CN114852793A

CN114852793A - Automatic bobbin winder bobbin separating device and using method thereof

Info

Publication number: CN114852793A
Application number: CN202210632022.4A
Authority: CN
Inventors: 张太友; 毛丽霞; 张太富; 张春林; 周秋生
Original assignee: Xiangshui Baoji Textile Co ltd
Current assignee: Xiangshui Baoji Textile Co ltd
Priority date: 2022-06-06
Filing date: 2022-06-06
Publication date: 2022-08-05

Abstract

The invention relates to the technical field of automatic winders and discloses a bobbin dividing device of an automatic winder and a using method thereof. According to the bobbin separating device of the automatic bobbin winder and the using method of the bobbin separating device, in the moving process, a bobbin yarn conveying equipment shell in an inclined state drives a rotating column fixedly clamped inside a second connecting disc fixedly installed on the side face of a cross rod of a separating screen to rotate inside a circular groove formed in a fixed square block by utilizing the gravity of bobbin yarns, the first connecting disc is driven to rotate together in the rotating process, a spring drives a crescent limiting clamping rod to rebound and contract when a cam is not in contact with an arc abutting block, and the crescent limiting clamping rod and a clamping groove formed in the surface of the first connecting disc are clamped to complete quick screening, so that automatic bobbin separating can be realized in the whole operation process, and the production intelligence is improved.

Description

Automatic bobbin winder bobbin separating device and using method thereof

Technical Field

The invention relates to the technical field of automatic bobbin winders, in particular to a bobbin dividing device of an automatic bobbin winder and a using method thereof.

Background

The automatic bobbin winder is mechanical equipment for winding bobbin yarns into knotless bobbin yarns and removing yarn defects in the winding process, the bobbin yarns produced in the production process in the prior art automatically drop into a carton along the equipment after production is completed, partial bobbin yarns are easy to scatter in the automatic dropping process, the working strength of a packaging process is increased, and meanwhile, the bobbin yarns cannot be in a correcting state in the dropping process due to different thicknesses of two ends of the bobbin yarns, so that workers need to correct the bobbin yarns manually, the requirement on the manual operation is increased, the cost is increased, and the practicability is low.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a bobbin separating device of an automatic bobbin winder and a using method thereof, which have the advantages of automatic screening and automatic resetting and correcting, and solve the problems that bobbin yarns produced in the production process of the prior art in the background art automatically fall into a carton along equipment after production is finished, part of the bobbin yarns are easily scattered in the automatic falling process, the working strength of a packing flow is increased, and the bobbin yarns cannot be in a correcting state in the falling process due to different thicknesses of two ends of the bobbin yarns, so that workers need to manually correct, the manual demands are increased, the cost is increased, and the practicability is low.

The invention provides the following technical scheme: a bobbin separating device of an automatic bobbin winder comprises a cone yarn conveying equipment shell, a connecting arm is fixedly connected to the side surface of the cone yarn conveying equipment shell, a driving device is fixedly arranged on the side surface of the connecting arm, a control shaft is arranged in the driving device, the surface of the control shaft is fixedly clamped with a fixed disk, the surface of the fixed disk is fixedly provided with a cam, the side surface of the driving device is fixedly connected with a second extending plate, the other end of the second extending plate is fixedly connected with a fixed square block, the top of the fixed square block is provided with a circular groove, the inside of the circular groove is movably connected with a rotating column, the surface of the rotating column is fixedly clamped with a first connecting disc and a second connecting disc respectively, the surface of the first connecting disc is provided with a clamping groove, the inside in joint groove is provided with crescent spacing kelly, the fixed surface of second connection disc is connected with four branch sieve horizontal poles.

Preferably, both sides of the lower surface of the cheese conveying equipment shell are fixedly connected with connecting square plates respectively, the side surfaces of the connecting square plates are fixedly connected with sliding shafts, the surface of each sliding shaft is connected with a sliding sleeve block, the bottom of each sliding sleeve block is fixedly connected with two second connecting sleeve plates, the two second connecting sleeve plates are movably connected with connecting cylinders, the side surfaces of the connecting cylinders are fixedly provided with electric telescopic rods, the bottom of each electric telescopic rod is fixedly connected with an internal thread moving block, and the internal threads of the internal thread moving block are connected with threaded columns.

Preferably, the side fixedly connected with jointing equipment shell of section of thick bamboo yarn conveying equipment shell, the both sides difference fixedly connected with of jointing equipment shell inner wall connect the diaphragm, the last fixed surface who connects the diaphragm is connected with limit baffle, the lower fixed surface who connects the diaphragm installs and connects the swash plate, the wall groove has been seted up to the side of connecting the swash plate, the inside fixed joint in wall groove has the connecting axle, the surperficial swing joint of connecting axle has the ball.

Preferably, the first extension board of side fixedly connected with of drive arrangement, the other end fixedly connected with fixed block of first extension board, the bottom of fixed block is provided with the connection column spinner, the surperficial swing joint who connects the column spinner has the spacing kelly of crescent.

Preferably, the lateral fixed mounting of drive device has the spring, the other end fixedly connected with dead lever of spring, the spacing kelly of bottom fixedly connected with crescent of dead lever, the lateral fixed mounting of the spacing kelly of crescent has the arc to support the piece.

Preferably, the bottom of the cheese conveying equipment shell is fixedly connected with two first rotating sleeve plates, the insides of the two first rotating sleeve plates are movably connected with fixing columns, the surfaces of the fixing columns are fixedly connected with connecting plates, and the bottoms of the connecting plates are fixedly connected with mounting bases.

Preferably, a rotating groove is formed in the side face of the mounting base, and a threaded column is movably connected inside the rotating groove.

The use method of the bobbin separating device of the automatic bobbin winder comprises the following steps:

s1, controlling the internal thread moving block in threaded connection with the surface of the threaded column to move by rotating the threaded column in a rotating groove arranged on the mounting base, controlling the top electric telescopic rod to rise in the moving process, controlling the sliding sleeve block fixedly arranged at the top of a second connecting sleeve plate movably connected with the cylindrical surface at two sides of the top electric telescopic rod to slide to the right side on the surface of the sliding shaft, lifting the bobbin yarn conveying equipment shell fixedly arranged at the right side of the top of a connecting square plate at the side surface of the sliding shaft in the sliding process,

s2, the surface of the first rotating sleeve plate at the bottom of the shell of the cheese conveying equipment, which is fixedly connected with the fixed column on the upper surface of the connecting plate at the top of the mounting base, rotates along with the sliding track of the sliding sleeve block to finish the manual adjustment of the inclination angle of the shell of the cheese conveying equipment,

s3, automatically resetting and restoring the cone yarn by utilizing an inclined plane formed by the inclined edge of the side surface of the connecting transverse plate and the connecting inclined plate fixedly connected with the bottom of the connecting transverse plate, sliding the restored and restored cone yarn into the cone yarn conveying equipment shell under the action of balls movably connected with the surface of the connecting shaft fixedly clamped in the wall groove formed in the connecting inclined plate,

s4, starting the driving device, controlling the cam fixedly installed on the fixed disk on the surface of the control shaft to rotate by using the driving device, generating outward expansion force on the crescent limiting clamping rod on the side surface of the arc-shaped abutting block when the cam contacts the arc-shaped abutting block in the rotating process, and simultaneously, starting elastic stretching of a spring fixedly installed between the top fixing rod and the driving device when the crescent limiting clamping rod expands outwards, so that the crescent limiting clamping rod moves out of the clamping groove formed in the first connecting disk,

s5, the inclined cheese conveying equipment shell drives a rotating column fixedly clamped inside a second connecting disc fixedly installed on the side face of a screening cross rod to rotate inside a circular groove formed in a fixed square block by utilizing the gravity of cheese, the first connecting disc is driven to rotate together in the rotating process, and the spring drives a crescent limiting clamping rod to rebound and contract when a cam is not in contact with an arc abutting block and is clamped with a clamping groove formed in the surface of the first connecting disc to complete quick screening.

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

1. the automatic bobbin winder bobbin separating device and the use method thereof are characterized in that a control shaft, a crescent-shaped limiting clamping rod, a spring, a cam, a fixed disc and an arc-shaped abutting block are arranged, the cam fixedly arranged on the surface of the control shaft is controlled to rotate by a driving device, the crescent-shaped limiting clamping rod on the side surface of the arc-shaped abutting block generates outward expansion force when the cam contacts the arc-shaped abutting block in the rotating process, meanwhile, the spring fixedly arranged between a top fixed rod and the driving device starts elastic stretching when the crescent-shaped limiting clamping rod expands outwards, so that the crescent-shaped limiting clamping rod moves out of a clamping groove formed in a first connecting disc, a bobbin yarn conveying device shell in an inclined state in the moving process drives a rotating column fixedly clamped in a second connecting disc fixedly arranged on the side surface of a screening cross rod to rotate in a circular groove formed in the fixed block by the gravity of bobbin yarn, and drives the first connecting disc to rotate together in the rotating process, the spring drives the spacing kelly of crescent shape and kick-backs the shrink and accomplish fast branch sieve with the joint groove block that first connection disc surface was seted up when the piece contactless is supported to cam and arc, and whole operation process can realize automatic minute pipe, improves the intellectuality of production.

2. The automatic bobbin winder bobbin separating device and the use method thereof utilize the rotation of the threaded column inside a rotating groove arranged on a mounting base to control the movement of an internal thread moving block in threaded connection with the surface of the threaded column by arranging a fixed column, a first rotating sleeve plate, a sliding shaft, the threaded column, an internal thread moving block, an electric telescopic rod, a connecting cylinder and a second connecting sleeve plate, and control the lifting of the top electric telescopic rod and the sliding of the sliding sleeve block fixedly arranged on the top of the second connecting sleeve plate movably connected with the surface of the cylindrical column at two sides of the top electric telescopic rod to the right side on the surface of the sliding shaft in the moving process, and a bobbin yarn conveying equipment shell fixedly arranged on the right side of the top of a connecting square plate at the side of the sliding shaft in the sliding process is lifted, and simultaneously the surface of the fixed column fixedly connected with the surface of the connecting plate on the top of the mounting base on the first rotating sleeve plate at the bottom of the mounting base rotates along with the sliding track of the sliding sleeve block, therefore, the inclination angle of the shell of the cone yarn conveying equipment can be manually adjusted, the cone yarn conveying equipment is convenient to butt with an automatic winder for installation and use, and convenience is improved.

3. The automatic bobbin winder bobbin separating device and the using method thereof are characterized in that a limiting baffle is arranged, a transverse connecting plate, balls, a connecting shaft and an inclined connecting plate are arranged, an inclined edge on the side surface of the transverse connecting plate and the inclined connecting plate fixedly connected to the bottom of the transverse connecting plate form an inclined plane, in the process of bobbin yarn falling, a thick section is located at the upper end under the influence of gravity, and a thin section is located at the lower end, so that the automatic resetting and correcting effect is achieved, and meanwhile, when the bobbin yarn conveying equipment shell is in an inclined state after being adjusted, the reset and corrected bobbin yarn slides into the inner part of the bobbin yarn conveying equipment shell under the action of the balls movably connected with the surface of the connecting shaft fixedly clamped and connected in the wall groove formed in the inclined connecting plate, automatic resetting and correcting can be achieved in the whole process, manual operation is not needed, the cost in the production process is reduced, and the practicability is high.

Drawings

FIG. 1 is a schematic view of the overall structure of the apparatus of the present invention;

FIG. 2 is a schematic side sectional view of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of a portion of FIG. 1 according to the present invention;

FIG. 4 is a schematic diagram of a portion of the structure of FIG. 1 in accordance with the present invention;

FIG. 5 is a schematic diagram of the right side structure of FIG. 4 according to the present invention;

FIG. 6 is a bottom view of the FIG. 4 embodiment of the present invention;

FIG. 7 is an enlarged view of the structure at A in FIG. 2 according to the present invention.

In the figure: 1. mounting a base; 2. a connecting plate; 3. fixing a column; 4. a first rotating race plate; 5. a cheese conveying equipment housing; 6. a sliding shaft; 7. connecting the square plates; 8. a rotating groove; 9. a threaded post; 10. an internal thread moving block; 11. an electric telescopic rod; 12. a wall groove; 13. a limit baffle; 14. connecting the transverse plates; 15. connecting the device housing; 16. a ball bearing; 17. a connecting shaft; 18. connecting an inclined plate; 19. a connecting arm; 20. a control shaft; 21. a clamping groove; 22. a first connecting disc; 23. screening the cross rods; 24. rotating the column; 25. a second connecting disk; 26. a crescent limiting clamping rod; 27. fixing the rod; 28. a fixed block; 29. a first extension plate; 30. a spring; 31. a drive device; 32. a second extension plate; 33. a circular groove; 34. fixing the square block; 35. connecting the rotating column; 36. a cam; 37. fixing the disc; 38. an arc-shaped abutting block; 39. a connecting cylinder; 40. a second connecting sleeve plate; 41. a sliding sleeve block.

Detailed Description

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

Referring to fig. 1-7, a bobbin separating device of an automatic bobbin winder comprises a bobbin yarn conveying device shell 5, a connecting arm 19 is fixedly connected to the side surface of the bobbin yarn conveying device shell 5, a driving device 31 is fixedly installed on the side surface of the connecting arm 19, a control shaft 20 is arranged inside the driving device 31, a fixed disc 37 is fixedly clamped and connected to the surface of the control shaft 20, a cam 36 is fixedly installed on the surface of the fixed disc 37, a second extending plate 32 is fixedly connected to the side surface of the driving device 31, a fixed block 34 is fixedly connected to the other end of the second extending plate 32, a circular groove 33 is formed in the top of the fixed block 34, a rotating column 24 is movably connected to the inside of the circular groove 33, a first connecting disc 22 and a second connecting disc 25 are fixedly clamped and connected to the surface of the rotating column 24 respectively, a clamping groove 21 is formed in the surface of the first connecting disc 22, a crescent limiting clamping rod 26 is arranged inside the clamping groove 21, the surface of the second connecting disc 25 is fixedly connected with four sieving cross bars 23.

Wherein; both sides of cheese conveying equipment shell 5 lower surface respectively fixedly connected with connect square plate 7, connect side fixedly connected with slip shaft 6 of square plate 7, the surperficial sliding connection of slip shaft 6 has slip cover piece 41, two second connecting sleeve boards 40 of bottom fixedly connected with of slip cover piece 41, the equal swing joint in inside of two second connecting sleeve boards 40 has connection cylinder 39, the side fixed mounting of connection cylinder 39 has electric telescopic handle 11, electric telescopic handle 11's bottom fixed connection has internal thread movable block 10, the internal thread of internal thread movable block 10 has screw thread post 9, the internal thread movable block 10 that utilizes screw thread post 9 to rotate the inside rotation control screw thread post 9 surface threaded connection of rotation groove 8 that the mounting base 1 was seted up moves, the in-process of removal control top electric telescopic handle 11 rises and the second connecting sleeve board 40 top fixed mounting of top electric telescopic handle 11 both sides connection cylinder 39 surface swing joint moves to the right side on the surface of slip shaft 6 of slip cover piece 41 of second connecting sleeve board 40 The sliding mechanism comprises a sliding mechanism, wherein a cheese conveying equipment shell 5 fixedly mounted on the right side of the top of a connecting square plate 7 on the side surface of a sliding shaft 6 in the sliding process is lifted, and meanwhile, a first rotating sleeve plate 4 at the bottom of the cheese conveying equipment shell 5 is fixedly connected with a fixed column 3 on the surface of a connecting plate 2 at the top of a mounting base 1 and rotates along with the sliding track of a sliding sleeve block 41, so that the inclined angle of the cheese conveying equipment shell 5 can be manually adjusted, the automatic winder can be conveniently butted, the use is facilitated, and the convenience is improved.

Wherein; the side fixedly connected with jointing equipment shell 15 of cheese conveying equipment shell 5, the both sides of jointing equipment shell 15 inner wall are fixedly connected with connection diaphragm 14 respectively, the last fixed surface of connecting diaphragm 14 is connected with limit baffle 13, the lower fixed surface of connecting diaphragm 14 installs and connects swash plate 18, wall groove 12 has been seted up to the side of connecting swash plate 18, the inside fixed joint of wall groove 12 has connecting axle 17, the surface swing joint of connecting axle 17 has ball 16, utilize the hypotenuse of connecting diaphragm 14 side and the connection swash plate 18 of connecting diaphragm 14 bottom fixed connection to form the plane of slope, thereby in the in-process that the cheese dropped, thick one section is in the upper end under the influence of gravity, thin one section is located the lower extreme, thereby reach the effect of automatic reset and right, simultaneously when being in the tilt state after cheese conveying equipment shell 5 adjusts, the cheese that resets and right is in the connecting axle 17 surface swing joint's ball 16 of connecting the inside fixed joint of wall groove 12 that swash plate 18 seted up is connected is down to the effect of returning to the lower extreme downwards The inner part of the cheese conveying equipment shell 5 slides in, automatic resetting and correcting can be realized in the whole process, manual operation is not needed, the cost in the production process is reduced, and the practicability is high.

Wherein; the first extension plate 29 is fixedly connected to the side face of the driving device 31, the fixing block 28 is fixedly connected to the other end of the first extension plate 29, the connecting rotating column 35 is arranged at the bottom of the fixing block 28, and the crescent limiting clamping rod 26 is movably connected to the surface of the connecting rotating column 35.

Wherein; the spring 30 is fixedly mounted on the side face of the driving device 31, the fixing rod 27 is fixedly connected to the other end of the spring 30, the crescent-shaped limiting clamping rod 26 is fixedly connected to the bottom of the fixing rod 27, and the arc-shaped abutting block 38 is fixedly mounted on the side face of the crescent-shaped limiting clamping rod 26.

Wherein; two first rotating sleeve plates 4 are fixedly connected to the bottom of the cheese conveying equipment shell 5, fixing columns 3 are movably connected to the inside of the two first rotating sleeve plates 4, connecting plates 2 are fixedly connected to the surfaces of the fixing columns 3, and mounting bases 1 are fixedly connected to the bottoms of the connecting plates 2.

Wherein; the side of mounting base 1 has seted up and has rotated groove 8, rotates the inside swing joint in groove 8 and has screw thread post 9.

s1, controlling the movement of the internal thread moving block 10 in threaded connection with the surface of the threaded column 9 by rotating the threaded column 9 in the rotating groove 8 formed in the mounting base 1, controlling the top electric telescopic rod 11 to rise in the moving process, controlling the sliding sleeve block 41 fixedly arranged on the top of the second connecting sleeve plate 40 in surface movable connection with the connecting cylinder 39 on both sides of the top electric telescopic rod 11 to slide towards the right side on the surface of the sliding shaft 6, controlling the bobbin yarn conveying equipment shell 5 fixedly arranged on the right side of the top of the connecting square plate 7 on the side surface of the sliding shaft 6 to rise in the sliding process,

s2, the surface of the first rotating sleeve plate 4 at the bottom of the cheese conveying equipment shell 5, which is fixedly connected with the fixed column 3 on the upper surface of the connecting plate 2 at the top of the mounting base 1, rotates along with the sliding track of the sliding sleeve block 41 to finish the manual adjustment of the inclination angle of the cheese conveying equipment shell 5,

s3, automatically resetting and restoring the cone yarns by utilizing an inclined plane formed by the inclined edge of the side surface of the connecting transverse plate 14 and the connecting inclined plate 18 fixedly connected with the bottom of the connecting transverse plate 14, sliding the restored and restored cone yarns into the cone yarn conveying equipment shell 5 under the action of balls 16 movably connected with the surface of a connecting shaft 17 fixedly clamped in a wall groove 12 formed in the connecting inclined plate 18,

s4, starting the driving device 31, controlling the cam 36 fixedly installed on the fixed disk 37 on the surface of the control shaft 20 to rotate by using the driving device 31, generating outward expansion force on the crescent-shaped limit clamping rod 26 on the side surface of the arc-shaped abutting block 38 when the cam 36 contacts the arc-shaped abutting block 38 in the rotating process, and simultaneously, elastically stretching the spring 30 fixedly installed between the top fixing rod 27 and the driving device 31 when the crescent-shaped limit clamping rod 26 expands outward, so that the crescent-shaped limit clamping rod 26 moves out of the clamping groove 21 formed in the first connecting disk 22,

s5, the inclined cheese conveying equipment shell 5 drives the rotating column 24 fixedly clamped inside the second connecting disc 25 fixedly installed on the side surface of the screening cross rod 23 to rotate inside the circular groove 33 formed in the fixed square block 34 by the aid of gravity of cheese, the first connecting disc 22 is driven to rotate together in the rotating process, and the spring 30 drives the crescent limiting clamping rod 26 to rebound and contract when the cam 36 is not in contact with the arc abutting block 38 and is clamped with the clamping groove 21 formed in the surface of the first connecting disc 22 to complete rapid screening.

The working principle is that in the working process, a worker rotates the internal thread moving block 10 connected with the surface thread of the control thread column 9 in the rotating groove 8 formed in the mounting base 1 by using the thread column 9 to control the movement of the internal thread moving block 10 connected with the surface thread of the thread column 9, in the moving process, the top electric telescopic rod 11 is controlled to lift, in addition, the two sides of the top electric telescopic rod 11 are connected with the sliding sleeve block 41 fixedly arranged at the top of the second connecting sleeve plate 40 movably connected with the surface of the cylinder 39 in surface sliding connection, in the surface sliding direction of the sliding shaft 6, in the sliding process, the cheese conveying equipment shell 5 fixedly arranged at the top right side of the connecting square plate 7 at the side of the sliding shaft 6 is lifted, in addition, the surface of the first rotating sleeve plate 4 at the bottom of the cheese conveying equipment shell 5 fixedly connected with the fixed column 3 on the upper surface of the connecting plate 2 at the top of the mounting base 1 is rotated along with the sliding track of the sliding sleeve block 41, and therefore, the inclined angle of the cheese conveying equipment shell 5 can be manually adjusted, when the shell 5 of the cheese conveying equipment is in an inclined state after adjustment, an inclined plane is formed by utilizing the bevel edge of the side surface of the connecting transverse plate 14 and the connecting inclined plate 18 fixedly connected with the bottom of the connecting transverse plate 14, a thick section is positioned at the upper end under the influence of gravity, a thin section is positioned at the lower end and automatically resets and returns, the returned and returned cheese slides into the shell 5 of the cheese conveying equipment under the action of the ball 16 movably connected with the surface of the connecting shaft 17 fixedly clamped in the wall groove 12 arranged on the connecting inclined plate 18, then the driving equipment 31 is started, the driving equipment 31 is utilized to control the cam 36 fixedly installed on the surface fixed disc 37 of the control shaft 20 to rotate, the crescent limiting clamping rod 26 on the side surface of the crescent abutting block 38 generates outward expansion force when the cam 36 contacts the crescent abutting block 38 in the rotating process, and simultaneously the spring 30 fixedly installed between the top fixing rod 27 and the driving equipment 31 starts elastic stretching when the crescent limiting clamping rod 26 expands outward, thereby spacing kelly 26 of crescent shifts out from the inside joint groove 21 that first connection disc 22 seted up, section of thick bamboo yarn conveying equipment shell 5 under the in-process inclined state of removal utilizes the gravity of section of thick bamboo yarn self to drive the rotation post 24 of the inside fixed joint of second connection disc 25 of branch sieve horizontal pole 23 side fixed mounting to rotate inside the circular slot 33 that fixed square 34 was seted up, the pivoted in-process drives first connection disc 22 and rotates together, spring 30 drives spacing kelly 26 of crescent resilience shrink and the joint groove 21 block that first connection disc 22 surface was seted up when cam 36 and arc support piece 38 contactless accomplish fast the branch sieve.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims

1. The bobbin dividing device of the automatic bobbin winder is characterized by comprising a bobbin yarn conveying equipment shell (5), a connecting arm (19) is fixedly connected to the side face of the bobbin yarn conveying equipment shell (5), a driving device (31) is fixedly installed on the side face of the connecting arm (19), a control shaft (20) is arranged inside the driving device (31), a fixed disc (37) is fixedly clamped on the surface of the control shaft (20), a cam (36) is fixedly installed on the surface of the fixed disc (37), a second extending plate (32) is fixedly connected to the side face of the driving device (31), a fixed square block (34) is fixedly connected to the other end of the second extending plate (32), a circular groove (33) is formed in the top of the fixed square block (34), a rotating column (24) is movably connected to the inside of the circular groove (33), a first connecting disc (22) and a second connecting disc (25) are fixedly clamped on the surface of the rotating column (24) respectively, joint groove (21) have been seted up on the surface of first connection disc (22), the inside in joint groove (21) is provided with spacing kelly of crescent (26), the surperficial fixedly connected with four branch sieve horizontal poles (23) of disc (25) are connected to the second.

2. The automatic winder tube separating device according to claim 1, wherein: the bobbin yarn conveying equipment shell (5) is characterized in that two sides of the lower surface of the bobbin yarn conveying equipment shell (5) are fixedly connected with connecting square plates (7) respectively, a side face fixedly connected with sliding shaft (6) of each connecting square plate (7), a surface sliding of the sliding shaft (6) is connected with a sliding sleeve block (41), two second connecting sleeve plates (40) are fixedly connected with the bottom of each sliding sleeve block (41), two connecting cylinders (39) are movably connected with the inside of each second connecting sleeve plate (40), electric telescopic rods (11) are fixedly mounted on the sides of the connecting cylinders (39), an internal thread moving block (10) is fixedly connected with the bottom of each electric telescopic rod (11), and a thread column (9) is connected with the internal thread of each internal thread moving block (10).

3. The automatic winder tube separating device according to claim 1, wherein: side fixedly connected with connecting device shell (15) of section of thick bamboo yarn conveying equipment shell (5), the both sides difference fixedly connected with of connecting device shell (15) inner wall connect diaphragm (14), the last fixed surface who connects diaphragm (14) is connected with limit baffle (13), the lower fixed surface who connects diaphragm (14) installs and connects swash plate (18), wall groove (12) have been seted up to the side of connecting swash plate (18), the inside fixed joint of wall groove (12) has connecting axle (17), the surperficial swing joint of connecting axle (17) has ball (16).

4. The automatic winder tube separating device according to claim 1, wherein: the first extension board (29) of side fixedly connected with of actuating device (31), the other end fixedly connected with fixed block (28) of first extension board (29), the bottom of fixed block (28) is provided with connects column spinner (35), the surperficial swing joint of connecting column spinner (35) has spacing calorie of pole of crescent (26).

5. The automatic winder tube separating device according to claim 1, wherein: the side fixed mounting of drive arrangement (31) has spring (30), the other end fixedly connected with dead lever (27) of spring (30), the spacing kelly of bottom fixedly connected with crescent (26) of dead lever (27), the side fixed mounting of the spacing kelly of crescent (26) has the arc to support piece (38).

6. The automatic winder tube separating device according to claim 2, wherein: the bottom of the cheese conveying equipment shell (5) is fixedly connected with two first rotating sleeve plates (4), the inner parts of the first rotating sleeve plates (4) are movably connected with fixing columns (3), the surfaces of the fixing columns (3) are fixedly connected with connecting plates (2), and the bottom of each connecting plate (2) is fixedly connected with a mounting base (1).

7. The automatic winder tube separating device according to claim 6, wherein: the side of the mounting base (1) is provided with a rotating groove (8), and the inside of the rotating groove (8) is movably connected with a threaded column (9).

8. The use method of the automatic winder tube separating device according to any one of claims 1 to 7, characterized by comprising the following steps: the method comprises the following steps:

s1, controlling the movement of an internal thread moving block (10) in threaded connection with the surface of a threaded column (9) by rotating the threaded column (9) in a rotating groove (8) formed in a mounting base (1), controlling a top electric telescopic rod (11) to rise in the moving process, controlling a sliding sleeve block (41) fixedly installed at the top of a second connecting sleeve plate (40) movably connected with the surface of a cylinder (39) at the two sides of the top electric telescopic rod (11) to slide towards the right side on the surface of a sliding shaft (6), lifting a cheese conveying equipment shell (5) fixedly installed at the right side of the top of a connecting square plate (7) at the side of the sliding shaft (6) in the sliding process,

s2, the surface of a first rotating sleeve plate (4) at the bottom of the cheese conveying equipment shell (5) on the upper surface of a connecting plate (2) at the top of the mounting base (1) and fixedly connected with a fixed column (3) rotates along with the sliding track of a sliding sleeve block (41) to complete the manual adjustment of the inclination angle of the cheese conveying equipment shell (5),

s3, automatically resetting and restoring the cone yarn by utilizing an inclined plane formed by the inclined edge of the side surface of the connecting transverse plate (14) and the connecting inclined plate (18) fixedly connected with the bottom of the connecting transverse plate (14), sliding the restored and restored cone yarn into the cone yarn conveying equipment shell (5) under the action of the balls (16) movably connected with the surface of the connecting shaft (17) fixedly clamped and connected in the wall groove (12) formed in the connecting inclined plate (18),

s4, starting a driving device (31), controlling a cam (36) fixedly installed on a surface fixed disk (37) of a control shaft (20) to rotate by using the driving device (31), generating outward expansion force on a crescent limiting clamping rod (26) on the side surface of an arc-shaped abutting block (38) when the cam (36) contacts the arc-shaped abutting block (38) in the rotating process, and starting elastic stretching of a spring (30) fixedly installed between a top fixed rod (27) and the driving device (31) when the crescent limiting clamping rod (26) expands outward, so that the crescent limiting clamping rod (26) moves out of a clamping groove (21) formed in a first connecting disk (22),

s5, under the inclined state, the shell (5) of the cheese conveying equipment drives the rotating column (24) fixedly clamped inside the second connecting disc (25) fixedly installed on the side face of the screening cross rod (23) to rotate inside the circular groove (33) formed in the fixed square block (34) by the aid of gravity of cheese, the first connecting disc (22) is driven to rotate together in the rotating process, and the spring (30) drives the crescent limiting clamping rod (26) to rebound and contract when the cam (36) and the arc abutting block (38) are not in contact with each other and is clamped with the clamping groove (21) formed in the surface of the first connecting disc (22) to complete rapid screening.