CN111924590A - Drum-free winding device for fabric processing and using method - Google Patents

Abstract

The invention discloses a tube-free winding device for fabric processing and a using method thereof, and relates to the technical field of fabric processing. The device comprises a supporting component, wherein one side above the supporting component is rotatably connected with a winding component, the other side above the supporting component is fixedly provided with a driving component and a stretching component, the supporting component comprises a supporting plate, the upper surface of the supporting plate is provided with two first rectangular grooves in a penetrating manner, the lower surface of the supporting plate is fixedly provided with a roller, the lower surface of the supporting plate is fixedly provided with two bottom plates which are positioned under the two first rectangular grooves, the inside of each bottom plate is provided with a second rectangular groove superposed with the first rectangular groove, the middle part of the supporting plate is fixedly provided with an electric telescopic rod, the top end of the electric telescopic rod is fixedly provided with a connecting block, and the inside of the second rectangular groove is connected with a first L-shaped plate in a sliding manner. The invention can simply and conveniently unload the rolled fabric, thereby greatly improving the working efficiency of the invention.

Description

Drum-free winding device for fabric processing and using method

Technical Field

The invention belongs to the technical field of fabric processing, and particularly relates to a tube-free winding device for fabric processing and a using method thereof.

Background

At present, the processed fabric needs to be wound after the fabric is processed, most of the existing winding devices for processing the fabric are provided with a winding drum sleeved on a winding roller, and then the fabric needing to be wound is wound on the winding drum.

Disclosure of Invention

The invention aims to provide a tube-free winding device for processing fabric, which solves the problem of low efficiency of the existing winding device by arranging a winding component.

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

the invention relates to a tube-free winding device for processing fabric, which comprises a supporting component, wherein one side above the supporting component is rotatably connected with a winding component, the winding component is used for winding fabric fabrics with different widths, the other side above the supporting component is fixedly provided with a driving component and a stretching component, and the driving component is used for driving the winding component to rotate so as to achieve the purpose of winding;

the supporting component comprises a supporting plate, wherein two first rectangular grooves are formed in the upper surface of the supporting plate in a penetrating manner, rollers are fixedly mounted on the lower surface of the supporting plate, two bottom plates are fixedly mounted on the lower surface of the supporting plate and located under the two first rectangular grooves, a second rectangular groove coincident with the first rectangular grooves is formed in the bottom plates, an electric telescopic rod is fixedly mounted in the middle of the supporting plate, a connecting block is fixedly mounted at the top end of the electric telescopic rod, a first L-shaped plate is slidably connected in the second rectangular groove, a friction roller is fixedly mounted at the bottom end of the first L-shaped plate, the rolling of the rollers can be limited when the circumferential side surface of the friction roller is in contact with the rollers, the first L-shaped plate is movably connected with the connecting block through a first connecting plate, and a disc is fixedly mounted at one end of the upper surface of the supporting plate through two vertical plates, a first bearing is embedded in the middle of the disc, a first connecting ring is fixedly mounted on one side of an inner ring of the first bearing, a second connecting ring is fixedly mounted on the other side of the inner ring of the disc, and a gear ring is fixedly mounted on the peripheral side surface of the second connecting ring;

the winding assembly comprises a winding roller, a square groove is formed in the winding roller, four first bar-shaped grooves distributed in an annular mode are formed in the circumferential side surface of the winding roller, the first bar-shaped grooves are communicated with the square groove, a through hole is formed in one end surface of the winding roller and is communicated with the square groove, a square plate is connected to the inner portion of the square groove in a sliding mode, four first bar-shaped plates arranged in an annular mode are fixedly mounted on the circumferential side surface of the square plate, the first bar-shaped plates penetrate through the first bar-shaped grooves and extend to the outer side of the first bar-shaped grooves, four second bar-shaped grooves distributed in an annular mode are formed in the circumferential side surface of one end, away from the through hole, of the winding roller, a second bar-shaped plate is rotatably connected to the inner portion of the second bar-shaped grooves, a threaded column is fixedly mounted on the end surface, away from the through, a second bearing is fixedly installed on one side, close to the winding roller, of the nut, and the second bearing is connected with the second strip plate through a second connecting plate;

the driving assembly comprises a second L-shaped plate, the second L-shaped plate is fixedly arranged on the disc, a driving motor is fixedly arranged on the second L-shaped plate, a gear is fixedly arranged at the output end of the driving motor, and the gear is meshed with the toothed ring;

the stretching assembly comprises a third L-shaped plate which is fixedly mounted on the disc, a second electric telescopic rod is fixedly mounted on the third L-shaped plate, and the telescopic end of the second electric telescopic rod is connected with the square plate through a third bearing.

Preferably, the number of the rollers is four, and the four rollers are arranged in a rectangular shape.

Preferably, a limiting groove is formed in a relative inner wall of the second rectangular groove, a limiting block is fixedly mounted on two side faces of one end of the first L-shaped plate, and the limiting block is located in the limiting groove and in sliding fit with the limiting groove.

Preferably, the top end of the first connecting plate is rotatably connected with one side surface of the connecting block through a hinge seat, and the bottom end of the first connecting plate is also rotatably connected with one surface of the first L-shaped plate through a hinge seat.

Preferably, one end face, close to the through hole, of the winding roller is fixedly connected with the first connecting ring, and the inner diameter of the first connecting ring is the same as that of the through hole.

Preferably, the inner ring of the second bearing is fixedly connected with the nut, the outer ring of the second bearing is rotatably connected with the bottom end of the second connecting plate through a hinged support, and the top end of the second connecting plate is rotatably connected with one surface of the second strip-shaped plate through a hinged support.

Preferably, a shock pad is fixedly installed between the second L-shaped plate and the driving motor, the shock pad is made of rubber, and the shock pad is arranged between the second L-shaped plate and the driving motor to reduce the vibration of the driving motor, so that the service life of the driving motor is prolonged.

Preferably, the second electric telescopic rod passes through the second connecting ring, the inner ring of the first bearing, the first connecting ring and the through hole in sequence.

Preferably, the outer ring of the third bearing is fixedly connected with one surface of the square plate, and the inner ring of the third bearing is fixedly connected with the telescopic end of the second electric telescopic rod.

Preferably, the use method of the tube-free winding device for processing the fabric comprises the following steps:

SS 001: the worker pushes a proper position of the non-drum winding device through the roller, then a control switch of the electric telescopic rod is started, the electric telescopic rod can pull the connecting block to move downwards, the downward movement of the connecting block can drive the top end of the first connecting plate to move downwards, the bottom end of the first connecting plate moves outwards, the outward movement of the bottom end of the first connecting plate can push the first L-shaped plate to move outwards until a friction roller at the bottom end of the first L-shaped plate is in contact with the roller, and the contact of the friction roller and the roller can limit the rolling of the roller, so that the non-drum winding device is in a stable state;

SS 002: when the non-drum winding device is determined to be in a stable state, a worker adjusts the distance between the first strip-shaped plate and the second strip-shaped plate according to the width of the fabric to be wound, at the moment, a control switch of the second electric telescopic rod is started, the second electric telescopic rod drives the square plate and the first strip-shaped plate on the outer side of the square plate to move back and forth through the third bearing, and therefore the distance between the first strip-shaped plate and the second strip-shaped plate is adjusted, and the distance between the first strip-shaped plate and the second strip-shaped plate is the same as the width of the fabric to be wound;

and (4) SS 003: after the distance between the first strip-shaped plate and the second strip-shaped plate is adjusted, a worker winds a small part of the fabric to be wound on the peripheral side surface of the winding roller for about 3-4 circles to ensure that the fabric to be wound cannot fall off from the winding roller, then a control switch of a driving motor is started, the driving motor drives a gear to rotate, the gear and a toothed ring are meshed and connected, so that the gear rotates to drive the toothed ring to rotate, the winding assembly rotates integrally, and the winding assembly rotates to wind the fabric to be wound until the winding is finished;

SS 004: after the fabric surface fabric to the needs rolling carries out the rolling and accomplishes, the staff outwards revolves the wrong nut this moment, the nut will drive the bottom of second connecting plate and move to the outside, the top of second connecting plate will move down simultaneously, the top that drives the second bar shaped plate moves down, until the second bar shaped plate is in the inside in second bar groove completely, later start second electric telescopic handle's control switch, second electric telescopic handle will promote the direction removal to the screw thread post of the first bar shaped plate in square board and the square board outside, thereby unload the fabric surface fabric that the rolling was accomplished on the wind-up roll.

The invention has the following beneficial effects:

1. according to the invention, by starting the control switch of the electric telescopic rod, the electric telescopic rod can pull the connecting block to move downwards, the downward movement of the connecting block can drive the top end of the first connecting plate to move downwards, and simultaneously the bottom end of the first connecting plate moves outwards, so that the bottom end of the first connecting plate can push the first L-shaped plate to move outwards until the friction roller at the bottom end of the first L-shaped plate is contacted with the roller, and the contact between the friction roller and the roller can limit the rolling of the roller, thereby enabling the non-drum winding device to be in a stable state.

2. According to the invention, by starting the control switch of the second electric telescopic rod, the second electric telescopic rod drives the square plate and the first strip-shaped plate outside the square plate to move back and forth through the third bearing, so that the distance between the first strip-shaped plate and the second strip-shaped plate is adjusted, and the distance between the first strip-shaped plate and the second strip-shaped plate is the same as the width of the fabric to be rolled.

3. According to the invention, the nut is screwed outwards, the nut drives the bottom end of the second connecting plate to move outwards, meanwhile, the top end of the second connecting plate moves downwards, the top end of the second strip-shaped plate is driven to move downwards until the second strip-shaped plate is completely positioned in the second strip-shaped groove, then, the control switch of the second electric telescopic rod is started, the second electric telescopic rod drives the square plate and the first strip-shaped plate outside the square plate to move towards the direction of the threaded column, so that the fabric wound on the winding roller is discharged.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

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

FIG. 1 is a schematic structural view of a tube-free winding device for processing a fabric;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a schematic structural view of the support assembly of the present invention;

FIG. 4 is a cross-sectional view of the support assembly of the present invention;

FIG. 5 is an enlarged view of portion A of FIG. 4 in accordance with the present invention;

FIG. 6 is an enlarged view of portion B of FIG. 4 in accordance with the present invention;

FIG. 7 is a schematic view of a winding assembly according to the present invention;

FIG. 8 is a cross-sectional view of the take-up assembly of the present invention;

FIG. 9 is a schematic view of the driving assembly of the present invention;

FIG. 10 is a schematic structural view of a stretching assembly of the present invention;

in the drawings, the components represented by the respective reference numerals are listed below:

1. a support assembly; 101. a support plate; 102. a first rectangular groove; 103. a roller; 104. a base plate; 105. a second rectangular groove; 106. a limiting groove; 107. an electric telescopic rod; 108. connecting blocks; 109. a first "L" shaped plate; 110. a limiting block; 111. a rubbing roller; 112. a first connecting plate; 113. a disc; 114. a first bearing; 115. a first connecting ring; 116. a second connection ring; 117. a toothed ring; 2. a winding component; 201. a wind-up roll; 202. a square groove; 203. a first bar-shaped groove; 204. a through hole; 205. a square plate; 206. a first strip-shaped plate; 207. a second strip groove; 208. a second strip; 209. a threaded post; 210. a nut; 211. a second bearing; 212. a second connecting plate; 3. a drive assembly; 301. a second "L" shaped plate; 302. a drive motor; 303. a gear; 4. a stretching assembly; 401. a third "L" shaped plate; 402. a second electric telescopic rod; 403. and a third bearing.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, the invention relates to a tube-free winding device for processing fabric, which comprises a support component 1, wherein one side above the support component 1 is rotatably connected with a winding component 2, the winding component 2 is used for winding fabric fabrics with different widths, the other side above the support component 1 is fixedly provided with a driving component 3 and a stretching component 4, and the driving component 3 is used for driving the winding component 2 to rotate, so that the winding purpose is achieved;

the supporting component 1 comprises a supporting plate 101, wherein two first rectangular grooves 102 are formed in the upper surface of the supporting plate 101 in a penetrating manner, rollers 103 are fixedly arranged on the lower surface of the supporting plate 101, two bottom plates 104 are fixedly arranged on the lower surface of the supporting plate 101 and are positioned under the two first rectangular grooves 102, a second rectangular groove 105 coincident with the first rectangular groove 102 is formed in the bottom plate 104, an electric telescopic rod 107 is fixedly arranged in the middle of the supporting plate 101, a connecting block 108 is fixedly arranged at the top end of the electric telescopic rod 107, a first L-shaped plate 109 is slidably connected in the second rectangular groove 105, a friction roller 111 is fixedly arranged at the bottom end of the first L-shaped plate 109, the rolling of the rollers 103 can be limited when the peripheral side surface of the friction roller 111 is in contact with the rollers 103, and the first L-shaped plate 109 is movably connected with the connecting block 108 through a first connecting plate 112, a disc 113 is fixedly mounted at one end of the upper surface of the support plate 101 through two vertical plates, a first bearing 114 is embedded in the middle of the disc 113, a first connecting ring 115 is fixedly mounted at one side of an inner ring of the first bearing 114, a second connecting ring 116 is fixedly mounted at the other side of the inner ring of the disc 113, and a toothed ring 117 is fixedly mounted on the peripheral side surface of the second connecting ring 116;

the winding assembly 2 comprises a winding roller 201, a square groove 202 is formed in the winding roller 201, four first bar-shaped grooves 203 distributed in an annular shape are formed in the circumferential side surface of the winding roller 201, the first bar-shaped grooves 203 are communicated with the square groove 202, a through hole 204 is formed in the end surface of the winding roller 201, the through hole 204 is communicated with the square groove 202, a square plate 205 is connected to the inner portion of the square groove 202 in a sliding manner, four first bar-shaped plates 206 arranged in an annular shape are fixedly mounted on the circumferential side surface of the square plate 205, the first bar-shaped plates 206 pass through the first bar-shaped grooves 203 and extend to the outer side of the first bar-shaped grooves 203, four second bar-shaped grooves 207 distributed in an annular shape are formed in the circumferential side surface of one end of the winding roller 201 far away from the through hole 204, a second bar-shaped plate 208 is connected to the inner portion of the second bar-shaped grooves 207 in a rotating manner, a threaded post 209, a screw cap 210 is connected to the threaded column 209 in a threaded manner, a second bearing 211 is fixedly mounted on one side, close to the wind-up roll 201, of the screw cap 210, and the second bearing 211 is connected with the second strip-shaped plate 208 through a second connecting plate 212;

the driving assembly 3 comprises a second L-shaped plate 301, the second L-shaped plate 301 is fixedly mounted on the disc 113, a driving motor 302 is fixedly mounted on the second L-shaped plate 301, a gear 303 is fixedly mounted at an output end of the driving motor 302, and the gear 303 is in meshed connection with the toothed ring 117;

the stretching assembly 4 comprises a third L-shaped plate 401, the third L-shaped plate 401 is fixedly mounted on the circular disc 113, a second electric telescopic rod 402 is fixedly mounted on the third L-shaped plate 401, and the telescopic end of the second electric telescopic rod 402 is connected with the square plate 205 through a third bearing 403.

Further, the number of the rollers 103 is four, and the four rollers 103 are arranged in a rectangular shape.

Furthermore, a limiting groove 106 is formed in a relative inner wall of the second rectangular groove 105, a limiting block 110 is fixedly mounted on two side faces of one end of the first L-shaped plate 109, and the limiting block 110 is located inside the limiting groove 106 and is in sliding fit with the limiting groove 106.

Further, the top end of the first connecting plate 112 is pivotally connected to one side of the connecting block 108 by a hinge mount, and the bottom end of the first connecting plate 112 is also pivotally connected to one surface of the first "L" shaped plate 109 by a hinge mount.

Further, one end face, close to the through hole 204, of the wind-up roll 201 is fixedly connected with the first connecting ring 115, and the inner diameter of the first connecting ring 115 is the same as that of the through hole 204.

Further, the inner ring of the second bearing 211 is fixedly connected with the nut 210, the outer ring of the second bearing 211 is rotatably connected with the bottom end of the second connecting plate 212 through a hinge seat, and the top end of the second connecting plate 212 is rotatably connected with one surface of the second strip-shaped plate 208 through a hinge seat.

Further, a shock absorbing pad is fixedly installed between the second L-shaped plate 301 and the driving motor 302, the shock absorbing pad is made of rubber, and the purpose of the shock absorbing pad arranged between the second L-shaped plate 301 and the driving motor 302 is to reduce the shock of the driving motor 302, so as to prolong the service life of the driving motor 302.

Further, the second electric telescopic rod 402 passes through the second connection ring 116, the inner ring of the first bearing 114, the first connection ring 115 and the through hole 204 in sequence.

Further, the outer ring of the third bearing 403 is fixedly connected with a surface of the square plate 205, and the inner ring of the third bearing 403 is fixedly connected with the telescopic end of the second electric telescopic rod 402.

Further, the use method of the tube-free winding device for processing the fabric comprises the following steps:

SS 001: the worker pushes the non-cylinder winding device to a proper position through the roller 103, then the control switch of the electric telescopic rod 107 is started, the electric telescopic rod 107 can pull the connecting block 108 to move downwards, the connecting block 108 moves downwards to drive the top end of the first connecting plate 112 to move downwards, meanwhile, the bottom end of the first connecting plate 112 moves outwards to push the first L-shaped plate 109 to move outwards until the friction roller 111 at the bottom end of the first L-shaped plate 109 is in contact with the roller 103, and the friction roller 111 is in contact with the roller 103 to limit the rolling of the roller 103, so that the non-cylinder winding device is in a stable state;

SS 002: after the non-drum winding device is determined to be in a stable state, a worker adjusts the distance between the first strip-shaped plate 206 and the second strip-shaped plate 208 according to the width of the fabric to be wound, at this time, a control switch of the second electric telescopic rod 402 is started, the second electric telescopic rod 402 drives the square plate 205 and the first strip-shaped plate 206 outside the square plate 205 to move back and forth through the third bearing 403, so that the distance between the first strip-shaped plate 206 and the second strip-shaped plate 208 is adjusted, and the distance between the first strip-shaped plate 206 and the second strip-shaped plate 208 is the same as the width of the fabric to be wound;

and (4) SS 003: after the distance between the first strip-shaped plate 206 and the second strip-shaped plate 208 is adjusted, at this time, a worker winds a small part of the fabric to be wound on the peripheral side surface of the winding roller 201 for about 3-4 circles to ensure that the fabric to be wound does not fall off from the winding roller 201, then a control switch of the driving motor 302 is started, the driving motor 302 drives the gear 303 to rotate, the gear 303 is meshed with the toothed ring 117, so that the gear 303 rotates to drive the toothed ring 117 to rotate, the winding assembly 2 rotates integrally, and the winding assembly 2 rotates to wind the fabric to be wound until the winding is completed;

SS 004: after the fabric that needs the rolling is accomplished in the rolling, the staff screwed the nut 210 outwards this moment, the nut 210 will drive the bottom of second connecting plate 212 to move to the outside, simultaneously the top of second connecting plate 212 will move downwards, drive the top of second bar 208 and move downwards, until second bar 208 is in the inside of second bar groove 207 completely, later start the control switch of second electric telescopic handle 402, second electric telescopic handle 402 will promote the square 205 and the first bar 206 in the square 205 outside moves to the direction of screw post 209, thereby unload the fabric that the rolling was accomplished on the wind-up roll 201.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The utility model provides a fabric surface fabric processing is with no section of thick bamboo coiling mechanism, includes supporting component (1), its characterized in that: one side above the supporting component (1) is rotatably connected with a winding component (2), and the other side above the supporting component (1) is fixedly provided with a driving component (3) and a stretching component (4);

supporting component (1) includes a backup pad (101), two first rectangular channels (102) have been seted up in the upper surface run-through of backup pad (101), the lower fixed surface of backup pad (101) installs gyro wheel (103), the lower surface of backup pad (101) just is located two first rectangular channels (102) under fixed mounting have two bottom plates (104), a second rectangular channel (105) with first rectangular channel (102) coincidence are seted up to the inside of bottom plate (104), the middle part fixed mounting of backup pad (101) has an electric telescopic handle (107), the top fixed mounting of electric telescopic handle (107) has a connecting block (108), the inside sliding connection of second rectangular channel (105) has a first "L" shaped plate (109), the bottom fixed mounting of first "L" shaped plate (109) has a friction roller (111), through first "L" swing joint connecting plate (112) between first "L" shaped plate (109) and connecting block (108) One end of the upper surface of the supporting plate (101) is fixedly provided with a disc (113) through two vertical plates, the middle part of the disc (113) is embedded with a first bearing (114), one side of the inner ring of the first bearing (114) is fixedly provided with a first connecting ring (115), the other side of the inner ring of the disc (113) is fixedly provided with a second connecting ring (116), and the peripheral side surface of the second connecting ring (116) is fixedly provided with a toothed ring (117);

the winding assembly (2) comprises a winding roller (201), a square groove (202) is formed in the winding roller (201), four first bar-shaped grooves (203) distributed in an annular shape are formed in the peripheral side face of the winding roller (201), the first bar-shaped grooves (203) are communicated with the square groove (202), a through hole (204) is formed in one end face of the winding roller (201), the through hole (204) is communicated with the square groove (202), a square plate (205) is connected to the inside of the square groove (202) in a sliding mode, four first bar-shaped plates (206) arranged in an annular mode are fixedly mounted on the peripheral side face of the square plate (205), the first bar-shaped plates (206) penetrate through the first bar-shaped grooves (203) and extend to the outer side of the first bar-shaped grooves (203), and four second bar-shaped grooves (207) distributed in an annular mode are formed in the peripheral side face of one end, far away from the through hole (204), of the winding roller, a second strip-shaped plate (208) is rotatably connected to the inside of the second strip-shaped groove (207), a threaded column (209) is fixedly mounted on one end face, away from the through hole (204), of the winding roller (201), a nut (210) is connected to the threaded column (209) in a threaded mode, a second bearing (211) is fixedly mounted on one side, close to the winding roller (201), of the nut (210), and the second bearing (211) is connected with the second strip-shaped plate (208) through a second connecting plate (212);

the driving assembly (3) comprises a second L-shaped plate (301), the second L-shaped plate (301) is fixedly installed on the disc (113), a driving motor (302) is fixedly installed on the second L-shaped plate (301), a gear (303) is fixedly installed at the output end of the driving motor (302), and the gear (303) is in meshed connection with the toothed ring (117);

the stretching assembly (4) comprises a third L-shaped plate (401), the third L-shaped plate (401) is fixedly mounted on the disc (113), a second electric telescopic rod (402) is fixedly mounted on the third L-shaped plate (401), and the telescopic end of the second electric telescopic rod (402) is connected with the square plate (205) through a third bearing (403).

2. The tube-free winding device for processing the fabric according to claim 1, wherein the number of the rollers (103) is four, and the four rollers (103) are arranged in a rectangular shape.

3. The winding device without the drum for processing the fabric shell according to claim 1, wherein a limiting groove (106) is formed in one opposite inner wall of the second rectangular groove (105), two side faces of one end of the first L-shaped plate (109) are fixedly provided with limiting blocks (110), and the limiting blocks (110) are located in the limiting grooves (106) and are in sliding fit with the limiting grooves (106).

4. A reel-less winding device for processing textile fabric according to claim 1, characterized in that the top end of the first connecting plate (112) is pivotally connected to one side of the connecting block (108) by a hinge, and the bottom end of the first connecting plate (112) is pivotally connected to a surface of the first "L" -shaped plate (109) by a hinge.

5. The non-tube winding device for processing the fabric shell according to claim 1, wherein one end face, close to the through hole (204), of the winding roller (201) is fixedly connected with the first connecting ring (115), and the inner diameter of the first connecting ring (115) is the same as that of the through hole (204).

6. The non-tube winding device for processing the fabric according to claim 1, wherein an inner ring of the second bearing (211) is fixedly connected with a nut (210), an outer ring of the second bearing (211) is rotatably connected with a bottom end of a second connecting plate (212) through a hinge base, and a top end of the second connecting plate (212) is rotatably connected with one surface of the second strip-shaped plate (208) through a hinge base.

7. A reel-less winding device for processing textile fabric as claimed in claim 1, wherein a shock-absorbing pad is fixedly arranged between the second L-shaped plate (301) and the driving motor (302).

8. The tube-free winding device for processing the fabric according to claim 1, wherein the second electric telescopic rod (402) passes through the second connecting ring (116), the inner ring of the first bearing (114), the first connecting ring (115) and the through hole (204) in sequence.

9. The non-tube winding device for processing the fabric according to claim 1, wherein an outer ring of the third bearing (403) is fixedly connected with one surface of the square plate (205), and an inner ring of the third bearing (403) is fixedly connected with a telescopic end of the second electric telescopic rod (402).

10. The use method of the tube-free winding device for processing the fabric according to any one of claims 1 to 9, characterized by comprising the following steps:

SS 001: the worker pushes a proper position of the non-cylinder winding device through the roller (103), then a control switch of the electric telescopic rod (107) is started, the electric telescopic rod (107) can pull the connecting block (108) to move downwards, the connecting block (108) moves downwards to drive the top end of the first connecting plate (112) to move downwards, meanwhile, the bottom end of the first connecting plate (112) moves outwards to push the first L-shaped plate (109) to move outwards until the friction roller (111) at the bottom end of the first L-shaped plate (109) is in contact with the roller (103), and the friction roller (111) is in contact with the roller (103) to limit the rolling of the roller (103), so that the non-cylinder winding device is in a stable state;

SS 002: after the non-drum winding device is determined to be in a stable state, a worker adjusts the distance between the first strip-shaped plate (206) and the second strip-shaped plate (208) according to the width of the fabric to be wound, at the moment, a control switch of the second electric telescopic rod (402) is started, the second electric telescopic rod (402) drives the square plate (205) and the first strip-shaped plate (206) on the outer side of the square plate (205) to move back and forth through the third bearing (403), and therefore the distance between the first strip-shaped plate (206) and the second strip-shaped plate (208) is adjusted, and the distance between the first strip-shaped plate (206) and the second strip-shaped plate (208) is the same as the width of the fabric to be wound;

and (4) SS 003: after the distance between the first strip-shaped plate (206) and the second strip-shaped plate (208) is adjusted, a worker winds a small part of the fabric to be wound on the peripheral side surface of the winding roller (201) for about 3-4 circles to ensure that the fabric to be wound does not fall off from the winding roller (201), then a control switch of a driving motor (302) is started, the driving motor (302) drives a gear (303) to rotate, and the gear (303) is meshed with a toothed ring (117) to be connected, so that the toothed ring (117) is driven to rotate by the rotation of the gear (303), the winding assembly (2) is integrally rotated, and the fabric to be wound can be wound by the rotation of the winding assembly (2) until the winding is completed;

SS 004: after the fabric needing to be rolled is rolled, the screw cap (210) is screwed outwards by a worker, the screw cap (210) drives the bottom end of the second connecting plate (212) to move outwards, meanwhile, the top end of the second connecting plate (212) moves downwards, the top end of the second strip-shaped plate (208) is driven to move downwards, until the second strip-shaped plate (208) is completely located inside the second strip-shaped groove (207), the control switch of the second electric telescopic rod (402) is started, the second electric telescopic rod (402) pushes the square plate (205) and the first strip-shaped plate (206) outside the square plate (205) to move towards the direction of the threaded column (209), and therefore the fabric rolled on the rolling roller (201) is discharged.

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