CN114523222B - Mold rod machining device - Google Patents

Abstract

The invention discloses a mold rod machining device which comprises a driving assembly, a first clamping device and a second clamping device, wherein the driving assembly comprises a bottom plate, pushing pieces, extrusion pieces, first contact pieces and second contact pieces; and the pressure bearing assembly is arranged on the bottom plate and comprises a first fixing plate, a first transmission piece, a first receiving piece, a second fixing plate, a second transmission piece, a second receiving piece and a limiting piece. According to the invention, through the matching between the driving assembly and the pressure-bearing assembly, when the mould rod is hoisted on the device by the crane, the clamping operation can be automatically carried out through the self weight of the crane, manual clamping again is not needed, and the installation is more stable.

Description

Mold rod machining device

Technical Field

The invention relates to the technical field of die rod processing, in particular to a die rod processing device.

Background

In the production process of special gas storage cylinders such as acetylene gas cylinder or oxygen cylinder, need use the mould pole to operate it, this kind of mould pole needs to handle its surface with laser in the course of working, and the weight of mould pole is generally all about a ton, mould pole among the prior art is generally placed it on the anchor clamps platform through modes such as loop wheel machine in the course of working, the rethread is artifical presss from both sides it tightly, in-process that presss from both sides tightly needs the loop wheel machine to last the work, this kind of mode is operated very loaded down with trivial details, and certain potential safety hazard has.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and the title of the invention of this application, simplifications or omissions may be made to avoid obscuring the purpose of the section, the abstract and the title, and such simplifications or omissions are not intended to limit the scope of the invention.

The present invention has been made in view of the above and/or other problems occurring in the conventional die-rod processing apparatus.

Therefore, the problem to be solved by the invention is that the mold rod in the prior art is generally placed on the clamp table in a manner of a crane and the like in the machining process, and then is clamped manually, and the crane needs to work continuously in the clamping process, so that the operation is very complicated and certain potential safety hazards are caused.

In order to solve the technical problems, the invention provides the following technical scheme: a die rod machining device comprises a driving assembly, a first driving assembly and a second driving assembly, wherein the driving assembly comprises a bottom plate, a pushing piece, an extrusion piece, a first touch piece and a second touch piece, the pushing piece is fixed to the top of the bottom plate, the extrusion piece is arranged on the periphery of the pushing piece, the first touch piece is arranged on two sides of the top of the bottom plate, and the second touch piece is arranged on the other two sides of the top of the bottom plate; and the pressure-bearing assembly is arranged on the bottom plate and comprises a first fixing plate, a first transmission piece, a first receiving piece, a second fixing plate, a second transmission piece, a second receiving piece and a limiting piece, wherein the first fixing plate is fixed on two sides of the top of the bottom plate, the second fixing plate is fixed on the other two sides of the top of the bottom plate, the first transmission piece is arranged on the first transmission piece, the second transmission piece is arranged on the inner side of the second fixing plate, the second receiving piece is arranged on the second transmission piece, and the limiting piece is positioned on the second receiving piece.

As a preferable aspect of the die-pin processing apparatus of the present invention, wherein: the pushing piece comprises a fixing box, a push plate and a stress plate, the fixing box is fixed to the top of the bottom plate, the push plate slides in the fixing box, and the stress plate is fixed to the top of the push plate and located above the fixing box.

As a preferable aspect of the die-pin processing apparatus of the present invention, wherein: the extruded article includes rubber slab, deflector and reset spring, the rubber slab is fixed in the push pedal is all around, the through-hole has been seted up on the fixed case, the rubber slab is located in the through-hole, the deflector install in the fixed case outside, and its bottom with the rubber slab contact, reset spring both ends respectively with the push pedal with the bottom plate is fixed.

As a preferable aspect of the die-pin processing apparatus of the present invention, wherein: the first touch piece comprises a first movable plate, a first toothed plate, a first limiting block, a fixed block and a first spring, the first movable plate slides on two sides of the bottom plate, the first toothed plate is fixed to the top of the first movable plate, the first limiting block is fixed to the top of the bottom plate and located on two sides of the first movable plate, a limiting groove is formed in the side face of the first movable plate, the first limiting block slides in the limiting groove, the fixed block is fixed to two sides of the first movable plate, and two ends of the first spring are fixed to the first limiting block and the fixed block respectively.

As a preferable aspect of the die-pin processing apparatus of the present invention, wherein: the second touch part comprises a second movable plate, a second limiting block, a second toothed plate and a second spring, the second movable plate slides on two sides of the top of the bottom plate, a sliding hole is formed in the middle of the second movable plate, the second limiting block slides in the sliding hole, the bottom of the second limiting block is fixed to the bottom plate, the second toothed plate is fixed to the top of the second movable plate, and two ends of the second spring are fixed to the second limiting block and the inner wall of the sliding hole respectively.

As a preferable aspect of the die-pin processing apparatus of the present invention, wherein: the first transmission piece comprises a connecting rod, a first gear, a second gear and a third toothed plate, the connecting rod is rotatably connected to the inner side of the first fixing plate, the first gear is fixed on the connecting rod and meshed with the first toothed plate, the second gear is fixed on the connecting rod and located on two sides of the first gear, and the third toothed plate slides on the first fixing plate and is meshed with the second gear.

As a preferable aspect of the die-pin processing apparatus of the present invention, wherein: first receiving piece is including receiving board, gyro wheel and gusset plate, it is fixed in to receive the board the third pinion rack is inboard, and the mounting hole has been seted up at its middle part, the gyro wheel rotate connect in the mounting hole, the gusset plate is fixed in the third pinion rack top, and the side with it is fixed to receive the board.

As a preferable aspect of the die-pin processing apparatus of the present invention, wherein: the second transmission part comprises a rotating rod, a third gear and a fourth toothed plate, the rotating rod is rotatably connected to the inner side of the second fixing plate, the third gear is fixed on the rotating rod and meshed with the second toothed plate, and the fourth toothed plate slides on the second fixing plate and is meshed with the third gear.

As a preferable aspect of the die-pin processing apparatus of the present invention, wherein: the second receiving piece comprises a baffle, a movable disc, a fixed rod, a third spring and a bearing plate, the baffle is fixed to the top of the fourth toothed plate, the movable disc slides to the top of the fourth toothed plate, the fixed rod is fixed to the side face of the movable disc, one end of the fixed rod is located on the outer side of the baffle, two ends of the third spring are respectively fixed to the baffle and the movable disc, and the bearing plate is fixed to the bottom of the inner side of the movable disc.

As a preferable aspect of the die-pin processing apparatus of the present invention, wherein: the locating part includes fourth gear, spacing pinion rack, spacing tooth, trigger lever and fourth spring, fourth gear rotate connect in the floating collar bottom, spacing pinion rack is fixed in fourth pinion rack top, and with fourth gear engagement, spacing tooth set up in the bearing plate below, the trigger lever is fixed in spacing tooth top, and extend to the bearing plate top, the fourth spring both ends respectively with the bearing plate with spacing tooth is fixed.

The invention has the beneficial effects that: according to the invention, through the matching between the driving assembly and the pressure-bearing assembly, when the mould rod is hoisted on the device by the crane, the clamping operation can be automatically carried out through the self weight of the crane, manual clamping again is not needed, and the installation is more stable.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:

fig. 1 is an overall configuration diagram of a die-pin processing apparatus.

FIG. 2 is a view showing the structure of a pusher of the die-pin processing apparatus.

Fig. 3 is another perspective view of the drive assembly of the die rod tooling apparatus.

Fig. 4 is a connection structure diagram of the first transmission member and the first receiving member of the mold rod processing device.

Fig. 5 is a connection structure diagram of the second transmission member and the second receiving member of the mold rod processing device.

Fig. 6 is a stopper structure diagram of the mold pin processing apparatus.

Fig. 7 is another perspective view of the driving member of the die-pin processing apparatus.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1, a first embodiment of the present invention provides a die rod processing apparatus, which includes a driving assembly 100 and a pressure-bearing assembly 200, and the cooperation between the driving assembly and the pressure-bearing assembly can achieve the clamping and locking effect by the gravity of the die rod itself, without manual clamping by workers, thereby greatly improving the working efficiency.

Specifically, the driving assembly 100 includes a bottom plate 101, a pushing member 102, an extrusion member 103, a first touching member 104 and a second touching member 105, wherein the pushing member 102 is fixed on the top of the bottom plate 101, the extrusion member 103 is disposed around the pushing member 102, the first touching member 104 is disposed on two sides of the top of the bottom plate 101, and the second touching member 105 is disposed on the other two sides of the top of the bottom plate 101.

The bottom plate 101 is used to support the whole device, and when the mold rod is placed on the pushing member 102 and the extruding member 103, the extruding member 103 can drive the first touching member 104 and the second touching member 105 to move.

The bearing assembly 200 is disposed on the bottom plate 101, and includes a first fixing plate 201, a first transmission member 202, a first receiving member 203, a second fixing plate 204, a second transmission member 205, a second receiving member 206, and a limiting member 207, wherein the first fixing plate 201 is fixed to two sides of the top of the bottom plate 101, the second fixing plate 204 is fixed to the other two sides of the top of the bottom plate 101, the first transmission member 202 is disposed on the first transmission member 202, the second transmission member 205 is disposed inside the second fixing plate 204, the second receiving member 206 is disposed on the second transmission member 205, and the limiting member 207 is disposed on the second receiving member 206.

The first fixing plate 201 and the second fixing plate 204 are both U-shaped, the four fixing plates are fixed on the bottom plate 101 in a rectangular shape and are symmetrically distributed with each other, when the first trigger 104 moves, the first trigger 202 and the first receiving member 203 are driven to move, the side surface of the mold rod is supported by the first receiving member 203, meanwhile, when the second trigger 105 moves, the second trigger 105 drives the second transmission member 205 and the second receiving member 206 to move, the two ends of the mold rod are supported, the second receiving member 206 has a telescopic effect, so that the mold rod can adapt to mold rods with different sizes, and when the mold rod is completely placed on the device, the mold rod drives the limiting member 207 to limit the second receiving member 206, so that the mold rod is more stable.

Example 2

Referring to fig. 1 to 5, there is shown a second embodiment of the present invention, which is based on the previous embodiment.

Specifically, the pushing member 102 includes a fixed box 102a, a push plate 102b and a force-bearing plate 102c, the fixed box 102a is fixed on the top of the bottom plate 101, the push plate 102b slides in the fixed box 102a, and the force-bearing plate 102c is fixed on the top of the push plate 102b and is located above the fixed box 102 a.

The fixed box 102a and the push plate 102b are both rectangular, the push plate 102b slides in the fixed box 102a, the stress plate 102c is semicircular, the radian of the top of the stress plate is matched with the mold rod, the mold rod can be just placed on the top of the stress plate 102c through a crane, and the stress plate 102c and the push plate 102b are driven to move downwards.

The extrusion piece 103 comprises a rubber plate 103a, a guide plate 103b and a return spring 103c, the rubber plate 103a is fixed around the push plate 102b, a through hole S is formed in the fixing box 102a, the rubber plate 103a is located in the through hole S, the guide plate 103b is installed on the outer side of the fixing box 102a, the bottom of the guide plate is in contact with the rubber plate 103a, and two ends of the return spring 103c are fixed with the push plate 102b and the bottom plate 101 respectively.

The rubber plate 103a extends outwards from the through hole S, protruding plates are fixed on two sides of the push plate 102b and located at the top of the rubber plate 103a, and are used for preventing the push plate 102b from being separated from the fixing box 102a, when the push plate 102b is pressed by the mold rod to move downwards, the rubber plate 103a is extruded by the rubber plate to extend outwards, and at the moment, the rubber plate 103a is limited and guided by the guide plate 103b, so that the rubber plate 103a can move along the horizontal direction, the deviation of the rubber plate in the moving process is avoided, when the mold rod is taken out from the stress plate 102c, the push plate 102b is pushed upwards through the reset spring 103c, and the reset is more convenient.

The first triggering part 104 includes a first movable plate 104a, a first toothed plate 104b, a first limiting block 104c, a fixed block 104d and a first spring 104e, the first movable plate 104a slides on two sides of the bottom plate 101, the first toothed plate 104b is fixed to the top of the first movable plate 104a, the first limiting block 104c is fixed to the top of the bottom plate 101 and located on two sides of the first movable plate 104a, a limiting groove L is formed in a side surface of the first movable plate 104a, the first limiting block 104c slides in the limiting groove L, the fixed block 104d is fixed to two sides of the first movable plate 104a, and two ends of the first spring 104e are respectively fixed to the first limiting block 104c and the fixed block 104 d.

The first movable plate 104a is rectangular, the first limiting block 104c is L-shaped, and slides in the limiting groove L to limit the first movable plate 104a, so that the first movable plate is prevented from shifting in the process of moving left and right, when the rubber plate 103a is extruded to extend outwards, the end of the rubber plate is in contact with the first movable plate 104a, so that the rubber plate is pushed to move, and when the rubber plate 103a contracts, the fixing block 104d and the first movable plate 104a are pushed by the first spring 104e to reset, so that subsequent use is facilitated.

The second touch member 105 includes a second movable plate 105a, a second stopper 105b, a second gear 105c and a second spring 105d, the second movable plate 105a slides on two sides of the top of the bottom plate 101, a sliding hole K is formed in the middle of the second movable plate 105a, the second stopper 105b slides in the sliding hole K, the bottom of the second stopper is fixed to the bottom plate 101, the second gear 105c is fixed to the top of the second movable plate 105a, and two ends of the second spring 105d are fixed to the second stopper 105b and the inner wall of the sliding hole K, respectively.

The second movable plate 105a is rectangular, the second limiting block 105b is U-shaped, and slides in the sliding hole K to limit the second movable plate 105a, so as to prevent the second movable plate 105a from shifting in the process of moving left and right, the rubber plate 103a can drive the second movable plate 105a to move when moving, and when the rubber plate 103a contracts, the second movable plate 105a can be pushed to reset through the second spring 105 d.

Example 3

Referring to fig. 2 to 7, there is shown a third embodiment of the present invention, which is based on the first two embodiments.

Specifically, the first transmission member 202 includes a connection rod 202a, a first gear 202b, a second gear 202c and a third toothed plate 202d, the connection rod 202a is rotatably connected to the inner side of the first fixing plate 201, the first gear 202b is fixed on the connection rod 202a and is engaged with the first toothed plate 104b, the second gear 202c is fixed on the connection rod 202a and is located at two sides of the first gear 202b, and the third toothed plate 202d slides on the first fixing plate 201 and is engaged with the second gear 202 c.

The connecting rod 202a is rotatably connected to the inner side of the first fixing plate 201 through bearings and the like, the diameter of the first gear 202b is larger than that of the second gear 202c, a rectangular hole is formed in the middle of the third toothed plate 202d, the third toothed plate slides on the first fixing plate 201, a limiting strip is fixed to the top of the first fixing plate 201 and located on two sides of the third toothed plate 202d, the limiting strip is used for limiting the third toothed plate 202d, the third toothed plate 202d is prevented from being deviated in the moving process, when the first movable plate 104a is extruded by the rubber plate 103a to move outwards, the first toothed plate 104b drives the first gear 202b to rotate, the first gear 202b and the connecting rod 202a drive the second gear 202c to rotate, and the third toothed plate 202d can be driven to move inwards through the rotation of the second gear 202 c.

The first receiving member 203 includes a receiving plate 203a, a roller 203b and a reinforcing plate 203c, the receiving plate 203a is fixed to the inner side of the third toothed plate 202d, a mounting hole M is formed in the middle of the receiving plate, the roller 203b is rotatably connected to the mounting hole M, the reinforcing plate 203c is fixed to the top of the third toothed plate 202d, and the side surface of the reinforcing plate is fixed to the receiving plate 203 a.

The bearing plate 203a is arc-shaped, when the bearing plate 203a moves inwards along with the third toothed plate 202d, the top of the bearing plate can be matched with the surface of a mold rod, and the bearing plate 203a is arranged on two sides of the mold rod in a pairwise symmetry manner, so that the mold rod can be more effectively supported, the rollers 203b are provided with a plurality of rollers, when the mold rod is installed, the rollers 203b are in surface contact with the mold rod, so that the rotation of the rollers is facilitated, a driving piece can be added to the outer side of the bearing plate 203a, the rollers 203b are used for driving one of the rollers 203b to rotate, so that the mold rod can rotate in the processing process, the strength of the bearing plate 203a is improved through the reinforcing plate 203c, the bearing plate can bear larger weight, and the occurrence of the conditions of breakage and the like is avoided.

The second transmission member 205 includes a rotating rod 205a, a third gear 205b and a fourth tooth plate 205c, the rotating rod 205a is rotatably connected to the inner side of the second fixing plate 204, the third gear 205b is fixed on the rotating rod 205a and is engaged with the second tooth plate 105c, and the fourth tooth plate 205c slides on the second fixing plate 204 and is engaged with the third gear 205 b.

The rotating rod 205a is rotatably connected to the inner side of the second fixed plate 204 through a bearing and the like, when the second movable plate 105a is pushed outwards by the rubber plate 103a, the second toothed plate 105c drives the third gear 205b to rotate, the fourth toothed plate 205c can be driven to move inwards through the third gear 205b, and the top of the second fixed plate 204 and the two sides of the fourth toothed plate 205c are both fixed with a limiting strip for limiting the fourth toothed plate 205c, so that the fourth toothed plate 205c is prevented from shifting in the process of moving left and right.

The second bearing component 206 includes a blocking plate 206a, a movable disc 206b, a fixed rod 206c, a third spring 206d and a bearing plate 206e, the blocking plate 206a is fixed at the top of the fourth toothed plate 205c, the movable disc 206b slides at the top of the fourth toothed plate 205c, the fixed rod 206c is fixed with the side of the movable disc 206b, one end of the fixed rod is located at the outer side of the blocking plate 206a, two ends of the third spring 206d are fixed with the blocking plate 206a and the movable disc 206b, respectively, and the bearing plate 206e is fixed at the bottom of the inner side of the movable disc 206 b.

The baffle 206a is rectangular, the movable disc 206b is annular, the top of the inner side of the baffle is inclined, when the mold rods move downwards, the mold rods push the movable disc 206b outwards from the inclined position of the movable disc 206b, at the moment, the movable disc 206b is limited through the fixing rod 206c, the movable disc 206b is pushed outwards through the third spring 206d, when the mold rods move to the top of the bearing plate 206e, the movable discs 206b at the two ends of the mold rods can move inwards at the same time, the mold rods are clamped and fixed, meanwhile, sliding rails are fixed on the two sides of the top of the fourth toothed plate 205c, sliding blocks are fixed on the two sides of the movable disc 206b, the movable disc 206b is limited through the sliding blocks and the sliding rails, and the movable disc is prevented from being deviated in the left-right moving process.

The limiting member 207 includes a fourth gear 207a, a limiting toothed plate 207b, a limiting tooth 207c, a trigger rod 207d and a fourth spring 207e, the fourth gear 207a is rotatably connected to the bottom of the movable plate 206b, the limiting toothed plate 207b is fixed to the top of the fourth toothed plate 205c and is engaged with the fourth gear 207a, the limiting tooth 207c is disposed below the bearing plate 206e, the trigger rod 207d is fixed to the top of the limiting tooth 207c and extends to the upper side of the bearing plate 206e, and two ends of the fourth spring 207e are respectively fixed to the bearing plate 206e and the limiting tooth 207 c.

The limit teeth 207c are arc-shaped, and the teeth of the limit teeth are opposite to the fourth gear 207a, when the mold rod is placed on the bearing plate 206e, that is, the installation position of the mold rod is fixed, at this time, the trigger rod 207d is pushed downwards through the mold rod, so that the limit teeth 207c are meshed with the fourth gear 207a, the fourth gear 207a cannot rotate, and the fourth gear 207a is meshed with the limit toothed plate 207b, so that the fourth gear 207a cannot move left and right after the fourth gear 207a cannot rotate, that is, the fourth gear 207a and the movable disc 206b can be limited, so that the movable disc 206b cannot move left and right in the clamping process, and the clamping stability of the mold rod is prevented from being hindered.

When the device is used, when the mold rod needs to be installed on the device, the crane lifts the mold rod, the mold rod is placed on the stress plate 102c, the stress plate 102c and the push plate 102b are pressed downwards by the self gravity of the mold rod, the rubber plate 103a is pressed by the push plate 102b to extend outwards, the first movable plate 104a and the second movable plate 105a are pushed by the rubber plate 103a to move outwards at the same time, then the first gear 202b is driven to rotate by the first movable plate 104a and the first toothed plate 104b, the second gear 202c is driven to rotate by the first gear 202b and the connecting rod 202a, namely, the third toothed plate 202d is driven to move inwards by the rotation of the second gear 202c, so that the bearing plate 203a moves to contact with the bottom of the mold rod along with the third toothed plate 202d, the mold rod is supported by the bearing plate 203a, and meanwhile, the second movable plate 105a is pushed to move outwards by the rubber plates 103a on the other two sides, the second movable plate 105a and the second gear plate 105c drive the third gear 205b to rotate, that is, the fourth toothed plate 205c is driven to move inwards by the third gear 205b, the mold rod continuously moves downwards in the process that the movable plate 206b contacts with the mold rod, and the movable plate 206b is pushed to move outwards, so that the distance between the two movable plates 206b adapts to the length of the mold rod, and the mold rod is clamped, when the mold rod moves downwards to the bearing plate 206e, the installation position of the mold rod is fixed, at this time, the trigger rod 207d is pushed downwards by the mold rod, so that the limit tooth 207c is engaged with the fourth gear 207a, the fourth gear 207a cannot rotate, because the fourth gear 207a is engaged with the limit toothed plate 207b, the fourth gear 207a cannot move left and right after rotation, that the fourth gear 207a and the movable plate 206b can be limited, so that the movable plate 206b cannot move left and right in the clamping process, and the clamping stability of the mold rod is prevented from being hindered, the installation is completed at the moment, the die rods can be clamped through the gravity of the die rods only by hoisting the die rods by a crane and then placing the die rods on the device in the whole process, manual clamping operation is not needed again, and the processing efficiency is greatly improved; after the mold rod is machined, the crane lifts the mold rod upwards again, the stress plate 102c and the push plate 102b lose stress at the moment, the push plate 102b is pushed upwards through the return spring 103c, the rubber plate 103a is driven to be recycled inwards through the push plate 102b, the first movable plate 104a and the second movable plate 105a lose thrust at the moment, the fixed block 104d and the first movable plate 104a are pushed to move in opposite directions through the first spring 104e, the third toothed plate 202d and the bearing plate 203a can be driven to move outwards to be separated from the mold rod, meanwhile, the second movable plate 105a is pushed to move inwards through the second spring 105d, the fourth toothed plate 205c can move outwards until the movable disc 206b is separated from the mold rod, and the machined mold rod can be taken out.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (1)

1. The utility model provides a mould pole processingequipment which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the driving assembly (100) comprises a bottom plate (101), a pushing piece (102), an extrusion piece (103), a first touch piece (104) and a second touch piece (105), wherein the pushing piece (102) is fixed on the top of the bottom plate (101), the extrusion piece (103) is arranged on the periphery of the pushing piece (102), the first touch piece (104) is arranged on two sides of the top of the bottom plate (101), and the second touch piece (105) is arranged on the other two sides of the top of the bottom plate (101); and

the pressure bearing assembly (200) is arranged on the bottom plate (101) and comprises a first fixing plate (201), a first transmission piece (202), a first receiving piece (203), a second fixing plate (204), a second transmission piece (205), a second receiving piece (206) and a limiting piece (207), the first fixing plate (201) is fixed on two sides of the top of the bottom plate (101), the second fixing plate (204) is fixed on the other two sides of the top of the bottom plate (101), the first transmission piece (202) is arranged on the first transmission piece (202), the second transmission piece (205) is arranged on the inner side of the second fixing plate (204), the second receiving piece (206) is arranged on the second transmission piece (205), and the limiting piece (207) is positioned on the second receiving piece (206);

the pushing member (102) comprises a fixed box (102 a), a push plate (102 b) and a stress plate (102 c), the fixed box (102 a) is fixed at the top of the bottom plate (101), the push plate (102 b) slides in the fixed box (102 a), and the stress plate (102 c) is fixed at the top of the push plate (102 b) and is positioned above the fixed box (102 a);

the extrusion part (103) comprises a rubber plate (103 a), a guide plate (103 b) and a return spring (103 c), the rubber plate (103 a) is fixed on the periphery of the push plate (102 b), a through hole (S) is formed in the fixed box (102 a), the rubber plate (103 a) is positioned in the through hole (S), the guide plate (103 b) is installed on the outer side of the fixed box (102 a), the bottom of the guide plate is in contact with the rubber plate (103 a), and two ends of the return spring (103 c) are respectively fixed with the push plate (102 b) and the bottom plate (101);

the first touch part (104) comprises a first movable plate (104 a), a first toothed plate (104 b), a first limit block (104 c), a fixed block (104 d) and a first spring (104 e), the first movable plate (104 a) slides on two sides of the bottom plate (101), the first toothed plate (104 b) is fixed with the top of the first movable plate (104 a), the first limit block (104 c) is fixed on the top of the bottom plate (101) and located on two sides of the first movable plate (104 a), a limit groove (L) is formed in the side surface of the first movable plate (104 a), the first limit block (104 c) slides in the limit groove (L), the fixed block (104 d) is fixed with two sides of the first movable plate (104 a), and two ends of the first spring (104 e) are respectively fixed with the first limit block (104 c) and the fixed block (104 d);

the second touch part (105) comprises a second movable plate (105 a), a second limit block (105 b), a second toothed plate (105 c) and a second spring (105 d), the second movable plate (105 a) slides on two sides of the top of the bottom plate (101), a sliding hole (K) is formed in the middle of the second movable plate, the second limit block (105 b) slides in the sliding hole (K), the bottom of the second limit block (105 b) is fixed with the bottom plate (101), the second toothed plate (105 c) is fixed on the top of the second movable plate (105 a), and two ends of the second spring (105 d) are respectively fixed with the second limit block (105 b) and the inner wall of the sliding hole (K);

the first transmission member (202) comprises a connecting rod (202 a), a first gear (202 b), a second gear (202 c) and a third toothed plate (202 d), the connecting rod (202 a) is rotatably connected to the inner side of the first fixing plate (201), the first gear (202 b) is fixed on the connecting rod (202 a) and is meshed with the first toothed plate (104 b), the second gear (202 c) is fixed on the connecting rod (202 a) and is positioned at two sides of the first gear (202 b), and the third toothed plate (202 d) slides on the first fixing plate (201) and is meshed with the second gear (202 c);

the first bearing piece (203) comprises a bearing plate (203 a), a roller (203 b) and a reinforcing plate (203 c), the bearing plate (203 a) is fixed on the inner side of the third toothed plate (202 d), the middle of the bearing plate is provided with a mounting hole (M), the roller (203 b) is rotatably connected in the mounting hole (M), the reinforcing plate (203 c) is fixed on the top of the third toothed plate (202 d), and the side surface of the reinforcing plate is fixed with the bearing plate (203 a);

the second transmission member (205) comprises a rotating rod (205 a), a third gear (205 b) and a fourth toothed plate (205 c), the rotating rod (205 a) is rotatably connected to the inner side of the second fixing plate (204), the third gear (205 b) is fixed on the rotating rod (205 a) and is meshed with the second toothed plate (105 c), and the fourth toothed plate (205 c) slides on the second fixing plate (204) and is meshed with the third gear (205 b);

the second bearing piece (206) comprises a baffle plate (206 a), a movable disc (206 b), a fixed rod (206 c), a third spring (206 d) and a bearing plate (206 e), the baffle plate (206 a) is fixed to the top of the fourth toothed plate (205 c), the movable disc (206 b) slides on the top of the fourth toothed plate (205 c), the fixed rod (206 c) is fixed to the side face of the movable disc (206 b), one end of the fixed rod is located on the outer side of the baffle plate (206 a), two ends of the third spring (206 d) are respectively fixed to the baffle plate (206 a) and the movable disc (206 b), and the bearing plate (206 e) is fixed to the bottom of the inner side of the movable disc (206 b);

the stopper (207) comprises a fourth gear (207 a), a limiting toothed plate (207 b), limiting teeth (207 c), a trigger rod (207 d) and a fourth spring (207 e), the fourth gear (207 a) is rotatably connected to the bottom of the movable disc (206 b), the limiting toothed plate (207 b) is fixed to the top of the fourth toothed plate (205 c) and meshed with the fourth gear (207 a), the limiting teeth (207 c) are arranged below the bearing plate (206 e), the trigger rod (207 d) is fixed to the top of the limiting teeth (207 c) and extends to the upper side of the bearing plate (206 e), and two ends of the fourth spring (207 e) are fixed to the bearing plate (206 e) and the limiting teeth (207 c) respectively.

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