CN112297665A

CN112297665A - Joint-sealing plane-sealing integrated sealing machine

Info

Publication number: CN112297665A
Application number: CN202011012293.7A
Authority: CN
Inventors: 张朝忠
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-24
Filing date: 2020-09-24
Publication date: 2021-02-02

Abstract

The invention discloses a joint seal and plane seal integrated sealing machine which is mainly used for sealing joint seals and single-page paper plane seals on a stack of files and comprises a sealing machine frame, a sealing device, a paper rolling device and a paper feeding device. The stamping machine frame is a supporting frame of other devices, and stamping is carried out on the perforation and the paper surface by utilizing the stamping device. The paper winding device can bend the paper to separate the paper edge at the end to be covered with the perforation seal. The paper twisting device can increase the seam-crossing distance through friction and can separate a stack of paper sheets. The paper feeding device can send the stamped paper out of the stamping machine.

Description

Joint-sealing plane-sealing integrated sealing machine

Technical Field

The invention relates to the field of office automation, in particular to a joint-sealing plane-sealing integrated sealing machine.

Background

In the era of office automation, the stamping work is gradually completed by replacing manpower with machines, the existing stamping machine is mainly directed to plane stamping and has development space for perforation stamping and multi-stamp integrated machines. To solve such a problem, application No. CN201710045904 discloses a paper supporting system and a feeler system for perforation stamping and an automatic stamping machine having the two systems. The device is through making whole document edge form the domatic, then covers the badge of riding on the domatic of slide of margin, and the device has realized the badge of riding, but to the different mechanisms of thickness paper needs two kinds of difference to realize the domatic of slide of paper, needs extra manual operation moreover between the badge of covering the badge of riding and the plane badge of single page paper.

Disclosure of Invention

The invention provides a joint-sealing plane-sealing integrated sealing machine aiming at the technical problems, which comprises a sealing machine frame, a sealing device, a paper rolling wheel rotating and floating device and a paper feeding device. Stamping can be implemented for different situations.

The method is characterized in that: the stamping machine frame is a stamping machine frame and is also an installation platform of a stamping device, a paper rolling wheel rotating and floating device and a paper feeding device.

The stamping device comprises: the lead screw and the feed rod are fixedly arranged on the stamping machine frame.

The paper winding device comprises: the paper rolling mechanism motor is fixedly arranged on the stamping machine frame, and the lower pressing plate and the force arm rod are rotatably arranged on the stamping machine frame.

The paper rolling wheel rotating and floating device comprises: the lifting mechanism motor is fixedly arranged on the stamping machine frame.

The paper feeding device includes: the twisting wheel driving motor and the paper feeding mechanism motor are fixedly arranged on the stamping machine frame.

The stamping device further comprises: linear electric motor, slip guide holder, pneumatic cylinder, seal, linear electric motor fixed mounting forms screw nut cooperation at the bottom surface and the side of slip guide holder, linear electric motor and lead screw, and slip guide holder slidable mounting is on the face of cylinder of polished rod, and pneumatic cylinder fixed mounting is at the lower surface of slip guide holder, and seal fixed mounting is at the pneumatic cylinder lower extreme.

The reel-up further includes: the paper winding mechanism comprises a paper winding mechanism driving gear, a paper winding mechanism driven gear, a roller, a non-elastic rope and an upper pressing plate, wherein the paper winding mechanism driving gear is fixedly installed on a transmission shaft of a paper winding mechanism motor, the paper winding mechanism driven gear is fixedly installed on the side face of the roller, the paper winding mechanism driven gear is rotatably installed on an optical axis extending out of a stamping machine frame, the paper winding mechanism driven gear and the paper winding mechanism driving gear form gear fit, the roller is rotatably installed on the optical axis of the stamping machine frame, one end of the non-elastic rope is fixed on the cylindrical surface of the roller, and the upper pressing plate is rotatably installed at the front end of a force arm rod.

The paper rolling wheel rotating and floating device further comprises: a roller support rod, a friction roller, a roller rotation driving motor, a shifting fork movement driving motor, a motor base, a shifting fork lead screw, a long rack, a spline shaft, a shifting fork, a sliding gear, a forward rotation mechanism cylindrical gear, a gear carrier, a short rack, a reverse rotation mechanism cylindrical gear, a lifting mechanism driven gear, a lifting mechanism driving gear, a forward rotation mechanism conical gear, a transmission conical gear and a reverse rotation mechanism conical gear, wherein the roller support rod is slidably arranged in an arc-shaped slot of a stamping machine frame, the friction roller is fixedly arranged on the roller support rod, the roller rotation driving motor is fixedly arranged on the upper surface of the motor base, the shifting fork movement driving motor is also fixedly arranged on the upper surface of the motor base, the shifting fork lead screw is fixedly arranged at the output end of a motor shaft of the shifting fork movement driving motor, the long rack is fixedly arranged on, the shifting fork is rotatably arranged on the central shaft of the sliding gear, and forms a screw nut fit with a shifting fork lead screw at the other end, the sliding gear is rotatably arranged on the spline shaft and can slide on the spline shaft, the cylindrical gear of the forward rotation mechanism and the cylindrical gear of the reverse rotation mechanism are rotatably arranged on the surfaces of two sides of the gear frame through an optical axis fixedly arranged in the center, the cylindrical gear of the forward rotation mechanism and the sliding gear can form a gear fit, the cylindrical gear of the reverse rotation mechanism and the sliding gear can form a gear fit, the lifting mechanism is rotatably arranged on the optical axis extending out of the stamping machine frame from the moving gear and forms a gear rack fit with the long rack, the driving gear of the lifting mechanism is fixedly arranged on the output end of the motor shaft of the motor of the lifting mechanism, the conical gear of the forward rotation mechanism is fixedly arranged on the central shaft of the, the transmission conical gear and the pair of conical gears are rotatably arranged on the gear rack and are in gear fit with the conical gear of the forward rotation mechanism and the conical gear of the reverse rotation mechanism.

The paper feeding device further includes: an upper twisting paper wheel, a lower twisting paper wheel, an upper twisting paper wheel transmission shaft, a twisting mechanism driving gear, an upper twisting paper wheel transmission gear, a lower twisting paper wheel transmission shaft, a paper feeding mechanism driving gear, a paper feeding mechanism driven gear, a belt pulley, a belt and a paper feeding roller, wherein the upper twisting paper wheel is fixedly arranged on the upper twisting paper wheel transmission shaft, the lower twisting paper wheel is fixedly arranged on the lower twisting paper wheel transmission shaft, the twisting mechanism driving gear is fixedly arranged on a motor output shaft of a twisting paper wheel driving motor, the upper twisting paper wheel transmission gear is fixedly arranged on the upper twisting paper wheel transmission shaft and forms gear fit with the twisting mechanism driving gear, the lower twisting paper wheel transmission gear is fixedly arranged on the lower twisting paper wheel transmission shaft and forms gear fit with the upper twisting paper wheel transmission gear, the paper feeding mechanism driving gear is fixedly arranged on the paper feeding mechanism motor, the paper feeding mechanism driven gear and the belt pulley are fixedly arranged on the same shaft, and the driven gear of the paper feeding mechanism and the motor of the paper feeding mechanism form gear matching, three pairs of belt pulleys form belt roller matching with the belt, and 9 paper feeding rollers are fixedly installed with the shaft in the belt pulleys.

Furthermore, the lower bottom plate of the sliding guide seat is fixedly connected with the upper top plate of the hydraulic cylinder through bolts.

Furthermore, the lower end of the hydraulic cylinder is fixedly provided with an elastic sheet claw which can clamp the upper end of the seal.

Furthermore, an iron ring is connected to the upper end of the inelastic rope, and the iron ring is sleeved on the polishing bars on the two sides of the upper pressure plate.

Furthermore, the lower pressing plate is a pair of L-shaped bent plates, and a torsion spring is further arranged at the position where the rear end is rotatably installed with the stamping machine frame.

Furthermore, a torsion spring is also arranged at the part where the upper pressure plate and the stamping machine frame are rotatably arranged.

Furthermore, the friction roller, the upper paper twisting wheel and the paper feeding roller are all rubber friction wheels.

Furthermore, the shifting fork lead screw, the spline shaft, the roller wheel rotating driving motor and the shifting fork moving driving motor are fixedly connected by a coupler.

Furthermore, the paper rolling device, the paper rolling wheel rotating and floating device and the paper feeding device are mechanisms symmetrically arranged at two sides of the stamping machine frame.

Compared with the prior art, the invention has the beneficial effects that: (1) the stamping device can be moved to the front end of the stamping machine, so that the replacement of a stamp and the supplement of inkpad are facilitated; (2) the paper rolling device is controlled and realized by one power source to clamp the paper and roll the paper to generate the functional paper of the sliding slope surface, thereby simplifying the control requirement; (3) the paper twisting wheel can rotate forward and backward, so that the requirements of twisting up the riding seam and separating single sheets of paper are met, the paper twisting device can float up and down, and the requirements of twisting up the riding seam of the paper with different thicknesses and thickness variation when the paper is thrown away are met; (4) the paper twisting wheel and the semicircular groove sequentially perform page turning operation on the single-page paper seal, so that the sequence of the overlapped files is not changed.

Drawings

FIG. 1 is an overall schematic view of the present invention.

FIG. 2 is a schematic view of a stamping device according to the present invention.

Fig. 3 is a schematic view of the reel-up of the present invention.

FIG. 4 is a schematic view of the paper feeding device of the present invention.

FIG. 5 is a schematic view of a bevel gear reversing mechanism of the present invention.

FIG. 6 is a schematic view of the paper feeding device of the present invention.

The reference numbers: 1-a sealing machine frame; 2-a stamping device; 3-a paper winding device; 4-a paper rolling wheel rotating and floating device; 5-a paper feeding device; 201-lead screw; 202-linear motor; 203-light bar; 204-sliding guide seat; 205-hydraulic cylinders; 206-seal; 301-a driving gear of a paper winding mechanism; 302-winder mechanism motor; 303-driven gear of paper winding mechanism; 304-a roller; 305-a non-elastic cord; 306-a lower platen; 307-arm of force lever; 308-an upper platen; 401-roller support bars; 402-a friction roller; 403-a roller rotation driving motor; 404-a fork movement driving motor; 405-a motor base; 406-a fork screw; 407-long rack; 408-a spline shaft; 409-a shifting fork; 410-a glide gear; 411-a spur gear; 412-gear carrier; 413-short rack; 414-reverse mechanism cylindrical gear; 415-a driven gear of the lifting mechanism; 416-a lift mechanism drive gear; 417-a hoist motor; 418-forward rotation mechanism bevel gear; 419-drive bevel gear; 420-reverse mechanism bevel gear; 501-upper paper twisting wheel; 502-lower twisting wheel; 503-upper twisting paper wheel transmission shaft; 504-a driving motor of a twisting wheel; 505-a driving gear of a paper twisting mechanism; 506-upper paper twisting wheel transmission gear; 507-lower twisting paper wheel transmission gear; 508-lower twisting wheel transmission shaft; 509-paper feeding mechanism driving gear; 510-a paper feeding mechanism motor; 511-paper feeding mechanism driven gear; 512-a pulley; 513-belts; 514-paper feed roller.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example (b): the integrated stamping machine for the seal and the plane seal of the perforation as shown in figure 1, figure 2, figure 3, figure 4, figure 5 and figure 6. As shown in fig. 1, the stamping machine frame 1 is also a mounting platform for a stamping device 2, a paper winding device 3, a paper roller rotating and floating device 4 and a paper feeding device 5.

As shown in fig. 2, the sealing device 2 includes: the lead screw 201 and the optical lever 203 are fixedly arranged on the stamping machine frame 1.

As shown in fig. 3, the roll paper device 3 includes: the paper rolling mechanism motor 302 is fixedly arranged on the stamping machine frame 1, and the lower pressing plate 306 and the force arm lever 307 are rotatably arranged on the stamping machine frame 1.

The paper roller rotating and floating device 4 is shown in fig. 4 and 5, and comprises: the lift mechanism motor 417 is fixedly mounted to the capper frame 1.

As shown in fig. 6, the paper feeding device 5 includes: the twisting wheel driving motor 504 and the paper feeding mechanism motor 510 are fixedly arranged on the stamping machine frame 1.

The sealing device 2 further includes: the linear motor 202 is fixedly installed on the bottom surface and the side surface of the sliding guide seat 204, the linear motor 202 and the lead screw 201 form lead screw nut fit, the sliding guide seat 204 is slidably installed on the cylindrical surface of the light bar 203, the hydraulic cylinder 205 is fixedly installed on the lower surface of the sliding guide seat 204, and the stamp 206 is fixedly installed at the lower end of the hydraulic cylinder 205. The spindle of the linear motor 202 rotates relative to the lead screw to drive the sliding guide seat and the whole stamping head to slide back and forth. When the ink is slid to the forefront end, the seal can be replaced and the inkpad can be supplemented. The up and down movement of the stamp is achieved by the extension and contraction of the hydraulic cylinder 205.

The roll paper device 3 further includes: the stamping mechanism comprises a paper rolling mechanism driving gear 301, a paper rolling mechanism driven gear 303, a roller 304, a non-elastic rope 305 and an upper pressing plate 308, wherein the paper rolling mechanism driving gear 301 is fixedly installed on a transmission shaft of a paper rolling mechanism motor 302, the paper rolling mechanism driven gear 303 is fixedly installed on the side face of the roller 304, the paper rolling mechanism driven gear 303 is rotatably installed on an optical axis extending out of a stamping machine frame 1, the paper rolling mechanism driven gear 303 and the paper rolling mechanism driving gear 301 form gear fit, the roller 304 is rotatably installed on the optical axis of the stamping machine frame 1, one end of the non-elastic rope 305 is fixed on the cylindrical surface of the roller 304, and the upper pressing plate 308 is rotatably installed at the front end of a force arm 307. When the device works, a stack of files to be stamped is required to be fed between the upper pressing plate 308 and the lower pressing plate 306, one end of the perforation stamp is aligned with the edge position of the paper pickup wheel 402, the motor drives the roller 304 to rotate, the inelastic rope 305 is pulled, the upper pressing plate 308 is made to descend onto a paper surface, paper is pressed, the lower pressing plate 306 is continuously pulled to rotate around a shaft, and the function of rolling up the edge of the paper is achieved.

The paper rolling wheel rotating and floating device 4 further comprises: a roller support rod 401, a friction roller 402, a roller rotation driving motor 403, a shifting fork movement driving motor 404, a motor base 405, a shifting fork lead screw 406, a long rack 407, a spline shaft 408, a shifting fork 409, a sliding gear 410, a forward rotation mechanism cylindrical gear 411, a gear carrier 412, a short rack 413, a reverse rotation mechanism cylindrical gear 414, a lifting mechanism driven gear 415, a lifting mechanism driving gear 416, a forward rotation mechanism conical gear 418, a transmission conical gear 419 and a reverse rotation mechanism conical gear 420, the roller support rod 401 is slidably mounted in an arc-shaped slot of the sealing machine frame 1, the friction roller 402 is fixedly mounted on the roller support rod 401, the roller rotation driving motor 403 is fixedly mounted on the upper surface of the motor base 405, the shifting fork movement driving motor 404 is also fixedly mounted on the upper surface of the motor base 405, the shifting fork lead screw 406 is fixedly mounted on the motor shaft output end, a long rack 407 is fixedly arranged on the side surface of the motor base 405, a spline shaft 408 is fixedly arranged at the output end of a motor shaft of a roller rotation driving motor 403, a shifting fork 409 is rotatably arranged on the central shaft of a sliding gear 410, and forms a screw nut fit with a shifting fork screw 406 at the other end, the sliding gear 410 is rotatably arranged on the spline shaft 408 and can slide on the spline shaft 408, a forward rotation mechanism cylindrical gear 411 and a reverse rotation mechanism cylindrical gear 414 are rotatably arranged on the surfaces of two sides of a gear frame 412 through a central fixedly arranged optical axis, the forward rotation mechanism cylindrical gear 411 and the sliding gear 410 can form a gear fit, the reverse rotation mechanism cylindrical gear 414 and the sliding gear 410 can form a gear fit, a lifting mechanism driven gear 415 is rotatably arranged on the optical axis extending out of the sealing machine frame 1 and forms a gear rack fit with the long rack 407, a lifting mechanism driving gear 416 is fixedly arranged on the, the forward rotation mechanism conical gear 418 is fixedly mounted on the central shaft of the forward rotation mechanism cylindrical gear 411, the reverse rotation mechanism conical gear 420 is fixedly mounted on the central shaft of the reverse rotation mechanism cylindrical gear 414, and the transmission conical gear 419 and the pair of conical gears are rotatably mounted on the gear frame 412 and are in gear fit with the forward rotation mechanism conical gear 418 and the reverse rotation mechanism conical gear 420. The motor 403 rotates to drive the sliding gear 410 to rotate, the cylindrical gear 411 meshed with the sliding gear 410 also rotates along with the sliding gear, the conical gear 418 and the cylindrical gear 411 rotate synchronously, the conical gear 419 is meshed with the conical gear 418, the conical gear 420 is meshed with the conical gear 419 to realize that the rotating directions of the conical gear 418 and the conical gear 420 are opposite, the cylindrical gear 414 and the conical gear 420 rotate synchronously to drive the paper rubbing wheel 402 to rotate in the forward direction to play a role of rubbing a large riding seam, a single page of plane seal is covered after the riding seam seal is covered, the motor 404 rotates, the shifting fork 409 matched and connected with a lead screw nut moves towards the motor direction to drive the sliding gear 410 to move in the same direction, the sliding gear 410 loses the gear fit with the cylindrical gear 411, the sliding gear 410 and the cylindrical gear 414 form gear fit, and the rotating direction of the cylindrical gear 414 is opposite to the moving direction when the riding seam seal is covered, the pickup roller 402 rotates in the reverse direction to throw the uppermost sheet to the sheet feeder 5. As the thickness of the paper stack decreases as the number of sheets decreases, the motor 417 rotates, and the cylindrical gears 415 and 416 rotate accordingly, so as to drive the

racks

407 and 413 to move downwards, and the paper pickup wheel 402 moves downwards along with the whole device.

The paper feeding device 5 further includes: an upper paper twisting wheel 501, a lower paper twisting wheel 502, an upper paper twisting wheel transmission shaft 503, a paper twisting mechanism driving gear 505, an upper paper twisting wheel transmission gear 506, a lower paper twisting wheel transmission gear 507, a lower paper twisting wheel transmission shaft 508, a paper feeding mechanism driving gear 509, a paper feeding mechanism driven gear 511, a belt pulley 512, a belt 513 and a paper feeding roller 514, wherein the upper paper twisting wheel 501 is fixedly arranged on the upper paper twisting wheel transmission shaft 503, the lower paper twisting wheel 502 is fixedly arranged on the lower paper twisting wheel transmission shaft 508, the paper twisting mechanism driving gear 505 is fixedly arranged on a motor output shaft of a paper twisting wheel driving motor 504, the upper paper twisting wheel transmission gear 506 is fixedly arranged on the upper paper twisting wheel transmission shaft 503 and forms gear fit with the paper twisting mechanism driving gear 505, the lower paper twisting wheel transmission gear 507 is fixedly arranged on the lower paper twisting wheel transmission shaft 508 and forms gear fit with the upper paper twisting wheel transmission gear 506, the paper feeding mechanism driving gear 509 is fixedly arranged on the paper feeding mechanism, the paper feeding mechanism driven gear 511 and the belt pulley 512 are fixedly arranged on the same shaft, the paper feeding mechanism driven gear 511 is in gear fit with the paper feeding mechanism motor 510, three pairs of the belt pulleys 512 are in belt roller fit with the belt 513, and 9 paper feeding rollers 514 are fixedly arranged with the shaft in the belt pulleys 512. The paper is sent between the paper

twisting wheels

501 and 502 through the paper twisting device 4, the motor 504 rotates to drive the gear 505 to rotate, the cylindrical gear 505 drives the pair of

cylindrical gears

506 and 507 to rotate reversely, so that the paper is clamped by the paper

twisting wheels

501 and 502 to move along the semicircular groove and is reversed, the paper is sequentially reversed and then stacked in an overlapped mode, and the paper is still stacked in the original sequence. The motor 510 starts to work to drive the

gears

509 and 511 to move, the belt pulley 512 and the gear 511 rotate synchronously, the belt 513 rotates around the belt pulley 512, the paper feeding wheel 514 rotates, and stacked files are sent out of the stamping machine.

When the paper feeding device is used, a document to be stamped with a perforation seal and a plane seal is fed between the upper pressing plate 308 and the lower pressing plate 306, the perforation seal is stamped firstly, then a single-page plane seal is stamped, and after the stamping is finished, the paper feeding device 5 can feed a stack of stamped documents to the lower surface of the objective table of the stamping machine frame 1.

The invention can realize continuous stamping of the perforation seal plane seal and can also stamp the perforation seal or the plane seal by a single pair. When the perforation seal is singly covered, the document with the perforation seal is directly taken from the lower pressure plate 306.

Claims

1. A kind of seal integrated stamping machine of plane seal of perforation, including the stamping machine frame (1), stamping device (2), paper winder (3), the paper roller rotates and the floating device (4), the paper feeder (5);

the method is characterized in that: the stamping machine frame (1) is a stamping machine frame and is also an installation platform of a stamping device (2), a paper rolling device (3), a paper rolling wheel rotating and floating device (4) and a paper feeding device (5);

the stamping device (2) comprises: the lead screw (201) and the feed rod (203) are fixedly arranged on the stamping machine frame (1);

the reel-up (3) comprises: the paper winding mechanism motor (302) is fixedly arranged on the stamping machine frame (1), and the lower pressing plate (306) and the force arm rod (307) are rotatably arranged on the stamping machine frame (1);

the paper rolling wheel rotating and floating device (4) comprises: the lifting mechanism motor (417) is fixedly arranged on the stamping machine frame (1);

the paper feeding device (5) includes: the twisting wheel driving motor (504) and the paper feeding mechanism motor (510) are fixedly arranged on the stamping machine frame (1);

the stamping device (2) further comprises: the stamping device comprises a linear motor (202), a sliding guide seat (204), a hydraulic cylinder (205) and a stamp (206), wherein the linear motor (202) is fixedly installed on the bottom surface and the side surface of the sliding guide seat (204), the linear motor (202) and a lead screw (201) form lead screw nut matching, the sliding guide seat (204) is slidably installed on the cylindrical surface of a polished rod (203), the hydraulic cylinder (205) is fixedly installed on the lower surface of the sliding guide seat (204), and the stamp (206) is fixedly installed at the lower end of the hydraulic cylinder (205);

the reel-up (3) further comprises: the stamping mechanism comprises a winding mechanism driving gear (301), a winding mechanism driven gear (303), a roller (304), a non-elastic rope (305) and an upper pressing plate (308), wherein the winding mechanism driving gear (301) is fixedly mounted on a transmission shaft of a winding mechanism motor (302), the winding mechanism driven gear (303) is fixedly mounted on the side surface of the roller (304), the winding mechanism driven gear (303) is rotatably mounted on an optical axis extending out of a stamping machine frame (1), the winding mechanism driven gear (303) and the winding mechanism driving gear (301) form gear matching, the roller (304) is rotatably mounted on the optical axis of the stamping machine frame (1), one end of the non-elastic rope (305) is fixed on the cylindrical surface of the roller (304), and the upper pressing plate (308) is rotatably mounted at the front end of a force arm lever (307);

the paper rolling wheel rotating and floating device (4) further comprises: the stamping machine comprises a roller supporting rod (401), a friction roller (402), a roller rotating driving motor (403), a shifting fork moving driving motor (404), a motor base (405), a shifting fork lead screw (406), a long rack (407), a spline shaft (408), a shifting fork (409), a sliding gear (410), a forward rotation mechanism cylindrical gear (411), a gear carrier (412), a short rack (413), a reverse rotation mechanism cylindrical gear (414), a lifting mechanism driven gear (415), a lifting mechanism driving gear (416), a forward rotation mechanism conical gear (418), a transmission conical gear (419) and a reverse rotation mechanism conical gear (420), wherein the roller supporting rod (401) is slidably arranged in an arc-shaped slot hole of a stamping machine frame (1), the friction roller (402) is fixedly arranged on the roller supporting rod (401), and the roller rotating driving motor (403) is fixedly arranged on the upper surface of the motor base (405), a shifting fork moving drive motor (404) is also fixedly arranged on the upper surface of a motor base (405), a shifting fork lead screw (406) is fixedly arranged at the output end of a motor shaft of the shifting fork moving drive motor (404), a long rack (407) is fixedly arranged on the side surface of the motor base (405), a spline shaft (408) is fixedly arranged at the output end of a motor shaft of a roller rotating drive motor (403), a shifting fork (409) is rotatably arranged on the central shaft of a sliding gear (410) and forms a lead screw nut fit with the shifting fork lead screw (406) at the other end, the sliding gear (410) is rotatably arranged on the spline shaft (408) and can slide on the spline shaft (408), a cylindrical gear (411) of a forward rotation mechanism and a cylindrical gear (414) of a reverse rotation mechanism are rotatably arranged on the surfaces of two sides of a gear carrier (412) through a central fixedly arranged optical axis, and the cylindrical gear (411) of, a reverse mechanism cylindrical gear (414) and a sliding gear (410) can form gear fit, a lifting mechanism driven gear (415) is rotatably installed on an optical axis extending out of a stamping machine frame (1) and forms gear-rack fit with a long rack (407), a lifting mechanism driving gear (416) is fixedly installed on an output end of a motor shaft of a lifting mechanism motor (417), a forward mechanism conical gear (418) is fixedly installed on a central shaft of a forward mechanism cylindrical gear (411), a reverse mechanism conical gear (420) is fixedly installed on a central shaft of a reverse mechanism cylindrical gear (414), a pair of transmission conical gears (419) are rotatably installed on a gear frame (412) and form gear fit with the forward mechanism conical gear (418) and the reverse mechanism conical gear (420);

the paper feeding device (5) further includes: an upper paper twisting wheel (501), a lower paper twisting wheel (502), an upper paper twisting wheel transmission shaft (503), a paper twisting mechanism driving gear (505), an upper paper twisting wheel transmission gear (506), a lower paper twisting wheel transmission gear (507), a lower paper twisting wheel transmission shaft (508), a paper feeding mechanism driving gear (509), a paper feeding mechanism driven gear (511), a belt pulley (512), a belt (513) and a paper feeding roller (514), wherein the upper paper twisting wheel (501) is fixedly arranged on the upper paper twisting wheel transmission shaft (503), the lower paper twisting wheel (502) is fixedly arranged on the lower paper twisting wheel transmission shaft (508), the paper twisting mechanism driving gear (505) is fixedly arranged on a motor output shaft of a paper twisting wheel driving motor (504), the upper paper twisting wheel transmission gear (506) is fixedly arranged on the upper paper twisting wheel transmission shaft (503) and forms gear matching with the paper twisting mechanism driving gear (505), the lower paper twisting wheel transmission gear (507) is fixedly arranged on the lower paper twisting wheel transmission shaft (508), the paper feeding mechanism driving gear (509) is fixedly arranged on a paper feeding mechanism motor (510), a paper feeding mechanism driven gear (511) and a belt pulley (512) are fixedly arranged on the same shaft, the paper feeding mechanism driven gear (511) is in gear fit with the paper feeding mechanism motor (510), three pairs of belt pulleys (512) form belt roller fit with a belt (513), and 9 paper feeding rollers (514) are fixedly arranged with a shaft in the belt pulley (512).

2. The integrated stamping machine for the plane seal of the riding seal as claimed in claim 1, wherein: the lower bottom plate of the sliding guide seat (204) is fixedly connected with the upper top plate of the hydraulic cylinder (205) by bolts.

3. The integrated stamping machine for the plane seal of the riding seal as claimed in claim 1, wherein: the lower end of the hydraulic cylinder (205) is fixedly provided with an elastic sheet claw which can clamp the upper end of the stamp (206).

4. The integrated stamping machine for the plane seal of the riding seal as claimed in claim 1, wherein: the upper end of the inelastic rope (305) is connected with an iron ring, and the iron ring is sleeved on the polished rods on the two sides of the upper pressure plate (308).

5. The integrated stamping machine for the plane seal of the riding seal as claimed in claim 1, wherein: the lower pressing plate (306) is a pair of L-shaped bent plates, and a torsion spring is further mounted at the position where the rear end and the stamping machine frame (1) are rotatably mounted.

6. The integrated stamping machine for the plane seal of the riding seal as claimed in claim 1, wherein: and a torsion spring is also arranged at the part where the upper pressure plate (308) and the stamping machine frame (1) are rotatably arranged.

7. The integrated stamping machine for the plane seal of the riding seal as claimed in claim 1, wherein: the friction roller (402), the upper paper twisting wheel (501) and the paper feeding roller (514) are all rubber friction wheels.

8. The integrated stamping machine for the plane seal of the riding seal as claimed in claim 1, wherein: the shifting fork lead screw (406), the spline shaft (408), the roller wheel rotating driving motor (403) and the shifting fork moving driving motor (404) are fixedly connected through shaft couplings.

9. The integrated stamping machine for the plane seal of the riding seal as claimed in claim 1, wherein: the paper rolling device (3), the paper rolling wheel rotating and floating device (4) and the paper feeding device (5) are mechanisms symmetrically arranged on two sides of the stamping machine frame (1).