CN118087189B - Textile production pressurization shaping device - Google Patents

Abstract

The invention relates to the technical field of textiles, in particular to a pressurizing and shaping device for textile production, which comprises a shaping frame, a U-shaped frame, a tensioning mechanism, a leveling mechanism, a water spray pipe, shaping blocks and shaping mechanisms, wherein the leveling mechanism comprises a leveling plate, an L-shaped block, a fixed shaft, a rotating bar, a first cam, a rotating shaft, a chain wheel, a transmission chain and a rotating motor, and the shaping mechanisms comprise a water storage tank, a heating wire, a heat conducting plate and a pushing spring. The invention realizes the functions of pressurizing, heating and shaping the textile by carrying out double-sided heating and pressing on the textile; the textile is pressed and shaped through the plurality of heat-conducting plates with gradually reduced temperature, and the textile can be ensured to be kept in a tight and flat state during heating and shaping.

Description

Textile production pressurization shaping device

Technical Field

The invention relates to the technical field of textiles, in particular to a pressurizing and shaping device for textile production.

Background

The textile is a product formed by processing and weaving textile fibers, and is divided into two major classes of woven cloth and knitted cloth, the textile is an indispensable living article in the life of people, and the production process flow of the textile mainly comprises spooling, warping, weaving, pretreatment, printing and dyeing, washing, shaping, inspection and rolling and warehousing, wherein shaping is an important process in the production process.

At present, the textile still has the following problems in the production and shaping process: a. the textile itself has good ductility, so that the textile needs to be tensioned and flattened in the process of shaping the textile to ensure that the surface of the shaped textile is flat and has no wrinkles, and many existing textiles have no wrinkles on the surface of the textile due to flattening the textile in the shaping process; b. traditional fabrics setting device mainly forms the hot-blast blowing to fabrics of certain temperature through hot-blast and cold wind mixture, appears the uneven phenomenon of fabrics surface heated easily and the difficult problem of hot-blast temperature regulation, and then has the problem of fabrics damage.

Disclosure of Invention

The invention provides a pressurizing and shaping device for textile production, which can solve the technical problems mentioned in the background art.

In order to achieve the above purpose, the present invention specifically adopts the following technical scheme: the utility model provides a fabrics production pressurization setting device, includes shaping frame, U type frame, straining device, leveling mechanism, spray pipe, shaping piece and shaping mechanism, the shaping frame be hollow shell structure, the through-hole has all been seted up to shaping frame left and right sides, two front and back symmetrical U type frames and two are provided with straining device between the U type frame to shaping frame left and right sides wall, the inside left and right sides of shaping frame all is provided with leveling mechanism, be provided with two upper and lower symmetrical shaping pieces and shaping piece in the shaping frame and be located between two leveling mechanism, be provided with shaping mechanism on the shaping piece, be provided with two upper and lower symmetrical spray pipe in the shaping frame, spray pipe one end is linked together with outside connecting pipe.

The leveling mechanism comprises a leveling plate, L-shaped blocks, a fixed shaft, rotating strips, a first cam, a rotating shaft, chain wheels, a transmission chain, a rotating motor and a reset spring, wherein the leveling plate is fixedly installed on the inner wall of a sizing frame, the L-shaped blocks which are vertically arranged are uniformly distributed on the front side and the rear side of the leveling plate, the L-shaped blocks which are located on the front side and the rear side of the sizing frame are symmetrically arranged on the inner wall of the sizing frame, the upper part and the lower part of the L-shaped blocks are respectively provided with the fixed shaft, one end of each rotating strip is movably installed on the fixed shaft, the upper part and the lower part of each rotating strip are respectively provided with the rotating shaft, the first cam is installed on the rotating shaft, the side wall of each first cam is in contact with the rotating strips, the chain wheels are installed on the rotating shaft through splines, one rotating shaft is connected with the output end of the rotating motor through a motor seat, and the rotating motor is installed on the L-shaped blocks which are located on the upper end of the sizing frame, and the vertical sections of the L-shaped blocks which are close to the leveling plate are connected with the reset spring.

Preferably, the left side and the right side of the lower end of the rotating bar are provided with elastic telescopic rods, the lower part of the rotating bar is provided with a leveling bar, and the lower end of the elastic telescopic rods is connected with the leveling bar.

Preferably, the fixed shaft on the cover be equipped with extrusion spring and be located the rotation strip lower extreme, no. one cam upper end is provided with No. two cams and installs in the axis of rotation, no. two cams are the same with the shape of No. one cam and No. two cams 'area is greater than the area of No. one cams, no. two cams's bottom just is located one side of No. one cam bulge and is provided with the connecting strip, the thickness of connecting strip is less than the thickness of No. one cam, the one end that the connecting strip is close to No. one cam mild portion sets up to the inclined plane and the one end that the connecting strip kept away from No. one cam mild portion sets up to the vertical face.

Preferably, the tensioning mechanism comprises tensioning rollers, a sliding groove, a mounting block and tensioning springs, wherein two tensioning rollers which are arranged up and down are distributed between the U-shaped frames in a front-back symmetrical mode, the tensioning rollers at the lower ends of the U-shaped frames are mounted on the U-shaped frames through rotating shafts and mounted on the U-shaped frames through unidirectional bearings, the tensioning rollers at the upper ends of the U-shaped frames are mounted on the mounting block through rotating shafts and mounted on the mounting block through unidirectional bearings, the sliding grooves are formed in the U-shaped frames, the mounting blocks are slidably arranged in the sliding grooves, and the tensioning springs are mounted between the mounting block and the sliding grooves.

Preferably, the spray pipe be hollow structure, the fan-shaped piece is evenly installed from front to back towards one side of fabrics to the spray pipe lateral wall, the recess that is linked together with the spray pipe inside is seted up to the fan-shaped piece upper end, a plurality of orifices and orifice and recess are linked together have been seted up in the fan-shaped piece, the orifice is fan-shaped distribution.

Preferably, the inside left and right sides of design frame all be provided with two pinch rolls that arrange from top to bottom, the pinch rolls in design frame left side are located between leveling plate and the spray pipe in design frame left end, the pinch rolls in design frame right side are located the leveling plate right side department in design frame right side.

Preferably, the shaping mechanism comprises a water storage tank, heating wires, heat conducting plates and pushing springs, wherein the water storage tank is uniformly arranged on the opposite end faces of the shaping blocks from left to right, the heating wires are arranged in the water storage tank, two heat conducting plates which are arranged up and down are arranged at one end of the water storage tank, which is close to one end of each heating wire, of the heat conducting plates are fixed in the water storage tank through sealing gaskets, the pushing springs are connected at corners between the two heat conducting plates, rectangular protrusions are uniformly arranged on the opposite end faces of the heat conducting plates from left to right, and the rectangular protrusions on the two heat conducting plates are distributed in a staggered mode from left to right and are in vertical sliding fit.

Preferably, the left and right sides of the opposite end surfaces of the shaping block are provided with roll shafts.

The beneficial effects of the invention are as follows: 1. the invention realizes the function of pressurizing, heating and shaping the textile by carrying out double-sided heating and pressing on the textile, and the textile is pressed and shaped by a plurality of heat-conducting plates with gradually reduced temperature.

2. According to the invention, the textile can be kept in a tight state through the unidirectional bearing and the extrusion spring, and the surface of the textile is kept flat under the tight state through the leveling mechanism.

3. The invention can ensure that the heat conducting plate is fully contacted with the surface of the textile by pushing the spring so as to pressurize, heat and shape the textile, and the temperature of the heat conducting plate on the water storage tank in the shaping block is gradually reduced from left to right, thereby avoiding the problem of textile damage caused by continuous high-temperature shaping of the shaped textile.

Drawings

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

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a front cross-sectional view of the present invention.

Fig. 3 is a schematic structural view of the leveling mechanism in the present invention.

Fig. 4 is an enlarged view of a portion of fig. 2 at a in accordance with the present invention.

Fig. 5 is a schematic view of the structure between the first cam, the second cam and the connecting strip in the present invention.

FIG. 6 is a side cross-sectional view of a sprinkler tube and segment of the present invention.

Fig. 7 is an enlarged view of a portion of fig. 2B in accordance with the present invention.

Fig. 8 is a schematic structural view of a heat conductive plate in the present invention.

In the figure: 100. a textile; 1. a shaping frame; 11. a pinch roller; 2. a U-shaped frame; 3. a tensioning mechanism; 31. a tension roller; 32. a chute; 33. a mounting block; 34. tensioning a spring; 4. a leveling mechanism; 41. leveling plates; 42. an L-shaped block; 43. a fixed shaft; 431. extruding a spring; 44. rotating the strip; 441. an elastic telescopic rod; 442. leveling the strips; 45. a cam number one; 451. a cam number two; 452. a connecting strip; 46. a rotating shaft; 47. a sprocket; 48. a drive chain; 49. a rotating motor; 40. a return spring; 5. a water spray pipe; 51. a sector block; 52. a groove; 53. a spray hole; 6. shaping blocks; 7. a shaping mechanism; 71. a water storage tank; 72. a heating wire; 73. a heat conductive plate; 731. rectangular protrusions; 74. a pushing spring; 75. and (3) a roll shaft.

Detailed Description

Embodiments of the present invention are described below with reference to the accompanying drawings. In this process, to ensure clarity and convenience of description, the widths of the lines or the sizes of the constituent elements in the drawings may be exaggerated.

In addition, the terms hereinafter are defined based on functions in the present invention, and may be different according to intention or convention of a user, an operator; accordingly, these terms are defined based on the entire contents of the present specification.

Referring to fig. 1 and 2, a pressurizing and shaping device for textile production comprises a shaping frame 1, a U-shaped frame 2, a tensioning mechanism 3, a leveling mechanism 4, a water spraying pipe 5, shaping blocks 6 and a shaping mechanism 7, wherein the shaping frame 1 is of a hollow shell structure, through holes are formed in the left side and the right side of the shaping frame 1, the U-shaped frames 2 which are symmetrical front and back are arranged on the left side and the right side of the shaping frame 1, the tensioning mechanism 3 is arranged between the two U-shaped frames 2, the leveling mechanism 4 is arranged on the left side and the right side of the interior of the shaping frame 1, two shaping blocks 6 which are symmetrical up and down are arranged in the shaping frame 1, the shaping block 6 is provided with the shaping mechanism 7, two water spraying pipes 5 which are symmetrical up and down are arranged in the shaping frame 1, and one end of each water spraying pipe 5 is communicated with an external connecting pipe; during specific work, the textile 100 to be processed passes through the tensioning mechanism 3 at the left end of the shaping frame 1 and enters the shaping frame 1, then the textile 100 is ensured to be kept flat through the two flattening mechanisms 4 in the shaping frame 1, meanwhile, the tensioning mechanisms 3 at the left end and the right end of the shaping frame 1 ensure that the textile 100 is kept in a tightening state, the situation that the textile 100 is wrinkled in the shaping process is avoided, then clear water is conveyed into the water spraying pipe 5 through an external connecting pipe, then the two water spraying pipes 5 uniformly spray water to the upper end face and the lower end face of the textile 100, then shaping treatment is carried out on the textile 100 through the shaping mechanism 7 on the shaping block 6, the finished textile 100 is output from the through hole at the right end of the shaping frame 1, and finally, the textile 100 is coiled and collected after cooling treatment.

Referring to fig. 1 and 2, the tensioning mechanism 3 includes a tensioning roller 31, a chute 32, a mounting block 33 and a tensioning spring 34, two tensioning rollers 31 which are arranged up and down are distributed between two U-shaped frames 2 which are symmetrical in front-back, the tensioning roller 31 at the lower end of the U-shaped frame 2 is mounted on the U-shaped frame 2 through a rotating shaft, the rotating shaft is mounted on the U-shaped frame 2 through a one-way bearing, the tensioning roller 31 at the upper end of the U-shaped frame 2 is mounted on the mounting block 33 through the rotating shaft, the rotating shaft is mounted on the mounting block 33 through the one-way bearing, the chute 32 is formed in the U-shaped frame 2, the mounting block 33 is slidably arranged in the chute 32, and the tensioning spring 34 is mounted between the mounting block 33 and the chute 32; in specific work, the problem that the textile 100 is contacted with the edges of the upper end and the lower end of the through hole is avoided through the two tensioning rollers 31, the tensioning spring 34 of the invention pushes the tensioning rollers 31 at the upper end of the U-shaped frame 2 downwards, the textile 100 can be pressed between the two tensioning rollers 31, and meanwhile, the two tensioning rollers 31 of the invention are respectively arranged on the U-shaped frame 2 and the mounting block 33 through the unidirectional bearings, so that the tensioning rollers 31 can only rotate along one direction, and the tensioning function of the textile 100 is realized.

Referring to fig. 3, fig. 4 and fig. 5, the leveling mechanism 4 includes leveling plates 41, L-shaped blocks 42, a fixed shaft 43, a rotating bar 44, a first cam 45, a rotating shaft 46, a sprocket 47, a transmission chain 48, a rotating motor 49 and a return spring 40, the leveling plates 41 are fixedly mounted on the inner wall of the fixed frame 1, the L-shaped blocks 42 which are vertically arranged are distributed on the upper front side and the lower side of the leveling plates 41, the L-shaped blocks 42 which are fixedly arranged on the inner wall of the fixed frame 1, the L-shaped blocks 42 which are located on the front side and the rear side of the fixed frame 1 are symmetrically arranged in front and rear, the fixed shaft 43 is mounted between the vertical sections of the L-shaped blocks 42, one end of the rotating bar 44 is movably mounted on the fixed shaft 43, the rotating shaft 46 is mounted between the horizontal sections of the L-shaped blocks 42, the first cam 45 is mounted on the rotating shaft 46, the side wall of the first cam 45 is in contact with the rotating bar 44, the sprocket 47 is mounted on the rotating shaft 46 through a spline, the two sprockets 47 are connected with the rotating shaft 48 through the transmission chain, one of the motor 46 is connected with the rotating shaft 49, and the rotating bar 42 is connected with the rotating shaft 42 through the rotating shaft 40, and the rotating bar is connected with the rotating shaft 42 through the rotating shaft 40.

The left and right sides of the lower end of the rotating bar 44 are provided with elastic telescopic rods 441, flat bars 442 are distributed below the rotating bar 44, and the lower ends of the elastic telescopic rods 441 are connected with the flat bars 442.

The fixed shaft 43 on the cover be equipped with extrusion spring 431 and extrusion spring 431 is located the rotation strip 44 lower extreme, no. one cam 45 upper end is provided with No. two cams 451 and No. two cams 451 install on axis of rotation 46, no. two cams 451 are the same with No. one cam 45's shape and No. two cams 451's area is greater than No. one cam 45's area, no. two cams 451's bottom just is located No. one cam 45 bulge's one side is provided with connecting strip 452, the thickness of connecting strip 452 is less than the thickness of No. one cam 45, the one end that connecting strip 452 is close to No. one cam 45 mild portion sets up to the inclined plane and the one end that connecting strip 452 kept away from No. one cam 45 mild portion sets up to the vertical face.

When the textile flattening device specifically works, the rotating motor 49 is started, the two rotating shafts 46 are driven to synchronously and in the same direction through the matching of the chain wheel 47 and the transmission chain 48, the first cam 45 is driven to rotate and is abutted against the rotating strip 44 through the protruding part of the first cam 45, and then the rotating strip 44 rotates towards the direction of the reset spring 40, so that the rotating strip 44 drives the flattening strip 442 to synchronously rotate through the elastic telescopic rod 441; according to the invention, the upper end of the first cam 45 is provided with the second cam 451, the rotating strip 44 is positioned below the second cam 451, when the rotating shaft 46 drives the first cam 45 and the second cam 451 to rotate, the top of the rotating strip 44 is gradually contacted with the inclined surface at one end of the connecting strip 452, at the moment, the rotating strip 44 moves downwards until the top of the rotating strip 44 is contacted with the bottom of the connecting strip 452 under the pressing force of the connecting strip 452, the extrusion spring 431 is compressed and contracted under the pressure, the force exerted on the textile 100 by the flattening strip 442 is increased, the rotating strip 44 is gradually rotated towards the reset spring 40 under the action of the pushing force in the rotating process of the first cam 45, so that the textile 100 is flattened, when the top of the rotating strip 44 is contacted with the bottom of the second cam 451, the rotating strip 44 is gradually increased under the rebound force of the rebound of the extrusion spring 431 and simultaneously rotates to reset under the action of the reset spring 40, at the moment, the flattening strip 442 is not contacted with the textile 100, the problem that the textile 100 is pushed down when the connecting strip 452 is reset, the connecting strip 452 is smoothly arranged, the inclined surface arranged on the connecting strip 452 can be ensured to be moved downwards, the rotating strip 44 is prevented from being contacted with the textile 100, the end surface is prevented from being contacted with the rotating strip 100, and the end surface is not contacted with the rotating strip 100 at the end surface at the time, and the end surface is not contacted with the rotating strip at the end surface at the time, when the end surface is turned to the rotating strip is turned, and the end surface is turned, and the end is turned to the flat.

Referring to fig. 2, two pressing rollers 11 are disposed on the left and right sides of the inside of the shaping frame 1, the pressing roller 11 on the left side of the shaping frame 1 is located between the leveling plate 41 on the left end of the shaping frame 1 and the water spraying pipe 5, and the pressing roller 11 on the right side of the shaping frame 1 is located on the right side of the leveling plate 41 on the right side of the shaping frame 1; the textile 100 flattened by the flattening mechanism 4 is pressed by the pressing roller 11, so that the textile 100 is ensured to be stable and flattened when the shaping mechanism 7 shapes the textile 100, and the situation that the shaping effect is affected by shaking of the textile 100 is prevented.

Referring to fig. 6, the water spraying pipe 5 is of a hollow structure, a fan-shaped block 51 is uniformly installed on one side of the outer side wall of the water spraying pipe 5 facing the textile 100 from front to back, a groove 52 communicated with the inside of the water spraying pipe 5 is formed in the upper end of the fan-shaped block 51, a plurality of spray holes 53 are formed in the fan-shaped block 51 and are communicated with the groove 52, the spray holes 53 are in fan-shaped distribution, clean water in the water spraying pipe 5 is sprayed to the textile 100 through the spray holes 53 of the fan-shaped block 51, and the clean water can be ensured to be uniformly sprayed on the surface of the textile 100.

Referring to fig. 2, 7 and 8, the shaping mechanism 7 includes a water storage tank 71, a heating wire 72, a heat conducting plate 73 and a pushing spring 74, the opposite end surfaces of the shaping block 6 are uniformly provided with the water storage tank 71 from left to right, the heat conducting plate 73 arranged up and down is arranged at one end of the water storage tank 71 facing the textile 100, the heat conducting plate 73 close to one end of the heating wire 72 is fixed in the water storage tank 71 through a sealing gasket, the two corners between the heat conducting plates 73 are connected with the pushing spring 74, the opposite end surfaces of the heat conducting plate 73 are uniformly provided with rectangular protrusions 731 from left to right, the rectangular protrusions 731 on the two heat conducting plates 73 are distributed in a staggered manner from left to right and are in sliding fit with the rectangular protrusions 731 on the two heat conducting plates 73 up and down, the contact area of the two heat conducting plates 73 can be increased, the heat conducting efficiency is improved, and the left and right sides and left sides and right sides of the opposite end surfaces of the shaping block 6 are provided with roller shafts 75.

In specific operation, enough liquid is injected into the water storage tanks 71 through the existing water inlet pipe, the liquid is heated through the heating wires 72, then heat is conducted to the heat conducting plates 73 through the liquid, so that the heat conducting plates 73 heat and shape the textile 100, the heat conducting plates 73 far away from one end of the heating wires 72 move towards the textile 100 through the pushing springs 74, meanwhile, the textile 100 is pressurized and heat and shaped through the heat conducting plates 73 on the upper shaping block 6 and the lower shaping block 6, a plurality of water storage tanks 71 are arranged on the shaping block 6, the temperature of the liquid in the water storage tanks 71 is sequentially reduced from left to right, the temperature on the heat conducting plates 73 is sequentially reduced from left to right, and when the textile 100 is conveyed from left to right, the shaping temperature born by the textile 100 is gradually reduced, so that the textile 100 is prevented from being damaged due to the fact that the textile 100 is heated and shaped for too long under continuous high temperature.

The invention comprises the following steps in working: the first step: firstly, clean water is conveyed into the water spraying pipe 5 through the connecting pipe, meanwhile, the heating wire 72 starts to heat the liquid in the water storage groove 71, then the leveling mechanism 4 is started, the textile 100 to be processed is paved in the shaping frame 1, and then the textile 100 is pulled to move rightwards under the existing driving effect.

And a second step of: the textile 100 in the shaping frame 1 is kept in a tight state all the time by the tensioning mechanisms 3 at the left and right ends of the shaping frame 1, and the front and rear sides of the surface of the textile 100 are flattened by the flattening mechanism 4, so that the textile 100 is kept in a flattened state, and the textile 100 is pressed by the pressing rollers 11 at the left and right ends of the shaping frame 1.

And a third step of: the clean water in the spray pipe 5 is uniformly sprayed to the surface of the textile 100 through the spray holes 53, and then the textile 100 after being shaped is pressed, heated and shaped through a plurality of heat-conducting plates 73 with different temperatures on the shaping block 6, and finally the shaped textile 100 is output from the through hole at the right end of the shaping frame 1.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art; any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides a fabrics production pressurization setting device, includes shaping frame (1), U type frame (2), straining device (3), leveling mechanism (4), spray pipe (5), design piece (6) and shaping mechanism (7), its characterized in that: the shaping frame (1) is of a hollow shell structure, through holes are formed in the left side and the right side of the shaping frame (1), two U-shaped frames (2) which are symmetrical front and back are arranged on the left side and the right side of the shaping frame (1), tensioning mechanisms (3) are arranged between the two U-shaped frames (2), leveling mechanisms (4) are arranged on the left side and the right side of the interior of the shaping frame (1), two shaping blocks (6) which are symmetrical up and down are arranged in the shaping frame (1) and are positioned between the two leveling mechanisms (4), shaping mechanisms (7) are arranged on the shaping blocks (6), two water spraying pipes (5) which are symmetrical up and down are arranged in the shaping frame (1), and one ends of the water spraying pipes (5) are communicated with an external connecting pipe; wherein:

The leveling mechanism (4) comprises a leveling plate (41), L-shaped blocks (42), a fixed shaft (43), a rotating strip (44), a first cam (45), a rotating shaft (46), a chain wheel (47), a transmission chain (48), a rotating motor (49) and a return spring (40), wherein the leveling plate (41) is fixedly arranged on the inner wall of a fixed frame (1), two L-shaped blocks (42) which are vertically arranged are distributed on the upper front side and the lower side of the leveling plate (41) and are fixed on the inner wall of the fixed frame (1), the L-shaped blocks (42) which are positioned on the front side and the rear side of the fixed frame (1) are symmetrically arranged in the front-back direction, the fixed shaft (43) is arranged between the vertical sections of the upper and lower L-shaped blocks (42), one end of the rotating strip (44) is movably arranged on the fixed shaft (43), the rotating shaft (46) is arranged between the horizontal sections of the upper and lower L-shaped blocks (42), the rotating shaft (45) is provided with the first cam (45), the side wall of the first cam (45) is in contact with the chain wheel (46), the rotating shaft (46) is connected with the two chain wheels (47) through the transmission chain (47), the rotary motor (49) is arranged on an L-shaped block (42) at the upper end of the rotary shaft (46) through a motor seat, and a reset spring (40) is connected between a vertical section of the L-shaped block (42) close to the leveling plate (41) and the rotary strip (44);

The fixed shaft (43) is sleeved with an extrusion spring (431) and the extrusion spring (431) is located at the lower end of the rotating bar (44), a second cam (451) is arranged at the upper end of the first cam (45), the second cam (451) is installed on the rotating shaft (46), the second cam (451) and the first cam (45) are identical in shape, the area of the second cam (451) is larger than that of the first cam (45), a connecting bar (452) is arranged at the bottom of the second cam (451) and located on one side of the protruding portion of the first cam (45), the thickness of the connecting bar (452) is smaller than that of the first cam (45), one end, close to the gentle portion of the first cam (45), of the connecting bar (452) is set to be an inclined plane, and one end, far away from the first cam (45), of the connecting bar (452) is set to be a flat plane;

The shaping mechanism (7) comprises a water storage groove (71), heating wires (72), heat conducting plates (73) and pushing springs (74), wherein the water storage groove (71) is uniformly formed in opposite end surfaces of the shaping block (6) from left to right, the heating wires (72) are arranged in the water storage groove (71), two heat conducting plates (73) which are arranged up and down are arranged at one end of the water storage groove (71) towards the textile 100, the heat conducting plates (73) close to one end of the heating wires (72) are fixed on the water storage groove (71) through sealing gaskets, pushing springs (74) are connected at corners between the two heat conducting plates (73), rectangular protrusions (731) are uniformly arranged on opposite end surfaces of the heat conducting plates (73) from left to right, the rectangular protrusions (731) on the two heat conducting plates (73) are distributed in a staggered mode, and the rectangular protrusions (731) on the two heat conducting plates (73) are in up-and-down sliding fit;

Elastic telescopic rods (441) are arranged on the left side and the right side of the lower end of the rotating rod (44), leveling rods (442) are distributed below the rotating rod (44), and the lower end of each elastic telescopic rod (441) is connected with each leveling rod (442).

2. A textile production compression setting apparatus according to claim 1, wherein: the tensioning mechanism (3) comprises tensioning rollers (31), sliding grooves (32), mounting blocks (33) and tensioning springs (34), wherein two tensioning rollers (31) which are arranged up and down are distributed between the U-shaped frames (2), the tensioning rollers (31) located at the lower ends of the U-shaped frames (2) are mounted on the U-shaped frames (2) through rotating shafts and mounted on the U-shaped frames (2) through unidirectional bearings, the tensioning rollers (31) located at the upper ends of the U-shaped frames (2) are mounted on the mounting blocks (33) through rotating shafts and mounted on the mounting blocks (33) through unidirectional bearings, the sliding grooves (32) are formed in the U-shaped frames (2), the mounting blocks (33) are arranged in the sliding grooves (32) in a sliding mode, and the tensioning springs (34) are mounted between the mounting blocks (33) and the sliding grooves (32).

3. A textile production compression setting apparatus according to claim 1, wherein: the novel textile fabric is characterized in that the water spraying pipe (5) is of a hollow structure, fan-shaped blocks (51) are uniformly arranged on the outer side wall of the water spraying pipe (5) towards one side of the textile fabric 100 from front to back, grooves (52) communicated with the inside of the water spraying pipe (5) are formed in the upper ends of the fan-shaped blocks (51), a plurality of spray holes (53) are formed in the fan-shaped blocks (51), the spray holes (53) are communicated with the grooves (52), and the spray holes (53) are distributed in a fan shape.

4. A textile production compression setting apparatus according to claim 1, wherein: the utility model is characterized in that two pressing rollers (11) which are arranged up and down are arranged on the left side and the right side of the shaping frame (1), the pressing rollers (11) on the left side of the shaping frame (1) are positioned between a leveling plate (41) on the left end of the shaping frame (1) and a water spraying pipe (5), and the pressing rollers (11) on the right side of the shaping frame (1) are positioned on the right side of the leveling plate (41) on the right side of the shaping frame (1).

5. A textile production compression setting apparatus according to claim 1, wherein: the left side and the right side of the opposite end surfaces of the shaping block (6) are respectively provided with a roll shaft (75).