CN117842484B - Modularized and easily-adjusted automatic plaster production system - Google Patents

Abstract

The invention relates to the technical field of plaster, in particular to a modularized plaster automatic production system easy to adjust, which solves the problems that the type of a sealing plate can not be adjusted according to the weight of the produced plaster and the production process is complicated. The automatic plaster production device comprises an automatic plaster production machine, wherein a plaster sealing plate module adjusting and replacing mechanism is fixedly arranged at the middle position of the upper end face of the automatic plaster production machine and comprises a synchronous retraction positioning mechanism, an adjusting mechanism, a high-hardness plaster sealing module, a high-adaptability plaster sealing module and a circular metal shell. The invention can change the sealing type according to the weight of the plaster produced by the equipment so as to ensure the product quality of the plaster, and can automatically store the cut plaster into the packing box in the cutting process, thereby reducing the production steps of the equipment and improving the production efficiency of the plaster.

Description

Modularized and easily-adjusted automatic plaster production system

Technical Field

The invention relates to the technical field of plaster, in particular to a modularized and easily-adjustable automatic plaster production system.

Background

The automatic plaster production system is automatic production equipment for producing plaster, integrates a plurality of technologies and equipment, can realize a plurality of technological processes of automatic batching, stirring, coating, cutting and the like of the plaster, can effectively improve the production efficiency and the product quality of the plaster, reduce the cost and the risk, and provide powerful support for the development of pharmaceutical enterprises;

However, the device can only realize punching and cutting of the plaster, but can not realize cutting of the plaster, manual cutting is needed in the using process, and the problem of inconvenient use is solved, firstly, the patent number CN216229817U in the prior art is named as an adjustable plaster production device, the first double-pressure roller feeding mechanism, the punching mechanism, the cutting mechanism, the second double-pressure roller feeding mechanism and the slicing mechanism are sequentially connected with the plaster wound on the unwinding mechanism, the plaster enters a cutting gap between the first roller shaft and the second roller shaft, a plurality of groups of annular cutters are matched with the driving mechanism to cut the plaster into a plurality of plaster strips with equal length, then the slicing mechanism is matched with the plaster strips to cut the plaster strips into a plurality of plaster strips with equal length, and the spacing between the annular cutters can be adjusted according to actual production requirements, so that the width of the plaster strips is controlled, and the plaster strips can meet different production requirements.

However, when using such an automatic plaster production apparatus, it is necessary to press a base material and a cover film for sealing the plaster using a plaster sealing plate, and in doing so, it is necessary to use different types of sealing plates according to the kind of plaster, for example, for a traditional Chinese medicine plaster, since the base material is a natural material, it has great flexibility and softness, it is necessary to use a pressing sealing plate having great adaptability to maintain the flatness and shape of the plaster, whereas for a western medicine plaster, since the base material is a plastic, rubber, etc. material, it has great hardness and rigidity, it is necessary to use a pressing sealing plate having appropriate hardness and flatness to ensure the flatness and adhesiveness of the plaster, and this apparatus cannot uniformly store the plaster produced by the apparatus according to the kind of the cover plate of the plaster, its own flexibility angle, and it is necessary to manually post-load the plaster into the package box by hand or place it in a corresponding packaging apparatus, thereby affecting the overall production efficiency of the plaster; therefore, the existing requirements are not met, and a modularized and easily-adjusted automatic plaster production system is provided.

Disclosure of Invention

The invention aims to provide a modularized and easily-adjustable automatic plaster production system so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the automatic plaster production system comprises a plaster automatic production machine, wherein a plaster sealing plate module adjusting and replacing mechanism is fixedly arranged at the middle position of the upper end face of the plaster automatic production machine, the plaster sealing plate module adjusting and replacing mechanism comprises a synchronous retraction positioning mechanism, an adjusting mechanism, a high-hardness plaster sealing module, a high-adaptability plaster sealing module and a circular metal shell, the high-hardness plaster sealing module and the high-adaptability plaster sealing module can be synchronously driven to outwards or inwards move through the synchronous retraction positioning mechanism, and the high-hardness plaster sealing module and the high-adaptability plaster sealing module can be synchronously driven to revolve around the circular metal shell through the adjusting mechanism;

The automatic storage and packaging mechanism for the finished plaster is fixedly arranged at the position, close to the rear end face, of the upper end face of the automatic plaster production machine and comprises a plaster packing box, a square plaster cutting knife, a lower pressing head and a synchronous transmission mechanism, wherein the plaster packing box is positioned at the middle position below the square plaster cutting knife, and the square plaster cutting knife and the lower pressing head can be synchronously driven to move downwards independently through the synchronous transmission mechanism.

Preferably, the adjusting mechanism comprises two storage grooves, the two storage grooves are respectively located at the middle positions of the upper end face and the lower end face of the circular metal shell, the bottom end part of the high-adaptability adhesive plaster sealing module is located in the storage groove at the middle position of the upper end face of the circular metal shell, and the top end part of the high-hardness adhesive plaster sealing module is located in the storage groove at the middle position of the lower end face of the circular metal shell.

Preferably, a round metal plate A connected with the round metal shell through a roller bearing is arranged in the middle of the front of the round metal shell, two sides of the lower end face of the round metal plate A are fixedly connected with a supporting rod A, and the other end of the supporting rod A is fixed with an automatic plaster production machine;

The middle position of the front end face of the circular metal plate A is fixedly provided with a replacement motor, an output shaft of the replacement motor is connected with an adjusting rotating shaft through a coupler, and the rear end face of the adjusting rotating shaft is fixed with the middle position of the front end face of the circular metal shell through penetrating through the circular metal plate A.

Preferably, the synchronous retraction positioning mechanism comprises a circular metal plate B, wherein the outer side of the front end surface of the circular metal plate B is connected with a circular metal shell through a roller bearing, two sides of the lower end surface of the circular metal plate B are fixedly connected with a supporting rod B, and the other end of the supporting rod B is fixed with an automatic plaster production machine;

the middle position of the rear end face of the circular metal plate B is provided with a circular through hole penetrating through the circular metal plate B, and a retraction motor fixedly installed in the middle position of the rear end face of the circular metal shell is arranged in the circular through hole.

Preferably, the output shaft of the winding and unwinding motor is connected with a transmission rotating shaft through a coupling, a bevel gear A positioned in the circular metal shell is fixedly sleeved on one side of the outer surface of the transmission rotating shaft, two bevel gears B are meshed with two sides of the outer surface of the bevel gear A, a gear rotating shaft is connected with the shaft center of the bevel gear B, a bevel gear C is fixedly sleeved on the other side of the outer surface of the gear rotating shaft, a bevel gear D is meshed with two sides of the outer surface of the bevel gear C, and a square transmission rotating shaft is connected with the shaft center of the bevel gear D.

Preferably, an internal thread through hole positioned in the circular metal shell is formed in the outer side of the square transmission rotating shaft, an external thread column matched with the internal thread of the internal thread through hole is arranged in the internal thread through hole, an anti-falling circular plate is fixedly arranged on the surface of the external thread column, facing the bevel gear D, of the external thread column, square connecting ports extending to the interior of the external thread column through penetrating the anti-falling circular plate are arranged on the surface, facing the bevel gear D, of the anti-falling circular plate, and four square transmission rotating shafts are respectively inserted into the interiors of the four square connecting ports;

the section of the inner wall of the square connecting port is square, the outer surface of the square transmission rotating shaft is attached to the inner wall of the square connecting port, and the square transmission rotating shaft is connected with the square connecting port in a sliding manner;

The upper end faces of the two external thread columns positioned on the upper side inside the circular metal shell are connected with the high-adaptability plaster sealing module through a roller bearing, and the lower end faces of the two external thread columns positioned on the lower side inside the circular metal shell are connected with the high-hardness plaster sealing module through a roller bearing.

Preferably, two sides of the lower end surface of the high-hardness adhesive plaster sealing module and two sides of the upper end surface of the high-adaptability adhesive plaster sealing module are fixedly provided with a positioning plate, one side of the outer surface of the positioning plate is fixedly provided with positioning heads, the outer sides of the two positioning heads positioned below the circular metal shell are provided with positioning grooves which are attached to the inner walls of the positioning heads, and the positioning grooves are positioned on the upper end surface of the automatic adhesive plaster production machine;

The high-hardness plaster sealing module is characterized in that a dustproof shell is arranged above the high-hardness plaster sealing module, two connecting ports are formed in two sides of the inside of the dustproof shell, and two positioning heads above the round metal shell are respectively inserted into the two connecting ports.

Preferably, the high-hardness plaster sealing module comprises a high-hardness plaster sealing plate, a rectangular plate A and a sealing cylinder A, wherein the high-hardness plaster sealing plate is positioned below the rectangular plate A, the sealing cylinder A is fixedly arranged in the middle of the upper end surface of the rectangular plate A, and a piston rod of the sealing cylinder A is connected with the high-hardness plaster sealing plate;

the high-adaptability plaster sealing module comprises a high-adaptability plaster sealing plate, a rectangular plate B and a sealing cylinder B, wherein the high-adaptability plaster sealing plate is located above the rectangular plate B, the sealing cylinder B is fixedly installed at the middle position of the lower end face of the rectangular plate B, and a piston rod of the sealing cylinder B is connected with the high-adaptability plaster sealing plate.

Preferably, the synchronous transmission mechanism comprises an inverted concave metal shell, a horizontal bar cylinder is fixedly arranged in the inverted concave metal shell, a piston rod of the horizontal bar cylinder is connected with a square metal column, and the square plaster cutting knife is fixed on the lower end face of the square metal column;

The front and rear sides of the square metal column are respectively provided with a pushing head, the surfaces of the pushing heads facing the square metal column are fixedly connected with a pushing rod, the opposite surfaces of the two pushing rods are respectively connected with a pushing head, a rectangular head is arranged between the two pushing heads, the surfaces of the pushing heads facing the rectangular heads and the surface discs of the pushing heads facing the rectangular heads are inclined surfaces, the middle positions of the lower end surfaces of the rectangular heads are fixedly provided with connecting rods, and the lower pressing heads are fixed on the lower end surfaces of the connecting rods;

and two sides of the lower end surface of the rectangular head are connected with a reset spring.

Preferably, a cuboid groove is fixedly formed in the upper side of the rear end face of the automatic plaster production machine, a plaster packaging positioning groove is formed in one side of the inner wall of the lower end of the cuboid groove, a plaster packaging box is arranged in the plaster packaging positioning groove, and a packaging box cover is arranged on one side of the plaster packaging box;

A through hole is formed between the plaster packing box and the inverted concave metal shell, two inclined surface contact strips are fixedly arranged on two sides of the inner wall of the through hole, the positions of the two inclined surface contact strips are opposite to the positions of the two pushing heads respectively, and the surface of the inclined surface contact strip facing the pushing heads and the surface of the pushing heads facing the inclined surface contact strips are inclined surfaces;

the utility model discloses a plaster automatic production machine, including the packing lid, the packing lid is equipped with the plaster substrate take-up roll, the both sides of plaster substrate take-up roll up end are all fixed be equipped with one with the plaster tectorial membrane laminating pole that is fixed mutually between the plaster automatic production machine, the place ahead of plaster substrate take-up roll is equipped with installs in the conveyer belt of plaster automatic production machine inside, just the up end of conveyer belt and the up end of plaster substrate take-up roll are in on the same horizontal parallel line.

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

1. According to the invention, the positions of the high-hardness plaster sealing module and the high-adaptability plaster sealing module can be exchanged through the plaster sealing plate module adjusting and replacing mechanism, and the high-hardness plaster sealing module or the high-adaptability plaster sealing module positioned below the plaster sealing module is positioned and fixed;

2. The invention can automatically store the plaster produced by the plaster automatic production machine into the plaster packing box for packing the plaster by the automatic plaster storage and packing mechanism, so that the plaster is not required to be manually filled or placed on the packing equipment, thereby reducing the operation steps in plaster production and increasing the functionality of the equipment.

Drawings

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

FIG. 2 is a schematic side elevational view of the entire structure of the present invention;

FIG. 3 is a side view of the overall internal structure of the present invention;

FIG. 4 is an enlarged view of the structure of FIG. 3A in accordance with the present invention;

FIG. 5 is a schematic view showing the internal structure of the device of FIG. 2C according to the present invention;

fig. 6 is an enlarged view of the internal structure at B in fig. 5 according to the present invention.

In the figure: 1. an automatic plaster production machine; 2. the finished plaster automatic storage and packaging mechanism; 201. an inverted concave metal housing; 202. a horizontal bar cylinder; 203. a cutting knife for the clip plaster; 204. square metal columns; 205. a pushing head; 206. a push rod; 207. pressing down the pushing head; 208. a rectangular head; 209. a connecting rod; 210. a lower pressure head; 211. a return spring; 212. a rectangular groove; 213. a plaster packing positioning groove; 214. plaster packing box; 215. a packaging box cover; 216. a through port; 217. a beveled contact strip; 218. a plaster substrate take-up roll; 219. a plaster film laminating rod; 3. a circular metal housing; 4. a dust-proof case; 5. a circular metal plate A; 6. replacing the motor; 7. a circular metal plate B; 8. a circular through hole; 9. a winding and unwinding motor; 10. a transmission rotating shaft; 11. bevel gear a; 12. bevel gear B; 13. a gear shaft; 14. bevel gear C; 15. bevel gear D; 16. square transmission rotating shaft; 17. a storage groove; 18. a high hardness patch sealing module; 19. a high-adaptability plaster sealing module; 20. a positioning plate; 21. a positioning head; 22. a positioning groove; 23. an external threaded column; 24. a square connecting port; 25. an internally threaded through hole; 26. an anti-drop circular plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1 to 6, an embodiment of the present invention provides: the utility model provides a modularization easy-to-adjust's plaster automated production system, including plaster automatic production machine 1, plaster closing plate module adjustment change mechanism is installed to the intermediate position fixed mounting of plaster automatic production machine 1 up end, plaster closing plate module adjustment change mechanism includes synchronous receive and releases positioning mechanism, guiding mechanism, high rigidity nature plaster sealing module 18, high adaptability plaster sealing module 19 and circular metal casing 3, can synchronous drive high rigidity nature plaster sealing module 18 and high adaptability plaster sealing module 19 outwards or inwards move through synchronous receive and release positioning mechanism, can synchronous drive high rigidity nature plaster sealing module 18 and high adaptability plaster sealing module 19 revolve around circular metal casing 3 as the center through guiding mechanism.

The adjusting mechanism comprises two containing grooves 17, the two containing grooves 17 are respectively positioned at the middle positions of the upper end face and the lower end face of the round metal shell 3, the bottom end part of the high-adaptability adhesive plaster sealing module 19 is positioned in the containing groove 17 at the middle position of the upper end face of the round metal shell 3, and the top end part of the high-hardness adhesive plaster sealing module 18 is positioned in the containing groove 17 at the middle position of the lower end face of the round metal shell 3; a round metal plate A5 connected with the round metal shell 3 through a roller bearing is arranged in the middle of the front of the round metal shell, two sides of the lower end surface of the round metal plate A5 are fixedly connected with a supporting rod A, and the other end of the supporting rod A is fixed with the automatic plaster production machine 1;

The middle position of the front end face of the circular metal plate A5 is fixedly provided with a replacement motor 6, an output shaft of the replacement motor 6 is connected with an adjusting rotating shaft through a coupler, and the rear end face of the adjusting rotating shaft is fixed with the middle position of the front end face of the circular metal shell 3 by penetrating through the circular metal plate A5.

The synchronous retraction positioning mechanism comprises a circular metal plate B7, the outer side of the front end surface of the circular metal plate B7 is connected with the circular metal shell 3 through a roller bearing, two sides of the lower end surface of the circular metal plate B7 are fixedly connected with a supporting rod B, and the other end of the supporting rod B is fixed with the automatic plaster production machine 1;

a circular through hole 8 penetrating through the circular metal plate B7 is arranged in the middle of the rear end face of the circular metal plate B7, and a retraction motor 9 fixedly arranged in the middle of the rear end face of the circular metal shell 3 is arranged in the circular through hole 8; in use, the use of each mechanism is checked, the device is moved to the working area, and when the high-adaptability plaster sealing module 19 is required to be used, the winding and unwinding motor 9 is started.

The output shaft of the winding and unwinding motor 9 is connected with a transmission rotating shaft 10 through a coupler, one side of the outer surface of the transmission rotating shaft 10 is fixedly sleeved with a bevel gear A11 positioned in the circular metal shell 3, two sides of the outer surface of the bevel gear A11 are respectively engaged with a bevel gear B12, the axle center of the bevel gear B12 is connected with a gear rotating shaft 13, the other side of the outer surface of the gear rotating shaft 13 is fixedly sleeved with a bevel gear C14, two sides of the outer surface of the bevel gear C14 are respectively engaged with a bevel gear D15, and the axle center of the bevel gear D15 is connected with a square transmission rotating shaft 16; the high-adaptability plaster sealing module 19 can drive the transmission rotating shaft 10 connected with the high-adaptability plaster sealing module to rotate, when the transmission rotating shaft 10 rotates, the bevel gear A11 fixedly sleeved on the outer surface of the transmission rotating shaft 10 and the two bevel gears B12 meshed with the bevel gear A11 synchronously rotate along with the transmission rotating shaft, when the bevel gear B12 rotates, the gear rotating shaft 13 connected with the axis of the bevel gear B12 and the bevel gear C14 fixedly sleeved on the outer surface of the gear rotating shaft 13 synchronously rotate, and when the bevel gear C14 rotates, the bevel gear D15 meshed with the bevel gear C14 and the square transmission rotating shaft 16 connected with the axis of the bevel gear D15 synchronously rotate.

The outer side of the square transmission rotating shaft 16 is provided with an internal thread through hole 25 positioned in the circular metal shell 3, an external thread column 23 matched with the internal thread of the internal thread through hole 25 is arranged in the internal thread through hole, the surface of the external thread column 23 facing the bevel gear D15 is fixedly provided with an anti-drop circular plate 26, the surface of the anti-drop circular plate 26 facing the bevel gear D15 is provided with a square connecting port 24 which extends to the interior of the external thread column 23 by penetrating the anti-drop circular plate 26, and the four square transmission rotating shafts 16 are respectively inserted into the interiors of the four square connecting ports 24;

The section of the inner wall of the square connecting port 24 is square, the outer surface of the square transmission rotating shaft 16 is attached to the inner wall of the square connecting port 24, and the square transmission rotating shaft 16 is connected with the square connecting port 24 in a sliding manner; because the outer surface of the square transmission shaft 16 is attached to the inner wall of the square connection port 24 located inside the external screw thread post 23, when the square transmission shaft 16 rotates, the external screw thread post 23 will rotate synchronously therewith, and the rotating external screw thread post 23 can move up and down inside the internal screw thread through hole 25 by the internal screw thread transmission of the internal screw thread through hole 25.

The upper end surfaces of the two external thread columns 23 positioned at the upper side of the inner part of the circular metal shell 3 are connected with the high-adaptability plaster sealing module 19 through roller bearings, and the lower end surfaces of the two external thread columns 23 positioned at the lower side of the inner part of the circular metal shell 3 are connected with the high-hardness plaster sealing module 18 through roller bearings; since the two sides of the lower end surface of the high-adaptability adhesive plaster sealing module 19 and the two sides of the upper end surface of the high-hardness adhesive plaster sealing module 18 are connected with the external screw thread columns 23 through the roller bearings, the high-adaptability adhesive plaster sealing module 19 and the high-hardness adhesive plaster sealing module 18 cannot rotate by themselves, when the two external screw thread columns 23 positioned at the upper side inside the circular metal shell 3 move downwards while rotating, the high-adaptability adhesive plaster sealing module 19 moves downwards, when the two external screw thread columns 23 positioned at the lower side inside the circular metal shell 3 move upwards while rotating, the high-hardness adhesive plaster sealing module 18 moves upwards, and along with the movement of the high-hardness adhesive plaster sealing module 18 and the high-adaptability adhesive plaster sealing module 19, the high-hardness adhesive plaster sealing module 18 and the high-adaptability adhesive plaster sealing module 19 gradually enter the inside of the containing groove 17.

The two sides of the lower end face of the high-hardness adhesive plaster sealing module 18 and the two sides of the upper end face of the high-adaptability adhesive plaster sealing module 19 are fixedly provided with a positioning plate 20, one side of the outer surface of the positioning plate 20 is fixedly provided with positioning heads 21, the outer sides of the two positioning heads 21 positioned below the circular metal shell 3 are provided with positioning grooves 22 attached to the inner walls of the positioning heads, and the positioning grooves 22 are positioned on the upper end face of the automatic adhesive plaster production machine 1; the positioning head 21 indirectly connected with the high-hardness adhesive plaster sealing modules 18 is separated from the inside of the positioning groove 22 along with the rising of the high-hardness adhesive plaster sealing modules 18, so that the positioning of the high-hardness adhesive plaster sealing modules 18 is released, after the positioning of the high-hardness adhesive plaster sealing modules 18 is released, the replacement motor 6 is started, the circular metal shell 3 connected with the replacement motor 6 can be driven to rotate by itself through the replacement motor 6, the positions of the high-hardness adhesive plaster sealing modules 18 and the high-adaptability adhesive plaster sealing modules 19 are changed along with the rising of the high-hardness adhesive plaster sealing modules 18, the winding and unwinding motor 9 is started again to push the high-hardness adhesive plaster sealing modules 18 and the high-adaptability adhesive plaster sealing modules 19 outwards along with the movement of the high-adaptability adhesive plaster sealing modules 19, the positioning head 21 indirectly connected with the high-adaptability adhesive plaster sealing modules 19 is inserted into the inside of the positioning groove 22 along with the rising of the high-hardness adhesive plaster sealing modules, and then the high-adaptability adhesive plaster sealing modules 19 can be fixed and positioned by the high-adaptability adhesive plaster sealing modules, and then the type of the sealing equipment can be changed by the high-adaptability adhesive plaster sealing modules 19 through the high-adaptability adhesive plaster sealing modules 19;

A dustproof shell 4 is arranged above the high-hardness plaster sealing module 18, two connecting ports are arranged on two sides of the inside of the dustproof shell 4, and two positioning heads 21 positioned above the circular metal shell 3 are respectively inserted into the insides of the two connecting ports; when the positions of the high-hardness plaster sealing module 18 and the high-adaptability plaster sealing module 19 are replaced, the dust-proof case 4 needs to be removed first, and after the positions of the high-hardness plaster sealing module 18 and the high-adaptability plaster sealing module 19 are replaced, the connecting port positioned inside the dust-proof case 4 is aligned with the positioning head 21 indirectly connected with the high-hardness plaster sealing module 18, and then the positioning head is inserted, so that the high-hardness plaster sealing module 18 or the high-adaptability plaster sealing module 19 which is not in the working state can be isolated from the outside through the dust-proof case 4, thereby protecting the high-hardness plaster sealing module 18 or the high-adaptability plaster sealing module 19.

The high-hardness plaster sealing module 18 comprises a high-hardness plaster sealing plate, a rectangular plate A and a sealing cylinder A, wherein the high-hardness plaster sealing plate is positioned below the rectangular plate A, the sealing cylinder A is fixedly arranged in the middle of the upper end surface of the rectangular plate A, and a piston rod of the sealing cylinder A is connected with the high-hardness plaster sealing plate;

The high-adaptability plaster sealing module 19 comprises a high-adaptability plaster sealing plate, a rectangular plate B and a sealing cylinder B, wherein the high-adaptability plaster sealing plate is positioned above the rectangular plate B, the sealing cylinder B is fixedly arranged in the middle of the lower end surface of the rectangular plate B, and a piston rod of the sealing cylinder B is connected with the high-adaptability plaster sealing plate; when the plaster to be sealed moves to the lower part of the high-hardness plaster sealing plate or the high-adaptability plaster sealing plate, the sealing cylinder B or the sealing cylinder A is started to push the high-hardness plaster sealing plate or the high-adaptability plaster sealing plate downwards, so that the plaster is sealed.

The automatic plaster storage and packaging mechanism 2 for finished plaster is fixedly arranged at the position, close to the rear end face, of the upper end face of the automatic plaster production machine 1, and the automatic plaster storage and packaging mechanism 2 for finished plaster comprises a plaster packing box 214, a square plaster cutting knife 203, a lower pressing head 210 and a synchronous transmission mechanism, wherein the plaster packing box 214 is positioned at the middle position below the square plaster cutting knife 203, and the square plaster cutting knife 203 and the lower pressing head 210 can be synchronously driven to move downwards independently through the synchronous transmission mechanism.

The synchronous transmission mechanism comprises an inverted concave metal shell 201, a horizontal bar cylinder 202 is fixedly arranged in the inverted concave metal shell 201, a piston rod of the horizontal bar cylinder 202 is connected with a square metal column 204, and a square plaster cutter 203 is fixed on the lower end face of the square metal column 204;

A pushing head 205 is arranged at the front and rear of the square metal column 204, a pushing rod 206 is fixedly connected to the surface of the pushing head 205 facing the square metal column 204, a pushing head 207 is connected to the opposite surfaces of the two pushing rods 206, a rectangular head 208 is arranged between the two pushing heads 207, the surface of the pushing head 207 facing the rectangular head 208 and the surface disc of the rectangular head 208 facing the pushing head 207 are inclined surfaces, a connecting rod 209 is fixedly arranged in the middle of the lower end surface of the rectangular head 208, and a pressing head 210 is fixed to the lower end surface of the connecting rod 209;

A reset spring 211 is connected to both sides of the lower end surface of the rectangular head 208; when the plaster processed by the automatic plaster production machine 1 moves below the square plaster cutting knife 203, the horizontal bar air cylinder 202 is started, the square metal column 204 connected with the square metal column and the square plaster cutting knife 203 fixed on the lower end surface of the square metal column 204 can be pushed downwards by the horizontal bar air cylinder 202, when the square plaster cutting knife 203 contacts a coating film covered on the upper end surface of the plaster, the square plaster cutting knife 203 cuts the coating film and penetrates through the coating film to contact a substrate positioned on the lower end surface of the plaster until the coating film and the substrate positioned in the square plaster cutting knife 203 are cut off from the whole, and the plaster with the coating film and the substrate respectively positioned on the upper end surface and the lower end surface of the cut plaster descends along with the square metal column 204 and descends synchronously;

Two pushing heads 205 positioned at the front and rear of the square metal column 204 are contacted with the inclined surface contact bar 217 along with the descending of the square metal column 204, when the two pushing heads are contacted with each other and the square metal column 204 is descended along with the descending, the pushing heads 205 are pushed inwards, the pushing heads 207 which are connected with the pushing heads 205 through the pushing rods 206 along with the movement of the pushing heads 205 are also moved inwards along with the descending, when the two pushing heads 207 synchronously move inwards, the rectangular heads 208 positioned between the two pushing heads are pushed downwards, the lower pressure heads 210 which are connected with the rectangular heads 208 through the connecting rods 209 along with the descending of the rectangular heads 208 are also descended along with the descending of the lower pressure heads 210, the lower pressure heads 210 are contacted with the plaster which is cut inside the square plaster cutting knife 203, and the plaster is pushed out from the inside of the square plaster cutting knife 203;

A cuboid groove 212 is fixedly formed in the upper side of the rear end face of the automatic plaster production machine 1, a plaster packing positioning groove 213 is formed in one side of the inner wall of the lower end of the cuboid groove 212, a plaster packing box 214 is arranged in the plaster packing positioning groove 213, and a packing box cover 215 is arranged on one side of the plaster packing box 214; the plaster pushed out from the inside of the square plaster cutter 203 is fed into the inside of the plaster packing box 214 by the lower pressing head 210, when the inside of the plaster packing box 214 is filled with enough plaster, the plaster packing box 214 is directly taken out, the packing box cover 215 is covered on the upper end face of the plaster packing box, and then a new plaster packing box 214 is taken out and the bottom end part of the plaster packing box is put into the inside of the plaster packing positioning groove 213;

through the technical scheme, the plaster can be directly filled into the plaster packaging box 214 to be packaged when being cut, so that the operation complexity in the plaster production process is reduced, and the functionality of equipment is increased;

The rectangular head 208 will synchronously squeeze the return spring 211 when moving downwards, when the return paste cutter 203 and the square metal column 204 are pulled upwards by the horizontal bar cylinder 202, the rectangular head 208 and the lower pressure head 210 connected with the rectangular head 208 can be pushed to the original position by the reaction force of the squeezed return spring 211;

A through hole 216 is arranged between the plaster packing box 214 and the inverted concave metal shell 201, two inclined surface contact strips 217 are fixedly arranged on two sides of the inner wall of the through hole 216, the positions of the two inclined surface contact strips 217 are opposite to the positions of the two pushing heads 205 respectively, and the surface of the inclined surface contact strips 217 facing the pushing heads 205 and the surface of the pushing heads 205 facing the inclined surface contact strips 217 are inclined surfaces;

A plaster substrate tensioning roller 218 is arranged above the packaging box cover 215, a plaster film laminating rod 219 which is fixed between the plaster automatic production machine 1 and the plaster substrate tensioning roller 218 is fixedly arranged on two sides of the upper end face of the plaster substrate tensioning roller 218, a conveyor belt which is arranged in the plaster automatic production machine 1 is arranged in front of the plaster substrate tensioning roller 218, and the upper end face of the conveyor belt and the upper end face of the plaster substrate tensioning roller 218 are positioned on the same transverse parallel line; when the device is used, the rear end parts of the substrate and the coating are inserted between the adhesive plaster coating attaching rod 219 and the adhesive plaster substrate tensioning roller 218, and the adhesive plaster substrate tensioning roller 218 and the adhesive plaster coating attaching rod 219 can ensure that the adhesive plaster is in a tensioned state in the process of cutting the adhesive plaster from the whole of the substrate and the coating, so that the deformation of the substrate and the coating can be prevented.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides an automatic production system of plaster of modularization easy adjustment, includes plaster automatic production machine (1), its characterized in that: the automatic plaster production machine is characterized in that a plaster sealing plate module adjusting and replacing mechanism is fixedly arranged at the middle position of the upper end face of the automatic plaster production machine (1), the plaster sealing plate module adjusting and replacing mechanism comprises a synchronous retraction positioning mechanism, an adjusting mechanism, a high-hardness plaster sealing module (18), a high-adaptability plaster sealing module (19) and a circular metal shell (3), the high-hardness plaster sealing module (18) and the high-adaptability plaster sealing module (19) can be synchronously driven to outwards or inwards move through the synchronous retraction positioning mechanism, and the high-hardness plaster sealing module (18) and the high-adaptability plaster sealing module (19) can be synchronously driven to revolve around the circular metal shell (3) through the adjusting mechanism;

The automatic plaster production machine is characterized in that a finished plaster automatic storage and packaging mechanism (2) is fixedly arranged at the position, close to the rear end face, of the upper end face of the automatic plaster production machine (1), the finished plaster automatic storage and packaging mechanism (2) comprises a plaster packing box (214), a square plaster cutting knife (203), a lower pressing head (210) and a synchronous transmission mechanism, the plaster packing box (214) is positioned at the middle position below the square plaster cutting knife (203), and the square plaster cutting knife (203) and the lower pressing head (210) can be synchronously driven to move downwards independently through the synchronous transmission mechanism;

the adjusting mechanism comprises two containing grooves (17), wherein the two containing grooves (17) are respectively positioned at the middle positions of the upper end face and the lower end face of the circular metal shell (3), the bottom end part of the high-adaptability adhesive plaster sealing module (19) is positioned in the containing groove (17) at the middle position of the upper end face of the circular metal shell (3), and the top end part of the high-hardness adhesive plaster sealing module (18) is positioned in the containing groove (17) at the middle position of the lower end face of the circular metal shell (3);

The synchronous retraction positioning mechanism comprises a circular metal plate B (7), wherein the outer side of the front end surface of the circular metal plate B (7) is connected with a circular metal shell (3) through a roller bearing, two sides of the lower end surface of the circular metal plate B (7) are fixedly connected with a supporting rod B, and the other end of the supporting rod B is fixed with an automatic plaster production machine (1);

The middle position of the rear end face of the circular metal plate B (7) is provided with a circular through hole (8) penetrating through the circular metal plate B (7), and a winding and unwinding motor (9) fixedly installed at the middle position of the rear end face of the circular metal shell (3) is arranged in the circular through hole (8).

2. The modular, easily adjustable automated patch production system of claim 1, wherein: a round metal plate A (5) connected with the round metal shell (3) through a roller bearing is arranged in the middle of the front of the round metal shell, two sides of the lower end face of the round metal plate A (5) are fixedly connected with a supporting rod A, and the other end of the supporting rod A is fixed with an automatic plaster production machine (1);

the middle position of the front end face of the circular metal plate A (5) is fixedly provided with a replacement motor (6), an output shaft of the replacement motor (6) is connected with an adjusting rotating shaft through a coupler, and the rear end face of the adjusting rotating shaft is fixed with the middle position of the front end face of the circular metal shell (3) by penetrating through the circular metal plate A (5).

3. The modular, easily adjustable automated patch production system of claim 1, wherein: the output shaft of the winding and unwinding motor (9) is connected with a transmission rotating shaft (10) through a coupling, one side of the outer surface of the transmission rotating shaft (10) is fixedly sleeved with a bevel gear A (11) positioned inside a circular metal shell (3), two sides of the outer surface of the bevel gear A (11) are respectively meshed with a bevel gear B (12), the axle center of the bevel gear B (12) is connected with a gear rotating shaft (13), the other side of the outer surface of the gear rotating shaft (13) is fixedly sleeved with a bevel gear C (14), two sides of the outer surface of the bevel gear C (14) are respectively meshed with a bevel gear D (15), and the axle center of the bevel gear D (15) is connected with a square transmission rotating shaft (16).

4. A modular, easily adjustable automated patch production system as in claim 3, wherein: the square transmission rotating shaft (16) is characterized in that an internal thread through hole (25) positioned in the circular metal shell (3) is formed in the outer side of the square transmission rotating shaft (16), an external thread column (23) matched with the internal thread of the internal thread through hole is formed in the internal thread through hole (25), an anti-falling circular plate (26) is fixedly arranged on the surface, facing the bevel gear D (15), of the external thread column (23), a square connecting port (24) extending to the internal part of the external thread column (23) through penetrating the anti-falling circular plate (26) is formed on the surface, facing the bevel gear D (15), of the anti-falling circular plate (26), and the four square transmission rotating shafts (16) are respectively inserted into the four square connecting ports (24);

The cross section of the inner wall of the square connecting port (24) is square, the outer surface of the square transmission rotating shaft (16) is attached to the inner wall of the square connecting port (24), and the square transmission rotating shaft (16) is connected with the square connecting port (24) in a sliding manner;

The upper end faces of the two external thread columns (23) positioned on the upper side inside the circular metal shell (3) are connected with the high-adaptability plaster sealing module (19) through roller bearings, and the lower end faces of the two external thread columns (23) positioned on the lower side inside the circular metal shell (3) are connected with the high-hardness plaster sealing module (18) through roller bearings.

5. The modular, easily adjustable automated patch production system of claim 4, wherein: positioning plates (20) are fixedly arranged on two sides of the lower end face of the high-hardness adhesive plaster sealing module (18) and two sides of the upper end face of the high-adaptability adhesive plaster sealing module (19), positioning heads (21) are fixedly arranged on one side of the outer surface of each positioning plate (20), positioning grooves (22) which are attached to the inner walls of the two positioning heads (21) are formed in the outer sides of the two positioning heads (21) below the circular metal shell (3), and the positioning grooves (22) are formed in the upper end face of the adhesive plaster automatic production machine (1);

The high-hardness plaster sealing module is characterized in that a dustproof shell (4) is arranged above the high-hardness plaster sealing module (18), two connecting ports are formed in two sides of the inside of the dustproof shell (4), and two positioning heads (21) above the round metal shell (3) are respectively inserted into the inside of the two connecting ports.

6. The modular, easily adjustable automated patch production system of claim 5, wherein: the high-hardness plaster sealing module (18) comprises a high-hardness plaster sealing plate, a rectangular plate A and a sealing cylinder A, wherein the high-hardness plaster sealing plate is positioned below the rectangular plate A, the sealing cylinder A is fixedly arranged in the middle of the upper end surface of the rectangular plate A, and a piston rod of the sealing cylinder A is connected with the high-hardness plaster sealing plate;

the high-adaptability plaster sealing module (19) comprises a high-adaptability plaster sealing plate, a rectangular plate B and a sealing cylinder B, wherein the high-adaptability plaster sealing plate is located above the rectangular plate B, the sealing cylinder B is fixedly installed at the middle position of the lower end face of the rectangular plate B, and a piston rod of the sealing cylinder B is connected with the high-adaptability plaster sealing plate.

7. The modular, easily adjustable automated patch production system of claim 1, wherein: the synchronous transmission mechanism comprises an inverted concave metal shell (201), a horizontal bar air cylinder (202) is fixedly arranged in the inverted concave metal shell (201), a piston rod of the horizontal bar air cylinder (202) is connected with a square metal column (204), and the square plaster cutting knife (203) is fixed on the lower end face of the square metal column (204);

A pushing head (205) is arranged at the front and rear of the square metal column (204), a pushing rod (206) is fixedly connected to the surface of the pushing head (205) facing the square metal column (204), a pushing head (207) is connected to the opposite surfaces of the two pushing rods (206), a rectangular head (208) is arranged between the two pushing heads (207), the surface of the pushing head (207) facing the rectangular head (208) and the surface disc of the rectangular head (208) facing the pushing head (207) are inclined surfaces, a connecting rod (209) is fixedly arranged at the middle position of the lower end surface of the rectangular head (208), and the lower pressure head (210) is fixedly arranged on the lower end surface of the connecting rod (209);

and two sides of the lower end surface of the rectangular head (208) are connected with a return spring (211).

8. The modular, easily adjustable automated patch production system of claim 7, wherein: the automatic plaster production machine is characterized in that a cuboid groove (212) is fixedly formed in the upper side of the rear end face of the automatic plaster production machine (1), a plaster packaging positioning groove (213) is formed in one side of the inner wall of the lower end of the cuboid groove (212), a plaster packaging box (214) is arranged in the plaster packaging positioning groove (213), and a packaging box cover (215) is arranged on one side of the plaster packaging box (214);

A through hole (216) is formed between the plaster packing box (214) and the inverted concave metal shell (201), two inclined surface contact strips (217) are fixedly arranged on two sides of the inner wall of the through hole (216), the positions of the two inclined surface contact strips (217) are opposite to the positions of the two pushing heads (205), and the surfaces of the inclined surface contact strips (217) facing the pushing heads (205) and the surfaces of the pushing heads (205) facing the inclined surface contact strips (217) are inclined surfaces;

The utility model discloses a plaster automatic production machine, including packing lid (215), plaster substrate take-up roll (218) are equipped with to the top of packing lid (215), plaster substrate take-up roll (218) both sides of up end are all fixed be equipped with one with plaster automatic production machine (1) between fixed plaster tectorial membrane laminating pole (219), the place ahead of plaster substrate take-up roll (218) is equipped with installs in the conveyer belt of plaster automatic production machine (1) inside, just the up end of conveyer belt and the up end of plaster substrate take-up roll (218) are in on the same horizontal parallel line.