CN114351385B - Textile fabric printing and dyeing drying system and drying treatment process - Google Patents

Abstract

The invention relates to the technical field of fabric drying, in particular to a textile fabric printing and dyeing drying system and a drying treatment process. The method can solve the problems that the existing printed and dyed fabric is usually dried by directly entering the drying equipment, the method is simple and convenient to operate and high in flexibility, the printed and dyed fabric has high moisture content and needs to stay in the drying equipment for a long time, the surface of the fabric is contracted, the smoothness of the fabric is reduced and the like. The extrusion part adopted by the textile fabric printing and dyeing drying system can extrude and discharge water in the fabric before the fabric is dried, so that the time required by the fabric drying is reduced, and the phenomenon that the fabric is deformed due to long-time drying is avoided.

Description

Textile fabric printing and dyeing drying system and drying treatment process

Technical Field

The invention relates to the technical field of fabric drying, in particular to a textile fabric printing and dyeing drying system and a drying treatment process.

Background

Textile fabrics are classified into weft-knitted fabrics and warp-knitted fabrics according to weaving methods; the textile fabric is generally woven by taking low-elasticity polyester yarns, nylon yarns, cotton yarns, wool yarns and the like as raw materials, and the textile fabric enters the market for circulation after being dyed, rinsed, dried and the like to form a finished product.

The existing printed and dyed fabric is usually subjected to drying treatment by directly entering drying equipment, the method is simple and convenient to operate and high in flexibility, but the printed and dyed fabric is high in moisture content and needs to stay in the drying equipment for a long time, and shrinkage can occur on the surface of the fabric along with the increase of drying time, so that the fabric is wrinkled, and the smoothness of the fabric is reduced.

The existing printed and dyed fabric needs a lot of time to dry when most of water is not discharged, so that the efficiency of drying the fabric is reduced and the time for drying the fabric is increased.

Disclosure of Invention

The technical problems to be solved are as follows: the textile fabric printing and dyeing drying system and the drying treatment process can solve the problems in the process of drying the printed and dyed textile fabric.

The technical scheme is as follows: in order to achieve the above purpose, the invention adopts the following technical scheme that the textile fabric printing and dyeing drying system comprises a placing plate, a supporting plate, an extrusion piece and a drying module, wherein the supporting plate is installed at the upper end of the placing plate, the extrusion piece is installed at the rear end face of the supporting plate, and the drying module is installed at the upper end of the placing plate close to the right side.

The extrusion piece is including installing the rectangle frame at backup pad rear end face, and rectangular frame inner wall is close to lower extreme department and installs supporting mechanism, and a plurality of slide rail poles that are rectangle evenly distributed are installed to the supporting mechanism upper end, a plurality of joint slip runs through on the slide rail pole has pushing mechanism, and tensioning mechanism is installed to pushing mechanism lower extreme, and the U type pole is installed to pushing mechanism front end, and U type pole runs through with rectangular frame front wall and upper and lower sliding fit, and electric putter is installed to U type pole horizontal section lower extreme, and electric putter installs on placing the board under the end, and bar spout has all been seted up to rectangular frame left and right sides wall, and bar spout inside sliding connection has a plurality of evenly distributed's sliders, and the slider that is located left and right two bar spouts is crisscross distribution, and the slider is kept away from rectangular frame's one end and is installed pushing mechanism, pushing mechanism and rectangular frame lateral wall slip run through the cooperation, and is adjacent two install auxiliary spring between the slider lower extreme and the bar spout, be located rectangular frame left side downside electric putter installs first spring between slider lower extreme and the bar spout, and electric putter installs right angle sliding block, and the rectangular frame is installed right angle sliding plate is installed to the rectangular frame, and lift structure is right angle lifting plate.

The tensioning mechanism comprises a rectangular block arranged at the lower end of the pressing mechanism, a rectangular stepped through hole is formed in the middle of the rectangular block, a rotating groove is formed in the side wall of the rectangular stepped through hole in a bilateral symmetry mode, a transmission module is mounted on the front groove wall and the rear groove wall of the rotating groove in a common mode, a plurality of uniformly distributed strip-shaped plates are mounted on the transmission module, a first spring telescopic rod is mounted on the first spring telescopic rod in the middle of the end face of the strip-shaped plates, a second spring telescopic rod is mounted on the end face of the strip-shaped plates, which is far away from the transmission module, in a sliding mode, a rectangular groove is formed in the end face of the second spring telescopic rod, a tensioning plate is slidably connected inside the rectangular groove, a tensioning spring is fixedly connected between the tensioning plate and the groove wall of the rectangular groove, and a linkage rod is hinged between the second spring telescopic rod and the semi-column.

As a preferable technical scheme of the invention, the pushing mechanism comprises a cylindrical rod arranged at one end of a sliding block far away from a rectangular frame, a U-shaped sliding plate is sleeved on the cylindrical rod in a sliding way, a connecting spring is arranged between the longitudinal section of the U-shaped sliding plate and the sliding block, the connecting spring is sleeved on the outer wall of the cylindrical rod, guide grooves are formed in the inner ends of two transverse sections of the U-shaped sliding plate, sliding blocks are slidingly connected inside the guide grooves, a reset spring is arranged between the sliding blocks and the end walls of the guide grooves, auxiliary rollers are rotationally connected between the two sliding blocks, rotating rollers are symmetrically arranged at the front and back of one end of the longitudinal section of the U-shaped sliding plate far away from the sliding block, the rotating rollers are rotationally connected with the longitudinal section of the U-shaped sliding plate, and the rotating rollers are in sliding fit with the inclined surfaces of the right-angle trapezoid plates.

As a preferable technical scheme of the invention, the supporting mechanism comprises a rectangular supporting plate arranged on the inner wall of a rectangular frame, a rectangular through hole is formed in the middle of the rectangular supporting plate, a clamping rod penetrates through the rectangular supporting plate in a bilateral symmetry sliding mode, the clamping rod is matched with the side wall of the rectangular frame in a sliding and penetrating mode, the clamping plate is arranged at the end portion, close to the rectangular through hole, of the clamping rod, a clamping spring is arranged between the clamping plate and the wall of the rectangular through hole, a semicircular groove is formed in the clamping plate on the left side, a semi-cylindrical protrusion matched with the semicircular groove is arranged on the clamping plate on the right side, and a plurality of drain holes are formed in the left half portion of the rectangular supporting plate.

As a preferable technical scheme of the invention, the pushing mechanism comprises a lower pressing plate which penetrates through the sliding rail rods in a sliding manner, a feeding through hole is formed in the middle of the lower pressing plate, a pushing plate is symmetrically penetrated through the lower pressing plate in a sliding manner in a left-right manner, one end, close to the feeding through hole, of the pushing plate is provided with the pushing plate, a pushing spring is arranged between the pushing plate and the wall of the feeding through hole, and one end, far away from the pushing plate, of the pushing plate is rotatably connected with a rotating roller.

As a preferable technical scheme of the invention, one end of the clamping rod far away from the clamping plate is rotatably connected with a roller, and the roller is in sliding fit with the inclined surface of the right-angle trapezoid plate.

As a preferable technical scheme of the invention, oblique openings are formed in the inner end surfaces of the left side wall and the right side wall of the rectangular frame, which are close to the upper side, and the oblique openings are in sliding fit with the rotating rollers.

As a preferable technical scheme of the invention, the upper end of the rectangular frame is connected with a round roller through a roller frame.

As a preferable technical scheme of the invention, the rear end face of the supporting plate is rotationally connected with a guide roller near the lower end.

In addition, the invention also provides a treatment process for printing and drying the textile fabric, which specifically comprises the following steps: s1: the printed and dyed fabric is coiled by the existing traction rod, penetrates into the rectangular frame from the pressing mechanism and the tensioning mechanism, penetrates out from the lower part of the supporting mechanism, and then penetrates through the drying module to be connected with an external existing winding mechanism.

S2: the manual start electric sliding block, the electric sliding block extrudes supporting mechanism through the right-angle trapezoidal plate on the lifting frame to limit the lower end of the fabric, then the lifting frame continues to rise, the right-angle trapezoidal plate extrudes corresponding rotating rollers in sequence from bottom to top, the rotating rollers drive the U-shaped sliding plate to move towards the fabric, and the U-shaped sliding plate extrudes and folds the fabric through the auxiliary rollers.

S3: the manual start electric putter, electric putter drive U type slide through pushing down the mechanism and remove downwards, and tensioning mechanism pushes down the surface fabric simultaneously, and tensioning mechanism pushes down the surface fabric to supporting mechanism on afterwards and compresses tightly the drainage to the surface fabric, then electric putter drives pushing down the mechanism and remove certain distance upwards.

S4: the electric sliding block drives the lifting frame to reset downwards, the connecting spring drives the U-shaped sliding plate to reset, the existing winding mechanism pulls the pressed fabric into the drying module, and the drying module carries out drying treatment on the fabric.

The beneficial effects are that: 1. the extrusion part adopted by the textile fabric printing and dyeing drying system can extrude and discharge water in the fabric before the fabric is dried, so that the time required by the fabric drying is reduced, the fabric drying efficiency is improved, and the phenomenon that the fabric is deformed after long-time drying is avoided.

2. The extrusion part adopted by the textile fabric printing and dyeing drying system can ensure that the fabric is in a tensioning state when moving, and can carry out tensioning treatment on the fabric from two sides of the fabric, so that the phenomenon that the fabric contracts when moving is avoided, the phenomenon that the fabric is pressed and discharged is avoided, and the smoothness of the surface of the fabric is ensured.

Drawings

The invention will be further described with reference to the drawings and examples.

Fig. 1 is a schematic perspective view of a first view of the present invention.

Fig. 2 is a schematic view of a second perspective structure of the present invention.

Fig. 3 is a left side view of the present invention.

Fig. 4 is a cross-sectional view of A-A of fig. 3 in accordance with the present invention.

Fig. 5 is an enlarged view of the invention at F in fig. 4.

Fig. 6 is an enlarged view of the present invention at G in fig. 4.

Fig. 7 is an enlarged view of the present invention at H in fig. 4.

Fig. 8 is a front view of the present invention.

Fig. 9 is a cross-sectional view of the invention B-B of fig. 8.

Fig. 10 is a schematic cross-sectional view of the structure of the tensioning mechanism of the present invention.

Fig. 11 is an enlarged view of the invention at I in fig. 10.

In the figure: 1. placing a plate; 2. a support plate; 3. an extrusion; 31. a rectangular frame; 32. a support mechanism; 321. a rectangular support plate; 322. a clamping rod; 323. a clamping plate; 324. a clamping spring; 33. a slide rail rod; 34. a pressing mechanism; 341. a lower pressing plate; 342. a pushing plate; 343. an extrusion plate; 344. pushing and extruding a spring; 35. a tensioning mechanism; 351. rectangular blocks; 352. a transmission module; 353. a strip-shaped plate; 354. a spring telescopic rod; 355. a semi-cylinder; 356. a spring telescopic rod II; 357. a rectangular plate; 358. a tensioning plate; 359. tensioning a spring; 350. a linkage rod; 36. a U-shaped rod; 37. an electric push rod; 38. a slide block; 39. a pushing mechanism; 391. a cylindrical rod; 392. a U-shaped sliding plate; 393. a connecting spring; 394. a sliding block; 395. a return spring; 396. an auxiliary roller; 397. a rotating roller; 30. an electric sliding block; 301. a lifting frame; 302. an auxiliary spring; 4. and a drying module.

Detailed Description

Embodiments of the invention are described in detail below with reference to the attached drawings, but the invention can be implemented in a number of different ways, which are defined and covered by the claims.

Referring to fig. 1, 2, 3 and 8, a textile fabric printing and dyeing drying system comprises a placing plate 1, a supporting plate 2, an extrusion piece 3 and a drying module 4, wherein the supporting plate 2 is installed at the upper end of the placing plate 1, the extrusion piece 3 is installed at the rear end face of the supporting plate 2, the drying module 4 is installed at the upper end of the placing plate 1 close to the right side, and the guide roller is rotationally connected at the rear end face of the supporting plate 2 close to the lower end.

Referring to fig. 4 and 9, the extrusion 3 comprises a rectangular frame 31 mounted on the rear end face of the support plate 2, the upper end of the rectangular frame 31 is connected with a round roller through a roller frame, the inner end faces of the left and right side walls of the rectangular frame 31 are provided with inclined openings near the upper side, the inner wall of the rectangular frame 31 is provided with a support mechanism 32 near the lower end, the upper end of the support mechanism 32 is provided with a plurality of slide rail rods 33 uniformly distributed in rectangular shape, the slide rail rods 33 are jointly penetrated by a pressing mechanism 34, the lower end of the pressing mechanism 34 is provided with a tensioning mechanism 35, the front end of the pressing mechanism 34 is provided with a U-shaped rod 36, the front side wall of the U-shaped rod 36 is penetrated by and is vertically in sliding fit with the front side wall of the rectangular frame 31, the lower end of the transverse section of the U-shaped rod 36 is provided with an electric push rod 37, the lower end of the electric push rod 37 is mounted on the placing plate 1, the left and right side walls of the rectangular frame 31 are provided with bar-shaped slide grooves, the inside sliding connection of bar spout has a plurality of evenly distributed's slider 38, and the slider 38 that is located left and right sides two bar spouts is crisscross to be distributed, and the one end that slider 38 kept away from rectangle frame 31 is installed and is pushed mechanism 39, pushes mechanism 39 and rectangle frame 31 lateral wall slip run through the cooperation, and two adjacent between the slider 38 install auxiliary spring 302, be located rectangle frame 31 right side below slider 38 lower extreme and bar spout between install first spring, be located rectangle frame 31 left side below slider 38 lower extreme and bar spout install the second spring, and rectangle frame 31 rear end sliding connection has electronic sliding block 30, and electronic sliding block 30 rear end is installed and is gone up and down frame 301, and go up and down frame 301 and be U type structure, go up and down frame 301 opening forward, all install right trapezoid board on the both sides wall of the vertical section of frame 301, right trapezoid board's inclined plane up.

During specific work, the printed fabric is wound around the round roller through the existing traction rod, then penetrates into the rectangular frame 31 from the middle parts of the pressing mechanism 34 and the tensioning mechanism 35, penetrates out from the lower part of the supporting mechanism 32, the electric sliding block 30 is started manually, the electric sliding block 30 extrudes the supporting mechanism 32 through the right-angle trapezoid plate on the lifting frame 301, so that the lower end of the fabric is limited, the lifting frame 301 continues to ascend, the right-angle trapezoid plate sequentially moves the corresponding pushing mechanism 39 from bottom to top to the fabric direction and extrudes and folds the fabric, then the electric pushing rod 37 drives the pressing mechanism 34 to move downwards, the pressing mechanism 34 drives the pushing mechanism 39 to move downwards, meanwhile, the tensioning mechanism 35 presses the fabric downwards onto the supporting mechanism 32, the fabric is pressed and drained, the electric pushing rod 37 drives the pressing mechanism 34 to move upwards for a certain distance, and the electric sliding block 30 drives the lifting frame 301 to reset downwards, and the pushing mechanism 39 resets.

Referring to fig. 10 and 11, the tensioning mechanism 35 includes the rectangular block 351 of installing at the lower extreme of pushing down mechanism 34, rectangular stepped through hole has been seted up at rectangular block 351 middle part, rectangular stepped through hole lateral wall bilateral symmetry has been seted up the rotary tank, transmission module 352 is installed jointly to the cell wall around the rotary tank, install a plurality of evenly distributed's strip shaped plate 353 on the transmission module 352, the terminal surface mid-mounting that transmission module 352 was kept away from to strip shaped plate 353 has a spring telescopic rod 354, install the semicircle pillar 355 on the spring telescopic rod 354, the terminal surface symmetry that transmission module 352 was kept away from to strip shaped plate 353 is connected with a second spring telescopic rod 356 through sliding fit's mode front and back symmetry, install rectangular plate 357 on the spring telescopic rod 356, rectangular plate 357 is kept away from the terminal surface of No. two spring telescopic rods 356 and has been seted up the rectangular tank, the inside sliding connection of rectangular tank has tensioning plate 358, fixedly connected with tensioning spring 359 between tensioning plate 358 and the rectangular tank wall, hinge joint has gangbar 350 between No. two spring telescopic rod 356 and the 355, during specific work, transmission module 352 is current semi-cylindrical belt conveying equipment, the surface fabric passes the rectangular stepped through the through hole and from two transmission module 354 and passes two adjacent spring rod 355 and carries out the phenomenon that the tensioning plate 357 is carried out the opposite to the side of the material through the flexible rod 355 through sliding fit's of the side of the extension rod 357, the opposite side of material is avoided moving, the opposite side material is stretched out, and the fabric material is stretched out the opposite side to the fabric is stretched across the extension rod 355.

Referring to fig. 2, 4 and 6, the pushing mechanism 39 includes a cylindrical rod 391 mounted on an end of the slider 38 away from the rectangular frame 31, a U-shaped slider 392 is slidably sleeved on the cylindrical rod 391, a connecting spring 393 is mounted between a longitudinal section of the U-shaped slider 392 and the slider 38, the connecting spring 393 is sleeved on an outer wall of the cylindrical rod 391, guiding grooves are formed in inner ends of two transverse sections of the U-shaped slider 392, sliding blocks 394 are slidably connected inside the guiding grooves, a return spring 395 is mounted between the sliding blocks 394 and the end walls of the guiding grooves, an auxiliary roller 396 is rotatably connected between the two sliding blocks 394, turning rollers 397 are symmetrically disposed at front and back ends of the longitudinal section of the U-shaped slider 392 away from the slider 38, the turning rollers 397 are rotatably connected with the longitudinal section of the U-shaped slider 392, the rotating roller 397 is in sliding fit with the inclined plane of the right-angle trapezoidal plate, and when the fabric pressing device is specifically operated, the electric sliding block 30 moves to drive the right-angle trapezoidal plate on the lifting frame 301 to press the rotating roller 397, the rotating roller 397 bears force and drives the U-shaped sliding plate 392 to move towards the fabric, the U-shaped sliding plate 392 pushes and drives the fabric to move through the auxiliary roller 396, so that the fabric pressing folding function is realized, the rectangular block 351 presses the folded fabric, the fabric bears force and pulls the auxiliary roller 396, the auxiliary roller 396 slides in the guide groove through the sliding block 394, the fabric is prevented from being torn due to overlarge force when the fabric is pressed and drained, the integrity of the fabric is ensured, and folds of the fabric can be avoided.

Referring to fig. 4 and 7, the supporting mechanism 32 includes a rectangular supporting plate 321 mounted on the inner wall of the rectangular frame 31, a rectangular through hole is formed in the middle of the rectangular supporting plate 321, a clamping rod 322 is slidably inserted through the rectangular supporting plate 321, the clamping rod 322 is slidably engaged with the side wall of the rectangular frame 31, a clamping plate 323 is mounted at the end of the clamping rod 322 near the rectangular through hole, a clamping spring 324 is mounted between the clamping plate 323 and the wall of the rectangular through hole, a semicircular groove is formed in the left side of the clamping plate 323, a semi-cylindrical protrusion engaged with the semicircular groove is formed in the right side of the clamping plate 323, a plurality of drainage holes are formed in the left half of the rectangular supporting plate 321, the one end that clamping bar 322 kept away from clamping plate 323 rotates and is connected with the gyro wheel, gyro wheel and right trapezoid's inclined plane sliding fit, and the concrete during operation drives two right trapezoid on the lifting frame 301 through electronic sliding block 30 motion and extrudes the gyro wheel on two clamping bars 322 simultaneously, clamping bar 322 atress drive clamping plate 323 press from both sides the fabric, the half slot on two clamping plates 323 cooperates with the semicylindrical arch, plays the effect of increase surface fabric clamping area, and later rectangle piece 351 extrudees the surface fabric after folding, and the water that the extrusion produced is discharged through the wash port, and electronic sliding block 30 drives lifting frame 301 and resets downwards, and clamping spring 324 drives clamping plate 323 and resets.

Referring to fig. 5, the pressing mechanism 34 includes a pressing plate 341 slidably penetrating through a plurality of sliding rail rods 33, a feeding through hole is formed in the middle of the pressing plate 341, a pushing plate 342 is symmetrically and slidably penetrating through the pressing plate 341, a pushing plate 343 is mounted at one end of the pushing plate 342 near the feeding through hole, a pushing spring 344 is mounted between the pushing plate 343 and the wall of the feeding through hole, a rotating roller is rotatably connected to one end of the pushing plate 342, which is far away from the pushing plate 343, a bevel is slidably matched with the rotating roller, and in specific operation, the U-shaped rod 36 drives the pressing plate 341 to press down, the pressing plate 341 drives the rotating roller on the pushing plate 342 to be matched with the bevel on the rectangular frame 31, and the pushing plate 343 is pushed after the rotating roller is stressed, so that the extruding plate 343 clamps the fabric.

In addition, the invention also provides a treatment process for printing and drying the textile fabric, which specifically comprises the following steps: s1: the printed and dyed fabric is wound by the existing traction rod, penetrates into the rectangular frame 31 from the pressing mechanism 34 and the tensioning mechanism 35, penetrates out from the lower part of the supporting mechanism 32, and then passes through the drying module 4 to be connected with an external existing winding mechanism through the diversion of the guide roller.

S2: the electric sliding block 30 is started manually, the electric sliding block 30 extrudes the supporting mechanism 32 through the right-angle trapezoidal plate on the lifting frame 301, so that the lower end of the fabric is limited, the lifting frame 301 continues to ascend, the right-angle trapezoidal plate extrudes corresponding rotating rollers 397 sequentially from bottom to top, the rotating rollers 397 drive the U-shaped sliding plates 392 to move towards the fabric, and the U-shaped sliding plates 392 extrude and fold the fabric through the auxiliary rollers 396.

S3: the electric push rod 37 is started manually, the electric push rod 37 drives the U-shaped sliding plate 392 to move downwards through the pressing mechanism 34, meanwhile, the tensioning mechanism 35 presses down the fabric, then the tensioning mechanism 35 presses down the fabric onto the supporting mechanism 32 and presses down the fabric for drainage, and then the electric push rod 37 drives the pressing mechanism 34 to move upwards for a certain distance.

S4: the electric sliding block 30 drives the lifting frame 301 to reset downwards, the connecting spring 393 drives the U-shaped sliding plate 392 to reset, the existing winding mechanism pulls the pressed and dried fabric into the drying module 4, and the drying module 4 carries out drying treatment on the fabric.

The foregoing has shown and described the basic principles, principal 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 foregoing embodiments, and that the foregoing embodiments and description are merely illustrative of the principles of this invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, and these changes and modifications fall within the scope of the invention as hereinafter claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a textile fabric printing and dyeing drying system, is including placing board (1), backup pad (2), extrusion piece (3) and drying module (4), its characterized in that: the upper end of the placing plate (1) is provided with a supporting plate (2), the rear end surface of the supporting plate (2) is provided with an extrusion piece (3), and the upper end of the placing plate (1) is provided with a drying module (4) close to the right side; wherein:

the extrusion part (3) comprises a rectangular frame (31) arranged on the rear end face of the supporting plate (2), a supporting mechanism (32) is arranged on the inner wall of the rectangular frame (31) near the lower end, a plurality of rectangular uniformly distributed sliding rail rods (33) are arranged at the upper end of the supporting mechanism (32), a plurality of uniformly distributed sliding blocks (38) are arranged on the sliding rail rods (33) in a sliding penetrating mode, a pressing mechanism (34) is arranged at the lower end of the pressing mechanism (34), a tensioning mechanism (35) is arranged at the lower end of the pressing mechanism (34), a U-shaped rod (36) is arranged at the front end of the pressing mechanism (34), the U-shaped rod (36) penetrates through the front side wall of the rectangular frame (31) and is in sliding fit up and down, an electric push rod (37) is arranged at the lower end of the transverse section of the U-shaped rod (36), the lower end of the electric push rod (37) is arranged on the placing plate (1), strip-shaped sliding grooves are respectively arranged on the left side wall and the right side wall of the rectangular frame (31), a plurality of uniformly distributed sliding blocks (38) are in sliding connection, one end of the sliding blocks (38) located in the left and the right strip-shaped sliding grooves is staggered, one end of the sliding blocks (38) far away from the rectangular frame (31) is provided with a pushing mechanism (39), the pushing mechanism (39) is arranged between the two adjacent sliding blocks (31) and the side wall (38) and the side wall (302) and the side is arranged between the sliding block and the sliding mechanism and the side (38, a second spring is arranged between the lower end of the sliding block (38) positioned at the lowest left side of the rectangular frame (31) and the strip-shaped sliding groove, the rear end of the rectangular frame (31) is connected with an electric sliding block (30) in a sliding manner, the rear end of the electric sliding block (30) is provided with a lifting frame (301), the lifting frame (301) is of a U-shaped structure, right-angle trapezoid plates are arranged on two side walls of the longitudinal section of the lifting frame (301), and the inclined surfaces of the right-angle trapezoid plates face upwards;

the tensioning mechanism (35) comprises a rectangular block (351) arranged at the lower end of the pressing mechanism (34), rectangular step through holes are formed in the middle of the rectangular block (351), rotating grooves are formed in the side walls of the rectangular step through holes in a bilateral symmetry mode, transmission modules (352) are jointly arranged on the front groove wall and the rear groove wall of the rotating grooves, a plurality of uniformly distributed strip-shaped plates (353) are arranged on the transmission modules (352), a first spring telescopic rod (354) is arranged in the middle of the end face of each strip-shaped plate (353) far away from the transmission modules (352), a semi-cylinder (355) is arranged on the first spring telescopic rod (354), a second spring telescopic rod (356) is symmetrically connected to the end face of each strip-shaped plate (353) far away from the transmission modules (352) in a sliding fit mode, rectangular plates (357) are arranged on the end faces of each rectangular plate (357) far away from the second spring telescopic rod (356), tensioning plates (358) are connected in a sliding mode, tensioning springs (359) are fixedly connected between the tensioning plates (358) and the groove walls of the rectangular grooves, and the second spring telescopic rods (356) are hinged to the semi-cylinder (356);

the pushing mechanism (34) comprises a plurality of lower pressing plates (341) which penetrate through the sliding rail rods (33) in a sliding mode, feeding through holes are formed in the middle of the lower pressing plates (341), pushing plates (342) are symmetrically and laterally penetrated in the lower pressing plates (341) in a sliding mode, one ends, close to the feeding through holes, of the pushing plates (342) are provided with pushing plates (343), pushing springs (344) are arranged between the pushing plates (343) and the walls of the feeding through holes, and one ends, far away from the pushing plates (343), of the pushing plates (342) are connected with rotating rollers in a rotating mode.

2. The textile fabric printing and drying system of claim 1, wherein: the pushing mechanism (39) comprises a cylindrical rod (391) arranged at one end of the sliding block (38) far away from the rectangular frame (31), a U-shaped sliding plate (392) is sleeved on the cylindrical rod (391) in a sliding mode, a connecting spring (393) is arranged between the longitudinal section of the U-shaped sliding plate (392) and the sliding block (38), guide grooves are formed in the inner ends of the two transverse sections of the U-shaped sliding plate (392), sliding blocks (394) are slidably connected in the guide grooves, a reset spring (395) is arranged between the sliding blocks (394) and the end walls of the guide grooves, an auxiliary roller (396) is rotatably connected between the two sliding blocks (394), a rotating roller (397) is symmetrically arranged at the front end and the rear end of the longitudinal section of the U-shaped sliding plate (392), which is far away from the sliding block (38), and the rotating roller (397) is rotatably connected with the longitudinal section of the U-shaped sliding plate (392), and the rotating roller (397) is slidably matched with the inclined surface of the right-angle trapezoidal plate.

3. The textile fabric printing and drying system of claim 1, wherein: the supporting mechanism (32) comprises a rectangular support plate (321) arranged on the inner wall of the rectangular frame (31), a rectangular through hole is formed in the middle of the rectangular support plate (321), a clamping rod (322) is symmetrically and slidingly penetrated in the rectangular support plate (321), the clamping rod (322) is slidingly and penetratingly matched with the side wall of the rectangular frame (31), a clamping plate (323) is arranged at the end part, close to the rectangular through hole, of the clamping rod (322), a clamping spring (324) is arranged between the clamping plate (323) and the wall of the rectangular through hole, a semicircular groove is formed in the clamping plate (323) and is positioned on the right side, a semi-cylindrical protrusion matched with the semicircular groove is arranged on the clamping plate (323), and a plurality of drainage holes are formed in the left half part of the rectangular support plate (321).

4. A textile fabric printing and drying system as claimed in claim 3, wherein: one end of the clamping rod (322) far away from the clamping plate (323) is rotationally connected with a roller, and the roller is in sliding fit with the inclined plane of the right-angle trapezoid plate.

5. The textile fabric printing and drying system of claim 1, wherein: and inclined openings are formed in the inner end surfaces of the left side wall and the right side wall of the rectangular frame (31) close to the upper side, and are in sliding fit with the rotating rollers.

6. The textile fabric printing and drying system of claim 1, wherein: the upper end of the rectangular frame (31) is connected with a round roller through a roller frame.

7. The textile fabric printing and drying system of claim 1, wherein: the rear end face of the supporting plate (2) is close to the lower end and is rotationally connected with a guide roller.

8. A textile fabric printing and drying system as claimed in claim 2, wherein: the process for printing and drying the textile fabric by adopting the textile fabric printing and drying system specifically comprises the following steps of:

s1: winding the printed fabric through the existing traction rod, penetrating into the rectangular frame (31) from the pressing mechanism (34) and the tensioning mechanism (35), penetrating out from the lower part of the supporting mechanism (32), and penetrating through the drying module (4) to be connected with an external existing winding mechanism;

s2: manually starting an electric sliding block (30), wherein the electric sliding block (30) extrudes a supporting mechanism (32) through a right-angle trapezoidal plate on a lifting frame (301), so that the lower end of a fabric is limited, the lifting frame (301) continuously ascends, the right-angle trapezoidal plate extrudes corresponding rotating rollers (397) from bottom to top in sequence, the rotating rollers (397) drive a U-shaped sliding plate (392) to move towards the fabric, and the U-shaped sliding plate (392) extrudes and folds the fabric through an auxiliary roller (396);

s3: manually starting an electric push rod (37), driving a U-shaped sliding plate (392) to move downwards by the electric push rod (37) through a pressing mechanism (34), simultaneously pressing down the fabric by a tensioning mechanism (35), pressing down the fabric onto a supporting mechanism (32) by the tensioning mechanism (35) and pressing down and draining the fabric, and driving the pressing mechanism (34) to move upwards by a certain distance by the electric push rod (37);

s4: the electric sliding block (30) drives the lifting frame (301) to reset downwards, the connecting spring (393) drives the U-shaped sliding plate (392) to reset, the existing winding mechanism pulls the pressed and dried fabric into the drying module (4), and the drying module (4) performs drying treatment on the fabric.