CN117139088B - Fixing device of textile equipment - Google Patents

Abstract

The invention discloses a fixing device of textile equipment, which relates to the technical field of textile equipment and comprises a workbench, a discharging table, a feeding assembly, a dispensing mechanism, a traction mechanism and a control module, wherein the discharging table is fixed on the workbench; the traction mechanism is composed of a group of main traction components, transition components and secondary traction components, wherein the main traction components are suitable for clamping cloth led out from the feeding components, slowly dragging the cloth to the area below the dispensing mechanism, loosening the cloth after the dispensing of the part led out is completed, and leading the cloth into the secondary traction components and leading the cloth out of the secondary traction components under the driving of the rear-end transition components. The invention can fix the fabric and pave the surface in the dispensing process, and can detect the wrinkling state at the same time, thereby improving the dispensing quality.

Description

Fixing device of textile equipment

Technical Field

The invention relates to the technical field of textile equipment, in particular to a fixing device of textile equipment.

Background

The printing and dyeing and finishing process flow of the textile mainly comprises shaping, gluing, calendaring, embossing, gilding, PVC pasting, PU leather pasting, compounding, flocking and the like. The glue dispensing process includes painting, sealing and dropping electronic glue, oil or other liquid onto product, and the glue may be used to make fabric possess waterproof, down preventing, windproof and other functions, and to fix yarn, increase look and feel, thicken hand feeling and other functions. The adhesive is acrylic (also called AC, PA), PU adhesive, moisture permeable and breathable adhesive, and can be processed into transparent adhesive, white adhesive, silver adhesive, color adhesive, pearlescent adhesive, and you li adhesive. Corresponding raw materials can be added into the glue to make the glue have the effects of ultraviolet resistance, flame retardance, yellowing resistance and the like.

The existing dispensing technology is divided into manual dispensing technology, semi-automatic dispensing technology and full-automatic dispensing technology, because manual dispensing is not very accurate in controlling the quantity of glue, meanwhile, labor saving is considered, and generally, a large number of production links can all adopt semi-automatic or full-automatic dispensing equipment, so that the quantity of glue dispensing is guaranteed, and meanwhile, the dispensing efficiency is improved.

For semi-automatic equipment, the fabric can be fixed by manual interference and can be adjusted according to the dispensing position, and the automatic equipment basically can be divided into two forms of tiling transmission and tension pulling by means of a matched transmission mechanism, wherein the tiling transmission needs to spread and tiling the fabric on the transmission mechanism for moving, and the tension pulling is to fix one end of the fabric by using a tensioning mechanism and move the fabric by winding; the surface state of the fabric can not be controlled when dispensing is carried out in a tiling manner, if the fabric is subjected to vibration or other factors in the moving process to cause local wrinkling, the dispensing quality can be affected, the tail end of the fabric can not be considered in tension pulling, namely, if the tail end is separated from the unwinding wheel, the tension state can be lost, and the fabric is identical to tiling movement, and the local wrinkling condition can occur in the moving process.

Disclosure of Invention

The present invention is directed to a fixing device for textile equipment, which solves the above-mentioned problems.

In order to solve the technical problems, the invention provides the following technical scheme: the fixing device of the textile equipment comprises a workbench, a discharging table, a feeding assembly, a dispensing mechanism, a traction mechanism and a control module, wherein the discharging table is fixed on the workbench, the feeding assembly is arranged on the feeding port side of the discharging table, the dispensing mechanism is arranged on the upper side of the discharging table in an erected mode, the traction mechanism is movably arranged on two sides of the discharging table, and the control module is electrically connected with the feeding assembly, the dispensing mechanism and the traction mechanism and is suitable for controlling movement of cloth and a dispensing procedure; the traction mechanism comprises a group of main traction components, transition components and secondary traction components, wherein the transition components are arranged between the main traction components and the secondary traction components, the main traction components are suitable for clamping cloth led out from the feeding components, slowly traction the cloth to the area below the dispensing mechanism, loosening the cloth after the dispensing of the drawn part is completed, and leading the cloth into the secondary traction components under the driving of the rear-end transition components and leading the cloth out of the secondary traction components.

Further, pan feeding subassembly includes casing, free gyro wheel, pinch roller slide rail, pinch roller driver and infrared detection module, wherein the casing is hollow structure and has offered the logical groove that supplies the cloth to pass through around, free gyro wheel erects in the casing, can free rotation, and the pinch roller slide rail sets up in the casing both sides, is located free gyro wheel top, and the pinch roller passes through pinch roller driver slip setting on the pinch roller slide rail, free gyro wheel, pinch roller have the cloth to pass through, infrared detection module sets up in logical groove to the top of discharge gate for the nearest surface fabric signal of distance on measuring the coplanar.

Further, the main traction assembly comprises two groups of oppositely arranged first longitudinal sliding rails, a first longitudinal driver, a first transverse sliding rail and a first magnetic clamp, wherein the first longitudinal driver is arranged on the first longitudinal sliding rails in a sliding mode, the first transverse sliding rail is fixed on the first longitudinal driver, and the first magnetic clamp is arranged on the first transverse sliding rail in a sliding mode.

Further, the first magnetic clamp comprises an electromagnetic half clamp, a guide rod and a movable half clamp, wherein the electromagnetic half clamp is fixed, one end of the guide rod is fixed on the electromagnetic half clamp, the other end of the guide rod is fixed on the fixed plate, and the movable half clamp is movably sleeved on the guide rod.

Further, the electromagnetic half clamps and the movable half clamps are oppositely arranged, the movable half clamps are made of magnetic materials, the electromagnetic half clamps can be electrified and generate magnetic force towards one surface of the movable half clamps after being electrified, the movable half clamps are promoted to climb up until being adsorbed on the electromagnetic half clamps, the clamping function is realized, the magnetic force disappears after power failure, the movable half clamps freely fall down, further, the clamping fabric of the electromagnetic half clamps and the movable half clamps is only limited to thin fabric, and too thick fabric can block the magnetic force to reduce the clamping effect to a certain extent.

Further, the transition subassembly includes drive runner, drive wheelset, driving motor and transition platform, wherein drive runner rotates the setting in the recess of blowing platform cooperation seting up, driving motor passes through drive wheelset and is connected with drive runner, transition platform sets up at drive runner rear side and with its cambered surface cooperation.

Further, the secondary traction assembly comprises a second longitudinal slide rail, a second longitudinal driver, a second transverse slide rail and a second magnetic clamp which are consistent with the primary traction assembly, wherein the second longitudinal driver is arranged on the second longitudinal slide rail in a sliding mode, the second transverse slide rail is fixed on the second longitudinal driver, and the second magnetic clamp is arranged on the second transverse slide rail in a sliding mode.

Further, the dispensing mechanism comprises four fixing columns, a group of dispensing sliding rail sets, a transverse driving air cylinder, a fixing plate, a longitudinal driving air cylinder, a glue gun mounting plate and a glue gun, wherein the dispensing sliding rail sets are fixed at the upper ends of the fixing columns and controlled by the transverse driving air cylinder to be in screw transmission, the fixing plate is fixed at the driving position of the dispensing sliding rail sets, the longitudinal driving air cylinder is fixed on the fixing plate, the driving end is connected with the glue gun mounting plate, and the glue gun is mounted on the glue gun mounting plate.

Further, the specific method is as follows:

s1, feeding: the control module drives the pinch roller driver to drive the pinch roller to move upwards, and is separated from the free roller, the fabric is introduced between the first magnetic clamps of the main traction assembly from the through groove of the shell, and the first magnetic clamps are controlled to be electrified, so that the electromagnetic half clamps and the movable half clamps are tightly clamped and fixed on two sides of the fabric;

s2, wrinkling detection: after the fixation is finished, the control module judges whether wrinkling occurs on the surface of the fabric according to the distance signal detected by the infrared detection module, and if so, the fabric is automatically fine-tuned through the first magnetic clamp;

s3, material pressing: after the fabric is tiled, the control module closes the pinch roller driver to enable the pinch roller to be compacted on the surface of the fabric;

s4, dispensing: the main traction component clamps the fabric and slowly pulls the fabric for a certain distance, the control module controls the dispensing mechanism to move, and dispensing operation is carried out on the fabric within the certain range;

s5, discharging: after dispensing is finished, the main traction assembly loosens the fabric, the control module starts the pinch roller driver, the pinch roller is lifted, and the fabric is pulled to the secondary traction assembly by the transition assembly and is clamped and pulled out by the secondary traction assembly.

Compared with the prior art, the invention has the following beneficial effects: the main traction component can help to pull the fabric, the pressing wheel is matched, the fabric can be kept in a flat state when being fed, the quality of dispensing is prevented from being affected by local wrinkling during dispensing, and the transition component and the secondary traction component are matched, so that the discharged fabric after dispensing can be assisted; through being provided with infrared detection module, can detect the wrinkling condition after the pan feeding in real time to cooperate first magnetism to press from both sides and carry out local fine setting.

Drawings

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

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

FIG. 2 is a partial schematic view of the present invention;

FIG. 3 is a partial cross-sectional view of the present invention;

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

FIG. 5 is a schematic view of a dispensing mechanism according to the present invention;

in the figure:

1. a work table; 2. a discharging table; 3. a feeding assembly; 31. a housing; 32. a free roller; 33. a pinch roller; 34. a pinch roller slide rail; 35. a pinch roller driver; 4. a dispensing mechanism; 41. fixing the column; 42. dispensing slide rail set; 43. a lateral driving cylinder; 44. a fixing plate; 45. a longitudinal driving cylinder; 46. a glue gun mounting plate; 47. a glue gun; 5. a traction mechanism; 51. a main traction assembly; 511. a first longitudinal rail; 512. a first longitudinal driver; 513. a first transverse slide rail; 514. a first magnetic clip; 5141. an electromagnetic half clamp; 5142. a guide rod; 5143. a movable half clip; 52. a transition assembly; 521. driving a rotating wheel; 522. a transmission wheel set; 523. a driving motor; 524. a transition platform; 53. a secondary traction assembly; 531. a second longitudinal rail; 532. a second longitudinal driver; 533. the second transverse sliding rail; 534. a second magnetic clip.

Description of the embodiments

The technical scheme of the present invention is further described in non-limiting detail below with reference to the preferred embodiments and the accompanying drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in the figure, the invention provides the technical scheme that: the fixing device of the textile equipment comprises a workbench 1, a discharging table 2, a feeding assembly 3, a dispensing mechanism 4, a traction mechanism 5 and a control module, wherein the discharging table 2 is fixed on the workbench 1, the feeding assembly 3 is arranged on the feeding port side of the discharging table 2, the dispensing mechanism 4 is erected on the upper side of the discharging table 2, the traction mechanism 5 is movably arranged on two sides of the discharging table 2, and the control module is electrically connected with the feeding assembly 3, the dispensing mechanism 4 and the traction mechanism 5 and is suitable for controlling the movement of cloth and the dispensing process; the traction mechanism 5 comprises a group of main traction components 51, transition components 52 and a secondary traction component 53, wherein the transition components 52 are arranged between the main traction components 51 and the secondary traction components 53, the main traction components 51 are suitable for clamping cloth led out from the feeding components 3, slowly traction to the area below the dispensing mechanism 4, loosening after the dispensing of the part led out is completed, and leading the cloth into the secondary traction components 53 and leading the cloth out of the secondary traction components 53 under the driving of the rear-end transition components 52.

The feeding assembly 3 comprises a shell 31, free rollers 32, a pressing wheel 33, a pressing wheel sliding rail 34, a pressing wheel driver 35 and an infrared detection module, wherein the shell 31 is of a hollow structure, through grooves for cloth to pass through are formed in the front and back of the shell, the free rollers 32 are erected in the shell 31 and can rotate freely, the pressing wheel sliding rail 34 is arranged on two sides in the shell 31 and located above the free rollers 32, the pressing wheel 33 is arranged on the pressing wheel sliding rail 34 in a sliding mode through the pressing wheel driver 35, the free rollers 32 and the pressing wheel 33 are provided with cloth to pass through, and the infrared detection module is arranged above the through grooves facing to a discharge hole and is used for measuring fabric signals with the nearest distance on the same plane.

What needs to be stated is: the free rollers 32 and the pressing wheel 33 are arranged corresponding to the through grooves of the shell 31, and the through grooves can be matched with the clamping positions of the main traction component 51. When the pinch roller driver 35 does not work, the pinch roller 33 is pressed on the fabric on the free roller 32 by the gravity of the pinch roller driver 35, when the pinch roller driver 35 works, the pinch roller 33 can be driven to move on the pinch roller sliding rail 34, when the main traction component 51 pulls after the pinch roller 33 is pressed on the fabric, the pinch roller 33 can play a role in smoothing and tensioning the fabric, and the condition of poor adhesive quality caused by surface wrinkling during fabric conveying can be avoided.

The main traction assembly 51 comprises two sets of oppositely disposed first longitudinal rails 511, a first longitudinal driver 512, a first transverse rail 513, and a first magnetic clip 514, wherein the first longitudinal driver 512 is slidably disposed on the first longitudinal rails 511, the first transverse rail 513 is fixed on the first longitudinal driver 512, and the first magnetic clip 514 is slidably disposed on the first transverse rail 513.

The first magnetic clamp 514 includes an electromagnetic half clamp 5141, a guide rod 5142 and a movable half clamp 5143, wherein the electromagnetic half clamp 5141 is fixed, one end of the guide rod 5142 is fixed on the electromagnetic half clamp 5141, the other end is fixed on the fixing plate, and the movable half clamp 5143 is movably sleeved on the guide rod 5142.

What needs to be stated is: the electromagnetic half clamp 5141 and the movable half clamp 5143 are oppositely arranged, the movable half clamp 5143 is made of a magnetic attraction material, the electromagnetic half clamp 5141 can be electrified and generates magnetic force towards one surface of the movable half clamp 5143 after being electrified, the movable half clamp 5143 is promoted to climb up until being adsorbed on the electromagnetic half clamp 5141, the clamping function is realized, the magnetic force disappears after the power is off, the movable half clamp 5143 freely falls down, further, the clamping fabrics of the electromagnetic half clamp 5141 and the movable half clamp 5143 are limited to thin fabrics, and the too thick fabrics can block the magnetic force to reduce the clamping effect to a certain extent.

The transition assembly 52 comprises a driving rotating wheel 521, a transmission wheel set 522, a driving motor 523 and a transition platform 524, wherein the driving rotating wheel 521 is rotatably arranged in a groove formed by matching the discharging table 2, the driving motor 523 is connected with the driving rotating wheel 521 through the transmission wheel set 522, and the transition platform 524 is arranged at the rear side of the driving rotating wheel 521 and matched with the cambered surface of the driving rotating wheel 521.

What needs to be stated is: the height of the driving wheel 521 is lower than the discharging height of the main traction assembly 51, and two sides of the transition platform 524 respectively correspond to the height of the driving wheel 521 and the feeding height of the secondary traction assembly 53, and after the main traction assembly 51 pulls the fabric to the tail end, the fabric is loosened, is lapped on the driving wheel 521 and is driven to the secondary traction assembly 53 by the driving wheel 521.

The secondary traction assembly 53 includes a second longitudinal rail 531, a second longitudinal driver 532, a second lateral rail 533, and a second magnetic clamp 534 consistent with the primary traction assembly 51, wherein the second longitudinal driver 532 is slidably disposed on the second longitudinal rail 531, the second lateral rail 533 is fixed on the second longitudinal driver 532, and the second magnetic clamp 534 is slidably disposed on the second lateral rail 533.

What needs to be stated is: the structural arrangement and functional effect of the second magnetic clamp 534 is identical to the first magnetic clamp 514.

The dispensing mechanism 4 comprises four fixing columns 41, a group of dispensing sliding rail sets 42, a transverse driving air cylinder 43, a fixing plate 44, a longitudinal driving air cylinder 45, a glue gun mounting plate 46 and a glue gun 47, wherein the dispensing sliding rail sets 42 are fixed at the upper ends of the fixing columns 41 and are controlled by the transverse driving air cylinder 43 to be in screw transmission, the fixing plate 44 is fixed at the driving position of the dispensing sliding rail sets 42, the longitudinal driving air cylinder 45 is fixed on the fixing plate 44, the driving end is connected with the glue gun mounting plate 46, and the glue gun 47 is mounted on the glue gun mounting plate 46.

What needs to be stated is: guide posts are preferably provided between the fixed plate 44 and the gun mounting plate 46 to calibrate the displacement position.

The specific implementation method is as follows:

s1, feeding: the control module drives the pinch roller driver 35 to drive the pinch roller 33 to move upwards, separate from the free roller 32, introduce the fabric from the through groove of the shell 31 between the first magnetic clamps 514 of the main traction assembly 51, control the first magnetic clamps 514 to be electrified, so that the electromagnetic half clamps 5141 and the movable half clamps 5143 are tightly combined and fixed on two sides of the fabric;

s2, wrinkling detection: after the fixation is finished, the control module judges whether wrinkling occurs on the surface of the fabric according to the distance signal detected by the infrared detection module, and if so, the fabric is automatically fine-tuned through the first magnetic clamp 514;

s3, material pressing: after the fabric is laid flat, the control module closes the pinch roller driver 35 to enable the pinch roller 33 to be compacted on the surface of the fabric;

s4, dispensing: the main traction component 51 clamps the fabric and slowly pulls the fabric for a certain distance, the control module controls the dispensing mechanism 4 to move, and the dispensing operation is carried out on the fabric within the certain range;

s5, discharging: after dispensing, the main traction assembly 51 loosens the fabric, and the control module starts the pinch roller driver 35 to lift the pinch roller 33, so that the fabric is drawn to the secondary traction assembly 53 by the transition assembly 52 and is clamped and led out by the secondary traction assembly 53.

Distance.

In S3, the pressing wheel 33 is compacted on the surface of the fabric instead of being pressed on the surface of the fabric, namely, the pressing wheel 33 can move upwards under the action of the fabric force, the fabric tensioning effect can be achieved, meanwhile, the fabric tensioning device can be flexibly adjusted according to actual conditions, and the situation that the fabric is damaged due to too tight pressing of the fabric is avoided.

In the description of the present invention, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "front", "rear", "left", "right", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Finally, it should be pointed out that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting. Although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may be modified or some technical features may be equivalently replaced, and these modifications or replacements do not make the essence of the corresponding technical solutions deviate from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (3)

1. A fixing device of textile equipment, characterized in that: comprising the following steps:

the automatic feeding device comprises a workbench (1), a discharging table (2), a feeding assembly (3), a dispensing mechanism (4), a traction mechanism (5) and a control module, wherein the discharging table (2) is fixed on the workbench (1), the feeding assembly (3) is arranged on the feeding port side of the discharging table (2), the dispensing mechanism (4) is erected on the upper side of the discharging table (2), the traction mechanism (5) is movably arranged on two sides of the discharging table (2), and the control module is electrically connected with the feeding assembly (3), the dispensing mechanism (4) and the traction mechanism (5) and is suitable for controlling the movement of cloth and the dispensing process;

the traction mechanism (5) comprises a group of main traction components (51), transition components (52) and secondary traction components (53), wherein the transition components (52) are arranged between the main traction components (51) and the secondary traction components (53), the main traction components (51) are suitable for clamping cloth led out from the feeding components (3), slowly dragging the cloth to an area below the dispensing mechanism (4), loosening the cloth after the dispensing of the part of the cloth is finished, and leading the cloth into the secondary traction components (53) and leading the cloth out of the cloth under the driving of the rear-end transition components (52);

the feeding assembly (3) comprises a shell (31), free rollers (32), a pressing wheel (33), a pressing wheel sliding rail (34), a pressing wheel driver (35) and an infrared detection module, wherein the shell (31) is of a hollow structure, through grooves for cloth to pass through are formed in the front and the back, the free rollers (32) are erected in the shell (31) and can rotate freely, the pressing wheel sliding rail (34) is arranged on two sides in the shell (31) and above the free rollers (32), the pressing wheel (33) is arranged on the pressing wheel sliding rail (34) in a sliding mode through the pressing wheel driver (35), the free rollers (32) and the pressing wheel (33) are provided with cloth to pass through, and the infrared detection module is arranged above the through grooves facing to a discharge hole and used for measuring fabric signals closest to the same plane;

the main traction assembly (51) comprises two groups of first longitudinal sliding rails (511), a first longitudinal driver (512), a first transverse sliding rail (513) and a first magnetic clamp (514), wherein the first longitudinal driver (512) is arranged on the first longitudinal sliding rail (511) in a sliding mode, the first transverse sliding rail (513) is fixed on the first longitudinal driver (512), and the first magnetic clamp (514) is arranged on the first transverse sliding rail (513) in a sliding mode;

the first magnetic clamp (514) comprises an electromagnetic half clamp (5141), a guide rod (5142) and a movable half clamp (5143), wherein the electromagnetic half clamp (5141) is fixed, one end of the guide rod (5142) is fixed on the electromagnetic half clamp (5141), the other end of the guide rod is fixed on the fixed plate, and the movable half clamp (5143) is movably sleeved on the guide rod (5142);

the transition assembly (52) comprises a driving rotating wheel (521), a transmission wheel set (522), a driving motor (523) and a transition platform (524), wherein the driving rotating wheel (521) is rotatably arranged in a groove formed in the discharging table (2) in a matched mode, the driving motor (523) is connected with the driving rotating wheel (521) through the transmission wheel set (522), and the transition platform (524) is arranged on the rear side of the driving rotating wheel (521) and matched with the cambered surface of the driving rotating wheel;

the secondary traction assembly (53) comprises a second longitudinal rail (531), a second longitudinal driver (532), a second transverse rail (533) and a second magnetic clamp (534) which are consistent with the primary traction assembly (51), wherein the second longitudinal driver (532) is slidably arranged on the second longitudinal rail (531), the second transverse rail (533) is fixed on the second longitudinal driver (532), and the second magnetic clamp (534) is slidably arranged on the second transverse rail (533).

2. A fixing device of a textile apparatus according to claim 1, characterized in that:

the glue dispensing mechanism (4) comprises four fixing columns (41), a group of glue dispensing sliding rail groups (42), a transverse driving air cylinder (43), a fixing plate (44), a longitudinal driving air cylinder (45), a glue gun mounting plate (46) and a glue gun (47), wherein the glue dispensing sliding rail groups (42) are fixed at the upper ends of the fixing columns (41) and controlled by the transverse driving air cylinder (43) to be in screw transmission, the fixing plate (44) is fixed at the driving position of the glue dispensing sliding rail groups (42), the longitudinal driving air cylinder (45) is fixed on the fixing plate (44), the driving end of the longitudinal driving air cylinder (45) is connected with the glue gun mounting plate (46), and the glue gun (47) is mounted on the glue gun mounting plate (46).

3. The method for using the fixing device of the textile equipment according to claim 2, wherein the specific method is as follows:

s1, feeding: the control module drives the pinch roller driver (35) to drive the pinch roller (33) to move upwards, separate from the free roller (32), introduce the fabric from the through groove of the shell (31) between the first magnetic clamps (514) of the main traction component (51), control the first magnetic clamps (514) to be electrified, and enable the electromagnetic half clamps (5141) and the movable half clamps (5143) to be tightly combined and fixed on two sides of the fabric;

s2, wrinkling detection: after the fixation is finished, the control module judges whether wrinkling occurs on the surface of the fabric according to the distance signal detected by the infrared detection module, and if so, the fabric is automatically fine-tuned through the first magnetic clamp (514);

s3, material pressing: after the fabric is tiled, the control module closes the pinch roller driver (35) to enable the pinch roller (33) to be compacted on the surface of the fabric;

s4, dispensing: the main traction component (51) clamps the fabric and slowly pulls the fabric backwards for a certain distance, the control module controls the dispensing mechanism (4) to move, and the fabric within the certain range is subjected to dispensing operation;

s5, discharging: after dispensing is finished, the main traction assembly (51) loosens the fabric, meanwhile, the control module starts the pinch roller driver (35) to lift the pinch roller (33), and the fabric is drawn to the secondary traction assembly (53) by the transition assembly (52) and is clamped and led out by the secondary traction assembly (53).