CN112195632A

CN112195632A - Preparation process of crease-resistant conformal polyester fiber fabric

Info

Publication number: CN112195632A
Application number: CN202011041868.8A
Authority: CN
Inventors: 刘金红; 胡可
Original assignee: Individual
Current assignee: Yiwu Aohu Clothing Co ltd
Priority date: 2020-09-28
Filing date: 2020-09-28
Publication date: 2021-01-08
Anticipated expiration: 2040-09-28
Also published as: CN112195632B

Abstract

The invention relates to a preparation process of a crease-resistant conformal polyester fiber fabric, which comprises a bottom plate, a drying device, an input device and an output device, wherein the middle part of the upper end of the bottom plate is provided with the drying device, the left side of the drying device is provided with the input device, the input device is arranged on the bottom plate, the right side of the drying device is provided with the output device, and the output device is arranged on the bottom plate. The invention can solve the problems that the prior device can not carry out reciprocating lifting treatment on the fabric when drying the anti-wrinkle conformal polyester fiber fabric, is not beneficial to drying and discharging the moisture in the fabric, thereby reducing the fabric drying efficiency, and the wrinkle phenomenon is easy to occur during drying, thereby reducing the fabric drying smoothness, meanwhile, the fabric can not be flapped during drying, and the surface of the dried fabric is easy to be adhered with flock and dust, thereby reducing the fabric cleanness and the like.

Description

Preparation process of crease-resistant conformal polyester fiber fabric

Technical Field

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

Background

Polyester fiber, commonly known as "terylene", is a synthetic fiber obtained by spinning polyester formed by polycondensation of organic dibasic acid and dihydric alcohol, called PET fiber for short, and belongs to a high molecular compound.

At present, when the existing equipment is used for drying the anti-wrinkle conformal polyester fiber fabric, the following defects generally exist: 1. the conventional equipment cannot perform reciprocating lifting treatment on the fabric in the drying process, so that moisture in the fabric is not favorably dried and discharged, the fabric drying efficiency is reduced, and the wrinkle phenomenon is easy to occur during drying, so that the fabric drying smoothness is reduced; 2. the existing equipment can not flap the fabric in the drying process, and the surface of the dried fabric is easily adhered with flock and dust, so that the cleanness of the fabric is reduced.

Disclosure of Invention

Technical problem to be solved

The invention can solve the problems that the conventional equipment cannot perform reciprocating lifting treatment on the fabric when drying the anti-wrinkle conformal polyester fiber fabric, is not beneficial to drying and discharging water in the fabric, so that the fabric drying efficiency is reduced, and the smoothness of the fabric drying is reduced because the wrinkle phenomenon is easy to occur during drying.

(II) technical scheme

In order to achieve the purpose, the invention adopts the following technical scheme that the anti-wrinkle conformal polyester fiber fabric preparation process uses anti-wrinkle conformal polyester fiber fabric preparation equipment, the anti-wrinkle conformal polyester fiber fabric preparation equipment comprises a bottom plate, a drying device, an input device and an output device, and the specific method for drying the anti-wrinkle conformal polyester fiber fabric by adopting the anti-wrinkle conformal polyester fiber fabric preparation equipment is as follows:

s1, equipment detection: before the equipment is used, the equipment is subjected to conventional detection in a manual mode;

s2, fabric installation: placing the dehydrated anti-wrinkle conformal polyester fiber fabric on an input device in a manual mode, and then connecting the fabric with an output device after the fabric passes through a drying device;

s3, drying: introducing hot air into a drying device in a manual mode, drying the fabric by the drying device, and then winding the dried fabric by an output device;

s4, storage and warehousing: the rolled fabric is taken out from the output device in a manual mode and is stored in a centralized mode.

The middle of the upper end of the bottom plate is provided with a drying device, the left side of the drying device is provided with an input device, the input device is installed on the bottom plate, the right side of the drying device is provided with an output device, and the output device is installed on the bottom plate.

The drying device comprises a drying frame, an air inlet pipe, a reciprocating mechanism, a flapping mechanism and a jacking mechanism, wherein the drying frame is arranged on the upper end surface of a bottom plate and is of a rectangular structure, the air inlet frame is symmetrically arranged in the drying frame from top to bottom, the air inlet frame is arranged on the inner end surface of the drying frame, air inlet holes are uniformly formed in the inner side wall of the air inlet frame, the air inlet pipe is arranged at the left end of the air inlet frame and is communicated with the air inlet frame, the reciprocating mechanism is centrally and symmetrically arranged between the air inlet frames, the reciprocating mechanism is connected with the inner wall of the air inlet frame in a sliding fit mode, the flapping mechanism is uniformly arranged at the inner end of the reciprocating mechanism, the jacking mechanism is arranged between the reciprocating mechanisms, the jacking mechanism is arranged on the inner end surface of the rear side wall of the drying frame, the jacking mechanism is connected, afterwards, in the frame is let in into from the intake pipe with hot-blast artifical, the frame that admits air gets rid of hot-blast and dries the surface fabric through the inlet port, and at last, the artifical climbing mechanism that starts, climbing mechanism drive reciprocating mechanism and reciprocate to drag the surface fabric to increased the gap between the surface fabric, the moisture in the surface fabric of being convenient for is dried and is discharged, and simultaneously, drive patting mechanism and pat the processing to the surface fabric, effectual dander, the dust of removing surface fabric surface adhesion.

Reciprocating mechanism include slide bar, link, live-rollers, cleaning brush, coupling spring and connecting plate, the frame inside wall that admits air evenly be connected with the slide bar through sliding fit's mode, the link is installed to slide bar inner, the link is U type structure, the link lateral wall is connected with the live-rollers through the bearing, the live-rollers outside is provided with the cleaning brush, the cleaning brush is installed on the link, be connected with coupling spring between link and the interior terminal surface of frame that admits air, the connecting plate is installed to the slide bar up end, concrete during operation, climbing mechanism drives the connecting plate up-and-down motion, afterwards, the connecting plate drives the live-rollers through the slide bar and carries out tensile processing to the surface fabric, thereby be convenient for moisture in the surface fabric gets rid of, simultaneously, cleaning brush clears up the surface of surface fabric.

The patting mechanism comprises a connecting rod, a gathering frame, patting rods, patting rollers, reciprocating springs, clamping frames, clamping blocks and clamping springs, the connecting rod is arranged on the inner end face of the connecting plate, the connecting rod is positioned between the adjacent sliding rods, the gathering frame is arranged at the inner end of the connecting rod and is of a U-shaped structure, the patting rods are symmetrically arranged on the left side and the right side between the gathering frames, the patting rods are connected with the inner side wall of the air inlet frame through pin shafts, the lower side of the front end face of the patting rod is connected with the patting rollers through bearings, the reciprocating springs are connected between the patting rods, the clamping frames are arranged on the outer sides of the reciprocating springs, the clamping frames are arranged on the rear side wall of the drying frame, clamping grooves are symmetrically arranged on the left side and the right side of the side wall of each clamping frame, the clamping blocks are connected with the clamping blocks, during specific work, the connecting plate is driven to gather together the frame and is gathered together patting the pole when descending, patts pole and chucking piece joint cooperation, later, gathers together the frame and drives the chucking piece through wire rope and remove when ascending the connecting plate to remove the spacing function of patting the pole, pat the pole and realize the function of patting through reciprocating spring.

Preferably, input device include support frame, input roller and stopper, the support frame install on the bottom plate, be connected with the input roller through sliding fit's mode on the support frame lateral wall, the symmetrical connection has the stopper around the input roller upper end through sliding fit's mode, stopper and support frame joint cooperation, concrete during operation, through artificial mode with the surface fabric of not drying around rolling up at the input roller, later, the stopper carries on spacing fixedly to it.

Preferably, output device include output frame, output roller, fixture block and rolling motor, the output frame install on the bottom plate, sliding connection has the output roller on the output frame lateral wall, the symmetrical connection has the fixture block around the mode of sliding fit is passed through to the output roller upper end, fixture block and output frame lateral wall joint cooperation, the output roller front end is provided with the rectangle arch, the protruding surface of rectangle is connected with rolling motor through joint complex mode, rolling motor installs on the output frame, concrete during operation, the surface fabric after will drying through artificial mode is connected with the output roller, afterwards, the fixture block is spacing to it, finally, manual start rolling motor, rolling motor drives the output roller and carries out the rolling to the surface fabric.

Preferably, the jacking mechanism comprises a reciprocating push rod, a sliding block, a jacking frame, a rotating rod and a jacking spring, the reciprocating push rod is arranged on the rear side wall of the drying frame, the output end of the reciprocating push rod is provided with a sliding block, the sliding block is connected with the rear side wall of the drying frame in a sliding fit mode, the outer sides of the sliding blocks are provided with rotating grooves in up-and-down symmetry, the side wall of the rotating groove is connected with a jacking frame through a pin shaft, the inner part of the jacking frame is connected with a rotating rod in a sliding fit mode, the rotating rod is connected with the rear side wall of the drying frame through a pin shaft, the outer end of the rotating rod is provided with a ball, the ball is connected with a connecting, and manually starting the reciprocating push rod, driving the sliding block to reciprocate by the reciprocating push rod, and driving the rotating rod to perform reciprocating jacking on the connecting plate by the sliding block.

Preferably, the live-rollers on evenly be provided with the rectangular hole, be provided with the arc arch between the rectangular hole, during specific work, the rectangular hole plays the effect of ventilation stoving, the arc arch plays and avoids surface fabric and live-rollers to be connected closely, the hot-blast stoving to the surface fabric of being convenient for.

Preferably, pat the outer terminal surface of pole and be provided with the jacking arch, the jacking is protruding and gather together a sliding fit, pat pole the inner and install the joint piece, the joint piece passes through joint complex mode and is connected with the chucking piece, concrete during operation, the jacking is protruding to be realized gathering together the function that gathers together with gathering together a sliding fit, joint piece and chucking piece cooperation realize the function of chucking.

(III) advantageous effects

1. According to the preparation process of the crease-resistant conformal polyester fiber fabric, the adopted drying device can perform reciprocating lifting treatment on the fabric in the drying process, so that gaps between the fabric are enlarged, the moisture in the fabric is dried and discharged conveniently, the fabric drying efficiency is improved, and the phenomenon that the fabric is wrinkled during drying can be avoided due to the lifting of the fabric, so that the drying smoothness of the fabric is ensured;

2. according to the preparation process of the crease-resistant conformal polyester fiber fabric, the adopted drying device can be used for beating the fabric in the drying process, so that flocks and dust adhered to the surface of the fabric are effectively removed, and the cleanness of the fabric is ensured.

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

FIG. 8 is an enlarged view of the invention taken in the direction of N in FIG. 5

Fig. 9 is an enlarged view of the invention in the direction X of fig. 6.

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 scheme, a process for preparing an anti-wrinkle conformal polyester fiber fabric uses an anti-wrinkle conformal polyester fiber fabric preparation apparatus, the anti-wrinkle conformal polyester fiber fabric preparation apparatus includes a bottom plate 1, a drying device 2, an input device 3 and an output device 4, and a specific method when the anti-wrinkle conformal polyester fiber fabric preparation apparatus is used for drying the anti-wrinkle conformal polyester fiber fabric is as follows:

s2, fabric installation: the dehydrated anti-wrinkle conformal polyester fiber fabric is placed on an input device 3 in a manual mode, and then the fabric passes through a drying device 2 to be connected with an output device 4;

s3, drying: introducing hot air into the drying device 2 manually, drying the fabric by the drying device 2, and then winding the dried fabric by the output device 4;

s4, storage and warehousing: the rolled fabric is taken out from the output device 4 in a manual mode and is stored in a centralized mode.

The middle of the upper end of the bottom plate 1 is provided with a drying device 2, the left side of the drying device 2 is provided with an input device 3, the input device 3 is installed on the bottom plate 1, the right side of the drying device 2 is provided with an output device 4, and the output device 4 is installed on the bottom plate 1.

The drying device 2 comprises a drying frame 21, an air inlet frame 22, an air inlet pipe 23, a reciprocating mechanism 24, a beating mechanism 25 and a jacking mechanism 26, wherein the drying frame 21 is arranged on the upper end surface of the bottom plate 1, the drying frame 21 is of a rectangular structure, the air inlet frame 22 is symmetrically arranged in the drying frame 21 from top to bottom, the air inlet frame 22 is arranged on the inner end surface of the drying frame 21, air inlet holes are uniformly formed in the inner side wall of the air inlet frame 22, the air inlet pipe 23 is arranged at the left end of the air inlet frame 22, the air inlet pipe 23 is communicated with the air inlet frame 22, the reciprocating mechanism 24 is symmetrically arranged in the center between the air inlet frames 22, the reciprocating mechanism 24 is connected with the inner wall of the air inlet frame 22 in a sliding fit manner, the beating mechanism 25 is uniformly arranged at the inner end of the reciprocating mechanism 24, the jacking mechanism 26 is arranged between the reciprocating mechanisms, during specific work, firstly, wind the surface fabric on reciprocating mechanism 24 from top to bottom through artificial mode, afterwards, the manual work lets in hot-blast air intake frame 22 from intake pipe 23, air intake frame 22 gets rid of hot-blast and dries the surface fabric through the inlet port, and finally, manual start climbing mechanism 26, climbing mechanism 26 drives reciprocating mechanism 24 and reciprocates and drags the surface fabric, thereby gap between the surface fabric has been increased, the moisture in the surface fabric of being convenient for is dried and is discharged, and simultaneously, drive beater mechanism 25 and pat the processing to the surface fabric, the effectual flock, the dust of surface adhesion of surface fabric that has removed, the dust.

The reciprocating mechanism 24 includes a sliding bar 241, a connecting frame 242, a rotating roller 243, a cleaning brush 244, a connecting spring 245 and a connecting plate 246, the inner side wall of the air inlet frame 22 is evenly connected with sliding rods 241 in a sliding fit mode, the inner end of each sliding rod 241 is provided with a connecting frame 242, each connecting frame 242 is of a U-shaped structure, the side wall of each connecting frame 242 is connected with a rotating roller 243 through a bearing, the outer side of each rotating roller 243 is provided with a cleaning brush 244, each cleaning brush 244 is arranged on each connecting frame 242, a connecting spring 245 is connected between each connecting frame 242 and the inner end face of the air inlet frame 22, the upper end face of each sliding rod 241 is provided with a connecting plate 246, during specific work, the jacking mechanism 26 drives the connecting plate 246 to move up and down, then the connecting plate 246 drives the rotating roller 243 to stretch the fabric through the sliding rod 241, thereby being convenient for the moisture in the surface fabric to get rid of, simultaneously, cleaning brush 244 clears up the surface of surface fabric.

The live-rollers 243 on evenly be provided with the rectangular hole, be provided with the arc arch between the rectangular hole, during specific work, the rectangular hole plays the effect of ventilation stoving, the arc arch plays and avoids surface fabric and live-rollers 243 to be connected closely, the hot-blast stoving to the surface fabric of being convenient for.

The flapping mechanism 25 comprises a connecting rod 251, a gathering frame 252, flapping rods 253, flapping rollers 254, a reciprocating spring 255, a clamping frame 256, a clamping block 257 and a clamping spring 258, wherein the connecting rod 251 is installed on the inner end face of the connecting plate 246, the connecting rod 251 is positioned between adjacent sliding rods 241, the gathering frame 252 is installed at the inner end of the connecting rod 251, the gathering frame 252 is in a U-shaped structure, the flapping rods 253 are symmetrically arranged between the gathering frames 252 in a bilateral mode, the flapping rods 253 are connected with the inner side wall of the air inlet frame 22 through pin shafts, the flapping rollers 254 are connected to the lower side of the front end face of the flapping rods 253 through bearings, the reciprocating spring 255 is connected between the flapping rods 253, the clamping frame 256 is arranged on the outer side wall of the reciprocating spring 255, the clamping frame 256 is installed on the rear side wall of the drying frame 21, clamping grooves are symmetrically arranged on the side wall of the clamping frame 256 in a bilateral mode, the clamping block 257 is connected to the, chucking piece 257 is connected with gathering together frame 252 through wire rope, and during concrete work, drive gathering together frame 252 when connecting plate 246 descends and gather together beater bar 253, beater bar 253 and chucking piece 257 joint cooperation, later, gather together frame 252 when connecting plate 246 rises and drive chucking piece 257 through wire rope and remove to relieving the spacing function of beater bar 253, beater bar 253 realizes the function of patting through reciprocating spring 255.

Pat the outer terminal surface of pole 253 be provided with the jacking arch, the jacking is protruding and gather together frame 252 sliding fit, pat pole 253 the inner and install the joint piece, the joint piece passes through joint complex mode and is connected with chucking piece 257, concrete during operation, the jacking is protruding to be realized gathering together the function with gathering together frame 252 sliding fit, joint piece and chucking piece 257 cooperation realize the function of chucking.

The jacking mechanism 26 comprises a reciprocating push rod 261, a sliding block 262, a jacking frame 263, a rotating rod 264 and a jacking spring 265, the reciprocating push rod 261 is installed on the rear side wall of the drying frame 21, the sliding block 262 is installed at the output end of the reciprocating push rod 261, the sliding block 262 is connected with the rear side wall of the drying frame 21 in a sliding fit manner, rotating grooves are symmetrically arranged at the upper and lower parts of the outer side of the sliding block 262, the jacking frame 263 is connected with the side wall of the rotating grooves through a pin shaft, the rotating rod 264 is connected with the rear side wall of the drying frame 21 in a sliding fit manner inside the jacking frame 263, the rotating rod 264 is connected with the rear side wall of the drying frame 21 through a pin shaft, a ball is arranged at the outer end of the rotating rod 264, the ball is connected with a connecting plate 246 in a sliding manner, the, then, the sliding block 262 drives the rotating rod 264 to lift the connecting plate 246 back and forth.

Input device 3 include support frame 31, input roller 32 and stopper 33, support frame 31 install on bottom plate 1, be connected with input roller 32 through sliding fit's mode on the support frame 31 lateral wall, the symmetrical connection has stopper 33 around the mode through sliding fit in input roller 32 upper end, stopper 33 and support frame 31 joint cooperation, during specific work, through artificial mode with the surface fabric of not drying around rolling up at input roller 32, later, stopper 33 is spacing fixed to it.

Output device 4 include output frame 41, output roller 42, fixture block 43 and rolling motor 44, output frame 41 install on bottom plate 1, sliding connection has output roller 42 on the 41 lateral walls of output frame, symmetrical connection has fixture block 43 around the mode of sliding fit is passed through to output roller 42 upper end, fixture block 43 and the cooperation of the 41 lateral walls joint of output frame, output roller 42 front end is provided with the rectangle arch, the protruding surface of rectangle is connected with rolling motor 44 through the cooperation of joint, rolling motor 44 installs on output frame 41, concrete during operation, the surface fabric after will drying is connected with output roller 42 through artificial mode, afterwards, fixture block 43 is spacing to it, finally, manual start rolling motor 44, rolling motor 44 drives output roller 42 and carries out the rolling 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

1. The utility model provides an anti wrinkle shape retaining polyester fiber surface fabric preparation technology, it has used an anti wrinkle shape retaining polyester fiber surface fabric preparation equipment, this anti wrinkle shape retaining polyester fiber surface fabric preparation equipment includes bottom plate (1), drying device (2), input device (3) and output device (4), its characterized in that: the specific method for drying the anti-wrinkle conformal polyester fiber fabric by adopting the anti-wrinkle conformal polyester fiber fabric preparation equipment is as follows:

s2, fabric installation: the dehydrated anti-wrinkle shape-preserving polyester fiber fabric is placed on an input device (3) in a manual mode, and then the fabric passes through a drying device (2) to be connected with an output device (4);

s3, drying: introducing hot air into the drying device (2) in a manual mode, drying the fabric by the drying device (2), and then winding the dried fabric by the output device (4);

s4, storage and warehousing: the rolled fabric is taken out from the output device (4) in a manual mode and is stored in a centralized mode;

the middle part of the upper end of the bottom plate (1) is provided with the drying device (2), the left side of the drying device (2) is provided with the input device (3), the input device (3) is arranged on the bottom plate (1), the right side of the drying device (2) is provided with the output device (4), and the output device (4) is arranged on the bottom plate (1);

the drying device (2) comprises a drying frame (21), an air inlet frame (22), an air inlet pipe (23), a reciprocating mechanism (24), a beating mechanism (25) and a jacking mechanism (26), wherein the drying frame (21) is installed on the upper end face of a bottom plate (1), the drying frame (21) is of a rectangular structure, the air inlet frame (22) is arranged in the drying frame (21) in an up-and-down symmetrical mode, the air inlet frame (22) is installed on the inner end face of the drying frame (21), air inlet holes are evenly formed in the inner side wall of the air inlet frame (22), the air inlet pipe (23) is installed at the left end of the air inlet frame (22), the air inlet pipe (23) is communicated with the air inlet frame (22), the reciprocating mechanism (24) is arranged between the air inlet frame (22) in a central symmetrical mode, the reciprocating mechanism (24) is connected with the inner wall of the air inlet frame (22) in a sliding fit mode, the, a jacking mechanism (26) is arranged between the reciprocating mechanisms (24), the jacking mechanism (26) is arranged on the inner end surface of the rear side wall of the drying frame (21), and the jacking mechanism (26) is connected with the reciprocating mechanism (24) in a sliding manner;

the reciprocating mechanism (24) comprises a sliding rod (241), a connecting frame (242), a rotating roller (243), a cleaning brush (244), a connecting spring (245) and a connecting plate (246), the inner side wall of the air inlet frame (22) is evenly connected with the sliding rod (241) in a sliding fit mode, the connecting frame (242) is installed at the inner end of the sliding rod (241), the connecting frame (242) is of a U-shaped structure, the rotating roller (243) is connected to the side wall of the connecting frame (242) through a bearing, the cleaning brush (244) is arranged on the outer side of the rotating roller (243), the cleaning brush (244) is installed on the connecting frame (242), the connecting spring (245) is connected between the connecting frame (242) and the inner end face of the air inlet frame (22), and the connecting plate (246) is installed on the upper end face of the sliding rod;

the flapping mechanism (25) comprises a connecting rod (251), gathering frames (252), flapping rods (253), flapping rollers (254), a reciprocating spring (255), clamping frames (256), clamping blocks (257) and clamping springs (258), the connecting rod (251) is installed on the inner end face of the connecting plate (246), the connecting rod (251) is located between adjacent sliding rods (241), the gathering frames (252) are installed at the inner ends of the connecting rod (251), the gathering frames (252) are of U-shaped structures, flapping rods (253) are symmetrically arranged between the gathering frames (252) in the bilateral direction, the flapping rods (253) are connected with the inner side wall of the air inlet frame (22) through pin shafts, the lower side of the front end face of the flapping rods (253) is connected with the flapping rollers (254) through bearings, the reciprocating spring (255) is connected between the flapping rods (253), the clamping frames (256) are arranged on the outer sides of the reciprocating spring (255), and the clamping frames (256) are installed on the rear side wall of the drying frame (21, the left and right symmetry is provided with the chucking groove on chucking frame (256) lateral wall, is connected with chucking piece (257) through sliding fit's mode on the chucking groove lower wall, is connected with chucking spring (258) between chucking piece (257) and chucking frame (256), and chucking piece (257) are connected with gathering together frame (252) through wire rope.

2. The preparation process of the crease-resistant conformal polyester fiber fabric according to claim 1, which is characterized in that: input device (3) include support frame (31), input roller (32) and stopper (33), support frame (31) install on bottom plate (1), be connected with input roller (32) through sliding fit's mode on support frame (31) lateral wall, symmetrical connection has stopper (33) around input roller (32) upper end through sliding fit's mode, stopper (33) and support frame (31) joint cooperation.

3. The preparation process of the crease-resistant conformal polyester fiber fabric according to claim 1, which is characterized in that: output device (4) including output frame (41), output roller (42), fixture block (43) and rolling motor (44), output frame (41) install on bottom plate (1), sliding connection has output roller (42) on output frame (41) lateral wall, symmetrical connection has fixture block (43) around output roller (42) upper end through sliding fit's mode, fixture block (43) and output frame (41) lateral wall joint cooperation, output roller (42) front end is provided with the rectangle arch, the protruding surface of rectangle is connected with rolling motor (44) through joint complex mode, rolling motor (44) are installed on output frame (41).

4. The preparation process of the crease-resistant conformal polyester fiber fabric according to claim 1, which is characterized in that: the jacking mechanism (26) comprises a reciprocating push rod (261), a sliding block (262), a jacking frame (263), a rotating rod (264) and a jacking spring (265), reciprocating push rod (261) install on stoving frame (21) rear side wall, sliding block (262) are installed to the output of reciprocating push rod (261), sliding block (262) are connected with stoving frame (21) rear side wall through sliding fit's mode, sliding block (262) outside longitudinal symmetry is provided with the swivelling chute, there is jacking frame (263) through the round pin hub connection on the swivelling chute lateral wall, jacking frame (263) inside is connected with rotary rod (264) through sliding fit's mode, rotary rod (264) are connected with stoving frame (21) rear side wall through the round pin axle, rotary rod (264) outer end is provided with the ball, sliding connection between ball and connecting plate (246), be connected with jacking spring (265) between rotary rod (264) the inner and jacking frame (263).

5. The preparation process of the crease-resistant conformal polyester fiber fabric according to claim 1, which is characterized in that: the rotating roller (243) is uniformly provided with rectangular holes, and arc-shaped bulges are arranged between the rectangular holes.

6. The preparation process of the crease-resistant conformal polyester fiber fabric according to claim 1, which is characterized in that: clap pole (253) outer terminal surface be provided with the jacking arch, the jacking is protruding with gather together frame (252) sliding fit, claps pole (253) inner and installs the joint piece, the joint piece passes through the joint complex mode and is connected with chucking piece (257).