CN112176609B - Preparation method of crease-resistant synthetic fiber fabric - Google Patents

Abstract

The invention relates to a preparation method of a crease-resistant synthetic fiber fabric, which comprises an installation frame, a bearing device, a clamping device, a limiting device, a rotating device, a collecting frame and a collecting device, wherein the installation frame is of a U-shaped structure, the bearing device is installed at the left end of the installation frame, the clamping devices are symmetrically installed on the left and right of the inner end surface of the side wall of the installation frame, the limiting devices are symmetrically arranged between the clamping devices in the left and right direction, and the limiting devices are installed on the side wall of. The invention can solve the problems that the prior equipment can not provide a pulling-up allowance when the washed crease-resistant synthetic fiber fabric is dehydrated, the fabric is easy to deform or crack when the fabric is dehydrated, so that the fabric is damaged, meanwhile, the fabric is dehydrated by adopting a drying mode, a spiral screwing mode can not be adopted, the pulling-up can not be gradually carried out in the dehydrating process, the pressure between the fabrics can not be increased, so that the dehydrating efficiency is reduced, and the like.

Description

Preparation method of crease-resistant synthetic fiber fabric

Technical Field

The invention relates to the technical field of fabric processing, in particular to a preparation method of a crease-resistant synthetic fiber fabric.

Background

The synthetic fiber fabric is a chemical fiber fabric prepared by spinning, forming and post-treating a linear polymer which is artificially synthesized and has proper molecular weight and solubility, and the polymer fabric with fiber forming performance is generally called fiber forming polymer fabric, and has the properties of high strength, light weight, easy washing, quick drying, good elasticity, crease resistance and the like.

At present, when the existing equipment dehydrates the washed crease-resistant synthetic fiber fabric, the following defects are usually present: 1. the existing equipment can not provide a pulling-up allowance when the fabric is dehydrated, and the fabric is easy to excessively deform or crack when the fabric is dehydrated, so that the fabric is damaged; 2. the existing equipment usually adopts a drying mode to dehydrate, cannot adopt a spiral screwing mode, cannot gradually pull downwards in the dehydrating process, and cannot increase the pressure between fabrics, thereby reducing the dehydrating efficiency.

Disclosure of Invention

Technical problem to be solved

The invention can solve the problems that the prior equipment can not provide a pulling-up allowance when the washed crease-resistant synthetic fiber fabric is dehydrated, and the fabric is easy to generate excessive deformation or cracking when the fabric is dehydrated, thereby causing the damage of the fabric, meanwhile, the dehydration is carried out by adopting a drying mode, a spiral screwing mode can not be adopted, the pulling-up can not be carried out gradually downwards in the dehydration process, the pressure between the fabrics can not be increased, thereby reducing the dehydration efficiency and the like.

(II) technical scheme

In order to achieve the purpose, the invention adopts the following technical scheme that crease-resistant synthetic fiber fabric preparation method uses crease-resistant synthetic fiber fabric preparation equipment, the crease-resistant synthetic fiber fabric preparation equipment comprises an installation frame, a bearing device, a clamping device, a limiting device, a rotating device, a collecting frame and a collecting device, and the specific method for dehydrating the crease-resistant synthetic fiber fabric by adopting the crease-resistant synthetic fiber fabric preparation equipment is as follows:

s1, equipment detection: carrying out conventional detection on equipment in a manual mode;

s2, dehydration preparation: the cleaned fabric is wound on the bearing device in a manual mode, and the other end of the cleaned fabric passes through the clamping device, the limiting device and the rotating device and is connected with the collecting device;

s3, spin drying: firstly, manually clamping and fixing two ends of the fabric through a clamping device, then manually starting a rotating device, rotatably dehydrating the fabric through the rotating device, finally, manually resetting the clamping device, and rolling the fabric after water removal through a collecting device;

s4, centralized collection: and (8) repeating the step (S3), and after the fabric is dehydrated, manually taking out the rolled fabric and putting the fabric in a centralized manner.

The mounting bracket is U type structure, and the device is put to the bearing installed to the mounting bracket left end, and the terminal surface bilateral symmetry installs clamping device in the mounting bracket lateral wall, and bilateral symmetry is provided with stop device between the clamping device, and stop device installs on the mounting bracket lateral wall, and rotary device is installed to mounting bracket lower wall up end, and rotary device outside bilateral symmetry is provided with the collection frame, collects the frame and installs on mounting bracket lower wall up end, and collection device is installed to the mounting bracket right-hand member.

The limiting device comprises a connecting frame, a folding plate, a telescopic rod, a supporting spring, a turning roller, a sliding block, a reset spring, a clamping roller and an auxiliary roller, wherein the connecting frame is arranged on the inner end surface of the side wall of the mounting frame and is of a U-shaped structure, the side wall of the connecting frame is vertically and symmetrically connected with the folding plate in a sliding fit mode, the telescopic rod is arranged on the upper end surface of the folding plate, the upper end of the telescopic rod is arranged on the connecting frame, the supporting spring is uniformly connected between the inner end surface of the folding plate and the connecting frame, a rectangular hole is formed in the middle of the side wall of the connecting frame, the turning roller is vertically and symmetrically arranged in the rectangular hole and is connected with the connecting frame through a bearing, the sliding block is symmetrically arranged on the front and back of the inner side of the connecting frame and is, be connected with the joint roller through the bearing between the sliding block, joint roller surface is provided with the arc wall, joint roller inboard longitudinal symmetry is provided with the auxiliary roll, the auxiliary roll passes through the bearing and is connected with the mounting bracket lateral wall, concrete during operation, at first, walk around the surface fabric from the upside auxiliary roll through artificial mode, pass the joint roller, wear out from the downside auxiliary roll again, afterwards, the surface fabric passes rotary device and is connected with the auxiliary roll and the joint roller of opposite side with same mode, and finally, when the dehydration, the surface fabric drives the joint roller motion, and simultaneously, the sliding block passes through wire rope and drives closure plate and joint roller cooperation, the realization carries out the function of chucking to the surface fabric, and the pulling-up surplus of surface fabric when the dehydration is provided, avoid the phenomenon that excessive deformation or fracture appear in the surface fabric, thereby the damage of.

The rotating device comprises an auxiliary spring, a rotating motor, a threaded rod, a water leakage plate, a rotating mechanism, an annular rack and a jacking spring, wherein the auxiliary spring is arranged on the upper end surface of the lower wall of the mounting frame, the rotating motor is arranged at the upper end of the auxiliary spring through a motor base, the motor base is in sliding connection with the lower wall of the mounting frame, the threaded rod is arranged on an output shaft of the rotating motor, the threaded rod is connected with the water leakage plate in a threaded fit mode, the water leakage plate is arranged on the side wall of the mounting frame, the rotating mechanism is arranged at the upper end of the threaded rod, the rotating mechanism is in gear meshing connection with the annular rack, the annular rack is in sliding connection with the side wall of the mounting frame, the jacking springs are symmetrically connected between the lower end of the annular rack and the side wall of, thereby realize driving the surface fabric and carry out the rotatory dehydration to progressively pulling up downwards at the in-process of dehydration, increased the pressure between the surface fabric, thereby improved the efficiency of dehydration, simultaneously, rotary mechanism and annular rack cooperation, thereby concentrate the surface fabric in, avoid the surface fabric atress too big and take place torn phenomenon when rotatory, thereby improved the integrality of surface fabric.

The rotary mechanism comprises a rotary frame, a circular roller, a feeding screw rod, a gathering plate, a transmission roller, a helical gear, a transmission branched chain and a lower pressing rod, the rotary frame is arranged at the upper end of the threaded rod and is of a U-shaped structure, the circular roller is arranged on the inner end surface of the side wall of the rotary frame, circular cavities are symmetrically arranged inside the circular roller, the feeding screw rod is arranged inside the circular cavity, the inner end of the outer surface of the feeding screw rod is connected with the circular roller through a bearing, the outer end of the outer surface of the feeding screw rod is connected with the side wall of the rotary frame through a bearing, the outer surface of the feeding screw rod is connected with the gathering plate in a thread matching manner, the gathering plate is connected with the circular roller in a sliding manner, the transmission roller is uniformly connected with the outer surface of the circular roller in a sliding fit manner, the, the transmission branched chain is installed on the swivel mount, depression bar is installed to the terminal surface front and back symmetry under the swivel mount, the depression bar lower extreme is provided with the ball down, ball and annular rack sliding connection, concrete during operation, at first, the threaded rod passes through the swivel mount and drives the circular roller and rotate, later, feed screw rotates through transmission branched chain and annular rack cooperation, thereby it draws in the surface fabric to drive the board of gathering together, thereby avoid the surface fabric atress too big and take place torn phenomenon when rotatory, the driving roller plays the gliding effect of surface fabric on circular roller, the depression bar drives annular rack and descends.

Preferably, the bearing and placing device comprises a bearing and placing frame and a bearing and placing roller, the bearing and placing frame is installed on the left end face of the installation frame, the bearing and placing roller is connected to the side wall of the bearing and placing frame in a sliding mode, the cleaned fabric is wound on the bearing and placing roller in a manual mode during specific work, and then the bearing and placing roller is placed on the bearing and placing frame.

Preferably, clamping device include centre gripping frame, punch holder and press from both sides tight screw rod, the centre gripping frame install on the terminal surface in the mounting bracket lateral wall, the centre gripping frame is the rectangle structure, the centre gripping frame lateral wall is connected with the punch holder through sliding fit's mode, the punch holder upper end is connected with through the bearing and presss from both sides tight screw rod, press from both sides tight screw rod and be connected with the centre gripping frame upper wall through screw-thread fit's mode, concrete during operation passes the centre gripping frame with the surface fabric through artificial mode, later, the manual rotation presss from both sides tight screw rod, presss from both sides tight screw rod and presss from both sides tight.

Preferably, the collecting device include collect the frame, collect roller and driving motor, the collection frame install on the mounting bracket right-hand member face, sliding connection has the collection roller on collecting the frame lateral wall, it is provided with the spline groove to collect the roller front end, the spline groove is connected with driving motor through sliding fit's mode, driving motor installs on collecting frame front end face, concrete during operation, at first, the surface fabric winding that will dewater is on collecting the roller, afterwards, will collect the roller and put on collecting the frame, and be connected with driving motor, at last, intermittent type starts driving motor, driving motor carries out the rolling through collecting the roller to the surface fabric.

Preferably, the transmission branched chain include connecting plate, dwang, drive gear and driving gear, the connecting plate install on the swivel mount, the connecting plate middle part is connected with the dwang through the bearing, drive gear is installed to the dwang upper end, drive gear and helical gear meshing, the driving gear is installed to the dwang lower extreme, the driving gear meshes with annular rack, during concrete work, the driving gear drives drive gear with the cooperation of annular rack and rotates to drive helical gear and rotate.

Preferably, the inner end of the closure plate is provided with a clamping protrusion, the inner end of the clamping protrusion is provided with a rubber pad, the clamping protrusion is in sliding fit with the arc-shaped groove, and the clamping protrusion is matched with the arc-shaped groove during specific work, so that the fabric is clamped.

Preferably, the annular rack lower wall be provided with the inclined plane, annular rack lower wall evenly is provided with the arc hole, annular rack lower wall and lower depression bar sliding connection, during specific work, the arc hole is used for discharging water.

(III) advantageous effects

1. According to the crease-resistant synthetic fiber fabric preparation method provided by the invention, the adopted limiting device can clamp the fabric during fabric dehydration, so that the fabric is prevented from sliding, the fabric dehydration efficiency is improved, the pulling allowance of the fabric during dehydration is provided, the fabric is prevented from being excessively deformed or cracked, and the fabric is prevented from being damaged;

2. according to the preparation method of the crease-resistant synthetic fiber fabric, the adopted rotating device can dehydrate the fabric in a spiral screwing mode, and gradually pull the fabric downwards in the dehydration process, so that the pressure between the fabrics is increased, and the dehydration efficiency is improved;

3. according to the preparation method of the crease-resistant synthetic fiber fabric, the adopted rotating device can intensively gather the fabric in the dehydration process, so that the phenomenon that the fabric is torn due to overlarge stress during rotation is avoided, and the completeness of the fabric is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a process flow diagram of the present invention;

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

FIG. 3 is a front view of the present invention;

FIG. 4 is a left side view of the present invention;

FIG. 5 is a cross-sectional view A-A of FIG. 3 in accordance with the present invention;

FIG. 6 is a cross-sectional view of B-B of FIG. 4 in accordance with the present invention;

FIG. 7 is an enlarged view of the invention taken in the direction of N in FIG. 6;

FIG. 8 is an enlarged view taken in the direction X of FIG. 5 in accordance with the present invention;

fig. 9 is an enlarged view of the invention taken along direction D in fig. 5.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 9, in order to achieve the above object, the present invention adopts the following technical solutions, a method for preparing a crease-resistant synthetic fiber fabric uses a crease-resistant synthetic fiber fabric preparation apparatus, the crease-resistant synthetic fiber fabric preparation apparatus includes a mounting frame 1, a holding device 2, a holding device 3, a limiting device 4, a rotating device 5, a collecting frame 6 and a collecting device 7, and the method for dehydrating the crease-resistant synthetic fiber fabric by using the crease-resistant synthetic fiber fabric preparation apparatus is specifically as follows:

s1, equipment detection: carrying out conventional detection on equipment in a manual mode;

s2, dehydration preparation: the cleaned fabric is wound on the bearing device 2 in a manual mode, and the other end of the fabric passes through the clamping device 3, the limiting device 4 and the rotating device 5 to be connected with the collecting device 7;

s3, spin drying: firstly, manually clamping and fixing two ends of the fabric through the clamping device 3, then manually starting the rotating device 5, rotatably dehydrating the fabric through the rotating device 5, finally, manually resetting the clamping device 3, and winding the fabric after dehydration through the collecting device 7;

s4, centralized collection: and (8) repeating the step (S3), and after the fabric is dehydrated, manually taking out the rolled fabric and putting the fabric in a centralized manner.

Mounting bracket 1 is U type structure, and device 2 is put in holding is installed to 1 left end of mounting bracket, and clamping device 3 is installed to terminal surface bilateral symmetry in 1 lateral wall of mounting bracket, and bilateral symmetry is provided with stop device 4 between clamping device 3, and stop device 4 installs on 1 lateral wall of mounting bracket, and rotary device 5 is installed to 1 lower wall up end of mounting bracket, and rotary device 5 outside bilateral symmetry is provided with collects frame 6, collects frame 6 and installs on 1 lower wall up end of mounting bracket, and collection device 7 is installed to 1 right-hand member of mounting bracket.

The bearing device 2 comprises a bearing frame 21 and a bearing roller 22, the bearing frame 21 is installed on the left end face of the installation frame 1, the bearing roller 22 is connected to the side wall of the bearing frame 21 in a sliding mode, when the bearing device works specifically, cleaned fabric is wound on the bearing roller 22 in a manual mode, and then the bearing roller 22 is placed on the bearing frame 21.

Clamping device 3 include centre gripping frame 31, punch holder 32 and clamping screw 33, centre gripping frame 31 install on the terminal surface in the mounting bracket 1 lateral wall, centre gripping frame 31 is the rectangle structure, centre gripping frame 31 lateral wall is connected with punch holder 32 through sliding fit's mode, punch holder 32 upper end is connected with clamping screw 33 through the bearing, clamping screw 33 passes through screw-thread fit's mode and is connected with centre gripping frame 31 upper wall, concrete during operation, pass centre gripping frame 31 with the surface fabric through artificial mode, afterwards, manual rotation clamping screw 33, clamping screw 33 presss from both sides tightly fixedly through punch holder 32 to the surface fabric.

The limiting device 4 comprises a connecting frame 41, a folding plate 42, an expansion link 43, a supporting spring, a turning roller 45, a sliding block 46, a reset spring 47, a clamping roller 48 and an auxiliary roller 49, the connecting frame 41 is installed on the inner end face of the side wall of the mounting frame 1, the connecting frame 41 is of a U-shaped structure, the side wall of the connecting frame 41 is connected with the folding plate 42 in a vertical symmetrical mode in a sliding fit mode, the expansion link 43 is installed on the upper end face of the folding plate 42, the upper end of the expansion link 43 is installed on the connecting frame 41, the supporting spring is evenly connected between the inner end face of the folding plate 42 and the connecting frame 41, a rectangular hole is formed in the middle of the side wall of the connecting frame 41, the turning roller 45 is arranged in the vertical symmetrical mode inside the rectangular hole, the turning roller 45 is connected with the connecting frame 41 through a bearing, the sliding block 46 is symmetrically arranged on the front, the sliding block 46 is connected with the folding plate 42 through a steel wire rope, the clamping rollers 48 are connected between the sliding blocks 46 through bearings, arc-shaped grooves are formed in the outer surfaces of the clamping rollers 48, auxiliary rollers 49 are symmetrically arranged on the inner sides of the clamping rollers 48 up and down, the auxiliary rollers 49 are connected with the side walls of the mounting rack 1 through the bearings, when the fabric dewatering device works in detail, fabric is firstly wound around the upper auxiliary rollers 49 through a manual mode, passes through the clamping rollers 48 and then penetrates out of the lower auxiliary rollers 49, then passes through the rotating device 5 to be connected with the auxiliary rollers 49 and the clamping rollers 48 on the other side in the same mode, finally, the fabric drives the clamping rollers 48 to move during dewatering, meanwhile, the sliding blocks 46 drive the folding plate 42 to be matched with the clamping rollers 48 through the steel wire rope, the fabric is clamped, the pulling allowance of the fabric during dewatering is provided, and the phenomenon of excessive, thereby avoiding the damage of the fabric.

The inner end of the folding plate 42 is provided with a clamping bulge, the inner end of the clamping bulge is provided with a rubber pad, the clamping bulge is in sliding fit with the arc-shaped groove, and the clamping bulge is matched with the arc-shaped groove during specific work, so that the fabric is clamped.

The rotating device 5 comprises an auxiliary spring 51, a rotating motor 52, a threaded rod 53, a water leakage plate 54, a rotating mechanism 55, an annular rack 56 and a jacking spring 57, wherein the auxiliary spring 51 is installed on the upper end surface of the lower wall of the mounting frame 1, the rotating motor 52 is installed at the upper end of the auxiliary spring 51 through a motor base, the motor base is in sliding connection with the lower wall of the mounting frame 1, the threaded rod 53 is installed on an output shaft of the rotating motor 52, the threaded rod 53 is connected with the water leakage plate 54 in a thread fit mode, the water leakage plate 54 is installed on the side wall of the mounting frame 1, the rotating mechanism 55 is installed at the upper end of the threaded rod 53, the annular rack 56 is in gear engagement connection with the rotating mechanism 55, the annular rack 56 is in sliding connection with the side wall of the mounting frame 1, the jacking springs 57 are symmetrically connected between, afterwards, the rotating motor 52 is manually started, the rotating motor 52 drives the rotating mechanism 55 to rotate through the threaded rod 53, so that the fabric is driven to be subjected to rotary dehydration, the fabric is gradually pulled downwards in the dehydration process, the pressure between the fabrics is increased, the dehydration efficiency is improved, meanwhile, the rotating mechanism 55 is matched with the annular rack 56, so that the fabric is intensively gathered, the phenomenon that the fabric is torn due to overlarge stress when rotating is avoided, and the completeness of the fabric is improved.

The rotating mechanism 55 comprises a rotating frame 551, a circular roller 552, a feeding screw 553, a gathering plate 554, a driving roller 555, a bevel gear 556, a driving branch 557 and a lower pressing rod 558, the rotating frame 551 is installed at the upper end of the threaded rod 53, the rotating frame 551 is of a U-shaped structure, the circular roller 552 is installed on the inner end surface of the side wall of the rotating frame 551, a circular cavity is symmetrically arranged inside the circular roller 552, the feeding screw 553 is arranged inside the circular cavity, the inner end of the outer surface of the feeding screw 553 is connected with the circular roller 552 through a bearing, the outer end of the outer surface of the feeding screw 553 is connected with the side wall of the rotating frame 551 through a bearing, the gathering plate 554 is connected to the outer surface of the feeding screw 553 in a threaded fit manner, the gathering plate 554 is in sliding connection with the circular roller 552, the driving roller 555 is evenly connected to the outer surface of the circular roller 552 in a sliding fit manner, the driving, the bevel gears 556 are in gear engagement connection with the transmission branched chains 557, the transmission branched chains 557 are installed on the rotating frame 551, the lower end faces of the rotating frame 551 are symmetrically provided with lower pressing rods 558 in front and back, the lower ends of the lower pressing rods 558 are provided with balls, and the balls are in sliding connection with the annular rack 56.

The transmission branched chain 557 comprises a connecting plate 5571, a rotating rod 5572, a transmission gear 5573 and a driving gear 5574, the connecting plate 5571 is installed on a rotating frame 551, the middle of the connecting plate 5571 is connected with the rotating rod 5572 through a bearing, the upper end of the rotating rod 5572 is provided with the transmission gear 5573, the transmission gear 5573 is meshed with the helical gear 556, the lower end of the rotating rod 5572 is provided with the driving gear 5574, the driving gear 5574 is meshed with the annular rack 56, and during specific work, the driving gear 5574 is matched with the annular rack 56 to drive the transmission gear 5573 to rotate, so that the.

The lower wall of the annular rack 56 is provided with an inclined surface, the lower wall of the annular rack 56 is uniformly provided with arc-shaped holes, the lower wall of the annular rack 56 is connected with the lower pressing rod 558 in a sliding manner, and the arc-shaped holes are used for discharging water during specific work.

Collecting device 7 including collecting frame 71, collecting roller 72 and driving motor 73, collecting frame 71 install on the mounting bracket 1 right-hand member face, sliding connection has collecting roller 72 on collecting frame 71 lateral wall, collecting roller 72 front end is provided with the spline groove, the spline groove is connected with driving motor 73 through sliding fit's mode, driving motor 73 installs on collecting frame 71 front end face, specific during operation, at first, with the surface fabric winding of dehydration on collecting roller 72, later, place collecting roller 72 on collecting frame 71 to be connected with driving motor 73, and finally, intermittent type starts driving motor 73, driving motor 73 carries out the rolling through collecting roller 72 to the surface fabric.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides a crease-resistant synthetic fiber surface fabric preparation method, its used a crease-resistant synthetic fiber surface fabric preparation equipment, this crease-resistant synthetic fiber surface fabric preparation equipment includes mounting bracket (1), holds puts device (2), clamping device (3), stop device (4), rotary device (5), collects frame (6) and collection device (7), its characterized in that: the specific method for dehydrating the crease-resistant synthetic fiber fabric by adopting the crease-resistant synthetic fiber fabric preparation equipment is as follows:

s1, equipment detection: carrying out conventional detection on equipment in a manual mode;

s2, dehydration preparation: the cleaned fabric is wound on the bearing device (2) in a manual mode, and the other end of the fabric passes through the clamping device (3), the limiting device (4) and the rotating device (5) and is connected with the collecting device (7);

s3, spin drying: firstly, manually clamping and fixing two ends of the fabric through a clamping device (3), then manually starting a rotating device (5), rotatably dehydrating the fabric through the rotating device (5), finally, manually resetting the clamping device (3), and winding the fabric subjected to dehydration through a collecting device (7);

s4, centralized collection: repeating the step S3, and after the fabric is dehydrated, manually taking out the rolled fabric and putting the fabric in a centralized manner;

the mounting rack (1) is of a U-shaped structure, a bearing device (2) is installed at the left end of the mounting rack (1), clamping devices (3) are installed on the inner end face of the side wall of the mounting rack (1) in a bilateral symmetry mode, limiting devices (4) are arranged between the clamping devices (3) in a bilateral symmetry mode, the limiting devices (4) are installed on the side wall of the mounting rack (1), a rotating device (5) is installed on the upper end face of the lower wall of the mounting rack (1), collecting frames (6) are arranged on the outer side of the rotating device (5) in a bilateral symmetry mode, the collecting frames (6) are installed on the upper end face of the lower wall of the mounting;

the limiting device (4) comprises a connecting frame (41), a folding plate (42), a telescopic rod (43), a supporting spring, a turning roller (45), a sliding block (46), a reset spring (47), a clamping roller (48) and an auxiliary roller (49), the connecting frame (41) is installed on the inner end face of the side wall of the mounting frame (1), the connecting frame (41) is of a U-shaped structure, the folding plate (42) is connected to the side wall of the connecting frame (41) in a sliding fit manner in an up-down symmetrical mode, the telescopic rod (43) is installed on the upper end face of the folding plate (42), the upper end of the telescopic rod (43) is installed on the connecting frame (41), the supporting spring is evenly connected between the inner end face of the folding plate (42) and the connecting frame (41), a rectangular hole is formed in the middle of the side wall of the connecting frame (41), the turning roller (45) is arranged inside the rectangular hole in an up-, sliding blocks (46) are symmetrically arranged on the front and back of the inner side of the connecting frame (41), the sliding blocks (46) are connected with the side wall of the mounting frame (1) in a sliding mode, a reset spring (47) is connected between the sliding blocks (46) and the side wall of the mounting frame (1), the sliding blocks (46) are connected with the folding plate (42) through steel wire ropes, clamping rollers (48) are connected between the sliding blocks (46) through bearings, arc-shaped grooves are formed in the outer surface of each clamping roller (48), auxiliary rollers (49) are symmetrically arranged on the upper side and the lower side of the inner side of each clamping roller (48), and the auxiliary rollers (;

the rotary device (5) comprises an auxiliary spring (51), a rotary motor (52), a threaded rod (53), a water leakage plate (54), a rotary mechanism (55), an annular rack (56) and a jacking spring (57), wherein the auxiliary spring (51) is installed on the upper end surface of the lower wall of the installation frame (1), the rotary motor (52) is installed at the upper end of the auxiliary spring (51) through a motor base, the motor base is in sliding connection with the lower wall of the installation frame (1), the threaded rod (53) is installed on an output shaft of the rotary motor (52), the threaded rod (53) is connected with the water leakage plate (54) in a thread fit mode, the water leakage plate (54) is installed on the side wall of the installation frame (1), the rotary mechanism (55) is installed at the upper end of the threaded rod (53), the rotary mechanism (55) is in gear engagement with the annular rack (56), and, jacking springs (57) are symmetrically connected between the lower end of the annular rack (56) and the side wall of the mounting rack (1) from front to back;

the rotating mechanism (55) comprises a rotating frame (551), a circular roller (552), a feeding screw rod (553), a gathering plate (554), a transmission roller (555), a bevel gear (556), a transmission branched chain (557) and a lower pressing rod (558), the rotating frame (551) is installed at the upper end of the threaded rod (53), the rotating frame (551) is of a U-shaped structure, the circular roller (552) is installed on the inner end surface of the side wall of the rotating frame (551), a circular cavity is symmetrically arranged in the circular roller (552), the feeding screw rod (553) is arranged in the circular cavity, the inner end of the outer surface of the feeding screw rod (553) is connected with the circular roller (552) through a bearing, the outer end of the outer surface of the feeding screw rod (553) is connected with the side wall of the rotating frame (551) through a bearing, the outer surface of the feeding screw rod (553) is connected with the gathering plate (554) in a thread matching mode, the outer surface of the circular roller (552) is uniformly connected with a driving roller (555) in a sliding fit mode, the driving roller (555) is connected with a rotating frame (551) through a bearing, a helical gear (556) is installed on the outer end surface of a feed screw (553), the helical gear (556) is in gear engagement connection with a driving branched chain (557), the driving branched chain (557) is installed on the rotating frame (551), lower pressing rods (558) are symmetrically installed in the front and at the back of the lower end surface of the rotating frame (551), and balls are arranged at the lower end of the lower pressing rods (558) and are in sliding connection with the annular rack (56);

the transmission branched chain (557) comprises a connecting plate (5571), a rotating rod (5572), a transmission gear (5573) and a driving gear (5574), the connecting plate (5571) is installed on the rotating frame (551), the middle of the connecting plate (5571) is connected with the rotating rod (5572) through a bearing, the upper end of the rotating rod (5572) is provided with the transmission gear (5573), the transmission gear (5573) is meshed with the helical gear (556), the lower end of the rotating rod (5572) is provided with the driving gear (5574), and the driving gear (5574) is meshed with the annular rack (56);

the inner end of the closure plate (42) is provided with a clamping bulge, the inner end of the clamping bulge is provided with a rubber pad, and the clamping bulge is in sliding fit with the arc-shaped groove.

2. The method for preparing the crease-resistant synthetic fiber fabric according to claim 1, characterized in that: bear put device (2) put frame (21) and bear and put roller (22) including bearing, bear put frame (21) install on mounting bracket (1) left end face, bearing put sliding connection has on frame (21) lateral wall and bear and put roller (22).

3. The method for preparing the crease-resistant synthetic fiber fabric according to claim 1, characterized in that: clamping device (3) include centre gripping frame (31), punch holder (32) and clamping screw (33), centre gripping frame (31) install on mounting bracket (1) lateral wall inner end face, centre gripping frame (31) are the rectangle structure, centre gripping frame (31) lateral wall is connected with punch holder (32) through sliding fit's mode, punch holder (32) upper end is connected with clamping screw (33) through the bearing, clamping screw (33) are connected with clamping frame (31) upper wall through screw-thread fit's mode.

4. The method for preparing the crease-resistant synthetic fiber fabric according to claim 1, characterized in that: collection device (7) including collecting frame (71), collecting roller (72) and driving motor (73), collection frame (71) install on mounting bracket (1) right-hand member face, there are collecting roller (72) to collect sliding connection on frame (71) lateral wall, collecting roller (72) front end is provided with the spline groove, the spline groove is connected with driving motor (73) through sliding fit's mode, driving motor (73) are installed on collecting frame (71) front end face.

5. The method for preparing the crease-resistant synthetic fiber fabric according to claim 1, characterized in that: the lower wall of the annular rack (56) is provided with an inclined surface, the lower wall of the annular rack (56) is uniformly provided with arc-shaped holes, and the lower wall of the annular rack (56) is connected with the lower pressing rod (558) in a sliding manner.

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