CN114410968A

CN114410968A - Recovery and re-forming mechanism for waste copper materials

Info

Publication number: CN114410968A
Application number: CN202111601744.5A
Authority: CN
Inventors: 许建中
Original assignee: Guixi Shipeng Metal Co ltd
Current assignee: Guixi Shipeng Metal Co ltd
Priority date: 2021-12-24
Filing date: 2021-12-24
Publication date: 2022-04-29

Abstract

The invention discloses a waste copper material recycling and re-forming mechanism, which belongs to the technical field of copper material recycling and forming and comprises a machine body, wherein a material pouring hole is fixed at the top of the machine body, a cleaning chamber is formed in the machine body, a first rotating motor is fixed at the top of the machine body, a first driving wheel is installed at the output end of the first rotating motor, a first driving belt is meshed on the outer surface of the first driving wheel, a second driving wheel is meshed in the first driving belt, a rotating rod is fixed at one end of the second driving wheel, a rotating plate is fixed at one end of the rotating rod, and a scattering roller is fixed at one side of the rotating plate. According to the invention, the designed first rotating motor, the first rotating motor scattering roller and the cleaning brush are used for scattering and cleaning the copper material in the cleaning chamber, so that the dirt attached to the surface of the copper material is reduced, the pull ring drives the first moving plate to move rightwards, and the first moving plate moves rightwards to drive the second moving plate to move leftwards, so that the copper material is blanked in different times.

Description

Recovery and re-forming mechanism for waste copper materials

Technical Field

The invention belongs to the technical field of copper material recovery and forming, and particularly relates to a recovery and re-forming mechanism for waste copper materials.

Background

The copper material is manufactured into various shapes including rods, wires, plates, strips, pipes, foils and the like by pure copper or copper alloy, the copper material is generally called as copper material, the processing of the copper material comprises rolling, extruding, drawing and other methods, plates and strips in the copper material are hot rolled and cold rolled, strips and foils are cold rolled, pipes and bars are divided into extruded products and drawn products, wires are drawn, and the waste rate of the copper material is higher because the consumption of the copper material is more.

Waste resource utilization is directly thrown away to useful copper product cutting remaining sweeps copper product after using, and old and useless copper product is retrieved processing and is handled the same and can be used in other regions, still need carry out shaping work to the copper product when retrieving old and useless copper product, improves the pleasing to the eye of copper product recovery production, and the surface of copper product has a lot of dirt to influence the subsequent shaping of copper product when the copper product is retrieved.

The existing waste copper material recycling and re-forming mechanism cannot clean dirt attached to the surface of a waste copper material before forming, the speed of the copper material discharging cannot be adjusted according to the forming speed during discharging, excessive material accumulation cannot easily occur, high-quality forming work cannot be carried out, a solution formed after the copper material is melted cannot be filtered, large granular substances are contained inside to influence the quality of the copper material forming, interval conveying cannot be carried out during feeding forming, the molten material in a forming box cannot be formed timely when the molten material is excessive, the problem of the efficiency of the copper material forming is influenced, and therefore the recycling and re-forming mechanism of the waste copper material is provided.

Disclosure of Invention

The invention aims to provide a mechanism for recycling and reshaping waste copper materials, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the machine comprises a machine body, wherein a material pouring port is fixed at the top of the machine body, a cleaning chamber is arranged inside the machine body, a first rotating motor is fixed at the top of the machine body, a first driving wheel is installed at the output end of the first rotating motor, a first driving belt is meshed with the outer surface of the first driving wheel, a second driving wheel is meshed with the inner part of one end of the first driving belt, a rotating rod is fixed at one end of the second driving wheel, a rotating plate is fixed at one end of the rotating rod, a scattering roller is fixed at one side of the rotating plate, a cleaning brush is fixed at one side of the rotating plate, a first fixed block is fixed on the inner wall of the machine body, a second fixed block is fixed on the inner wall of the machine body, a first movable plate slides inside the first fixed block, a second movable plate slides inside the second fixed block, a slide plate groove is arranged inside the second movable plate, the inner wall of the sliding plate groove is fixed with a sliding block groove, the inside of the sliding plate groove is provided with a filtration recovery plate in a sliding manner, one side of the filtration recovery plate is fixed with a sliding block, the inside of the filtration recovery plate is provided with a filtration hole, one side of the first movable plate is fixed with a pull ring, the front surface of the first movable plate is fixed with a connecting cylinder, the outer side of the connecting cylinder is rotated with a rotating rod, the inside of the rotating rod is hinged with a hinged rod, the inside of one end of the rotating rod is hinged with a hinged cylinder, the outer side of the hinged cylinder is hinged with a connecting rod, one end of the connecting rod is connected with a hinged connecting block, the bottom of the rotating rod is connected with a connecting block, the front surface of the machine body is fixed with a fixed rod, the inner wall of the fixed rod is fixed with a rotating column, one end of the rotating column is rotated with a filtration melting box, and the inner wall of the filtration melting box is fixed with a heating block, the inner wall of the filtering and melting box is fixed with a first filter plate, the inner wall of the filtering and melting box is fixed with a second filter plate, and the bottom of the filtering and melting box is provided with a feed opening.

Preferably, a transmission plate is fixed on the inner wall of the machine body, and a conveying box is fixed on the upper surface of the transmission plate.

Preferably, an interval driving box is fixed inside the machine body, a second rotating motor is fixed inside the interval driving box, a driving rotating rod is installed at the output end of the second rotating motor, a third driving wheel is rotated outside the driving rotating rod, a second driving belt is meshed outside the third driving wheel, a transmission rotary drum is meshed inside one end of the second driving belt, and a meshed material conveying belt is meshed on the upper surface of the transmission rotary drum.

Preferably, a third transmission belt is meshed with the outer side of one end of the driving rotating rod, a connecting rotating rod is meshed and rotated inside one end of the third transmission belt, and a rotating top block is fixed at one end of the connecting rotating rod.

Preferably, the inside of interval drive case is fixed with the lift groove piece, the inside of lift groove piece is fixed with reset spring, reset spring's one end is connected with the elevator, the one end of elevator is connected with the bottom of meshing defeated material area.

Preferably, the upper surface of the machine body is fixed with a material collecting box, the inside of the bottom of the machine body is fixed with a forming box, one end of the second driving wheel is fixed with a fourth driving wheel, the outer side of the fourth driving wheel is meshed with a fourth driving belt, the inside of one end of the fourth driving belt is meshed with a transmission rotating rod in a rotating mode, and a forming pressing block slides to the outer side of the transmission rotating rod.

Preferably, a template groove is formed in one side of the bottom of the machine body, a forming mold plate slides in the template groove, and a forming groove is formed in the bottom of the machine body.

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

1. through the first rotating electrical machines of design, roller and clearance brush are broken up to first rotating electrical machines break up and the clearance is brushed to the indoor copper product of clearance, reduce the adnexed dirt in copper product surface, the pull ring drives first movable plate and moves right, first movable plate moves right and drives the second movable plate and move left and realize the inferior unloading of copper product, the heating block heats the melting to the copper product makes the copper product become solution, first filter and second filter solution, the connecting block moves left and drives and filters the slope of melting case and rock, strengthen the filtration quality to solution, contain impurity when effectively avoiding follow-up solution shaping, improve the fashioned quality of copper product.

2. Through the second rotating electrical machines of design, the second rotating electrical machines drives the transportation of meshing conveying belt, realizes the fortune material of fortune workbin, and the third drive belt drives rotatory kicking block and rotates to realize interval drive pay-off to the transfer board, avoids the single too much fashioned quality of influence of defeated material, and the rotatory shaping briquetting that drives of second drive wheel carries out extrusion to the melt of shaping incasement, and the fashioned variety of copper product is realized in the removable installation of forming die board.

Drawings

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

FIG. 2 is a schematic view of the connecting and mounting structure of the filtering and melting tank of the present invention;

FIG. 3 is a schematic view of the internal structure of the compartment driving cabinet according to the present invention;

FIG. 4 is a schematic view of the internal structure of the forming box of the present invention;

FIG. 5 is a schematic structural view of the present invention;

FIG. 6 is a schematic view of the connection of the forming box of the present invention;

fig. 7 is a schematic view of a molding die plate mounting structure of the present invention.

In the figure: 1. a body; 2. pouring a material port; 3. a cleaning chamber; 4. a first rotating electrical machine; 5. a first drive pulley; 6. a first drive belt; 7. a second transmission wheel; 8. a rotating rod; 9. a rotating plate; 10. scattering the roller; 11. cleaning a brush; 12. a first fixed block; 13. a second fixed block; 14. a first moving plate; 15. a second moving plate; 16. a pull ring; 17. a connecting cylinder; 18. Rotating the rod; 19. a hinged lever; 20. a hinged cylinder; 21. a connecting rod; 22. a hinged connection block; 23. connecting blocks; 24. fixing the rod; 25. turning the column; 26. a filtering and melting box; 27. a heating block; 28. a first filter plate; 29. a second filter plate; 30. a feeding port; 31. a transmission plate; 32. a material conveying box; 33. an interval driving box; 34. a second rotating electrical machine; 35. driving the rotating rod; 36. a third transmission wheel; 37. a second belt; 38. a conveying drum; 39. meshing the material conveying belt; 40. a third belt; 41. connecting the rotating rod; 42. rotating the top block; 43. a lifting groove block; 44. a return spring; 45. a lifting block; 46. A material collecting box; 47. forming a box; 48. a fourth transmission wheel; 49. a fourth belt; 50. a transmission rotating rod; 51. forming and pressing blocks; 52. a template slot; 53. forming a mold plate; 54. forming a groove; 55. a slide plate groove; 56. a slider slot; 57. a filtration recovery plate; 58. a slider; 59. and (4) filtering holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution of a recycling and re-forming mechanism for waste copper materials: a recycling and re-forming mechanism for waste copper materials comprises a machine body 1, a material pouring port 2 is fixed at the top of the machine body 1, a cleaning chamber 3 is formed in the machine body 1, a first rotating motor 4 is fixed at the top of the machine body 1, a first driving wheel 5 is installed at the output end of the first rotating motor 4, a first driving belt 6 is meshed with the outer surface of the first driving wheel 5, a second driving wheel 7 is meshed with the inner part of one end of the first driving belt 6, a rotating rod 8 is fixed at one end of the second driving wheel 7, a rotating plate 9 is fixed at one end of the rotating rod 8, a scattering roller 10 is fixed at one side of the rotating plate 9, a cleaning brush 11 is fixed at one side of the rotating plate 9, a first fixing block 12 is fixed on the inner wall of the machine body 1, a second fixing block 13 is fixed on the inner wall of the machine body 1, a first moving plate 14 is slid in the first fixing block 12, a second moving plate 15 is slid in the second fixing block 13, a sliding plate groove 55 is formed in the second moving plate 15, a sliding block groove 56 is fixed on the inner wall of the sliding plate groove 55, a filtering recovery plate 57 is arranged in the sliding plate groove 55 in a sliding manner, a sliding block 58 is fixed on one side of the filtering recovery plate 57, a filtering hole 59 is formed in the filtering recovery plate 57, a pull ring 16 is fixed on one side of the first moving plate 14, a connecting cylinder 17 is fixed on the front surface of the first moving plate 14, a rotating rod 18 is rotated on the outer side of the connecting cylinder 17, a hinge rod 19 is hinged inside the rotating rod 18, a hinge cylinder 20 is hinged inside one end of the rotating rod 18, a connecting rod 21 is hinged on the outer side of the hinge cylinder 20, one end of the connecting rod 21 is connected with a hinge connecting block 22, the bottom of the rotating rod 18 is connected with a connecting block 23, a fixing rod 24 is fixed on the front surface of the machine body 1, a rotary column 25 is fixed on the inner wall of the fixing rod 24, a filtering melting tank 26 is rotated at one end of the rotary column 25, the heating block 27 is fixed on the inner wall of the filtering and melting box 26, the first filter plate 28 is fixed on the inner wall of the filtering and melting box 26, the second filter plate 29 is fixed on the inner wall of the filtering and melting box 26, and the feed opening 30 is arranged at the bottom of the filtering and melting box 26.

In this embodiment, the copper material is poured from the pouring port 2, when the copper material enters the cleaning chamber 3, the first rotating motor 4 is started, the first rotating motor 4 drives the first driving wheel 5 to rotate, the first driving wheel 5 drives the second driving wheel 7 to rotate through the first driving belt 6, the second driving wheel 7 drives the rotating rod 8 to rotate, the rotating rod 8 drives the rotating plate 9 at one end to rotate, the rotating plate 9 drives the scattering roller 10 and the cleaning brush 11 which are arranged at one side to scatter and clean the copper material in the cleaning chamber 3, so as to reduce dirt attached to the surface of the copper material, the cleaned copper material falls to the upper ends of the first moving plate 14 and the second moving plate 15, the pull ring 16 is pulled to drive the first moving plate 14 to move rightwards, the first moving plate 14 moves rightwards through the rotating rod 18, the connecting rod 21 and the hinged connecting block 22 to drive the second moving plate 15 to move leftwards, so as to realize the fractional blanking of the copper material, filtration recovery board 57 passes through slider 58 during first movable plate 14 and second movable plate 15 reverse movement and follows slide groove 55 roll-off, filtering hole 59 filters the copper material that falls, the copper material that can also use with the great quality filters the detention, reduce the waste of resource, the copper material falls into the inside of filtering and melting case 26, heating block 27 heats the melting to the copper material and makes the copper material become solution, first filter 28 and second filter 29 filter the solution, rotary rod 18 is rotatory drives connecting block 23 and moves left when driving, connecting block 23 and rotary column 25 drive and filter and melt case 26 and control the slope and rock, strengthen the filtration quality to the solution, contain impurity when effectively avoiding follow-up solution shaping, improve the fashioned quality of copper material.

Specifically, a transmission plate 31 is fixed on the inner wall of the machine body 1, and a material conveying box 32 is fixed on the upper surface of the transmission plate 31.

In this embodiment, the filtered solution enters the feed tank 32 where the melt is stored for a short period of time.

Specifically, a spacing driving box 33 is fixed inside the machine body 1, a second rotating motor 34 is fixed inside the spacing driving box 33, a driving rotating rod 35 is installed at the output end of the second rotating motor 34, a third driving wheel 36 is rotated outside the driving rotating rod 35, a second driving belt 37 is meshed outside the third driving wheel 36, a transmission drum 38 is meshed inside one end of the second driving belt 37, and a meshing material conveying belt 39 is meshed on the upper surface of the transmission drum 38.

In this embodiment, the second rotating motor 34 is started to drive the driving rotating rod 35 to rotate, the driving rotating rod 35 drives the third driving wheel 36 to rotate, the third driving wheel 36 drives the transmission drum 38 to rotate through the second transmission belt 37, the transmission drum 38 drives the meshing material conveying belt 39 to transport, and the meshing material conveying belt 39 drives the material conveying box 32 to transport materials.

Specifically, a third belt 40 is engaged with the outer side of one end of the driving rotary rod 35, a connecting rotary rod 41 is engaged and rotated with the inner side of one end of the third belt 40, and a rotary top block 42 is fixed at one end of the connecting rotary rod 41.

In this embodiment, the driving rotating rod 35 is rotated and simultaneously drives the connecting rotating rod 41 to rotate through the third driving belt 40, the connecting rotating rod 41 drives the rotating ejector block 42 to rotate so as to realize interval driving feeding on the transmission plate 31, and the phenomenon that too much single material conveying influences the forming quality is avoided.

Specifically, a lifting groove block 43 is fixed inside the interval driving box 33, a return spring 44 is fixed inside the lifting groove block 43, one end of the return spring 44 is connected with a lifting block 45, and one end of the lifting block 45 is connected with the bottom of the meshing material conveying belt 39.

In this embodiment, the lifting block 45 pushes up the meshing material conveying belt 39 to realize interval material conveying, so that the lifting stability of the meshing material conveying belt 39 is ensured, and the phenomenon that the conveying of molten materials is influenced due to shaking during material conveying is avoided.

Specifically, a material collecting box 46 is fixed on the upper surface of the machine body 1, a forming box 47 is fixed inside the bottom of the machine body 1, a fourth driving wheel 48 is fixed at one end of the second driving wheel 7, a fourth driving belt 49 is meshed with the outer side of the fourth driving wheel 48, a transmission rotating rod 50 is meshed and rotated inside one end of the fourth driving belt 49, and a forming pressing block 51 slides on the outer side of the transmission rotating rod 50.

In this embodiment, the second driving wheel 7 rotates to drive the fourth driving wheel 48 to rotate, the fourth driving belt 49 drives the transmission rotating rod 50 to rotate, and the transmission rotating rod 50 drives the forming press block to extrude and form the molten material in the forming box 47.

Specifically, a mold plate groove 52 is formed in one side of the bottom of the machine body 1, a forming mold plate 53 slides inside the mold plate groove 52, and a forming groove 54 is formed in the bottom of the machine body 1.

In this embodiment, the mold plate slot 52 facilitates insertion of different types of mold plates 53 to achieve multiple types of extrusion of the molten material.

The working principle is as follows: when the cleaning device is used, a copper material is poured into the pouring hole 2, the first rotating motor 4 is started when the copper material enters the cleaning chamber 3, the first rotating motor 4 drives the first driving wheel 5 to rotate, the first driving wheel 5 drives the second driving wheel 7 to rotate through the first driving belt 6, the second driving wheel 7 drives the rotating rod 8 to rotate, the rotating rod 8 drives the rotating plate 9 at one end to rotate, the rotating plate 9 drives the scattering roller 10 and the cleaning brush 11 which are installed on one side to scatter and clean the copper material in the cleaning chamber 3, dirt attached to the surface of the copper material is reduced, the cleaned copper material falls to the upper ends of the first moving plate 14 and the second moving plate 15, the pull ring 16 is pulled to drive the first moving plate 14 to move rightwards, the first moving plate 14 moves rightwards through the rotating rod 18, the connecting rod 21 and the hinged connecting block 22 to drive the second moving plate 15 to move leftwards to realize fractional blanking of the copper material, and the filtering recovery plate 57 moves reversely from the sliding plate groove through the sliding block 58 when the first moving plate 14 and the second moving plate 15 55, the copper material falls into the filtering and melting box 26, the heating block 27 heats and melts the copper material to change the copper material into a solution, the first filter plate 28 and the second filter plate 29 filter the solution, the rotating rod 18 rotates and drives the connecting block 23 to move leftwards, the connecting block 23 and the rotating column 25 drive the filtering and melting box 26 to obliquely rock leftwards and rightwards, the filtering quality of the solution is enhanced, impurities in the subsequent solution forming process are effectively avoided, the forming quality of the copper material is improved, the filtered solution enters the conveying box 32, the second rotating motor 34 is started to drive the driving rotating rod 35 to rotate, the driving rotating rod 35 drives the third driving wheel 36 to rotate, the third driving wheel 36 drives the transmission drum 38 to rotate through the second driving belt 37, transmission rotary drum 38 drives the transportation of meshing conveying belt 39, meshing conveying belt 39 drives transport case 32 and transports the material, it is rotatory to drive through third drive belt 40 when drive bull stick 35 is rotatory to connect bull stick 41, it drives rotatory kicking block 42 rotatory to realize the interval drive pay-off to transport plate 31 to connect bull stick 41, avoid the single too much fashioned quality of influence of defeated material, transport plate 31 drives the melt in transport case 32 and pours into behind the collection workbin 46 into and falls into shaping case 47, the rotatory fourth drive wheel 48 that drives of second drive wheel 7 is rotatory, it is rotatory to drive transmission bull stick 50 through fourth drive belt 49, transmission bull stick 50 drives the shaping briquetting and carries out extrusion to the melt in shaping case 47.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a recovery remolding mechanism of old and useless copper product material, includes organism (1), its characterized in that: a material pouring port (2) is fixed at the top of the machine body (1), a cleaning chamber (3) is formed in the machine body (1), a first rotating motor (4) is fixed at the top of the machine body (1), a first driving wheel (5) is installed at the output end of the first rotating motor (4), a first driving belt (6) is meshed on the outer surface of the first driving wheel (5), a second driving wheel (7) is meshed inside one end of the first driving belt (6), a rotating rod (8) is fixed at one end of the second driving wheel (7), a rotating plate (9) is fixed at one end of the rotating rod (8), a scattering roller (10) is fixed at one side of the rotating plate (9), a cleaning brush (11) is fixed at one side of the rotating plate (9), a first fixing block (12) is fixed on the inner wall of the machine body (1), a second fixing block (13) is fixed on the inner wall of the machine body (1), the inner part of the first fixed block (12) slides to form a first movable plate (14), the inner part of the second fixed block (13) slides to form a second movable plate (15), a sliding plate groove (55) is formed in the inner part of the second movable plate (15), a sliding block groove (56) is fixed on the inner wall of the sliding plate groove (55), a filtering recovery plate (57) slides in the sliding plate groove (55), a sliding block (58) is fixed on one side of the filtering recovery plate (57), a filtering hole (59) is formed in the filtering recovery plate (57), a pull ring (16) is fixed on one side of the first movable plate (14), a connecting cylinder (17) is fixed on the front surface of the first movable plate (14), a rotating rod (18) is rotated on the outer side of the connecting cylinder (17), a hinge rod (19) is hinged in the inner part of the rotating rod (18), and a cylinder (20) is hinged in the inner part of one end of the rotating rod (18), the outside of articulated cylinder (20) articulates there is connecting rod (21), the one end of connecting rod (21) is connected with articulated connecting block (22), the bottom of rotary rod (18) is connected with connecting block (23), the front surface of organism (1) is fixed with dead lever (24), the inner wall of dead lever (24) is fixed with rotary column (25), the one end of rotary column (25) is rotated and is had filtration melting case (26), the inner wall of filtration melting case (26) is fixed with heating block (27), the inner wall of filtration melting case (26) is fixed with first filter (28), the inner wall of filtration melting case (26) is fixed with second filter (29), feed opening (30) have been seted up to the bottom of filtration melting case (26).

2. The recycling and reshaping mechanism for waste copper materials as claimed in claim 1, which is characterized in that: the inner wall of the machine body (1) is fixed with a transmission plate (31), and the upper surface of the transmission plate (31) is fixed with a transportation box (32).

3. The recycling and reshaping mechanism for waste copper materials as claimed in claim 1, which is characterized in that: the machine body (1) is internally fixed with an interval driving box (33), the interval driving box (33) is internally fixed with a second rotating motor (34), the output end of the second rotating motor (34) is provided with a driving rotating rod (35), the outer side of the driving rotating rod (35) is rotated with a third driving wheel (36), the outer side of the third driving wheel (36) is meshed with a second driving belt (37), the inner part of one end of the second driving belt (37) is meshed with a transmission rotary drum (38), and the upper surface of the transmission rotary drum (38) is meshed with a meshed material conveying belt (39).

4. The recycling and reshaping mechanism for waste copper materials as claimed in claim 3, which is characterized in that: the outside meshing of drive bull stick (35) one end has third drive belt (40), the inside meshing rotation of third drive belt (40) one end has connecting rotating rod (41), the one end of connecting rotating rod (41) is fixed with rotatory kicking block (42).

5. The recycling and reshaping mechanism for waste copper materials as claimed in claim 3, which is characterized in that: the inside of interval drive case (33) is fixed with lift groove (43), the inside of lift groove (43) is fixed with reset spring (44), the one end of reset spring (44) is connected with lift piece (45), the one end and the bottom of meshing defeated material area (39) of lift piece (45) are connected.

6. The recycling and reshaping mechanism for waste copper materials as claimed in claim 1, which is characterized in that: the upper surface of organism (1) is fixed with case (46) that gathers materials, the inside of organism (1) bottom is fixed with shaping case (47), the one end of second drive wheel (7) is fixed with fourth drive wheel (48), the outside meshing of fourth drive wheel (48) has fourth drive belt (49), the inside meshing rotation of fourth drive belt (49) one end has transmission bull stick (50), the outside slip of transmission bull stick (50) has shaping briquetting (51).

7. The recycling and reshaping mechanism for waste copper materials as claimed in claim 1, which is characterized in that: one side of the bottom of the machine body (1) is provided with a template groove (52), a forming mold plate (53) slides in the template groove (52), and the bottom of the machine body (1) is provided with a forming groove (54).