CN113978052B

CN113978052B - High-elastic breathable polyester fabric and setting device thereof

Info

Publication number: CN113978052B
Application number: CN202111286178.3A
Authority: CN
Inventors: 肖华
Original assignee: Jiaxing Yingwei Textile Co ltd
Current assignee: Jiaxing Yingwei Textile Co ltd
Priority date: 2021-11-02
Filing date: 2021-11-02
Publication date: 2022-07-01
Anticipated expiration: 2041-11-02
Also published as: CN113978052A

Abstract

The invention discloses a high-elastic and breathable polyester fabric and a setting device thereof, wherein the fabric comprises: the breathable fabric comprises a first textile layer, a second textile layer, a moisture absorption layer, a penetrating layer, a breathable layer and an elastic layer. The setting device includes: bottom plate, surface fabric transport mechanism, flattening module and compound stamp printing module. According to the invention, the material with good water absorption and air permeability is combined with the traditional polyester fabric, so that compared with the traditional polyester fabric, the polyester fabric has better water absorption and air permeability, is more comfortable to wear and has stronger market competitiveness; can carry out the printing of composite printing to the dacron surface fabric according to actual need, whole process does not need artifical the participation, and whole printing is efficient to can be according to actual production needs, through the regulation to the printing structure, carry out the printing of other composite printing on the basis that does not shift to the dacron surface fabric, with satisfy actual market needs, whole automation and linkage degree are high, have stronger practicality.

Description

High-elastic breathable polyester fabric and setting device thereof

Technical Field

The invention belongs to the field of fabric processing, and particularly relates to a high-elastic and breathable polyester fabric and a setting device thereof.

Background

Fabric is the material used to make clothing. As one of the three elements of the clothes, the fabric not only can explain the style and the characteristics of the clothes, but also directly controls the expression effects of the color and the shape of the clothes.

The terylene fabric is a chemical fiber garment fabric which is used in daily life. The most important advantage is that it has good crease resistance and shape-preserving property, so that it is suitable for making outdoor articles such as coat and clothing, various bags and tents, etc. Although the traditional polyester fabric has higher strength and elasticity recovery capability, the overall moisture absorption and air permeability are poorer, and the fabric is stuffy when worn in summer. In addition, in the daily processing of the polyester fabric, attractive printing is usually required to be printed on the surface of the fabric, the traditional printing with a single structure is difficult to meet the aesthetic requirements of people, and the composite printing fabric with multiple printing structures is the mainstream of the modern times, so that the traditional manufacturers generally print the composite printing on the fabric by sequentially passing multiple printing production lines on the fabric, the actual production efficiency is low, the integral printing difficulty is high, and the labor intensity of production personnel is consumed. Therefore, the polyester fabric with good air permeability and water absorption is designed, and the device capable of automatically printing the composite printing on the polyester fabric according to actual needs meets the actual needs.

Aiming at the problems, a high-elastic and breathable polyester fabric and a setting device thereof are designed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a high-elasticity and breathable polyester fabric and a setting device thereof, and solves the problems that the polyester fabric in the prior art is poor in breathability and water absorbability, and the efficiency of printing a composite fabric on the fabric is low, the printing difficulty is high, and the labor intensity of production personnel is consumed.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a high-elastic ventilative dacron surface fabric, includes first weaving layer and second weaving layer, the laminating has moisture absorption layer, penetrating layer, ventilative layer and elasticity layer between first weaving layer and the second weaving layer, moisture absorption layer and the laminating of first weaving layer, elasticity layer and the laminating of second weaving layer, penetrating layer and moisture absorption layer and ventilative layer laminating, ventilative layer and elasticity layer laminating.

The utility model provides a setting device of high-elastic ventilative dacron surface fabric, includes the bottom plate, be equipped with surface fabric transport mechanism on the bottom plate, be equipped with flattening module and compound stamp printing module in the surface fabric transport mechanism.

The composite printing module comprises a lifting seat and a printing adjusting mechanism, the upper end of the lifting seat is arranged in the printing adjusting mechanism, the printing adjusting mechanism comprises a cross sliding groove, and a second mounting table is arranged right above the cross sliding groove.

The upper end of the second mounting table is fixedly provided with a vertically arranged connecting column, the side end of the connecting column is fixedly provided with U-shaped rods distributed in an array mode, a third guide rod is vertically and fixedly arranged in the U-shaped rods, a second sliding block in sliding connection is arranged in the U-shaped rods, and the third guide rod penetrates through the second sliding block and is in sliding connection with the second sliding block.

The side end of the connecting column is fixedly provided with fourth guide rods distributed in an array manner, the connecting column is arranged in the annular frame, and one end of each fourth guide rod is fixedly connected with the annular frame.

Further, surface fabric transport mechanism includes supporting panel, supporting panel and bottom plate fixed connection, be equipped with the transmission shaft of rotating the connection between the supporting panel, the fixed first erection column and the second erection column of being equipped with in upper end of bottom plate, be equipped with the winding drum of rotating the connection between the first erection column, be equipped with the cylinder of rotating the connection between the second erection column, one the fixed first motor that is equipped with in one side of first erection column, the output intercommunication first erection column of first motor to with winding drum fixed connection.

The improved motor support is characterized in that a first lead screw and a first guide rod are arranged in the support panel, the first lead screw is connected with the support panel in a rotating mode, the first guide rod is fixedly connected with the support panel, a second motor is fixedly connected in the support panel, the output end of the second motor is communicated with the support panel and is fixedly connected with the first lead screw, and the support panel is provided with an opening groove.

Further, the leveling module comprises a connecting frame, fixing rods are fixedly arranged on two sides of the connecting frame and fixedly connected with the grooves, communicating grooves are formed in the other two sides of the connecting frame, and a third motor is fixedly arranged at the upper end of the connecting frame.

Be equipped with the second lead screw that rotates the connection in the connecting frame, the output intercommunication connecting frame of third motor to with second lead screw fixed connection, be equipped with fixed connection's second guide arm in the connecting frame, be equipped with sliding connection's slide bar on the second guide arm, it is adjacent to fix being equipped with the linking arm on the slide bar be equipped with the compression roller of rotating the connection between the linking arm, the fixed connecting piece that is equipped with in one side of slide bar, the second lead screw runs through the connecting piece to with connecting piece screw-thread fit.

Further, the lift seat includes a supporting table, the fixed fourth motor and the X type lifter that is equipped with of lower extreme of supporting table, be equipped with circular slot and thread groove on the lifter, first guide arm runs through the circular slot to with X type lifter sliding connection, first lead screw runs through the thread groove to with X type lifter screw-thread fit, the side of supporting table is equipped with array distribution's card and groove, be equipped with the connecting hole in the supporting table.

Further, the lower extreme of cross spout is fixed and is equipped with the connecting axle, the connecting axle is arranged in the connecting hole to rotate with the connecting hole and be connected, the output intercommunication brace table of fourth motor to with connecting axle fixed connection, the cross spout rotates with the brace table laminating.

The utility model discloses a fixed mounting structure of connecting, including cross spout, first slider, second slider, third lead screw, card and pole, the cross spout internal fixation is equipped with the installation piece that the array distributes, and is adjacent be equipped with the third lead screw that rotates the connection between the installation piece, it is equipped with the first slider that the array distributes to slide in the cross spout, the third lead screw runs through first slider to with first slider screw-thread fit, be equipped with the first bull stick of rotation connection between first slider and the second slider, one side of first slider is fixed and is equipped with card and pole, the card slides with the lower extreme and the cross spout laminating of installation piece with the pole, card and pole and card and slot coordination.

Furthermore, a first installation platform is arranged above the cross sliding groove, the first installation platform is arranged below the second installation platform, a fifth motor is fixedly arranged at the upper end of the first installation platform, a first rotating part connected in a rotating mode is arranged at the lower end of the first installation platform, a first bevel gear is fixedly arranged at the lower end of the first rotating part, and the output end of the fifth motor is communicated with the first installation platform and is fixedly connected with the first rotating part.

Furthermore, a second adapter piece in rotating connection is arranged at one end, close to the mounting block of the first bevel gear, of the third screw rod, the third screw rod is communicated with the mounting block and is fixedly connected with the second adapter piece, a second bevel gear is fixedly arranged at one end of the second adapter piece, and the first bevel gear is meshed with the second bevel gear.

The fixed third erection column that is equipped with the array distribution in upper end of annular frame is adjacent be equipped with the pivot of rotating the connection between the third erection column, the fixed gear that is equipped with in the pivot.

Furthermore, third sliders distributed in an array mode are arranged between the connecting column and the annular frame, second rotating rods connected in a rotating mode are arranged between the third sliders and the second sliders, and fourth guide rods penetrate through the third sliders and are connected with the third sliders in a sliding mode.

The fixed rack that is equipped with in upper end of third slider, the rack slides with the upper end laminating of annular frame, rack and gear engagement, the fixed rocking arm that is equipped with in the pivot, the fixed printing frame that is equipped with in one end of rocking arm, be equipped with the printing roller of rotation connection in the printing frame.

The invention has the beneficial effects that:

1. the high-elastic breathable polyester fabric provided by the invention adopts the materials with good water absorption and good air permeability to be combined with the traditional polyester fabric, and has better water absorption and air permeability, better wearing comfort and stronger market competitiveness compared with the traditional polyester fabric;

2. the setting device for the high-elastic breathable polyester fabric can print the composite printing on the polyester fabric according to actual needs, does not need manual participation in the whole process, is high in whole printing efficiency, can print other composite printing on the basis of not transferring the polyester fabric by adjusting the printing structure according to actual production needs, meets the actual market needs, is high in whole automation and linkage degree, and has strong practicability;

3. the shaping device for the high-elastic breathable polyester fabric, provided by the invention, has the advantages of wide application range and convenience in operation, and can be widely applied to the field of production and processing of various fabrics.

Drawings

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present invention, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a polyester fabric according to an embodiment of the invention;

FIG. 2 is a schematic view of the overall structure of the polyester fabric setting device in the embodiment of the invention;

FIG. 3 is a schematic view of a part of the internal structure of the setting device according to the embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a leveling module of the shaping apparatus according to an embodiment of the present invention;

FIG. 5 is a schematic view of the internal structure of the leveling module of the shaping apparatus according to the embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a composite printing module of the setting device according to the embodiment of the invention;

FIG. 7 is a schematic view of another perspective structure of a composite printing module of the setting device according to the embodiment of the invention;

FIG. 8 is a schematic diagram of a lifting seat structure of a composite printing module according to an embodiment of the invention;

FIG. 9 is a schematic view of a print adjustment mechanism of a composite decal printing module according to an embodiment of the invention;

FIG. 10 is an enlarged schematic view of FIG. 9 at A;

fig. 11 is an enlarged schematic view of fig. 9 at B.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.

As shown in fig. 1, the high-elastic breathable polyester fabric comprises a first textile layer 10 and a second textile layer 60, wherein a moisture absorption layer 20, a penetration layer 30, a breathable layer 40 and an elastic layer 50 are attached between the first textile layer 10 and the second textile layer 60, the moisture absorption layer 20 is attached to the first textile layer 10, and the elastic layer 50 is attached to the second textile layer 60. The permeable layer 30 is attached to the moisture absorption layer 20 and the breathable layer 40, and the breathable layer 40 is attached to the elastic layer 50.

The second textile layer 60 is woven from polyester; the first textile layer 10 is formed by blending and weaving terylene and cashmere; the moisture absorption layer 20 is formed by weaving polyester fibers; the penetrating layer 30 is woven from flax fibers; the breathable layer 40 is formed by blending and weaving pineapple leaf fibers and modal fibers; the elastic layer 50 is woven from soy protein composite fibers.

As shown in fig. 2, a setting device for a high-elastic breathable polyester fabric comprises a base plate 1, a fabric conveying mechanism 2 which is vertically arranged is fixed at the upper end of the base plate 1, a leveling module 3 and a vertically lifting composite printing module 4 are fixed in the fabric conveying mechanism 2, and the composite printing module 4 is arranged under the leveling module 3.

As shown in fig. 3, the fabric conveying mechanism 2 includes a supporting panel 27 vertically disposed, and the supporting panel 27 is fixedly connected to the upper end of the bottom plate 1. The symmetry is equipped with the transmission shaft 28 that rotates the connection between the supporting panel 27, be equipped with on the supporting panel 27 and observe groove 21, fixed first erection column 24 and the second erection column 25 of being equipped with in upper end of bottom plate 1, be equipped with the winding reel 22 that rotates the connection between the first erection column 24, be equipped with the cylinder 23 that rotates the connection between the second erection column 25, one fixed first motor 26 that is equipped with in one side of first erection column 24, the first erection column 24 of output intercommunication of first motor 26 to with winding reel 22 fixed connection. A first screw rod 212 and a first guide rod 210 are vertically arranged in the supporting panel 27, the first screw rod 212 is rotatably connected with the supporting panel 27, the first guide rod 210 is fixedly connected with the supporting panel 27, a second motor 29 fixedly connected with the supporting panel 27 is arranged in the supporting panel 27, the output end of the second motor 29 is communicated with the supporting panel 27 and is fixedly connected with the first screw rod 212, and a notch 211 is arranged on the supporting panel 27.

As shown in fig. 4 and 5, the leveling module 3 includes a connection frame 31, fixing rods 33 are fixedly disposed on two sides of the connection frame 31, the fixing rods 33 are fixedly connected with the slits 211, communication grooves 34 are disposed on the other two sides of the connection frame 31, and a third motor 32 is fixedly disposed at the upper end of the connection frame 31. The vertical symmetry is equipped with the second lead screw 38 of rotation connection in the connecting frame 31, second lead screw 38 is the double-end lead screw, the output intercommunication connecting frame 31 of third motor 32 to with second lead screw 38 fixed connection. Vertical symmetry is equipped with fixed connection's second guide arm 35 in the connection frame 31, be equipped with sliding connection's slide bar 36 on the second guide arm 35, the fixed linking arm 37 that is equipped with on the slide bar 36 is adjacent be equipped with the compression roller 39 of rotation connection between the linking arm 37, the fixed connecting piece that is equipped with in one side of slide bar 36, second lead screw 38 runs through the connecting piece to with connecting piece screw-thread fit. In the actual processing process, the polyester fabric passes through the communicating groove 34, and the press rollers 39 are always symmetrical with respect to the polyester fabric.

As shown in fig. 6, 7 and 8, the compound printing module 4 includes a lifting seat 41 and a printing adjusting mechanism 42, and the printing adjusting mechanism 42 is disposed at an upper end of the lifting seat 41. The lifting seat 41 comprises a supporting table 411, a fourth motor 412 and an X-shaped lifting rod 413 are fixedly arranged at the lower end of the supporting table 411, a circular groove 415 and a thread groove 416 are formed in the lifting rod 413, the first guide rod 210 penetrates through the circular groove 415 and is in sliding connection with the X-shaped lifting rod 413, and the first screw rod 212 penetrates through the thread groove 416 and is in threaded fit with the X-shaped lifting rod 413. The side end of the supporting platform 411 is provided with cards and slots 417 distributed in an array, and the supporting platform 411 is internally provided with connecting holes 414.

As shown in fig. 9, 10 and 11, the printing adjusting mechanism 42 includes a cross sliding slot 425, a connecting shaft is fixedly disposed at a lower end of the cross sliding slot 425, the connecting shaft is disposed in the connecting hole 414 and rotatably connected to the connecting hole 414, and an output end of the fourth motor 412 is communicated with the supporting platform 411 and fixedly connected to the connecting shaft. The cross sliding groove 425 is attached to the supporting table 411 to rotate, reinforcing blocks 428 distributed in an array mode are fixedly arranged on the side edge of the cross sliding groove 425, mounting blocks 426 distributed in an array mode are fixedly arranged in the cross sliding groove 425, third screw rods 429 rotatably connected between the adjacent mounting blocks 426 are arranged, first sliding blocks 427 distributed in an array mode are arranged in the cross sliding groove 425 in a sliding mode, and the third screw rods 429 penetrate through the first sliding blocks 427 and are in threaded fit with the first sliding blocks 427. A clamping rod 424 is fixedly arranged on one side of the first sliding block 427, the clamping rod 424 is attached to the lower end of the mounting block 426 and the cross sliding groove 425 to slide, and the clamping rod 424 is matched with the clamping groove 417.

The fixed first support column 4212 that is equipped with vertical setting in upper end of boss 428, the fixed first mount table 4213 that is equipped with in upper end of first support column 4212, the fixed second support column 4217 that is equipped with fifth motor 4216 and vertical array and distributes in upper end of first mount table 4213, the fixed second mount table 4218 that is equipped with in upper end of second support column 4217. The lower end of the first mounting table 4213 is provided with a first rotating member 4214 which is rotatably connected, the lower end of the first rotating member 4214 is fixedly provided with a first bevel gear 4215, and the output end of the fifth motor 4216 is communicated with the first mounting table 4213 and is fixedly connected with the first rotating member 4214. A second adapter 4210 in rotary connection is arranged at one end of the mounting block 426 close to the first bevel gear 4215, and the third screw rod 429 is communicated with the mounting block 426 and fixedly connected with the second adapter 4210. One end of the second adapter 4210 is fixedly provided with a second bevel gear 4211, and the first bevel gear 4215 is meshed with the second bevel gear 4211.

A vertically arranged connecting column 4220 is fixedly arranged at the upper end of the second mounting table 4218, U-shaped rods 4222 distributed in an array manner are fixedly arranged at the side ends of the connecting column 4220, a third guide rod 4223 is vertically and fixedly arranged in the U-shaped rods 4222, a second sliding block 4224 connected in a sliding manner is arranged in the U-shaped rods 4222, a first rotating rod 4219 connected in a rotating manner is arranged between the first sliding block 427 and the second sliding block 4224, and the third guide rod 4223 penetrates through the second sliding block 4224 and is connected with the second sliding block 4224 in a sliding manner. The side end of the connecting column 4220 is fixedly provided with fourth guide rods 4221 distributed in an array, the connecting column 4220 is arranged in the ring-shaped frame 4225, and one end of each fourth guide rod 4221 is fixedly connected with the ring-shaped frame 4225. Third mounting columns 4228 distributed in an array mode are fixedly arranged at the upper end of the annular frame 4225, a rotating shaft 4229 connected in a rotating mode is arranged between every two adjacent third mounting columns 4228, and a gear 4230 is fixedly arranged on the rotating shaft 4229.

Third sliding blocks 4226 distributed in an array mode are arranged between the connecting column 4220 and the ring frame 4225, second rotating rods 4231 connected in a rotating mode are arranged between the third sliding blocks 4226 and the second sliding blocks 4224, and the fourth guide rods 4221 penetrate through the third sliding blocks 4226 and are connected with the third sliding blocks 4226 in a sliding mode. A rack 4227 is fixedly arranged at the upper end of the third sliding block 4226, the rack 4227 is attached to the upper end of the annular frame 4225 to slide, and the rack 4227 is meshed with the gear 4230. A rotating arm 423 is fixedly arranged on the rotating shaft 4229, a printing frame 421 is fixedly arranged at one end of the rotating arm 423, a printing roller 422 which is connected in a rotating mode is arranged in the printing frame 421, and printed patterns on the printing roller 422 are different.

It should be noted that, two opposite printing rollers 422 for printing in the actual processing process are over against the polyester fabric, and the other two opposite printing rollers 422 are arranged in the notch 211, so that the polyester fabric on the transmission shaft 28 can be properly bent by adjusting the angle of the printing rollers 422, the transmission trend of the polyester fabric is changed, and meanwhile, the contact area between the polyester fabric and the printing rollers 422 is increased, thereby improving the printing quality of the polyester fabric.

When in use, the terylene fabric is wound on the roller 23, and then one end of the terylene fabric is wound around each transmission shaft 28 in turn and is fixed with the winding drum 22. Then, according to actual needs, the surface of the polyester fabric is uneven, and wrinkle removing treatment is needed, the third motor 32 is started, so that the second screw rod 38 rotates, and the compression roller 39 compresses the polyester fabric. Then the second motor 29 is started again, so that the first screw rod 212 rotates, the composite printing module 4 is lifted to a proper height, and then a specific printing pattern is selected according to specific printing requirements, and the specific means is as follows: the fourth motor 412 is started to rotate the integral printing adjusting mechanism 42 in the lifting seat 41 until the selected printing roller 422 is opposite to the terylene fabric, and the card and the rod 424 are opposite to the card and the groove 417. Then, the fifth motor 4216 is activated to rotate the first adapter 4214 and the first bevel gear 4215, so as to rotate the second adapter 4210, the second bevel gear 4211 and the third screw rod 429, so as to move the first slider 427 and the card and rod 424, and then the card and rod 424 is inserted into the card and slot 417, so that the fixation is completed. During the movement of the first slide 427, the second slider 4224 moves downwards, the third slider 4226 and the rack 4227 move towards the connecting column 4220, and the gear 4230 rotates, so that the printing frame 421 rotates towards the polyester fabric until the printing roller 422 is in contact with the polyester fabric and the polyester fabric is properly bent. And finally, starting the first motor 26 to enable the winding drum 22 to wind the polyester fabric, so that the two sides of the polyester fabric are wrinkle-removed, and meanwhile, the side, which is in contact with the printing roller 422, of the polyester fabric is printed with the composite printing.

And in actual production, when needing to produce the dacron surface fabric of two kinds or multiple combined printing, need not increase a plurality of setting devices, only need after accomplishing the required production volume of a dacron surface fabric, through the regulation to combined printing module 4 for other printing roller 422 and surface fabric laminating, then through the normal rolling of take-up reel 22 can, wait to take off the dacron surface fabric after the printing is accomplished, with the dacron surface fabric according to the boundary department of different combined printing tailor can. Not only save cost and manpower, the production efficiency of whole is also higher moreover.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, and such changes and modifications are within the scope of the invention as claimed.

Claims

1. The shaping device for the high-elasticity breathable polyester fabric is characterized in that the polyester fabric comprises a first textile layer (10) and a second textile layer (60), a moisture absorption layer (20), a penetrating layer (30), a breathable layer (40) and an elastic layer (50) are attached between the first textile layer (10) and the second textile layer (60), the moisture absorption layer (20) is attached to the first textile layer (10), the elastic layer (50) is attached to the second textile layer (60), the penetrating layer (30) is attached to the moisture absorption layer (20) and the breathable layer (40), and the breathable layer (40) is attached to the elastic layer (50);

the polyester fabric shaping device comprises a bottom plate (1), a fabric conveying mechanism (2) is arranged on the bottom plate (1), and a leveling module (3) and a composite printing module (4) are arranged in the fabric conveying mechanism (2);

the fabric conveying mechanism (2) comprises supporting panels (27), the supporting panels (27) are fixedly connected with a base plate (1), transmission shafts (28) which are rotatably connected are arranged between the supporting panels (27), first mounting columns (24) and second mounting columns (25) are fixedly arranged at the upper end of the base plate (1), winding drums (22) which are rotatably connected are arranged between the first mounting columns (24), rollers (23) which are rotatably connected are arranged between the second mounting columns (25), a first motor (26) is fixedly arranged on one side of one first mounting column (24), and the output end of the first motor (26) is communicated with the first mounting column (24) and is fixedly connected with the winding drum (22);

a first screw rod (212) and a first guide rod (210) are arranged in the supporting panel (27), the first screw rod (212) is rotatably connected with the supporting panel (27), the first guide rod (210) is fixedly connected with the supporting panel (27), a second motor (29) is fixedly connected in the supporting panel (27), the output end of the second motor (29) is communicated with the supporting panel (27) and is fixedly connected with the first screw rod (212), and a notch (211) is formed in the supporting panel (27);

the composite printing module (4) comprises a lifting seat (41) and a printing adjusting mechanism (42), the printing adjusting mechanism (42) is arranged at the upper end of the lifting seat (41), the printing adjusting mechanism (42) comprises a cross sliding groove (425), and a second mounting table (4218) is arranged right above the cross sliding groove (425);

a vertically arranged connecting column (4220) is fixedly arranged at the upper end of the second mounting table (4218), U-shaped rods (4222) distributed in an array mode are fixedly arranged at the side end of the connecting column (4220), a third guide rod (4223) is vertically and fixedly arranged in the U-shaped rods (4222), a second sliding block (4224) connected in a sliding mode is arranged in the U-shaped rods (4222), and the third guide rod (4223) penetrates through the second sliding block (4224) and is connected with the second sliding block (4224) in a sliding mode;

the side end of the connecting column (4220) is fixedly provided with fourth guide rods (4221) distributed in an array manner, the connecting column (4220) is arranged in the annular frame (4225), and one end of each fourth guide rod (4221) is fixedly connected with the annular frame (4225);

the lifting seat (41) comprises a supporting table (411), a fourth motor (412) and an X-shaped lifting rod (413) are fixedly arranged at the lower end of the supporting table (411), a circular groove (415) and a threaded groove (416) are formed in the X-shaped lifting rod (413), the first guide rod (210) penetrates through the circular groove (415) and is in sliding connection with the X-shaped lifting rod (413), the first screw rod (212) penetrates through the threaded groove (416) and is in threaded fit with the X-shaped lifting rod (413), clamps and grooves (417) distributed in an array mode are arranged at the side end of the supporting table (411), and connecting holes (414) are formed in the supporting table (411);

a connecting shaft is fixedly arranged at the lower end of the cross sliding groove (425), the connecting shaft is arranged in the connecting hole (414) and is rotatably connected with the connecting hole (414), the output end of the fourth motor (412) is communicated with the supporting table (411) and is fixedly connected with the connecting shaft, and the cross sliding groove (425) is attached to the supporting table (411) to rotate;

the mounting blocks (426) distributed in an array are fixedly arranged in the cross sliding groove (425), third screw rods (429) connected in a rotating mode are arranged between the adjacent mounting blocks (426), first sliding blocks (427) distributed in an array are arranged in the cross sliding groove (425) in a sliding mode, the third screw rods (429) penetrate through the first sliding blocks (427) and are in threaded fit with the first sliding blocks (427), first rotating rods (4219) connected in a rotating mode are arranged between the first sliding blocks (427) and the second sliding blocks (4224), a clamping rod (424) is fixedly arranged on one side of the first sliding blocks (427), the clamping rod (424) is attached to the lower end of the mounting block (426) and the cross sliding groove (425) in a sliding mode, and the clamping rod (424) is matched with the clamping rod (417);

a first installation table (4213) is arranged above the cross sliding groove (425), the first installation table (4213) is arranged below a second installation table (4218), a fifth motor (4216) is fixedly arranged at the upper end of the first installation table (4213), a first rotating connector (4214) in rotating connection is arranged at the lower end of the first installation table (4213), a first bevel gear (4215) is fixedly arranged at the lower end of the first rotating connector (4214), and the output end of the fifth motor (4216) is communicated with the first installation table (4213) and is fixedly connected with the first rotating connector (4214);

a second adapter (4210) in rotary connection is arranged at one end, close to the mounting block (426) of the first bevel gear (4215), the third screw rod (429) is communicated with the mounting block (426) and is fixedly connected with the second adapter (4210), a second bevel gear (4211) is fixedly arranged at one end of the second adapter (4210), and the first bevel gear (4215) is meshed with the second bevel gear (4211);

third mounting columns (4228) distributed in an array mode are fixedly arranged at the upper end of the annular frame (4225), a rotating shaft (4229) in rotating connection is arranged between every two adjacent third mounting columns (4228), and a gear (4230) is fixedly arranged on the rotating shaft (4229);

third sliding blocks (4226) distributed in an array mode are arranged between the connecting column (4220) and the annular frame (4225), second rotating rods (4231) connected in a rotating mode are arranged between the third sliding blocks (4226) and the second sliding blocks (4224), and the fourth guide rods (4221) penetrate through the third sliding blocks (4226) and are connected with the third sliding blocks (4226) in a sliding mode;

the upper end of the third sliding block (4226) is fixedly provided with a rack (4227), the rack (4227) is attached to and slides with the upper end of the annular frame (4225), the rack (4227) is meshed with a gear (4230), a rotating arm (423) is fixedly arranged on the rotating shaft (4229), one end of the rotating arm (423) is fixedly provided with a printing frame (421), and a printing roller (422) connected in a rotating mode is arranged in the printing frame (421).

2. The setting device for the high-elasticity breathable polyester fabric according to claim 1, wherein the leveling module (3) comprises a connecting frame (31), fixing rods (33) are fixedly arranged on two sides of the connecting frame (31), the fixing rods (33) are fixedly connected with the notches (211), communication grooves (34) are arranged on the other two sides of the connecting frame (31), and a third motor (32) is fixedly arranged at the upper end of the connecting frame (31);

be equipped with in connection frame (31) and rotate second lead screw (38) of connecting, the output intercommunication connection frame (31) of third motor (32) to with second lead screw (38) fixed connection, be equipped with fixed connection's second guide arm (35) in connection frame (31), be equipped with sliding connection's slide bar (36) on second guide arm (35), the fixed linking arm (37) that is equipped with on slide bar (36), it is adjacent be equipped with rotation connection's compression roller (39) between linking arm (37), one side of slide bar (36) is fixed and is equipped with the connecting piece, second lead screw (38) through-connection spare to with connecting piece screw-thread fit.