CN114454045B

CN114454045B - A conveying grinding device for plastics emulation rattan

Info

Publication number: CN114454045B
Application number: CN202210275963.7A
Authority: CN
Inventors: 卢波
Original assignee: Zhuji Minyi Rattan Products Co ltd
Current assignee: Zhuji Minyi Rattan Products Co ltd
Priority date: 2022-03-21
Filing date: 2022-03-21
Publication date: 2023-01-13
Anticipated expiration: 2042-03-21
Also published as: CN114454045A

Abstract

The invention discloses a conveying and polishing device for plastic simulation rattans, which comprises a device base, wherein a winding assembly and a discharging assembly are respectively arranged at two ends of the upper surface of the device base, a polishing assembly is arranged in the middle of the device base, clamping assemblies are arranged at two sides of the polishing assembly, the polishing assembly comprises a first L-shaped rod, a second L-shaped rod and two arc-shaped polishing blocks, an adjusting groove is formed in the upper surface of the device base, a first motor is fixed in the adjusting groove, a first bidirectional threaded rod is fixed on the output of the first motor, a first adjusting block and a second adjusting block which are respectively in threaded fit with two ends of the first bidirectional threaded rod are arranged in the adjusting groove in a sliding mode, the first adjusting block and the second adjusting block are respectively fixed with the first L-shaped rod and the second L-shaped rod, a first arc-shaped plate is fixed at one end of the first L-shaped rod, which is far away from the first adjusting block, and a second arc-shaped plate is fixed at one end of the second L-shaped rod, which is far away from the second adjusting block, and the problems that the simulation rattans of the conventional polishing device that manpower is consumed and the precision is insufficient are solved.

Description

A conveying grinding device for plastics emulation rattan

Technical Field

The invention relates to simulation rattan production equipment, in particular to a conveying and polishing device for plastic simulation rattans.

Background

The main material of the simulation rattan is made of plastic and PU environment-friendly flame-retardant material, so the simulation rattan is protected from exposure to sunlight during maintenance, and the simulation rattan becomes brittle and easy to break due to long-term exposure, the color becomes light and even loses luster, and the simulation rattan is far away from conditions such as high temperature and the like.

The simulation rattan of current emulation rattan is all when production, is polishing to the emulation rattan after the manual work is pressed the emulation rattan, so not only expend the manpower, and the precision of polishing moreover can be relatively poor, can not reach appointed standard.

Disclosure of Invention

The invention aims to provide a conveying and polishing device for plastic simulation rattans, and solves the problems that the conventional polishing device consumes labor and is insufficient in precision when used for polishing the simulation rattans.

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

the utility model provides a conveying grinding device for plastics emulation rattan, includes the device base, the both ends of device base upper surface are provided with rolling subassembly and blowing subassembly respectively, device base middle part is provided with the subassembly of polishing, the subassembly both sides of polishing are provided with the centre gripping subassembly, the subassembly of polishing includes L shape pole one, L shape pole two and two arc grinding block, the adjustment tank has been seted up to device base upper surface, the adjustment tank internal fixation has motor one, be fixed with two-way threaded rod one on the output of motor one, it is provided with respectively with two-way threaded rod both ends screw-thread fit's adjustment block one and adjustment block two to slide in the adjustment tank, adjustment block one and adjustment block two are fixed with L shape pole one and L shape pole two respectively, the one end that adjustment block one was kept away from to L shape pole one is fixed with arc plate one, the one end that adjustment block two were kept away from to L shape pole two is fixed with arc plate two, arc plate one and two close terminal surfaces of arc plate have all seted up arc clamping groove, two arc grinding block slide respectively and set up in the arc grinding block that corresponds the arc inner surface of the arc, the fixed gear rack that two arc grinding block and the fixed gear rack that has set up respectively, the stopper has placed the stopper, two fixed iron output shafts that the fixed iron block that the motor that slide in the arc grinding block had placed the arc groove, the stopper had placed the stopper.

By adopting the technical scheme, one end of an emulation rattan on the discharging component sequentially penetrates through the clamping component, the end of the emulation rattan is wound on the winding component, the winding component is started to pull the emulation rattan, when the emulation rattan moves to be located between the two arc-shaped polishing blocks, two ends of the emulation rattan are clamped through the clamping component, the first motor is started, the first motor rotates to drive the first bidirectional threaded rod to rotate, the first bidirectional threaded rod rotates to drive the first adjusting block and the second adjusting block to be close to each other, the first adjusting block and the second adjusting block move to respectively drive the first L-shaped rod and the second L-shaped rod to be close to each other, the first L-shaped rod and the second L-shaped rod move to respectively drive the first arc-shaped plate and the second arc-shaped plate to be close to each other, the first arc-shaped plate and the second arc-shaped plate move to respectively drive the arc-shaped polishing blocks connected with the first arc-shaped rod to be close to each other until the arc-shaped polishing blocks touch the emulation rattan, at the moment, the arc-shaped polishing blocks are connected with the iron blocks through the iron blocks and the second motor, the second motor is started simultaneously, the rotation of the winding component drives the arc-shaped polishing block to continuously to polish the emulation rattan, and the next emulation rattan after the emulation rattan is finished to polish component, and the emulation rattan simulation rattan is continuously polishes, and a simulation rattan assembly is started to finish the next simulation rattan.

Preferably, the clamping assembly comprises a plurality of first rings and a plurality of second rings, the first rings and the second rings are symmetrically arranged, the first rings and the second rings are fixed on the device base through support columns, a first socket is symmetrically arranged on one side face, back to the back, of each first ring and the second rings, a first push rod is arranged in the first socket in a sliding mode, a second socket is arranged on the side wall of the first socket, a second push rod is arranged in the second socket in a sliding mode, the ends, close to the first push rod and the second push rod, of the first push rod are arranged into inclined planes, notches communicated with the second socket are formed in the inner side walls of the first rings and the second rings, clamping blocks are placed in the notches, one end, far away from the first push rod, of the second push rod is fixed with the clamping blocks, rebound grooves are formed in the two side walls of the socket, rebound blocks fixed with the second push rod are arranged in the rebound grooves in a sliding mode, springs fixed with the inner walls of the rebound grooves and the rebound blocks are arranged at two ends of the two ends, and starting pieces for driving the second push rod to move are arranged on the device base.

By adopting the technical scheme, when the simulation rattan needs to be clamped, the starting piece drives the first push rod, the first push rod and the second push rod are inclined, the first push rod moves to drive the second push rod to move along the vertical direction of the first push rod, the second push rod moves to drive the clamping blocks to move towards the simulation rattan until the clamping blocks on the two sides clamp the simulation rattan, the second push rod can drive the rebound blocks to move along the rebound grooves while moving, the rebound blocks move to drive the springs to compress, the springs compress to generate elastic force, after the starting piece moves back, the starting piece drives the first push rod to move back, the second push rod does not bear the pressure of the first push rod at the moment, the elastic force of the springs drives the rebound blocks to move back along the rebound grooves, the rebound blocks move to drive the second push rod to move back, the second push rod moves to drive the clamping blocks to be far away from the simulation rattan, and the simulation rattan can move at the moment.

Preferably, the starting part comprises a third motor and a second bidirectional threaded rod, a fixed plate is fixed on the device base, a first sliding groove is formed in the side wall of the fixed plate, the third motor is fixed in the first sliding groove, an output shaft of the third motor is fixed with the second bidirectional threaded rod, a plurality of first sliding blocks and a plurality of second sliding blocks are arranged in the first sliding groove in a sliding mode, the first sliding blocks and the second sliding blocks are respectively in threaded fit with two ends of the second bidirectional threaded rod, driving rods are fixed on the first sliding blocks and the second sliding blocks, one ends of the driving rods are symmetrically fixed with connecting rods, and one ends, far away from the driving rods, of the connecting rods are respectively fixed with the first push rods in corresponding positions.

By adopting the technical scheme, the first push rods are pushed to move simultaneously, the third motor is started, the output shaft of the third motor rotates to drive the second bidirectional threaded rod to rotate, the second bidirectional threaded rod rotates to drive the first slide blocks and the second slide blocks to move along the first sliding groove, the moving directions of the first slide blocks and the second slide blocks are opposite, the first slide blocks and the second slide blocks are close to each other in the moving process, the first slide blocks and the second slide blocks drive the correspondingly connected drive rods to move, the drive rods move to drive the connecting rods to move, and the connecting rods move to drive the push rods at the corresponding positions to move towards the second push rods.

Preferably, the discharging assembly comprises a first cylinder and a second cylinder, a first support plate is symmetrically fixed on the device base, a feeding groove, a discharging groove and a semicircular groove are formed in one side, close to the first support plate, of the first support plate, the upper end and the lower end of the semicircular groove are respectively communicated with the feeding groove and the discharging groove, a first placing opening and a second placing opening which are communicated with the feeding groove are formed in the inner side of the first support plate, the first cylinder and the second cylinder are respectively fixed in the first placing opening and the second placing opening, a first baffle is fixed on a piston rod of the first cylinder, an arc pressing block is fixed on a piston rod of the second cylinder, a plurality of sliding rods are arranged between the first support plates, two ends of the plurality of sliding rods are respectively arranged in the feeding groove, the discharging groove and the semicircular groove of the first support plates on two sides in a sliding mode, a discharging roller is sleeved outside the sliding rods, and the discharging roller is in running fit with the sliding rods.

According to the technical scheme, the discharging rollers are sleeved on the sliding rods, the sliding rods are moved in through the feeding grooves, the first air cylinder is started, the piston rod of the first air cylinder retracts to drive the first baffle to move away, at the moment, one sliding rod falls down along the semicircular groove, after one sliding rod falls down, the piston rod of the first air cylinder extends out to drive the first baffle to block other sliding rods, the other sliding rods are prevented from falling down, the sliding rods fall down to drive the discharging rollers to fall down, the second air cylinder is started, the piston rod of the second air cylinder extends out to drive the arc pressing block to press the sliding rods, the simulation rattans wound on the discharging rollers can be discharged at the moment, after the simulation rattans on one discharging roller are conveyed, the piston rod of the second air cylinder retracts to drive the arc pressing block to move back, at the moment, the discharging rollers on which the simulation rattans are placed fall down along with the sliding rods, the discharging rollers are moved out of the storage grooves, the operation is subsequently repeated, and the next discharging roller is used for discharging.

Preferably, a second support plate and a third support plate are fixed on the device base, a placing plate is fixed on the second support plate, a fourth motor is fixed on the placing plate, an output shaft of the fourth motor penetrates through the second support plate, a rotating rod is fixed on the output shaft of the fourth motor, a clamping strip is fixed on the rotating rod, a winding drum is sleeved outside the rotating rod, a first clamping groove corresponding to the clamping strip is formed in the inner wall of the winding drum, the winding drum is in sliding fit with the rotating rod, the clamping strip is arranged in the first clamping groove, the upper end of the third support plate is hinged with the fourth support plate, a bayonet is formed in one side face, close to the second support plate, of the fourth support plate, a stop block is fixed on the side wall at the upper end of the third support plate, a dovetail groove is formed in the other side wall at the upper end of the third support plate, yan Weikuai is slidably arranged in the dovetail groove, and a blocking piece is fixed on the dovetail block.

By adopting the technical scheme, when the simulation rattan is to be rolled, one end of the simulation rattan is fixed on the winding drum, motor four is started, an output shaft of motor four rotates to drive the rotary rod to rotate, under the action of the clamping strip, the rotary rod rotates to drive the winding drum to rotate, the winding drum rotates to wind the simulation rattan, after the winding drum is rolled, motor four is closed, the separation blade is removed, the dovetail block can only move in the dovetail groove, the separation blade is limited, after the separation blade is removed, the support plate four is rotated away, then the winding drum is moved away, a new winding drum is loaded on the rotary rod, the support plate four is rotated back, the support plate four is prevented from rotating to pass through the vertical state by the stop blade, and then the separation blade is moved back, the support plate is ensured to be in the vertical state by the separation blade and the stop block, and the next winding is carried out.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment;

FIG. 2 is an enlarged schematic view of an embodiment of the present invention for showing the area A in FIG. 1;

FIG. 3 is an enlarged schematic view of an embodiment of the present invention for showing a region B in FIG. 1;

FIG. 4 is a schematic diagram of the embodiment showing the positions of the first socket, the first push rod, the second socket, the second push rod, the notch and the clamping block;

FIG. 5 is an enlarged schematic view of the embodiment for showing the area C in FIG. 4;

FIG. 6 is a schematic structural view illustrating a clamping assembly according to an embodiment;

FIG. 7 is a schematic position diagram of the arc-spreading block, the first arc-shaped plate, the arc-shaped limiting groove and the arc-shaped limiting block in the embodiment;

FIG. 8 is an enlarged schematic view of the embodiment for showing a region D in FIG. 1;

FIG. 9 is a schematic position diagram of the first L-shaped rod, the second L-shaped rod, the arc block, the first motor, the first bidirectional threaded rod, the first adjusting block, the second adjusting block, the first arc plate and the second arc plate;

FIG. 10 is a schematic structural diagram of a rolling assembly shown in the embodiment;

FIG. 11 is a schematic diagram illustrating the positions of the rotating rod, the card strip, the winding reel and the first card slot according to the embodiment.

Reference numerals: 1. a device base; 2. a winding component; 3. a discharging assembly; 4. polishing the assembly; 5. a clamping assembly; 6. an L-shaped rod I; 7. an L-shaped rod II; 8. an arc-shaped block; 9. an adjustment groove; 10. a first motor; 11. a first bidirectional threaded rod; 12. a first adjusting block; 13. a second adjusting block; 14. a first arc plate; 15. a second arc-shaped plate; 16. an arc-shaped clamping groove; 17. an arc-shaped limiting groove; 18. an arc-shaped limiting block; 19. an iron block; 20. a magnet; 21. a placement groove; 22. an arc-shaped rack; 23. a drive slot; 24. a second motor; 25. a gear; 26. a first circular ring; 27. a second circular ring; 28. a first socket; 29. a first push rod; 30. a second socket; 31. a second push rod; 32. a recess; 33. a clamping block; 34. a rebound groove; 35. a rebound block; 36. a spring; 37. a trigger; 38. a third motor; 39. a two-way threaded rod II; 40. a fixing plate; 41. a first sliding chute; 42. a first sliding block; 43. a second sliding block; 44. driving the rod; 45. a connecting rod; 46. a first cylinder; 47. a second air cylinder; 48. a first support plate; 49. a feed chute; 50. a discharge chute; 51. a semicircular groove; 52. placing a first opening; 53. placing a second opening; 56. a first baffle plate; 57. an arc pressing block; 58. a slide bar; 59. a discharge roller; 60. a support plate II; 61. a support plate III; 62. placing the plate; 63. a motor IV; 64. rotating the rod; 65. clamping the strip; 66. winding the roll; 67. a first clamping groove; 68. a support plate IV; 69. a bayonet; 70. a stopper; 71. a dovetail groove; 72. yan Weikuai; 73. a baffle plate.

Detailed Description

The following description is only a preferred embodiment of the present invention, and the protection scope is not limited to the embodiment, and any technical solution that falls under the idea of the present invention should fall within the protection scope of the present invention. It should also be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention.

Referring to fig. 1 to 11, the conveying and polishing device for the plastic simulation rattan comprises a device base 1, a winding component 2 and a discharging component 3 are arranged at two ends of the upper surface of the device base 1 respectively, a polishing component 4 is arranged in the middle of the device base 1, clamping components 5 are arranged on two sides of the polishing component 4, each clamping component 5 comprises a first circular ring 26 and a second circular ring 27, the first circular ring 26 and the second circular ring 27 are symmetrically arranged, the first circular ring 26 and the second circular ring 27 are fixed on the device base 1 through supporting columns, the discharging component 3 comprises a first air cylinder 46 and a second air cylinder 47, a first support plate 48 is symmetrically fixed on the device base 1, a first feeding groove 49, a discharging groove 50 and a second half-round groove 51 are formed in one side of the first support plate 48, the upper end and the lower end of the half-round groove 51 are respectively communicated with the feeding groove 49 and the discharging groove 50, a first placing opening 52 and a second placing opening 53 communicated with the feeding groove 49 are formed in the inner side of the first support plate 48, the first air cylinder 46 and the second air cylinder 47 are respectively fixed in the placing opening 52 and the second placing opening 53, a first baffle 56 is fixed on a piston rod 46, a plurality of the second support plate 47 is fixed on the piston rod, a sliding rod 58 is respectively matched with the sliding rod 58 and a sliding roller 59 arranged on the sliding rod 59, and a sliding rod 59 is arranged on the two sliding rod of the support plate 48, and a sliding rod 59.

Sleeving a plurality of sliding rods 58 with a discharging roller 59, moving a plurality of sliding rods 58 in through a feeding groove 49, starting a first air cylinder 46, retracting a piston rod of the first air cylinder 46 to drive a first baffle 56 to move away, at the moment, one sliding rod 58 falls along a semicircular groove 51, after one sliding rod 58 falls, extending the piston rod of the first air cylinder 46 to drive the first baffle 56 to block other sliding rods 58, preventing other sliding rods 58 from falling, driving the discharging roller 59 to fall by falling of the sliding rod 58, starting a second air cylinder 47 after the sliding rod 58 falls to a designated position, extending the piston rod of the second air cylinder 47 to drive an arc pressing block 57 to press the sliding rod 58, at the moment, discharging simulated rattans wound on the discharging roller 59, pulling one end of the simulated rattans on the discharging roller 59 to continuously pass through a plurality of first rings 26 and second rings 27, after the conveying of the simulated rattans on one discharging roller 59 is finished, driving the piston rod of the second air cylinder 47 to retract to drive the arc pressing block 57 to move back, at the discharging roller 59 is repeatedly moved out along with the discharging roller 58, and then the discharging roller 59 is repeatedly operated.

A second support plate 60 and a third support plate 61 are fixed on the device base 1, a placing plate 62 is fixed on the second support plate 60, a fourth motor 63 is fixed on the placing plate 62, an output shaft of the fourth motor 63 penetrates through the second support plate 60, a rotating rod 64 is fixed on an output shaft of the fourth motor 63, a clamping strip 65 is fixed on the rotating rod 64, a winding drum 66 is sleeved outside the rotating rod 64, a first clamping groove 67 corresponding to the clamping strip 65 is formed in the inner wall of the winding drum 66, the winding drum 66 is in sliding fit with the rotating rod 64, the clamping strip 65 is arranged in the first clamping groove 67, a fourth support plate 68 is hinged to the upper end of the third support plate 61, a bayonet 69 is formed in one side face, close to the second support plate 60, of the fourth support plate 68, one end, penetrating through the first ring 26 and the second ring 27, is fixed on the winding drum 66, the fourth motor 63 is started, the rotating rod 64 is driven by the output shaft of the fourth motor 63 to rotate, under the action of the clamping strip 65, the rotating rod 64 drives the winding drum 66 to rotate, and the winding drum 66 to rotate to simulate rattan artificial rattan.

Polishing assembly 4 includes L shape pole one 6, L shape pole two 7 and two arc sanding block 8, device base 1 upper surface has seted up adjustment tank 9, be fixed with motor one 10 in the adjustment tank 9, be fixed with two-way threaded rod one 11 on the output of motor one 10, it is provided with respectively with two-way threaded rod one 11 both ends screw-thread fit's regulating block one 12 and regulating block two 13 to slide in the adjustment tank 9, regulating block one 12 and regulating block two 13 are fixed with L shape pole one 6 and L shape pole two 7 respectively, the one end that regulating block one 12 was kept away from to L shape pole one 6 is fixed with arc one 14, the one end that regulating block two 13 were kept away from to L shape pole two 7 is fixed with arc two 15, arc draw-in groove 16 has all been seted up to the one terminal surface that arc one 14 and arc two 15 are close, two arc sanding blocks 8 slide respectively and set up in the arc draw-in groove 16 that corresponds the position, arc limiting groove 17 has all been seted up to the inner wall of arc draw-in groove, all there is fixed with arc 18 on two arc sanding block 8, one section that arc limiting block 18 slides respectively sets up in the corresponding position, when the emulation rattan emulation strip 17 that moves between the emulation removal that waits to polish both sides, treat the emulation rattan emulation strip 8.

A first socket 28 is symmetrically arranged on one side surface of the first ring 26, which is opposite to the second ring 27, a first push rod 29 is arranged in the first socket 28 in a sliding manner, a second socket 30 is arranged on the side wall of the first socket 28, a second push rod 31 is arranged in the second socket 30 in a sliding manner, one end, close to the first push rod 29 and the second push rod 31, of each of the first socket 28 and the second socket 27 is provided with an inclined surface, notches 32 communicated with the second socket 30 are arranged on the inner side walls of the first ring 26 and the second ring 27, clamping blocks 33 are placed in the notches 32, one end, far away from the first push rod 29, of the second push rod 31 is fixed with the clamping blocks 33, rebound grooves 34 are formed in the side walls of the second socket 30, rebound blocks 35 fixed with the second push rod 31 are arranged in the rebound grooves 34 in a sliding manner, and springs 36 are arranged in the rebound grooves 34 and fixed with the inner walls of the rebound blocks 35 at two ends respectively, the device base 1 is provided with a starting piece 37 driving the second push rod 31 to move, the starting piece 37 comprises a third motor 38 and a second bidirectional threaded rod 39, a fixing plate 40 is fixed on the device base 1, a first sliding groove 41 is formed in the side wall of the fixing plate 40, the third motor 38 is fixed in the first sliding groove 41, an output shaft of the third motor 38 is fixed with the second bidirectional threaded rod 39, a plurality of first sliding blocks 42 and a plurality of second sliding blocks 43 are arranged in the first sliding groove 41 in a sliding mode, the first sliding blocks 42 and the second sliding blocks 43 are respectively in threaded fit with the two ends of the second bidirectional threaded rod 39, driving rods 44 are fixed on the first sliding blocks 42 and the second sliding blocks 43, connecting rods 45 are symmetrically fixed to one ends of the driving rods 44, and one ends, far away from the driving rods 44, of the connecting rods 45 are fixed with the first push rods 29 in the corresponding positions respectively.

When the simulated rattan needs to be clamped, the motor III 38 is started, the output shaft of the motor III 38 rotates to drive the bidirectional threaded rod II 39 to rotate, the bidirectional threaded rod II 39 rotates to drive the sliding blocks I42 and the sliding blocks II 43 to move along the sliding grooves I41, the moving directions of the sliding blocks I42 and the sliding blocks II 43 are opposite, the sliding blocks I42 and the sliding blocks II 43 approach each other in the moving process, the sliding blocks I42 and the sliding blocks II 43 drive the correspondingly connected driving rods 44 to move, the driving rods 44 move to drive the connecting rods 45 to move, the connecting rods 45 move to drive the push rods I29 at corresponding positions to the push rods II 31, as the surfaces of the push rods I29 and the push rods II 31 which are in mutual contact are inclined surfaces, the push rods I29 move to drive the push rods II 31 to move along the vertical direction of the push rods I29, the push rods II 31 move to drive the clamping blocks 33 to move towards the simulated rattan, until the clamping blocks 33 at two sides clamp the simulated rattan, the second push rod 31 can drive the rebound block 35 to move along the rebound groove 34 while moving, the rebound block 35 drives the spring 36 to compress, the spring 36 compresses to generate elastic force, the first motor 10 is started, the output shaft of the first motor 10 rotates to drive the first bidirectional threaded rod 11 to rotate, the first bidirectional threaded rod 11 rotates to drive the first adjusting block 12 and the second adjusting block 13 to approach, the first adjusting block 12 and the second adjusting block 13 move to respectively drive the first L-shaped rod 6 and the second L-shaped rod 7 to approach, the first L-shaped rod 6 and the second L-shaped rod 7 move to respectively drive the first arc-shaped plate 14 and the second arc-shaped plate 15 to approach, the first arc-shaped plate 14 and the second arc-shaped plate 15 move to respectively drive the arc-shaped sanding blocks 8 connected with the first arc-shaped rod to approach until the arc-shaped sanding blocks 8 on both sides touch the simulation rattans, one ends of the two arc-shaped sanding blocks 8 are respectively fixed with the iron blocks 19 and the magnet blocks 20, and at the arc-shaped sanding blocks 8 on both sides are connected with the magnet blocks 20 through the iron blocks 19, standing groove 21 has all been seted up to two arc sanding block 8 surfaces, standing groove 21 internal fixation has arc rack 22, seted up in arc one 14 with the communicating drive groove 23 of standing groove 21, drive groove 23 internal fixation has motor two 24, be fixed with on the output shaft of motor two 24 with the gear 25 of arc rack 22 meshing, starter motor two 24 simultaneously, the output shaft rotation of motor two 24 drives gear 25 and rotates, gear 25 rotates and drives arc rack 22 and rotates, arc rack 22 rotates and drives arc sanding block 8 and rotate, arc sanding block 8 rotates and polishes the emulation rattan.

After the part of the simulated rattan is polished, a motor III 38 is started reversely, an output shaft of the motor III 38 rotates reversely to drive a two-way threaded rod II 39 to rotate reversely, the two-way threaded rod II 39 rotates to drive a plurality of sliding blocks I42 and a plurality of sliding blocks II 43 to move back along a sliding groove I41, the sliding blocks I42 and the sliding blocks II 43 are far away from each other in the moving process, the sliding blocks I42 and the sliding blocks II 43 drive correspondingly connected driving rods 44 to move back, the driving rods 44 move to drive connecting rods 45 to move back, the connecting rods 45 move to drive the pushing rods I29 at corresponding positions to be far away from the pushing rods II 31, the pushing rods II 31 are not under the pushing force of the pushing rods I29 at the moment, the elastic force of a spring 36 drives a rebounding block 35 to move back along a rebounding groove 34, the rebounding block 35 moves to drive the pushing rods II 31 to move back, the pushing rods II 31 move to drive a clamping block 33 to be far away from the simulated rattan, the simulated rattan can move at the moment, and then a motor IV 63 is started continuously, an output shaft of the motor IV 63 rotates to drive the rotating rod 64 to rotate, the rotating rod 64 rotates to drive the winding drum 66 to rotate, the winding drum 66 continues to pull the simulation rattan, the next part of the simulation rattan is polished continuously, a stop block 70 is fixed on the side wall of the upper end of the support plate III 61, the other side wall of the upper end of the support plate III 61 is provided with a dovetail groove 71, yan Weikuai is arranged in the dovetail groove 71 in a sliding mode, a stop piece 73 is fixed on the dovetail groove 72, the motor IV 63 is closed after the winding drum 66 is wound, the stop piece 73 is removed, the dovetail block 72 can only move in the dovetail groove 71 to limit the stop piece 73, after the stop piece 73 is removed, the support plate IV 68 is rotated, then the winding drum 66 is removed, a new winding drum 66 is loaded on the rotating rod 64, the rotation rod is rotated back to the support plate IV 68, the stop block 70 prevents the support plate IV 68 from rotating past the vertical state, then the stop piece 73 is moved back, and the stop piece 73 and the stop block 70 ensure that the support plate IV 68 is in the vertical state, and carrying out the next rolling.

Claims

1. The utility model provides a conveying grinding device for plastics emulation rattan, includes device base (1), its characterized in that, the both ends of device base (1) upper surface are provided with rolling subassembly (2) and blowing subassembly (3) respectively, device base (1) middle part is provided with grinding assembly (4), grinding assembly (4) both sides are provided with centre gripping subassembly (5), grinding assembly (4) are including L shape pole (6), L shape pole two (7) and two arc grinding block (8), adjustment tank (9) have been seted up to device base (1) upper surface, adjustment tank (9) internal fixation has motor one (10), be fixed with two-way threaded rod one (11) on the output of motor one (10), it is provided with respectively with two-way threaded rod one (11) both ends screw-thread fit's adjustment block one (12) and adjustment block two (13) to slide in adjustment tank (9), adjustment block one (12) and adjustment block two (13) are fixed with L shape pole one (6) and L shape pole two (7) respectively, two one end fixed arc pole one (12) and two fixed arc plate (15) that one end (14) had all kept away from arc pole one (7) and two fixed arc plate (15) have two fixed arc plate (15), and two arc plate (14) have been seted up arc plate (15) arc plate one end one (7) and two arc shaped clamping groove (15) The two arc-shaped grinding blocks (8) are respectively arranged in arc-shaped clamping grooves (16) at corresponding positions in a sliding mode, arc-shaped limiting grooves (17) are formed in the inner walls of the arc-shaped clamping grooves (16), arc-shaped limiting blocks (18) are fixed on the two arc-shaped grinding blocks (8), one sections of the arc-shaped limiting blocks (18) are respectively arranged in the arc-shaped limiting grooves (17) at corresponding positions in a sliding mode, iron blocks (19) and magnet stones (20) are respectively fixed at one ends, which are attached to the two arc-shaped grinding blocks (8), of the outer surfaces of the two arc-shaped grinding blocks (8) are respectively provided with a placing groove (21), arc-shaped racks (22) are fixed in the placing grooves (21), driving grooves (23) communicated with the placing grooves (21) are formed in the first arc-shaped plates (14), second motors (24) are fixed in the driving grooves (23), and gears (25) meshed with the arc-shaped racks (22) are fixed on output shafts of the second motors (24); the clamping assembly (5) comprises a plurality of first rings (26) and a plurality of second rings (27), the first rings (26) and the second rings (27) are symmetrically arranged, the first rings (26) and the second rings (27) are fixed on the device base (1) through supporting columns, the first sockets (28) are symmetrically arranged on one side surface of the first rings (26) and the second rings (27) opposite to each other, the first push rods (29) are arranged in the first sockets (28) in a sliding mode, the second sockets (30) are arranged on the side walls of the first sockets (28), the second push rods (31) are arranged in the second sockets (30) in a sliding mode, the ends, close to the first push rods (29) and the second push rods (31), are arranged into inclined planes, notches (32) communicated with the second sockets (30) are arranged on the inner side walls of the first rings (26) and the second rings (27), clamping blocks (33) are arranged in the notches (32), one ends, far away from the first push rods (29), of the second push rods (31) are fixed with the clamping blocks (33), the side walls of the second sockets (30) are arranged with rebound grooves (34), and two rebound blocks (35) are arranged in the fixing grooves (35), and rebound grooves (35) are respectively arranged in the rebound grooves, the device base (1) is provided with a starting piece (37) for driving the second push rod (31) to move; the starting piece (37) comprises a motor III (38) and a bidirectional threaded rod II (39), a fixing plate (40) is fixed on the device base (1), a sliding groove I (41) is formed in the side wall of the fixing plate (40), the motor III (38) is fixed in the sliding groove I (41), an output shaft of the motor III (38) is fixed with the bidirectional threaded rod II (39), a plurality of sliding blocks I (42) and a plurality of sliding blocks II (43) are arranged in the sliding groove I (41) in a sliding mode, the plurality of sliding blocks I (42) and the plurality of sliding blocks II (43) are respectively in threaded fit with two ends of the bidirectional threaded rod II (39), driving rods (44) are fixed on the plurality of sliding blocks I (42) and the plurality of sliding blocks II (43), connecting rods (45) are symmetrically fixed at one ends of the driving rods (44), and one ends, far away from the driving rods (44), of the connecting rods (45) are respectively fixed with the corresponding push rod I (29); the feeding assembly (3) comprises a first air cylinder (46) and a second air cylinder (47), a first support plate (48) is symmetrically fixed on the device base (1), a feeding groove (49), a discharging groove (50) and a semicircular groove (51) are formed in one side, close to the first support plate (48), of the first support plate (48), the upper end and the lower end of the semicircular groove (51) are respectively communicated with the feeding groove (49) and the discharging groove (50), a first placing opening (52) and a second placing opening (53) communicated with the feeding groove (49) are formed in the inner side of the first support plate (48), the first air cylinder (46) and the second air cylinder (47) are respectively fixed in the first placing opening (52) and the second placing opening (53), a first baffle plate (56) is fixed on a piston rod of the first air cylinder (46), an arc pressing block (57) is fixed on a piston rod of the second air cylinder (47), a plurality of sliding rods (58) are arranged between the first support plate (48), two ends of the sliding rods (58) are respectively arranged in the feeding groove (49), the discharging groove (50) and the semicircular groove (51) on the first support plate (48) on the two sides in a sliding mode, and the outer sleeve of the sliding rod (58), and the sliding roller (59) are matched with the feeding roller, and the sliding roller (59).

2. The conveying and grinding device for the plastic simulation rattan of claim 1, a second support plate (60) and a third support plate (61) are fixed on the device base (1), a placing plate (62) is fixed on the second support plate (60), a motor IV (63) is fixed on the placing plate (62), an output shaft of the motor IV (63) penetrates through the support plate II (60), a rotating rod (64) is fixed on the output shaft of the motor IV (63), a clamping strip (65) is fixed on the rotating rod (64), a winding drum (66) is sleeved outside the rotating rod (64), the inner wall of the winding drum (66) is provided with a first clamping groove (67) corresponding to the clamping strip (65), the winding drum (66) is in sliding fit with the rotating rod (64), the clamping strip (65) is arranged in the first clamping groove (67), a support plate four (68) is hinged to the upper end of the support plate three (61), a bayonet (69) is arranged on one side surface of the support plate four (68) close to the support plate two (60), a stop block (70) is fixed on the side wall of the upper end of the support plate III (61), a dovetail groove (71) is arranged on the other side wall of the upper end of the support plate III (61), yan Weikuai (72) is arranged in the dovetail groove (71) in a sliding mode, and a baffle plate (73) is fixed on the Yan Weikuai (72).