CN114634060B

CN114634060B - Yarn winding mechanism

Info

Publication number: CN114634060B
Application number: CN202210562312.6A
Authority: CN
Inventors: 黎建军; 姚维庚; 朱兵
Original assignee: Yangzhou Yitai Textile Co ltd
Current assignee: Yangzhou Yitai Textile Co ltd
Priority date: 2022-05-23
Filing date: 2022-05-23
Publication date: 2022-08-09
Anticipated expiration: 2042-05-23
Also published as: CN114634060A

Abstract

The invention discloses a yarn winding mechanism, which belongs to the technical field of spinning and comprises a main substrate, a vertical plate and guide grooves, wherein the vertical plate is fixedly assembled on the main substrate, more than one guide groove is circumferentially distributed on the vertical plate, a sliding part is slidably assembled in the guide grooves, more than one sliding part is arranged on one side of the vertical plate in a U shape, a winding wheel is movably assembled at one end of the vertical plate, a yarn to be wound is arranged in the winding wheel arranged in a U shape in a penetrating way, a roller wheel is arranged on one side of the winding wheel, a driving cam is rotationally distributed on one side of the vertical plate and movably abutted against a plurality of roller wheels, a wire coil wheel is slidably sleeved on a driving shaft, an adjusting assembly is distributed between the wire coil wheel and the vertical plate and is used for movably connecting the wire coil wheel and the driving shaft, the invention can store the yarn during the yarn changing process by virtue of the plurality of winding wheels which are arranged on the vertical plate in a sliding way, thereby realizing uninterrupted continuous feeding, the time waste caused by shutdown and line replacement is avoided, and the production rate is improved.

Description

Yarn winding mechanism

Technical Field

The invention belongs to the technical field of spinning, and particularly relates to a yarn winding mechanism.

Background

The yarn is a textile, various textile fibers are processed into products with certain fineness, the products are used for weaving, rope making, thread making, knitting, embroidering and the like, and are divided into staple fiber yarn, continuous filament yarn and the like, and the wool yarn are generally used for spinning woolen sweaters, woolen trousers, woolen vests, scarves, hats and gloves and weaving various costume articles in spring and autumn, and the products have the decoration effect besides warm keeping.

The formed yarn needs to be wound and then packaged in the preparation process of the yarn, and the existing winding equipment needs to be stopped, cut off and switch yarn spools after the winding of a single-roll yarn is completed, so that the production flow is discontinuous, and the production efficiency is reduced.

Disclosure of Invention

In view of the shortcomings in the prior art, an object of the present invention is to provide a yarn winding mechanism to solve the above problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

a yarn winding mechanism comprises a base plate assembly, wherein the base plate assembly comprises a main base plate, a vertical plate and guide grooves, the vertical plate is fixedly assembled on the main base plate, more than one guide groove is circumferentially distributed on the vertical plate, and the guide grooves point to the same circle center;

the yarn storage wheel set comprises sliders, reels and rollers, the sliders are assembled in the guide grooves in a sliding mode, more than one slider is arranged on one side of the vertical plate in a U-shaped mode, the reels are movably assembled at one end of each slider, yarns to be wound penetrate through the reels arranged in the U-shaped mode, the rollers are arranged on one side of the reels, and the rollers face the same circle center side;

the driving mechanism comprises a driving cam and a driving shaft, the driving cam is rotatably arranged on one side of the vertical plate, movably abutted against the roller and used for driving the sliding piece to move through rotation, one end of the driving shaft is fixedly connected with the driving cam, and the other end of the driving shaft is rotatably assembled in the vertical plate;

the wire coil mechanism comprises a wire coil wheel, wire passing grooves and a wire winding frame, the wire coil wheel is sleeved on the driving shaft in a sliding mode and is elastically connected with the vertical plate, more than one wire passing groove is circumferentially distributed on the wire coil wheel, and the wire winding frame is assembled on one side of each wire passing groove; and

the adjusting assembly is arranged between the wire coil wheel and the vertical plate and is used for movably connecting the wire coil wheel and the driving shaft so as to enable the wire coil wheel to rotate along with the driving shaft;

the base plate assembly further comprises a wire arranging machine head, wherein the wire arranging machine head is fixedly arranged on one side of the vertical plate and used for outputting the yarn to be wound to one side of the wire coil wheel.

As a further aspect of the present invention, the substrate assembly further includes:

the feeding wheel is assembled on one side of the vertical plate, is arranged close to one side of the winding wheel and is used for inputting yarns to be wound into the winding wheel; and

and the discharging wheel is assembled on one side of the vertical plate, is arranged close to one side of the winding wheel and is used for outputting the yarn to be wound from the winding wheel.

As a further scheme of the invention, the cord storage wheel set further comprises an elastic piece, wherein the elastic piece is movably assembled between the sliding piece and the guide groove and used for driving the sliding piece to elastically reset.

As a further aspect of the present invention, the driving mechanism further includes a convex surface, a concave surface and a driving machine, the convex surface and the concave surface are circumferentially disposed on the driving cam and are arranged at intervals, and the driving machine is assembled and connected with the driving shaft and is used for driving the driving shaft to rotate.

As a further scheme of the invention, the thread passing groove is matched with the thread arranging machine head, so that the yarn output from the thread arranging machine head passes through the thread disc wheel and is input into the winding frame.

As a further aspect of the present invention, the adjusting assembly includes:

the first connecting rod is rotatably connected with the wire coil wheel;

one end of the second connecting rod is rotatably connected with the first connecting rod, and the other end of the second connecting rod is rotatably sleeved on the driving shaft; and

and the magnetic part is rotatably connected with the first connecting rod and the second connecting rod.

As a further scheme of the invention, the adjusting assembly further comprises an electromagnetic driver, and the electromagnetic driver is fixedly arranged on one side of the vertical plate and is arranged close to one side of the magnetic part.

In summary, compared with the prior art, the embodiment of the invention has the following beneficial effects:

according to the invention, the plurality of reels which are arranged on the vertical plate in a sliding manner can store yarns during yarn changing in the process of winding the yarns, so that uninterrupted continuous feeding is realized, time waste caused by shutdown yarn changing is avoided, and the production rate is improved.

Drawings

Fig. 1 is a schematic perspective view of a yarn winding mechanism according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of a backside structure of a yarn winding mechanism according to an embodiment of the present invention.

Fig. 3 is an enlarged schematic view of a structure of a mark a in fig. 1 in a yarn winding mechanism according to an embodiment of the present invention.

Fig. 4 is a schematic front view of a yarn winding mechanism according to an embodiment of the present invention.

Fig. 5 is a schematic side view of a yarn winding mechanism according to an embodiment of the present invention.

Reference numerals: 1-base plate assembly, 101-main base plate, 102-vertical plate, 103-guide groove, 104-feeding wheel, 105-discharging wheel, 106-winding displacement machine head, 2-storage wheel set, 201-sliding piece, 202-winding wheel, 203-rolling wheel, 204-elastic piece, 3-driving mechanism, 301-driving cam, 302-convex surface, 303-concave surface, 304-driving shaft, 305-driving machine, 4-winding disc mechanism, 401-winding disc wheel, 402-winding groove, 403-winding frame, 5-adjusting assembly, 501-first connecting rod, 502-second connecting rod, 503-magnetic piece and 504-electromagnetic driver.

Detailed Description

To more clearly illustrate the structural features and effects of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1-5, the yarn winding mechanism in an embodiment of the present invention includes a base plate assembly 1, where the base plate assembly 1 includes a main base plate 101, a vertical plate 102 and a guide groove 103, the vertical plate 102 is fixedly assembled on the main base plate 101, more than one guide groove 103 is circumferentially arranged on the vertical plate 102, and the guide grooves 103 all point to the same circle center; the yarn storage wheel set 2 comprises sliders 201, reels 202 and rollers 203, the sliders 201 are slidably assembled in the guide grooves 103, more than one sliders 201 are arranged on one side of the vertical plate 102 in a U shape, the reels 202 are movably assembled at one ends of the sliders 201, yarns to be wound are arranged in the reels 202 arranged in the U shape in a penetrating mode, the rollers 203 are arranged on one side of the reels 202, and the rollers 203 are all arranged towards the same circle center side; the driving mechanism 3 comprises a driving cam 301 and a driving shaft 304, the driving cam 301 is rotatably arranged on one side of the vertical plate 102, movably abutted against the roller 203 and used for driving the sliding piece 201 to move through rotation, one end of the driving shaft 304 is fixedly connected with the driving cam 301, and the other end of the driving shaft 304 is rotatably assembled in the vertical plate 102; the wire coil mechanism 4 comprises a wire coil wheel 401, wire passing grooves 402 and a wire winding frame 403, the wire coil wheel 401 is slidably sleeved on the driving shaft 304 and is elastically connected with the vertical plate 102, more than one wire passing groove 402 is circumferentially distributed on the wire coil wheel 401, and the wire winding frame 403 is assembled on one side of each wire passing groove 402; and the adjusting assembly 5 is arranged between the coil wheel 401 and the vertical plate 102 and is used for movably connecting the coil wheel 401 and the driving shaft 304 so as to enable the coil wheel 401 to rotate along with the driving shaft 304.

In practical application, when the yarn is wound by the yarn winding mechanism, the yarn to be wound is firstly input into the plurality of reels 202 through one side of the vertical plate 102, the yarn is inserted into the plurality of reels 202 in a U-shaped track and tensioned in the plurality of reels 202, the tail end of the yarn is sent into the winding wheel 401 at the other end through the traverse head 106 at one side of the vertical plate 102 and is conveyed into the winding frame 403 at one side of the winding wheel 401 for winding, when the winding of the yarn in the winding frame 403 at the side is completed, the traverse head 106 cuts off the yarn and clamps the yarn head of the yarn, the driving shaft 304 is driven to rotate under the driving force and drives the driving cam 301 to rotate synchronously, the driving cam 301 is in rolling contact with the roller 203 during the rotation and can drive the sliding piece 201 to directionally slide in the guide groove 103, and the yarn at one side of the traverse head 106 is in a clamping state, when the sliding members 201 synchronously slide along the guide grooves 103, the spacing between the reels 202 is continuously enlarged, so that the yarn continuously input to the reels 202 is continuously tensioned on the reels 202 to form a space for storing the yarn, and at the same time, the driving shaft 304 can drive the reel wheel 401 to rotate directionally, so that the bobbins 403 on the reel wheel 401 rotate circumferentially, the bobbins 403 on which the yarn is wound are rotated to the other material taking process side, the bobbins 403 to be wound are rotated again to the traverse head 106 side for winding, and after the bobbins 403 on the side start winding, the driving cam 301 starts to slide reversely and gradually contract after continuously rotating, the rollers 203 movably abutted against the driving cam 301, and at this time, the yarn stored between the reels 202 can be output to the bobbins 403 through the traverse head 106 side, and finally reset to the initial position, thereby realizing the yarn changing structure of yarn uninterrupted feeding, having the function of automatic yarn storage, saving the trouble of yarn halt and yarn changing, and improving the winding efficiency.

Referring to fig. 4, in a preferred embodiment of the invention, the substrate assembly 1 further includes: the feeding wheel 104 is assembled on one side of the vertical plate 102, is arranged close to one side of the plurality of reels 202, and is used for inputting yarns to be wound into the plurality of reels 202; the discharging wheel 105 is assembled on one side of the vertical plate 102, is arranged close to one side of the plurality of winding wheels 202, and is used for outputting yarns to be wound from the plurality of winding wheels 202; and the winding displacement machine head 106 is fixedly arranged on one side of the vertical plate 102, and is used for outputting the yarn to be wound to one side of the wire coil wheel 401.

In practical application of the present embodiment, the feeding wheel 104 and the discharging wheel 105 are disposed on two sides of the plurality of reels 202 for stably conveying yarns and preventing the yarns from falling off, and the traverse head 106 is a device commonly used in a yarn winding mechanism, and will not be described herein in detail.

Referring to fig. 3, in a preferred embodiment of the present invention, the cord storage wheel set 2 further includes an elastic member 204, and the elastic member 204 is movably mounted between the sliding member 201 and the guide slot 103 for driving the sliding member 201 to elastically return.

In practical applications, when the driving cam 301 is in rolling contact with the roller 203 during rotation, the sliding member 201 moves against the elastic force of the elastic member 204 to directionally slide in the guide slot 103, and when the driving cam 301 continuously rotates and the force applied to the sliding member 201 is reduced, the elastic member 204 can reversely push the roller 203 to press against the driving cam 301, so that the sliding members 201 synchronously move.

Referring to fig. 3 and 4, in a preferred embodiment of the present invention, the driving mechanism 3 further includes a convex surface 302, a concave surface 303, and a driving machine 305, the convex surface 302 and the concave surface 303 are circumferentially disposed on the driving cam 301, the convex surface 302 and the concave surface 303 are disposed at intervals, and the driving machine 305 is assembled and connected with the driving shaft 304 for driving the driving shaft 304 to rotate.

In practical application, when the convex surfaces 302 on one side of the driving cam 301 rotate towards the rollers 203, the sliding member 201 can be pushed linearly to slide in the guide groove 103, so that the distance between the reels 202 is increased continuously, and the yarn which can be stored is increased continuously, when the concave surface 303 of the driving cam 301 rotates to one side of the roller 203, the sliding member 201 continuously slides in the reverse direction, so that the reels 202 are contracted continuously, and at the moment, the traverse head 106 starts to output the yarn to one side of the winding mechanism 4 continuously, so that the yarn is still tensioned on the reels 202, and the yarn stored on the reels 202 is output to the traverse head 106.

Referring to fig. 2, in a preferred embodiment of the invention, the thread guiding slot 402 is disposed to match with the traverse head 106, so that the yarn output from the traverse head 106 is input to the bobbin 403 through the thread winding wheel 401.

In practical application of this embodiment, during the fixed-axis rotation process of the plurality of wire passing grooves 402 and the winding frame 403, the wire passing grooves 402 are arranged in a matching manner with the traverse head 106, so that the winding frame 403 rotated to one side of the traverse head 106 can rapidly wind the yarn output from one side of the traverse head 106.

Referring to fig. 5, in a preferred embodiment of the invention, the adjusting assembly 5 includes: the first connecting rod 501 is rotatably connected with the wire coil wheel 401; a second connecting rod 502, one end of which is rotatably connected to the first connecting rod 501, and the other end of which is rotatably sleeved on the driving shaft 304; a magnetic member 503 rotatably connecting the first connecting rod 501 and the second connecting rod 502; the adjusting assembly 5 further includes an electromagnetic driver 504, and the electromagnetic driver 504 is fixedly disposed on one side of the vertical plate 102 and is disposed near one side of the magnetic member 503.

In practical application, when the yarn wheel wound on one side of the winding frame 403 needs to be switched in rotation, the drive shaft 304 is preferentially rotated, and at this time the traverse head 106 cuts the yarn between the side bobbins 403, and at this time, the electromagnetic actuator 504 on the side of the magnetic member 503 is activated, the magnetic member 503 moves toward the side away from the electromagnetic actuator 504 under the magnetic force, so that the reel wheel 401 is pressed toward the distal end side of the driving shaft 304 by the first connecting rod 501 and the second connecting rod 502, so that the reel wheel 401 is jammed with the driving shaft 304 and then rotates with the driving shaft 304, and when the next set of driving shafts 304 rotates to the traverse head 106 side, the electromagnetic driver 504 is turned off and the reel wheel 401 is returned to the initial position by the elastic force and winding of the next set of yarns is performed by the traverse head 106.

In one aspect of the present embodiment, the electromagnetic driver 504 is configured to control the connection between the reel wheel 401 and the driving shaft 304, so as to adjust the rotation angle of the reel wheel 401, and to move the driving cam 301 and the reel wheel 401 synchronously.

The yarn winding mechanism provided by the embodiment of the invention is characterized in that the plurality of reels 202 arranged on the vertical plate 102 in a sliding manner can store yarn during yarn changing in the process of winding the yarn, so that uninterrupted continuous feeding is realized, time waste caused by stopping and yarn changing is avoided, and the production rate is improved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. A yarn winding mechanism, comprising:

the base plate assembly comprises a main base plate, a vertical plate and guide grooves, wherein the vertical plate is fixedly assembled on the main base plate, more than one guide groove is circumferentially distributed on the vertical plate, and the guide grooves point to the same circle center;

the yarn storage wheel set comprises sliding parts, reels, idler wheels and elastic parts, the sliding parts are assembled in the guide grooves in a sliding mode, more than one sliding parts are arranged on one side of the vertical plate in a U-shaped mode, the reels are movably assembled at one end of each sliding part, yarns to be wound penetrate through the reels arranged in the U-shaped mode, the idler wheels are arranged on one sides of the reels, the idler wheels face the same circle center side, and the elastic parts are movably assembled between the sliding parts and the guide grooves and used for driving the sliding parts to elastically reset;

the wire coil mechanism comprises a wire coil wheel, wire passing grooves and a wire winding frame, the wire coil wheel is sleeved on the driving shaft in a sliding mode and is elastically connected with the vertical plate, more than one wire passing groove is circumferentially distributed on the wire coil wheel, and the wire winding frame is assembled on one side of each wire passing groove; the adjusting assembly is arranged between the wire coil wheel and the vertical plate and is used for movably connecting the wire coil wheel and the driving shaft so as to enable the wire coil wheel to rotate along with the driving shaft;

the base plate assembly further comprises a wire arranging machine head, the wire arranging machine head is used for cutting off yarns and clamping thread ends of the yarns, and the wire arranging machine head is fixedly arranged on one side of the vertical plate and used for outputting the yarns to be wound to one side of the wire coil wheel.

2. The yarn winding mechanism of claim 1, wherein the base plate assembly further comprises:

the feeding wheel is assembled on one side of the vertical plate, is arranged close to one side of the winding wheel and is used for inputting yarns to be wound into the winding wheel; and the discharging wheel is assembled on one side of the vertical plate, is arranged close to one side of the winding wheel and is used for outputting the yarn to be wound from the winding wheel.

3. The yarn winding mechanism of claim 1, wherein the driving mechanism further comprises a convex surface, a concave surface and a driving mechanism, the convex surface and the concave surface are circumferentially arranged on the driving cam and are spaced apart from each other, and the driving mechanism is assembled with the driving shaft and is used for driving the driving shaft to rotate.

4. The yarn winding mechanism of claim 1, wherein the yarn guide slot is matched with the traverse head so that the yarn output from the traverse head is input to the bobbin through the yarn winding wheel.

5. A yarn winding mechanism according to claim 1, wherein the adjustment assembly comprises:

the first connecting rod is rotatably connected with the wire coil wheel;

6. The yarn winding mechanism of claim 5, wherein the adjustment assembly further comprises an electromagnetic driver, and the electromagnetic driver is fixedly arranged on one side of the vertical plate and is arranged close to one side of the magnetic member.