CN212582219U - Cotton yarn production is with rubbing cotton device - Google Patents

Abstract

The utility model discloses a cotton device is rubbed with cotton yarn production, carry platform and fixed mounting to carry the annular slide rail of bench surface at the annular including the annular, slidable mounting has a sliding mounting panel on the annular slide rail, is equipped with stirring mechanism on the sliding mounting panel, the annular is carried a both sides and is equipped with fixed establishment, the annular is carried the bench and is equipped with and rub cotton mechanism. The beneficial effects of the utility model are that, can carry out automatic turn-over to rubbing system one side back cotton child through the stirring mechanism that is located on the sliding mounting board, reduce artifical turn-over labour, thereby reach two-sided cotton effect of rubbing, fixed establishment can fix sliding mounting board, sliding mounting board takes place to rock the phenomenon when preventing to rub cotton, rub cotton mechanism and can rub cotton processing to the cotton child on the sliding mounting board, and a set of gentle board simultaneous movement that goes up, this rub cotton device and adopt endless conveyor belt to carry out intermittent type processing, can effectively improve and rub cotton machining efficiency.

Description

Cotton yarn production is with rubbing cotton device

Technical Field

The utility model relates to a cotton yarn production field specifically is a cotton device is rubbed with cotton yarn production.

Background

The cotton yarn is made of cotton fiber through a spinning process, and is called cotton thread after being folded and processed. According to different spinning techniques, there are carding yarns and combed yarns. And (1) the carded yarn is yarn spun by cotton fiber through a common spinning system. And (2) combed yarn, namely yarn spun by a combed spinning system by using cotton fiber. The combed yarn is made of high-quality raw materials, fibers in the finished yarn are straight and parallel, less in impurity formation, good in luster, even in evenness and high in strength, and the cotton yarn is mainly used for weaving high-grade fabrics.

The cotton liner of the working clothes is processed by rubbing cotton through a cotton rubbing machine in the production process, cotton is paved, ground and compressed, cotton fibers are combined with net wires, a cotton tire is formed, and the rubbed cotton tire (cotton wool) is flat, attractive, firm and durable. When the existing cotton kneading machine is used for kneading cotton, only one side of the cotton can be kneaded, and after one side is kneaded, the other side needs to be turned over manually, so that the production efficiency is low, and the market demand cannot be met.

SUMMERY OF THE UTILITY MODEL

To above defect, the utility model provides a cotton device is rubbed with rubbing in cotton yarn production to cotton problem is rubbed in the production of solving cotton yarn.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a cotton kneading device for cotton yarn production comprises an annular conveying table and an annular slide rail fixedly mounted on the upper surface of the annular conveying table, wherein a slide mounting plate is slidably mounted on the annular slide rail, a material turning mechanism is arranged on the slide mounting plate, fixing mechanisms are arranged on two sides of the annular conveying table, and a cotton kneading mechanism is arranged on the annular conveying table;

the material turning mechanism comprises a first rotating rod, a reset spring, a group of relative pressure rods, a first U-shaped connecting rod, a first fixing plate, a first cotton rubbing plate, a group of relative second rotating rod, a driving gear, a first driving gear, a driven rod, a driven gear, a second driving gear, a first side plate, a first rack, a second side plate and a second rack, wherein the first rotating rod is movably arranged at the center of the upper surface of the sliding mounting plate, the reset spring is sleeved on the first rotating rod, the group of relative pressure rods are fixedly connected with the two ends of the reset spring, the first U-shaped connecting rod is arranged at one side of the first rotating rod and positioned at the bottom of the pressure rod, the first fixing plate is arranged at one side of the upper surface of the sliding mounting plate, the first cotton rubbing plate is arranged on the first U-shaped connecting rod, the group of relative second rotating rod is arranged at the two sides of the first rotating rod, the first driving gear is arranged at the front end of one of the second rotating rods, the driven rod is movably arranged on one side of the second rotating rod, the driven gear is arranged on the driven rod and is meshed with the driving gear, the second driving gear is arranged at the front end of the driven rod, the first side plate is arranged on one side of the front end of the annular conveying table, the first rack is arranged on the first side plate and is meshed with the second driving gear, the second side plate is arranged on one side of the rear end of the annular conveying table, and the second rack is arranged on the second side plate and is meshed with the first driving gear;

the fixing mechanism comprises a group of opposite mounting plates, a group of opposite sliding chutes I, a sliding plate, a bar-shaped rack, a synchronous motor, a rotating shaft, a group of opposite external threads, a screw nut, a clamping plate and a rectangular gear, wherein the group of opposite mounting plates are respectively mounted at the front end and the rear end of the annular conveying table;

rub cotton machine and construct including mounting bracket, rotating electrical machines one, driving gear one, a set of relative transmission shaft one, driven gear one, drive chain one, driving gear two, a set of relative transmission shaft two, driven gear two, a set of relative take-up reel, stay cord, a set of relative last flexbile plate, rotating electrical machines two, driving gear three, a set of relative transmission shaft three, driven gear three, drive chain two, belt pulley one, a set of relative axis of rotation, belt pulley two, driving belt and connecting rod, the mounting bracket is installed in the annular is carried the platform, a rotating electrical machines horizontal installation is on the mounting bracket, a driving gear is installed on a rotating electrical machines rotation end, a set of relative transmission shaft movable mounting is at the mounting bracket both ends, driven gear one is installed at a transmission shaft front end, a drive chain suit is on driving gear one and driven gear one, the driving gear II is arranged at the front end of the driving gear I, a group of opposite driving shafts II are respectively arranged at the front end and the rear end of the mounting frame, the driven gear II is arranged on the driving shaft II and is mutually meshed with the driving gear II, a group of opposite winding wheels are arranged on the driving shaft II, the stay cord is wound on the winding wheels, a group of opposite upper flexible plates are respectively movably arranged below the front end and the rear end of the mounting frame, the bottoms of the stay cords are connected, the rotating motor II is vertically arranged at the bottom of the mounting frame, the driving gear III is arranged at the rotating end of the rotating motor II, a group of opposite driving shafts III are movably arranged at the bottom of the mounting frame, the driven gear III is arranged at the bottom of the driving shaft III, the driving chain III is sleeved on the driving gear III and the driven gear III, the belt pulley I is arranged on the driving, the second belt pulley is installed on the rotating shaft, the first belt pulley and the second belt pulley are sleeved with the transmission belt, the connecting rod is installed on one side of the bottom of the rotating shaft, and the bottom of the connecting rod is connected with the upper flexible plate.

Furthermore, an annular conveyer belt is installed in the annular conveying table, and the rear end of the sliding installation plate is fixedly connected with the annular conveyer belt.

Furthermore, the bottom of the sliding installation plate is slidably installed on the annular sliding rail through a group of pulleys.

Further, second U type connecting rod is installed to second dwang one side, installs the second on the second U type connecting rod and rubs cotton board, the second fixed plate is installed to sliding mounting board upper surface opposite side, and the second is rubbed cotton board and is located the second fixed plate.

Furthermore, install the electro-magnet in the first cotton board of rubbing and adsorb the piece, the second is rubbed and is installed in the cotton board and adsorb the piece with the electro-magnet and adsorb the corresponding absorption piece.

Furthermore, a group of opposite sliding grooves II is formed in the sliding plate, and the bottom of the nut is installed on the sliding grooves II through pulleys.

Further, the sliding plate moves in synchronization with the clamping plate.

Furthermore, a bearing is installed in the second belt pulley, and a group of relative limiting grooves are formed in the bearing.

Furthermore, damping springs are connected between the periphery of the upper surface of the upper flexible plate and the mounting frame.

The utility model provides a cotton yarn production is with rubbing cotton device, possess following beneficial effect, can carry out automatic turn-over to rubbing the cotton child in one side back through the stirring mechanism that is located on the sliding mounting board, reduce artifical turn-over labour, thereby reach two-sided cotton effect of rubbing, fixed establishment can fix sliding mounting board, sliding mounting board takes place to rock the phenomenon when preventing to rub cotton, rub cotton mechanism and can rub cotton processing to the cotton child on the sliding mounting board, and a set of gentle board simultaneous movement that goes up, should rub cotton device and adopt endless conveyor belt to carry out intermittent type processing, can effectively improve and rub cotton machining efficiency.

Drawings

Figure 1 is the utility model discloses a cotton yarn production is with rubbing cotton device sketch map.

Fig. 2 is a top view of the sliding mounting plate of the present invention.

Fig. 3 is a schematic view of the first fixing plate and the second fixing plate of the present invention.

Fig. 4 is a schematic view of the first material turning of the present invention.

Fig. 5 is a schematic view of the second material turning of the present invention.

Fig. 6 is a schematic view of the sliding mounting plate of the present invention.

Fig. 7 is a schematic view of the fixing of the sliding mounting plate of the present invention.

Fig. 8 is a schematic view of the nut sliding of the present invention.

Fig. 9 is a schematic view of the lifting of the upper flexible plate of the present invention.

Fig. 10 is a schematic view of the rotation of the upper flexible plate of the present invention.

Fig. 11 is a side view of the upper flexible plate of the present invention.

Fig. 12 is a schematic view of the second belt pulley of the present invention.

In the figure: 1. an annular conveying table; 2. an annular slide rail; 3. a slide mounting plate; 4. a first rotating lever; 5. a return spring; 6. a pressure lever; 7. a first U-shaped connecting rod; 8. a first fixing plate; 9. a first cotton kneading plate; 10. a second rotating lever; 11. a driving gear; 12. a first drive gear; 13. a driven lever; 14. a driven gear; 15. a second drive gear; 16. a first side plate; 17. a first rack; 18. a second side plate; 19. a second rack; 20. mounting a plate; 21. a first sliding chute; 22. a sliding plate; 23. a strip rack; 24. a synchronous motor; 25. a rotating shaft; 26. an external thread; 27. a nut; 28. a clamping plate; 29. a rectangular gear; 30. a mounting frame; 31. a first rotating motor; 32. a first driving gear; 33. a first transmission shaft; 34. a first driven gear; 35. a first transmission chain; 36. a second driving gear; 37. a second transmission shaft; 38. a driven gear II; 39. a winding wheel; 40. pulling a rope; 41. an upper flexible board; 42. a second rotating motor; 43. a driving gear III; 44. a third transmission shaft; 45. a third driven gear; 46. a second transmission chain; 47. a first belt pulley; 48. a rotating shaft; 49. a second belt pulley; 50. a drive belt; 51. a connecting rod; 52. an endless conveyor belt; 53. a pulley; 54. a second U-shaped connecting rod; 55. second kneading cotton board; 56. a second fixing plate; 57. an electromagnet adsorption block; 58. an adsorption block; 59. a second chute; 60. a pulley; 61. a bearing; 62. a limiting groove; 63. a shock absorbing spring.

Detailed Description

The invention is described in detail below with reference to the drawings, as shown in fig. 1-12: a cotton kneading device for cotton yarn production comprises an annular conveying table 1 and an annular slide rail 2 fixedly mounted on the upper surface of the annular conveying table 1, wherein a slide mounting plate 3 is slidably mounted on the annular slide rail 2, a material turning mechanism is arranged on the slide mounting plate 3, fixing mechanisms are arranged on two sides of the annular conveying table 1, and a cotton kneading mechanism is arranged on the annular conveying table 1; the stirring mechanism comprises a first rotating rod 4, a reset spring 5, a group of opposite pressure rods 6, a first U-shaped connecting rod 7, a first fixing plate 8, a first cotton kneading plate 9, a group of opposite second rotating rod 10, a driving gear 11, a first driving gear 12, a driven rod 13, a driven gear 14, a second driving gear 15, a first side plate 16, a first rack 17, a second side plate 18 and a second rack 19, wherein the first rotating rod 4 is movably arranged at the center of the upper surface of the sliding mounting plate 3, the reset spring 5 is sleeved on the first rotating rod 4, the group of opposite pressure rods 6 and the two ends of the reset spring 5 are fixedly connected, the first U-shaped connecting rod 7 is arranged on one side of the first rotating rod 4 and is positioned at the bottom of the pressure rods 6, the first fixing plate 8 is arranged on one side of the upper surface of the sliding mounting plate 3, the first cotton kneading plate 9 is arranged on the first U-shaped connecting, a group of opposite second rotating rods 10 are arranged on two sides of the first rotating rod 4, the driving gear 11 is arranged on one of the second rotating rods 10, the first driving gear 12 is arranged at the front end of one of the second rotating rods 10, the driven rod 13 is movably arranged on one side of the second rotating rod 10, the driven gear 14 is arranged on the driven rod 13 and is meshed with the driving gear 11, the second driving gear 15 is arranged at the front end of the driven rod 13, the first side plate 16 is arranged on one side of the front end of the annular conveying table 1, the first rack 17 is arranged on the first side plate 16 and is meshed with the second driving gear 15, the second side plate 18 is arranged on one side of the rear end of the annular conveying table 1, and the second rack 19 is arranged on the second side plate 18 and is meshed with the first driving gear 12; the fixing mechanism comprises a group of opposite mounting plates 20, a group of opposite sliding chutes 21, a sliding plate 22, a strip rack 23, a synchronous motor 24, a rotating shaft 25, a group of opposite external threads 26, a screw 27, a clamping plate 28 and a rectangular gear 29, wherein the group of opposite mounting plates 20 are respectively mounted at the front end and the rear end of the annular conveying table 1, the group of opposite sliding chutes 21 are vertically arranged at two sides of the upper surface of the mounting plate 20, the sliding plate 22 is slidably mounted on the sliding chutes 21, the strip rack 23 is mounted at one side of the sliding chutes 21, the synchronous motor 24 is horizontally mounted at one end of the upper surface of the sliding plate 22, the rotating shaft 25 is mounted at the rotating end of the synchronous motor 24, the group of opposite external threads 26 are tapped at two ends of the rotating shaft 25, the screw 27 is sleeved on the external threads 26, the clamping plate 28 is mounted at the front end of the screw, and is mutually meshed with the strip-shaped rack 23; the cotton kneading mechanism comprises a mounting frame 30, a first rotating motor 31, a first driving gear 32, a group of opposite first transmission shafts 33, a first driven gear 34, a first transmission chain 35, a second driving gear 36, a group of opposite second transmission shafts 37, a second driven gear 38, a group of opposite winding wheels 39, a pull rope 40, a group of opposite upper flexible plates 41, a second rotating motor 42, a third driving gear 43, a group of opposite third transmission shafts 44, a third driven gear 45, a second transmission chain 46, a first belt pulley 47, a group of opposite rotating shafts 48, a second belt pulley 49, a transmission belt 50 and a connecting rod 51, wherein the mounting frame 30 is mounted in the annular conveying table 1, the first rotating motor 31 is horizontally mounted on the mounting frame 30, the first driving gear 32 is mounted at the rotating end of the first rotating motor 31, the group of opposite first transmission shafts 33 is movably mounted at two ends of the mounting frame 30, the first driven gear 34 is mounted at the, the first transmission chain 35 is sleeved on the first driving gear 32 and the first driven gear 34, the second driving gear 36 is installed at the front end of the first transmission shaft 33, a group of opposite second transmission shafts 37 are installed at the front end and the rear end of the installation frame 30 respectively, the second driven gear 38 is installed on the second transmission shafts 37 and is mutually meshed with the second driving gear 36, a group of opposite winding wheels 39 are installed on the second transmission shafts 37, the pull rope 40 is wound on the winding wheels 39, a group of opposite upper flexible plates 41 are movably installed below the front end and the rear end of the installation frame 30 respectively, the bottom of the pull rope 40 is connected, the second rotating motor 42 is vertically installed at the bottom of the installation frame 30, the third driving gear 43 is installed at the rotating end of the second rotating motor 42, a group of opposite third transmission shafts 44 is movably installed at the bottom of the installation frame 30, the third driven gear 45 is installed at the bottom of the third transmission shafts 44, and, the first belt pulley 47 is installed on the third transmission shaft 44, a group of opposite rotating shafts 48 are respectively movably inserted into the front end and the rear end of the installation frame 30, the second belt pulley 49 is installed on the rotating shafts 48, the transmission belt 50 is sleeved on the first belt pulley 47 and the second belt pulley 49, the connecting rod 51 is installed on one side of the bottom of the rotating shafts 48, and the bottom of the connecting rod is connected with the upper flexible plate 41; an annular conveying belt 52 is arranged in the annular conveying table 1, and the rear end of the sliding mounting plate 3 is fixedly connected with the annular conveying belt 52; the bottom of the sliding mounting plate 3 is slidably mounted on the annular slide rail 2 through a group of pulleys 53; a second U-shaped connecting rod 54 is installed on one side of the second rotating rod 10, a second cotton kneading plate 55 is installed on the second U-shaped connecting rod 54, a second fixing plate 56 is installed on the other side of the upper surface of the sliding mounting plate 3, and the second cotton kneading plate 55 is located on the second fixing plate 56; an electromagnet adsorption block 57 is arranged in the first cotton kneading plate 9, and an adsorption block 58 corresponding to the electromagnet adsorption block 57 is arranged in the second cotton kneading plate 55; a group of opposite sliding grooves II 59 is formed in the sliding plate 22, and the bottom of the nut 27 is installed on the sliding grooves II 59 through a pulley 60; the slide plate 22 moves in synchronism with the clamping plate 28; a bearing 61 is installed in the second belt pulley 49, and a group of opposite limiting grooves 62 are formed in the bearing 61; and a damping spring 63 is connected between the periphery of the upper surface of the upper flexible plate 41 and the mounting frame 30.

The working principle of the embodiment is as follows: the electric equipment used by the device is controlled by an external controller, an annular conveying belt 52 is installed in an annular conveying table 1, the annular conveying belt 52 moves intermittently, the rear end of a sliding mounting plate 3 is fixedly connected with the annular conveying belt 52, and the bottom of the sliding mounting plate is slidably mounted on an annular sliding rail 2 through a group of pulleys 53, as shown in fig. 6, the number of the sliding mounting plates 3 is a plurality, the annular conveying belt 52 can drive the plurality of the sliding mounting plates 3 to rotate intermittently, when the device is used, a user stands at the right end of the annular conveying table 1, and cotton batting to be kneaded is firstly sequentially placed on a first cotton kneading plate 9 on the sliding mounting plates 3;

when the fixation is performed: after the cotton batting is placed, the annular conveying belt 52 drives a plurality of sliding mounting plates 3 to rotate intermittently, when the mounting plates 3 rotate to the bottom of the upper flexible plate 41, the fixing mechanism starts to work, the synchronous motor 24 is horizontally arranged at one end of the upper surface of the sliding plate 22, the sliding plate 22 is slidably arranged on the first sliding groove 21, the number of the synchronous motors 24 is two, the sizes are the same, the positions are corresponding, and the synchronous motors move synchronously, the synchronous motor 24 rotates forwards to drive the rotating shaft 25 on the rotating end to rotate, the front end of the rotating shaft 25 is provided with the rectangular gear 29, the rectangular gear 29 is meshed with the strip-shaped rack 23, the synchronous motor 24 drives the sliding plate 22 to move forwards, a group of opposite external threads 26 are tapped at two ends of the rotating shaft 25, the screw 27 is sleeved on the external threads 26, the clamping plate 28 is arranged at the front end of the screw 27, the sliding plate 22 is provided with a, as shown in fig. 8, the rotating shaft 25 simultaneously drives a set of nuts 27 to slide inwards, the sliding plate 22 and the clamping plate 28 synchronously move, and after the sliding plate 22 slides to the front end, the clamping plate 28 simultaneously fixes the mounting plate 3, as shown in fig. 7, the fixing mechanism can fix the sliding mounting plate 3, so that the sliding mounting plate 3 is prevented from shaking during cotton kneading;

when kneading cotton: the first rotating motor 31 firstly starts to work to drive a first driving gear 32 on a rotating end, a first transmission chain 35 is sleeved on the first driving gear 32 and a first driven gear 34 on a first transmission shaft 33, a group of opposite first transmission shafts 33 are movably arranged at two ends of the mounting frame 30 through fastening bearings, the first rotating motor 31 drives the group of opposite first transmission shafts 33 to start to rotate, a second driving gear 36 is arranged at the front end of the first transmission shaft 33, a group of opposite second transmission shafts 37 are respectively arranged at the front end and the rear end of the mounting frame 30 through fastening bearings, a second driven gear 38 is arranged on the second transmission shafts 37 and is mutually meshed with the second driving gear 36, the first transmission shafts 33 drive the group of opposite second transmission shafts 37 to start to rotate, a group of opposite winding wheels 39 are arranged on the second transmission shafts 37, a pull rope 40 is wound on the winding wheels 39, a group of opposite upper flexible plates 41 are respectively and movably arranged, and the bottom of the pulling rope 40 is connected, as shown in fig. 9, the first rotating motor 31 rotates forward to drive the upper flexible plate 41 to descend, when the upper flexible plate 41 descends to a proper height, the second rotating motor 42 starts to work, the second rotating motor 42 is vertically installed at the bottom of the mounting frame 30, the driving gear third 43 is installed at the rotating end of the second rotating motor 42, a group of opposite transmission shafts third 44 are vertically installed at the bottom of the mounting frame 30 through fastening bearings, the driven gear third 45 is installed at the bottom of the transmission shaft third 44, the transmission chain second 46 is sleeved on the driving gear third 43 and the driven gear third 45, the second rotating motor 42 drives the transmission shaft third 44 to rotate, the belt pulley first 47 is installed on the transmission shaft third 44, a group of opposite rotating shafts 48 is movably inserted at the front end and the rear end of the mounting frame 30 respectively, the belt pulley second 49 is installed on the rotating, a connecting rod 51 is arranged on one side of the bottom of the rotating shaft 48 and connected with the upper flexible plate 41, as shown in fig. 10, a third transmission shaft 44 drives the rotating shaft 48 to rotate, the rotating shaft 48 drives the upper flexible plate 41 to rotate through the connecting rod 51, cotton tires on the first cotton kneading plate 9 are kneaded, a bearing 61 is arranged in a second belt pulley 49, a group of relative limiting grooves 62 are formed in the bearing 61, so that the rotating shaft 48 can conveniently lift and rotate, damping springs 63 are connected between the periphery of the upper surface of the upper flexible plate 41 and the mounting rack 30, the damping springs 63 can play a role of buffering, a cotton kneading mechanism can knead cotton tires on the sliding mounting plate 3, and the group of upper flexible plates 41 synchronously move, so that the cotton kneading efficiency is improved;

when turning over: after the cotton batting on the first cotton kneading plate 9 is kneaded, the upper flexible plate 41 and the fixing mechanism are reset, the annular conveying belt 52 drives the sliding mounting plate 3 to continue to intermittently rotate, the first side plate 16 is installed on one side of the front end of the annular conveying platform 1, the first rack 17 is installed on the first side plate 16, a group of opposite second rotating rods 10 are installed on two sides of the first rotating rod 4, the driving gear 11 is installed on one of the second rotating rods 10, the first driving gear 12 is installed at the front end of one of the second rotating rods 10, the driven rod 13 is movably installed on one side of the second rotating rod 10, the driven gear 14 is installed on the driven rod 13 and is meshed with the driving gear 11, the second driving gear 15 is installed at the front end of the driven rod 13, when the sliding mounting plate 3 moves to the first side plate 16, the second driving gear 15 is meshed with the first rack 17 to drive the second cotton kneading plate 55 to turn over the first cotton, an electromagnet adsorption block 57 is arranged in the first cotton kneading plate 9, an adsorption block 58 corresponding to the electromagnet adsorption block 57 is arranged in the second cotton kneading plate 55, meanwhile, the first cotton kneading plate 9 and the second cotton kneading plate 55 are adsorbed to clamp and fix cotton batts, so as to complete the first material overturning action, as shown in figure 4, the annular conveying belt 52 drives the sliding mounting plate 3 after completing the first material overturning to continue to rotate intermittently, the second side plate 18 is arranged at the rear end side of the annular conveying table 1, the second rack 19 is arranged on the second side plate 18 and is meshed with the first driving gear 12, when the sliding mounting plate 3 after completing the first material overturning moves to the second side plate 18, the first driving gear 12 is meshed with the second rack 19 to drive the second cotton kneading plate 55 to overturn, because the electromagnet adsorption block 58 is adsorbed by the electromagnet adsorption block 57, when the second cotton kneading plate 55 overturns, the first cotton kneading plate 9 is driven to overturn together, the reset spring 5 is sleeved on the first rotating rod 4, a group of opposite pressure rods 6 are fixedly connected with two ends of the reset spring 5, the pressure rods 6 are located on the first U-shaped connecting rod 7, when the first cotton kneading plate 9 is turned over, the reset spring 5 is stressed, as shown in fig. 5, the second material turning action is completed, when cotton tires are turned over to the second cotton kneading plate 55, the electromagnet adsorption block 57 is powered off, the reset spring 5 is stressed to drive the first cotton kneading plate 9 to reset, the material turning action is completed, then the cotton tires turned over by the annular conveying belt 52 are subjected to reverse surface rolling, after the cotton tires are rolled, the cotton tires on the second cotton kneading plate 55 are manually taken down, the rolled cotton tires can be automatically turned over through the material turning mechanism located on the sliding mounting plate 3, the manual turning labor force is reduced, and the double-surface cotton rolling effect is achieved.

Above-mentioned technical scheme has only embodied the utility model discloses technical scheme's preferred technical scheme, some changes that this technical field's technical personnel probably made to some parts wherein have all embodied the utility model discloses a principle belongs to within the protection scope of the utility model.

Claims (9)

1. A cotton kneading device for cotton yarn production comprises an annular conveying table (1) and an annular sliding rail (2) fixedly mounted on the upper surface of the annular conveying table (1), and is characterized in that a sliding mounting plate (3) is mounted on the annular sliding rail (2) in a sliding manner, a material turning mechanism is arranged on the sliding mounting plate (3), fixing mechanisms are arranged on two sides of the annular conveying table (1), and a cotton kneading mechanism is arranged on the annular conveying table (1);

the material turning mechanism comprises a first rotating rod (4), a reset spring (5), a group of opposite pressing rods (6), a first U-shaped connecting rod (7), a first fixing plate (8), a first cotton kneading plate (9), a group of opposite second rotating rods (10), a driving gear (11), a first driving gear (12), a driven rod (13), a driven gear (14), a second driving gear (15), a first side plate (16), a first rack (17), a second side plate (18) and a second rack (19), wherein the first rotating rod (4) is movably arranged at the center of the upper surface of the sliding mounting plate (3), the reset spring (5) is sleeved on the first rotating rod (4), the group of opposite pressing rods (6) is fixedly connected with the two ends of the reset spring (5), the first U-shaped connecting rod (7) is arranged on one side of the first rotating rod (4), and is located depression bar (6) bottom, install in sliding mounting board (3) upper surface one side first fixed plate (8), first rub cotton board (9) and install on first U type connecting rod (7), and install in first dwang (4) both sides a set of relative second dwang (10), driving gear (11) are installed on one of them second dwang (10), first drive gear (12) are installed at one of them second dwang (10) front end, driven lever (13) movable mounting is in second dwang (10) one side, driven gear (14) are installed on driven lever (13), and with driving gear (11) intermeshing, second drive gear (15) are installed at driven lever (13) front end, first curb plate (16) are installed in annular transport platform (1) front end one side, first rack (17) are installed on first curb plate (16), the second side plate (18) is arranged on one side of the rear end of the annular conveying table (1), and the second rack (19) is arranged on the second side plate (18) and is meshed with the first driving gear (12);

the fixing mechanism comprises a group of opposite mounting plates (20), a group of opposite sliding chutes I (21), a sliding plate (22), a strip-shaped rack (23), a synchronous motor (24), a rotating shaft (25), a group of opposite external threads (26), a nut (27), a clamping plate (28) and a rectangular gear (29), the group of opposite mounting plates (20) are respectively mounted at the front end and the rear end of the annular conveying table (1), the group of opposite sliding chutes I (21) are vertically arranged on two sides of the upper surface of the mounting plates (20), the sliding plate (22) is slidably mounted on the sliding chutes I (21), the strip-shaped rack (23) is mounted on one side of the sliding chutes I (21), the synchronous motor (24) is horizontally mounted at one end of the upper surface of the sliding plate (22), the rotating shaft (25) is mounted on the rotating end of the synchronous motor (24), and the group of opposite external threads (26) are tapped at two ends, the screw nut (27) is sleeved on the external thread (26), the clamping plate (28) is installed at the front end of the screw nut (27), and the rectangular gear (29) is installed at the front end of the rotating shaft (25) and meshed with the strip-shaped rack (23);

the cotton kneading mechanism comprises a mounting frame (30), a first rotating motor (31), a first driving gear (32), a first group of opposite transmission shafts (33), a first driven gear (34), a first transmission chain (35), a second driving gear (36), a second group of opposite transmission shafts (37), a second driven gear (38), a second group of opposite winding wheels (39), a pull rope (40), a second group of opposite upper flexible plates (41), a second rotating motor (42), a third driving gear (43), a third group of opposite transmission shafts (44), a third driven gear (45), a second transmission chain (46), a first belt pulley (47), a second group of opposite rotating shafts (48), a second belt pulley (49), a transmission belt (50) and a connecting rod (51), wherein the mounting frame (30) is mounted in the annular conveying platform (1), and the first rotating motor (31) is horizontally mounted on the mounting frame (30), the utility model discloses a motor, including driving gear (32), driving gear (32) install at rotating electrical machines (31) rotation end, and a set of relative transmission shaft (33) movable mounting is at mounting bracket (30) both ends, driven gear (34) are installed at transmission shaft (33) front end, drive chain (35) suit is on driving gear (32) and driven gear (34), driving gear (36) are installed at transmission shaft (33) front end, and a set of relative transmission shaft (37) are installed respectively at mounting bracket (30) front end and rear end, driven gear (38) are installed on transmission shaft (37), and with driving gear (36) intermeshing, and a set of relative reel (39) are installed on transmission shaft (37), stay cord (40) twine on reel (39), and a set of relative last flexible board (41) respectively movable mounting is below mounting bracket (30) front end and rear end, and the pull rope (40) bottom is connected, the second rotating motor (42) is vertically installed at the bottom of the installation frame (30), the third driving gear (43) is installed at the rotating end of the second rotating motor (42), the third relative transmission shaft (44) is movably installed at the bottom of the installation frame (30), the third driven gear (45) is installed at the bottom of the third transmission shaft (44), the second transmission chain (46) is sleeved on the third driving gear (43) and the third driven gear (45), the first belt pulley (47) is installed on the third transmission shaft (44), the relative rotation shaft (48) is movably inserted at the front end and the rear end of the installation frame (30) respectively, the second belt pulley (49) is installed on the rotation shaft (48), the transmission belt (50) is sleeved on the first belt pulley (47) and the second belt pulley (49), the connecting rod (51) is installed at one side of the bottom of the rotation shaft (48), and the bottom is connected with the upper flexible plate (41).

2. A cotton kneading device for cotton yarn production according to claim 1, wherein an endless conveyor belt (52) is installed in the endless conveyor table (1), and the rear end of the slide mounting plate (3) is fixedly connected with the endless conveyor belt (52).

3. A cotton kneading device for cotton yarn production according to claim 1, characterized in that the bottom of the slide mounting plate (3) is slidably mounted on the endless slide rail (2) by means of a set of pulleys (53).

4. A cotton kneading device for cotton yarn production according to claim 1, characterized in that a second U-shaped connecting rod (54) is mounted on one side of the second rotating rod (10), a second cotton kneading plate (55) is mounted on the second U-shaped connecting rod (54), a second fixing plate (56) is mounted on the other side of the upper surface of the sliding mounting plate (3), and the second cotton kneading plate (55) is located on the second fixing plate (56).

5. The cotton kneading device for cotton yarn production according to claim 1, characterized in that the first cotton kneading plate (9) is provided with an electromagnet adsorption block (57), and the second cotton kneading plate (55) is provided with an adsorption block (58) corresponding to the electromagnet adsorption block (57).

6. The cotton kneading device for cotton yarn production according to claim 1, wherein the sliding plate (22) is provided with a set of opposite sliding grooves II (59), and the bottom of the nut (27) is mounted on the sliding grooves II (59) through a pulley (60).

7. A cotton kneading device for cotton yarn production according to claim 1, characterized in that the sliding plate (22) moves synchronously with the holding plate (28).

8. The cotton kneading device for cotton yarn production according to claim 1, wherein a bearing (61) is installed in the second belt pulley (49), and a set of opposite limiting grooves (62) is formed in the bearing (61).

9. The cotton kneading device for cotton yarn production according to claim 1, wherein a damping spring (63) is connected between the periphery of the upper surface of the upper flexible plate (41) and the mounting frame (30).

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