CN113697598B

CN113697598B - Blended yarn conveying and winding equipment with velvet removing function

Info

Publication number: CN113697598B
Application number: CN202111244364.0A
Authority: CN
Inventors: 胡方
Original assignee: Jiangsu Shengsida Textile Technology Co ltd
Current assignee: Xuzhou Xinrui Textile Technology Co ltd
Priority date: 2021-10-26
Filing date: 2021-10-26
Publication date: 2023-04-18
Anticipated expiration: 2041-10-26
Also published as: CN113697598A

Abstract

The invention relates to the technical field of yarn winding, in particular to blended yarn conveying and winding equipment with a velvet removing function, which comprises a bottom rack, a hot pressing mechanism and a winding mechanism, and can solve the following problems in the production and processing process of blended yarns: the method comprises the following steps that a, fluff knots may exist on the surface of a traditional blended yarn after processing and forming, the blended yarn is subjected to printing and dyeing treatment according to actual needs after processing and forming, the smoothness of the surface of the blended yarn is influenced by the fluff knots, the printing and dyeing effect of the blended yarn is influenced, the fluff knots can cause uneven cloth surface in the subsequent weaving process of the blended yarn and influence the quality of cloth, and b, the blended yarn needs to be collected and wound after processing and forming.

Description

Blended yarn conveying and winding equipment with velvet removing function

Technical Field

The invention relates to the technical field of yarn winding, in particular to blended yarn conveying and winding equipment with a velvet removing function.

Background

The blended yarn is a composite fabric obtained by the processes of cotton opening, cotton carding, spinning and the like, and the blended yarn has the advantages of both polyester style and cotton fabric, so that the blended yarn is widely applied to production of clothes as a garment fabric.

The blended yarns need to be rolled after production and processing are finished, and the following problems exist in the process of rolling the blended yarns: a. the surface of the blended yarn may have villus knots after being processed and formed, the blended yarn is subjected to printing and dyeing treatment according to actual needs after being processed and formed, the existence of the villus knots affects the smoothness of the surface of the blended yarn and the printing and dyeing effect of the blended yarn, and the villus knots can cause the unevenness of the cloth surface and affect the quality of cloth in the subsequent weaving process of the blended yarn; b. because the blended yarn itself has elasticity when the blended yarn is collected and is convoluteed, the rolling is comparatively loose between the traditional collection coiling in-process blended yarn, leads to the blended yarn to take place the slippage from collection device, influences the rolling effect of blended yarn.

Disclosure of Invention

In order to solve the problems, the invention adopts the following technical scheme: the utility model provides a coiling equipment is carried to blended yarn with remove fine hair function, includes bottom frame, hot pressing mechanism and winding mechanism, bottom frame up end install hot pressing mechanism and winding mechanism from the left hand right side in proper order.

The hot pressing mechanism comprises a hot pressing rack, a first hot pressing roller, a second hot pressing roller, a fixed shaft, a resistance wire, a hot pressing spring rod, a guide block, a guide roller and a fluff removing branch chain, wherein the hot pressing rack is of a square structure, the hot pressing rack is arranged on the upper end face of the bottom rack, the inner wall of the hot pressing rack is provided with the first hot pressing roller through rotation of a bearing from left to right, the adjacent first hot pressing rollers are arranged in a staggered mode, the inner wall of the hot pressing rack is arranged at the upper end of the first hot pressing roller through rotation of the bearing and provided with the second hot pressing roller, an annular groove is formed in the circumferential face of the first hot pressing roller, the lower end of the second hot pressing roller is arranged inside the annular groove, a cavity is formed inside the second hot pressing roller, the fixed shaft is arranged in the cavity along the forward and backward direction, the resistance wire is arranged on the fixed shaft, the hot pressing spring rods are symmetrically arranged on the front side and back of the right lower end face inside the hot pressing rack, the guide roller is arranged between the guide blocks through rotation of the bearing, and the upper end face of the bottom rack is arranged on the left side of the hot pressing rack and provided with the fluff removing branch chain.

Winding mechanism include rolling frame, coiling motor, pivot, stopper, locking bolt, wind-up roll and regulation branch chain, wherein bottom frame up end around the symmetry be provided with the rolling frame, the coiling motor passes through the motor cabinet and installs the terminal surface before the rolling frame of rear side, be provided with two sets of pivots between the rolling frame, the pivot of front side is passed through the bearing and is installed in the rolling frame, the pivot of rear side is passed through the shaft coupling and is installed on the coiling motor output shaft, the rectangular channel has been seted up in the pivot, the stopper is installed through the bearing at both ends around the wind-up roll, the wind-up roll passes through the stopper joint inside the rectangular channel, the locking bolt passes the pivot and rotates and install on the stopper, bottom frame up end is located and installs the regulation branch chain between the rolling frame.

Preferably, go the fine hair branch chain including wash frame, guide roller, fixed frame, spacing roller, remove the fine hair roller No. two and remove the fine hair subassembly, wherein the washing frame install at bottom frame up end, the guide roller passes through the bearing and installs inside washing frame, bottom frame up end just is located the right side of washing frame and installs fixed frame, fixed frame is inside to be installed spacing roller through the bearing, fixed frame inside is located the right side below of spacing roller and rotates through the bearing and installs a fine hair roller that goes, bottom frame up end just is located a fine hair roller below and slides and is provided with and goes the fine hair subassembly, goes to install on the fine hair subassembly and removes the fine hair roller No. two.

Preferably, the regulation branch chain include reciprocating motor, dwang and rotation connecting rod, wherein bottom frame up end before the arc wall has been seted up to the back symmetry, and the arc wall is concentric, the rolling frame slides and sets up inside the arc wall, bottom frame up end just is located and installs reciprocating motor through the motor cabinet between the rolling frame, reciprocating motor installs the dwang in the output shaft up end, the rotation connecting rod passes through the hinge mount and at the rolling frame opposite face, the sliding tray has been seted up to the one end that the rolling frame was kept away from to the rotation connecting rod, the dwang slides and sets up inside the sliding tray.

Preferably, remove the fine hair subassembly include movable plate, lead screw, spacing spring beam and fixed block, wherein bottom frame up end seted up the spout, the movable plate slides and sets up inside the spout, the movable plate is followed from the front and back direction and is run through threaded through-hole, threaded connection between the threaded through-hole on the movable plate and the lead screw, the lead screw passes bottom frame and rotates and install inside threaded through-hole, the symmetry is installed at the movable plate up end around the spacing spring beam, the fixed block is installed to spacing spring beam upper end, rotate between the fixed block and install No. two remove the fine hair roller.

Preferably, no. two remove the mode of fluff roller periphery on install through the joint and remove the fine hair area, when removing the fine hair knot on the fine hair area and be full of, be convenient for remove the quick replacement and the installation of fine hair area, reduce the time that the fine hair area was removed in the change, improve the efficiency of removing fine hair.

Preferably, wash the frame inside and be located and be provided with the live-rollers from the left hand right side between the guide roll through the bearing, and the live-rollers is crisscross to be set up on wasing the frame inner wall, the extension blended yarn soaks the route for the effect of soaking of blended yarn is better.

Preferably, the resistance wire is arranged on the fixed shaft in a spiral winding mode from front to back, so that the length of the resistance wire is increased, and the generated heat is increased, so that the hot-pressing flattening effect on the blended yarns is better.

Preferably, the circumferential surfaces of the rotating roller and the guide roller are provided with annular grooves, and the use of the annular grooves can limit the blended yarns, so that the condition that the stability of the blended yarns in the hot pressing process is influenced due to relative sliding of the blended yarns in water is avoided.

The invention has the beneficial effects that: 1. in the hot pressing mechanism designed by the invention, the first hot pressing roller and the second hot pressing roller are matched with each other to carry out hot pressing treatment on the blended yarns, the blended yarns are subjected to flat extrusion treatment, gaps among the blended yarns are reduced, meanwhile, the hot pressing spring rod drives the guide roller through the guide block to enable the hot-pressed blended yarns to be always in a tensioning state, the elastic deformation of the blended yarns is reduced, the blended yarns are easy to collect by the winding roller, the blended yarns are not loosened, the resistance wire is arranged on the fixed shaft in a spiral surrounding mode, the length of the resistance wire can be increased in a limited space, the heat productivity of the resistance wire is further increased, meanwhile, the first hot pressing roller and the second hot pressing roller can carry out drying treatment on the blended yarns after fluff removal and cleaning, and the hot pressing and drying paths of the blended yarns can be prolonged by arranging a plurality of groups of the first hot pressing roller and the second hot pressing roller in the hot pressing rack, so that the hot pressing and drying effects of the blended yarns are better.

2. In removing the fine hair branch chain, the use of wasing the frame can soak the processing to the blended yarn, can be so that the fine hair knot on the blended yarn is concentrated, remove the fine hair roller through one number and remove the fine hair roller and can clear away the fine hair knot on the blended yarn with No. two to mutually supporting, wherein remove the mode that the fine hair band passed through the joint and install on No. two remove the fine hair roller, when the fine hair knot that removes on the fine hair band reaches certain quantity, be convenient for remove the quick replacement in fine hair band, improve the efficiency of removing fine hair.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

FIG. 3 is a schematic view of the internal mounting structure of the de-fluff branched chain of the present invention.

FIG. 4 is a schematic view of the installation structure of the first fluff removing roller and the second fluff removing roller of the present invention.

Fig. 5 is a schematic view of the internal installation structure of the hot press frame of the present invention.

FIG. 6 is a schematic view of the internal installation structure of the second heat pressing roller of the present invention.

In the figure: 1. a bottom chassis; 2. a hot-pressing mechanism; 3. a winding mechanism; 21. a hot-pressing frame; 22. a first hot press roll; 23. a second hot press roll; 24. a fixed shaft; 25. a resistance wire; 26. hot-pressing the spring rod; 27. a guide block; 28. a guide roller; 29. removing villus and branched chains; 291. cleaning the frame; 292. a guide roller; 293. fixing the frame; 294. a limiting roller; 295. a first fluff removing roller; 296. a second fluff removing roller; 297. a de-fluff assembly; 298. removing the fluff belt; 297a, a moving plate; 297b, lead screw; 297c, a limiting spring lever; 297d, fixed block; 299. a rotating roller; 31. a rolling frame; 32. a winding motor; 33. a rotating shaft; 34. a limiting block; 35. locking the bolt; 36. a wind-up roll; 37. adjusting the branched chain; 371. a reciprocating motor; 372. rotating the rod; 373. the connecting rod is rotated.

Detailed Description

Embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 6, the blended yarn conveying and winding device with the velvet removing function comprises a bottom rack 1, a hot pressing mechanism 2 and a winding mechanism 3, wherein the hot pressing mechanism 2 and the winding mechanism 3 are sequentially installed on the upper end face of the bottom rack 1 from left to right.

The hot pressing mechanism 2 comprises a hot pressing rack 21, a first hot pressing roller 22, a second hot pressing roller 23, a fixing shaft 24, a resistance wire 25, hot pressing spring rods 26, guide blocks 27, a guide roller 28 and a fluff removing branch chain 29, wherein the hot pressing rack 21 is of a square structure, the hot pressing rack 21 is installed on the upper end face of the bottom rack 1, the first hot pressing roller 22 is installed on the inner wall of the hot pressing rack 21 from left to right through bearing rotation, the adjacent first hot pressing rollers 22 are arranged in a staggered mode, the second hot pressing roller 23 is installed on the inner wall of the hot pressing rack 21 and located at the upper end of the first hot pressing roller 22 through bearing rotation, an annular groove is formed in the circumferential face of the first hot pressing roller 22, the lower end of the second hot pressing roller 23 is located inside the annular groove, a cavity is formed inside the second hot pressing roller 23, the fixing shaft 24 is arranged in the cavity from front to back, the resistance wire 25 is installed on the fixing shaft 24, the hot pressing spring rods 26 are symmetrically installed on the front and back of the right side of the lower end face inside the hot pressing rack 21, the guide blocks 27 are installed on the two hot pressing spring rods 26, the guide blocks are installed between the guide blocks 27 through bearing rotation, the upper end face of the bottom rack 1 and located at the left side of the hot pressing rack 21 and located at the fluff removing branch chain 29.

Resistance wire 25 from the front to the back sets up on fixed axle 24 through spiral winding's mode for the length of resistance wire 25 increases, and resistance wire 25 length increases, and the heat increase of production makes the hot pressing flattening effect to the blended yarn better, and it should be noted that, the temperature of resistance wire 25 heating only can flatten the blended yarn in this embodiment, can not cause the fracture of blended yarn.

The fluff removing branch chain 29 comprises a cleaning frame 291, a guide roller 292, a fixed frame 293, a limit roller 294, a fluff removing roller 295, a fluff removing roller 296 and a fluff removing assembly 297, wherein the cleaning frame 291 is installed on the upper end face of the bottom frame 1, the guide roller 292 is installed inside the cleaning frame 291 through a bearing, the fixed frame 293 is installed on the upper end face of the bottom frame 1 and located on the right side of the cleaning frame 291, the limit roller 294 is installed inside the fixed frame 293 through a bearing, the fluff removing roller 295 is installed inside the fixed frame 293 and located on the right lower side of the limit roller 294 through a bearing in a rotating mode, the fluff removing assembly 297 is arranged on the upper end face of the bottom frame 1 and located below the fluff removing roller 295 in a sliding mode, and the fluff removing assembly 296 is installed on the fluff removing assembly 297.

During specific work, blended yarns firstly penetrate through the fluff branched chain 29, then manually penetrate through the first hot-pressing roller 22 and the second hot-pressing roller 23 and bypass the guide roller 28 to be installed on the winding mechanism 3, the winding mechanism 3 is started to drive the blended yarns to move from left to right, water is poured into the cleaning frame 291 during moving of the blended yarns, the blended yarns are guided by the guide roller 292 and are subjected to immersion cleaning through the cleaning frame 291, the soaked blended yarns bypass the limiting roller 294, then the fluff knots on the surfaces of the blended yarns are cleaned through mutual cooperation of the first fluff removing roller 295 and the second fluff removing roller 296, the condition that the fluff knots influence the surfaces of the blended yarns and influence the dyeing and printing effects of the blended yarns is avoided, meanwhile, fluff smoothness of the fluff knots can cause unevenness of cloth covers during subsequent weaving of the blended yarns, the immersion cleaning action can enable the fluff knots to be concentrated, the second fluff removing roller 296 can easily perform fluff removing treatment, the wetted smoothness of the fluff knots can not generate fluff phenomenon in comparison with dry fluff knots after removal, the fluff, the phenomenon that the fluff falls can not occur, gaps of the surfaces of the cloth covers can be easily occur during subsequent hot-pressing of the hot-pressing roller 23, the hot-pressing roller 23 can reduce the heat of the hot-pressing roller 23 during the hot-pressing roller 23, and the heat of the blended yarns can be reduced, and the blended yarns can be easily generated by the hot-pressing of the blended yarns during the hot-pressing roller 296, the hot-pressing mechanism 26, and the heat of the blended yarns can be easily generated by the blended yarns.

The cleaning frame 291 is provided with rotating rollers 299 between the guide rollers 292 from left to right through bearings, and the rotating rollers 299 are arranged on the inner wall of the cleaning frame 291 in a staggered manner, so that the wetting path of the blended yarns is prolonged, and the wetting effect of the blended yarns is better.

Annular grooves are formed in the circumferential surfaces of the rotating roller 299 and the guide roller 292, the blended yarns can be limited by the annular grooves, and the condition that the stability of the blended yarns is influenced by the relative sliding of the blended yarns in water in the hot pressing process is avoided.

No. two remove and install through the mode of joint on the fine hair roller 296 periphery and remove fine hair area 298, when removing the fine hair knot on fine hair area 298 and be full, be convenient for remove the quick replacement and the installation of fine hair area 298, reduce the time of changing and removing fine hair area 298, improve the efficiency of removing fine hair.

The fluff removing assembly 297 comprises a moving plate 297a, a lead screw 297b, a limiting spring rod 297c and a fixed block 297d, wherein a sliding groove is formed in the upper end surface of the bottom rack 1, the moving plate 297a is slidably disposed in the sliding groove, a threaded through hole is formed in the moving plate 297a in a penetrating manner from the front to the rear, the threaded through hole in the moving plate 297a is in threaded connection with the lead screw 297b, the lead screw 297b penetrates through the bottom rack 1 and is rotatably mounted in the threaded through hole, the lead screw 297b is driven by an external lead screw motor or in a manual mode (the lead screw motor is not shown in the figure), the limiting spring rod 297c is symmetrically mounted on the upper end surface of the moving plate 297a from front to back, the fixed block 297d is mounted at the upper end of the limiting spring rod 297c, a second fluff removing roller 296 is rotatably mounted between the fixed blocks 297d, and during specific work, the diameter of blended yarns is very small, when No. two remove fine hair roller 296 and remove the fine hair to the blended yarn and handle, only use and remove the partial position on the fine hair roller 296 No. two, when the fine hair knot is covered with the fine hair position of removing on No. two fine hair rollers, it moves to rotate lead screw 297b and drive movable plate 297a, the movable plate 297a removes the in-process and mutually supports through spacing spring lever 297c and fixed block 297d and drive No. two and remove fine hair roller 296 and move, make No. two remove the part that does not use on the fine hair roller 296 and move the blended yarn lower extreme, can remove the fine hair processing to the blended yarn through mutually supporting with a fine hair roller 295, wherein the use of spacing spring lever 297c can guarantee No. two to remove fine hair roller 296 and drive blended yarn subsides all the time and lean on No. one to remove the fine hair roller 295 through mutually supporting with fixed block 297d, the condition that the blended yarn laminating is not inseparable to cause and removes the fine hair effect relatively poor takes place.

Winding mechanism 3 include rolling frame 31, winding motor 32, pivot 33, stopper 34, locking bolt 35, wind-up roll 36 and adjust the branch chain 37, wherein 1 up end of bottom frame before and after the symmetry be provided with rolling frame 31, winding motor 32 passes through the motor cabinet and installs the terminal surface before the rolling frame 31 of rear side, be provided with two sets of pivots 33 between the rolling frame 31, the pivot 33 of front side passes through the bearing and installs on rolling frame 31, the pivot 33 of rear side passes through the shaft coupling and installs on winding motor 32 output shaft, the rectangular channel has been seted up on the pivot 33, stopper 34 is installed through the bearing at both ends around the wind-up roll 36, wind-up roll 36 passes through stopper 34 joint inside the rectangular channel, locking bolt 35 passes pivot 33 and rotates and installs on stopper 34, bottom frame 1 up end is located and installs between the rolling frame 31 and adjusts the branch chain 37.

Adjust branch 37 include reciprocating motor 371, dwang 372 and rotation connecting rod 373, wherein 1 up end of bottom frame preceding back symmetry seted up the arc wall, and the arc wall is concentric, rolling frame 31 slides and sets up inside the arc wall, 1 up end of bottom frame just is located and installs reciprocating motor 371 through the motor cabinet between the rolling frame 31, dwang 372 is installed to reciprocating motor 371 output shaft up end, rotation connecting rod 373 passes through the hinge mount and has seted up the sliding tray at rolling frame 31 opposite face, rotation connecting rod 373 keeps away from the one end of rolling frame 31, dwang 372 slides and sets up inside the sliding tray.

During specific work, the winding motor 32 is started to be matched with the limiting block 34 through the rotating shaft 33 to drive the winding roller 36 to rotate, the winding roller 36 drives the blended yarn to move from left to right in the rotating process, the winding roller 36 collects the blended yarn after the hot pressing treatment, when the winding roller 36 winds the blended yarn, the reciprocating motor 371 is started to drive the rotating rod 372 to swing back and forth from left to right, the rotating rod 372 drives the winding rack 31 to swing back and forth from left to right through the rotating connecting rod 373 in the back and forth swinging process, the winding roller 36 synchronously swings back and forth in the back and forth swinging process of the winding rack 31, the blended yarn can be distributed on the front side and the back side of the winding roller 36 through synchronous rotation in the back and forth swinging process of the winding roller 36, the condition that the blended yarn is concentrated on a certain position of the winding roller 36 in the winding process is avoided, and the blended yarn can be uniformly distributed on the winding roller 36.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention; any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a coiling equipment is carried to blended yarn with remove fine hair function, includes bottom frame (1), hot pressing mechanism (2) and winding mechanism (3), its characterized in that: the upper end surface of the bottom rack (1) is sequentially provided with a hot pressing mechanism (2) and a rolling mechanism (3) from left to right;

the hot-pressing mechanism (2) comprises a hot-pressing rack (21), a first hot-pressing roller (22), a second hot-pressing roller (23), a fixed shaft (24), a resistance wire (25), a hot-pressing spring rod (26), a guide block (27), a guide roller (28) and a fluff removing branch chain (29), wherein the hot pressing frame (21) is in a square structure, the hot pressing frame (21) is arranged on the upper end surface of the bottom frame (1), a first hot pressing roller (22) is rotatably arranged on the inner wall of the hot pressing frame (21) from left to right through a bearing, and the adjacent first hot pressing rollers (22) are arranged in a staggered way, the inner wall of the hot pressing frame (21) and the upper end of the first hot pressing roller (22) are rotatably provided with a second hot pressing roller (23) through a bearing, an annular groove is formed in the circumferential surface of the first hot pressing roller (22), the lower end of the second hot pressing roller (23) is located inside the annular groove, a cavity is formed inside the second hot pressing roller (23), a fixed shaft (24) is arranged inside the cavity from front to back, a resistance wire (25) is mounted on the fixed shaft (24), hot pressing spring rods (26) are symmetrically mounted on the right side of the lower end face inside the hot pressing rack (21) from front to back, guide rollers (28) are rotatably mounted between the guide blocks (27) through bearings, and a fluff removing branched chain (29) is mounted on the upper end face of the bottom rack (1) and located on the left side of the hot pressing rack (21);

the fluff removing branch chain (29) comprises a cleaning frame (291), a guide roller (292), a fixed frame (293), a limiting roller (294), a first fluff removing roller (295), a second fluff removing roller (296) and a fluff removing assembly (297), wherein the cleaning frame (291) is installed on the upper end face of the bottom frame (1), the guide roller (292) is installed inside the cleaning frame (291) through a bearing, the fixed frame (293) is installed on the upper end face of the bottom frame (1) and located on the right side of the cleaning frame (291), the limiting roller (294) is installed inside the fixed frame (293) through a bearing, the first fluff removing roller (295) is installed inside the fixed frame (293) and located on the right lower side of the limiting roller (294) through a bearing in a rotating mode, and the fluff removing assembly (297) is arranged on the upper end face of the bottom frame (1) and located below the first fluff removing roller (295) in a sliding mode;

the fluff removing component (297) comprises a moving plate (297 a), a lead screw (297 b), a limiting spring rod (297 c) and a fixing block (297 d), wherein a sliding groove is formed in the upper end face of the bottom rack (1), the moving plate (297 a) is arranged in the sliding groove in a sliding mode, a threaded through hole is formed in the moving plate (297 a) in a penetrating mode from the front to the rear direction, the threaded through hole in the moving plate (297 a) is in threaded connection with the lead screw (297 b), the lead screw (297 b) penetrates through the bottom rack (1) and is rotatably arranged in the threaded through hole, the limiting spring rod (297 c) is symmetrically arranged on the upper end face of the moving plate (297 a) front and back, the fixing block (297 d) is arranged at the upper end of the limiting spring rod (297 c), and a second fluff removing roller (296) is rotatably arranged between the fixing blocks (297 d);

the winding mechanism (3) comprises a winding rack (31), a winding motor (32), rotating shafts (33), limiting blocks (34), locking bolts (35), winding rollers (36) and adjusting branched chains (37), wherein the winding rack (31) is symmetrically arranged in front of and behind the upper end face of the bottom rack (1), the winding motor (32) is mounted on the front end face of the winding rack (31) on the rear side through a motor base, two groups of rotating shafts (33) are arranged between the winding racks (31), the rotating shafts (33) on the front side are mounted on the winding rack (31) through bearings, the rotating shafts (33) on the rear side are mounted on output shafts of the winding motor (32) through couplings, rectangular grooves are formed in the rotating shafts (33), the limiting blocks (34) are mounted at the front and rear ends of the winding rollers (36) through bearings, the winding rollers (36) are clamped inside the rectangular grooves through the limiting blocks (34), the locking bolts (35) penetrate through the rotating shafts (33) and are rotatably mounted on the limiting blocks (34), and the adjusting branched chains (37) are mounted between the winding racks (31) on the upper end face of the bottom rack (1);

adjust branch chain (37) including reciprocating motor (371), dwang (372) and rotation connecting rod (373), wherein bottom frame (1) up end before the back symmetry seted up the arc wall, and the arc wall is concentric, rolling frame (31) slide to set up inside the arc wall, bottom frame (1) up end just is located and installs reciprocating motor (371) through the motor cabinet between rolling frame (31), dwang (372) are installed to reciprocating motor (371) output shaft up end, rotation connecting rod (373) pass through the hinge mounting in rolling frame (31) opposite face, the sliding tray has been seted up to the one end that rolling frame (31) were kept away from in rotation connecting rod (373), dwang (372) slide to set up inside the sliding tray.

2. The blended yarn feeding and winding apparatus with a delinting function according to claim 1, wherein: and a fluff removing belt (298) is arranged on the circumferential surface of the second fluff removing roller (296) in a clamping manner.

3. The blended yarn feeding and winding apparatus with a delinting function according to claim 1, wherein: rotating rollers (299) are arranged inside the cleaning frame (291) and between the guide rollers (292) from left to right through bearings, and the rotating rollers (299) are arranged on the inner wall of the cleaning frame (291) in a staggered mode.

4. The blended yarn feeding and winding apparatus with a delinting function according to claim 1, wherein: the resistance wire (25) is arranged on the fixed shaft (24) from front to back in a spiral winding mode.

5. The blended yarn feeding and winding apparatus having a delinting function according to claim 3, wherein: annular grooves are formed in the circumferential surfaces of the rotating roller (299) and the guide roller (292).