CN219031386U - Yarn winding device with antistatic function - Google Patents

Abstract

The utility model discloses a yarn winding device with an antistatic function, and relates to the technical field of yarn production. The utility model comprises a winding frame, winding rollers and a moving assembly, wherein the upper side of the winding frame is rotationally clamped with a top cover, one winding frame is slidably clamped with the upper side of the top cover of the other winding frame, one end of the inner side of the winding frame is penetrated and clamped with an ion rod, one side of the winding frame is provided with a winding motor, the inner side of the winding frame is slidably clamped with a plurality of winding rollers from left to right, one end of the peripheral surface of each winding roller is clamped with an elastic locating rod, the bottom end of one winding frame is provided with the moving assembly, and the bottom end of the moving assembly is rotationally clamped with a universal wheel. According to the winding device, the winding frame, the winding roller and the moving assembly are adopted, so that the problems that when the yarn winding device winds yarns, the winding roller is inconvenient to assemble and disassemble, a large number of winding rollers are required to be installed on the upper side of the winding frame after winding is completed, time and labor are wasted, and the yarns are possibly polluted are solved.

Description

Yarn winding device with antistatic function

Technical Field

The utility model belongs to the technical field of yarn production, and particularly relates to a yarn winding device with an antistatic function.

Background

The yarn is a textile, the yarn is divided into yarn and yarn, wherein the yarn is mainly divided into staple yarn, continuous filament, staple fiber and continuous filament combined yarn, the yarn is formed by combining and twisting two or more than two strands of single yarn, is used for various spinning limit processing into products with certain fineness, and is mainly used for weaving, producing yarn, embroidering, producing rope and the like, and in the production process of the yarn, the yarn is conveniently arranged and stored, a yarn winding device is generally used for controlling the rotation of a winding roller, and a large number of yarns are wound rapidly, so that the labor cost is reduced, the winding efficiency of a large number of yarns is greatly improved, and the following defects still exist in the actual use:

1. the utility model discloses a winding device for flame-retardant antistatic yarns, which is disclosed in the publication No. CN215557961U, wherein the limiting mechanism comprises a main body part positioned on a bearing mechanism and a limiting component arranged on the main body part, the other end of the winding roller is connected with the main body part in an assembling way, a limiting part for fixing the winding roller is arranged in the limiting component, the winding roller is usually arranged at the inner side of the winding device when the yarns are wound by the winding device, the winding roller is driven to rotate by a driving motor to wind the yarns, and after enough yarns are wound on the peripheral surface of one winding roller, a great amount of time is generally consumed for dismounting and replacing the winding roller, the time and the labor are wasted, and the winding efficiency is reduced;

2. the utility model with the publication number of CN216471488U discloses a high-performance yarn winding frame, one side of a winding frame main body is provided with an auxiliary plate, one side of the auxiliary plate is provided with a bracket, the lower part of the winding frame main body is provided with supporting legs, one side of the bracket is provided with a baffle, a fixing hole is formed in the winding frame main body, the upper part of the winding frame main body is provided with a yarn main body, the inside of the auxiliary plate is provided with a sliding groove, after the yarn winding is completed through a winding roller, the winding frame is usually required to collect and properly store a large amount of yarns, so that the follow-up use is convenient, but in actual use, yarn manufacturers usually need to produce a large amount of yarns at one time, the number of winding rollers containing a large amount of yarns is more, the dismounting of the winding rollers on the winding frame is inconvenient, and the yarn can be polluted in the dismounting process.

Disclosure of Invention

The utility model aims to provide a yarn winding device with an antistatic function, which solves the problems that the winding device is inconvenient to assemble and disassemble when winding yarns, a large number of winding rollers are required to be installed on the upper side of a winding frame after winding is completed, time and labor are wasted, and pollution to the yarns is likely to occur.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to a yarn winding device with an antistatic function, which comprises winding frames, winding rollers and a moving assembly, wherein the upper side of each winding frame is rotationally clamped with a top cover, one winding frame is slidably clamped on the upper side of the top cover of the other winding frame, when the yarns wound in one winding frame reach the maximum value of the yarns wound by the winding frame, a worker can slide and clamp the winding frame on the upper side of the other winding frame, the winding frames are convenient to collect and arrange, a plurality of winding frames can be overlapped, the space utilization rate is improved, one end of the inner side of each winding frame is penetrated and clamped with an ion rod, the yarns wound can be subjected to antistatic treatment through the ion rod, the winding process cannot be normally performed due to too much static electricity on the surface of the yarns, the winding efficiency is ensured, a winding motor is arranged on one side of each winding frame, after enough yarns are wound on the outer peripheral surface of one winding roller, a winding handle is pulled by drawing and the winding motor is moved, the connecting block is spliced at one end of the other winding roller, the winding motor and the winding roller can be connected with the winding frame in a sliding manner, the winding roller can be conveniently and quickly completed, the inner side of the winding motor is convenient to collect and the yarns can be wound on the inner side of the winding roller, the other winding roller, the winding roller can be prevented from being sequentially, the winding roller can be positioned at one end of the winding roller after the inner side of the winding roller, the winding roller is required to be repeatedly, the winding roller and the winding roller can be positioned at the other end, the winding roller can be repeatedly, the winding roller can be required to be repeatedly and the winding roller can be positioned at the winding roller and the winding roller, and has the winding roller and has the required to be repeatedly and the winding roller and can be fixed by the winding roller and winding motor. When needing to carry out the use of yarn, can unreel the yarn through the reverse rotation of wind-up roll that the winding motor drives, improve production efficiency, and before the rolling with unreel before all can prevent static processing to the yarn, further reduce the influence that static caused textile production, one the winding frame bottom is provided with the removal subassembly, the joint has the universal wheel that moves to rotate to the removal subassembly bottom, can drive a large amount of wind-up rolls and winding frame through universal wheel and removal subassembly and remove to suitable position and store and use, improves the convenience degree of use.

Further, a clamping groove is formed in one end of the bottom side of the winding frame, a first clamping block is fixedly welded to one end of the upper side of the top cover, and the first clamping block of one winding frame is slidably clamped inside the clamping groove of the other winding frame;

after a winding frame finishes winding a large amount of yarns, the top cover can be turned and closed, yarns in the winding frame are protected, the probability that the yarns are polluted is reduced, the winding frame can be connected to the upper side of the movable assembly or the upper side of the other winding frame in a sliding clamping mode, centralized storage and management are facilitated, and the utilization rate of space is improved.

Further, a second connecting sliding groove is formed in one side of the winding frame in a penetrating mode, a second dust cover is rotatably clamped on one side of the winding frame, the second dust cover is attached to the outer side of the second connecting sliding groove, a sliding block is slidably clamped on the inner side of the second connecting sliding groove, an inserting rod is inserted into one end of the sliding block in a penetrating mode, a permanent magnet is fixedly clamped at one end of the inserting rod, the permanent magnet is fixedly adsorbed on one side of the sliding block, and one end of the inserting rod is inserted into the inner side of the winding frame in a penetrating mode;

can prevent dust to the winding frame inboard through first shield and second shield, avoid in accomodating the in-process to the yarn, the dust gets into the winding frame inboard and causes the pollution to the yarn, guarantees yarn quality.

Further, a second limiting chute is formed in one end of the inner side of the winding frame, a guide rod is slidably clamped at one end of the second limiting chute, and the guide rod is suspended on the upper side of the ion rod;

when the winding of yarn is carried out, the yarn can be subjected to antistatic treatment through the ion rod, so that the phenomenon that the winding and subsequent production cannot be carried out normally due to the fact that the surface of the yarn contains a large amount of ions is avoided.

Further, a first connecting chute is formed in one side of the winding frame in a penetrating mode, a first limiting chute is formed in one side of the winding frame, the first limiting chute and the first connecting chute are located on the other side of the winding frame relative to the inserting rod, a first dust cover is connected to one side of the winding frame in a rotating mode in a clamping mode, the first dust cover is attached to the outer side of the first connecting chute in a bonding mode, a transmission assembly is connected to one end of the winding motor in a clamping mode, a limiting block is fixedly welded to one end of the transmission assembly in a welding mode, the limiting block is located on the other side of the transmission assembly relative to the winding motor, the limiting block is connected to the inner side of the first limiting chute in a sliding mode, one end of the transmission assembly is connected with a rotating pipe in a transmission mode through the transmission assembly and the winding motor in a transmission mode, a telescopic groove is formed in one end of the rotating pipe in a sliding mode, a connecting block is connected to one end of the connecting block in a clamping mode, a reset spring is connected to the inner side of the telescopic groove in a clamping mode, a connecting rod is fixedly welded to one end of the connecting block, a pulling handle is fixedly connected to one end of the connecting rod in a welding mode, and one end of the pulling handle is fixedly connected to one side of the connecting rod in a connecting block in a connecting mode, and the inner side of the connecting block is connected to the inner side of the connecting block in a connecting mode.

When carrying out the installation of wind-up roll, slide a plurality of wind-up rolls along first connecting spout and peg graft the inserted bar in the slot inboard and can accomplish the connection between wind-up roll and the rolling frame, and pull pulling handle makes the connecting block peg graft in the spread groove inboard of keeping away from ion stick other end wind-up roll, make the wind-up motor drive the wind-up roll and rotate the yarn and wind, when need changing the wind-up roll, the staff only need pull pulling handle makes the connecting block break away from the spread groove of a wind-up roll, and slide drive assembly along first spacing spout until another wind-up roll one end, make the connecting block insert the spread groove inboard of another wind-up roll, easy operation is convenient, and after a plurality of wind-up rolls are accomplished the yarn rolling, need not take out a plurality of wind-up rolls, only need when using the yarn, drive the reverse rotation of wind-up roll through the wind-up motor, just can unreel the yarn, staff's intensity of labour is reduced, production efficiency is improved.

Further, a slot is formed in one end of the winding roller, the inserting rod is inserted into the inner side of the slot, a connecting pipe is fixedly welded at the other end of the winding roller, a connecting groove is formed in one end of the connecting pipe, the connecting pipe is slidably inserted into the inner side of the first connecting sliding groove, the connecting block is inserted into the inner side of the connecting groove, a positioning groove is formed in one end of the outer peripheral surface of the winding roller, the elastic positioning rod is clamped into the inner side of the positioning groove, and pull rings are fixedly welded at two ends of the outer peripheral surface of the elastic positioning rod;

when the yarn starts to be wound, one end of the yarn is wound on the outer peripheral surface of the winding roller, and the elastic positioning rod is clamped on the inner side of the positioning groove, so that one end of the yarn can be fixed, stability in the winding process is guaranteed, and accidental loosening is avoided.

Further, a second clamping block is fixedly welded on the upper side of the moving assembly, the second clamping block is slidably clamped on the inner side of a clamping groove of the winding frame, and a rotating handle is rotatably clamped at one end of the upper side of the moving assembly;

after the winding of a large amount of yarns is completed, a plurality of winding frames are stacked and connected to the upper side of the moving assembly in a sliding clamping mode, a large amount of yarns can be conveniently and rapidly driven to move and store through universal wheels, and the using convenience is improved.

The utility model has the following beneficial effects:

1. according to the winding device, the winding frame and the winding roller are arranged, so that the problems that when the yarn winding device winds yarns, the winding roller is usually arranged on the inner side of the winding device, the driving motor drives the winding roller to rotate so as to wind the yarns, a large amount of time is consumed to detach and replace the winding roller after enough yarns are wound on the peripheral surface of one winding roller, time and labor are wasted, winding efficiency is reduced are solved, when the winding roller needs to be replaced, a worker only needs to cut the yarns and fix one end of the yarns on the peripheral surface of the adjacent winding roller, and the winding handle is pulled to slide the transmission assembly along the first limiting sliding groove, so that the limiting block is spliced on one end of the adjacent winding roller, and the operation is simple and convenient.

2. According to the utility model, the winding frame, the winding rollers and the moving assembly are arranged, so that the problems that after the winding of yarns is finished through the winding rollers, a large amount of yarns are usually required to be collected and properly stored by using the winding frame, the yarns are convenient to use, a yarn manufacturer usually needs to produce a large amount of yarns at one time in actual use, the number of winding rollers containing a large amount of yarns is large, the winding rollers are inconvenient to assemble and disassemble on the winding frame, and the yarns are likely to pollute in the assembling and disassembling process are solved, a worker can simultaneously slidingly insert the large amount of winding rollers inside the winding frame at the beginning of winding, after the winding is finished, the winding rollers do not need to be moved, the winding frame can be closed by closing the top cover, the first dust cover and the second dust cover, the yarns are prevented from being polluted, and when the yarns are required to be used, the winding frame can be used for unwinding yarns by driving the winding rollers through reverse rotation of the winding motor, the winding frame can be slidably clamped on the upper side of the other winding frame or the upper side of the moving assembly after the yarns are wound in a sufficient amount in one winding frame, the space utilization is improved, and the yarns are convenient to move and store the yarns in a large amount through the moving assembly.

Drawings

FIG. 1 is a structural effect diagram of the present utility model;

FIG. 2 is a front view of the winding frame of the present utility model;

FIG. 3 is a rear view of the winding frame of the present utility model;

FIG. 4 is a block diagram of a winding frame of the present utility model;

FIG. 5 is a block diagram of a winding motor of the present utility model;

FIG. 6 is a block diagram of a wind-up roll of the present utility model;

fig. 7 is a block diagram of a mobile assembly of the present utility model.

Reference numerals:

1. a winding frame; 101. a top cover; 102. a winding motor; 103. an ion rod; 104. a first clamping block; 105. a clamping groove; 106. a first dust cap; 107. the first limiting chute; 108. a second dust cap; 109. the second connecting chute; 110. a slide block; 111. a rod; 112. a permanent magnet; 113. a guide rod; 114. the second limiting chute; 115. a first connecting chute; 116. a transmission assembly; 117. a limiting block; 118. a rotary tube; 119. a telescopic slot; 120. a connecting block; 121. a connecting rod; 122. pulling the handle; 123. a return spring; 2. a wind-up roll; 201. a connecting pipe; 202. a connecting groove; 203. a slot; 204. a positioning groove; 205. an elastic positioning rod; 206. a pull ring; 3. a moving assembly; 301. a second clamping block; 302. a universal wheel; 303. the handle is turned.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1-7, the utility model discloses a yarn winding device with antistatic function, which comprises winding frames 1, winding rollers 2 and a moving assembly 3, wherein the upper side of each winding frame 1 is rotatably clamped with a top cover 101, one winding frame 1 is slidably clamped with the upper side of the top cover 101 of the other winding frame 1, when the yarn is wound, when the yarn wound in one winding frame 1 reaches the maximum value that the winding frame 1 can wind the yarn, the yarn is broken and fixed in the other winding frame 1 for winding, the top cover 101 is rotationally closed to protect the yarn in the winding frame 1, the winding frame 1 is slidably clamped with the upper side of the moving assembly 3, after the winding of the other winding frame 1 is completed, the other winding frame 1 is slidably clamped with the upper side of the winding frame 1, one end of the inner side of the winding frame 1 is penetrated and clamped with an ion rod 103, the ion rod 103 can perform antistatic treatment on the yarn to be wound, a winding motor 102 is arranged on one side of the winding frame 1, after enough yarn is wound on the outer peripheral surface of one winding roller 2, a pulling handle 122 is pulled and the winding motor 102 is moved, so that the winding motor 102 slides along a first limiting chute 107, a connecting block 120 is inserted into one end of the other winding roller 2, the winding motor 102 drives the other winding roller 2 to rotate for winding the yarn, a plurality of winding rollers 2 are clamped on the inner side of the winding frame 1 from left to right, an elastic positioning rod 205 is clamped on one end of the outer peripheral surface of the winding roller 2, before winding starts, a plurality of winding rollers 2 are clamped in the winding frame 1 in a sliding manner, the elastic positioning rod 205 is taken out and wound on the outer peripheral surface of the winding roller 2, the elastic positioning rod 205 is clamped on the outer peripheral surface of the winding roller 2 for fixing the yarn, and when the winding roller 2 is replaced, subtract disconnected yarn and twine its one end in adjacent wind-up roll 2 outer peripheral face, the fixed elastic locating lever 205 of joint is fixed the yarn again, after the rolling is accomplished and when needing to use the yarn, drive wind-up roll 2's reverse rotation through wind-up motor 102 and unreel the yarn, and before the rolling with unreel the front can both prevent static processing through ion stick 103 to the yarn, a wind-up frame 1 bottom is provided with movable assembly 3, movable assembly 3 bottom rotation joint has universal wheel 302, after a large amount of yarn windings are accomplished, pulling rotates handle 303, make movable assembly 3 drive a large amount of wind-up rolls 2 and wind-up frame 1 through universal wheel 302 and remove, store and use a large amount of yarns to suitable position.

As shown in fig. 1-4, a clamping groove 105 is formed at one end of the bottom side of the winding frame 1, a first clamping block 104 is welded and fixed at one end of the upper side of the top cover 101, the first clamping block 104 of one winding frame 1 is slidably clamped inside the clamping groove 105 of the other winding frame 1, a second connecting chute 109 is penetratingly formed at one side of the winding frame 1, a second dust cover 108 is rotatably clamped at one side of the winding frame 1, the second dust cover 108 is attached to the outer side of the second connecting chute 109, a sliding block 110 is slidably clamped at the inner side of the second connecting chute 109, a plug rod 111 is penetratingly inserted at one end of the sliding block 110, a permanent magnet 112 is fixedly clamped at one end of the plug rod 111, the permanent magnet 112 is adsorbed and fixed at one side of the sliding block 110, one end of the plug rod 111 is inserted at the inner side of the winding frame 1, a second limiting chute 114 is formed at one end of the inner side of the winding frame 1, a guide rod 113 is slidably clamped at one end of the second limiting chute 114, and the guide rod 113 is suspended at the upper side of the ion rod 103;

when the winding of yarn is carried out, the guide rod 113 is pulled upwards along the second limiting sliding groove 114 and the yarn is inserted between the guide rod 113 and the ion rod 103 in a penetrating mode, the ion rod 103 can conduct anti-static treatment on the yarn during winding, after a large number of yarns are wound on one winding frame 1, the top cover 101 is turned to be closed, the winding motor 102 slides to one end along the first limiting sliding groove 107 and is turned to be closed to the first dust cover 106 and the second dust cover 108, the yarn in the winding frame 1 is protected, and the winding frame 1 is connected to the upper side of the moving assembly 3 or the other winding frame 1 in a sliding clamping mode through the clamping groove 105.

As shown in fig. 1, 3, 4 and 5, a first connecting chute 115 is penetratingly provided at one side of the winding frame 1, a first limiting chute 107 is provided at one side of the winding frame 1, the first limiting chute 107 and the first connecting chute 115 are located at the other side of the winding frame 1 opposite to the inserting rod 111, a first dust cover 106 is rotatably clamped at one side of the winding frame 1, the first dust cover 106 is attached to the outer side of the first connecting chute 115, a transmission component 116 is clamped at one end of the winding motor 102, a limiting block 117 is welded and fixed at one end of the transmission component 116, the limiting block 117 is located at the other side of the transmission component 116 opposite to the winding motor 102, the limiting block 117 is slidably clamped at the inner side of the first limiting chute 107, one end of the transmission component 116 is penetratingly clamped with a rotating tube 118, the rotating tube 118 is connected with the winding motor 102 through the transmission component 116, one end of the rotating tube 118 is provided with a telescopic slot 119, one end of the telescopic slot 119 is slidably clamped with a connecting block 120, one end of the connecting block 120 is clamped with a reset spring 123, the reset spring 123 is clamped at the inner side of the telescopic slot 119, one end of the connecting block 120 is welded and fixed with a connecting rod 121, the other end of the connecting rod 121 is penetratingly inserted at one end of the connecting rod 118 is fixedly connected to one end of the connecting rod 121, the other end of the connecting rod is welded and attached to the pulling handle 122 is fixed at the inner side of the pulling handle 122, 122 is attached to the inner side of the connecting rod 120;

when the winding roller 2 is installed, the inserting rod 111 is pulled out and slides a plurality of winding rollers 2 along the first connecting sliding groove 115, the inserting rod 111 is inserted into the inner side of the slot 203, the permanent magnet 112 is adsorbed and fixed at one end of the sliding block 110, connection between the winding roller 2 and the winding frame 1 is completed, the connecting block 120 is inserted into the inner side of the connecting groove 202 of the winding roller 2 far away from the other end of the ion rod 103 by the pulling and pulling handle 122, the winding motor 102 drives the rotating tube 118 to rotate during winding, the corresponding winding roller 2 is further driven to rotate to wind yarns, when the winding roller 2 needs to be replaced, a worker only needs to pull and pull the pulling handle 122 to enable the connecting block 120 to be separated from the connecting groove 202 of one winding roller 2, and slide the transmission assembly 116 along the first limiting sliding groove 107 until reaching one end of the other winding roller 2, the connecting block 120 is inserted into the inner side of the connecting groove 202 of the adjacent winding roller 2, and when the yarns in the winding frame 1 need to be used, the winding motor 102 is driven to reversely rotate the winding roller 2 to unwind yarns.

As shown in fig. 1 and 6, one end of the wind-up roll 2 is provided with a slot 203, a plug rod 111 is inserted into the inner side of the slot 203, the other end of the wind-up roll 2 is fixedly welded with a connecting pipe 201, one end of the connecting pipe 201 is provided with a connecting groove 202, the connecting pipe 201 is slidingly inserted into the inner side of the first connecting chute 115, the connecting block 120 is inserted into the inner side of the connecting groove 202, one end of the outer peripheral surface of the wind-up roll 2 is provided with a positioning groove 204, an elastic positioning rod 205 is clamped into the inner side of the positioning groove 204, and both ends of the outer peripheral surface of the elastic positioning rod 205 are fixedly welded with pull rings 206;

when the yarn starts to be wound, the pull ring 206 is pulled to take out the elastic positioning rod 205 from the positioning groove 204, one end of the yarn is wound on the outer circumferential surface of the winding roller 2, and the elastic positioning rod 205 is clamped inside the positioning groove 204 to fix one end of the yarn.

As shown in fig. 1 and 7, a second clamping block 301 is welded and fixed on the upper side of the moving assembly 3, the second clamping block 301 is slidably clamped inside a clamping groove 105 of one winding frame 1, and a rotating handle 303 is rotatably clamped at one end of the upper side of the moving assembly 3;

after the winding of a large number of yarns is completed, a plurality of winding frames 1 are stacked and connected to the upper side of the moving assembly 3 in a sliding and clamping mode, the rotating handle 303 is rotated and pulled, and the moving assembly 3, the winding frames 1, the winding rollers 2 and a large number of yarns are driven to move to proper positions through the universal wheels 302.

One specific application of this embodiment is: when the winding roller 2 and the winding frame 1 are installed, the inserting rod 111 is pulled out and the winding rollers 2 slide along the first connecting sliding groove 115, the inserting rod 111 is inserted into the inner side of the slot 203, the permanent magnet 112 is adsorbed and fixed at one end of the sliding block 110, the connection between the winding roller 2 and the winding frame 1 is completed, the pulling handle 122 enables the connecting block 120 to be inserted into the inner side of the connecting groove 202 of the winding roller 2 far away from the other end of the ion rod 103, when the winding of yarns starts, the guide rod 113 is pulled upwards along the second limiting sliding groove 114 and the yarns are inserted between the guide rod 113 and the ion rod 103, when the winding starts, the ion rod 103 can perform antistatic treatment on the yarns, the pull ring 206 far away from the other end of the ion rod 103 and the winding roller 2 is pulled out of the elastic positioning rod 205 from the positioning groove 204, one end of the yarns is wound on the outer circumferential surface of the winding roller 2, the elastic positioning rod 205 is clamped inside the positioning groove 204, and one end of the yarns is fixed, when the winding is needed to be replaced, the winding motor 102 drives the rotating tube 118 to rotate and further drives the corresponding winding roller 2 to rotate so as to wind the yarn, when the winding roller 2 needs to be replaced, one end of the yarn is cut off and is wound and fixed on the peripheral surface of the adjacent winding roller 2, the pulling handle 122 is pulled to enable the connecting block 120 to be separated from the connecting groove 202 of one winding roller 2 and slide the transmission component 116 along the first limiting sliding groove 107 until one end of the other winding roller 2, the connecting block 120 is inserted into the inner side of the connecting groove 202 of the adjacent winding roller 2, the winding motor 102 drives the corresponding winding roller 2 to rotate, after one winding frame 1 finishes winding a large number of yarns, the yarn is cut off and the top cover 101 is turned off, the winding motor 102 is slid to one end along the first limiting sliding groove 107 and turned off the first dust cover 106 and the second dust cover 108 so as to protect the yarn in the winding frame 1, the winding frame 1 is connected to the upper side of the movable assembly 3 or the other winding frame 1 in a sliding and clamping manner through the clamping groove 105, after winding of a large number of yarns is completed, the movable assembly 3, the winding frame 1, the winding roller 2 and a large number of yarns are driven to move to proper positions through the universal wheels 302 by rotating and pulling the rotating handle 303, and when the yarns in the winding frame 1 are required to be used, the winding motor 102 drives the winding roller 2 to reversely rotate so as to unreel the yarns.

The foregoing is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, and any modification, equivalent replacement, and improvement of some of the technical features described in the foregoing embodiments are all within the scope of the present utility model.

Claims (7)

1. The utility model provides a yarn coiling mechanism with prevent static function, includes rolling frame (1), wind-up roll (2) and remove subassembly (3), its characterized in that: the utility model discloses a winding frame, including winding frame (1), spring positioning rod (205), one winding frame (1) slip joint is in top cap (101) upside of another winding frame (1), the inboard one end of winding frame (1) runs through the joint and has ion stick (103), winding frame (1) one side is provided with winding motor (102), winding frame (1) inboard has a plurality of wind-up rolls (2) from left to right slip joint, wind-up roll (2) outer peripheral surface one end joint has spring positioning rod (205), one winding frame (1) bottom is provided with movable assembly (3), movable assembly (3) bottom rotation joint has universal wheel (302).

2. The yarn winding device with an antistatic function according to claim 1, wherein: clamping grooves (105) are formed in one end of the bottom side of the winding frame (1), first clamping blocks (104) are fixedly welded to one end of the upper side of the top cover (101), and one first clamping block (104) of the winding frame (1) is connected to the inner side of the clamping groove (105) of the other winding frame (1) in a sliding clamping mode.

3. The yarn winding device with an antistatic function according to claim 1, wherein: the winding frame (1) one side is run through and is offered second connection spout (109), winding frame (1) one side rotates the joint and has second shield (108), second shield (108) laminating is in second connection spout (109) outside, the inboard slip joint of second connection spout (109) has slider (110), it has inserted bar (111) to run through grafting slider (110) one end, inserted bar (111) one end joint is fixed with permanent magnet (112), permanent magnet (112) adsorb and are fixed in slider (110) one side, inserted bar (111) one end is pegged graft in winding frame (1) inboard.

4. The yarn winding device with an antistatic function according to claim 1, wherein: the second limiting sliding chute (114) is formed in one end of the inner side of the winding frame (1), a guide rod (113) is connected to one end of the second limiting sliding chute (114) in a sliding clamping mode, and the guide rod (113) is suspended on the upper side of the ion rod (103).

5. A yarn winding device with antistatic function according to claim 3, characterized in that: the utility model discloses a rolling frame, rolling frame (1) one side is run through and is seted up first connecting chute (115), first spacing spout (107) have been seted up to rolling frame (1) one side, first spacing spout (107) and first connecting chute (115) are located rolling frame (1) opposite side relative to inserted bar (111), rolling frame (1) one side rotates joint has first shield (106), first shield (106) laminating in first connecting chute (115) outside, rolling motor (102) one end joint has drive assembly (116), drive assembly (116) one end welded fastening has stopper (117), stopper (117) are located drive assembly (116) opposite side relative to rolling motor (102), stopper (117) slip joint is inboard in first spacing spout (107), drive assembly (116) one end is run through the joint and is had rotating tube (118), rotating tube (118) are passed through drive assembly (116) and rolling motor (102) transmission and are connected, rotating tube (118) one end has been seted up drive assembly (119), one end of expansion joint spring (119) has expansion joint (123) expansion joint spring (123) have expansion joint spring (123) to be connected in expansion joint spring (120), connecting block (120) one end welded fastening has connecting rod (121), connecting rod (121) run through grafting in rotating tube (118) one end, connecting rod (121) other end welded fastening has pulling handle (122), pulling handle (122) laminating is in rotating tube (118) one side, connecting block (120) peg graft in first connection spout (115) inboard.

6. The yarn winding device with antistatic function according to claim 5, wherein: the utility model discloses a wind-up roll, including wind-up roll (2), slot (203) have been seted up to wind-up roll (2) one end, inserted bar (111) are pegged graft in slot (203) inboard, wind-up roll (2) other end welded fastening has connecting pipe (201), spread groove (202) have been seted up to connecting pipe (201) one end, connecting pipe (201) sliding connection is inboard in first connecting spout (115), connecting block (120) are pegged graft in spread groove (202) inboard, constant head tank (204) have been seted up to wind-up roll (2) outer peripheral face one end, elastic locating lever (205) joint is inboard in constant head tank (204), elastic locating lever (205) outer peripheral face both ends welded fastening has pull ring (206).

7. The yarn winding device with an antistatic function according to claim 2, wherein: the upper side of the moving assembly (3) is fixedly welded with a second clamping block (301), the second clamping block (301) is slidably clamped inside a clamping groove (105) of the winding frame (1), and one end of the upper side of the moving assembly (3) is rotatably clamped with a rotating handle (303).

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