CN113002198A

CN113002198A - Automatic stamping device for printing and dyeing

Info

Publication number: CN113002198A
Application number: CN202110193608.0A
Authority: CN
Inventors: 刘丽娜
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-02-20
Filing date: 2021-02-20
Publication date: 2021-06-22

Abstract

The invention relates to an automatic stamping device, in particular to an automatic stamping device for printing and dyeing, which comprises a fixed base, a power driving device, an automatic stamping device and a paper rubbing device, wherein the power driving device is fixedly arranged above the fixed base, the automatic stamping device is fixedly arranged on the power driving device, and the paper rubbing device is fixedly arranged on the automatic stamping device.

Description

Automatic stamping device for printing and dyeing

Technical Field

The invention relates to an automatic stamping device, in particular to an automatic stamping device for printing and dyeing.

Background

In a paper document, stamping is a frequently used process, stamping is very complicated, old stamping modes are mostly manual stamping, repeated operation is very easy to cause people to have bored and conflicting emotions, a single step has a certain hypnotic effect, the working enthusiasm is seriously influenced, and labor is very wasted due to manual stamping.

Disclosure of Invention

The invention mainly solves the technical problem of providing an automatic stamping device for printing and dyeing, 1. the device can automatically stamp paper, and the stamped stamp can be automatically lifted up; 2. in the conveying process of the device, one end of the device is in a stop state before and after stamping, so that paper can be conveniently added; 3. the device can automatically take out the stamped paper and has a certain protection effect on the paper.

The purpose of the invention is realized by the following technical scheme:

the automatic stamping device for printing and dyeing comprises a fixed base, a power driving device, an automatic stamping device and a paper rubbing device, wherein the power driving device is fixedly installed above the fixed base, the automatic stamping device is fixedly installed on the power driving device, and the paper rubbing device is fixedly installed on the automatic stamping device.

As a further optimization of the technical scheme, the automatic stamping device for printing and dyeing comprises a supporting chassis, a forward and reverse rotation motor, a driving screw, a supporting slide bar, an L-shaped threaded rack, an L-shaped fixed rack and a driving mechanism, wherein the forward and reverse rotation motor is fixedly installed on the supporting chassis, the driving screw is installed at the output end of the forward and reverse rotation motor, the driving screw is movably installed on the supporting chassis, the supporting slide bar is fixedly installed on the supporting chassis, the L-shaped threaded rack is installed on the driving screw through threads, the L-shaped threaded rack is slidably installed on the supporting slide bar, the L-shaped fixed rack is fixedly installed on the supporting chassis, and the driving mechanism is fixedly installed on the L-shaped fixed rack;

the driving mechanism comprises an ejector rod, a spring A, a fixed round sleeve, a gear fixing frame and a driving gear, wherein the ejector rod is slidably mounted on the fixed round sleeve, two ends of the spring A are respectively and fixedly mounted on the ejector rod and the fixed round sleeve, the gear fixing frame is fixedly mounted on the ejector rod, and the driving gear is fixedly mounted on the gear fixing frame.

As further optimization of the technical scheme, the automatic stamping device for printing and dyeing comprises a fixed frame body, a paper conveying mechanism and a stamping mechanism, wherein the paper conveying mechanism is fixedly installed on the fixed frame body, and the stamping mechanism is fixedly installed on the fixed frame body;

the paper conveying mechanism comprises a sliding frame, a fixed sliding sleeve, a paper placing plate, a fixed sleeve body, a jacking sliding rod and a spring B, wherein the sliding frame is slidably mounted on the fixed sliding sleeve, the paper placing plate is fixedly mounted on the sliding frame, the fixed sleeve body is fixedly mounted on the paper placing plate, the jacking sliding rod is slidably mounted on the fixed sleeve body, and two ends of the spring B are respectively and fixedly mounted on the fixed sleeve body and the jacking sliding rod;

the stamping mechanism comprises an inclined frame, a driving plate, a spring C, a fixed concave frame, a poking rod, a driving column, a cam, a stamp body, a cam fixing frame and a balancing weight, wherein the inclined frame is fixedly installed on the fixed frame body, the driving plate is slidably installed on the inclined frame, two ends of the spring C are respectively and fixedly installed on the driving plate and the fixed concave frame, the fixed concave frame is fixedly installed on the inclined frame, the poking rod is fixedly installed on the driving plate, the driving column is in contact with the poking rod, the driving column is fixedly installed on the cam, the stamp body is fixedly installed on the cam, the cam is movably installed on the cam fixing frame through a shaft, the balancing weight is fixedly installed on the cam, and the cam fixing frame is fixedly installed.

As a further optimization of the technical scheme, the automatic stamping device for printing and dyeing comprises a fixed side plate, a paper rolling wheel fixing frame, a power motor, a transmission gear A, a transmission gear B and a paper rolling wheel, wherein the paper rolling wheel fixing frame is fixedly arranged on the fixed side plate, the power motor is fixedly arranged on the paper rolling wheel fixing frame, the transmission gear A is arranged at the output end of the power motor, the transmission gear A is meshed with the transmission gear B through teeth, the paper rolling wheel is fixedly arranged on the transmission gear B, and the paper rolling wheel is movably arranged on the paper rolling wheel fixing frame through a shaft.

The automatic stamping device for printing and dyeing has the beneficial effects that:

1. the forward and reverse rotation motor 202 drives the driving screw rod 203 to rotate, the driving screw rod 203 is driven to rotate and is in threaded connection with the L-shaped threaded rack 205, the L-shaped threaded rack 205 is driven to move, the L-shaped threaded rack 205 moves on the supporting slide rod 204 and slides on the supporting bottom frame 201, the supporting slide rod 204 has the function of supporting the L-shaped threaded rack 205 and prevents the L-shaped threaded rack 205 from rotating, the L-shaped threaded rack 205 moves on the supporting slide rod 204 and slides on the supporting bottom frame 201, the supporting bottom frame 201 has the function of supporting the L-shaped threaded rack 205, the movement is more stable, the L-shaped threaded rack 205 moves to push the ejector rod 208, the ejector rod 208 pulls the spring A209, the ejector rod 208 moves to drive the gear 212 to move through the gear fixing frame 211, the automatic stamping device 3 is driven to move through the driving gear 212, when the L-shaped threaded rack 205 is separated from the ejector rod 208, the spring A209 releases elastic potential, when the L-shaped threaded frame 205 is positioned in the middle of the supporting bottom frame 201, the L-shaped threaded frame does not contact with the ejector rod 208, so that the automatic stamping device 3 is in a static state, and automatic stamping and paper adding are facilitated;

2. the driving gear 212 moves to drive the sliding frame 304 to move, the sliding frame 304 moves to slide on the fixed sliding sleeve 305, the fixed sliding sleeve 305 slides on the fixed sliding sleeve 305 to drive the paper placing plate 306 to move, the paper placing plate 306 moves to drive the fixed sleeve body 307 to move, the fixed sleeve body 307 moves to drive the jacking sliding rod 308 to slide on the inclined frame 310, when the jacking sliding rod 308 moves to an intermediate position, the jacking sliding rod 308 jacks the driving plate 311 through the inclined plane and the inclined plane of the inclined frame 310, the driving plate 311 dials the driving column 315 through the shifting rod 314, so that the cam 316 rotates, the cam 316 rotates to drive the stamp body 317 to leave stamps on paper, and therefore the automatic stamping function is realized, when the jacking sliding rod 308 is separated from the driving plate 311, the spring C312 releases elastic potential energy, and the counterweight block 319 drives the cam 316 to rotate by using self gravity, so that the stamp body 317 can be automatically lifted;

3. when the paper placing plate 306 moves to the position below the paper rolling wheel 406, the power motor 403 is started, the power motor 403 drives the transmission gear A404 to rotate, if the transmission gear A404 rotates and is meshed with the transmission gear B405, the transmission gear B405 rotates and drives the paper rolling wheel 406 to rotate, so that the paper rolling wheel 406 rolls out stamped paper, and because the diameter of the paper rolling wheel 406 is larger than that of the transmission gear B405, the transmission gear B405 can be prevented from contacting the paper, the paper can be prevented from being damaged, meanwhile, the transmission gear B405 can be guaranteed to be meshed with the transmission gear A404, and the transmission stability is improved.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic overall perspective view of an automatic stamping device for printing and dyeing according to the present invention.

FIG. 2 is a schematic view of an overall supplementary three-dimensional structure of an automatic stamping device for printing and dyeing according to the present invention.

Fig. 3 is a schematic perspective view of a power driving device 2 of an automatic stamping device for printing and dyeing according to the present invention.

Fig. 4 is a schematic cross-sectional structure diagram of a driving mechanism 207 of an automatic stamping device for printing and dyeing according to the present invention.

Fig. 5 is a schematic perspective view of an automatic stamping device 3 of an automatic stamping device for printing and dyeing according to the present invention.

Fig. 6 is a schematic supplementary perspective view of an automatic stamping device 3 of an automatic stamping device for printing and dyeing according to the present invention.

Fig. 7 is a schematic perspective view of a paper feeding mechanism 302 of an automatic stamping device for printing and dyeing according to the present invention.

Fig. 8 is a schematic partial perspective view of a paper feeding mechanism 302 of an automatic stamping device for printing and dyeing according to the present invention.

Fig. 9 is a partial cross-sectional structural diagram of a paper conveying mechanism 302 of an automatic stamping device for printing and dyeing according to the present invention.

Fig. 10 is a schematic perspective view of a pushing slide bar 308 of an automatic stamping device for printing and dyeing according to the present invention.

Fig. 11 is a schematic perspective view of a stamping mechanism 303 of an automatic stamping device for printing and dyeing according to the present invention.

Fig. 12 is a schematic supplementary perspective view of a stamping mechanism 303 of an automatic stamping device for printing and dyeing according to the present invention.

Fig. 13 is a schematic perspective view of a paper rubbing device 4 of an automatic stamping device for printing and dyeing according to the present invention.

In the figure: a fixed base 1; a power driving device 2; a support chassis 201; a forward and reverse rotation motor 202; drives the screw 203; a support slide bar 204; an L-shaped threaded rack 205; an L-shaped mount 206; a drive mechanism 207; a top bar 208; a spring A209; a fixed round sleeve 210; a gear fixing bracket 211; the driving gear 212; an automatic stamping device 3; a fixed frame body 301; a paper transport mechanism 302; a stamping mechanism 303; a carriage 304; a fixed sliding sleeve 305; a paper placing plate 306; a fixed sleeve body 307; the sliding rod 308 is pushed; a spring B309; a ramp 310; a driving plate 311; a spring C312; a fixed concave frame 313; a tap lever 314; a driver post 315; a cam 316; a stamp body 317; a cam mount 318; a counterweight 319; a paper twisting device 4; a fixed side plate 401; a pickup roller holder 402; a power motor 403; transfer gear A404; drive gear B405; a pickup roller 406.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 and 2, and an automatic stamping device for printing and dyeing includes a fixed base 1, a power driving device 2, an automatic stamping device 3, and a paper rubbing device 4, wherein the power driving device 2 is fixedly installed above the fixed base 1, the automatic stamping device 3 is fixedly installed on the power driving device 2, and the paper rubbing device 4 is fixedly installed on the automatic stamping device 3.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 3 and 4, and the present embodiment further describes the first embodiment, where the power driving device 2 includes a supporting chassis 201, a forward and reverse rotation motor 202, a driving screw 203, a supporting slide bar 204, an L-shaped thread rack 205, an L-shaped fixing rack 206, and a driving mechanism 207, the forward and reverse rotation motor 202 is fixedly installed on the supporting chassis 201, the driving screw 203 is installed at an output end of the forward and reverse rotation motor 202, the driving screw 203 is movably installed on the supporting chassis 201, the supporting chassis 201 is fixedly installed with the supporting slide bar 204, the L-shaped thread rack 205 is installed on the driving screw 203 through a thread, the L-shaped thread rack 205 is slidably installed on the supporting slide bar 204, the L-shaped fixing rack 206 is fixedly installed on the supporting chassis 201, and the driving mechanism 207 is fixedly installed on the;

the driving mechanism 207 comprises a top rod 208, a spring A209, a fixed round sleeve 210, a gear fixing frame 211 and a driving gear 212, the top rod 208 is slidably mounted on the fixed round sleeve 210, two ends of the spring A209 are respectively fixedly mounted on the top rod 208 and the fixed round sleeve 210, the gear fixing frame 211 is fixedly mounted on the top rod 208, the driving gear 212 is fixedly mounted on the gear fixing frame 211, the reverse motor 202 drives the driving screw rod 203 to rotate, the driving screw rod 203 rotates to be in threaded connection with the L-shaped threaded frame 205, so as to drive the L-shaped threaded frame 205 to move, the L-shaped threaded frame 205 moves on the supporting slide rod 204, the supporting slide rod 204 plays a role in supporting the L-shaped threaded frame 205, the L-shaped threaded frame 205 is prevented from rotating, the L-shaped threaded frame 205 moves on the supporting slide rod 204 and slides on the supporting base frame 201, the supporting base frame 201 plays a role in supporting the L-, the movement is more stable, the L-shaped threaded frame 205 moves to push the ejector rod 208, the ejector rod 208 pulls the spring A209, the ejector rod 208 moves to drive the gear 212 to move through the gear fixing frame 211, and then the automatic stamping device 3 is driven to move through driving the gear 212, when the L-shaped threaded frame 205 is separated from the ejector rod 208, the spring A209 releases elastic potential energy, so that the driving gear 212 is restored to the initial movement position, and the L-shaped threaded frame 205 is not in contact with the ejector rod 208 when being located at the middle position of the supporting bottom frame 201, so that the automatic stamping device 3 is located in a static state, and automatic stamping and paper adding are facilitated.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, where the above-mentioned 3 includes a fixing frame body 301, a paper conveying mechanism 302, and a stamping mechanism 303, the fixing frame body 301 is fixedly installed with the paper conveying mechanism 302, and the stamping mechanism 303 is fixedly installed on the fixing frame body 301;

the paper conveying mechanism 302 comprises a sliding frame 304, a fixed sliding sleeve 305, a paper placing plate 306, a fixed sleeve body 307, a jacking sliding rod 308 and a spring B309, wherein the sliding frame 304 is slidably mounted on the fixed sliding sleeve 305, the paper placing plate 306 is fixedly mounted on the sliding frame 304, the fixed sleeve body 307 is fixedly mounted on the paper placing plate 306, the jacking sliding rod 308 is slidably mounted on the fixed sleeve body 307, and two ends of the spring B309 are fixedly mounted on the fixed sleeve body 307 and the jacking sliding rod 308 respectively;

the stamping mechanism 303 comprises an inclined frame 310, a driving plate 311, a spring C312, a fixed concave frame 313, a poking rod 314, a driving column 315, a cam 316, a stamp body 317, a cam fixing frame 318 and a balancing weight 319, wherein the inclined frame 310 is fixedly arranged on a fixed frame body 301, the driving plate 311 is slidably arranged on the inclined frame 310, two ends of the spring C312 are respectively fixedly arranged on the driving plate 311 and the fixed concave frame 313, the fixed concave frame 313 is fixedly arranged on the inclined frame 310, the poking rod 314 is fixedly arranged on the driving plate 311, the driving column 315 is in contact with the poking rod 314, the driving column 315 is fixedly arranged on the cam 316, the stamp body 317 is fixedly arranged on the cam 316, the cam 316 is movably arranged on the cam fixing frame 318 through a shaft, the balancing weight 319 is fixedly arranged on the cam 316, the cam fixing frame 318 is fixedly arranged on the fixed frame body 301, the sliding frame 304 moves on the fixed sliding sleeve 305, the fixed sliding sleeve 305 slides the paper releasing plate, the paper placing plate 306 moves to drive the fixed sleeve body 307 to move, the fixed sleeve body 307 moves to drive the pushing slide rod 308 to slide on the inclined frame 310, when the pushing slide rod 308 moves to the middle position, the pushing slide rod 308 pushes the driving plate 311 through the inclined plane and the inclined plane of the inclined frame 310, the driving plate 311 toggles the driving column 315 through the shifting rod 314, the cam 316 is further rotated, the cam 316 rotates to drive the stamp body 317 to leave a stamp on paper, and therefore the automatic stamping function is achieved.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 13, and the present embodiment further describes the first embodiment, the paper pickup device 4 includes a fixed side plate 401, a paper pickup wheel fixing frame 402, a power motor 403, a transmission gear a404, a transmission gear B405, and a paper pickup wheel 406, the fixed side plate 401 is fixedly provided with the paper pickup wheel fixing frame 402, the paper pickup wheel fixing frame 402 is fixedly provided with the power motor 403, an output end of the power motor 403 is provided with the transmission gear a404, the transmission gear a404 is engaged with the transmission gear B405 through teeth, the transmission gear B405 is fixedly provided with the paper pickup wheel 406, the paper pickup wheel 406 is movably mounted on the paper pickup wheel fixing frame 402 through a shaft, when the paper discharge board 306 moves to a position below the paper pickup wheel 406, the power motor 403 is started, the power motor 403 drives the transmission gear a404 to rotate, the transmission gear a404 rotates if it is engaged with the transmission gear B405, and, the transmission gear B405 rotates to drive the paper pickup wheel 406 to rotate, so that the paper pickup wheel 406 picks up stamped paper, and the diameter of the paper pickup wheel 406 is larger than that of the transmission gear B405, so that the transmission gear B405 can be prevented from contacting the paper, the paper is damaged, meanwhile, the transmission gear B405 can be ensured to be meshed with the transmission gear A404, and the transmission stability is improved.

The invention relates to an automatic stamping device for printing and dyeing, which has the working principle that:

the positive and negative rotation motor 202 is started, the positive and negative rotation motor 202 drives the screw rod 203 to rotate, the screw rod 203 is driven to rotate, the L-shaped threaded rack 205 is driven to move through being in threaded connection with the L-shaped threaded rack 205, the L-shaped threaded rack 205 moves on the supporting slide rod 204, the supporting slide rod 204 plays a role of supporting the L-shaped threaded rack 205 and preventing the L-shaped threaded rack 205 from rotating, the L-shaped threaded rack 205 moves on the supporting slide rod 204 and slides on the supporting bottom frame 201, the supporting bottom frame 201 plays a role of supporting the L-shaped threaded rack 205, the movement is more stable, the L-shaped threaded rack 205 moves to push the ejector rod 208, the ejector rod 208 pulls the spring A209, the ejector rod 208 moves to drive the gear 212 to move through the gear fixing frame 211, the automatic stamping device 3 is driven to move through the gear 212, and when the L-shaped threaded rack 205 is separated from the ejector rod 208, the spring A, the driving gear 212 is restored to the initial position of movement, and the L-shaped threaded rack 205 is not in contact with the ejector rod 208 when being located at the middle position of the supporting base frame 201, so that the automatic stamping device 3 is located in a static state, and automatic stamping and paper adding are facilitated.

The driving gear 212 moves to drive the sliding frame 304 to move, the sliding frame 304 moves to slide on the fixed sliding sleeve 305, the fixed sliding sleeve 305 slides on the fixed sliding sleeve 305 to drive the paper placing plate 306 to move, the paper placing plate 306 moves to drive the fixed sleeve body 307 to move, the fixed sleeve body 307 moves to drive the jacking sliding rod 308 to slide on the inclined frame 310, when the jacking sliding rod 308 moves to an intermediate position, the jacking sliding rod 308 jacks the driving plate 311 through the inclined plane and the inclined plane of the inclined frame 310, the driving plate 311 dials the driving column 315 through the shifting rod 314, so that the cam 316 rotates, the cam 316 rotates to drive the stamp body 317 to leave stamps on paper, and therefore the automatic stamping function is achieved, when the jacking sliding rod 308 is separated from the driving plate 311, the spring C312 releases elastic potential energy, and meanwhile, the counter weight 319 drives the cam 316 to rotate through self gravity, and the automatic lifting function of the stamp body 317 is.

When the paper placing plate 306 moves to the position below the paper rolling wheel 406, the power motor 403 is started, the power motor 403 drives the transmission gear A404 to rotate, if the transmission gear A404 rotates and is meshed with the transmission gear B405, the transmission gear B405 rotates and drives the paper rolling wheel 406 to rotate, so that the paper rolling wheel 406 rolls out stamped paper, and because the diameter of the paper rolling wheel 406 is larger than that of the transmission gear B405, the transmission gear B405 can be prevented from contacting the paper, the paper can be prevented from being damaged, meanwhile, the transmission gear B405 can be guaranteed to be meshed with the transmission gear A404, and the transmission stability is improved.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a printing and dyeing is with automatic device of stamping, includes unable adjustment base (1), power drive arrangement (2), automatic device of stamping (3) and rubbing paper device (4), its characterized in that: the automatic stamping device is characterized in that a power driving device (2) is fixedly installed above the fixed base (1), an automatic stamping device (3) is fixedly installed on the power driving device (2), and a paper twisting device (4) is fixedly installed on the automatic stamping device (3).

2. The automatic stamping device for printing and dyeing according to claim 1, characterized in that: the power driving device (2) comprises a supporting bottom frame (201), a forward and reverse rotation motor (202), a driving screw (203), a supporting slide rod (204), an L-shaped threaded frame (205), an L-shaped fixed frame (206) and a driving mechanism (207), wherein the forward and reverse rotation motor (202) is fixedly installed on the supporting bottom frame (201), the driving screw (203) is installed at the output end of the forward and reverse rotation motor (202), the driving screw (203) is movably installed on the supporting bottom frame (201), the supporting slide rod (204) is fixedly installed on the supporting bottom frame (201), the L-shaped threaded frame (205) is installed on the driving screw (203) through threads, the L-shaped threaded frame (205) is slidably installed on the supporting slide rod (204), the L-shaped fixed frame (206) is fixedly installed on the supporting bottom frame (201), and the driving mechanism (207) is fixedly installed on the L-shaped;

drive mechanism (207) include ejector pin (208), spring A (209), fixed round cover (210), gear fixing frame (211), drive gear (212), ejector pin (208) slidable mounting is on fixed round cover (210), the both ends of spring A (209) fixed mounting respectively is on ejector pin (208) and fixed round cover (210), fixed mounting has gear fixing frame (211) on ejector pin (208), fixed mounting has drive gear (212) on gear fixing frame (211).

3. The automatic stamping device for printing and dyeing according to claim 1, characterized in that: the stamping device (3) comprises a fixed frame body (301), a paper conveying mechanism (302) and a stamping mechanism (303), wherein the paper conveying mechanism (302) is fixedly installed on the fixed frame body (301), and the stamping mechanism (303) is fixedly installed on the fixed frame body (301);

the paper conveying mechanism (302) comprises a sliding frame (304), a fixed sliding sleeve (305), a paper placing plate (306), a fixed sleeve body (307), a jacking sliding rod (308) and a spring B (309), wherein the sliding frame (304) is slidably mounted on the fixed sliding sleeve (305), the paper placing plate (306) is fixedly mounted on the sliding frame (304), the fixed sleeve body (307) is fixedly mounted on the paper placing plate (306), the jacking sliding rod (308) is slidably mounted on the fixed sleeve body (307), and two ends of the spring B (309) are respectively and fixedly mounted on the fixed sleeve body (307) and the jacking sliding rod (308);

the stamping mechanism (303) comprises an inclined frame (310), a driving plate (311), a spring C (312), a fixed concave frame (313), a poking rod (314), a driving column (315), a cam (316), a stamp body (317), a cam fixing frame (318) and a balancing weight (319), wherein the inclined frame (310) is fixedly arranged on the fixed frame body (301), the driving plate (311) is slidably arranged on the inclined frame (310), two ends of the spring C (312) are respectively and fixedly arranged on the driving plate (311) and the fixed concave frame (313), the fixed concave frame (313) is fixedly arranged on the inclined frame (310), the poking rod (314) is fixedly arranged on the driving plate (311), the driving column (315) is in contact with the poking rod (314), the driving column (315) is fixedly arranged on the cam (316), the stamp body (317) is fixedly arranged on the cam (316), and the cam (316) is movably arranged on the cam fixing frame (313), the cam (316) is fixedly provided with a balancing weight (319), and the cam fixing frame (318) is fixedly arranged on the fixing frame body (301).

4. The automatic stamping device for printing and dyeing according to claim 1, characterized in that: the paper twisting device (4) comprises a fixed side plate (401), a paper twisting wheel fixing frame (402), a power motor (403), a transmission gear A (404), a transmission gear B (405) and a paper twisting wheel (406), the paper twisting wheel fixing frame (402) is fixedly installed on the fixed side plate (401), the power motor (403) is fixedly installed on the paper twisting wheel fixing frame (402), the transmission gear A (404) is installed at the output end of the power motor (403), the transmission gear A (404) is meshed with the transmission gear B (405) through teeth, the paper twisting wheel (406) is fixedly installed on the transmission gear B (405), and the paper twisting wheel (406) is movably installed on the paper twisting wheel fixing frame (402) through a shaft.