CN117680902B - Solar photovoltaic panel positioning welding device - Google Patents

Abstract

The invention discloses a solar photovoltaic panel positioning and welding device, which belongs to the technical field of photovoltaic panel welding and comprises a welding device, wherein the welding device comprises a frame, a welding support frame is fixedly arranged on the frame, a positioning device is arranged below the welding device and is used for pushing a photovoltaic panel to an intermediate position, the welding device is used for welding the positioned photovoltaic panel, and a conveying device is arranged on the frame and is used for conveying the welded photovoltaic panel. The positioning device provided by the invention can realize synchronous pushing and clamping of two photovoltaic plates, is more stable in positioning, ensures that the photovoltaic plates cannot deviate in position during welding through matching with the triangular rotating plates, can realize continuous welding work through the conveying device, and has high working efficiency.

Description

Solar photovoltaic panel positioning welding device

Technical Field

The invention relates to the technical field of photovoltaic panel welding, in particular to a solar photovoltaic panel positioning welding device.

Background

Solar panels (also called solar modules) are the core part of solar power generation systems, and are the most important part of solar power generation systems, and with the rapid development of new energy sources, especially the solar power generation industry, solar panels packaging industry is increasingly using a special bus bar. The welding area of the existing photovoltaic plate is not very large, the photovoltaic plate cannot be clamped and fixed, manual welding is very inconvenient, welding precision is low, production efficiency is low, the novel Chinese patent with the publication number of CN212398419U is disclosed, and the photovoltaic plate is subjected to positioning welding treatment in a mode that one end is fixed and the other end moves. But the device application scope is little, and can't realize continuous production, has reduced photovoltaic board welding production efficiency.

Disclosure of Invention

Aiming at the technical problems, the invention adopts the following technical scheme: the utility model provides a solar photovoltaic board fixed-position welding set, includes welding set, welding set include the frame, the frame is placed subaerial, fixed mounting has the welding support frame in the frame, has set up the recess in the welding support frame, welding set below be provided with positioner, positioner be used for propelling movement photovoltaic board to intermediate position, welding set carry out welding process to the photovoltaic board that the location is good, the frame on be provided with conveyor, conveyor include the third motor, third motor fixed mounting is in the recess department of frame, conveyor is used for transporting the photovoltaic board that the welding was accomplished.

Further, the welding device comprises a motor fixing plate fixedly arranged on the welding support frame, a first motor is fixedly arranged on the motor fixing plate, a screw rod is rotatably arranged at the movable end of the first motor, a welding gun frame is rotatably arranged on the screw rod, and a welding gun is arranged on the welding gun frame.

Further, positioner includes fixture and pushing equipment, and fixture includes fixed mounting at frame lower surface's pushing away material support frame I, and fixed mounting has last fixed plate on pushing away material support frame I, and the lower extreme fixed mounting of going up the fixed plate has the second motor, and the loose end of second motor rotates installs the main pivot of pushing away material, is provided with pushing away material gear I in the main pivot of pushing away material, and pushing away material gear I rotates the upper surface of placing last fixed plate, pushing away the top of material gear I and rotating installs clamping gear I, the edge fixed mounting who goes up the fixed plate has clamping chute I, is provided with sliding block I in the clamping chute I, and fixed mounting has clamping rack I on the sliding block I, and clamping rack I's place ahead fixed mounting has clamping plate I, clamping rack I and clamping gear I meshing.

Further, the pushing mechanism comprises a plurality of supports fixedly mounted on a frame, a push-pull round rod I and a push-pull round rod II are fixedly mounted on the supports, a lower transverse plate is arranged at the movable ends of the push-pull round rod I and the push-pull round rod II, an inner pushing plate is fixedly mounted in the middle of the lower transverse plate, a pushing rack I is fixedly mounted at the edge end of the lower transverse plate, the pushing rack I is meshed with the pushing gear I, a push-pull round rod is arranged on the support on the other side, an upper transverse plate is fixedly mounted at the movable end of the push-pull round rod, a pushing rack II is fixedly mounted on the upper transverse plate, two storage frames are fixedly mounted on the frame, and a photovoltaic plate is placed in the storage frames.

Further, the inside rotation of frame installs synchronous pivot, is provided with synchronous pulley II in the synchronous pivot, is provided with synchronous pulley I in the pushing away material main pivot, and synchronous pulley I and synchronous pulley II's outside winding have the hold-in range, the inside of frame still is provided with the triangle stopper, and synchronous pulley II below rotates installs connection pulley I, the limit fixed mounting of frame has the riser, rotates on the riser and installs the transmission shaft, and the bottom of transmission shaft is provided with connection pulley II, and connection pulley II and connection pulley I's outside winding have the connecting band.

Further, the top of transmission shaft rotates installs the pinion, and the rear of pinion is provided with pushes away material support frame II, and pushing away material support frame II fixed mounting is in the frame, and fixed mounting has the pushing away material fixed plate on pushing away material support frame II, is provided with pushing away material pivot on the pushing away material fixed plate, and 321's below is provided with pushing away material gear II, and pushing away material gear II rotates and installs in pushing away material pivot, and pushing away material pivot's below is provided with the bearing housing, and clamping gear II is installed in the below rotation of bearing housing, clamping gear II and pinion meshing, pushing away material fixed plate's edge fixed mounting has clamping chute II, and clamping chute II's inside slidable mounting has sliding block II, and fixed mounting has clamping rack II on the sliding block II, is provided with clamping plate II on the clamping rack II, clamping rack II meshes with clamping gear II, pushing away material gear II meshes with pushing away clamping rack II.

Further, conveyor includes L fixed plate, sheet fixing frame and stirs the mount, and L fixed plate fixed mounting is provided with the pivot in the frame on the L fixed plate, rotates in the pivot and installs rotation band pulley II, and the expansion end of third motor rotates and installs the transport pivot, and the outside of transport pivot is provided with the conveyer belt, rotates in the transport pivot and installs rotation band pulley I, and the outside winding of rotation band pulley I and rotation band pulley II has the rotation band, the front end rotation of rotation band pulley II is installed big disc, is provided with the connecting rod on the big disc, and the other end fixed mounting of connecting rod is on little disc, and little disc rotates and installs on stirring the mount, stirs mount fixed mounting in the frame, stirs the mount and rotates and install the piece of stirring, sheet fixing mount fixed mounting is in the frame, is provided with the axis of rotation on the sheet fixing frame, is provided with triangle rotation plate in the axis, and one side fixed mounting of triangle rotation plate has the lug, fixed mounting has upper limiting plate and lower limiting spring on the lower limiting plate.

Compared with the prior art, the invention has the beneficial effects that: (1) According to the positioning device, the pushing rack I is driven to move through the rotation of the pushing main rotating shaft, the solar photovoltaic panel is fed to the middle position, the rotation of the pushing rotating shaft on the other side is realized through the synchronous belt, and therefore synchronous feeding, clamping and positioning of the photovoltaic panels on the two sides are completed, and the positioning effect is good; (2) The conveying device provided by the invention is matched with the positioning device through the triangular rotating plate, and the photovoltaic plate moves along the triangular rotating plate layer during pushing, so that the stability of the photovoltaic plate is ensured, and the position deviation during welding is prevented through the matching with the positioning device; (3) The conveying device provided by the invention can carry out blanking treatment on the welded photovoltaic panel, and the cam is rotated by the stirring block, so that the inclination of the triangular rotating plate is realized, the transportation of the photovoltaic panel can be realized, the continuous welding work is realized, and the working efficiency is high.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic structural view of a welding device according to the present invention.

Fig. 3 is a schematic structural view of a positioning device according to the present invention.

Fig. 4 is a schematic structural diagram of a positioning device according to the present invention.

Fig. 5 is a schematic diagram of a positioning device according to the third embodiment of the present invention.

Fig. 6 is a schematic structural view of a conveying device according to the present invention.

Fig. 7 is a schematic structural diagram of a conveying device according to the present invention.

Fig. 8 is a schematic diagram of the structure at a in fig. 7.

Reference numerals: 101-a frame; 102-welding a supporting frame; 103-a first motor; 104-a lead screw; 105-motor fixing plate; 106-welding gun rack; 107-a welding gun; 201-a support; 202-pushing and pulling a round rod I; 203-pushing and pulling a round rod II; 204-lower cross plate; 205-inner push plate; 206, a storage rack; 207-photovoltaic panel; 208-pushing the rack I; 209-a pushing support frame I; 210-upper fixing plate; 211-a second motor; 212-pushing a main rotating shaft; 213-pushing gear I; 214-clamping gear i; 215-clamping chute I; 216-sliding block I; 217-clamping rack I; 218-clamping plate I; 219-synchronous pulley I; 220-synchronous belt; 221-triangular limiting blocks; 222-synchronous pulley II; 223-synchronizing the rotating shaft; 224-connecting pulley I; 225-connecting bands; 226-connecting a belt wheel II; 227-a drive shaft; 228-vertical plates; 229-pinion; 230, a pushing support frame II; 231-pushing a material fixing plate; 232-pushing rotating shafts; 233-clamping gear ii; 234-bearing sleeve; 235-pushing gear II; 236-clamping chute II; 237-sliding block II; 238-clamping rack ii; 239-clamping plate ii; 240-pushing a rack II; 241-upper cross plate; 301-a third motor; 302, conveying rotating shafts; 303-L fixing plates; 304-rotating the belt wheel I; 305-rotating the belt; 306-rotating pulley II; 307-large disc; 308-connecting rod; 309-toggle the mount; 310-small disc; 311-toggle blocks; 312-plate fixing frames; 313-rotation axis; 314-triangle rotation plate; 315-bump; 316-upper limit plate; 317-lower limiting plates; 318-limit spring; 319-conveyor belt.

Detailed Description

As shown in fig. 1 to 8, a solar photovoltaic panel positioning welding device comprises a welding device, and is characterized in that: the welding device comprises a frame 101, the frame 101 is placed on the ground, a welding support frame 102 is fixedly arranged on the frame 101, a groove is formed in the welding support frame 102, a positioning device is arranged below the welding device and used for pushing a photovoltaic panel to an intermediate position, the welding device is used for carrying out welding treatment on the positioned photovoltaic panel, a conveying device is arranged on the frame 101 and comprises a third motor 301, the third motor 301 is fixedly arranged at the groove of the frame 101, and the conveying device is used for conveying the welded photovoltaic panel.

When two solar photovoltaic panels to be welded are pushed to be contacted through the positioning device, the welding treatment is carried out on the photovoltaic panels through the welding device, and then the conveying device drives the photovoltaic panels to incline to the conveying belt 319, so that one-time welding is completed.

As shown in fig. 1 and 2, the welding device comprises a motor fixing plate 105 fixedly mounted on a welding support frame 102, a first motor 103 is fixedly mounted on the motor fixing plate 105, a screw 104 is rotatably mounted at the movable end of the first motor 103, a welding gun frame 106 is rotatably mounted on the screw 104, and a welding gun 107 is arranged on the welding gun frame 106.

The screw rod 104 is driven to rotate through the first motor 103, so that the welding gun frame 106 is driven to move in the horizontal direction, and the welding gun frame 106 drives the welding gun 107 to move, so that the welding treatment of the two photovoltaic panels is realized.

As shown in fig. 5, the positioning device comprises a clamping mechanism and a pushing mechanism, the pushing mechanism comprises a plurality of supports 201 fixedly mounted on a frame 101, a push-pull round rod i 202 and a push-pull round rod ii 203 are fixedly mounted on the supports 201, a lower transverse plate 204 is arranged on the movable ends of the push-pull round rod i 202 and the push-pull round rod ii 203, an inner pushing plate 205 is fixedly mounted in the middle of the lower transverse plate 204, a pushing rack i 208 is fixedly mounted on the edge end of the lower transverse plate 204, a push-pull round rod is arranged on the supports 201 on the other side, an upper transverse plate 241 is fixedly mounted on the movable end of the push-pull round rod, a pushing rack ii 240 is fixedly mounted on the upper transverse plate 241, two storage racks 206 are fixedly mounted on the frame 101, and a photovoltaic plate 207 is placed inside the storage racks 206.

As shown in fig. 4 and 5, the clamping mechanism comprises a pushing support frame i 209 fixedly installed on the lower surface of the frame 101, an upper fixing plate 210 is fixedly installed on the pushing support frame i 209, a second motor 211 is fixedly installed at the lower end of the upper fixing plate 210, a pushing main rotating shaft 212 is rotatably installed at the movable end of the second motor 211, a pushing gear i 213 is arranged on the pushing main rotating shaft 212, the pushing gear i 213 is rotatably arranged on the upper surface of the upper fixing plate 210, a clamping gear i 214 is rotatably installed above the pushing gear i 213, a clamping sliding groove i 215 is fixedly installed at the edge of the upper fixing plate 210, a sliding block i 216 is arranged in the clamping sliding groove i 215, a clamping rack i 217 is fixedly installed on the sliding block i 216, a clamping plate i 218 is fixedly installed in front of the clamping rack i 217, the clamping rack i 217 is meshed with the clamping gear i 214, and the pushing rack i 208 is meshed with the pushing gear i 213.

The second motor 211 drives the pushing main rotating shaft 212, thereby driving the pushing gear I213 and the clamping gear I214 to rotate, thereby driving the pushing rack I208 to transversely move, the pushing rack I208 to move and drive the inner pushing plate 205 to transversely move, thereby horizontally pushing the photovoltaic panel 207 to move towards the middle, the clamping gear I214 to rotate and drive the clamping rack I217 to vertically move, thereby driving the clamping plate I218 to push forwards, and the clamping plate I218 is provided with a groove to clamp one sides of two photovoltaic panels.

As shown in fig. 4, a synchronous rotating shaft 223 is rotatably mounted in the frame 101, a synchronous pulley ii 222 is disposed on the synchronous rotating shaft 223, a synchronous pulley i 219 is disposed on the pushing main rotating shaft 212, a synchronous belt 220 is wound on the outer portion of the synchronous pulley i 219 and the synchronous pulley ii 222, a triangular limiting block 221 is further disposed in the frame 101, a connecting pulley i 224 is rotatably mounted below the synchronous pulley ii 222, a vertical plate 228 is fixedly mounted at the edge of the frame 101, a transmission shaft 227 is rotatably mounted on the vertical plate 228, a connecting pulley ii 226 is disposed at the bottom end of the transmission shaft 227, and a connecting belt 225 is wound on the outer portions of the connecting pulley ii 226 and the connecting pulley i 224.

The synchronous belt 220 is driven to rotate through the rotation of the synchronous belt wheel I219, so that the synchronous belt wheel II 222 is driven, the synchronous rotating shaft 223 is driven, the transmission shaft 227 is driven to rotate, synchronous operation is realized on the positioning devices on the two sides, and clamping is realized more accurately.

As shown in fig. 3-5, a pinion 229 is rotatably mounted at the top end of the transmission shaft 227, a pushing support frame ii 230 is disposed at the rear of the pinion 229, the pushing support frame ii 230 is fixedly mounted on the frame 101, a pushing fixing plate 231 is fixedly mounted on the pushing support frame ii 230, a pushing rotating shaft 232 and a pushing gear ii 235 are disposed below the pushing fixing plate 231, the pushing gear ii 235 is rotatably mounted on the pushing rotating shaft 232, a bearing sleeve 234 is disposed below the pushing rotating shaft 232, a clamping gear ii 233 is rotatably mounted below the bearing sleeve 234, the clamping gear ii 233 is meshed with the pinion 229, a clamping chute ii 236 is fixedly mounted at the edge of the pushing fixing plate 231, a sliding block ii 237 is slidably mounted inside the clamping chute ii 236, a clamping rack ii 238 is fixedly mounted on the sliding block ii 237, a clamping plate ii 239 is disposed on the clamping rack ii 238, the clamping rack ii 238 is meshed with the clamping gear ii 233, and the pushing gear ii 235 is meshed with the pushing rack ii 240.

The transmission shaft 227 rotates to drive the pinion 229 to rotate, the pinion 229 rotates to drive the clamping gear II 233 to rotate, the clamping gear II 233 rotates to drive the clamping rack II 238 to move, the pushing gear II 235 rotates to drive the pushing rack II 240 to transversely move, and the photovoltaic panels are pushed firstly and then clamped and positioned.

As shown in fig. 6-8, the conveying device comprises an L fixing plate 303, a plate fixing frame 312 and a stirring fixing frame 309, the L fixing plate 303 is fixedly installed on the frame 101, a rotating shaft is arranged on the L fixing plate 303, a rotating belt wheel ii 306 is rotatably installed on the rotating shaft, a conveying rotating shaft 302 is rotatably installed at the movable end of the third motor 301, a conveying belt 319 driven by the conveying rotating shaft 302 rotates, a rotating belt wheel i 304 is rotatably installed on the conveying rotating shaft 302, rotating belts 305 are wound on the outer sides of the rotating belt wheel i 304 and the rotating belt wheel ii 306, a large disc 307 is rotatably installed at the front end of the rotating belt wheel ii 306, a connecting rod 308 is arranged on the large disc 307, the other end of the connecting rod 308 is fixedly installed on a small disc 310, a small disc 310 is rotatably installed on the stirring fixing frame 309, the stirring fixing frame 309 is fixedly installed on the frame 101, a rotating block 311 is rotatably installed on the stirring fixing frame 309, a rotating shaft 313 is arranged on the plate fixing frame 312, a triangular rotating plate 314 is fixedly installed on the rotating shaft 313, a bump 315 is fixedly installed on one side of the triangular rotating plate 314, an upper plate 316 and a lower limiting spring 317 is arranged on the lower plate 317.

The third motor 301 drives the conveying rotating shaft 302 to rotate so as to drive the conveying belt 319 to rotate, meanwhile, the conveying rotating shaft 302 drives the rotating belt pulley I304 to rotate, the rotating belt pulley I304 drives the rotating belt pulley II 306 to rotate so as to drive the large disc 307 to rotate, the large disc 307 drives the small disc 310 to rotate through the connecting rod 308, the stirring block 311 is driven to rotate, the stirring block 311 is driven to stir the convex block 315 to rotate, the triangular rotating plate 314 is driven to incline, and the welded solar photovoltaic plate is inclined to fall onto the conveying belt 319, so that continuous welding work can be realized.

The invention discloses a working principle of a solar photovoltaic panel positioning welding device, which comprises the following steps: placing a plurality of photovoltaic panels 207 inside a storage rack 206, driving a pushing main rotating shaft 212 through a second motor 211, driving a pushing gear I213 and a clamping gear I214 to rotate, driving a pushing rack I208 to transversely move, driving an inner pushing plate 205 to transversely move, horizontally pushing the photovoltaic panels 207 to transversely move, driving the clamping gear I214 to rotate so as to drive a clamping rack I217 to vertically move, driving a clamping plate I218 to push forward, and driving a synchronous belt 220 to rotate by a synchronous belt wheel I219, driving a synchronous belt wheel II 222 to drive a synchronous rotating shaft 223, driving a transmission shaft 227 to rotate, driving a pinion 229 to rotate, driving a clamping gear II 233 to rotate by a transmission shaft 227 to drive a clamping rack II 238 to move, driving a pushing gear II 235 to rotate, driving a pushing rack II 240 to transversely move by a pushing gear II 235, and firstly pushing and then clamping and positioning the two photovoltaic panels. And then, the first motor 103 is started to drive the screw rod 104 to rotate, so that the welding gun rack 106 is driven to move in the horizontal direction, and the welding gun rack 106 drives the welding gun 107 to move, thereby realizing the welding treatment of the two photovoltaic panels. Finally, the conveying rotating shaft 302 is driven to rotate through the third motor 301, so that the conveying belt 319 is driven to rotate, meanwhile, the conveying rotating shaft 302 drives the rotating belt pulley I304 to rotate, the rotating belt pulley I304 drives the rotating belt pulley II 306 to rotate, the large disc 307 is driven to rotate, the large disc 307 drives the small disc 310 to rotate through the connecting rod 308, the stirring block 311 is driven to rotate, the stirring block 311 drives the convex block 315 to rotate, the triangular rotating plate 314 is driven to incline, the welded solar photovoltaic panel is inclined to fall onto the conveying belt 319, and the conveying belt 319 rotates towards the direction of the pushing support frame II 230, so that continuous welding work can be realized.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the technical scope of the present invention, should make equivalent substitutions or modifications according to the technical solution of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (1)

1. The utility model provides a solar photovoltaic board fixed-position welding set, includes welding set, its characterized in that: the welding device comprises a frame (101), the frame (101) is placed on the ground, a welding support frame (102) is fixedly installed on the frame (101), a groove is formed in the welding support frame (102), a positioning device is arranged below the welding device and used for pushing a photovoltaic panel to a middle position, the welding device is used for welding the positioned photovoltaic panel, a conveying device is arranged on the frame (101) and comprises a third motor (301), the third motor (301) is fixedly installed at the groove of the frame (101), and the conveying device is used for conveying the welded photovoltaic panel;

the welding device further comprises a motor fixing plate (105) fixedly arranged on the welding support frame (102), a first motor (103) is fixedly arranged on the motor fixing plate (105), a screw rod (104) is rotatably arranged at the movable end of the first motor (103), a welding gun frame (106) is rotatably arranged on the screw rod (104), and a welding gun (107) is arranged on the welding gun frame (106);

the positioning device comprises a clamping mechanism and a pushing mechanism, wherein the clamping mechanism comprises a pushing support frame I (209) fixedly arranged on the lower surface of a frame (101), an upper fixing plate (210) is fixedly arranged on the pushing support frame I (209), a second motor (211) is fixedly arranged at the lower end of the upper fixing plate (210), a pushing main rotating shaft (212) is rotatably arranged at the movable end of the second motor (211), a pushing gear I (213) is arranged on the pushing main rotating shaft (212), the pushing gear I (213) is rotatably arranged on the upper surface of the upper fixing plate (210), a clamping gear I (214) is rotatably arranged above the pushing gear I (213), a clamping chute I (215) is fixedly arranged at the edge of the upper fixing plate (210), a sliding block I (216) is arranged in the clamping chute I (215), a clamping rack I (217) is fixedly arranged on the sliding block I (216), a clamping plate I (218) is fixedly arranged in front of the clamping rack I (217), and the clamping rack I (217) is meshed with the clamping gear I (214);

the pushing mechanism comprises a plurality of supports (201) fixedly arranged on a frame (101), a push-pull round rod I (202) and a push-pull round rod II (203) are fixedly arranged on the supports (201), a lower transverse plate (204) is arranged at the movable ends of the push-pull round rod I (202) and the push-pull round rod II (203), an inner pushing plate (205) is fixedly arranged in the middle of the lower transverse plate (204), a pushing rack I (208) is fixedly arranged at the edge end of the lower transverse plate (204), the pushing rack I (208) is meshed with the pushing gear I (213), a push-pull round rod is arranged on the support (201) at the other side, an upper transverse plate (241) is fixedly arranged at the movable end of the push-pull round rod, a pushing rack II (240) is fixedly arranged on the upper transverse plate (241), two storage frames (206) are fixedly arranged on the frame (101), and a photovoltaic plate (207) is arranged inside the storage frames (206);

the automatic feeding device is characterized in that a synchronous rotating shaft (223) is rotatably arranged inside the frame (101), a synchronous belt wheel II (222) is arranged on the synchronous rotating shaft (223), a synchronous belt wheel I (219) is arranged on the pushing main rotating shaft (212), a synchronous belt (220) is wound outside the synchronous belt wheel I (219) and the synchronous belt wheel II (222), a triangular limiting block (221) is further arranged inside the frame (101), a connecting belt wheel I (224) is rotatably arranged below the synchronous belt wheel II (222), a vertical plate (228) is fixedly arranged at the edge end of the frame (101), a transmission shaft (227) is rotatably arranged on the vertical plate (228), a connecting belt wheel II (226) is arranged at the bottom end of the transmission shaft (227), and a connecting belt (225) is wound outside the connecting belt wheel II (226) and the connecting belt wheel I (224);

pinion (229) is rotatably mounted at the top end of the transmission shaft (227), a pushing support frame II (230) is arranged at the rear of the pinion (229), the pushing support frame II (230) is fixedly mounted on the frame (101), a pushing fixed plate (231) is fixedly mounted on the pushing support frame II (230), a pushing rotating shaft (232) is arranged on the pushing fixed plate (231), a pushing gear II (235) is arranged below 321, the pushing gear II (235) is rotatably mounted on the pushing rotating shaft (232), a bearing sleeve (234) is arranged below the pushing rotating shaft (232), a clamping gear II (233) is rotatably mounted below the bearing sleeve (234), the clamping gear II (233) is meshed with the pinion (229), a clamping sliding groove II (236) is fixedly mounted on the edge of the pushing fixed plate (231), a sliding block II (237) is fixedly mounted on the sliding block II (236), a clamping rack II (238) is arranged on the clamping rack II (238), a clamping plate II (239) is rotatably mounted on the clamping rack II (238), and the clamping gear II (238) is meshed with the clamping gear II (240) and the clamping rack II (240);

the conveying device comprises an L fixing plate (303), a plate fixing frame (312) and a stirring fixing frame (309), wherein the L fixing plate (303) is fixedly arranged on a frame (101), a rotating shaft is arranged on the L fixing plate (303), a rotating belt wheel II (306) is rotatably arranged on the rotating shaft, a conveying rotating shaft (302) is rotatably arranged at the movable end of a third motor (301), a conveying belt (319) is arranged outside the conveying rotating shaft (302), a rotating belt wheel I (304) is rotatably arranged on the conveying rotating shaft (302), a rotating belt (305) is wound on the outer part of the rotating belt wheel I (304) and the rotating belt wheel II (306), a large disc (307) is rotatably arranged at the front end of the rotating belt wheel II (306), a connecting rod (308) is arranged on the large disc (307), the other end of the connecting rod (308) is fixedly arranged on a small disc (310), the small disc (310) is rotatably arranged on a stirring fixing frame (309), a stirring fixing frame (309) is fixedly arranged on the frame (101), a stirring block (311) is rotatably arranged on the stirring fixing frame (309), the plate (312) is fixedly arranged on the frame (101), a large disc (307) is rotatably arranged on the rotating shaft (313), one side of the triangular rotating plate (314) is fixedly provided with a bump (315), the plate fixing frame (312) is fixedly provided with an upper limit plate (316) and a lower limit plate (317), and the lower limit plate (317) is provided with a limit spring (318).