CN212000041U - Tension adjusting device for vortex spinning - Google Patents

Abstract

The utility model relates to a tension adjusting device for vortex spinning, including moving back the bank of filaments and being located the alignment jig at bank of filaments rear, move back and be provided with on the bank of filaments and move back a silk mechanism, the alignment jig along vertically having seted up a plurality of spouts, spout sliding connection have a slide, every the slide on rotate and be connected with the godet roller, slide and alignment jig between be provided with stop gear, follow godet roller circumference be provided with a plurality of arc guide boards, the arc guide board pass through conduction mechanism and follow godet roller radial sliding connection on the godet roller, reach the purpose that promotes the resultant yarn quality.

Description

Tension adjusting device for vortex spinning

Technical Field

The utility model relates to an eddy current spinning equipment technical field, in particular to tension adjusting device for eddy current spinning.

Background

Vortex spinning is a novel spinning technology and has the advantages of short process flow and high spinning speed. The vortex spinning adopts four-roller super-large drafting to realize direct sliver feeding spinning, so that a roving process is omitted, cone yarns are directly obtained, a winding process is omitted, and the spinning efficiency is higher.

At present, a chinese patent with publication number CN203530544U discloses a tension control device for vortex spun core-spun yarn, which comprises a guide tension bracket and an active yarn withdrawing mechanism arranged in front and back; the yarn guide tension frame is composed of four yarn guide rollers arranged on two fixed plates, and the middle parts of the yarn guide rollers are provided with V-shaped yarn guide grooves; the active wire withdrawing mechanism comprises two active wire withdrawing rollers arranged in parallel and a wire withdrawing roller control motor for controlling the active wire withdrawing rollers to rotate.

The vortex spinning covering yarn tension control device is simple in structure, but in actual production, spun yarns are different in materials and different in elasticity, and the four godet rollers are fixed relatively, so that the yarns are too tight or too loose, and the quality of finished yarns is affected.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a tension adjusting device for vortex spinning through the high position of adjusting the slide, makes the distance between two adjacent godet rollers obtain adjusting to difficult problem that causes the yarn tension or cross the pine promotes the resultant yarn quality.

In order to achieve the above purpose, the technical scheme of the utility model is as follows: the utility model provides an eddy current spinning is with tension adjusting device, is including moving back the bank of filaments and being located the alignment jig at bank of filaments rear, move back and be provided with the mechanism of moving back on the bank of filaments, the alignment jig along vertically having seted up a plurality of spouts, spout sliding connection have a slide, every the slide on rotate and be connected with the godet roller, slide and alignment jig between be provided with stop gear, follow godet roller circumference be provided with a plurality of arc guide boards, the arc guide board pass through conduction mechanism along the radial sliding connection of godet roller on the godet roller.

Realize above-mentioned technical scheme, through removing the slide along the spout, make the distance between two adjacent slides increase, fix a position the slide through stop gear then to adapt to different elastic yarns, simultaneously, change through the position that makes the arc guide board with conduction mechanism, the yarn can further the tensioning or relax behind the arc guide board, thereby reaches the effect that adapts to different elastic yarn, reaches the purpose that promotes the resultant yarn quality.

As a preferred scheme of the utility model, stop gear include support, button, elastic component, spacing post and spacing hole, it is a plurality of spacing hole set up on the outer wall of alignment jig and along the length direction setting of spout, button and spacing post sliding connection just pass through on the support the elastic component is connected, be provided with guiding mechanism between button and the spacing post, spacing post be used for penetrating in a spacing hole.

As a preferred scheme of the utility model, guiding mechanism include sloping block, S-shaped piece and pipe, the sloping block be fixed in on the inner wall of button, the both ends of S-shaped piece contradict with two sloping blocks respectively, the pipe be fixed in on the support, spacing post sliding connection in the pipe, the pipe on seted up the slide opening, the inclined hole has been seted up on the spacing post, the middle part sliding connection of S-shaped piece in the inclined hole, S-shaped piece sliding connection in the slide opening.

As a preferred scheme of the utility model, conduction mechanism include the supporting disk, slide the groove, slide seat, drive ring and link assembly, the supporting disk be fixed in the tip of godet roller, a plurality of slide the groove and offer on the supporting disk, slide seat sliding connection in slide the groove, the drive ring rotate and connect on the godet roller and be connected with the godet roller through positioning mechanism, the drive ring pass through link assembly promotes the seat that slides and removes, slide seat and arc guide board be connected.

As the utility model discloses an optimal selection scheme, positioning mechanism including location shrinkage pool, reference column and shell fragment, a plurality of the location shrinkage pool is seted up on the outer wall of drive ring, the outer wall of godet roller on seted up the location shrinkage pool, reference column sliding connection in the location shrinkage pool and through the inner wall connection of shell fragment with the location shrinkage pool, the location shrinkage pool penetrate in the shrinkage pool of location.

As an optimized proposal of the utility model, the outer wall of the driving ring is provided with an anti-skid groove.

As an optimized scheme of the utility model, the silk mechanism of moving back including all rotating to connect in moving back a plurality of silk rollers that move back on the silk frame, it is a plurality of move back silk roller syntropy and rotate.

As an optimized proposal of the utility model, the yarn withdrawing frame is provided with an adjusting mechanism for adjusting the distance between the yarn withdrawing rollers.

As a preferred scheme of the utility model, adjustment mechanism include supporting seat and dead lever, the silk frame that moves back along transversely having seted up the support groove, supporting seat sliding connection in supporting the groove, the outer wall of the silk frame that moves back on seted up the fixed orifices, the dead lever penetrate in the fixed orifices after passing the supporting seat.

To sum up, the utility model discloses following beneficial effect has:

firstly, the sliding seats move along the sliding grooves, so that the distance between two adjacent sliding seats is increased, then the sliding seats are positioned through the limiting mechanism to adapt to yarns with different elasticity, meanwhile, the position of the arc-shaped guide plate is changed through the conduction mechanism, and the yarns can be further tensioned or relaxed after passing through the arc-shaped guide plate, so that the effect of adapting to different elastic yarns is achieved, and the purpose of improving the quality of finished yarns is achieved;

secondly, through the distance adjustment of adjustment mechanism to two adjacent silk rollers that move back, make the silk roller that moves back can adapt to the yarn book of different external diameters, promote the practicality.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a schematic structural diagram of the guide mechanism.

Fig. 3 is a schematic structural diagram of the positioning mechanism.

The corresponding part names indicated by the numbers and letters in the drawings:

1. a wire withdrawing frame; 11. a wire withdrawing mechanism; 12. a wire withdrawing roller; 2. an adjustment mechanism; 21. a supporting seat; 22. fixing the rod; 23. a fixing hole; 24. a support groove; 3. an adjusting bracket; 31. a chute; 32. a slide base; 33. a godet roller; 4. a limiting mechanism; 41. a support; 42. a button; 43. an elastic member; 44. a limiting column; 441. an inclined hole; 45. a limiting hole; 6. a guide mechanism; 61. a sloping block; 62. s-shaped blocks; 63. a conduit; 631. a slide hole; 7. an arc-shaped guide plate; 8. a conducting mechanism; 81. a support disc; 82. a sliding groove; 83. a sliding seat; 84. a drive ring; 841. an anti-slip groove; 85. a connecting rod assembly; 86. a first link; 87. a second link; 9. a positioning mechanism; 91. positioning concave holes; 92. a positioning column; 93. an elastic sheet.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example (b):

as shown in fig. 1 to 3, a tension adjusting device for vortex spinning includes a yarn withdrawing frame 1 and an adjusting frame 3 located behind the yarn withdrawing frame 1, and a yarn withdrawing mechanism 11 is provided on the yarn withdrawing frame 1. The wire withdrawing mechanism 11 comprises two wire withdrawing rollers 12 which are rotatably connected to the wire withdrawing frame 1. The two take-off rolls 12 rotate in the same direction and are arranged horizontally.

The yarn withdrawing frame 1 is provided with an adjusting mechanism 2 for adjusting the distance between two adjacent yarn withdrawing rollers 12 so as to adapt to yarn coils with different outer diameters.

Wherein, the adjusting mechanism 2 comprises a supporting seat 21 and a fixing rod 22. The wire withdrawing frame 1 is transversely provided with a supporting groove 24, and the two supporting seats 21 are slidably connected in one supporting groove 24. The take-off roll 12 is rotatably connected to a support base 21. A plurality of fixing holes 23 are formed in the outer wall of the wire withdrawing frame 1, and the plurality of fixing holes 23 are arranged along the length direction of the supporting groove 24 and beside the supporting groove 24. The fixing rod 22 passes through the supporting seat 21 and then penetrates into one fixing hole 23.

The take-off roll 12 is driven by a motor (not shown in the figure).

The yarn package is placed between two take-off rolls 12 and supported by the take-off rolls 12. When the two take-off rolls 12 rotate in the same direction, the yarn package rotates and the yarn is drawn off. As the yarn package continues to unwind, the outer diameter of the yarn package gradually decreases, allowing the take-off rolls 12 to continue to support the yarn package by drawing the distance between the take-off rolls 12 closer together. Then, the fixing rod 22 penetrates through the supporting seat 21 and then penetrates into the fixing hole 23, so that the supporting seat 21 can be positioned, and the operation is simple and convenient.

Four chutes 31 are longitudinally arranged on the adjusting frame 3, and the four chutes 31 are transversely arranged along the adjusting frame 3. A slide 32 is slidably connected to each slide groove 31, and a godet 33 is rotatably connected to each slide 32, and the godet 33 is horizontally disposed and driven by a motor (not shown). A limiting mechanism 4 is arranged between the sliding seat 32 and the adjusting frame 3.

The distance between two adjacent godet rollers 33 can be adjusted by moving the slide 32 along the chute 31. As the distance between two adjacent godets 33 increases, the yarn can be tensioned to accommodate the more elastic yarn. Similarly, the sliders 32 are used in a direction toward each other to accommodate the less elastic yarn to avoid yarn breakage.

The limiting mechanism 4 includes a support 41, a button 42, an elastic member 43, a limiting post 44 and a limiting hole 45. A plurality of limiting holes 45 are opened on the outer wall of the adjusting frame 3 and are arranged along the length direction of the sliding groove 31. The holder 41 is fixed to the slider 32. The button 42 and the limit post 44 are slidably connected to the support 41 and are connected by an elastic member 43, and the elastic member 43 is a spring. The guiding mechanism 6 is arranged between the button 42 and the limiting column 44, and the limiting column 44 is used for penetrating into a limiting hole 45.

The guide mechanism 6 includes a ramp 61, an S-block 62 and a conduit 63. The inclined blocks 61 are fixed to the inner wall of the button 42, and both ends of the S-shaped block 62 are respectively abutted against the two inclined blocks 61. The guide tube 63 is fixed on the support 41, and the limiting column 44 is connected in the guide tube 63 in a sliding manner; a slide hole 631 is opened in the conduit 63, and the slide hole 631 communicates with the inner wall of the conduit 63. The limiting column 44 is provided with an inclined hole 441; the middle part of the S-shaped block 62 is slidably connected in the inclined hole 441. The S-block 62 is slidably coupled in the slide hole 631.

When the position of the slider 32 is to be adjusted, the button 42 is pressed, the button 42 moves toward the direction close to the position-limiting post 44, the S-shaped block 62 is pressed by the inclined block 61, the S-shaped block 62 moves along the slide hole 631, and the middle part of the S-shaped block 62 presses the inner wall of the inclined hole 441, so that the position-limiting post 44 moves toward the direction close to the button 42, the elastic member 43 is further compressed, and the position-limiting post 44 is pulled out from the position-limiting hole 45. The slide 32 is moved along the slide groove 31. After the position of the slide seat 32 is adjusted, the button 42 is released, the limiting column 44 is pushed into the limiting hole 45 through the elastic force of the elastic piece 43, and the slide seat 32 can be positioned through the interference of the limiting column 44 and the inner wall of the limiting hole 45.

Four arc-shaped guide plates 7 are arranged along the circumferential direction of the godet roller 33, and the arc-shaped guide plates 7 are connected to the godet roller 33 in a sliding manner along the radial direction of the godet roller 33 through a conduction mechanism 8. Four arcuate guide plates 7 are distributed along the circumferential direction of the godet roller 33.

The conduction mechanism 8 comprises a support plate 81, a sliding groove 82, a sliding seat 83, a drive ring 84 and a connecting rod assembly 85, wherein the support plate 81 is fixed at the end part of the godet roller 33, and the four sliding grooves 82 are arranged on the support plate 81 and are uniformly distributed along the circumferential direction of the support plate 81; the sliding seat 83 is slidably connected to the sliding groove 82.

The drive ring 84 is mounted on the godet roll 33 and is rotatably connected to the godet roll 33 via the positioning mechanism 9. The driving ring 84 pushes the sliding seat 83 to move through the connecting rod assembly 85, and the sliding seat 83 is fixedly connected with the arc guide plate 7. The drive ring 84 is disposed coaxially with the godet roller 33 and is connected by bearings. In order to facilitate the rotation of the drive ring 84, an anti-slip groove 841 is formed on the outer wall of the drive ring 84.

The link assembly 85 includes a first link 86 and a second link 87. The first link 86 is fixed at one end to the drive ring 84 and at the other end is hinged to the second link 87. The end of the second link 87 remote from the first link 86 is hinged to the sliding seat 83.

When the driving ring 84 is rotated in the forward direction, the first link 86 drives the second link 87 to move, and then the second link 87 drives the sliding seat 83 to move, so that the sliding seat 83 moves along the sliding groove 82, and the distance between two adjacent arc guide plates 7 is increased. Similarly, the driving ring 84 rotates reversely, so that the distance between two adjacent arc guide plates 7 becomes smaller, thereby accommodating yarns of different elasticity.

When the yarn passes through the outer wall of the arcuate guide plate 7, the yarn can be further tensioned or relaxed.

Wherein, positioning mechanism 9 includes location shrinkage pool 91, reference column 92 and shell fragment 93. A plurality of positioning concave holes 91 open on the outer wall of the drive ring 84 and are evenly distributed along the axial center of the drive ring 84. Set up location shrinkage pool 91 on godet 33's outer wall, with reference column 92 sliding connection in location shrinkage pool 91 and through shell fragment 93 and the inner wall connection of location shrinkage pool 91. The positioning concave hole 91 penetrates into the positioning concave hole 91.

The driving ring 84 is rotated to overcome the friction between the positioning posts 92 and the positioning holes 91, and the distance between the sliding seats 83 is changed. After the adjustment is completed, the acting force on the driving ring 84 is stopped, so that the positioning column 92 is abutted against one positioning concave hole 91 through the elastic force of the elastic sheet 93, and the positioning of the sliding seat 83 is realized.

As described above, the yarn package is placed on the two take-off rolls 12, and the take-off rolls 12 are rotated to draw the yarn out of the yarn package. The yarn is passed through the surface of the arcuate guide plate 7 and tensioned. By adjusting the position of the slide 32 and the position of the arcuate guide plate 7, the yarn is tensioned or loosened, and over-tightening or over-loosening of the yarn is avoided. Feeding the coated coarse sand through a back roller, converging the stretched coarse sand with the yarn, and twisting the yarn together to form the yarn.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides an eddy current spinning is with tension adjusting device, is including moving back the bank of silks and being located the alignment jig at bank of silks rear, move back and be provided with on the bank of silks and move back a silk mechanism, its characterized in that, the alignment jig along vertically having seted up a plurality of spouts, the spout sliding connection have a slide, every the slide on rotate and be connected with the godet roller, slide and alignment jig between be provided with stop gear, follow godet roller circumference be provided with a plurality of arc guide boards, the arc guide board pass through the conduction mechanism and follow godet roller radial sliding connection on the godet roller.

2. A tension adjusting device for vortex spinning according to claim 1, wherein the limiting mechanism comprises a support, a button, an elastic member, a plurality of limiting holes and a plurality of limiting holes, the plurality of limiting holes are formed in the outer wall of the adjusting frame and are arranged along the length direction of the sliding groove, the button and the limiting holes are slidably connected to the support and are connected through the elastic member, a guide mechanism is arranged between the button and the limiting holes, and the limiting holes are used for penetrating into one limiting hole.

3. The tension adjusting device for the vortex spinning according to claim 2, wherein the guide mechanism comprises an inclined block, an S-shaped block and a guide pipe, the inclined block is fixed on the inner wall of the button, two ends of the S-shaped block are respectively abutted against the two inclined blocks, the guide pipe is fixed on the support, the limiting column is slidably connected in the guide pipe, a sliding hole is formed in the guide pipe, an inclined hole is formed in the limiting column, the middle of the S-shaped block is slidably connected in the inclined hole, and the S-shaped block is slidably connected in the sliding hole.

4. A tension adjusting device for vortex spinning according to claim 1, 2 or 3, wherein the conducting mechanism comprises a supporting disk, a sliding groove, a sliding seat, a driving ring and a connecting rod assembly, the supporting disk is fixed at the end of the godet roller, the sliding grooves are arranged on the supporting disk, the sliding seat is connected in the sliding groove in a sliding manner, the driving ring is rotationally connected to the godet roller and is connected with the godet roller through a positioning mechanism, the driving ring pushes the sliding seat to move through the connecting rod assembly, and the sliding seat is connected with the arc-shaped guiding plate.

5. The tension adjusting device for the vortex spinning according to claim 4, wherein the positioning mechanism comprises a positioning concave hole, a positioning column and a spring plate, the positioning concave hole is opened on the outer wall of the driving ring, the outer wall of the yarn guide roller is provided with the positioning concave hole, the positioning column is connected in the positioning concave hole in a sliding mode and is connected with the inner wall of the positioning concave hole through the spring plate, and the positioning concave hole penetrates into the positioning concave hole.

6. A tension adjusting device for vortex spinning according to claim 5, wherein the outer wall of the driving ring is provided with an anti-slip groove.

7. A tension adjusting device for an eddy current spinning according to claim 1, wherein the yarn take-off mechanism includes a plurality of yarn take-off rollers each rotatably connected to the yarn take-off frame, the plurality of yarn take-off rollers rotating in the same direction.

8. A tension adjusting device for vortex spinning according to claim 7, wherein the take-off frame is provided with an adjusting mechanism for adjusting the distance between adjacent take-off rollers.

9. The tension adjusting device for the vortex spinning according to claim 8, wherein the adjusting mechanism comprises a supporting seat and a fixing rod, the yarn withdrawing frame is transversely provided with a supporting groove, the supporting seat is slidably connected in the supporting groove, the outer wall of the yarn withdrawing frame is provided with a fixing hole, and the fixing rod penetrates through the supporting seat and then penetrates into the fixing hole.

Images