CN109881409B

CN109881409B - Fabric dyeing device

Info

Publication number: CN109881409B
Application number: CN201910282525.1A
Authority: CN
Inventors: 韩进; 张燕如; 黄超; 徐成义; 陆涛; 宋家翰; 王杰平
Original assignee: Quzhou University
Current assignee: Quzhou University
Priority date: 2019-04-10
Filing date: 2019-04-10
Publication date: 2021-04-20
Anticipated expiration: 2039-04-10
Also published as: CN109881409A

Abstract

The invention provides a fabric dyeing device, and belongs to the technical field of machinery. The dyeing machine solves the technical problems that the existing dyeing efficiency is low, and the fabric is easy to wrinkle. The utility model provides a surface fabric dyeing apparatus, which comprises a frame, the dyeing case that has the dyestuff in being fixed with in the frame, still be provided with in the frame and put reel and winding drum, it is located the both sides of dyeing case to put reel and winding drum, it prevents the surface fabric from unreeling the fixed establishment that the drum drops to unreel to be provided with between a drum and the dyeing case, the dyeing incasement rotation is provided with pivot one, a pivot surface has spiral barrier zone, the barrier zone forms the passageway that holds the surface fabric and pass through with a pivot surface, the barrier zone is used for preventing the surface fabric from overlapping, pivot one is through taking its pivoted actuating mechanism drive to rotate, pivot one has the cavity passageway. The dyeing method has the advantages of high dyeing efficiency and difficulty in wrinkling the fabric.

Description

Fabric dyeing device

Technical Field

The invention belongs to the technical field of machinery, and particularly relates to a fabric dyeing device.

Background

Textile fabrics include weft-knitted textile fabrics and warp-knitted textile fabrics according to the weaving method. Weft-knitted textile fabrics are usually made from low-stretch polyester yarns or special-shaped polyester yarns, nylon yarns, cotton yarns, wool yarns and the like as raw materials by knitting flat stitch, variable flat stitch, rib flat stitch, double rib flat stitch, jacquard weave, terry weave and the like on various weft knitting machines. A large amount of textile fabrics need be used in the existing clothing production process, and in order to meet various requirements for the colors of the textile fabrics in clothing design, a dyeing device is needed to treat the textile fabrics.

However, in the conventional dyeing machine, the fabric is loosened and then placed in the dye vat for dyeing, so that the dyed fabric is messy, a post-treatment process is required, the fabric is smoothed out again, the efficiency is low, wrinkles on the fabric are easily caused in the dyeing process, a ironing process is required to be added, and the efficiency is reduced.

Disclosure of Invention

The invention aims to solve the problems in the prior art, provides a fabric dyeing device, and solves the problems of low dyeing efficiency and easiness in fabric wrinkling.

The purpose of the invention can be realized by the following technical scheme:

a fabric dyeing device comprises a rack, a dyeing box with dye inside is fixed on the rack, a winding drum and a winding drum are also arranged on the rack, the winding drum and the winding drum are positioned at two sides of the dyeing box, and the fabric dyeing device is characterized in that a fixing mechanism for preventing fabric from falling off from the winding drum is arranged between the winding drum and the dyeing box, a first rotating shaft is arranged in the dyeing box in a rotating manner, a spiral separation belt is arranged on the surface of the first rotating shaft, a channel for the fabric to pass through is formed by the separation belt and the surface of the first rotating shaft, the separation belt is used for preventing the fabric from overlapping, the first rotating shaft is driven to rotate by a driving mechanism for driving the first rotating shaft to rotate, the first rotating shaft is provided with a hollow channel, a plurality of first through holes communicated with the hollow channel are formed in the first rotating shaft, a plurality of vibration assemblies for improving dyeing efficiency are arranged at the first through holes, and a vibration mechanism capable of, the dyeing box is internally fixed with a fixing frame, the fixing frame is fixed with a barrel, the barrel is coaxially fixed with the rotating shaft, a space is formed between the inside of the barrel and the rotating shaft, and the barrel is provided with a plurality of extruding mechanisms for extruding fuel in the dyeing box to the surface of the fabric.

The working principle of the invention is as follows: the fabric winding drum is arranged on the fabric winding drum, the fabric is wound along a channel on the surface of a rotating shaft and is fixed on the fabric winding drum, the fabric is dyed and made, the driving mechanism is started to drive the rotating shaft to rotate, the fabric is rotated to be conveyed, the fabric is conveyed in the channel, the fabric is not overlapped through a barrier belt, the color of the overlapped fabric is prevented from being completely dyed, the fabric is made to be in contact with the dye through the cooperation of the vibration assembly and the vibration mechanism, the dyeing efficiency is improved, the dye is continuously flushed into the interior of the drum from the exterior of the drum through the extrusion mechanism, the dye in the interior of the drum is increased, the flowing speed is increased, the dyeing efficiency is improved, the fabric is also directly flushed into the surface of the fabric, the dye is more thoroughly contacted with the fabric, and the dye can be dyed and colored in a short time.

The dyeing method can improve the dyeing efficiency of the fabric, so that the fabric is not wrinkled, the dyeing is not needed after the fabric is loosened and disordered, and the fabric is still in a roll shape after the dyeing is finished, thereby facilitating the subsequent processing of the fabric. When the fabric on the unwinding cylinder is quickly unwound, the fixing mechanism can fix the end of the fabric, and then the new fabric is mounted and connected and then loosened, so that the fabric can be continuously dyed conveniently. The distance is 30-40 cm.

In the fabric dyeing device, the first rotating shaft is also provided with a plurality of alternating current holes. The cross flow holes can increase the time for the inner side of the fabric to be contacted with the dye.

In the fabric dyeing device, the fixing mechanism comprises a positioning frame, a first extrusion plate, a second extrusion plate and a plurality of cylinders, the positioning frame is fixed on the frame, the first extrusion plate is fixed on the positioning frame, an auxiliary roller is arranged on the first extrusion plate in a rotating mode, the cylinders are fixed on the first extrusion plate, a through hole is formed in the first extrusion plate, a piston rod of each cylinder penetrates through the through hole, and the second extrusion plate is fixed on a piston rod of each cylinder. And starting the air cylinder to extrude the second extrusion plate onto the first extrusion plate, fixing the fabric, and preventing the fabric from being scraped by the first extrusion plate or the second extrusion plate in the conveying process through the auxiliary roller on the first extrusion plate when the second extrusion plate and the first extrusion plate are not fixed.

In the fabric dyeing device, the driving mechanism comprises a first motor, the first motor is fixed on the dyeing box, a first gear is coaxially fixed on an output shaft of the first motor, a second gear is coaxially fixed on the first rotating shaft, and the first gear is meshed with the second gear. The first motor is started to drive the first gear to rotate, the second gear drives the second gear to rotate, and the second gear drives the first rotating shaft to rotate.

In the fabric dyeing device, the vibration assembly comprises a plurality of slide rods, a fixing plate and a vibration plate, the slide rods penetrate into the first through holes, the fixing plate is fixed at one end of each slide rod, the fixing plate is located outside the first rotating shaft, the vibration plate is fixed on the fixing plate through a plurality of springs, the other ends of the slide rods are provided with rotating wheels, and the slide rods are connected with the inner wall of the first rotating shaft through tension springs. The slide bar can slide in through-hole one, and the slide bar makes a round trip when sliding in through-hole one, and the fixed plate promotes vibration board and surface fabric high frequency contact, makes the quick extrusion of dyestuff and passes the surface fabric, improves the dyeing efficiency of surface fabric, at vibration board quick and surface fabric contact, is pressed to the fixed plate through the spring, prevents to elongate the surface fabric, perhaps makes the surface fabric tear.

In the fabric dyeing device, the fixing plate is fixedly connected with at least two sliding rods.

In the fabric dyeing device, the vibration mechanism comprises a second motor, a second rotating shaft and a plurality of eccentric rotating blocks, the second rotating shaft is rotatably arranged in the hollow channel, the second rotating shaft is coaxially arranged with the first rotating shaft, the eccentric rotating blocks are fixed on the second rotating shaft and abutted against the rotating wheels, the second motor is fixed on the dyeing box, and an output shaft of the second motor is fixedly connected with the second rotating shaft and can rotate along with the rotating wheels. The second motor is started to drive the second rotating shaft to rotate, the second rotating shaft drives the eccentric rotating block to rotate, and when the eccentric rotating block is contacted with the rotating wheel, the sliding rod vibrates back and forth along with the eccentric rotating block.

In the fabric dyeing device, the extruding mechanism comprises four groups of feeding assemblies arranged on the surface of a cylinder body, the feeding assemblies can convey dye to the surface of a rotating shaft, each feeding assembly comprises a fixed cylinder, an auger shaft, a first helical gear, a second helical gear and a third rotating shaft, the fixed cylinder is fixed on the surface of the cylinder body, a through hole II communicated with the fixed cylinder is formed in the surface of the cylinder body, the auger shaft is rotatably arranged in the fixed cylinder, the first helical gear is fixed on the auger shaft, the third rotating shaft is rotatably arranged on a fixed frame, the second helical gear is coaxially fixed on the third rotating shaft, the first helical gear is meshed with the second helical gear, a rotating ring is rotatably arranged on the fixed frame, an inner ring of the rotating ring is fixedly provided with an inner ring gear, an outer ring of the rotating ring is fixedly provided with an outer ring gear, a third gear is coaxially fixed on the third rotating shaft, and the third gear is meshed with the inner, and a third motor is fixed on the fixed frame, and a fourth gear is fixed on an output shaft of the third motor and is meshed with the outer gear ring.

The third motor is started to drive the rotating ring to rotate, the rotating ring drives the gear three to rotate, the gear three drives the rotating shaft three to rotate, the rotating shaft three drives the bevel gear two to rotate, the bevel gear two drives the gear one to rotate, the bevel gear one drives the auger shaft to rotate, the auger shaft continuously extrudes external dye into the barrel, the dye in the barrel flows at an accelerated speed, the contact efficiency of the fabric and the dye is improved, and the dyeing speed is increased.

Compared with the prior art, the invention has the following advantages:

1. the dyeing method can improve the dyeing efficiency of the fabric, so that the fabric is not wrinkled, the dyeing is not needed after the fabric is loosened and disordered, and the fabric is still in a roll shape after the dyeing is finished, thereby facilitating the subsequent processing of the fabric. When the fabric on the unwinding cylinder is quickly unwound, the fixing mechanism can fix the end of the fabric, and then the new fabric is mounted and connected and then loosened, so that the fabric can be continuously dyed conveniently.

2. The pole can slide in through-hole one, and the slide bar makes a round trip when sliding in through-hole one, and the fixed plate promotes vibration board and surface fabric high frequency contact, makes the quick extrusion of dyestuff and passes the surface fabric, improves the dyeing efficiency of surface fabric, at vibration board quick and surface fabric contact, is pressed to the fixed plate through the spring, prevents to elongate the surface fabric, perhaps makes the surface fabric tear.

3. The third motor is started to drive the rotating ring to rotate, the rotating ring drives the gear three to rotate, the gear three drives the rotating shaft three to rotate, the rotating shaft three drives the bevel gear two to rotate, the bevel gear two drives the gear one to rotate, the bevel gear one drives the auger shaft to rotate, the auger shaft continuously extrudes external dye into the barrel, the dye in the barrel flows at an accelerated speed, the contact efficiency of the fabric and the dye is improved, and the dyeing speed is increased.

Drawings

FIG. 1 is a schematic of the present invention.

FIG. 2 is a schematic view of a first rotating shaft according to the present invention.

Fig. 3 is a schematic view at a in fig. 1.

Fig. 4 is a schematic view at B in fig. 1.

Fig. 5 is a schematic view at C in fig. 1.

In the figure, 1, a frame; 2. a dyeing box; 3. placing the winding drum; 4. winding the roll; 5. a first rotating shaft; 5a, a hollow channel; 5b, a first through hole; 5c, an alternating current hole; 6. a barrier band; 7. a channel; 8. a fixed mount; 9. a barrel; 9a, a second through hole; 10. a positioning frame; 11. a first extrusion plate; 12. a second extrusion plate; 13. a cylinder; 14. an auxiliary roller; 15. a first motor; 16. a first gear; 17. a second gear; 18. a slide bar; 19. a fixing plate; 20. a vibrating plate; 21. a spring; 22. a rotating wheel; 23. a tension spring; 24. a second motor; 25. a second rotating shaft; 26. an eccentric rotating block; 27. a fixed cylinder; 28. a packing auger shaft; 29. a first bevel gear; 30. a second bevel gear; 31. a rotating shaft III; 32. a rotating ring; 33. an inner gear ring; 34. an outer ring gear; 35. a third motor; 36. a fourth gear; 37. and a third gear.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 5, a fabric dyeing apparatus comprises a frame 1, a dyeing box 2 with dye therein is fixed on the frame 1, a unwinding cylinder 3 and a winding cylinder 4 are further arranged on the frame 1, the unwinding cylinder 3 and the winding cylinder 4 are positioned at two sides of the dyeing box 2, a fixing mechanism for preventing fabric from falling off from the unwinding cylinder 3 is arranged between the unwinding cylinder 3 and the dyeing box 2, a rotating shaft 5 is rotatably arranged in the dyeing box 2, a spiral blocking belt 6 is arranged on the surface of the rotating shaft 5, a fabric passage 7 is formed by the blocking belt 6 and the surface of the rotating shaft 5, the blocking belt 6 is used for preventing fabric from overlapping, the rotating shaft 5 is driven to rotate by a driving mechanism with the rotation of the rotating shaft 5, the rotating shaft 5 is provided with a hollow passage 5a plurality of through holes 5b communicated with the hollow passage 5a, a plurality of vibrating assemblies for improving dyeing efficiency are arranged at the through holes 5b, the hollow channel 5a is internally provided with a vibration mechanism capable of vibrating the vibration component, the dyeing box 2 is internally fixed with a fixing frame 8, the fixing frame 8 is fixed with a cylinder body 9, the cylinder body 9 is coaxially fixed with a first rotating shaft 5, a space is arranged between the inside of the cylinder body 9 and the first rotating shaft 5, and the cylinder body 9 is provided with a plurality of extrusion mechanisms for extruding the fuel in the dyeing box 2 to the surface of the fabric.

The dyeing method can improve the dyeing efficiency of the fabric, so that the fabric is not wrinkled, the dyeing is not needed after the fabric is loosened and disordered, and the fabric is still in a roll shape after the dyeing is finished, thereby facilitating the subsequent processing of the fabric. When the fabric on the unwinding cylinder 3 is quickly unwound, the fixing mechanism can fix the end of the fabric, and then the new fabric is mounted and connected and then loosened, so that the fabric can be continuously dyed conveniently. The distance is 30-40 cm.

Specifically, the first rotating shaft 5 is further provided with a plurality of alternating-current holes 5 c. The cross flow holes 5c can increase the time for which the inner side of the fabric is also brought into contact with the dye.

Specifically, fixed establishment includes locating rack 10, stripper plate 11, stripper plate two 12 and a plurality of cylinder 13, and locating rack 10 fixes in frame 1, and stripper plate 11 is fixed on locating rack 10, rotates on the stripper plate 11 and is provided with supplementary roller 14, and cylinder 13 fixes on stripper plate 11, has seted up on stripper plate 11 and has worn to establish the hole, and the piston rod of cylinder 13 passes and wears to establish the hole, and stripper plate two 12 fixes on the piston rod of cylinder 13. The cylinder 13 is started to extrude the second extrusion plate 12 onto the first extrusion plate 11, then the fabric is fixed, and when the fabric is not fixed through the second extrusion plate 12 and the first extrusion plate 11, the fabric is prevented from being scraped by the first extrusion plate 11 or the second extrusion plate 12 in the conveying process through the auxiliary roller 14 on the first extrusion plate 11.

Specifically, the driving mechanism comprises a first motor 15, the first motor 15 is fixed on the dyeing box 2, a first gear 16 is coaxially fixed on an output shaft of the first motor 15, a second gear 17 is coaxially fixed on the first rotating shaft 5, and the first gear 16 is meshed with the second gear 17. The first motor 15 is started to drive the first gear 16 to rotate, the first gear 16 drives the second gear 17 to rotate, and the second gear 17 drives the first rotating shaft 5 to rotate.

Specifically, the vibration assembly comprises a plurality of sliding rods 18, a fixing plate 19 and a vibration plate 20, the sliding rods 18 penetrate through the first through holes 5b, the fixing plate 19 is fixed at one end of the sliding rods 18, the fixing plate 19 is located outside the first rotating shaft 5, the vibration plate 20 is fixed on the fixing plate 19 through a plurality of springs 21, a rotating wheel 22 is arranged at the other end of the sliding rods 18, and the sliding rods 18 are connected with the inner wall of the first rotating shaft 5 through tension springs 23. The slide bar 18 can slide in the through-hole 5b, and when the slide bar 18 slided in the through-hole 5b to and fro, the fixed plate 19 promoted the vibration board 20 and contacted with the surface fabric with high frequency, so that the dye extruded rapidly and passed through the surface fabric, the dyeing efficiency of the surface fabric is improved, the vibration board 20 contacted with the surface fabric rapidly, and the spring 21 is pressed to the fixed plate 19 to prevent the surface fabric from being elongated or tear the surface fabric.

In particular, the fixed plate 19 is fixedly connected to at least two sliding rods 18.

Specifically, the vibration mechanism comprises a second motor 24, a second rotating shaft 25 and a plurality of eccentric rotating blocks 26, the second rotating shaft 25 is rotatably arranged in the hollow channel 5a, the second rotating shaft 25 and the first rotating shaft 5 are coaxially arranged, the eccentric rotating blocks 26 are fixed on the second rotating shaft 25, the eccentric rotating blocks 26 abut against the rotating wheel 22, the second motor 24 is fixed on the dyeing box 2, and an output shaft of the second motor 24 is fixedly connected with the second rotating shaft 25 and can rotate. The second motor 24 is started to drive the second rotating shaft 25 to rotate, the second rotating shaft 25 drives the eccentric rotating block 26 to rotate, and the sliding rod 18 is made to vibrate back and forth along with the eccentric rotating block 26 when the eccentric rotating block 26 is contacted with the rotating wheel 22.

Specifically, the extrusion mechanism comprises four groups of feeding assemblies arranged on the surface of a cylinder body 9, the feeding assemblies can convey dye to the surface of a first rotating shaft 5, each feeding assembly comprises a fixed cylinder 27, an auger shaft 28, a first helical gear 29, a second helical gear 30 and a third rotating shaft 31, the fixed cylinder 27 is fixed on the surface of the cylinder body 9, the surface of the cylinder body 9 is provided with a second through hole 9a communicated with the fixed cylinder 27, the auger shaft 28 is rotatably arranged in the fixed cylinder 27, the first helical gear 29 is fixed on the auger shaft 28, the third rotating shaft 31 is rotatably arranged on a fixed frame 8, the second helical gear 30 is coaxially fixed on the third rotating shaft 31, the first helical gear 29 is meshed with the second helical gear 30, the fixed frame 8 is rotatably provided with a rotating ring 32, an inner ring gear 33 is fixed on an inner ring of the rotating ring 32, an outer ring gear 34 is fixed on an outer ring of the rotating ring 32, a third gear is coaxially fixed on the third rotating shaft 31, a fourth gear 36 is fixed to an output shaft of the third motor 35, and the fourth gear 36 is engaged with the outer ring gear 34.

The third motor 35 is started to drive the rotating ring 32 to rotate, the rotating ring 32 drives the gear third 37 to rotate, the gear third 37 drives the rotating shaft third 31 to rotate, the rotating shaft third 31 drives the helical gear second 30 to rotate, the helical gear second 30 drives the gear first 16 to rotate, the helical gear first 29 drives the auger shaft 28 to rotate, the auger shaft 28 continuously extrudes external dye into the barrel body 9, so that the dye in the barrel body 9 flows at an accelerated speed, the contact efficiency of the fabric and the dye is improved, and the dyeing speed is increased.

The working principle of the invention is as follows: the fabric winding drum is arranged on the unwinding drum 3, then the fabric is wound along a channel 7 on the surface of the first rotating shaft 5 and then fixed on the winding drum 4, when the fabric is dyed, the driving mechanism is started to drive the first rotating shaft 5 to rotate, the first rotating shaft rotates to convey the fabric, the fabric is conveyed in the channel 7, the fabrics are not overlapped through the barrier belt 6, the color of the overlapped part of the fabrics is prevented from being incompletely dyed, the contact between the fabric and the dye is promoted through the matching of the vibration component and the vibration mechanism, the dyeing efficiency is improved, the dye is continuously flushed into the barrel body 9 from the outside of the barrel body 9 through the extruding mechanism, so that the dye in the barrel body 9 is increased, the flowing speed is increased, the dyeing efficiency is improved, and simultaneously under the action of the extruding mechanism, then directly rushes into the surface of the fabric, so that the dye is contacted with the fabric more thoroughly, and can be dyed in a short time.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims

1. A fabric dyeing device comprises a rack, a dyeing box with dye inside is fixed on the rack, a winding drum and a winding drum are also arranged on the rack and positioned on two sides of the dyeing box, and the fabric dyeing device is characterized in that a fixing mechanism for preventing fabric from falling off from the winding drum is arranged between the winding drum and the dyeing box, a first rotating shaft is arranged in the dyeing box in a rotating manner, a spiral separation belt is arranged on the surface of the first rotating shaft, a channel for the fabric to pass through is formed by the separation belt and the surface of the first rotating shaft, the fabric is wound along the channel on the surface of the first rotating shaft, the separation belt is used for preventing the fabric from overlapping, the first rotating shaft is driven to rotate by a driving mechanism for driving the first rotating shaft to rotate, the first rotating shaft is provided with a hollow channel, a plurality of first through holes communicated with the hollow channel are formed in the first rotating shaft, and a plurality of vibration assemblies for improving dyeing efficiency are, the dyeing machine is characterized in that a vibration mechanism capable of vibrating the vibration assembly is arranged in the hollow channel, a fixing frame is fixed in the dyeing box, a cylinder is fixed on the fixing frame, the cylinder and a rotating shaft are coaxially fixed, a distance is reserved between the inside of the cylinder and the rotating shaft, and a plurality of extruding mechanisms for extruding fuel in the dyeing box to the surface of fabric are arranged on the cylinder.

2. A fabric dyeing device according to claim 1, characterized in that said first shaft is provided with a plurality of cross flow holes.

3. A fabric dyeing device according to claim 1, characterized in that the fixing mechanism comprises a positioning frame, a first extrusion plate, a second extrusion plate and a plurality of cylinders, the positioning frame is fixed on the frame, the first extrusion plate is fixed on the positioning frame, an auxiliary roller is rotatably arranged on the first extrusion plate, the cylinders are fixed on the first extrusion plate, the first extrusion plate is provided with through holes, piston rods of the cylinders penetrate through the through holes, and the second extrusion plate is fixed on piston rods of the cylinders.

4. A fabric dyeing apparatus as claimed in claim 1, characterized in that said drive mechanism comprises a first motor, said first motor is fixed on the dyeing box, a first gear is coaxially fixed on the output shaft of the first motor, a second gear is coaxially fixed on said first rotating shaft, and said first gear is meshed with said second gear.

5. A fabric dyeing apparatus according to claim 1, wherein said vibrating assembly includes a plurality of sliding rods, a fixing plate and a vibrating plate, said sliding rods penetrate into the first through holes, said fixing plate is fixed at one end of the sliding rods, the fixing plate is located outside the first rotating shaft, said vibrating plate is fixed on the fixing plate through a plurality of springs, the other end of the sliding rods is provided with a rotating wheel, and said sliding rods are connected with an inner wall of the first rotating shaft through a tension spring.

6. A fabric dyeing apparatus as claimed in claim 5, characterized in that said holding plate is fixedly connected to at least two slide bars.

7. A fabric dyeing apparatus according to claim 5, characterized in that the vibrating mechanism comprises a second motor, a second rotating shaft and a plurality of eccentric rotating blocks, the second rotating shaft is rotatably disposed in the hollow passage, the second rotating shaft is coaxial with the first rotating shaft, the eccentric rotating blocks are fixed on the second rotating shaft, the eccentric rotating blocks are abutted against the rotating wheel, the second motor is fixed on the dyeing box, and an output shaft of the second motor is fixed to the second rotating shaft and can be rotated with the second rotating shaft.

8. The fabric dyeing device according to claim 1, wherein the extruding mechanism comprises four sets of feeding components arranged on the surface of the cylinder body, the feeding components can feed dye to the surface of the first rotating shaft, the feeding components comprise a fixed cylinder, an auger shaft, a first helical gear, a second helical gear and a third rotating shaft, the fixed cylinder is fixed on the surface of the cylinder body, the surface of the cylinder body is provided with a second through hole communicated with the fixed cylinder, the auger shaft is rotatably arranged in the fixed cylinder, the first helical gear is fixed on the auger shaft, the third rotating shaft is rotatably arranged on the fixed frame, the second helical gear is coaxially fixed on the third rotating shaft, the first helical gear is meshed with the second helical gear, the fixed frame is rotatably provided with a rotating ring, an inner ring is fixed on the inner ring of the rotating ring, an outer ring is fixed on the outer ring of the rotating ring, and a third gear is coaxially fixed on the third rotating shaft, the third gear is meshed with the inner gear ring, the fixed frame is fixedly provided with a third motor, an output shaft of the third motor is fixedly provided with a fourth gear, and the fourth gear is meshed with the outer gear ring.