CN211812795U - Uniform yarn winding equipment for braid production - Google Patents

Abstract

The utility model relates to an even rolling equipment of yarn is used in meshbelt production. The winding device comprises a base, wherein two groups of oppositely arranged supporting side plates are fixedly connected to the base, a winding shaft device is detachably connected between the two groups of supporting side plates, and a pinion is connected to one end key of the winding shaft device; a transversely arranged winding motor is fixedly connected to the supporting side plate, and a large gear meshed with the small gear is connected to an output shaft of the winding motor in a key manner; a traverse motion seat is arranged at the upstream of the winding shaft device, a yarn limiting piece capable of penetrating yarns is fixedly connected to the top surface of the traverse motion seat through a connecting rod, and a reciprocating traverse motion device for driving the traverse motion seat to transversely reciprocate is arranged below the traverse motion seat; the moving direction of the transverse moving seat is consistent with the axial direction of the winding shaft device. The utility model discloses can avoid the yarn to pile up excessively in the part on the periphery wall of a rolling section of thick bamboo, avoid appearing arranging inhomogeneous phenomenon, improve the quality that the yarn was rolled up, make things convenient for subsequent meshbelt production process, improve the quality of product.

Description

Uniform yarn winding equipment for braid production

Technical Field

The utility model belongs to the technical field of the weaving processing equipment, especially, relate to an even rolling equipment of yarn is used in meshbelt production.

Background

The yarn is a textile, is processed into products with certain fineness by various textile fibers, is used for weaving, rope making, thread making, knitting, embroidery and the like, and is divided into staple fiber yarn, continuous filament yarn and the like. In which the yarn is made by spinning the fiber into a particularly thin thread, which is a raw material for weaving, and the thread is produced by combining the aforementioned particularly thin thread, i.e., a plurality of strands of filaments twisted together. After being manufactured, the yarns need to be wound by using a winding roller, and the outgoing yarns are standard units of coils.

Before the yarns are used for producing woven belts, purchased yarn coils are often required to be rewound, that is, the yarns of the standard coils are divided into a plurality of groups of small-coil yarn coils, so that the production requirement is met. The yarn winding device is an indispensable device in the yarn rewinding process.

However, when the existing winding device is used, the general position of the yarn feeding mechanism is fixed, the yarn cannot be driven to move along the axis direction of the winding shaft, the yarn is easy to be partially stacked too much along with the rotation of the winding shaft, the phenomenon of uneven arrangement occurs, certain trouble is caused to subsequent processing, and the quality of a product is seriously influenced.

SUMMERY OF THE UTILITY MODEL

The utility model provides an even yarn winding equipment for producing meshbelt with the yarn arranged for solving the technical problem existing in the known technology.

The utility model discloses a solve the technical scheme that technical problem that exists among the well-known technique took and be: a yarn uniform winding device for producing a mesh belt comprises a base, wherein two groups of supporting side plates which are oppositely arranged are fixedly connected to the base, a winding shaft device is detachably connected between the two groups of supporting side plates, and a pinion is connected to one end key of the winding shaft device; a transversely arranged winding motor is fixedly connected to the supporting side plate, and a large gear meshed with the small gear is connected to an output shaft of the winding motor in a key manner; a traverse motion seat is arranged at the upstream of the winding shaft device, a yarn limiting piece capable of penetrating yarns is fixedly connected to the top surface of the traverse motion seat through a connecting rod, and a reciprocating traverse motion device for driving the traverse motion seat to transversely reciprocate is arranged below the traverse motion seat; the moving direction of the transverse moving seat is consistent with the axial direction of the winding shaft device.

The utility model has the advantages that: the utility model provides a yarn uniform winding device for producing a mesh belt, which can load a winding drum by arranging a winding shaft device, and is convenient for winding yarns on the winding drum so as to wind the yarns; the winding shaft device in the utility model is detachably connected with the supporting side plate, thereby facilitating the loading and the disassembly of the winding shaft device; the winding shaft device can be driven to rotate by arranging a large gear and a small gear which are meshed with each other and a winding motor, so that the yarn is wound on the outer peripheral wall of the winding drum; the yarn limiting part is arranged to limit the yarn, the traversing seat and the reciprocating traversing device are arranged to drive the yarn limiting part to transversely reciprocate along the axis of the winding shaft device, so that the yarn is prevented from being locally accumulated on the peripheral wall of the winding drum too much, the phenomenon of uneven arrangement is avoided, the quality of a yarn coil is improved, the subsequent production process of a woven belt is facilitated, and the product quality is improved.

Preferably: the reciprocating transverse moving device comprises a guide rail mounting plate which is transversely arranged, a transverse moving guide rail which extends along the axial direction of the winding shaft device is fixedly connected to the guide rail mounting plate, and a transverse moving seat is connected with the transverse moving guide rail in a sliding mode through a sliding block; a lead screw parallel to the transverse moving guide rail is rotatably connected to the guide rail mounting plate, a screw nut is screwed on the lead screw, and the screw nut is connected with the transverse moving seat; the lead screw motor is used for driving the lead screw to rotate.

Preferably: the winding shaft device comprises a winding shaft body, a strip-shaped groove extending along the axial direction of the winding shaft body is formed in the outer peripheral wall of the winding shaft body, a plurality of groups of top block accommodating grooves extending along the radial direction of the winding shaft body are formed in the bottom surface of the strip-shaped groove, and the plurality of groups of top block accommodating grooves are uniformly distributed along the axial direction of the winding shaft body; a plurality of groups of top block limiting plates are connected to the strip-shaped grooves, and the top block limiting plates and the top block accommodating grooves are arranged in a one-to-one correspondence manner; a clamping top block with a T-shaped section is arranged in the top block accommodating groove, and the outer end part of the clamping top block penetrates through a notch formed in the top block limiting plate and is in clearance fit with the top block limiting plate; and a compression spring is arranged in the top block accommodating groove, and two end parts of the compression spring are respectively tightly propped against the clamping top block and the bottom of the top block accommodating groove.

Preferably: the yarn locating parts are provided with a plurality of groups, and the number of the yarn locating parts is consistent with that of the top block accommodating grooves.

Preferably: the bar groove is provided with two sets ofly at least, and the multiunit bar groove is according to the equal angular distribution of circumference of rolling axle body.

Preferably: shaft accommodating grooves for accommodating the winding shaft devices are formed in the two groups of supporting side plates respectively, and the two groups of shaft accommodating grooves are correspondingly arranged; and the supporting side plate is connected with a locking device which is arranged corresponding to the shaft accommodating groove and is used for locking and releasing the winding shaft device.

Preferably: the locking device comprises two groups of pin shafts which are fixedly connected to the supporting side plate and are respectively arranged on two sides of the shaft accommodating groove, a pressing shaft swing arm positioned above the winding shaft device is hinged to one group of pin shafts, and a screw rod mounting sleeve is rotatably connected to the other group of pin shafts; a locking screw rod extending along the radial direction of the screw rod mounting sleeve is fixedly connected to the outer peripheral wall of the screw rod mounting sleeve, a locking knob is screwed on the locking screw rod, and an open slot capable of accommodating the locking screw rod is formed in the far hinged end of the pressure shaft swing arm; and contact bearings are rotatably connected on the supporting side plates and the pressing shaft swing arms and are in rolling contact with the winding shaft device.

Drawings

Fig. 1 is a schematic front view of the present invention;

fig. 2 is an explosion structure diagram of the winding shaft device in the present invention;

FIG. 3 is an enlarged schematic view of region A in FIG. 2;

FIG. 4 is an enlarged schematic view of the region B in FIG. 2;

fig. 5 is a schematic perspective view of the locking device of the present invention;

fig. 6 is a schematic perspective view of another angle of the locking device of the present invention;

FIG. 7 is a schematic perspective view of the reciprocating traversing apparatus of the present invention;

fig. 8 is a sectional view of a three-dimensional structure of the take-up drum according to the present invention.

In the figure: 1. a base; 2. supporting the side plates; 2-1, an axle accommodating groove; 3. a bull gear; 4. a winding motor; 5. a pinion gear; 6. a locking device; 6-1, contact bearing; 6-2, pressing a shaft swing arm; 6-3, locking a knob; 6-4, locking the screw rod; 6-5, installing a sleeve by a screw; 7. a wind-up shaft device; 7-1, winding the shaft body; 7-1-1, strip-shaped grooves; 7-1-2, a top block accommodating groove; 7-2, a compression spring; 7-3, clamping a top block; 7-4, a top block limiting plate; 8. a reciprocating traversing device; 8-1, installing a guide rail; 8-2, a screw motor; 8-3, a screw rod; 8-4, transversely moving the guide rail; 8-5, a screw; 9. a yarn limiter; 10. a traversing seat; 11. winding the roll; 11-1 and a clamping notch.

Detailed Description

In order to further understand the contents, features and effects of the present invention, the following embodiments are described in detail:

referring to fig. 1, the yarn uniform winding device for producing woven belts of the present invention comprises a base 1, two sets of supporting side plates 2 disposed oppositely are fixedly connected to the base 1, and a winding shaft device 7 is detachably connected between the two sets of supporting side plates 2, that is, shaft accommodating grooves 2-1 for accommodating the winding shaft device 7 are respectively formed on the two sets of supporting side plates 2, and the two sets of shaft accommodating grooves 2-1 are correspondingly disposed; a locking device 6 which is arranged corresponding to the shaft containing groove 2-1 and is used for locking and releasing the winding shaft device 7 is connected on the supporting side plate 2. A small gear 5 is connected with one end key of the winding shaft device 7, a winding motor 4 which is transversely arranged is fixedly connected on the supporting side plate 2, and a large gear 3 which is meshed with the small gear 5 is connected with an output shaft of the winding motor 4 in a key mode.

The upper reaches of the winding shaft device 7 are provided with a traverse seat 10, the top surface of the traverse seat 10 is fixedly connected with a yarn limiting part 9 which can penetrate through yarns through a connecting rod, in the embodiment, the yarn limiting part 9 is in a cylinder shape with two open ends, in order to reduce the friction between the yarns and the yarn limiting part 9, a sleeve made of ceramic materials can be sleeved at the hollow part of the yarn limiting part 9, and the yarns penetrate through the sleeve during operation. A reciprocating traversing device 8 for driving the traversing seat 10 to transversely reciprocate is arranged below the traversing seat 10; the moving direction of the traverse seat 10 is consistent with the axial direction of the winding shaft device 7.

The utility model discloses use with 11 cooperations of a winding reel as shown in fig. 8, be about to 11 covers of winding reel and establish on rolling axle device 7, the yarn winding is gone up and is accomplished the rewinding of yarn to the periphery wall of a winding reel 11. The winding shaft device 7 in the embodiment is detachably connected with the supporting side plate 2, so that the winding shaft device 7 is convenient to load and dismount; the axial position of the winding shaft device 7 can be locked by arranging the locking device 6, and the winding shaft device 7 can be driven to rotate by arranging the large gear 3, the small gear 5 and the winding motor 4 which are meshed with each other, so that the yarn is wound on the peripheral wall of the winding drum 11; the yarn can be limited by arranging the yarn limiting part 9, and the traversing seat 10 and the reciprocating traversing device 8 can drive the yarn limiting part 9 to transversely reciprocate along the axis of the winding shaft device 7, so that the phenomenon that the yarn is locally stacked on the peripheral wall of the winding drum 11 too much and is unevenly arranged is avoided.

As shown in fig. 5 and 6, the locking device 6 in this embodiment includes two sets of pins fixedly connected to the supporting side plate 2, the two sets of pins are respectively disposed at two sides of the shaft accommodating groove 2-1, a pressing shaft swing arm 6-2 located above the winding shaft device 7 is hinged to one set of pins, and a screw rod mounting sleeve 6-5 is rotatably connected to the other set of pins. The outer peripheral wall of the screw mounting sleeve 6-5 is fixedly connected with a locking screw 6-4 extending along the radial direction of the screw mounting sleeve 6-5, a locking knob 6-3 is screwed on the locking screw 6-4, and an open slot capable of accommodating the locking screw 6-4 is formed at the far hinged end of the pressure shaft swing arm 6-2. The supporting side plate 2 and the pressing shaft swinging arm 6-2 are both rotatably connected with a contact bearing 6-1, and the contact bearing 6-1 is in rolling contact with a winding shaft device 7.

At least two groups of contact bearings 6-1 are connected to the supporting side plate 2, and the two groups of contact bearings 6-1 are positioned at the lower part of the winding shaft device 7 and used for supporting the winding shaft device 7; through the two groups of contact bearings 6-1, friction between the winding shaft device 7 and the supporting side plate 2 can be avoided, so that the winding shaft device 7 can rotate under the driving action of the winding motor 4. The rolling shaft device 7 and the pressing shaft swing arm 6-2 can be prevented from being rubbed by rotatably connecting the contact bearing 6-1 on the pressing shaft swing arm 6-2.

The locking device 6 is arranged to facilitate the loading and the dismounting of the winding shaft device 7, when the winding shaft device 7 needs to be loaded, the pressing shaft swing arm 6-2 needs to be pulled upwards, two end parts of the winding shaft device 7 are placed in the shaft accommodating groove 2-1, so that the outer peripheral wall of the winding shaft device 7 is contacted with the contact bearing 6-1 connected to the supporting side plate 2, and then the pressing shaft swing arm 6-2 is pulled downwards until the contact bearing 6-1 on the pressing shaft swing arm 6-2 is contacted with the outer peripheral wall of the winding shaft device 7; and finally, rotating the screw mounting sleeve 6-5 to enable the locking screw 6-4 to penetrate through an open slot formed in the end part of the pressing shaft swing arm 6-2, screwing the locking knob 6-3 to lock the pressing shaft swing arm 6-2, and locking the axial position of the winding shaft device 7 at the moment. When the winding shaft device 7 needs to be unloaded, the locking knob 6-3 is firstly unscrewed, the locking screw 6-4 is pulled to be separated from the pressing shaft swing arm 6-2, then the pressing shaft swing arm 6-2 is pulled upwards, and the winding shaft device 7 is taken down.

With further reference to fig. 2 to 4, in this embodiment, the winding shaft device 7 includes a winding shaft body 7-1, the outer peripheral wall of the winding shaft body 7-1 is provided with strip-shaped grooves 7-1-1 extending along the axial direction thereof, at least two groups of the strip-shaped grooves 7-1-1 are provided, in this embodiment, three groups of the strip-shaped grooves 7-1-1 are provided, and the plurality of groups of the strip-shaped grooves 7-1-1 are equiangularly distributed in the circumferential direction of the winding shaft body 7-1. The clamping connection between the winding drum 11 and the winding shaft body 7-1 is firmer through the arrangement.

The bottom surface of the strip-shaped groove 7-1-1 is provided with a plurality of groups of top block accommodating grooves 7-1-2 extending along the radial direction of the winding shaft body 7-1, the plurality of groups of top block accommodating grooves 7-1-2 are uniformly distributed along the axial direction of the winding shaft body 7-1, and four groups of top block accommodating grooves 7-1-2 are arranged in the embodiment. The strip-shaped groove 7-1-1 is connected with a plurality of groups of top block limiting plates 7-4, the top block limiting plates 7-4 and the top block accommodating grooves 7-1-2 are arranged in a one-to-one correspondence mode, namely the top block limiting plates 7-4 shield the top block accommodating grooves 7-1-2.

A clamping top block 7-3 with a T-shaped section is arranged in the top block accommodating groove 7-1-2, and the outer end part of the clamping top block 7-3 penetrates through a notch formed in the top block limiting plate 7-4 and is in clearance fit with the top block limiting plate 7-4. In actual work, the shoulder of the wing plate extending outwards of the clamping top block 7-3 can be tightly propped against the bottom surface of the top block limiting plate 7-4, and the top block limiting plate 7-4 can limit the clamping top block 7-3. In order to facilitate the installation of the winding drum 11, chamfers are arranged at two ends of the top of the clamping top block 7-3. A compression spring 7-2 is arranged in the top block accommodating groove 7-1-2, and two end parts of the compression spring 7-2 are respectively tightly propped against the clamping top block 7-3 and the bottom of the top block accommodating groove 7-1-2.

In order to limit the compression spring 7-2, blind holes corresponding in position are formed in the opposite surfaces of the clamping top block 7-3 and the top block accommodating groove 7-1-2, and two end portions of the compression spring 7-2 are arranged in the two corresponding blind holes respectively. Under the condition of no external force, under the action of the elastic force of the compression spring 7-2, the outer end part of the clamping ejector block 7-3 extends out of the outer side of the outer peripheral wall of the winding shaft body 7-1, and at the moment, the shoulder part of the clamping ejector block 7-3 is tightly propped against the bottom surface of the ejector block limiting plate 7-4; when the clamping top block 7-3 is pressed, the clamping top block 7-3 retracts into the top block accommodating groove 7-1-2 under the action of external force, and the outer end portion retracts to the inner side of the outer peripheral wall of the winding shaft body 7-1.

In order to match with the winding shaft device 7, as shown in fig. 8, three sets of clamping notches 11-1 are formed in the outer peripheral wall of the winding drum 11, and the three sets of clamping notches 11-1 are distributed at equal angles in the circumferential direction. Meanwhile, the yarn limiting members 9 in this embodiment are provided with a plurality of sets, and the number of the yarn limiting members 9 is the same as the number of the top block accommodating grooves 7-1-2, that is, the yarn limiting members 9 are provided with four sets. Make this embodiment can have four group rolling stations through above-mentioned setting, improved the work efficiency of rolling equipment.

In the actual working process, the loading and dismounting processes of the winding drum 11 are simple and convenient, firstly, the winding drum 11 is sleeved on the winding shaft body 7-1 and is pushed to move along the axial direction of the winding shaft body 7-1; after the winding drum 11 is pushed to a proper station, the winding drum 11 is manually rotated until a circle of clamping top blocks 7-3 on the winding shaft body 7-1 are clamped in the clamping notches 11-1. The above operations are repeated to complete the loading of the remaining winding cylinders 11 in sequence. After the winding is finished, the winding drum 11 is detached from the edge of the winding shaft body 7-1, the detaching process is simple and convenient, and the winding drum 11 wound with the yarns can be pulled out only by pressing the clamping jacking block 7-3 and pulling the winding drum 11.

As shown in fig. 7, in the present embodiment, the reciprocating traversing device 8 includes a transversely disposed guide rail mounting plate 8-1, a traversing guide rail 8-4 extending along the axial direction of the winding shaft device 7 is fixedly connected to the guide rail mounting plate 8-1, and the traversing seat 10 is slidably connected to the traversing guide rail 8-4 through a slider; a screw 8-3 arranged in parallel with the transverse moving guide rail 8-4 is rotatably connected on the guide rail mounting plate 8-1, a screw 8-5 is screwed on the screw 8-3, and the screw 8-5 is connected with a transverse moving seat 10; the screw rod motor 8-2 is used for driving the screw rod 8-3 to rotate.

In the embodiment, a lead screw motor 8-2 drives a lead screw 8-3 to rotate, and a screw nut 8-5 screwed on the lead screw 8-3 can move transversely along with the rotation of the lead screw 8-3, so as to drive a transverse moving seat 10 and a yarn limiting piece 9 to move transversely; the stability of the lateral movement of the traverse seat 10 can be improved by providing the traverse guide 8-4. In this embodiment, the lead screw motor 8-2 can drive the lead screw 8-3 to rotate clockwise and counterclockwise, the lead screw 8-3 can drive the plurality of sets of yarn position limiting members 9 to move synchronously in one direction when rotating clockwise, and the lead screw 8-3 can drive the plurality of sets of yarn position limiting members 9 to move synchronously in the direction opposite to the above direction when rotating counterclockwise. The movement path of the thread stop 9 should not at the maximum cross the two ends of the take-up drum 11. Through the arrangement, the plurality of groups of yarn limiting parts 9 can synchronously reciprocate and transversely move, so that the yarns are driven to do reciprocating motion along the axial direction of the winding shaft body 7-1, the phenomenon that the yarns are locally stacked on the peripheral wall of the winding drum 11 too much and are arranged unevenly is avoided, and the winding quality of a yarn coil is improved.

The working process is as follows: the winding shaft device 7 is taken down (the loading and dismounting process of the winding shaft device 7 is as described above and is not described herein), the plurality of winding shafts 11 are sequentially mounted on the winding shaft device 7 (the loading and dismounting process of the winding shafts 11 is as described above and is not described herein), and then the winding shaft device 7 is mounted between the two sets of supporting side plates 2. The multi-group yarn winding device comprises a winding drum 11, a winding motor 4 and a lead screw motor 8-2, wherein the winding drum 11 is wound on the winding drum 11 in sequence after the multi-group yarn is pulled to sequentially penetrate through a multi-group yarn limiting part 9, the winding motor 4 drives a winding shaft device 7 to rotate so as to drive the winding drum 11 to rotate, the yarn is wound on the peripheral wall of the winding drum 11, the lead screw motor 8-2 drives a lead screw 8-3 to rotate clockwise and anticlockwise, and then the multi-group yarn is driven to reciprocate and move transversely along the axial direction of the winding shaft device 7, so that the yarn can be uniformly distributed on the peripheral wall of the winding drum 11 to avoid. After the winding is finished, the winding motor 4 and the lead screw motor 8-2 are braked, the winding shaft device 7 is unloaded, a plurality of winding drums 11 loaded on the winding shaft device are taken down, and the yarns wound on the winding drums 11 are conveniently utilized for subsequent woven belt weaving work.

Claims (7)

1. The utility model provides an even rolling equipment of yarn for meshbelt production, characterized by: the winding device comprises a base (1), wherein two groups of supporting side plates (2) which are oppositely arranged are fixedly connected to the base (1), a winding shaft device (7) is detachably connected between the two groups of supporting side plates (2), and a pinion (5) is connected to one end of the winding shaft device (7) in a key connection manner; a transversely arranged winding motor (4) is fixedly connected to the supporting side plate (2), and a large gear (3) meshed with the small gear (5) is connected to an output shaft of the winding motor (4) in a key manner; a traverse motion seat (10) is arranged at the upstream of the winding shaft device (7), a yarn limiting piece (9) capable of penetrating yarns is fixedly connected to the top surface of the traverse motion seat (10) through a connecting rod, and a reciprocating traverse motion device (8) for driving the traverse motion seat (10) to transversely reciprocate is arranged below the traverse motion seat (10); the moving direction of the transverse moving seat (10) is consistent with the axial direction of the winding shaft device (7).

2. The yarn uniform winding device for producing the mesh belt as claimed in claim 1, which is characterized in that: the reciprocating transverse moving device (8) comprises a guide rail mounting plate (8-1) which is transversely arranged, a transverse moving guide rail (8-4) which extends along the axial direction of the winding shaft device (7) is fixedly connected to the guide rail mounting plate (8-1), and a transverse moving seat (10) is connected with the transverse moving guide rail (8-4) in a sliding mode through a sliding block; a lead screw (8-3) which is parallel to the transverse moving guide rail (8-4) is rotatably connected on the guide rail mounting plate (8-1), a screw nut (8-5) is screwed on the lead screw (8-3), and the screw nut (8-5) is connected with a transverse moving seat (10); the screw rod motor (8-2) is used for driving the screw rod (8-3) to rotate.

3. The yarn uniform winding device for producing the mesh belt as claimed in claim 1, which is characterized in that: the winding shaft device (7) comprises a winding shaft body (7-1), a strip-shaped groove (7-1-1) extending along the axial direction of the winding shaft body is formed in the outer peripheral wall of the winding shaft body (7-1), a plurality of groups of top block accommodating grooves (7-1-2) extending along the radial direction of the winding shaft body (7-1) are formed in the bottom surface of the strip-shaped groove (7-1-1), and the plurality of groups of top block accommodating grooves (7-1-2) are uniformly distributed along the axial direction of the winding shaft body (7-1); a plurality of groups of top block limiting plates (7-4) are connected to the strip-shaped groove (7-1-1), and the top block limiting plates (7-4) are arranged in one-to-one correspondence with the top block accommodating grooves (7-1-2); a clamping top block (7-3) with a T-shaped section is arranged in the top block accommodating groove (7-1-2), and the outer end part of the clamping top block (7-3) penetrates through a notch formed in the top block limiting plate (7-4) and is in clearance fit with the top block limiting plate (7-4); a compression spring (7-2) is arranged in the top block accommodating groove (7-1-2), and two end parts of the compression spring (7-2) are respectively tightly propped against the clamping top block (7-3) and the bottom of the top block accommodating groove (7-1-2).

4. The yarn uniform winding device for producing the mesh belt as claimed in claim 3, which is characterized in that: the yarn limiting pieces (9) are provided with a plurality of groups, and the number of the yarn limiting pieces (9) is consistent with that of the top block accommodating grooves (7-1-2).

5. The yarn uniform winding device for producing the mesh belt as claimed in claim 4, which is characterized in that: at least two groups of strip-shaped grooves (7-1-1) are arranged, and a plurality of groups of strip-shaped grooves (7-1-1) are distributed at equal angles in the circumferential direction of the winding shaft body (7-1).

6. The yarn uniform winding device for producing the mesh belt as claimed in claim 1, which is characterized in that: shaft accommodating grooves (2-1) for accommodating the winding shaft devices (7) are formed in the two groups of supporting side plates (2), and the two groups of shaft accommodating grooves (2-1) are correspondingly arranged; the supporting side plate (2) is connected with a locking device (6) which is arranged corresponding to the shaft accommodating groove (2-1) and is used for locking and releasing the winding shaft device (7).

7. The yarn uniform winding device for producing the mesh belt as claimed in claim 6, which is characterized in that: the locking device (6) comprises two groups of pin shafts which are fixedly connected to the supporting side plate (2) and are respectively arranged at two sides of the shaft accommodating groove (2-1), a pressing shaft swinging arm (6-2) positioned above the winding shaft device (7) is hinged to one group of pin shafts, and a screw rod mounting sleeve (6-5) is rotatably connected to the other group of pin shafts; a locking screw (6-4) extending along the radial direction of the screw mounting sleeve (6-5) is fixedly connected to the outer peripheral wall of the screw mounting sleeve (6-5), a locking knob (6-3) is screwed on the locking screw (6-4), and an open slot capable of accommodating the locking screw (6-4) is formed in the far hinged end of the pressure shaft swing arm (6-2); the supporting side plate (2) and the pressing shaft swinging arm (6-2) are both rotatably connected with a contact bearing (6-1), and the contact bearing (6-1) is in rolling contact with the winding shaft device (7).

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