CN220099289U - Collagen bionic composite core-spun yarn core positioning device - Google Patents

Abstract

The utility model relates to the technical field of collagen bionic composite core-spun yarn processing, in particular to a collagen bionic composite core-spun yarn core positioning device, which comprises: the winding device comprises a connecting box, a motor, an output shaft and a winding shaft, wherein the motor is connected in the connecting box, the output end of the motor is connected with the output shaft, one end of the output shaft is connected with the winding shaft, the winding shaft is arranged on one side of the connecting box and is connected in a yarn core in a penetrating manner, the connecting box is used as a bearing basis, a spring in the inside of a positioning structure pushes a limiting ring to move along the upper part of the winding shaft, the limiting ring firmly fixes the yarn core on the winding shaft, positioning of the yarn core is facilitated, the rotating speed of the output shaft is higher than that of a reciprocating screw rod through cooperation between a pinion and a large gear in a uniform guiding structure, and when reciprocating internal thread blocks do reciprocating movement, the core-spun yarn can be uniformly wound.

Description

Collagen bionic composite core-spun yarn core positioning device

Technical Field

The utility model relates to the technical field of collagen bionic composite core-spun yarn processing, in particular to a collagen bionic composite core-spun yarn core positioning device.

Background

The core-spun yarn is also called composite yarn or cladding yarn, and is a novel yarn formed by combining two or more fibers. The initial core spun yarn is staple fiber and staple fiber core spun yarn developed with cotton fiber as the sheath and polyester staple fiber yarn as the core. The novel bead thread belt polyester cored wire is made of the existing collagen bionic composite material, and is required to be rolled and packed by a yarn core in the processing process, and the existing yarn core positioning device has certain defects, such as;

the current bionic composite core-spun yarn core positioning device for collagen is characterized in that the yarn core is directly sleeved above equipment in the use process, so that the yarn core can fall off due to overhigh winding rotating speed, and the current bionic composite core-spun yarn core positioning device for collagen is used in the use process, because the winding positions of the yarn core and the core-spun yarn cannot be controlled by the equipment in the winding process, the core-spun yarn cannot be uniformly wound on the surface of the yarn core, the winding volume of the core-spun yarn is accumulated, and the use rate of the yarn core is affected.

Disclosure of Invention

The utility model provides the following technical scheme: the utility model aims to provide a collagen bionic composite core-spun yarn core positioning device, which solves the problems that the yarn core positioning device in the current market proposed by the background technology is inconvenient to fix the position of a yarn core and inconvenient to uniformly wind core-spun yarns.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a collagen bionic composite core spun yarn core positioning device, comprising: the device comprises a connecting box, a motor, an output shaft and a winding shaft;

the motor is connected with the connection box, the motor output is connected with the output shaft, output shaft one end is connected with the roll-up axle, the roll-up axle sets up in connection box one side, roll-up axle through connection is in yarn core, yarn core top is provided with the guide ring, be provided with location structure on the roll-up axle, be provided with even guide structure in the connection box, and the connection box is as bearing basis.

Preferably, the positioning structure includes: the device comprises a limiting ring, a first positioning cylinder, a spring, a second positioning cylinder, a fixing ring, a fixing block, a fixing groove and a sliding groove, wherein the winding shaft is connected in the limiting ring in a penetrating manner, and one side of the limiting ring is connected with the first positioning cylinder.

Preferably, the first positioning cylinder is internally connected with one end of a spring in a clamping manner, the spring is internally connected with a winding shaft in a penetrating manner, the other end of the spring is connected in a second positioning cylinder in a clamping manner, the second positioning cylinder is connected to one side of a fixing ring, and the winding shaft is internally connected with the fixing ring in a penetrating manner.

Preferably, the fixed block is connected to the inner side wall of the fixed ring, the fixed block is connected in the fixed groove in a clamping mode, the fixed groove is formed in the inner side wall of the sliding groove, and the sliding groove is formed in one end of the winding shaft.

Preferably, the uniform guide structure includes: the belt conveyor comprises a first belt pulley, a belt, a second belt pulley, a first connecting shaft, a pinion, a large gear, a reciprocating screw rod, a reciprocating internal thread block, a connecting plate and a guide rod, wherein the first belt pulley is connected to the output shaft, and the belt is connected to the first belt pulley.

Preferably, one side of the belt is connected with a second belt pulley, a first connecting shaft is connected in the second belt pulley, the first connecting shaft is rotationally connected in the connecting box, a pinion is connected on the first connecting shaft, and one side of the pinion is in meshing connection with a large gear.

Preferably, the large gear is internally connected with a reciprocating screw rod, one end of the reciprocating screw rod is rotatably connected in the connecting box, the other end of the reciprocating screw rod is connected outside the connecting box in a penetrating way, and the reciprocating screw rod is connected with a reciprocating internal thread block.

Preferably, one side of the reciprocating internal thread block is connected with a connecting plate, one end of the connecting plate is connected with a guide ring, a guide rod is connected in the connecting plate in a penetrating way, and the guide rod is connected to one side of the connecting box.

Compared with the prior art, the utility model has the beneficial effects that: this bionic compound covering yarn core positioner of collagen, the inside spring of accessible location structure promotes the spacing ring and moves along the roll-up epaxial side, makes the spacing ring firmly fix the yarn core on the roll-up epaxial, realizes being convenient for the location of yarn core from this, and the cooperation between the inside pinion of accessible even guide structure and the gear wheel makes the rotational speed of output shaft be greater than reciprocating screw rod, when making reciprocating internal thread piece do reciprocating movement, can carry out even roll-up work with covering yarn, and specific content is as follows:

1. the fixing ring can be rotated to drive the fixing block to slide to a position flush with the chute along the fixing groove, at the moment, the spring can push the fixing ring to move, so that the fixing block slides and is separated along the chute, then the limiting ring is drawn and separated along the winding shaft, the fixing block is firmly clamped in the fixing groove due to the action of the spring, one side of the limiting ring is firmly attached to one end of the yarn core, and therefore the positioning of the yarn core is facilitated;

2. the motor during operation can drive the output shaft to rotate, the output shaft drives the first belt pulley to rotate, the first belt pulley drives the second belt pulley to rotate through the belt, the second belt pulley drives the pinion above the first connecting shaft to rotate, the pinion drives the bull gear to rotate and drives the reciprocating screw rod to rotate, the reciprocating screw rod drives the reciprocating internal thread block to reciprocate, the reciprocating internal thread block drives the connecting plate to move along the guide rod, at the moment, the connecting plate drives the guide ring to move, the covering yarn is rolled up along the guide ring inwards on the yarn core, and due to the cooperation of the pinion and the bull gear, the rolling speed of the output shaft is higher than that of the reciprocating screw rod, and the fact that the yarn core can uniformly roll up the covering yarn is guaranteed.

Drawings

FIG. 1 is a schematic view of a junction box of the present utility model;

FIG. 2 is a schematic view of a yarn core according to the present utility model;

FIG. 3 is a schematic view of a take-up shaft according to the present utility model;

FIG. 4 is an enlarged schematic view of the portion A of the present utility model;

fig. 5 is an enlarged schematic view of the portion B of the present utility model.

In the figure: 1. a connection box; 2. a motor; 3. an output shaft; 4. a winding shaft; 5. a yarn core; 6. a guide ring; 7. a positioning structure; 701. a limiting ring; 702. a first positioning cylinder; 703. a spring; 704. a second positioning cylinder; 705. a fixing ring; 706. a fixed block; 707. a fixing groove; 708. a chute; 8. a uniform guide structure; 801. a first pulley; 802. a belt; 803. a second pulley; 804. a first connecting shaft; 805. a pinion gear; 806. a large gear; 807. a reciprocating screw rod; 808. a reciprocating internal thread block; 809. a connecting plate; 810. a guide rod.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: a collagen bionic composite core spun yarn core positioning device, comprising: the motor comprises a connecting box 1, a motor 2, an output shaft 3 and a winding shaft 4;

the connecting box 1 is internally connected with the motor 2, and the motor 2 output is connected with output shaft 3, and output shaft 3 one end is connected with the roll-up axle 4, and roll-up axle 4 sets up in connecting box 1 one side, and roll-up axle 4 through connection is in yarn core 5, and yarn core 5 top is provided with guide ring 6, is provided with location structure 7 on the roll-up axle 4, is provided with even guide structure 8 in the connecting box 1, and connecting box 1 is as bearing foundation.

The positioning structure 7 includes: the yarn winding device comprises a limiting ring 701, a first positioning cylinder 702, a spring 703, a second positioning cylinder 704, a fixing ring 705, a fixing block 706, a fixing groove 707 and a sliding groove 708, wherein the winding shaft 4 is connected in the limiting ring 701 in a penetrating manner, one side of the limiting ring 701 is connected with the first positioning cylinder 702, one end of the spring 703 is connected in a clamping manner in the first positioning cylinder 702, the winding shaft 4 is connected in the spring 703 in a penetrating manner, the other end of the spring 703 is connected in the second positioning cylinder 704 in a clamping manner, the second positioning cylinder 704 is connected on one side of the fixing ring 705, the winding shaft 4 is connected in the fixing ring 705 in a penetrating manner, the fixing block 706 is connected on the inner side wall of the fixing ring 705 in a clamping manner, the fixing groove 707 is formed in the inner side wall of the sliding groove 708, the sliding groove 708 is formed in one end of the winding shaft 4, the position of the yarn core 5 is positioned conveniently, the spring 703 in the inner side of the positioning structure 7 is pushed by the spring 703, the limiting ring 701 moves along the upper side of the winding shaft 4, the yarn core 5 is firmly fixed on the winding shaft 4, and the yarn core 5 is positioned conveniently.

The uniform guiding structure 8 includes: the yarn winding device comprises a first belt pulley 801, a belt 802, a second belt pulley 803, a first connecting shaft 804, a pinion 805, a large gear 806, a reciprocating screw rod 807, a reciprocating internal thread block 808, a connecting plate 809 and a guide rod 810, wherein the output shaft 3 is connected with the first belt pulley 801, the first belt pulley 801 is connected with the belt 802, the belt 802 is connected with the second belt pulley 803, the second belt pulley 803 is connected with the first connecting shaft 804, the first connecting shaft 804 is rotationally connected in a connecting box 1, the first connecting shaft 804 is connected with the pinion 805, one side of the pinion 805 is in meshing connection with the large gear 806, the large gear 806 is internally connected with the reciprocating screw rod 807, one end of the reciprocating screw rod 807 is rotationally connected in the connecting box 1, the other end of the reciprocating screw rod 807 is in penetrating connection with the outside of the connecting box 1, one end of the connecting plate 809 is connected with a guide ring 6, the connecting plate 809 is in penetrating connection with the guide rod 810, the guide rod 810 is connected on one side of the connecting box 1, uniform winding of the core is convenient to realize, and the uniform winding of the core 808 can be performed through matching between the pinion 805 and the large gear 805 inside the output shaft, so that the reciprocating screw rod 807 can rotate at a uniform winding speed can rotate at the speed of the reciprocating screw rod 807 and make the reciprocating screw rod rotate at a uniform winding speed.

To sum up: when the collagen bionic composite core-spun yarn core positioning device is used, as shown in fig. 1-5, the fixing ring 705 can be rotated to drive the fixing block 706 to slide to a position flush with the sliding groove 708 along the fixing groove 707, at the moment, the spring 703 can push the fixing ring 705 to move, so that the fixing block 706 slides along the sliding groove 708 to be separated, then the limiting ring 701 is drawn and separated along the winding shaft 4, and due to the effect of the spring 703, the fixing block 706 is firmly clamped in the fixing groove 707, one side of the limiting ring 701 is firmly attached to one end of the yarn core 5, thereby realizing convenient positioning of the yarn core 5, then when the motor 2 works, the output shaft 3 can be driven to rotate to drive the first belt pulley 801 to rotate and drive the second belt pulley 803 to rotate through the belt 803, the pinion 805 above the first connecting shaft 804 is driven to rotate, the pinion 805 is driven to rotate the large gear 806 and drive the reciprocating screw 807 to reciprocate internal screw 808 to reciprocate the reciprocating internal screw 808, and the connecting plate 809 is driven to move along the guide rod 810, the connecting plate 809 is firmly clamped in the fixing groove 707, and the guide ring 6 is driven to reciprocate the guide ring 6 to roll the yarn core 5, and the large gear winding speed of the yarn core winding drum winding device is guaranteed, and the yarn winding device is well known in the prior art, and the technical field is wound by the winding device is realized.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (7)

1. A collagen bionic composite core spun yarn core positioning device, comprising: the device is characterized by comprising a connecting box (1), a motor (2), an output shaft (3) and a winding shaft (4);

the utility model discloses a motor, including connecting box (1), motor (2), output shaft (3) one end is connected with roll-up axle (4), roll-up axle (4) set up in connecting box (1) one side, roll-up axle (4) through connection is in yarn core (5), yarn core (5) top is provided with guide ring (6), be provided with location structure (7) on roll-up axle (4), be provided with even guide structure (8) in connecting box (1), location structure (7) include: limiting ring (701), first positioning cylinder (702), spring (703), second positioning cylinder (704), solid fixed ring (705), fixed block (706), fixed slot (707) and spout (708), roll-up axle (4) through-connection is in limiting ring (701), limiting ring (701) one side is connected with first positioning cylinder (702).

2. The collagen bionic composite core spun yarn core positioning device according to claim 1, wherein: the novel automatic rolling device is characterized in that one end of a spring (703) is connected in the first positioning barrel (702) in a clamping mode, a rolling shaft (4) is connected in the spring (703) in a penetrating mode, the other end of the spring (703) is connected in the second positioning barrel (704) in a clamping mode, the second positioning barrel (704) is connected to one side of a fixed ring (705), and the rolling shaft (4) is connected in the fixed ring (705) in a penetrating mode.

3. The collagen bionic composite core spun yarn core positioning device according to claim 2, wherein: the fixing device is characterized in that a fixing block (706) is connected to the inner side wall of the fixing ring (705), the fixing block (706) is connected in a fixing groove (707) in a clamping mode, the fixing groove (707) is formed in the inner side wall of a sliding groove (708), and the sliding groove (708) is formed in one end of a winding shaft (4).

4. The collagen bionic composite core spun yarn core positioning device according to claim 1, wherein: the uniform guiding structure (8) comprises: the novel belt conveyor device comprises a first belt pulley (801), a belt (802), a second belt pulley (803), a first connecting shaft (804), a pinion (805), a large gear (806), a reciprocating screw rod (807), a reciprocating internal thread block (808), a connecting plate (809) and a guide rod (810), wherein the first belt pulley (801) is connected to the output shaft (3), and the belt (802) is connected to the first belt pulley (801).

5. The collagen bionic composite core spun yarn core positioning device according to claim 4, wherein: the belt (802) one side is connected with second belt pulley (803), second belt pulley (803) internal connection has first connecting axle (804), first connecting axle (804) rotate and connect in connecting box (1), be connected with pinion (805) on first connecting axle (804), pinion (805) one side meshing is connected with gear wheel (806).

6. The collagen bionic composite core spun yarn core positioning device according to claim 5, wherein: the large gear (806) is connected with a reciprocating screw rod (807), one end of the reciprocating screw rod (807) is rotatably connected in the connecting box (1), the other end of the reciprocating screw rod (807) is connected outside the connecting box (1) in a penetrating way, and the reciprocating screw rod (807) is connected with a reciprocating internal thread block (808).

7. The collagen bionic composite core spun yarn core positioning device according to claim 6, wherein: the connecting box is characterized in that a connecting plate (809) is connected to one side of the reciprocating internal thread block (808), one end of the connecting plate (809) is connected with a guide ring (6), a guide rod (810) is connected in the connecting plate (809) in a penetrating mode, and the guide rod (810) is connected to one side of the connecting box (1).