CN117682384B - Silk winder structure for composite crepe jacquard fabric - Google Patents

Abstract

The invention discloses a winder structure for a compound crepe fabric jacquard fabric, which relates to the technical field of winder related, and comprises a mechanical base, a mechanical frame, a tensioning control mechanism, a winding and winding assembly and a stacking and blanking assembly, wherein a plurality of mechanical frames are arranged at the top of the mechanical base, a tensioning control mechanism is arranged in the mechanical frames in parallel, the tensioning control mechanism is driven by a servo motor, and the servo motor is arranged on the side surface of the mechanical frames; according to the invention, when the yarn is wound and wound, the cleaning operation of the yarn can be automatically realized through the cleaning roller brush, the probability that impurities on the surface of the yarn are wound to the outer side of the winding roller and participate in subsequent processing and production is reduced, the quality of the processed and produced fabric is improved, meanwhile, the cleaned impurities outside the cleaning roller brush can be adsorbed, the probability that the impurities outside the cleaning roller brush are reattached to the outside of the yarn is reduced, and secondary pollution is prevented.

Description

Silk winder structure for composite crepe jacquard fabric

Technical Field

The invention relates to the technical field of silk winders, in particular to a silk winder structure for a compound crepe fabric jacquard fabric.

Background

Jacquard silk is a silk fabric in a complex knitting form, namely silk with various patterns is knitted by using jacquard to make warp and weft staggered points, and belongs to one of the main types of silk, wherein the jacquard silk knitted by using the composite crepe fabric is the most common type, and a winder is needed to be used for knitting the jacquard silk, so that silk blanks in different shapes are wound into cone yarns with certain specification shapes.

The prior Chinese patent application with the publication number of CN107738953A discloses a precise digital winder, which comprises an electrical cabinet and a rack, wherein a control panel is arranged at the top end of the electrical cabinet, a winding device is arranged on the rack, five groups of winding devices are equidistantly arranged, a reciprocating yarn guide box mechanism is arranged below the winding device, five groups of reciprocating yarn guide box mechanisms are arranged, each group of reciprocating yarn guide box mechanisms are positioned below the middle of two adjacent groups of winding devices, unwinding devices are arranged below the five groups of reciprocating yarn guide box mechanisms, each unwinding device comprises an unwinding motor base and a yarn cake support, shields are fixedly arranged at two ends of the yarn cake support, a transmission shaft is fixedly connected to the shield close to one side of the unwinding motor base, and a movable chuck is arranged on the shield far away from one side of the unwinding motor base; according to the invention, through the tension value set by the spinning cake supporting and unwinding device according to the process requirement, real-time closed loop following (stepless speed regulation of the unwinding rotating speed) can be realized, the constant tension of the unwinding yarn is ensured, the abrasion in the yarn unwinding process is reduced, and the inherent characteristics of the fiber are effectively maintained.

However, this winder structure has the following drawbacks when used specifically:

1. When the existing winder structure processes the fabric, the processed yarn needs to be subjected to yarn winding treatment so as to facilitate subsequent textile reprocessing, wherein in order to ensure the quality of the yarn during winding, the tension of the wound yarn needs to be adjusted, but when the operation is actually performed, the surface of the wound yarn is inevitably adhered with partial impurities (yarn scraps and the like) during actual processing, and the impurities are synchronously wound outside a yarn winding roller during subsequent yarn winding and participate in subsequent fabric processing operation so as to influence the quality of the processed fabric;

2. The existing winder structure is after processing the fabric, needs to pile up neatly to the winding that the rolling was accomplished and collect to make things convenient for subsequent removal unreels, accomplishes the processing of fabric, but traditional winder is after accomplishing the winding, generally lacks the unloading subassembly that corresponds the matching, when carrying out the pile up neatly subsequently, needs the manual operation of staff or the mode that the manipulator snatched the transport to accomplish unloading and pile up neatly, and the cost is higher, and influences the production machining efficiency of winder.

Disclosure of Invention

The invention aims to provide a winder structure for a compound crepe fabric jacquard fabric, so as to solve the problems in the background art.

In order to achieve the aim of the invention, the invention adopts the following technical scheme:

The invention provides a winder structure for a composite crepe fabric jacquard fabric, which comprises a mechanical base, a mechanical frame, a tensioning control mechanism, a winding and winding assembly and a stacking and blanking assembly, wherein a plurality of mechanical frames are arranged at the top of the mechanical base, a plurality of mechanical frames are arranged in parallel, the tensioning control mechanism is arranged in the mechanical frame and driven by a servo motor, the servo motor is arranged on the side surface of the mechanical frame, the stacking and blanking assembly is further arranged at the top of the mechanical frame, the winding and winding assembly is arranged above the stacking and blanking assembly, and the tensioning control mechanism further comprises:

the gear telescopic assembly is arranged in the connecting part, the connecting part is arranged in the mechanical frame, and the side surface of the gear telescopic assembly is movably connected with a guide wheel and is driven by the servo motor;

The guide wire cleaning assembly is arranged in the gear telescopic assembly and driven by a servo motor, the servo motor is arranged on the side face of the gear telescopic assembly, an impurity collecting box is further arranged below the guide wire cleaning assembly, and the impurity collecting box is arranged on the inner side of the gear telescopic assembly;

The top of machinery base still installs locating component, locating component and gear flexible subassembly, rolling twine subassembly and pile up neatly unloading subassembly one-to-one, the control port is still installed to the side of machinery frame.

As a preferable scheme of the invention, the winding and spooling assembly comprises a spooling seat, the spooling seat is arranged at the top of the mechanical frame through a screw, a spindle motor is arranged at one side of the spooling seat, an output end of the spindle motor is connected with an air cylinder clamp, and the air cylinder clamp is positioned at the side surface of the spooling seat; the winding roller is arranged on the side face of the cylinder clamp.

As a preferable scheme of the invention, raceway grooves are arranged on the left side and the right side of the interior of the winding roller, and a stacking blanking assembly is connected to the lower side of the winding roller through the raceway grooves.

As a preferred scheme of the invention, the stacking and blanking assembly comprises a blanking slide rail, wherein the blanking slide rail is arranged at the top of the mechanical frame and extends to the outer side of the mechanical frame, and the top of the blanking slide rail extends to the inner part of the raceway groove and is in sliding connection with the raceway groove; the lower carriage, the lower carriage is installed the outside of unloading slide rail, and be provided with two sets of, the lower carriage is installed and is fixed in the side of machinery frame, the support frame is installed to the bottom of lower carriage, the side at the machinery frame is installed to the support frame.

As a preferred embodiment of the present invention, the gear telescopic assembly includes:

the inner frame is arranged in the connecting part and extends to the inside of the lower bracket, and the inner side of the inner frame is connected with a tooth bar in a sliding way;

The transmission gear is connected to the top of the tooth bar in a meshed mode and is rotatably connected to the inside of the connecting part, a rotating shaft is arranged in the center of the inside of the transmission gear, and the rotating shaft is connected with the output end of the servo motor;

The side face of the tooth bar is provided with a first connecting seat, and the inner side of the first connecting seat is movably connected with a guide wheel;

the lower connecting frame is arranged on the outer side of the tooth bar through bolts and is provided with two groups, a second connecting seat is arranged on the inner side of the bottom of the lower connecting frame, and the inner side of the second connecting seat is movably connected with another group of guide wheels.

As a preferable scheme of the invention, the first connecting seat and the second connecting seat are both concave and are positioned on the same vertical surface, and a guide wire cleaning assembly is arranged between the first connecting seat and the second connecting seat;

Wherein, the servo motor is installed to the side of lower link.

As a preferred aspect of the present invention, the guide wire cleaning assembly includes:

the inner baffle is fixedly arranged on the inner side of the lower connecting frame and provided with two groups, and the inner baffle is positioned between the first connecting seat and the second connecting seat;

the rotating shaft is connected with the output end of the servo motor and is movably connected with the inner side of the inner baffle, and the outer side of one end of the rotating shaft is connected with a first transmission belt through a belt pulley;

the first driving belt is movably connected to the side face of the inner baffle;

The cleaning roller brush is connected to the inner side of the first driving belt through a belt pulley at the outer part of the shaft end and is arranged far away from the rotating shaft;

the second driving belt is connected to the outer side of the rotating shaft through a belt pulley and is far away from the first driving belt, and the second driving belt is movably connected to the side face of the inner baffle;

The shaft rod is connected to the inner side of the second transmission belt through a belt pulley and is far away from the rotating shaft, rotating gears are fixedly arranged on the outer side of the shaft rod, and two groups of rotating shafts are movably connected to the inner side of the inner baffle plate;

the transmission toothed belt is connected to the outer side of the rotating gear in a meshed mode and extends to the inner portion of the impurity collecting box, an adsorption belt is arranged on the outer side of the transmission toothed belt, and the adsorption belt is located on the side face of the cleaning roller brush.

As a preferable scheme of the invention, the first driving belt and the second driving belt are respectively positioned at two sides of the cleaning roller brush, and the adsorption belt adsorbs impurities on the side surface of the cleaning roller brush;

Wherein, the cleaning roller brush and the guide wheel are positioned on the same vertical surface.

As a preferable scheme of the invention, an introducing groove is formed in the inner top of the impurity collecting box, and the sectional area of the introducing groove is larger than that of the adsorption belt;

Wherein, the inner bottom of impurity collecting box is provided with the scraper blade, the scraper blade is located the below of absorption belt.

As the preferable scheme of the invention, the positioning component comprises a central column body, wherein the central column body is arranged at the top of the connecting chassis, the connecting chassis is arranged at the top of the mechanical base, and the outer side of the central column body is provided with outer limiting rods in an annular equidistant manner.

Compared with the prior art, the above technical scheme has the following beneficial effects:

1. According to the winder structure for the composite crepe fabric jacquard fabric, when yarns (used for weaving and processing jacquard fabric) are wound and wound, a servo motor drives an output end rotating shaft, a first driving belt and a cleaning roller brush to operate, so that the cleaning roller brush can rotate, the cleaning operation of the yarns is automatically realized, impurities on the surfaces of the yarns are reduced to be wound to the outer sides of winding rollers and participate in the probability of subsequent processing and production, the quality of the processed and produced fabrics is improved, the rotating shaft can synchronously drive a second driving belt, a shaft rod, a rotating gear, a driving toothed belt and an adsorption belt which are connected with the outer sides of the rotating shaft through belt pulleys to operate when rotating, at the moment, the transmission of the adsorption belt can carry out impurity adsorption operation on the cleaning roller brush for cleaning the yarns, the probability that the impurities outside the cleaning roller brush are reattached to the outer parts of the yarns is reduced, secondary pollution is prevented, and the adsorption belt for adsorbing the impurities can finish impurity separation operation through a scraping plate and collect the impurities to the inner parts of an impurity collection box, so that the collection operation after the impurity separation of the yarns is finished;

2. According to the winder structure for the composite crepe fabric jacquard fabric, when yarn is wound, the air cylinder clamp can clamp and fix the winding roller, after the fixation is completed, the air cylinder clamp at the output end and the winding roller are driven by the spindle motor to rotate, automatic winding operation of the yarn is completed, at the moment, the winding roller for winding is completed, the winding roller can slide at the top of a blanking sliding rail through the internally arranged raceway grooves by pushing of the next group of winding rollers, the winding roller can automatically move to the top of a lower bracket, further, subsequent stacking operation of the winding roller is facilitated, and meanwhile, the stacking and blanking cost can be reduced;

3. according to the winder structure for the composite crepe jacquard fabric, when the yarn is actually wound, the servo motor drives the output end rotating shaft, the transmission gear, the tooth bar, the first connecting seat, the lower connecting frame, the second connecting seat and the guide wheel to operate, the distance between the guide wheel and the mechanical frame is adjusted, the adjustment operation of the tensioning force of the yarn is realized, and the winding quality of the yarn is further ensured, wherein two groups of guide wheels for tensioning force adjustment are arranged on the same vertical surface, when the yarn is supported, the follow-up cleaning roller brush can be in a vertical state when the yarn is cleaned, and the cleaning is more thorough;

4. The roller path groove is formed in the yarn winding roller, so that after yarn winding is completed, the yarn can be conveniently fed and slid through the roller path groove at the top of the blanking slide rail, and when the yarn winding roller rotates for winding, the roller path groove formed in the yarn winding roller can be used for supporting the yarn winding roller through the blanking slide rail matched with the roller path groove, the stability of the yarn winding roller during rotation is guaranteed, and meanwhile, the efficiency of the yarn winding roller during winding can be improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention.

Furthermore, the terms "install," "set," "provided," "connected," and "sleeved" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the overall side view of the present invention;

FIG. 3 is a schematic overall elevational view of the present invention;

FIG. 4 is a schematic view of the overall top view of the present invention;

FIG. 5 is a schematic structural view of the connection of the winding and spooling assembly and the blanking slide rail of the present invention;

FIG. 6 is a schematic illustration of the connection of the mechanical frame and the tension control mechanism of the present invention;

FIG. 7 is a schematic diagram of the connection of the tension control mechanism and the servo motor of the present invention;

FIG. 8 is a schematic illustration of the connection of a servo motor and a gear telescoping assembly of the present invention;

FIG. 9 is a schematic illustration of the structure of the present invention with the guidewire cleaning assembly and servo motor connected in cross-section;

FIG. 10 is a schematic view of a connection cross-section of a guidewire cleaning assembly and an impurity collection box of the present invention;

FIG. 11 is a schematic view of the positioning assembly of the present invention;

In the figure:

10. A mechanical base;

20. a mechanical frame; 20i, a connection part;

30. a tension control mechanism; 30i, a servo motor;

40. winding and spooling components; 401. a thread winding seat; 402. a spindle motor; 403. a cylinder clamp; 404. winding roller; 404i, track grooves;

50. stacking and blanking components; 501. a blanking slide rail; 502. a lower bracket; 503. a support frame;

60. A gear telescoping assembly; 60i, a guide wheel; 601. an inner frame; 602. tooth bar; 603. a transmission gear; 604. a rotating shaft; 605. a first connection base; 606. a lower connecting frame; 607. a second connecting seat;

70. a guidewire cleaning assembly; 70i, servo motor; 701. an inner baffle; 702. a rotating shaft; 703. a first belt; 704. cleaning a roller brush; 705. a second belt; 706. a shaft lever; 707. rotating the gear; 708. a drive toothed belt; 709. an adsorption belt;

80. an impurity collection box; 80a, an introduction groove; 80b, a scraper;

90. a positioning assembly; 901. a central column; 901i, connecting the chassis; 902. an outer limit rod;

100. and a control port.

Detailed Description

In order that those skilled in the art will better understand the present application, a technical solution in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present application without making any inventive effort, shall fall within the scope of the present application.

Referring to fig. 1-11, a winder structure for a composite crepe fabric jacquard fabric comprises a mechanical base 10, a mechanical frame 20, a tensioning control mechanism 30, a winding and winding assembly 40 and a stacking and blanking assembly 50, wherein a plurality of mechanical frames 20 are installed at the top of the mechanical base 10, a plurality of mechanical frames 20 are arranged in parallel, the tensioning control mechanism 30 is arranged in the mechanical frames 20, the tensioning control mechanism 30 is driven by a servo motor 30i, the servo motor 30i is installed on the side surface of the mechanical frames 20, the stacking and blanking assembly 50 is also installed at the top of the mechanical frames 20, the winding and winding assembly 40 is arranged above the stacking and blanking assembly 50, the tensioning control mechanism 30 further comprises a gear telescopic assembly 60, the gear telescopic assembly 60 is installed in a connecting part 20i, the connecting part 20i is arranged in the mechanical frames 20, and the side surface of the gear telescopic assembly 60 is movably connected with a guide wheel 60i and is driven by the servo motor 30 i; the guide wire cleaning assembly 70, the guide wire cleaning assembly 70 is arranged in the gear telescopic assembly 60 and is driven by a servo motor 70i, the servo motor 70i is arranged on the side surface of the gear telescopic assembly 60, the impurity collecting box 80 is further arranged below the guide wire cleaning assembly 70, and the impurity collecting box 80 is arranged on the inner side of the gear telescopic assembly 60; the top of the mechanical base 10 is also provided with a positioning assembly 90, the positioning assembly 90 corresponds to the gear telescopic assembly 60, the winding and spooling assembly 40 and the stacking and blanking assembly 50 one by one, and the side surface of the mechanical frame 20 is also provided with a control port 100.

The working principle is as follows: when winding yarn, firstly, place the yarn of rolling in the inboard of locating component 90, afterwards, when actually carrying out the winding, the yarn walks around the outside of leading wheel 60i, and twine to the outside of winding subassembly 40, at this moment, through the operation of winding subassembly 40, can carry out winding to yarn part, in order to facilitate the subsequent processing to yarn, and when actually carrying out winding to yarn, the mode that the flexible subassembly 60 of accessible servo motor 30i starts the gear and moves, make the leading wheel 60i that the flexible subassembly 60 side of gear is connected carry out flexible removal, through changing the angle and the position of yarn, change the tensioning force of yarn, satisfy yarn winding and quality, wherein, the leading wheel 60i that guides, the mode that the clearance subassembly 70 of guide wire that installs of its inboard can pass through servo motor 70i in step and operate, make clearance that clearance subassembly 70 can be continued to the yarn side of winding this moment, and move to the impurity collection box of bottom inside, thereby clear up the operation when carrying out winding to yarn, the winding, accomplish the yarn that is waited to push the yarn of winding, can accomplish the automatic pile up operation of winding roller that the yarn is carried out at the subsequent winding roller that the winding is moved at the top of yarn, the completion is convenient for the winding roller to complete the next winding of winding.

Referring specifically to fig. 5, the winding and spooling assembly 40 includes a spooling seat 401, the spooling seat 401 is mounted on the top of the mechanical frame 20 by a screw, a spindle motor 402 is mounted on one side of the spooling seat 401, an output end of the spindle motor 402 is connected with a cylinder clamp 403, and the cylinder clamp 403 is located on the side surface of the spooling seat 401; a winding roller 404, the winding roller 404 being mounted on the side of the cylinder clamp 403.

In this embodiment, the left and right sides inside the winding roller 404 are provided with the raceway grooves 404i, the lower side of the winding roller 404 is connected with the stacking blanking assembly 50 through the raceway grooves 404i, and the winding roller 404 can perform stable blanking operation on the top of the stacking blanking assembly 50 through the design of the raceway grooves 404 i.

According to the winder structure for the composite crepe fabric jacquard fabric, when yarn is wound, the fixing of the winding roller 404 is finished through the cylinder clamp 403, then the yarn is wound on the outer side of the winding roller 404, and the winding and winding of the yarn are finished through a mode that the output end cylinder clamp 403 and the winding roller 404 are driven to rotate through the spindle motor 402, wherein a raceway groove 404i in the winding roller 404 can rotate at the top of the stacking and blanking assembly 50, and the stability of the winding roller 404 in rotation can be guaranteed through the stacking and blanking assembly 50.

Referring specifically to fig. 4, the stacking and blanking assembly 50 includes a blanking slide rail 501, where the blanking slide rail 501 is mounted on the top of the machine frame 20 and extends to the outside of the machine frame 20, and the top of the blanking slide rail 501 extends to the inside of the raceway groove 404i and is slidably connected with the raceway groove 404 i; the lower carriage 502, the lower carriage 502 is installed in the outside of unloading slide rail 501, and is provided with two sets of, and the side at the mechanical frame 20 is fixed in the lower carriage 502 installation, and support frame 503 is installed to the bottom of lower carriage 502, and support frame 503 installs the side at the mechanical frame 20.

According to the winder structure for the composite crepe fabric jacquard fabric, after the winding roller 404 finishes winding and winding operation of yarns, the cylinder clamp 403 releases clamping and fixing of the winding roller 404, then the winding roller 404 is stopped at the top of the blanking slide rail 501, when the next group of winding rollers 404 are used for winding and winding yarns, the winding roller 404 can push the previous group of winding rollers 404, the winding roller 404 can slide at the top of the blanking slide rail 501 through the raceway groove 404i in the winding roller 404, the winding roller 404 can be automatically moved to the top of the lower bracket 502 through the inclined part at the top of the blanking slide rail 501, the supporting frame 503 can support the blanking slide rail 501, the collecting frame is arranged on the side surface of the supporting frame 503, and the blanking winding rollers 404 can be collected.

Referring specifically to fig. 7 and 8, the gear telescopic assembly 60 includes an inner frame 601, the inner frame 601 is mounted inside the connection part 20i and extends to the inside of the lower bracket 502, and a tooth bar 602 is slidingly connected to the inner side of the inner frame 601; the transmission gear 603, the transmission gear 603 is engaged and connected to the top of the tooth bar 602, and is rotatably connected to the inside of the connecting part 20i, a rotation shaft 604 is installed at the center of the inside of the transmission gear 603, and the rotation shaft 604 is connected with the output end of the servo motor 30 i; the lower connecting frame 606, the lower connecting frame 606 is arranged at the outer side of the tooth bar 602 through bolts, two groups of the lower connecting frame 606 are arranged, the inner side of the bottom of the lower connecting frame 606 is provided with a second connecting seat 607, and the inner side of the second connecting seat 607 is movably connected with the other group of guide wheels 60i; the servo motor 70i is mounted on the side of the lower link frame 606.

In this embodiment, a first connecting seat 605 is installed on a side surface of the tooth bar 602, a guiding wheel 60i is movably connected to an inner side of the first connecting seat 605, and the guiding wheel 60i connected to the side surface of the tooth bar 602 through the first connecting seat 605 can move through movement of the tooth bar 602, and a yarn position set on the side surface of the guiding wheel 60i is adjusted to adjust a tension force during yarn winding.

In addition, in this embodiment, the first connecting seat 605 and the second connecting seat 607 are both set to be concave, and are located on the same vertical plane, and the guide wire cleaning component 70 is disposed between the first connecting seat 605 and the second connecting seat 607, so that the yarn between the first connecting seat 605 and the second connecting seat 607 is in a vertical state through the design of the positions of the first connecting seat 605 and the second connecting seat 607, so that the cleaning of the yarn by the subsequent guide wire cleaning component 70 is facilitated.

According to the winder structure for the composite crepe jacquard fabric, when yarn is wound and wound, the operation of the servo motor 30i can drive the rotating shaft 604 connected with the output end of the servo motor 30i to rotate, the rotation of the rotating shaft 604 drives the transmission gear 603 arranged on the outer side of the rotating shaft to rotate, the rotation of the transmission gear 603 drives the tooth bar 602 meshed with and connected with the outer side of the bottom of the rotating shaft 603 to move, the movement of the tooth bar 602 drives the guide wheel 60i connected with the side of the tooth bar through the first connecting seat 605, and the movement of the tooth bar 602 drives the second connecting seat 607 connected with the outer side of the tooth bar through the lower connecting frame 606 to move, so that the synchronous movement of the other group of guide wheels 60i connected with the side of the second connecting seat 607 is driven, and the adjustment operation of yarn tension is completed.

Referring specifically to fig. 9 and 10, the guide wire cleaning assembly 70 includes an inner baffle 701, wherein the inner baffle 701 is mounted and fixed on the inner side of the lower connecting frame 606, and two groups of inner baffles 701 are provided, and the inner baffle 701 is located between the first connecting seat 605 and the second connecting seat 607; the rotating shaft 702 is connected with the output end of the servo motor 70i, and is movably connected with the inner side of the inner baffle 701, and the outer side of one end of the rotating shaft 702 is connected with a first transmission belt 703 through a belt pulley; the cleaning roller brush 704, wherein the cleaning roller brush 704 is connected to the inner side of the first transmission belt 703 through a belt pulley at the outer part of the shaft end and is arranged far away from the rotating shaft 702; the second driving belt 705, the second driving belt 705 is connected to the outside of the rotating shaft 702 through a belt pulley, and is far away from the first driving belt 703, the second driving belt 705 is movably connected to the side surface of the inner baffle 701; the shaft lever 706, the shaft lever 706 is connected to the inner side of the second transmission belt 705 through a belt pulley, and is arranged far away from the rotating shaft 702, a rotating gear 707 is fixedly arranged on the outer side of the shaft lever 706, and the rotating shaft 702 is provided with two groups and is movably connected to the inner side of the inner baffle 701; the transmission toothed belt 708, the transmission toothed belt 708 is connected to the outer side of the rotary gear 707 in a meshing manner and extends to the inside of the impurity collecting box 80, the adsorption belt 709 is mounted on the outer side of the transmission toothed belt 708, and the adsorption belt 709 is located on the side surface of the cleaning roller brush 704.

In this embodiment, the first driving belt 703 is movably connected to the side surface of the inner baffle 701, the first driving belt 703 and the second driving belt 705 are respectively located at two sides of the cleaning roller brush 704, the adsorption belt 709 adsorbs impurities on the side surface of the cleaning roller brush 704, and the rotation cleaning of the cleaning roller brush 704 and the adhesion adsorption of impurities on the side surface of the cleaning roller brush 704 can be respectively completed through the driving of the first driving belt 703 and the second driving belt 705.

In addition, in this embodiment, the cleaning roller brush 704 and the guiding wheel 60i are located on the same vertical surface, and the cleaning operation of the yarn in the vertical state on the side surface of the guiding wheel 60i can be completed by the cleaning roller brush 704.

According to the winder structure for the composite crepe fabric jacquard fabric, when the yarn is actually wound up, the yarn positioned on the side face of the guide wheel 60i can drive the output end rotating shaft 702 of the yarn to rotate through the servo motor 70i, the cleaning roller brush 704 connected with the outer side of the rotating shaft 702 through the first transmission belt 703 is driven to rotate, the cleaning operation on the yarn is completed through the cleaning roller brush 704, the rotating shaft 702 synchronously drives the outer side of the cleaning roller brush 704 to transmit through the second transmission belt 705 connected with the belt pulley when rotating, the inner side of the second transmission belt 705 is driven to rotate through the shaft 706 connected with the belt pulley, the rotating gear 707 arranged on the outer side of the shaft 706 is driven to rotate, the transmission toothed belt 708 is driven to rotate, the adsorption belt 709 arranged on the inner side of the transmission toothed belt 708 is driven to synchronously drive, the adhesion cleaning operation on the surface of the cleaning roller brush 704 is automatically completed through the adsorption belt 709, and the phenomenon that adhered impurities are adhered to the yarn is prevented from being reattached to the outside is avoided.

Referring specifically to fig. 9 and 10, an introduction groove 80a is provided at the inner top of the impurity collection box 80, the sectional area of the introduction groove 80a is larger than that of the adsorption belt 709, and impurities adsorbed at the side of the adsorption belt 709 can be moved to the inside of the impurity collection box 80 by the design of the introduction groove 80 a.

In this embodiment, the scraper 80b is disposed at the inner bottom of the impurity collection box 80, the scraper 80b is located below the adsorption belt 709, and impurities adsorbed inside the adsorption belt 709 can be separated by the design of the scraper 80b, so that the impurities are finally collected inside the impurity collection box 80.

Referring specifically to fig. 11, the positioning assembly 90 includes a central column 901, the central column 901 is mounted on top of a connection chassis 901i, the connection chassis 901i is mounted on top of a machine base 10, and outer limit rods 902 are disposed on the outer side of the central column 901 in annular equidistant manner.

According to the winder structure for the composite crepe fabric jacquard fabric, the central cylinder 901 is positioned at the inner center of the cylindrical drum for winding yarns, the outer limiting rod 902 is positioned at the outer side of the cylindrical drum, and the unreeled cylindrical drum can be positioned through the design of the outer limiting rod 902 and the central cylinder 901.

The present invention is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present invention and the inventive concept thereof, can be replaced or changed within the scope of the present invention.

Claims (5)

1. A winder structure for compound crepe fabric jacquard fabric, its characterized in that: including mechanical base (10), mechanical frame (20), tensioning control mechanism (30), rolling silk subassembly (40) and pile up neatly unloading subassembly (50), a plurality of mechanical frames (20) are installed at the top of mechanical base (10), and a plurality of mechanical frames (20) set up side by side, the inside of mechanical frames (20) is provided with tensioning control mechanism (30), tensioning control mechanism (30) are driven by servo motor (30 i), servo motor (30 i) are installed in the side of mechanical frame (20), pile up neatly unloading subassembly (50) are still installed at the top of mechanical frame (20), the top of pile up neatly unloading subassembly (50) is provided with rolling silk subassembly (40), tensioning control mechanism (30) still include:

the gear telescopic assembly (60), the gear telescopic assembly (60) is installed in the connecting part (20 i), the connecting part (20 i) is arranged in the mechanical frame (20), and the side surface of the gear telescopic assembly (60) is movably connected with a guide wheel (60 i) and is driven by the servo motor (30 i);

The guide wire cleaning assembly (70), the guide wire cleaning assembly (70) is arranged in the gear telescopic assembly (60) and is driven by a servo motor (70 i), the servo motor (70 i) is arranged on the side face of the gear telescopic assembly (60), an impurity collecting box (80) is further arranged below the guide wire cleaning assembly (70), and the impurity collecting box (80) is arranged on the inner side of the gear telescopic assembly (60);

A positioning assembly (90) is further arranged at the top of the mechanical base (10), the positioning assembly (90) corresponds to the gear telescopic assembly (60), the winding and spooling assembly (40) and the stacking and blanking assembly (50) one by one, and a control port (100) is further arranged on the side face of the mechanical frame (20);

Wherein, pile up neatly unloading subassembly (50) are including:

The blanking slide rail (501), the blanking slide rail (501) is installed at the top of the mechanical frame (20) and extends to the outer side of the mechanical frame (20), and the top of the blanking slide rail (501) extends to the inner part of the raceway groove (404 i) and is in sliding connection with the raceway groove (404 i); and

The lower support (502), the lower support (502) is installed on the outer side of the blanking slide rail (501), two groups of lower supports are arranged, the lower support (502) is installed and fixed on the side face of the mechanical frame (20), a supporting frame (503) is installed at the bottom of the lower support (502), and the supporting frame (503) is installed on the side face of the mechanical frame (20);

wherein, gear expansion assembly (60) is including:

An inner frame (601), wherein the inner frame (601) is mounted inside the connecting part (20 i) and extends to the inside of the lower bracket (502), and a tooth bar (602) is connected to the inner side of the inner frame (601) in a sliding manner;

The transmission gear (603), the transmission gear (603) is connected with the top of the tooth bar (602) in a meshing way and is rotationally connected with the inside of the connecting part (20 i), a rotating shaft (604) is arranged at the center of the inside of the transmission gear (603), the rotating shaft (604) is connected with the output end of the servo motor (30 i),

The side face of the tooth bar (602) is provided with a first connecting seat (605), and the inner side of the first connecting seat (605) is movably connected with a guide wheel (60 i); and

The lower connecting frame (606), the lower connecting frame (606) is arranged at the outer side of the tooth bar (602) through bolts and is provided with two groups, the inner side of the bottom of the lower connecting frame (606) is provided with a second connecting seat (607), the inner side of the second connecting seat (607) is movably connected with another group of guide wheels (60 i),

The guide wire cleaning device comprises a first connecting seat (605) and a second connecting seat (607), wherein the first connecting seat (605) and the second connecting seat (607) are both concave and are positioned on the same vertical surface, and a guide wire cleaning assembly (70) is arranged between the first connecting seat (605) and the second connecting seat (607);

wherein, a servo motor (70 i) is arranged on the side surface of the lower connecting frame (606),

Wherein, seal wire clearance subassembly (70) are including:

An inner baffle plate (701), wherein the inner baffle plate (701) is fixedly arranged on the inner side of the lower connecting frame (606) and is provided with two groups, and the inner baffle plate (701) is positioned between the first connecting seat (605) and the second connecting seat (607);

The rotating shaft (702), the rotating shaft (702) is connected with the output end of the servo motor (70 i) and is movably connected with the inner side of the inner baffle plate (701), the outer side of one end of the rotating shaft (702) is connected with a first transmission belt (703) through a belt pulley,

Wherein the first driving belt (703) is movably connected to the side surface of the inner baffle (701);

The cleaning roller brush (704) is connected to the inner side of the first transmission belt (703) through a belt pulley at the outer part of the shaft end, and is arranged far away from the rotating shaft (702);

The second driving belt (705), the said second driving belt (705) is connected to the outside of the said spindle (702) through the belt pulley, and keep away from the said first driving belt (703) to set up, the said second driving belt (705) connects the side of the inner baffle (701) movably;

The shaft lever (706), the shaft lever (706) is connected to the inner side of the second transmission belt (705) through a belt pulley, and is far away from the rotating shaft (702), a rotating gear (707) is fixedly arranged on the outer side of the shaft lever (706), and the rotating shaft (702) is provided with two groups and is movably connected to the inner side of the inner baffle (701); and

A transmission toothed belt (708), wherein the transmission toothed belt (708) is connected with the outer side of the rotating gear (707) in a meshing way and extends to the inside of the impurity collecting box (80), an adsorption belt (709) is arranged on the outer side of the transmission toothed belt (708), the adsorption belt (709) is positioned on the side surface of the cleaning roller brush (704),

Wherein, the inner top of the impurity collecting box (80) is provided with an introducing groove (80 a), and the sectional area of the introducing groove (80 a) is larger than the sectional area of the adsorption belt (709);

Wherein a scraper (80 b) is arranged at the inner bottom of the impurity collecting box (80), and the scraper (80 b) is positioned below the adsorption belt (709).

2. The winder structure for a composite crepe jacquard fabric according to claim 1, wherein: the winding and spooling assembly (40) comprises a spooling seat (401), the spooling seat (401) is arranged at the top of the mechanical frame (20) through a screw, a spindle motor (402) is arranged on one side of the spooling seat (401), an output end of the spindle motor (402) is connected with an air cylinder clamp (403), and the air cylinder clamp (403) is positioned on the side face of the spooling seat (401); and the winding roller (404), wherein the winding roller (404) is arranged on the side surface of the cylinder clamp (403).

3. The winder structure for a composite crepe jacquard fabric according to claim 2, wherein: the left and right sides inside of wire winding roller (404) are provided with raceway groove (404 i), the below of wire winding roller (404) is connected with pile up neatly unloading subassembly (50) through raceway groove (404 i).

4. The winder structure for a composite crepe jacquard fabric according to claim 1, wherein: the first transmission belt (703) and the second transmission belt (705) are respectively positioned at two sides of the cleaning roller brush (704), and the adsorption belt (709) adsorbs impurities on the side surface of the cleaning roller brush (704);

wherein the cleaning roller brush (704) and the guide wheel (60 i) are positioned on the same vertical plane.

5. The winder structure for a composite crepe jacquard fabric according to claim 1, wherein: the positioning assembly (90) comprises a central cylinder (901), the central cylinder (901) is arranged at the top of a connecting chassis (901 i), the connecting chassis (901 i) is arranged at the top of a mechanical base (10), and outer limit rods (902) are arranged on the outer side of the central cylinder (901) in an annular equidistant mode.