CN115503334B - Pattern transfer mechanism of waterborne microfiber leather - Google Patents

Abstract

The invention discloses a pattern transfer mechanism of water-based microfiber leather, which comprises a bottom plate, wherein a placing table for placing water-based microfiber leather pieces is fixed on the bottom plate, an L-shaped frame is fixed on the bottom plate, a mounting plate is connected to the L-shaped frame through a lifting assembly, a transfer assembly which is convenient for pattern transfer of the water-based microfiber leather pieces is arranged on the mounting plate, and a U-shaped frame is connected to the mounting plate through a guide assembly. According to the pattern transfer mechanism of the water-based microfiber leather, during transfer, in the process that the mounting plate is close to the bottom plate, one side of the two pressing plates is driven to perform longitudinal reciprocating motion and transverse mutual distant motion, and the pressing plates are propped against the water-based microfiber leather piece on the placing table at the moment, so that longitudinal and transverse folds on the water-based microfiber leather piece are smoothed through the longitudinal reciprocating motion and the transverse mutual distant motion of the two pressing plates, and transfer operation on the water-based microfiber leather piece is facilitated.

Description

Pattern transfer mechanism of waterborne microfiber leather

Technical Field

The invention relates to the technical field of processing of aqueous microfiber leather, in particular to a pattern transfer mechanism of aqueous microfiber leather.

Background

The water-based microfiber leather is totally called as superfine fiber synthetic leather, is also called as two-layer cowhide, is also called as two-layer film-transferring leather, is also called as split film-transferring leather, two-layer cowhide, film-transferring leather, split leather, film-covering cowhide, double-layer cowhide, two-layer composite cowhide and the like, and is called artificial leather with cowhide fiber in folk.

The superfine fiber synthetic leather is made up by using leftover material of first layer cowhide, breaking, adding nylon superfine fiber and polyurethane according to a certain proportion to form resin into leather pulp, then using mechanical calendaring method to make a piece of 'Pi Pei', then coating or adopting wet or dry coating process to make PU film, and the superfine fiber leather is the best regenerated leather, and its hand feeling is as soft as leather, and the superfine fiber leather belongs to a new developed high-grade leather in synthetic leather, and belongs to new leather category. The natural leather has the advantages of wear resistance, cold resistance, ventilation, aging resistance, soft texture, environment friendliness, attractive appearance, lower price than natural leather and the like, and becomes an ideal choice for replacing the natural leather.

In the processing process of the aqueous microfiber leather product, according to the requirements of actual products, related patterns are required to be pressed on the aqueous microfiber leather, the patterns on the existing aqueous microfiber leather are pressed against and extruded by a transfer printing press head and the aqueous microfiber leather in the pressing process, the patterns on the aqueous microfiber leather are pressed, but partial wrinkles are often generated at the positions of the patterns pressed by the transfer printing press head and the aqueous microfiber leather in the pressing process against and extruded by the aqueous microfiber leather, the effect of actually transferring the patterns of the aqueous microfiber leather is reduced, and the processing and the use of the aqueous microfiber leather are inconvenient.

Thus, there is a need for a pattern transfer mechanism for aqueous microfiber leather that addresses the above-described problems.

Disclosure of Invention

The invention aims to provide a pattern transfer mechanism of aqueous microfiber leather, which solves the problem that in the process of pressing the aqueous microfiber leather against a transfer pressure head, partial wrinkles often occur at the position of the pressed pattern of the aqueous microfiber leather, so that the effect of actually transferring the pattern of the aqueous microfiber leather is reduced.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a pattern transfer mechanism of waterborne microfiber leather, includes the bottom plate, be fixed with the platform of placing that is used for waterborne microfiber leather spare to place on the bottom plate, be fixed with L type frame on the bottom plate, be connected with the mounting panel through lifting unit on the L type frame, be provided with the transfer printing subassembly of the waterborne microfiber leather spare pattern transfer printing of being convenient for on the mounting panel, be connected with U type frame through guiding unit on the mounting panel, be connected with two slides through first coupling assembling on the U type frame, two be connected with the clamp plate through the second coupling assembling on the slide, be provided with the vertical trowelling subassembly and the horizontal trowelling subassembly that are used for two clamp plates to the vertical and horizontal trowelling of waterborne microfiber leather spare in-process on the mounting panel.

The vertical trowelling subassembly is including fixing two L templates in two clamp plates upper ends, the lower extreme of mounting panel is provided with two strip shaped plates, two be fixed with a plurality of extrusion archs on the strip shaped plate, first inclined plane has been seted up to the bellied upper and lower both sides of extrusion.

The transverse trowelling assembly comprises two rectangular plates fixed on the mounting plate, two strip-shaped plates are respectively fixed at the lower ends of the two rectangular plates, and two second inclined planes for extruding the L-shaped plates are formed in the rectangular plates.

The lifting assembly comprises a threaded rod which is rotatably connected to the L-shaped frame, the mounting plate and the threaded rod are meshed with each other, a guide rod is fixed to the L-shaped frame, the mounting plate is slidably connected to the guide rod, and a first motor for driving the threaded rod is mounted at the upper end of the L-shaped frame.

The transfer printing assembly comprises a plurality of round rods fixed on a mounting plate, each round rod is connected with an operation plate in a sliding mode, a transfer printing press head used for transfer printing is mounted at the lower end of each operation plate, the transfer printing press head is located above the two pressing plates, and a supporting assembly used for supporting the operation plate is arranged between each operation plate and the two pressing plates.

The upper end of the operation plate is provided with a plurality of balancing weights for pushing the operation plate.

The support assembly comprises a fixed plate fixed at the upper ends of two pressing plates, a support plate used for supporting an operation plate is fixed at the upper ends of the fixed plates, the two support plates are propped against the lower ends of the operation plate, and arc-shaped chamfers are formed on the two sides of the upper ends of the support plates.

The guide assembly comprises two first sleeves fixed at the lower end of the mounting plate, the two first sleeves are connected with first sliding rods in a sliding mode, and the other ends of the first sliding rods are fixed with the upper end of the U-shaped frame.

The first connecting assembly comprises a plurality of connecting rods fixed on the U-shaped frame, two sliding plates are connected to the two connecting rods in a sliding mode, and first springs are sleeved on the side walls of the two connecting rods.

The second connecting assembly comprises a second sleeve fixed on the sliding plate, a second sliding rod is connected to the second sleeve in a sliding mode, the other end of the second sliding rod is fixed to the pressing plate, two second springs are sleeved outside the second sleeve, and two ends of each second spring are connected with the sliding plate and the pressing plate respectively.

Compared with the prior art, the invention has the beneficial effects that:

according to the pattern transfer mechanism of the water-based microfiber leather, during transfer, in the process that the mounting plate is close to the bottom plate, one side of the two pressing plates is driven to perform longitudinal reciprocating motion and transverse mutual distant motion, and the pressing plates are propped against the water-based microfiber leather piece on the placing table at the moment, so that longitudinal and transverse folds on the water-based microfiber leather piece are smoothed through the longitudinal reciprocating motion and the transverse mutual distant motion of the two pressing plates, and transfer operation on the water-based microfiber leather piece is facilitated.

Drawings

FIG. 1 is a schematic diagram of the overall outline structure of the present invention;

FIG. 2 is a schematic view of the structure of the longitudinal trowelling assembly and the transverse trowelling assembly of the present invention;

FIG. 3 is a schematic view of a first connecting assembly and a second connecting assembly according to the present invention;

FIG. 4 is a schematic view of a lifting assembly and a guiding assembly according to the present invention;

FIG. 5 is an enlarged view of FIG. 2 at A;

FIG. 6 is an enlarged view at B in FIG. 3;

Fig. 7 is an enlarged view at C in fig. 4.

In the figure: 1. a bottom plate; 2. a placement table; 3. a water-based microfiber leather member; 4. an L-shaped frame; 5. a mounting plate; 601. a threaded rod; 602. a first motor; 603. a guide rod; 701. a round bar; 702. an operation panel; 703. balancing weight; 704. a transfer press head; 8. a U-shaped frame; 901. a first sleeve; 902. a first slide bar; 10. a slide plate; 1101. a connecting rod; 1102. a first spring; 12. a pressing plate; 1301. a second sleeve; 1302. a second slide bar; 1303. a second spring; 1401. an L-shaped plate; 1402. a strip-shaped plate; 1403. extruding the bulge; 1404. a first inclined surface; 1501. a rectangular plate; 1502. a second inclined surface; 1601. a fixing plate; 1602. a support plate; 1603. arc chamfering.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-7, the pattern transfer mechanism of the aqueous microfiber leather provided by the invention comprises a bottom plate 1, a placing table 2 for placing an aqueous microfiber leather piece 3 is fixed on the bottom plate 1, an L-shaped frame 4 is fixed on the bottom plate 1, a mounting plate 5 is connected on the L-shaped frame 4 through a lifting component, a transfer component which is convenient for pattern transfer of the aqueous microfiber leather piece 3 is arranged on the mounting plate 5, a U-shaped frame 8,U is connected on the mounting plate 5 through a guide component, two sliding plates 10 are connected through a first connecting component, two sliding plates 10 are connected with pressing plates 12 through a second connecting component, and a longitudinal trowelling component and a transverse trowelling component which are used for trowelling the aqueous microfiber leather piece 3 longitudinally and transversely by the two pressing plates 12 in the transfer process are arranged on the mounting plate 5.

The vertical trowelling component comprises two L-shaped plates 1401 fixed at the upper ends of the two pressing plates 12, the lower end of the mounting plate 5 is provided with two strip-shaped plates 1402, a plurality of extrusion protrusions 1403 are fixed on the two strip-shaped plates 1402, first inclined planes 1404 are arranged on the upper side and the lower side of the extrusion protrusions 1403, the horizontal trowelling component comprises two rectangular plates 1501 fixed on the mounting plate 5, the two strip-shaped plates 1402 are respectively fixed at the lower ends of the two rectangular plates 1501, second inclined planes 1502 for the extrusion of the L-shaped plates 1401 are arranged on the two rectangular plates 1501, in the moving process of the mounting plate 5, the U-shaped frames 8 are driven to synchronously move under the connecting action of the first sleeves 901 and the first sliding rods 902, the two pressing plates 12 on the U-shaped frames 8 are propped against the water-based microfiber leather pieces 3 on the placing table 2 to limit in the moving process of the U-shaped frames 8, at the moment, along with the continuing leaning of the mounting plate 5 to the moving toward the bottom plate 1 and the guiding action of the first sleeves 901 and the first sliding rods 902, the mounting plate 5 is moved towards the limited U-shaped frame 8, during the movement of the mounting plate 5 towards the U-shaped frame 8, the first inclined surfaces 1404 of the extrusion protrusions 1403 on the strip-shaped plates 1402 are sequentially interacted with one end of the L-shaped plates 1401 and the second springs 1303 on the second sleeves 1301 reset the extruded pressing plates 12, so that the two pressing plates 12 are stressed to longitudinally reciprocate, and along with the continuous movement of the mounting plate 5 towards the pressing plates 12, the two L-shaped plates 1401 are respectively propped against the second inclined surfaces 1502 on the two rectangular plates 1501, during the propping, the two sliding plates 10 and the pressing plates 12 are mutually separated and move through the interaction between the second inclined surfaces 1502 and the L-shaped plates 1401 and the guiding action of the connecting rods 1101 on the two sliding plates 10, therefore during the movement of the mounting plate 5 towards the pressing plates 12, through the transmission, make two clamp plates 12 one side carry out vertical reciprocating motion and horizontal mutual away from the motion, because of clamp plate 12 offsets with the waterborne microfiber leather spare 3 of placing on the platform 2 this moment, through two clamp plates 12 vertical reciprocating motion and horizontal mutual away from the motion, carry out trowelling to vertical and horizontal fold on the waterborne microfiber leather spare 3, be convenient for more carry out the transfer printing operation on the waterborne microfiber leather spare 3.

The lifting assembly comprises a threaded rod 601 which is rotationally connected to an L-shaped frame 4, a mounting plate 5 and the threaded rod 601 are arranged in a mutually meshed mode, a guide rod 603 is fixed to the L-shaped frame 4, the mounting plate 5 is slidably connected to the guide rod 603, a first motor 602 used for driving the threaded rod 601 is installed at the upper end of the L-shaped frame 4, the threaded rod 601 is driven to rotate through the first motor 602, and in the process of rotation of the threaded rod 601, the mounting plate 5 is enabled to be subjected to lifting motion under the force of the guide rod 603 through the mutually meshed transmission between the threaded rod 601 and the mounting plate 5.

The transfer printing assembly comprises a plurality of round bars 701 fixed on a mounting plate 5, each round bar 701 is connected with an operation plate 702 in a sliding manner, a transfer printing press head 704 used for transfer printing is arranged at the lower end of each round bar 701, the transfer printing press head 704 is located above two pressing plates 12, a supporting assembly used for supporting the operation plate 702 is arranged between the operation plate 702 and the two pressing plates 12, a plurality of balancing weights 703 used for pushing the operation plate 702 are arranged at the upper end of the operation plate 702, in the process of mutual separation movement of the two pressing plates 12 under stress, the two fixing plates 1601 and the supporting plates 1602 are driven to synchronously move through the movement of the two pressing plates 12, in the process of mutual separation movement of the two supporting plates 1602, the two supporting plates 1602 do not support the operation plate 702 any more, at this time, the operation plate 702 moves towards the water-based microfiber leather piece 3 on a placing table 2 under the guiding function of each round bar 701 and the pushing and extrusion function of the plurality of balancing weights 703, and in the process of movement, the transfer printing press head 704 on the operation plate 702 is enabled to abut against the water-based microfiber piece 3, and the water-based microfiber leather piece 3 is enabled to realize the transfer printing operation of the water-based microfiber piece 3.

The supporting component comprises fixing plates 1601 fixed at the upper ends of two pressing plates 12, supporting plates 1602 used for supporting the operation plates 702 are fixed at the upper ends of the two fixing plates 1601, the two supporting plates 1602 are propped against the lower ends of the operation plates 702, arc chamfers 1603 are formed at two sides of the upper ends of the two supporting plates 1602, in the process of carrying out pattern transfer printing operation on the aqueous microfiber leather pieces 3, the aqueous microfiber leather pieces 3 are placed on a placing table 2 on a bottom plate 1, at the moment, the transfer printing press heads 704 on the operation plates 702 are supported through the supporting plates 1602 on the two fixing plates 1601, the transfer printing press heads 704 on the operation plates 702 are prevented from being propped against the upper ends of the two pressing plates 12 directly through the supporting effect of the supporting plates 1602, transfer printing ink marks are prevented from being lost, after transfer printing is finished, the two sliding plates 10 and the pressing plates 12 are reset under the elastic effect of each first spring 1102, in the process of resetting the two pressing plates 12, the operation plates 702 are pushed upwards and propped against the lower ends of the operation plates 702 through the relative effect of the arc chamfers 1603 on the two supporting plates 1602.

The guide assembly comprises two first sleeves 901 fixed at the lower end of the mounting plate 5, the two first sleeves 901 are connected with first sliding rods 902 in a sliding manner, the other ends of the first sliding rods 902 are fixed with the upper end of the U-shaped frame 8, and lifting of the mounting plate 5 is guided through the first sleeves 901 and the first sliding rods 902.

The first connecting assembly comprises a plurality of connecting rods 1101 fixed on the U-shaped frame 8, two sliding plates 10 are slidably connected to the two connecting rods 1101, first springs 1102 are sleeved on the side walls of the two connecting rods 1101, the movement of the two sliding plates 10 after being stressed is guided through the connecting rods 1101, and the sliding plates 10 are pushed to reset conveniently through the first springs 1102.

The second connecting assembly comprises a second sleeve 1301 fixed on the sliding plate 10, a second sliding rod 1302 is connected to the second sleeve 1301 in a sliding way, the other ends of the second sliding rods 1302 are fixed with the pressing plate 12, second springs 1303 are sleeved outside the two second sleeves 1301, two ends of each second spring 1303 are respectively connected with the sliding plate 10 and the pressing plate 12, the movement of the pressing plate 12 after being stressed is guided through the second sleeve 1301 and the second sliding rod 1302, in the process of the movement of the pressing plate 12, each second spring 1303 is driven to deform under stress to generate elastic force, and the pressing plate 12 is pushed to reset after being stressed conveniently through the elastic force of each second spring 1303.

Working principle: in the process of carrying out pattern transfer printing operation on the aqueous microfiber leather piece 3, placing the aqueous microfiber leather piece 3 on a placing table 2 on a bottom plate 1, supporting a transfer printing press head 704 on an operation plate 702 through supporting plates 1602 on two fixing plates 1601, and avoiding loss of transfer printing ink marks caused by direct propping of the transfer printing press head 704 on the operation plate 702 against the upper ends of two pressing plates 12 through supporting action of the supporting plates 1602;

During transfer printing, the first motor 602 drives the threaded rod 601 to rotate, in the process of rotating the threaded rod 601, the threaded rod 601 and the mounting plate 5 are in meshed transmission and guide action of the guide rod 603, the mounting plate 5 is forced to move towards the bottom plate 1, in the process of moving the mounting plate 5, the U-shaped frame 8 is driven to synchronously move through the connection action of the first sleeves 901 and the first slide rods 902, in the process of moving the U-shaped frame 8, the two pressing plates 12 on the U-shaped frame 8 are enabled to abut against the water-based microfiber leather piece 3 on the placing table 2 to limit, at the moment, along with the continuous abutting of the mounting plate 5 against the bottom plate 1 and the guide action of the first sleeves 901 and the first slide rods 902, the mounting plate 5 is enabled to abut against the limited U-shaped frame 8, in the process of moving the mounting plate 5 against the U-shaped frame 8, the first inclined planes 1404 of the extrusion protrusions 1403 on the strip-shaped plate 1402 are sequentially interacted with one end of the L-shaped plate 1401 and the reset action of the second springs 1303 on the extrusion back 12, the two pressing plates 12 are enabled to longitudinally abut against the two pressing plates 12 along with the continuous abutting of the mounting plate 5 against the L-shaped plate 1401, the two sliding plates 12 are enabled to continuously move along with the two sliding plates 12 on the two sides of the L-shaped plate 1401, and the two sliding plates 12 are enabled to abut against the two sliding plates 12 on the two sliding plates 10 and the two sliding plates 12 to move along with the L-shaped plate 12, and the mutual sliding plate 12 is enabled to continuously and the mutual sliding plate 12 is far away from the opposite to move along with the L-shaped plate 12 through the mutual sliding plate 12, and is kept away from the mutual sliding plate 12, the longitudinal and transverse folds on the water-based microfiber leather piece 3 are smoothed through the longitudinal reciprocating motion and the transverse mutual away motion of the two pressing plates 12, so that transfer printing operation on the water-based microfiber leather piece 3 is facilitated;

In the process that the two pressing plates 12 are stressed to move away from each other, the two fixing plates 1601 and the supporting plates 1602 are driven to move synchronously through the movement of the two pressing plates 12, in the process that the two supporting plates 1602 move away from each other, the two supporting plates 1602 do not support the operating plate 702 any more, at this time, the operating plate 702 moves towards the water-based microfiber leather piece 3 on the placing table 2 under the guiding action of each round rod 701 and the pushing and extruding action of the plurality of balancing weights 703, in the process of movement, the transfer printing pressure head 704 on the operating plate 702 is propped against the water-based microfiber leather piece 3, the transfer printing operation on the water-based microfiber leather piece 3 is realized, after the transfer printing operation is finished, the mounting plate 5 is driven to reset through the lifting assembly, in the process that the mounting plate 5 is reset with the U-shaped frame 8, the two sliding plates 10 and the pressing plates 12 are reset under the elastic action of each first spring 1102, in the process that the two pressing plates 12 are reset, the supporting plates 1602 push the operating plate 1602 to prop against the operating plate 702 and prop up the lower end of the operating plate 702, and the supporting plate 702 is convenient to operate the upper end of the supporting plate 1602.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention 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 invention 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. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides a pattern transfer mechanism of waterborne microfiber leather, includes bottom plate (1), be fixed with on bottom plate (1) and be used for placing platform (2) that waterborne microfiber leather spare (3) were placed, its characterized in that: an L-shaped frame (4) is fixed on the bottom plate (1), a mounting plate (5) is connected to the L-shaped frame (4) through a lifting component, a transfer printing component which is convenient for transferring patterns of the water-based microfiber leather piece (3) is arranged on the mounting plate (5), a U-shaped frame (8) is connected to the mounting plate (5) through a guide component, two sliding plates (10) are connected to the U-shaped frame (8) through a first connecting component, pressing plates (12) are connected to the two sliding plates (10) through a second connecting component, and a longitudinal leveling component and a transverse leveling component which are used for leveling the water-based microfiber leather piece (3) longitudinally and transversely are arranged on the mounting plate (5) in the transfer printing process;

the longitudinal trowelling assembly comprises two L-shaped plates (1401) fixed at the upper ends of two pressing plates (12), two strip-shaped plates (1402) are arranged at the lower ends of the mounting plates (5), a plurality of extrusion protrusions (1403) are fixed on the two strip-shaped plates (1402), and first inclined planes (1404) are formed in the upper side and the lower side of the extrusion protrusions (1403);

the transverse trowelling assembly comprises two rectangular plates (1501) fixed on a mounting plate (5), two strip-shaped plates (1402) are respectively fixed at the lower ends of the two rectangular plates (1501), and second inclined planes (1502) for extrusion of an L-shaped plate (1401) are formed in the two rectangular plates (1501).

2. The pattern transfer mechanism of aqueous microfiber leather according to claim 1, wherein: the lifting assembly comprises a threaded rod (601) which is rotatably connected to an L-shaped frame (4), the mounting plate (5) and the threaded rod (601) are meshed with each other, a guide rod (603) is fixed to the L-shaped frame (4), the mounting plate (5) is slidably connected to the guide rod (603), and a first motor (602) used for driving the threaded rod (601) is mounted at the upper end of the L-shaped frame (4).

3. The pattern transfer mechanism of aqueous microfiber leather according to claim 2, wherein: the transfer printing assembly comprises a plurality of round rods (701) fixed on a mounting plate (5), each round rod (701) is connected with an operation plate (702) in a sliding mode, a transfer printing press head (704) used for transfer printing is mounted at the lower end of each operation plate (702), the transfer printing press head (704) is located above two pressing plates (12), and a supporting assembly used for supporting the operation plate (702) is arranged between each operation plate (702) and the two pressing plates (12).

4. The pattern transfer mechanism of aqueous microfiber leather according to claim 3, wherein: the upper end of the operation plate (702) is provided with a plurality of balancing weights (703) for pushing the operation plate (702).

5. The pattern transfer mechanism of aqueous microfiber leather according to claim 4, wherein: the support assembly comprises fixing plates (1601) fixed at the upper ends of two pressing plates (12), support plates (1602) used for supporting an operation plate (702) are fixed at the upper ends of the two fixing plates (1601), the two support plates (1602) are propped against the lower ends of the operation plate (702), and arc-shaped chamfers (1603) are formed in the two sides of the upper ends of the two support plates (1602).

6. The pattern transfer mechanism of aqueous microfiber leather according to claim 5, wherein: the guide assembly comprises two first sleeves (901) fixed at the lower ends of the mounting plates (5), first sliding rods (902) are connected to the two first sleeves (901) in a sliding mode, and the other ends of the first sliding rods (902) are fixed with the upper ends of the U-shaped frames (8).

7. The pattern transfer mechanism of aqueous microfiber leather according to claim 6, wherein: the first connecting assembly comprises a plurality of connecting rods (1101) fixed on the U-shaped frame (8), two sliding plates (10) are connected to the two connecting rods (1101) in a sliding mode, and first springs (1102) are sleeved on the side walls of the two connecting rods (1101).

8. The pattern transfer mechanism of aqueous microfiber leather according to claim 7, wherein: the second connecting assembly comprises a second sleeve (1301) fixed on the sliding plate (10), a second sliding rod (1302) is connected to the second sleeve (1301) in a sliding mode, the other end of the second sliding rod (1302) is fixed to the pressing plate (12), a second spring (1303) is sleeved outside the second sleeve (1301), and two ends of the second spring (1303) are connected with the sliding plate (10) and the pressing plate (12) respectively.