horizontal servo motor 307 is fixedly mounted at the middle position on the top end of the frame 301, the horizontal servo motor 307 is fixedly connected with the horizontal ball screw 305, one end, far away from the horizontal servo motor 307, of the horizontal ball screw 305 is movably connected with the ball bearing 306, one end, far away from the horizontal servo motor 307, of the frame 301 is inlaid with the ball bearing 306, the horizontal ball screw 305 is sheathed with the moving platform 302, the guide rail 304 is fixedly mounted on the top end of the frame 301, the moving platform 302 is movably connected with the guide rail 304, and the supporting block 303 is fixedly mounted on the top end of the moving platform 302.

When the mechanism is used, the horizontal servo motor 307 is started to drive the horizontal ball screw 305 to rotate, the horizontal ball screw 305 drives the movable platform 302 and the supporting block 303 to approach the lamination table 1, the supporting block 303 drives the vertical movable component 4 and the pressing knife component 5 to reach a set position, the horizontal servo motor 307 stops working, the vertical movable component 4 and the pressing knife component 5 finish fixing work on a film or an electrode slice, when the newly added film or electrode slice needs to be fixed, the horizontal servo motor 307 is started to move the movable platform 302 and the supporting block 303 to a position far away from the lamination table 1, the supporting block 303 drives the vertical movable component 4 and the pressing knife component 5, at the moment, the horizontal servo motor 307 stops working, after the film or the electrode slice is placed, the horizontal servo motor 307 is restarted, the movable platform 302 and the supporting block 303 are again moved to approach the lamination table 1, the supporting block 303 drives the vertical movable component 4 and the pressing knife component 5 to return to the set position, and the vertical movable component 4 and the pressing knife component 5 stop working, and the vertical movable component 4 and the pressing knife component 5 finish fixing work on the film or the electrode slice.

In one embodiment, for the vertical moving assembly 4, the vertical moving assembly 4 includes a cylinder 401, a piston rod 402, a guide rod 403, a guide rod sleeve 404, and a cylinder fixing member 405, the cylinder fixing member 405 is fixedly installed on the top end of the supporting block 303, the cylinder 401 and the guide rod sleeve 404 are fixedly installed on the top end of the cylinder fixing member 405, and the guide rod 403 is movably connected to the top end of the guide rod sleeve 404.

When the mechanism is used, when the horizontal moving assembly 3 moves to drive the cylinder fixing part 405 to vertically move the assembly 4 to be close to the set position of the lamination table 1, the cylinder 401 starts to work at the moment, the piston rod 402 is contracted into the cylinder 401, when the newly added film and electrode plate are fixed, the horizontal moving assembly 3 moves to drive the cylinder fixing part 405 to move to a position far away from the lamination table 1, the cylinder 401 works again at the moment, the piston rod 402 extends out of the cylinder body of the cylinder 401, when the horizontal moving assembly 3 drives the vertical moving assembly 4 to be close to the lamination table 1 again to return to the set position, the cylinder 401 works again at the moment, and the piston rod 402 is contracted into the cylinder 401, so that the reciprocating repeated operation works.

In one embodiment, for the above-mentioned press blade assembly 5, the press blade assembly 5 includes a press blade 501, a press blade fixing plate 502, a press blade supporting frame 503 and a transverse plate 504, one end of the guide rod 403 away from the guide rod sleeve 404 is fixedly connected with the transverse plate 504, the top end of the transverse plate 504 is fixedly connected with the press blade supporting frame 503, the top end of the press blade supporting frame 503 is fixedly connected with the press blade fixing plate 502, and the top end of the press blade supporting frame 503 is fixedly provided with the press blade 501.

When the mechanism is used, when the horizontal moving component 3 moves to drive the vertical moving component 4 to be close to the set position of the lamination table 1, the position of the pressing knife 501 is above the lamination placing platform 101, the vertical moving component 4 works to drive the pressing knife 501 to fix the electrode slice or the film, when the newly added film and the electrode slice are fixed, the horizontal moving component 3 moves to drive the vertical moving component 4 to move to a position far away from the lamination table 1, the vertical moving component 4 works again at the moment, so that the position of the pressing knife 501 is lifted, and when the horizontal moving component 3 drives the vertical moving component 4 to be close to the lamination table 1 again to return to the set position, at the moment, the vertical moving component 4 drives the pressing knife 501 to fix the newly added electrode slice or the film.

In one embodiment, for the lamination table 1, the length-width ratio of the lamination placement platform 101 and the width of the groove opening of the case 103 are slightly smaller, which is defined as that the length-width of the lamination placement platform 101 and the length-width of the notch of the case 103 are subtracted from each other, and are within 1% of the length-width of the lamination placement platform 101.

In one embodiment, for the vertical movement assembly 4 described above, the guide rods 403 and the guide rod sleeves 404 are grouped and evenly distributed around the cylinder 401.

In summary, by means of the above technical solution of the present utility model, the film is placed on the top end of the lamination placing platform 101, and at this time, the pressing knife 501 contacts with the film and fixes one end of the film, the mechanism moves towards the direction of the fixed end of the film, and stops after reaching the specified position, the electrode plate is placed on the film, at this time, the pressing knife 501 fixes the end of the electrode plate far away from the fixed end of the film, during the electrode plate placing process, the horizontal servo motor 307 starts to drive the horizontal ball screw 305 to rotate, the horizontal ball screw 305 drives the moving platform 302 to approach the lamination platform 1, the pressing knife 501 moves to the position right above the top end of the lamination placing platform 101, the horizontal servo motor 307 stops working, at this time, the cylinder 401 starts working, the piston rod 402 contracts into the cylinder 401, thereby driving the pressing knife 501 to move vertically, and fix and compress the electrode plate, at this time, the cylinder 401 stops working; when the newly added electrode plates are fixed, the horizontal servo motor 307 is started, the press knife 501 is moved to be far away from the lamination placing platform 101, the horizontal servo motor 307 stops working, the cylinder 401 works again, the piston rod 402 stretches out of the cylinder 401, the position of the press knife 501 is lifted, the cylinder 401 stops working, the horizontal servo motor 307 is restarted, the press knife 501 is moved to be right above the top end of the lamination placing platform 101, the cylinder 401 works again, the piston rod 402 is contracted into the cylinder 401, the press knife 501 fixes the newly added electrode plates or films, after the fixing is completed, the mechanism moves towards the direction of the fixed end of the electrode plates, the films are placed on the electrode plates, in the process, the horizontal moving assembly 3, the vertical moving assembly 4 and the press knife assembly 5 repeatedly perform the previous operation, the fixed end of the films far away from the electrode plates, and alternately reciprocate, and the electrode plates and the films are laminated; when the film is placed on the lamination placing platform 101, when the first electrode plate is placed on the film, the position of the lamination placing platform 101 is kept motionless, and as the electrode plate and the film start to be laminated, the lifting servo motor 203 starts to work and drives the lifting ball screw 202 to move, the supporting rod 201 is driven to move so as to move the position of the lamination placing platform 101 towards the inside of the box body 103, when the lamination is finished, the lifting servo motor 203 drives the lifting ball screw 202 again to move, the lamination placing platform 101 is moved to a certain distance outside the box body 103 through the supporting rod 201, the device can be used after the piece taking is completed, and the operation can be repeated.

Through the above technical scheme, 1, in the lamination process, because the number of electrode plates is increased by the pressing knife 501, the pressure of the pressing knife 501 to the electrode plates is changed due to the fact that the position of each lamination is changed, the lamination placing platform 101 moves towards the inside of the box 103 in the lamination process, so that the lamination position is unchanged, the pressure of the pressing knife 501 is constant, and the pressure injury of the pressing knife 501 to the electrode plates is reduced _； The inner wall of the box 103 can prevent the lamination from shifting in the lamination process in the process of lowering the lamination placing platform 101;

2. after lamination is completed, the lamination placing platform 101 is moved to a certain distance outside the box body 103 through the supporting rods 201, and the clamp can avoid contact with the lamination table 1 through the clamping groove 102, so that abrasion is reduced, and a workpiece is conveniently taken.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above disclosed preferred embodiments of the utility model are merely intended to help illustrate the utility model. The preferred embodiments are not exhaustive or to limit the utility model to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best understand and utilize the utility model. The utility model is limited only by the claims and the full scope and equivalents thereof.

Claims (8)

1. The utility model provides a lamination fixed knot of lamination machine constructs, includes lamination platform (1), lamination platform lifting unit (2), horizontal migration subassembly (3), vertical movement subassembly (4), pressure sword subassembly (5), lamination platform (1) inside is provided with lamination platform lifting unit (2), lamination platform (1) both sides all are provided with a plurality of horizontal migration subassembly (3) vertical movement subassembly (4) and pressure sword subassembly (5), just horizontal migration subassembly (3) are located lamination platform (1) below, vertical movement subassembly (4) are located the top of horizontal migration subassembly (3), pressure sword subassembly (5) are located vertical movement subassembly (4) top.

2. The lamination fixing structure of a lamination machine according to claim 1, characterized in that the lamination table (1) comprises a lamination placement platform (101), a clamping groove (102) and a box (103); the novel lamination type portable electronic device is characterized in that a groove is formed in the top end of the box body (103), the lamination placing platform (101) is arranged in the groove of the box body (103), and the clamping groove (102) is formed in the top end of the lamination placing platform (101).

3. The lamination fixture of claim 2, wherein the lamination table lift assembly(2) Including bracing piece (201), lift ball screw (202), lift servo motor (203) and support frame (204), box (103) recess inside bottom side fixedly connected with support frame (204), lamination place platform (101) bottom fixedly connected with bracing piece (201) _， One end of the supporting rod (201) far away from the lamination placing platform (101) is movably connected with the lifting ball screw (202), one end, close to the bottom of the groove of the box body (103), of the lifting ball screw (202) is fixedly connected with the lifting servo motor (203), and the bottom end of the supporting frame (204) is fixedly connected with the lifting servo motor (203).

4. The lamination fixing structure of a lamination machine according to claim 3, wherein the horizontal moving assembly (3) comprises a frame (301), a moving platform (302), a supporting block (303), a guide rail (304), a horizontal ball screw (305), a ball bearing (306), a horizontal ball screw (307) and a motor protection cover (308), the motor protection cover (308) is fixedly arranged at the bottom end of the box body (103), the frame (301) is fixedly arranged at the bottom end of the motor protection cover (308), the motor protection cover (308) is positioned at the middle position on the top end of the frame (301), the horizontal servo motor (307) is arranged at the middle position on the top end of the frame (301) under the bottom end of the motor protection cover (308), the horizontal servo motor (307) is fixedly connected with the horizontal ball screw (305), one end, far away from the horizontal servo motor (307), of the horizontal ball screw (305) is movably connected with the ball bearing (306), the frame (301) is far away from the horizontal servo motor (307), the ball bearing (306) is fixedly arranged at the top end of the frame (301), the ball screw (305) is fixedly arranged at the top end of the horizontal servo motor (307), and the ball screw (305) is fixedly sleeved on the frame (301), and the moving platform (302) is movably connected with the guide rail (304), and the supporting block (303) is fixedly arranged on the top end of the moving platform (302).

5. The lamination fixing structure of a lamination machine according to claim 4, wherein the vertical moving assembly (4) comprises a cylinder (401), a piston rod (402), a guide rod (403), a guide rod sleeve (404) and a cylinder fixing member (405), the cylinder fixing member (405) is fixedly installed on the top end of the supporting block (303), the cylinder (401) and the guide rod sleeve (404) are fixedly installed on the top end of the cylinder fixing member (405), and the guide rod (403) is movably connected inside the guide rod sleeve (404).

6. The lamination fixing structure of a lamination machine according to claim 5, wherein the pressing tool assembly (5) comprises a pressing tool (501), a pressing tool fixing plate (502), a pressing tool supporting frame (503) and a transverse plate (504), one end, away from the guide rod sleeve (404), of the guide rod (403) is fixedly connected with the transverse plate (504), the top end of the transverse plate (504) is fixedly connected with the pressing tool supporting frame (503), the top end of the pressing tool supporting frame (503) is fixedly connected with the pressing tool fixing plate (502), and the top end of the pressing tool supporting frame (503) is fixedly provided with the pressing tool (501).

7. The lamination fixing structure of a lamination machine according to claim 2, wherein the lamination placement platform (101) has an aspect ratio that is slightly smaller than the length-width of the recess of the case (103).

8. A lamination fixing structure of a lamination machine according to claim 5, characterized in that the guide rods (403) and the guide rod sleeves (404) are grouped and evenly distributed around the cylinder (401).