CN114803659A

CN114803659A - High-efficiency belt production equipment and production process thereof

Info

Publication number: CN114803659A
Application number: CN202210495358.0A
Authority: CN
Inventors: 陈刚
Original assignee: Individual
Current assignee: Jiangsu Kemei New Materials Co ltd
Priority date: 2022-05-07
Filing date: 2022-05-07
Publication date: 2022-07-29
Anticipated expiration: 2042-05-07
Also published as: CN114803659B

Abstract

The invention discloses high-efficiency belt production equipment which comprises an L-shaped main frame, wherein a belt roll is arranged on the L-shaped main frame, an L-shaped connecting frame and a vertical mounting plate are arranged on two sides of the belt roll, a fixed clamping seat and a T-shaped guide rail are arranged on the front end wall of the vertical mounting plate, a movable clamping seat is arranged on the T-shaped guide rail in a sliding mode, a belt driving mechanism is arranged on the horizontal part of the L-shaped connecting frame, and the belt driving mechanism drives the movable clamping seat to pull the belt roll and cut the belt roll. The invention has the advantages that: this equipment is in the same place the ingenious combination of the ejection of compact cutting process of belt and the process of punching, and the activity grip slipper is when the tight belt book ejection of compact of clamp, and the hole puncher can press the belt automatically through the transmission on the atress board that punches to the activity grip slipper can cut the belt book when dropping to the minimum, convenient and fast, in addition, the activity grip slipper is when rising to reset, and the hole puncher can make the belt shake clear away the waste material in the hole site, and degree of automation is high.

Description

High-efficiency belt production equipment and production process thereof

The technical field is as follows:

the invention relates to the technical field of belt processing, in particular to high-efficiency belt production equipment and a production process thereof.

Background art:

the belt, the waistband that indicates the cortex is one of people's main daily necessities, and the belt is adding man-hour in production, need punch to the belt, and current belt processing mode all cuts the belt book earlier, then punches to the belt raw materials that cuts off, and it generally is the manual work that uses the hole puncher to punch in addition, and intensity of labour is big, and the accuracy is not high, can produce the sweeps when punching in addition, needs extra time spent to wash, and efficiency is not high.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides high-efficiency belt production equipment and a production process thereof, the equipment ingeniously combines a belt discharging and cutting process and a punching process, a belt roll realizes discharging through a fixed clamping seat and a movable clamping seat, the movable clamping seat is driven by a front transmission belt to realize up-and-down lifting, a punching stress plate and a cutting blade are arranged in the movable clamping seat, a puncher is arranged in the fixed clamping seat, when the movable clamping seat clamps the belt roll for discharging, the puncher can automatically press the belt against the punching stress plate for punching through transmission, and the cutting blade can cut the belt roll to obtain the belt when the movable clamping seat is lowered to the lowest point, so that the equipment is convenient and quick, the equipment cost is reduced, the efficiency is greatly improved, in addition, the cutting blade is used for cutting at the pulling end of the belt, therefore, the belt with the punched holes can be obtained only after next discharging cutting, and therefore when the movable clamping seat is lifted and reset, the belt is in a loose state, the elastic guide seat on the puncher can hit the belt rapidly and continuously in the lifting process, the belt is shaken in a small amplitude, waste materials in hole positions can be shaken off automatically, automatic cleaning is achieved, the belt with the punched holes can be obtained after next pulling cutting, and the technical effect is unexpected.

In order to realize the technical scheme, the invention provides the following technical scheme:

the utility model provides a high efficiency belt production facility, includes L shape body frame, is equipped with the belt roll volume between the pair of flange that L shape body frame curb plate front end wall top has, but the left and right sides of belt roll volume is equipped with synchronous regulation's L shape link and vertical mounting panel respectively, is equipped with fixed grip slipper and T shape guide rail on the front end wall of vertical mounting panel, and the setting is slided on T shape guide rail and corresponding with the electro-magnet of T shape guide rail bottom to the activity grip slipper, install belt actuating mechanism on the horizontal part of L shape link, belt actuating mechanism drives the activity grip slipper and pulls the belt roll volume and cutting.

Preferably as above-mentioned technical scheme, the activity grip slipper is located fixed grip slipper under and is connected through the extension spring that resets, the bottom surface of fixed grip slipper is equipped with the hole puncher, the front end of activity grip slipper is equipped with the cutting holder, the top surface and the preceding terminal surface of cutting holder are equipped with centre gripping driving plate and cutting driving seat respectively, evenly be equipped with a pair of fixed arm on the transmission belt among the belt drive mechanism, elasticity is inserted in every fixed arm and is equipped with flexible arm, the outer end of every flexible arm rotates and is equipped with the drive wheel, the drive wheel presses centre gripping driving plate and drives the downward movement of movable grip slipper when the activity grip slipper.

Preferably, the transmission belt is installed between two pairs of installation convex plates at the upper end and the lower end of the belt installation frame and driven by a belt motor, an outer installation arm and an inner transmission arm are fixed on the outer side wall of the installation convex plate on the right side of the lower portion, a transmission column is arranged at the inner end of the outer installation arm in a rotating mode, a reset torsion spring, a cam supporting block and a first transmission gear are arranged on the transmission column, an electromagnetic switch for controlling the electromagnet to start and stop is arranged on a switch plate on the bottom surface of the outer installation arm, the cam supporting block vertically abuts against the bottom surface of the inner transmission arm and presses against the electromagnetic switch after rotating, the first transmission gear is meshed with two flexible racks on the transmission belt, a transmission pinch roller is arranged at the inner end of the outer installation arm, and the transmission pinch roller corresponds to a transmission inclined surface on the front end wall of the cutting transmission seat.

Preferably, the cutting holder is elastically inserted into the transverse clamping portion of the movable holder through a telescopic connecting block, the cutting transmission seat is inserted into the accommodating groove at the front end of the cutting holder and connected with the accommodating groove through a shearing spring, and the cutting blade is installed in a groove in the cutting transmission seat and faces a cutting groove in the transverse clamping portion of the movable holder.

Preferably, the rear side wall of the clamping transmission plate is connected with a punching stress plate extending upwards through a buffering pressure spring, the front end face of the punching stress plate is provided with a limiting column, the bottom surface of the transverse part of the fixed clamping seat is provided with a guide convex plate, a puncher is inserted in the guide convex plate and is connected through a punching spring, the outer wall of the front end of the puncher is provided with an outer convex plate, the front end of the outer convex plate is connected with an elastic guide seat through a pair of small compression springs, the puncher is positioned in the elastic guide seat, a belt is positioned between the elastic guide seat and the punching stress plate, the rear end of the puncher is provided with a middle transmission block, the middle transmission block is provided with a transmission guide rod, a transmission rotating shaft is inserted in the longitudinal part on the right side of the fixed clamping seat, the inner side end of the transmission rotating shaft is provided with a transmission cam attached to the middle transmission block, and the outer side end of the transmission rotating shaft is provided with a second transmission gear, and a vertical rack which extends upwards and is meshed with the second transmission gear is arranged on the right side wall of the movable clamping seat.

Preferably, a pair of synchronous adjusting frames is arranged on the front end wall of the side plate of the L-shaped main frame and positioned on two sides of the convex plate, a synchronous screw rod is arranged between each synchronous adjusting frame and the L-shaped main frame in a rotating mode, a synchronous bevel gear is arranged at the front end of each synchronous screw rod, a pair of driving bevel gears meshed with the two synchronous bevel gears is arranged at two ends of a central rotating shaft of the belt roll, the vertical portion of the L-shaped connecting frame is connected to the left synchronous screw rod in a threaded mode, the vertical mounting plate is connected to the right synchronous screw rod in a threaded mode, and guide rods inserted into the L-shaped main frame are arranged on the L-shaped connecting frame and the vertical mounting plate.

Preferably, the horizontal portion of the L-shaped connecting frame is provided with a reinforcing beam connected to the belt driving mechanism, the top surface of the bottom plate of the L-shaped main frame is provided with a supporting seat, the top surface of the supporting seat is provided with a supporting wheel, and the bottom surface of the horizontal portion of the L-shaped connecting frame is pressed against the supporting wheel.

The invention has the beneficial effects that: the equipment ingeniously combines a belt discharging and cutting process with a punching process, a belt roll realizes discharging through a fixed clamping seat and a movable clamping seat, the movable clamping seat is driven by a front transmission belt to realize ascending and descending, a punching stress plate and a cutting sheet are arranged in the movable clamping seat, a puncher is arranged in the fixed clamping seat, when the movable clamping seat clamps the belt roll to discharge, the puncher can automatically press the belt against the punching stress plate to punch holes through transmission, and the cutting sheet can cut the belt roll to obtain the belt when the movable clamping seat descends to the lowest point, so that the equipment cost is reduced, the efficiency is greatly improved, in addition, the cutting sheet is used for cutting at a pulling end of the belt, the punched belt can be obtained only after next discharging cutting, therefore, the movable clamping seat is reset when ascending, the belt is in the lax state, and the elasticity guide holder on the hole puncher just in time can be fast incessantly hit the belt in the in-process that rises, makes the belt take place the shake of small amplitude, and the waste material in the hole site consequently can shake off automatically to can obtain the belt of beating the hole after pulling the cutting next time, realize automatic clearance, have unexpected technological effect.

Drawings

The invention is further described below with reference to the accompanying drawings:

FIG. 1 is a schematic structural view of a high efficiency belt production apparatus of the present invention;

FIG. 2 is a three-dimensional perspective view from another perspective of the present invention;

FIG. 3 is a left side view of the present invention;

FIG. 4 is a front view of the present invention;

FIG. 5 is a schematic view of the structure of the belt driving mechanism of the present invention;

FIG. 6 is a schematic structural view of the present invention with the fixed clamping seat and the movable clamping seat mounted on the vertical mounting plate;

FIG. 7 is a schematic view of the fixing holder according to the present invention;

fig. 8 is an internal cross-sectional view of a cutting cartridge of the present invention.

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will become apparent to those skilled in the art from the present disclosure. The directions of the upper and lower portions in the embodiment are consistent with the directions of the upper and lower portions in the drawings, and are only for the convenience of description, but not for limiting the scope of the invention, and the relative changes or adjustments thereof should be considered as the scope of the invention without substantial changes in the technical contents.

As shown in fig. 1 and 2, a high-efficiency belt production device comprises an L-shaped main frame 1, a belt roll 2 is arranged between a pair of convex plates 11 arranged above the front end walls of the side plates of the L-shaped main frame 1, a pair of synchronous adjusting frames 13 are arranged on the front end walls of the side plates of the L-shaped main frame 1 and positioned at two sides of the convex plates 11, a synchronous screw 14 is rotatably arranged between each synchronous adjusting frame 13 and the L-shaped main frame 1, a synchronous bevel gear 141 is arranged at the front end of each synchronous screw 14, a pair of driving bevel gears 12 respectively meshed with the two synchronous bevel gears 141 are arranged at two ends of a central rotating shaft of the belt roll 2, a vertical part of the L-shaped connecting frame 15 is screwed on the synchronous screw 14 at the left side, a vertical mounting plate 17 is screwed on the synchronous screw 14 at the right side, and guide rods inserted in the L-shaped main frame 1 are arranged on the L-shaped connecting frame 15 and the vertical mounting plate 17; be equipped with fixed grip slipper 41 and T shape guide rail 171 on the front end wall of vertical mounting panel 17, activity grip slipper 42 slides and sets up on T shape guide rail 171 and corresponding with the electro-magnet 18 of T shape guide rail 171 bottom, install belt actuating mechanism 3 on the horizontal part of L shape link 15, belt actuating mechanism 3 drives activity grip slipper 42 and pulls belt book 2 and cutting.

As shown in fig. 5, 6 and 8, the movable clamping seat 42 is located right below the fixed clamping seat 41 and connected through a return tension spring 411, a hole puncher 46 is arranged on the bottom surface of the fixed clamping seat 41, a cutting clamping seat 43 is arranged at the front end of the movable clamping seat 42, a clamping transmission plate 431 and a cutting transmission seat 44 are respectively arranged on the top surface and the front end surface of the cutting clamping seat 43, the cutting clamping seat 43 is elastically inserted on a transverse clamping part of the movable clamping seat 42 through a telescopic connection block 432, the cutting transmission seat 44 is inserted in a receiving groove 433 at the front end of the cutting clamping seat 43 and connected with the receiving groove 312 through a shearing spring 442, and a cutting blade 443 is installed in a groove in the cutting transmission seat 44 and faces a cutting groove 422 on the transverse clamping part of the movable clamping seat 42;

a pair of fixed arms 34 are uniformly arranged on a transmission belt 33 in the belt driving mechanism 3, a telescopic arm 341 is elastically inserted in each fixed arm 34, a driving wheel 342 is rotatably arranged at the outer end of each telescopic arm 341, and the driving wheel 342 presses against a clamping transmission plate 431 and drives the movable clamping seat 42 to move downwards when passing through the movable clamping seat 42; the driving belt 33 is installed between two pairs of installation convex plates 311 on the upper end and the lower end of the belt installation frame 31 and is driven by a belt motor 32, an outer installation arm 35 and an inner driving arm 38 are fixed on the outer side wall of the installation convex plate 311 on the right side of the lower side, a driving column 37 is arranged at the inner end of the outer installation arm 35 in a rotating mode, a reset torsion spring 373, a cam supporting block 371 and a first driving gear 372 are arranged on the driving column 37, an electromagnetic switch 36 for controlling the electromagnet 18 to be started and stopped is arranged on a switch plate 361 on the bottom surface of the outer installation arm 35, the cam supporting block 371 perpendicularly abuts against the bottom surface of the inner driving arm 38 and presses against the electromagnetic switch 36 after rotation, the first driving gear 372 is meshed with two flexible racks 331 on the driving belt 33, a driving pinch roller 381 is arranged at the inner end of the outer installation arm 35, and the driving pinch roller 381 corresponds to a driving inclined surface 441 on the front end wall of the cutting driving seat 44.

As shown in fig. 6 and 7, a punching force-bearing plate 45 extending upward is connected to a rear side wall of the clamping transmission plate 431 through a buffer compression spring 451, a limiting post 452 is provided on a front end surface of the punching force-bearing plate 45, a guide protruding plate 412 is provided on a bottom surface of a transverse portion of the fixed clamping seat 41, a puncher 46 is inserted into the guide protruding plate 412 and connected through a punching spring 461, an outer wall of a front end of the puncher 46 is provided with an outer protruding plate 464, a front end of the outer protruding plate 464 is connected to an elastic guide seat 48 through a pair of small compression springs 465, the puncher 46 is located in the elastic guide seat 48, a belt is located between the elastic guide seat 48 and the punching force-bearing plate 45, a middle transmission block 462 is provided at a rear end of the puncher 46, a transmission guide rod 463 is provided on the middle transmission block 462, a transmission rotation shaft 471 is inserted in a right longitudinal portion of the fixed clamping seat 41, a transmission cam 47 abutting against the middle transmission block 462 is provided at an inner end of the transmission shaft 471, a second transmission gear 472 is arranged at the outer side end of the transmission rotating shaft 471, and a vertical rack 421 which extends upwards and is meshed with the second transmission gear 472 is arranged on the right side wall of the movable clamping seat 42.

The working principle of the invention is explained in connection with fig. 1 to 8:

step one, the lower end of the belt roll 2 is pulled between the cutting clamping seat 43 and the movable clamping seat 42, the belt motor 32 is started, the driving belt 33 drives the driving wheel 342 to rotate and vertically move, the driving wheel 342 passes through the movable clamping seat 42 and presses against the clamping driving plate 431 when rotating, the elasticity of the telescopic arm 341 is far greater than that of the telescopic connecting block 432, so that the belt can be clamped by the cutting clamping seat 43 and the movable clamping seat 42, and then the driving wheel 342 is limited by the cutting driving seat 44, so that the whole movable clamping seat 42 is driven to move downwards, and the belt is discharged;

step two, the punching stress plate 45 is elastically pressed on the front surface of the belt, the rear end of the punching stress plate is limited by the limiting column 452, when the movable clamping seat 42 descends, the vertical rack 421 drives the second transmission gear 472 to rotate, the puncher 46 continuously stretches back and forth under the action of the transmission cam 47 and the punching spring 461, and the puncher 46 can push the belt to punch a hole on the punching stress plate 45 because the punching stress plate 45 is limited by the limiting column 452 and cannot move, and the elastic guide seat 48 can compress the belt firstly during punching so as to ensure the punching quality;

step three, the movable clamping seat 42 is adsorbed by the electromagnet 18 when descending to the bottommost end, meanwhile, the transmission press wheel 381 is pressed on the transmission inclined surface 441 of the cutting transmission seat 44 so that the cutting transmission seat 44 is pressed, the cutting blade 443 extends into the cutting groove 422 to cut the belt, and the cam supporting block 371 is connected with the bottom surface of the inner transmission arm 38 more firmly in a bead and groove mode;

step four, after the cutting transmission seat 44 moves, the driving wheel 342 is not limited by the cutting transmission seat, and continues to move due to the elasticity of the telescopic arm 341, then the driving wheel 342 moves to a position where the driving wheel does not intersect with the movable clamping seat 42 completely, the flexible rack 331 drives the first transmission gear 372 to rotate through the process, the cam supporting block 371 presses against the electromagnetic switch 36 after rotating, the transmission press wheel 381 moves downwards at first due to the fact that the inner transmission arm 38 is not supported by the cam supporting block 371 and does not press against the cutting transmission seat 44 any more, the cutting transmission seat 44 and the cutting clamping seat 43 are automatically reset, then the electromagnet 18 is closed, and the movable clamping seat 42 automatically moves upwards under the action of the reset tension spring 411;

step five, when the movable clamping seat 42 is lifted and reset, the vertical rack 421 drives the second transmission gear 472 to rotate again, the puncher 46 continuously stretches back and forth again, but the belt is not clamped by any object and is in a relaxed state at the moment, so that the elastic guide seat 48 can enable the belt to shake in a small amplitude when the belt is hit, and waste materials in the holes can be automatically cleaned;

and step six, after the movable clamping seat 42 is reset, the next driving wheel 342 repeats the steps to drive the movable clamping seat 42 to pull, punch and cut the belt.

In addition, in the process that the belt roll 2 is continuously consumed, the size of the belt roll 2 is changed, so that the belt roll 2 is gradually thinned through the transmission of the driving bevel gear 12, the synchronous bevel gear 141 and the synchronous screw rod 14, and meanwhile, the belt driving mechanism 3, the fixed clamping seat 41 and the movable clamping seat 42 are synchronously subjected to displacement adjustment, so that the position relation between the belt and the mechanisms is ensured not to have too large in and out, and finally, the processing stability and quality are ensured.

Claims

1. The utility model provides a high efficiency belt production facility, includes L shape body frame (1), is equipped with belt roll (2), its characterized in that between a pair of flange (11) that L shape body frame (1) curb plate front end wall top has: but the left and right sides of belt roll (2) is equipped with synchronous regulation's L shape link (15) and vertical mounting panel (17) respectively, is equipped with fixed grip slipper (41) and T shape guide rail (171) on the front end wall of vertical mounting panel (17), and activity grip slipper (42) slide to set up on T shape guide rail (171) and corresponding with electro-magnet (18) of T shape guide rail (171) bottom, install belt actuating mechanism (3) on the horizontal part of L shape link (15), belt actuating mechanism (3) drive activity grip slipper (42) and pull belt roll (2) and cutting.

2. A high efficiency belt production apparatus as claimed in claim 1, wherein: the movable clamping seat (42) is located under the fixed clamping seat (41) and is connected through a reset tension spring (411), a puncher (46) is arranged on the bottom surface of the fixed clamping seat (41), a cutting clamping seat (43) is arranged at the front end of the movable clamping seat (42), a clamping transmission plate (431) and a cutting transmission seat (44) are respectively arranged on the top surface and the front end surface of the cutting clamping seat (43), a pair of fixing arms (34) are uniformly arranged on a transmission belt (33) in the belt driving mechanism (3), a telescopic arm (341) is elastically inserted in each fixing arm (34), a driving wheel (342) is arranged at the outer end of each telescopic arm (341) in a rotating mode, and the driving wheel (342) presses the clamping transmission plate (431) when passing through the movable clamping seat (42) and drives the movable clamping seat (42) to move downwards.

3. A high efficiency belt production apparatus as claimed in claim 2, wherein: the transmission belt (33) is installed between two pairs of installation convex plates (311) at the upper end and the lower end of the belt installation frame (31) and driven by a belt motor (32), an outer installation arm (35) and an inner transmission arm (38) are fixed on the outer side wall of the installation convex plate (311) on the right side of the lower portion, a transmission column (37) is rotatably arranged at the inner end of the outer installation arm (35), a reset torsion spring (373), a cam supporting block (371) and a first transmission gear (372) are arranged on the transmission column (37), an electromagnetic switch (36) for controlling the start and stop of an electromagnet (18) is arranged on a switch plate (361) on the bottom surface of the outer installation arm (35), the cam supporting block (371) vertically abuts against the bottom surface of the inner transmission arm (38) and presses against the electromagnetic switch (36) after rotation, the first transmission gear (372) is meshed with two flexible racks (331) on the transmission belt (33), a transmission pinch roller (381) is arranged at the inner end of the outer installation arm (35), the transmission press wheel (381) corresponds to the transmission inclined plane (441) on the front end wall of the cutting transmission seat (44).

4. A high efficiency belt production apparatus as claimed in claim 2, wherein: the cutting clamping seat (43) is elastically inserted in a transverse clamping part of the movable clamping seat (42) through a telescopic connecting block (432), the cutting transmission seat (44) is inserted in an accommodating groove (433) in the front end of the cutting clamping seat (43) and connected with the accommodating groove (312) through a shearing spring (442), and the cutting blade (443) is installed in a groove in the cutting transmission seat (44) and faces a cutting groove (422) in the transverse clamping part of the movable clamping seat (42).

5. A high efficiency belt production apparatus as claimed in claim 2, wherein: the punching device is characterized in that a punching stress plate (45) extending upwards is connected to the rear side wall of the clamping transmission plate (431) through a buffer pressure spring (451), a limiting column (452) is arranged on the front end face of the punching stress plate (45), a guide convex plate (412) is arranged on the bottom face of the transverse portion of the fixed clamping seat (41), a puncher (46) is inserted into the guide convex plate (412) and connected through a punching spring (461), an outer convex plate (464) is arranged on the outer wall of the front end of the puncher (46), the front end of the outer convex plate (464) is connected with an elastic guide seat (48) through a pair of small compression springs (465), the puncher (46) is located in the elastic guide seat (48), a belt is located between the elastic guide seat (48) and the punching stress plate (45), a middle transmission block (462) is arranged at the rear end of the puncher (46), a transmission guide rod (463) is arranged on the middle transmission block (462), a transmission rotating shaft (471) is inserted into the longitudinal portion of the right side of the fixed clamping seat (41), the inside end of the transmission rotating shaft (471) is provided with a transmission cam (47) attached to the middle transmission block (462), the outside end of the transmission rotating shaft (471) is provided with a second transmission gear (472), and the right side wall of the movable clamping seat (42) is provided with a vertical rack (421) which extends upwards and is meshed with the second transmission gear (472).

6. A high efficiency belt production apparatus as claimed in claim 1, wherein: the utility model discloses a belt winding machine, including L shape body frame (1), the curb plate front end wall of L shape body frame (1) just is located the both sides of flange (11) and is equipped with a pair of synchronous control frame (13), it is equipped with synchronous lead screw (14) to rotate between every synchronous control frame (13) and L shape body frame (1), the front end of every synchronous lead screw (14) is equipped with synchro bevel gear (141), the central pivot both ends of belt book (2) are equipped with a pair of initiative bevel gear (12) with two synchro bevel gear (141) engaged with respectively, the vertical portion spiro union of L shape link (15) is on left synchro bevel gear (14), vertical mounting panel (17) spiro union is on right synchro bevel gear (14), all be equipped with on L shape link (15) and vertical mounting panel (17) and insert the guide bar of establishing in L shape body frame (1).

7. A high efficiency belt production apparatus as claimed in claim 1, wherein: a reinforcing beam (151) connected with the belt driving mechanism (3) is arranged on the horizontal part of the L-shaped connecting frame (15), a supporting seat (16) is arranged on the top surface of the bottom plate of the L-shaped main frame (1), a supporting wheel (161) is arranged on the top surface of the supporting seat (16), and the bottom surface of the horizontal part of the L-shaped connecting frame (15) is pressed against the supporting wheel (161).

8. A high-efficiency belt production process is characterized in that: the method comprises the following steps:

firstly, a driving belt (33) drives a driving wheel (342) to rotate and vertically move, the driving wheel (342) presses against a clamping driving plate (431) when passing through a movable clamping seat (42), a cutting clamping seat (43) and the movable clamping seat (42) clamp the belt, and then the driving wheel (342) is limited by the cutting driving seat (44) so as to drive the whole movable clamping seat (42) to move downwards to realize the discharging of the belt;

secondly, the punching stress plate (45) is elastically pressed on the front surface of the belt, the rear end of the punching stress plate is limited by a limiting column (452), when the movable clamping seat (42) descends, the vertical rack (421) drives the second transmission gear (472) to rotate, the puncher (46) continuously stretches back and forth under the action of the transmission cam (47) and the punching spring (461), and when the puncher (46) pushes the belt to punch holes on the punching stress plate (45), the elastic guide seat (48) firstly compresses the belt, so that the punching quality is ensured;

step three, the movable clamping seat (42) is adsorbed by the electromagnet (18) when descending to the bottommost end, and meanwhile, the transmission press wheel (381) presses against the transmission inclined surface (441) of the cutting transmission seat (44) so that the cutting transmission seat (44) is pressed against the belt to cut the belt by the cutting blade (443);

fourthly, after the cutting transmission seat (44) moves, the driving wheel (342) is not limited by the driving wheel to continue moving, then the flexible rack (331) drives the first transmission gear (372) to rotate when passing through, at the moment, the cam supporting block (371) presses against the electromagnetic switch (36) after rotating, the transmission press wheel (381) moves downwards firstly and does not abut against the cutting transmission seat (44), the cutting transmission seat (44) and the cutting clamping seat (43) are reset automatically, then the electromagnet (18) is closed, and the movable clamping seat (42) moves upwards automatically under the action of the reset tension spring (411);

step five, when the movable clamping seat (42) is lifted and reset, the vertical rack (421) drives the second transmission gear (472) to rotate again, the puncher (46) continuously stretches back and forth again, but the belt is not clamped by any object and is in a relaxed state at the moment, so that the elastic guide seat (48) can enable the belt to shake in a small amplitude when the belt is hit, and waste materials in holes can be automatically cleaned;

and sixthly, after the movable clamping seat (42) is reset, the next driving wheel (342) repeats the steps to drive the movable clamping seat (42) to pull, punch and cut the belt.