CN221363559U - Automatic equipment for installing elastic sheet in charger shell - Google Patents

Abstract

The utility model relates to the technical field of automatic machinery, in particular to automatic equipment for installing an elastic sheet in a charger shell, which comprises a frame, a feeding component, a sheet loading component, a pressing component and a pushing component, wherein the pushing component is provided with a base, the charger shell with the elastic sheet to be installed is placed on the base, a material coiling and loading disc is arranged on the feeding component, the material coiling and loading disc is used for providing the coiled elastic sheet, the sheet loading component is provided with a suction port part, and the suction port part is communicated with external air extraction equipment so as to suck the elastic sheet and move to a corresponding position in the charger shell, the pressing component is provided with a pressing hammer, and the pressing hammer presses the suction port part moved into the charger shell, so that the elastic sheet sucked by the suction port part is pressed into a mounting column in the charger shell. In conclusion, the automatic sucking, putting and stamping processes can be realized, so that the elastic sheet is more quickly installed, the assembling quality is improved, and the injury risk of personnel is reduced.

Description

Automatic equipment for installing elastic sheet in charger shell

Technical Field

The utility model relates to the technical field of automatic machines, in particular to automatic equipment for installing an elastic sheet in a charger shell.

Background

With the continuous development of electronic information and technology, the requirements of people on the quantity, quality and function of various electronic products are higher and higher, a charger is taken as a necessary product for charging various electronic products, and the charger generally comprises a plastic shell and a metal AC elastic sheet, wherein the elastic sheet is a necessary component of an AC plug end of the charger.

At present, manual feeding and manual assembly are generally adopted, and the defects are that: firstly, manual assembly operation is slow in feeding speed, low in assembly efficiency, poor in reliability, high in long-term labor intensity, large in number of operators and difficult to meet large-scale continuous production; secondly, manual feeding, assembling and detecting are carried out, the placing offset clearance is large, the position precision is low, the spring plate is easy to skew, the assembling precision is poor, and the yield is low; thirdly, during manual assembly, the material sheet is a metal elastic sheet, so that the manual assembly is easy to damage, and potential safety hazards are caused.

Therefore, how to provide an automatic device for installing the elastic sheet in the charger shell can realize automatic sucking, putting in and stamping processes, so that the elastic sheet is more quickly installed, the quality of assembly is improved, the injury risk of personnel is reduced, and the automatic device is a technical problem to be solved.

Disclosure of utility model

The utility model aims to overcome the defects of the prior art and provides a technical scheme capable of solving the problems.

The utility model provides automatic equipment for installing an elastic sheet in a charger shell, which comprises a frame, and a feeding component, a sheet loading component, a pressing component and a pushing component which are installed on the frame, wherein the pushing component is provided with a base, the charger shell with the elastic sheet to be installed is placed on the base, a material coiling disc is arranged on the feeding component and is used for providing the coiled elastic sheet, the sheet loading component is provided with a suction port part, the suction port part is communicated with external air extraction equipment, so that the elastic sheet is sucked and moves to a corresponding position in the charger shell, the pressing component is provided with a pressing hammer head, and the pressing hammer head presses down a suction nozzle part which moves into the charger shell, so that the elastic sheet sucked by the suction port part is pressed into a mounting column in the charger shell.

As a further scheme of the utility model: the automatic equipment further comprises a cutter assembly, wherein the cutter assembly is provided with a cutter seat, a cutter part and a shifting part, the cutter seat is fixedly connected to the frame, and the cutter part and the shifting part are respectively and fixedly connected to the cutter seat; the cutter part is used for cutting off the coiled spring piece into independent absorbable spring pieces, the shifting part is used for carrying out shifting operation on the spring pieces, so that the spring pieces can be moved to corresponding positions, and the suction nozzle part can absorb the spring pieces conveniently.

As a further scheme of the utility model: the pushing assembly is provided with a pushing guide rail, a pushing sliding block, a joint bearing and a pushing air cylinder, the pushing guide rail and the pushing air cylinder are fixedly connected to the frame, the pushing sliding block is slidably connected to the pushing guide rail, one end of the joint bearing is fixedly connected to the pushing sliding block, the other end of the joint bearing is fixedly connected to a piston rod of the pushing air cylinder, and accordingly the pushing air cylinder drives the pushing sliding block to slide along the pushing guide rail through the joint bearing.

As a further scheme of the utility model: the chip loading assembly is provided with a supporting beam, a transverse sliding block and a transverse air cylinder, wherein the supporting beam is fixedly connected to the frame and is provided with a transverse guide rail, the transverse sliding block is slidably connected to the transverse guide rail, the transverse air cylinder is fixedly connected to the transverse sliding block, a piston rod of the transverse air cylinder is fixedly connected to the supporting beam, and therefore the transverse air cylinder drives the transverse sliding block to slide along the transverse guide rail.

As a further scheme of the utility model: and the support beam is also provided with a limit switch which is fixedly connected to the support beam and used for limiting the moving position of the transverse sliding block.

As a further scheme of the utility model: the chip loading assembly is further provided with a vertical guide rail, a vertical sliding block and a vertical air cylinder, the vertical guide rail and the vertical air cylinder are fixedly connected to the transverse sliding block, the vertical sliding block is slidably connected to the vertical guide rail, a piston rod of the vertical air cylinder is fixedly connected to the vertical sliding block, and the suction nozzle is fixedly connected to the vertical sliding block.

As a further scheme of the utility model: the pressing assembly is provided with a pressing cylinder, the pressing cylinder is fixedly connected to the frame, and the pressing hammer is fixedly connected to a piston rod of the pressing cylinder, so that the pressing cylinder drives the pressing hammer to move downwards, and the suction nozzle part is pressed downwards.

As a further scheme of the utility model: the feeding assembly is further provided with a paper receiving disc and a paper receiving motor, the paper receiving motor is fixedly connected to the frame, the paper receiving disc is fixedly connected to a driving shaft of the paper receiving motor, and the paper receiving disc is used for receiving packaging paper separated from the package spring.

As a further scheme of the utility model: the pushing component is further provided with a position sensor which is fixedly connected to the frame and used for sensing the position of the base.

Compared with the prior art, the utility model has the beneficial effects that:

1. Through setting up the feeding subassembly and carrying out automatic feed, the dress piece subassembly carries out automatic absorption, removes and put into the operation of shell fragment, pushes down the subassembly and carries out automatic punching press operation, and the automatic shell of gluing the charger of pushing the subassembly is pushed into and is released to can realize in pressing into the shell of gluing the charger to the automation of shell fragment, improve the efficiency of production.

2. The cutter assembly can be further arranged, the elastic sheet is cut off and shifted through the cutter assembly, so that the elastic sheet on the feeding assembly can continuously enter the sucking position, and the elastic sheet is sucked by the sheet loading assembly, and the production efficiency is further accelerated.

3. Still through supporting beam and limit switch's cooperation, make the removal of dress piece subassembly can be more accurate, make the putting into of shell fragment and punching press more accurate to improve the quality that the shell fragment was loaded, reduce the defective products rate.

Therefore, the utility model can provide an automatic device for installing the spring plate in the charger shell through the improvement, thereby realizing automatic sucking, putting in and stamping processes, enabling the installation of the spring plate to be faster, improving the assembly quality and reducing the injury risk of personnel.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

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

FIG. 1 is a schematic view of the structure of the pressing hammer head of the present utility model;

FIG. 2 is a schematic view of the pusher assembly of the present utility model;

FIG. 3 is a schematic view of the construction of the chip assembly of the present utility model;

FIG. 4 is a schematic view of the structure of the mounting assembly of the present utility model when the spring is sucked;

FIG. 5 is a schematic diagram of the limit switch of the present utility model;

Fig. 6 is a schematic view of the structure of the feed assembly of the present utility model.

Reference numerals and names in the drawings are as follows:

A 10-frame; 11, fixing the panel; 12 fixing a bracket; 20 a feed assembly; 21 rolls of charging trays; 22 paper receiving trays; 23, a paper collection motor; 30 a chip assembly; 31 suction part; 32 supporting beams; 33 transverse guide rails; 34 transverse slide blocks; 35 transverse cylinders; 36 limit switches; 37 vertical guide rails; 38 vertical sliding blocks; 39 vertical cylinders; 40 pressing down the assembly; 41 pressing down the hammer; 42 pressing down the cylinder; 50 pushing the assembly; a 51 base; 52 pushing the guide rail; 53 pushing the sliding block; 54 knuckle bearing; 55 pushing cylinder; a 56 position sensor; 60 a cutter assembly; a cutter holder 61; 62 cutter parts; 63 shift sections; 70 charger rubber shell; 71 spring plate.

Detailed Description

The following description of the technical solutions in the embodiments of the present utility model will be clear and complete, and it is obvious that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 6, in an embodiment of the present utility model, an automatic device for installing an elastic sheet in a charger shell includes a frame 10, a feeding assembly 20, a sheet loading assembly 30, a pressing assembly 40 and a pushing assembly 50 installed on the frame 10, the pushing assembly 50 is provided with a base 51, a charger shell 70 on which the elastic sheet 71 needs to be installed is placed on the base 51, a charging tray 21 is provided on the feeding assembly 20, the charging tray 21 is used for providing the wound elastic sheet 71, the sheet loading assembly 30 is provided with a suction nozzle 31, the suction nozzle 31 is communicated with an external air suction device, so as to suck the elastic sheet 71 and move the elastic sheet to a corresponding position in the charger shell 70, the pressing assembly 40 is provided with a pressing hammer 41, and the pressing hammer 41 presses the suction nozzle 31 moved into the charger shell 70, so that the elastic sheet 71 sucked by the suction nozzle 31 is pressed into a corresponding mounting post in the charger shell 70.

Specifically, in order to automatically install the elastic sheet 71 in the charger rubber case 70, the corresponding feeding assembly 20, the loading assembly 30, the pressing assembly 40 and the pushing assembly 50 may be provided, so that the elastic sheet 71 required to be installed in the equipment is automatically provided by the feeding assembly 20, the elastic sheet 71 is automatically sucked, moved and placed by the loading assembly 30, and the placed elastic sheet 71 is stamped by the pressing assembly 40 so as to be pressed into the mounting column in the charger rubber case 70, thereby facilitating the next operation. It will be appreciated that two corresponding mounting posts (not shown) are disposed in the charger housing 70, corresponding to the positive and negative poles of the mounting tab 71. In addition, the spring plate 71 is also provided with a sleeve hole (not shown in the figure), and when the pressing assembly 40 presses the spring plate 71, the sleeve hole of the spring plate 71 can be sleeved on the mounting post, so that the spring plate 71 can be fixed on the mounting post.

Further, in the present utility model, the frame 10 may further include a fixing panel 11 and a fixing bracket 12, wherein the mounting or fixing to the frame 10 is described, which may be understood to be directly mounted to the frame 10, or may be understood to be mounted to the fixing panel 11 or the fixing bracket 12, that is, the corresponding components are fixedly mounted to the frame 10 through the fixing panel 11 or the fixing bracket 12, so that they may operate normally. In addition, the base 51 is preferably configured as a replaceable base 51, and the corresponding matched base 51 can be replaced according to different charger housings 70 where the elastic sheet 71 is required to be installed, so that the suction nozzle 31 can better put the elastic sheet 71 into the charger housing 70.

As shown in fig. 4 and 6, the automatic apparatus preferably further includes a cutter assembly 60, the cutter assembly 60 is provided with a cutter seat 61, a cutter portion 62 and a displacement portion 63, the cutter seat 61 is fixedly connected to the frame 10, and the cutter portion 62 and the displacement portion 63 are respectively fixedly connected to the cutter seat 61; the cutter portion 62 is configured to cut the wound spring sheet 71 into independent absorbable spring sheets 71, and the shift portion 63 is configured to shift the spring sheets 71, so that the spring sheets 71 move to corresponding positions, and the suction portion 31 is convenient for sucking.

Specifically, the package elastic sheet 71 provided by the feeding assembly 20 may be an elastic sheet 71 which is not completely cut off, and in the feeding process, the cutting knife assembly 60 may be used to cut off the portion where the package elastic sheet 71 is still connected, so as to facilitate the suction of the subsequent suction nozzle portion 31. The displacement portion 63 may be provided to move the elastic pieces 71 forward one by one at a time to move the new elastic pieces 71 from the new position to the position where they can be sucked. It will be appreciated that on the cutter seat 61, there is also provided a corresponding limit member (not shown in the figures) or on the displacement portion 63, so as to prevent the elastic sheet 71 from being constantly moved forward and thus from falling.

As shown in fig. 1, 2, 4 and 6, preferably, the pushing assembly 50 is provided with a pushing rail 52, a pushing slider 53, a joint bearing 54 and a pushing cylinder 55, the pushing rail 52 and the pushing cylinder 55 are fixedly connected to the frame 10, the pushing slider 53 is slidably connected to the pushing rail 52, one end of the joint bearing 54 is fixedly connected to the pushing slider 53, and the other end is fixedly connected to a piston rod of the pushing cylinder 55, so that the pushing cylinder 55 drives the pushing slider 53 to slide along the pushing rail 52 through the joint bearing 54. The pushing assembly 50 is further provided with a position sensor 56, and the position sensor 56 is fixedly connected to the frame 10 and is used for sensing the position of the base 51.

Specifically, for the convenience of production, a corresponding punching station and a material taking and placing station can be further provided, and the base 51 is mounted on the pushing slider 53 of the pushing assembly 50, so that the pushing cylinder 55 drives the pushing slider 53 to circularly slide along the pushing guide rail 52, and further the charger rubber shell 70 is circularly arranged between the punching station and the material taking and placing station, so that the charger rubber shell can be continuously placed on the base 51, and an automatic mounting elastic sheet 71 is formed. In addition, a position sensor 56 may be provided, so that the pushing cylinder 55 may stop by moving the pushing slider 53 to a proper position, thereby facilitating the worker to take down the charger housing 70 with the spring plate 71 and to put a new charger housing 70.

As shown in fig. 1 to 6, the die assembly 30 is preferably provided with a supporting beam 32, a transverse slider 34 and a transverse cylinder 35, wherein the supporting beam 32 is fixedly connected to the frame 10, and is provided with a transverse guide rail 33, the transverse slider 34 is slidably connected to the transverse guide rail 33, the transverse cylinder 35 is fixedly connected to the transverse slider 34, and a piston rod thereof is fixedly connected to the supporting beam 32, so that the transverse cylinder 35 operates to drive the transverse slider 34 to slide along the transverse guide rail 33. The supporting beam 32 is further provided with a limit switch 36, and the limit switch 36 is fixedly connected to the supporting beam 32 and is used for limiting the moving position of the transverse sliding block 34.

Specifically, since two elastic sheets 71 need to be sucked at the same time, a corresponding supporting beam 32 can be provided, two transverse sliding blocks 34 and a transverse air cylinder 35 are arranged on the supporting beam 32, and then two suction nozzle parts 31 are respectively arranged on the two transverse sliding blocks 34, so that two elastic sheets 71 are sucked at the same time, and further the two elastic sheets 71 can be placed into the charger rubber case 70 at the same time. The operation principle of the two suction ports 31, the two lateral sliding blocks 34 and the two lateral air cylinders 35 is the same, but the two suction blades 71 are respectively sucked from the two cutter assemblies 60 by sliding in the two directions of the lateral guide rails 33, and then are moved inwards, so that the two suction blades are simultaneously placed into the charger rubber case 70.

Secondly, it may be appreciated that a plurality of limit switches 36 may be provided, for example, two limit switches 36 are respectively provided at two ends of the supporting beam 32, so as to limit the outward moving position of the transverse slider 34, so that the transverse slider can just stop at a position where the elastic sheet 71 is conveniently sucked. And in the middle of the supporting beam 32, two limit switches 36 can be respectively arranged to limit the inward moving position of the transverse sliding block 34, so that the transverse sliding block can just stop at the position where the elastic sheet 71 is convenient to put, and the suction nozzle part 31 can accurately put the elastic sheet 71 into the charger rubber shell 70.

In addition, the transverse cylinder 35 is mounted on the corresponding transverse sliding block 34 according to the shape of the mother's foot, and the piston rod thereof is connected to the supporting beam 32, mainly for reducing the size of the automatic device in the transverse direction, if the transverse cylinder 35 is directly mounted on the supporting beam 32, the cylinder tube of the transverse cylinder 35 needs to extend a certain distance to both sides of the supporting beam 32, thereby resulting in the lateral size of the automatic device becoming larger, which is not beneficial to saving the space of the factory.

As shown in fig. 3 to 5, preferably, the die assembly 30 is further provided with a vertical guide rail 37, a vertical sliding block 38 and a vertical air cylinder 39, the vertical guide rail 37 and the vertical air cylinder 39 are fixedly connected to the transverse sliding block 34, the vertical sliding block 38 is slidably connected to the vertical guide rail 37, a piston rod of the vertical air cylinder 39 is fixedly connected to the vertical sliding block 38, and the suction nozzle portion 31 is fixedly connected to the vertical sliding block 38.

Specifically, in order to make the suction nozzle 31 move up and down, so as to conveniently suck the elastic sheet 71 and put the elastic sheet 71 into the charger rubber case 70, a corresponding vertical guide rail 37, a vertical sliding block 38 and a vertical air cylinder 39 may be further provided, and by using the extending length of the vertical guide rail 37, the suction nozzle 31 can move up and down by a corresponding stroke, so that the elastic sheet 71 can be put into the charger rubber case 70 with a certain depth. It can be appreciated that the two transverse sliding blocks 34 are respectively provided with two vertical guide rails 37, two vertical sliding blocks 38 and two vertical air cylinders 39, so that the two suction nozzle portions 31 can be respectively driven to suck and place the two elastic sheets 71.

As shown in fig. 1, 2 and 6, the pressing assembly 40 is preferably provided with a pressing cylinder 42, the pressing cylinder 42 is fixedly connected to the frame 10, and the pressing hammer 41 is fixedly connected to a piston rod of the pressing cylinder 42, so that the pressing cylinder 42 operates to drive the pressing hammer 41 to move downwards, thereby performing a pressing operation on the suction nozzle 31.

Specifically, since it is necessary to ensure that the force and the degree of pressing the two elastic pieces 71 are consistent, the pressing cylinder 42 and the pressing hammer 41 may be only one respectively, and the upper ends of the two suction nozzle portions 31 may be pressed simultaneously by using the relatively large hammer portion of the pressing hammer 41, so that the two suction nozzle portions 31 may be pressed simultaneously downwards, and the two elastic pieces 71 may be pressed onto the corresponding mounting posts respectively. It can be appreciated that the lower end of the suction nozzle portion 31 is further provided with a corresponding avoiding hole (not shown in the figure), and the avoiding hole corresponds to a mounting post in the charger rubber case 70, when the suction nozzle portion 31 is pressed down, the mounting post can enter the avoiding hole, so that the suction nozzle portion 31 can form a pressing impact force on the elastic sheet 71, and the elastic sheet can be accurately pressed onto the mounting post.

As shown in fig. 6, preferably, the feeding assembly 20 is further provided with a paper receiving tray 22 and a paper receiving motor 23, the paper receiving motor 23 is fixedly connected to the frame 10, the paper receiving tray 22 is fixedly connected to a driving shaft of the paper receiving motor 23, and the paper receiving tray 22 is used for receiving the packaging paper separated from the package spring 71.

Specifically, in order to conveniently store the package paper on the package spring 71, a paper receiving tray 22 and a paper receiving motor 23 may be provided, and the paper receiving tray 22 is driven to rotate by the paper receiving motor 23, so that the separated package paper is wound, and is convenient to store.

In use, the corresponding packing spring 71 is first placed on the packing tray 21 and then the automatic device is turned on to operate. The charger housing 70 to be fitted with the spring plate 71 may then be placed on the base 51, and the push cylinder 55 operated to move the base 51 from the pick-and-place station to the stamping station. At the same time, the suction parts 31 respectively suck corresponding elastic pieces 71 from the cutter assemblies 60 at the two sides and move to the stamping station.

When the nozzle 31 moves to the stamping station, the vertical cylinder 39 drives the nozzle 31 to move downwards, so that the spring plate 71 is placed above the mounting post of the charger rubber case 70. Subsequently, the pressing cylinder 42 is operated to press down the pressing ram 41 toward the suction nozzle portion 31, thereby pressing the elastic piece 71 into the mounting post to form a relatively fixed mounting state. Then, the lower pressure cylinder 42 drives the lower pressure hammer 41 to move upwards, and the vertical cylinder 39 drives the suction nozzle 31 to move upwards.

Then the transverse cylinder 35 drives the transverse slide 34 to move to two sides, and a new spring piece 71 is sucked from the new spring piece. The pushing cylinder 55 drives the charger rubber shell 70 with the punched elastic sheet 71 to move to the material taking and placing station, and stops after moving to the corresponding position of the position sensor 56, so that a worker can take off the charger rubber shell 70 and place the charger rubber shell in a finished product area, and then the next process is carried out to continue production. The worker then advances a charger housing 70 to be fitted with a spring 71 from a new position on the base 51 to the next cycle.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (9)

1. An automatic device for installing an elastic sheet in a charger shell is characterized by comprising a frame (10), and a feeding component (20), a sheet loading component (30), a pressing component (40) and a pushing component (50) which are installed on the frame (10), wherein the pushing component (50) is provided with a base (51), a charger shell (70) which is required to install the elastic sheet (71) is placed on the base (51), a roll loading disc (21) is arranged on the feeding component (20), the roll loading disc (21) is used for providing the roll loading elastic sheet (71), the sheet loading component (30) is provided with a suction nozzle part (31), the suction nozzle part (31) is communicated with external air extraction equipment, so that the elastic sheet (71) is sucked and moves to a corresponding position in the charger shell (70), the pressing component (40) is provided with a pressing hammer (41), and the pressing hammer (41) presses down a part (31) which is moved into the charger shell (70), so that the suction nozzle part (31) sucked by the suction nozzle part (31) is pressed into the charger shell (70) to be installed in the charger shell (70).

2. An automatic device for mounting a spring plate in a charger shell according to claim 1, characterized in that the automatic device further comprises a cutter assembly (60), the cutter assembly (60) is provided with a cutter seat (61), a cutter part (62) and a displacement part (63), the cutter seat (61) is fixedly connected to the frame (10), and the cutter part (62) and the displacement part (63) are respectively fixedly connected to the cutter seat (61); the cutter part (62) is used for cutting off the coiled spring piece (71) into independent absorbable spring pieces (71), the displacement part (63) is used for carrying out displacement operation on the spring pieces (71), so that the spring pieces (71) move to corresponding positions, and the suction part (31) can absorb the spring pieces conveniently.

3. An automatic device for installing an elastic sheet in a charger shell according to claim 1, wherein the pushing assembly (50) is provided with a pushing guide rail (52), a pushing slide block (53), a joint bearing (54) and a pushing cylinder (55), the pushing guide rail (52) and the pushing cylinder (55) are fixedly connected to the frame (10), the pushing slide block (53) is slidably connected to the pushing guide rail (52), one end of the joint bearing (54) is fixedly connected to the pushing slide block (53), and the other end of the joint bearing is fixedly connected to a piston rod of the pushing cylinder (55), so that the pushing cylinder (55) drives the pushing slide block (53) to slide along the pushing guide rail (52) through the joint bearing (54).

4. An automatic device for mounting a spring plate in a charger shell according to claim 1, characterized in that the chip assembly (30) is provided with a supporting beam (32), a transverse sliding block (34) and a transverse air cylinder (35), the supporting beam (32) is fixedly connected to the frame (10) and is provided with a transverse guide rail (33), the transverse sliding block (34) is slidingly connected to the transverse guide rail (33), the transverse air cylinder (35) is fixedly connected to the transverse sliding block (34), and a piston rod of the transverse air cylinder (35) is fixedly connected to the supporting beam (32), so that the transverse air cylinder (35) drives the transverse sliding block (34) to slide along the transverse guide rail (33).

5. The automatic device for installing the spring plate in the charger shell according to claim 4, wherein the supporting beam (32) is further provided with a limit switch (36), and the limit switch (36) is fixedly connected to the supporting beam (32) and is used for limiting the moving position of the transverse sliding block (34).

6. The automatic device for installing the elastic sheet in the charger shell according to claim 4, wherein the sheet loading assembly (30) is further provided with a vertical guide rail (37), a vertical sliding block (38) and a vertical air cylinder (39), the vertical guide rail (37) and the vertical air cylinder (39) are fixedly connected to the transverse sliding block (34), the vertical sliding block (38) is slidingly connected to the vertical guide rail (37), a piston rod of the vertical air cylinder (39) is fixedly connected to the vertical sliding block (38), and the suction nozzle part (31) is fixedly connected to the vertical sliding block (38).

7. An automatic device for installing an elastic sheet in a charger shell according to claim 1, wherein the pressing component (40) is provided with a pressing cylinder (42), the pressing cylinder (42) is fixedly connected to the frame (10), and the pressing hammer head (41) is fixedly connected to a piston rod of the pressing cylinder (42), so that the pressing cylinder (42) drives the pressing hammer head (41) to move downwards, thereby performing a pressing operation on the suction nozzle part (31).

8. An automatic device for installing spring plates in a charger shell according to claim 1, characterized in that a paper receiving disc (22) and a paper receiving motor (23) are further arranged on the feeding assembly (20), the paper receiving motor (23) is fixedly connected to the frame (10), the paper receiving disc (22) is fixedly connected to a driving shaft of the paper receiving motor (23), and the paper receiving disc (22) is used for receiving packaging paper separated from the wound spring plates (71).

9. An automatic device for mounting a spring plate in a charger housing according to claim 1, wherein the pushing assembly (50) is further provided with a position sensor (56), and the position sensor (56) is fixedly connected to the frame (10) and is used for sensing the position of the base (51).