CN116177280A - Textile fabric processing and winding equipment - Google Patents

Abstract

The invention relates to the technical field of cloth winding, in particular to a textile cloth processing winding device, which comprises a processing base. According to the invention, in the process of winding the textile fabric, the roller is abutted against the wound textile fabric, and rotates along with the rotation of the winding core, dust and impurities on the fabric are sucked into the storage cylinder through the exhaust pipe in the storage cylinder in the rotating process of the roller, so that the problem that the surface of the fabric stored in winding is dirty is avoided, meanwhile, the fabric is abutted against the winding core by rolling, the fabric is wound more tightly, the effect of one machine is achieved, after the fabric is wound, the wound textile fabric is taken down through the two arc clamping plates, the situation that the fabric is heavy after the winding is avoided, the labor is wasted during the manual taking down, the winding core which is not wound on the bearing plate is pulled to move upwards for installation through the rope in the moving process of taking down, the replacement efficiency of the winding core and the replacement installation accuracy are improved, and the fabric winding efficiency is improved.

Description

Textile fabric processing and winding equipment

Technical Field

The invention relates to the technical field of cloth winding, in particular to a textile cloth processing winding device.

Background

In order to facilitate storage and subsequent sales in production of textile products, the textile fabric is rolled and stored in the final step of production and processing, the fabric is exposed in the production and processing environment in the processing process, dust and impurities in the production environment are easy to adhere to the textile fabric, so that the surface of the rolled and stored textile fabric is messy, the diameter of a rolled textile fabric is large, the weight of the rolled fabric is heavy, time and labor are wasted when the fabric is rolled manually, and the replacement speed of a rolled fabric core and the rolling efficiency of the fabric are reduced.

Disclosure of Invention

In order to solve the problems, the invention adopts the following technical scheme that the textile fabric processing and winding device comprises a processing base, wherein two sliding grooves which are symmetrically arranged along the length direction of the processing base are formed in the top of the processing base, clamping plates are connected to the sliding grooves in a sliding manner, supporting and fixing seats are rotatably connected to opposite surfaces of the two clamping plates, a winding core is fixedly supported between the two supporting and fixing seats, a supporting frame which is symmetrically arranged along the length direction of the processing base is arranged at the top of the processing base, the two clamping plates are positioned between the two supporting frames, clamping grooves for clamping and placing the end parts of the supporting frames are formed in opposite surfaces of the two clamping plates, pressing grooves are formed in opposite surfaces of the two supporting frames, lower pressing blocks are connected to the pressing grooves in a sliding manner, the tops of the lower pressing blocks are connected with the pressing grooves through pressing springs, pressing frames are arranged on opposite surfaces of the two lower pressing blocks, the bottom of the pressing frame is provided with a first ear plate and a second ear plate which are distributed along the length direction of the pressing frame, the first ear plate is in sliding connection with the pressing frame, the second ear plate is fixedly connected with the pressing frame, a storage cylinder is arranged between the first ear plate and the second ear plate, the storage cylinder is positioned above the winding core, one end of the storage cylinder, which is close to the first ear plate, is provided with an end cover in a threaded fit manner, the end cover is fixedly connected with a rotating shaft, the other end of the storage cylinder is rotatably sleeved with a roller, the side wall of the roller is provided with dust collection holes which are uniformly distributed along the circumferential direction of the roller, the bottom of an annular wall of the storage cylinder is provided with dust collection grooves, a suction nozzle is arranged between two inner walls of the storage cylinder which are distributed along the axial direction of the storage cylinder, the section of the suction nozzle is of a splayed structure, the inner wall of the storage cylinder is provided with suction cavity plates through symmetrically distributed connecting plates, the suction cavity plates are positioned at the top of the suction nozzle, the bottom of the suction cavity plates is provided with filter holes, an exhaust pipe is arranged at one end of the exhaust cavity plate, which is far away from the first lug plate, and a material taking assembly is arranged on the processing base.

Preferably, the sliding groove which is in sliding connection with the first lug plate is formed in the bottom of the pressing frame, rectangular blocks are fixedly arranged on the two rotating shafts, rectangular grooves which are in clamping connection with the rectangular blocks are formed in opposite faces of the first lug plate and the second lug plate, connecting grooves which penetrate through the pressing frame are formed in the rectangular grooves on the second lug plate, connecting pipes which are communicated with the connecting grooves are arranged on the pressing frame, the exhaust pipes penetrate through the storage cylinder, the rotating shafts and the rectangular blocks and are communicated with the connecting grooves, magnets are arranged on inner side walls, close to the second lug plate, of the first lug plate and the sliding grooves, and the magnetism of the two magnets is opposite.

Preferably, one of the lower pressing blocks is close to the end face of the pressing frame, a rectangular sliding groove is formed in the end face of the pressing frame, a rectangular moving block is connected in a sliding mode in the rectangular sliding groove, a screw is connected to the end face, away from the rectangular sliding groove, of the rectangular moving block in a threaded fit mode, the screw is connected with the pressing frame, and the end face, away from the rectangular moving block, of the pressing frame is connected with the lower pressing block, close to the lower pressing block in a rotating mode, through a rotating column.

Preferably, the material taking assembly comprises a placing frame with a structure, wherein an opening arranged on the upper end surface of a processing base is downward, one vertical section of the placing frame is positioned between two sliding grooves, pulling grooves which are uniformly distributed along the length direction of the horizontal section of the placing frame and the vertical section close to the sliding grooves and are of inverted L-shaped structures are commonly arranged on the vertical section of the placing frame, two receiving rollers which are vertically symmetrically arranged are rotationally connected at corners of the pulling grooves, receiving plates are commonly and slidingly connected with the vertical sections of the pulling grooves, supporting seats are arranged on the upper end surfaces of the receiving plates, a plurality of groups of receiving members which are uniformly distributed along the length direction of the receiving members are arranged on the supporting seats, each receiving member consists of a mouth plate fixedly connected on the supporting seat and two arc-shaped seats hinged at the middle part of the mouth plate, the arc-shaped seats are used for supporting and fixing a winding core, the arc-shaped seats are connected with the mouth plate through pushing springs, the top of the placing rack is provided with a plurality of guide grooves which are uniformly distributed along the length direction of the placing rack, the guide grooves and the pulling grooves are staggered, the guide grooves are connected with a sliding plate in a sliding way, the top of the sliding plate is provided with a clamping groove, a driving bar is connected in a sliding way in the clamping groove, the end surface of the driving bar far away from the clamping plate is provided with an arc groove, a bearing rod is rotationally connected in the arc groove, the top of the bearing rod and the top of the sliding plate are respectively provided with an arc clamping plate which is uniformly distributed along the length direction of the bearing rod, the arc clamping plates at the top of the bearing rod are symmetrically distributed with the arc clamping plates at the top of the sliding plate, the arc clamping plates at the top of the bearing rod are connected with the arc grooves through supporting springs, one end of the bottom of the sliding plate far away from the bearing roller is provided with a Z-shaped pull rod which is connected with the pulling groove in a sliding way, the Z-shaped pull rod is provided with a rope, the rope passes through the space between the two bearing rollers and then is connected with the bearing plate.

Preferably, two arc guide plates made of rubber materials are arranged at the tops of the two arc-shaped seats in each group, and the two arc guide plates are arranged in an inverted splayed shape.

Preferably, the tops of the arc clamping plates connected with the bearing rod and the sliding plate are arc structures.

Preferably, the two arc-shaped concave surfaces opposite to the arc-shaped seats are internally connected with balls which are uniformly distributed in a rolling way.

The invention has the beneficial effects that: 1. according to the textile fabric processing and winding equipment, the roller is abutted against the wound textile fabric in the textile fabric winding process, and rotates along with the rotation of the winding core, dust and impurities on the fabric are sucked into the storage cylinder through the exhaust pipe in the storage cylinder in the rotating process, the sucked dust and impurities fall between the suction nozzle and the inner wall of the storage cylinder, the problem that the surface of the fabric stored in the winding process is dirty is avoided, and meanwhile the roller abuts against the winding core, so that the winding of the fabric is tighter, and the dual-purpose effect of one machine is achieved.

2. According to the invention, the sliding plate drives the arc clamping plates to move after the cloth is rolled, and then the coiled textile cloth is taken down through the two arc clamping plates, so that the situation that the coiled cloth is heavy is avoided, time and labor are wasted in manual taking down, and a winding core on the bearing plate, which is not rolled with the cloth, is pulled to move upwards to be installed through a rope in the taking down and moving process, the replacement efficiency of the winding core and the replacement and installation accuracy are improved, and the cloth rolling efficiency is improved.

3. According to the invention, the sliding plate pulls the bearing plate and the winding core above the bearing plate to move upwards through the rope until the top of the bearing plate is flush with the bottom of the bearing roller positioned at the lower side, at the moment, the winding core on the arc-shaped seat is aligned with the circle center of the supporting and fixing seat, and then the two clamping plates move, and the winding core is clamped and fixed through the supporting and fixing seat, so that the automatic and accurate installation function of the winding core is realized, and the problem that the placement position is inaccurate and needs to be adjusted for many times when the winding core is manually placed between the two supporting and fixing seats is prevented.

Drawings

The invention will be further described with reference to the drawings and examples.

Fig. 1 is a first perspective view of the present invention.

Fig. 2 is a second perspective view of the present invention.

Fig. 3 is an enlarged view of the invention at a in fig. 2.

Fig. 4 is a top view of the present invention.

Fig. 5 is a cross-sectional view taken along line B-B of fig. 4 (including a woven fabric) in accordance with the present invention.

Fig. 6 is an enlarged view of fig. 5 at C in accordance with the present invention.

FIG. 7 is a schematic cross-sectional view of a storage cylinder, a rotating shaft, a roller, dust collection holes, an air suction cavity plate, an air suction pipe, a first ear plate and a second ear plate.

In the figure: 1. processing a base; 10. a placing rack; 11. pulling the groove; 12. a receiving roller; 13. a receiving plate; 14. a support base; 15. a die plate; 16. an arc-shaped seat; 160. an arc guide plate; 161. a ball; 17. a pushing spring; 18. a guide groove; 19. a slip plate; 20. driving the strip; 21. an arc-shaped groove; 22. a receiving rod; 24. an arc clamping plate; 26. a support spring; 27. a Z-shaped pull rod; 28. a rope; 2. a clamping plate; 3. a supporting and fixing seat; 4. a winding core; 5. a support frame; 50. pressing the groove; 51. pressing the spring; 510. rectangular sliding grooves; 511. a rectangular moving block; 512. a screw; 52. a first ear plate; 53. a second ear plate; 54. a pressing frame; 540. a slip groove; 541. rectangular blocks; 542. a connecting groove; 543. a magnet; 55. a storage cylinder; 56. a rotation shaft; 57. a roller; 58. dust collection holes; 59. a suction nozzle; 501. an air extraction cavity plate; 502. and (5) an exhaust pipe.

Detailed Description

Embodiments of the invention are described in detail below with reference to the attached drawings, but the invention can be implemented in a number of different ways, which are defined and covered by the claims.

Referring to fig. 1, fig. 2, fig. 4, fig. 6 and fig. 7, a textile fabric processing winding device comprises a processing base 1, two sliding grooves symmetrically arranged along the length direction of the processing base 1 are formed in the top of the processing base 1, clamping plates 2 are slidingly connected to the sliding grooves, opposite surfaces of the two clamping plates 2 are rotationally connected with a supporting and fixing seat 3, a winding core 4 is fixedly supported between the two supporting and fixing seats 3, a supporting frame 5 symmetrically arranged along the length direction of the processing base 1 is mounted at the top of the processing base 1, the two clamping plates 2 are positioned between the two supporting frames 5, clamping grooves for clamping the end parts of the supporting frames 5 are formed in opposite surfaces of the two clamping plates 2, supporting and pressing grooves 50 are formed in opposite surfaces of the two supporting frames 5, a lower pressing block is slidingly connected to the tops of the lower pressing blocks through supporting and pressing springs 51, the opposite surfaces of the two lower pressing blocks are provided with a pressing frame 54, the bottom of the pressing frame 54 is provided with a first ear plate 52 and a second ear plate 53 which are distributed along the length direction of the pressing frame, the first ear plate 52 is in sliding connection with the pressing frame 54, the second ear plate 53 is fixedly connected with the pressing frame 54, a storage cylinder 55 is arranged between the first ear plate 52 and the second ear plate 53, the storage cylinder 55 is positioned above the winding core 4, one end of the storage cylinder 55, which is close to the first ear plate 52, is provided with an end cover in a threaded fit manner, the other ends of the end cover and the storage cylinder 55 are fixedly connected with a rotating shaft 56, a roller 57 is sleeved on the storage cylinder 55 in a rotating manner, dust collection holes 58 which are uniformly distributed along the circumferential direction of the roller 57 are formed in the side walls of the roller 55, dust collection grooves are formed in the bottom of the annular wall of the storage cylinder 55, a suction nozzle 59 is arranged between the two inner walls of the storage cylinder 55 along the axial direction of the storage cylinder, the suction nozzle 59 is of an splayed structure in cross section, the inner wall of the storage barrel 55 is provided with an air extraction cavity plate 501 through symmetrically arranged connecting plates, the air extraction cavity plate 501 is positioned at the top of the air extraction nozzle 59, the bottom of the air extraction cavity plate 501 is provided with a filter hole, one end of the air extraction cavity plate 501 far away from the first lug plate 52 is provided with an air extraction pipe 502, and a material taking assembly is arranged on the processing base 1.

The exhaust pipe 502 is connected with the existing exhaust pump, when the air pump works, the roller 57 supports the coiled cloth on the winding core 4 under the supporting and pressing action of the supporting and pressing spring 51, then the air pump starts to work, the air pump sucks dust and impurities on the cloth into the storage cylinder 55 through the exhaust pipe 502, the storage cylinder 55, the exhaust cavity plate 501, the filter hole, the exhaust nozzle 59, the dust collection groove and the dust collection hole 58, the sucked dust and impurities fall between the exhaust nozzle 59 and the inner wall of the storage cylinder 55, the roller 57 is driven to rotate through friction force between the roller 57 and the cloth on the winding core 4 when the winding core 4 winds the cloth, the roller 57 is synchronously pushed upwards along with the gradual increase of the winding diameter of the cloth, the roller 57 and the storage cylinder 55 push the lower pressing block to move upwards along the supporting and pressing groove 50 through the supporting and pressing frame 54, so that the supporting and pressing spring 51 contracts, the cloth is always pressed on the winding core 4, the two-purpose effect of the cloth is achieved, the storage cylinder 55 and the first ear plate 52 and the second ear plate 53 are movably connected, the roller 55 and the dust can be removed from the lower end cover 55 after the dust storage cylinder 55 and the dust storage cylinder 55 are opened, and the dust can be cleaned.

Referring to fig. 7, a sliding groove 540 slidably connected with the first ear plate 52 is provided at the bottom of the pressing frame 54, rectangular blocks 541 are fixedly mounted on the two rotating shafts 56, rectangular grooves clamped with the rectangular blocks 541 are provided on opposite surfaces of the first ear plate 52 and the second ear plate 53, a connecting groove 542 penetrating the pressing frame 54 is provided on the rectangular groove on the second ear plate 53, a connecting pipe communicated with the connecting groove 542 is mounted on the pressing frame 54, the exhaust pipe 502 is communicated with the connecting groove 542 after penetrating the storage cylinder 55, the rotating shafts 56 and the rectangular blocks 541, magnets 543 are mounted on inner side walls of the first ear plate 52 and the sliding groove 540, which are close to the second ear plate 53, and magnetism of the two magnets 543 is opposite.

When the impurities and dust in the storage barrel 55 need to be cleaned, the first lug plate 52 is pulled to move until the two magnets 543 are separated, then the storage barrel 55 and the roller 57 are taken down, then the end cover of the storage barrel 55 is opened, and finally the impurities and dust in the storage barrel 55 are cleaned.

Referring to fig. 7, a rectangular sliding groove 510 is formed in an end surface of one of the pressing blocks near the pressing frame 54, a rectangular moving block 511 is slidably connected in the rectangular sliding groove 510, a screw 512 is connected to an end surface of the rectangular moving block 511 far from the rectangular sliding groove 510 in a threaded fit manner, the screw 512 is connected to the pressing frame 54, and an end surface of the pressing frame 54 far from the rectangular moving block 511 is rotatably connected to the pressing block near the pressing block through a rotating column.

The pull handle is installed at the top of support 54, when taking down a storage section of thick bamboo 55, the manual work drives support 54 through the pull handle and rotates the position of adjusting a storage section of thick bamboo 55 to be convenient for take down or install a storage section of thick bamboo 55, support 54 drives screw rod 512 rotation when rotating, screw rod 512 drives rectangular movable block 511 through screw thread fit's mode in pivoted in-process and removes in rectangular spout 510, screw thread fit through screw rod 512 and rectangular movable block 511 for support 54 can lock after rotatory, prevents support 54 automatic rotation under the action of gravity of storage section of thick bamboo 55.

Referring to fig. 1, 2, 3, 4 and 5, the material taking assembly comprises a rack 10 with a structure, wherein an opening arranged on the upper end surface of a processing base 1 is downward, one vertical section of the rack 10 is positioned between two sliding grooves, a horizontal section of the rack 10 and a vertical section close to the sliding grooves are jointly provided with pulling grooves 11 which are uniformly distributed along the length direction and are of an inverted L-shaped structure, two receiving rollers 12 which are vertically symmetrically distributed are rotationally connected at corners of the pulling grooves 11, the vertical sections of the pulling grooves 11 are jointly and slidingly connected with a receiving plate 13, a supporting seat 14 is arranged on the upper end surface of the receiving plate 13, a plurality of groups of receiving pieces which are uniformly distributed along the length direction are arranged on the supporting seat 14, each receiving piece consists of a mouth plate 15 fixedly connected on the supporting seat 14 and two arc-shaped seats 16 hinged at the middle part of the mouth plate 15, the arc seat 16 is used for supporting and fixing the winding core 4, the arc seat 16 is connected with the die plate 15 through the pushing spring 17, a plurality of guide grooves 18 which are uniformly distributed along the length direction of the guide grooves 18 are formed at the top of the placing frame 10, the guide grooves 18 and the pulling grooves 11 are staggered, the guide grooves 18 are connected with the sliding plate 19 in a sliding way, the top of the sliding plate 19 is provided with the clamping groove, the driving strip 20 is connected in the sliding way in the clamping groove, the end surface of the driving strip 20 far away from the clamping plate 2 is provided with the arc groove 21, the arc groove 21 is rotationally connected with the bearing rod 22, the top of the bearing rod 22 and the top of the sliding plate 19 are respectively provided with the arc clamping plates 24 which are uniformly distributed along the length direction of the bearing rod 22, the arc clamping plates 24 at the top of the bearing rod 22 are symmetrically distributed with the arc clamping plates 24 at the top of the sliding plate 19, the arc clamping plates 24 at the top of the bearing rod 22 are connected with the arc groove 21 through the supporting spring 26, the bottom of the sliding plate 19 is provided with a Z-shaped pull rod 27 which is in sliding connection with the pull groove 11 at one end far away from the receiving rollers 12, the Z-shaped pull rod 27 is provided with a rope 28, and the rope 28 passes through between the two receiving rollers 12 and is connected with the receiving plate 13.

The winding core 4 between the two propping and fixing seats 3 is placed downwards from the tops of the two arc-shaped seats 16 in the process of winding the textile fabric, the winding core 4 extrudes the two arc-shaped seats 16 in the same group to rotate along a hinging point, the arc-shaped seats 16 are rotationally extruded to push the springs 17 to shrink, the winding core 4 enters between the two arc-shaped seats 16 in the same group, then the springs 17 are pushed to push the arc-shaped seats 16 to reset and fix the winding core 4, and the winding core 4 on the arc-shaped seats 16 is used for standby replacement.

After the winding of the textile fabric is completed by the winding core 4 between the abutting seats 3, the sliding plate 19 moves along the guide groove 18 towards the winding core 4 wound with the textile fabric, when the arc clamping plates 24 close to the winding core 4 are abutted against the wound textile fabric, the arc clamping plates 24 rotate downwards to extrude the supporting springs 26 and then move from the lower side of the wound textile fabric, after the arc clamping plates 24 pass over the wound textile fabric, the arc clamping plates 24 reset under the elastic action of the supporting springs 26, the wound textile fabric is positioned between the arc clamping plates 24 on two sides distributed along the width direction of the placing frame 10, the arc clamping plates 24 fixed on the sliding plate 19 are tightly attached to the textile fabric, then the driving strip 20 drives the arc clamping plates 24 on the supporting rod 22 to move towards the textile fabric until the arc clamping plates 24 on the two sides distributed along the width direction of the placing frame 10 clamp the textile fabric, then the two clamping plates 2 move, the winding core 4 is not abutted against and fixed, and finally the arc clamping plates 19 drive the arc clamping plates 24 to clamp the textile fabric along the guide groove 18, so that the textile fabric is coiled down, the problem that the labor is wasted when the wound textile fabric is manually and the labor is reduced after the winding is removed.

When the slipping plate 19 drives the coiled woven fabric roll to move and take down, the slipping plate 19 pulls the bearing plate 13 and the roll core 4 above the bearing plate 13 through the rope 28 to move upwards until the top of the bearing plate 13 is flush with the bottom of the bearing roller 12 positioned at the lower side, at the moment, the bearing plate 13 cannot move upwards any more, the roll core 4 on the arc-shaped seat 16 is aligned with the circle center of the abutting seat 3, then the two clamping plates 2 move, the roll core 4 is clamped and fixed through the abutting seat 3, so that the function of automatically and accurately installing the roll core 4 is realized, the problem that the placing position is inaccurate when the roll core 4 is placed between the two abutting seats 3 by manpower and needs to be adjusted for many times is prevented, then the spun fabric after being coiled on the slipping plate 19 is taken down, the slipping plate 19 moves towards the roll core 4, the bearing plate 13 slides downwards under the action of gravity, and the arc-shaped seat 16 is separated from the roll core 4.

Referring to fig. 5, the top of each of the two arc seats 16 in each group is provided with a rubber arc guide plate 160, the two arc guide plates 160 are arranged in an inverted splayed shape, and the arc guide plates 160 have an arc structure so as to facilitate the placement of the winding core 4 between the arc seats 16 on both sides to fix and limit the winding core 4.

Referring to fig. 5, the top of the arc clamping plate 24 connected to the receiving rod 22 and the sliding plate 19 is in an arc structure, so that when the sliding plate 19 moves, the arc clamping plate 24 on the receiving rod 22 is prevented from scraping the woven cloth when the receiving rod 22 is abutted against and rotated with the wound woven cloth roll.

Referring to fig. 5, balls 161 are uniformly arranged in the two opposite arc concave surfaces of the arc-shaped seat 16 in a rolling manner, and the balls 161 are used for reducing friction force when the winding core 4 moves along the axial direction when the supporting and fixing seat 3 clamps and fixes the winding core 4.

In operation, it should be noted that the sliding operation of the sliding plate 19, the driving bar 20, and the clamping plate 2 in the present application may be driven by an existing driving device, such as an electric slider, an electric push rod, or an air cylinder.

One of them supports and is connected with current driving motor after solid seat 3 runs through grip block 2, slide through supporting solid seat 3 and support tightly fixed back with core 4 when two grip blocks 2 along the slide groove, driving motor drives through the seat of keeping out and rolls up core 4 and rotate the winding of weaving cloth, cylinder 57 supports tightly on the weaving cloth of coiling this moment, not only adsorb impurity and dust on the weaving cloth, support cloth and core 4 simultaneously tightly, make the winding of cloth inseparabler, play the effect of a tractor serves several times, afterwards, drive arc splint 24 through sliding plate 19 after the cloth winding, then take off the weaving cloth after the winding through two arc splint 24, the cloth after having avoided the winding is rolled up heavier, take down through the manual work and waste time and energy, reduce the problem of winding efficiency, simultaneously arc splint 24 is with the winding down of cloth after, two arc splint 16 upwards send the core 4 of the non-winding cloth, then be fixed with core 4 through two grip blocks 2, thereby realize the automatic and accurate function of installing of core 4, prevent the manual work and place core 4 and place the fixed position of keeping down between two supports and fix the position and need not adjust the problem many times.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (7)

1. The utility model provides a textile fabric processing rolling equipment which characterized in that: the processing base (1) is included, two sliding position grooves which are symmetrically arranged along the length direction of the processing base (1) are formed in the top of the processing base (1), clamping plates (2) are connected to the sliding position grooves in a sliding mode, a pressing block is connected to the opposite surfaces of the two clamping plates (2) in a rotating mode, a rolling core (4) is fixedly arranged between the two pressing blocks (3), a supporting frame (5) which is symmetrically arranged along the length direction of the processing base (1) is arranged at the top of the processing base (1), the two clamping plates (2) are located between the two supporting frames (5), clamping grooves which are used for clamping the ends of the supporting frames (5) are formed in the opposite surfaces of the two clamping plates (2), pressing blocks are respectively formed in the opposite surfaces of the two supporting frames (5), pressing blocks are connected to the top of the pressing blocks in a sliding mode and the pressing grooves (50) through pressing springs (51), pressing frames (54) are arranged on the opposite surfaces of the two pressing blocks, a first lug plate (52) which is arranged along the length direction of the first lug plate (52) and a second lug plate (52) which is arranged at the bottom of the pressing block (54), a second lug plate (53) is connected to the first lug plate (52) which is arranged on the second lug plate (52), a second lug plate (53) which is arranged on the second lug plate (52), and the second lug plate (52) which is connected to the second lug plate (52) which is arranged on the lug plate (52, an end cover is installed to one end of a storage cylinder (55) close to a first otic placode (52) through screw thread fit's mode, the equal fixedly connected with rotation axis (56) of the other end of end cover and storage cylinder (55), the cover of rotating on storage cylinder (55) is equipped with cylinder (57), dust absorption hole (58) of evenly arranging along its circumference have been seted up to the lateral wall of cylinder (57), dust absorption groove has been seted up to the annular wall bottom of storage cylinder (55), install suction nozzle (59) between two inner walls of arranging along its axial direction of storage cylinder (55), suction cavity board (501) are installed through the connecting plate of symmetrical arrangement to the cross-section shape of suction nozzle (59), suction cavity board (501) are located the top of suction nozzle (59), filter hole has been seted up to the bottom of suction cavity board (501), suction pipe (502) are installed to the one end that a first otic placode (52) was kept away from to suction cavity board (501), install the extracting subassembly on processing base (1).

2. A textile fabric processing and winding device as claimed in claim 1, wherein: the utility model discloses a magnetic storage device, including a pressure frame (54), a storage tube (55), a rotary shaft (56), a rectangular block (541) is arranged on the bottom of the pressure frame (54), a rectangular block (541) is arranged on two rotary shafts (56), a rectangular groove which is clamped with the rectangular block (541) is arranged on the opposite surfaces of the first and second ear plates (52, a connecting groove (542) which penetrates the pressure frame (54) is arranged on the rectangular groove on the second ear plate (53), a connecting pipe which is communicated with the connecting groove (542) is arranged on the pressure frame (54), an exhaust tube (502) penetrates through the storage tube (55), the rotary shaft (56) and the rectangular block (541) and then is communicated with the connecting groove (542), magnets (543) are arranged on the inner side walls of the first ear plate (52) and the sliding groove (540) which are close to the second ear plate (53), and the magnetism of the two magnets (543) is opposite.

3. A textile fabric processing and winding device as claimed in claim 1, wherein: one of them lower briquetting is close to the terminal surface of supporting pressure frame (54) and has seted up rectangle spout (510), and the sliding connection has rectangle movable block (511) in rectangle spout (510), and the terminal surface that rectangle movable block (511) kept away from rectangle spout (510) is connected with screw rod (512) through screw-thread fit's mode, and screw rod (512) are connected with supporting pressure frame (54), and the terminal surface that supports pressure frame (54) and keep away from rectangle movable block (511) is rotated with the lower briquetting that is close to mutually through the spliced pole and is connected.

4. A textile fabric processing and winding device as claimed in claim 1, wherein: the material taking assembly comprises a rack (10) with a structure, wherein an opening arranged on the upper end surface of a processing base (1) is downward, one vertical section of the rack (10) is positioned between two sliding grooves, a pulling groove (11) which is of an inverted L-shaped structure and is evenly distributed along the length direction of the horizontal section of the rack (10) and the vertical section which is close to the sliding grooves is jointly formed in the vertical section, two receiving rollers (12) which are symmetrically distributed up and down are rotationally connected at the corners of the pulling groove (11), receiving plates (13) are connected with the vertical sections of the pulling grooves (11) in a sliding manner, supporting seats (14) are arranged on the upper end surfaces of the receiving plates (13), a plurality of groups of receiving members which are evenly distributed along the length direction of the supporting seats (14) are arranged on the supporting seats, two arc-shaped seats (16) which are hinged at the middle parts of the mouth-shaped plates (15) are fixedly connected with each other, a plurality of guide grooves (18) which are evenly distributed along the length direction of the top of the supporting seats (19) are formed in the sliding grooves (18) are evenly distributed along the sliding grooves (18), the clamping groove sliding connection has drive strip (20), arc wall (21) have been seted up to the terminal surface that drives strip (20) and keep away from clamping plate (2), arc wall (21) internal rotation is connected with and holds pole (22), arc splint (24) that are evenly arranged along holding pole (22) length direction are all installed at the top of holding pole (22) and the top of sliding plate (19), arc splint (24) at holding pole (22) top and arc splint (24) symmetry arrangement at sliding plate (19) top, be connected through supporting spring (26) between arc splint (24) and arc wall (21) at holding pole (22) top, Z pull rod (27) with pulling groove (11) sliding connection are installed to the one end that holds bottom of sliding plate (19), install rope (28) on Z pull rod (27), be connected with holding plate (13) after rope (28) pass between two holding rolls (12).

5. A textile fabric processing and winding apparatus as claimed in claim 4 wherein: the tops of the two arc-shaped seats (16) in each group are provided with arc guide plates (160) made of rubber materials, and the two arc guide plates (160) are distributed in an inverted splayed shape.

6. A textile fabric processing and winding apparatus as claimed in claim 4 wherein: the tops of the arc clamping plates (24) connected with the bearing rods (22) and the sliding plates (19) are arc structures.

7. A textile fabric processing and winding apparatus as claimed in claim 4 wherein: the two arc-shaped concave surfaces opposite to the arc-shaped seats (16) are internally and rotatably connected with balls (161) which are uniformly distributed.

Images