阅读说明：本技术 一种纺织品加工用布料印染设备及其使用方法 (Cloth printing and dyeing equipment for textile processing and use method thereof ) 是由 马海霞 苏剑波 于 2021-09-02 设计创作，主要内容包括：本发明公开了一种纺织品加工用布料印染设备及其使用方法,包括箱体,所述箱体的底部安装有底板,所述底板的顶部通过螺栓安装有支撑架,且两组支撑架对称安装在箱体的两侧；所述箱体的顶部贯穿安装有吹风机,所述箱体的内侧顶部安装有温度传感器,且温度传感器位于吹风机的一侧,所述温度传感器的顶部安装有温度显示器,温度显示器贯穿箱体的顶壁；所述箱体的内壁上活动安装有波浪形摆列的五组转动杆,所述箱体的内壁安装有隔板。本发明通过安装有涂料池,通过涂料池进行储存染料,步进电机转动带动螺旋搅拌杆旋转,螺旋搅拌杆转动带动对涂料池内部的染料进行搅拌,使得染料更加均匀,避免染料中的染色物沉淀到涂料池的底部,提高染色的质量。(The invention discloses cloth printing and dyeing equipment for textile processing and a using method thereof, wherein the cloth printing and dyeing equipment comprises a box body, a bottom plate is arranged at the bottom of the box body, supporting frames are arranged at the top of the bottom plate through bolts, and two groups of supporting frames are symmetrically arranged at two sides of the box body; the top of the box body is provided with a blower in a penetrating way, the top of the inner side of the box body is provided with a temperature sensor, the temperature sensor is positioned on one side of the blower, the top of the temperature sensor is provided with a temperature display, and the temperature display penetrates through the top wall of the box body; five groups of wave-shaped rotating rods are movably mounted on the inner wall of the box body, and a partition plate is mounted on the inner wall of the box body. According to the invention, the coating pool is arranged, the dye is stored in the coating pool, the stepping motor rotates to drive the spiral stirring rod to rotate, and the spiral stirring rod rotates to drive the dye in the coating pool to be stirred, so that the dye is more uniform, the dye in the dye is prevented from precipitating to the bottom of the coating pool, and the dyeing quality is improved.)

1. The utility model provides a fabric printing and dyeing equipment for textile processing and application method thereof, includes box (1), its characterized in that: a bottom plate (102) is installed at the bottom of the box body (1), support frames (2) are installed at the top of the bottom plate (102) through bolts, and the two groups of support frames (2) are symmetrically installed on two sides of the box body (1);

the top of the box body (1) is provided with the blower (3) in a penetrating mode, the top of the inner side of the box body (1) is provided with the temperature sensor (8), the temperature sensor (8) is located on one side of the blower (3), the top of the temperature sensor (8) is provided with the temperature display (801), and the temperature display (801) penetrates through the top wall of the box body (1);

there are five dwang (4) of organizing of wave pendulum row on the inner wall of box (1), baffle (103) are installed to the inner wall of box (1), and baffle (103) are located one side of dwang (4), telescopic link (701) are installed to the inboard top diapire wall of box (1), and telescopic link (701) are located one side that dwang (4) were kept away from in baffle (103), the inner wall of box (1) runs through and installs transfer line (601), scribble pond (5) are installed at the top of bottom plate (102), scribble pond (5) and are located the below of dwang (4).

2. The fabric printing and dyeing apparatus for textile processing and the method of using the same as claimed in claim 1, wherein: through-hole (101) have been seted up to the both sides of box (1), and the inboard of baffle (103) is run through and is installed guide mouth (104), and the inner wall of box (1) has first guide roller (105) through connecting rod movable mounting, and first guide roller (105) are located through-hole (101) one side of entering the end, and the inner wall of box (1) has second guide roller (106) through connecting rod movable mounting, and second guide roller (106) are located one side of first guide roller (105).

3. The fabric printing and dyeing apparatus for textile processing and the method of using the same as claimed in claim 1, wherein: the utility model discloses a support frame, including support frame (2), inboard movable mounting of support frame (2) has bracing piece (201), and lower support groove (203) are installed to the one end of bracing piece (201), and there is draw-in groove (204) at the top of lower support groove (203) through hinge connection, and bolt swing joint is passed through in the front of lower support groove (203) and last draw-in groove (204), and driving motor (202) are installed to one side of support frame (2), and the output and the bracing piece (201) of driving motor (202) are connected.

4. The fabric printing and dyeing apparatus for textile processing and the method of using the same as claimed in claim 1, wherein: heating chamber (301) are installed to the output of hair-dryer (3), heater strip (302) are installed to the inner wall in heating chamber (301), and air-supply pipe (303) are installed to the bottom of heater strip (302), and output tube (304) are installed to the bottom of air-supply pipe (303), install on the outer wall of output tube (304) mouth of blowing (305).

5. The fabric printing and dyeing apparatus for textile processing and the method of using the same as claimed in claim 1, wherein: an anti-sticking roller (401) is installed on the outer side of the rotating rod (4).

6. The fabric printing and dyeing apparatus for textile processing and the method of using the same as claimed in claim 1, wherein: fixed plate (501) are installed at the top of scribble pond (5), infrared ray level sensor (502) are installed to the bottom of fixed plate (501), the inside of scribble pond (5) is run through and is installed spiral puddler (503), install step motor (504) on the one side outer wall of scribble pond (5), the output of step motor (504) is connected with the one end of spiral puddler (503), run through on the one side inner wall of scribble pond (5) and install input tube (505), delivery pump (506) are installed to the one end of input tube (505), connecting pipe (507) are installed in the front of delivery pump (506), connecting pipe (507) run through the front outer wall of box (1).

7. The fabric printing and dyeing apparatus for textile processing and the method of using the same as claimed in claim 1, wherein: the coating machine is characterized in that a servo motor (6) is installed at the front end of the transmission rod (601), the servo motor (6) is installed on the front face of the box body (1) through a supporting table, a sinking roller (602) is installed on the outer side of the servo motor (6), and the sinking roller (602) is located on the inner side of the coating pond (5).

8. The fabric printing and dyeing apparatus for textile processing and the method of using the same as claimed in claim 1, wherein: connecting seat (702) is installed to the bottom of telescopic link (701), and the inboard movable mounting of connecting seat (702) has first squeeze roll (7), has second squeeze roll (703) through bull stick movable mounting on the inner wall of box (1), and second squeeze roll (703) are located the below of first squeeze roll (7), and first squeeze roll (7) are located the top of scribbling pond (5).

9. A fabric printing apparatus for textile processing and a method of using the same as claimed in any one of claims 1 to 8, wherein the apparatus operates as follows:

s1, a user places a cloth roller on a support frame (2) at an input end, the cloth roller is placed on the inner side of a lower support groove (203), an upper clamping groove (204) is installed above the lower support groove (203) through a bolt, the cloth roller is conveniently installed on the support frame (2) by a worker, then a cloth collecting roller is installed on the support frame (2) at a discharge end, a feeding device and a material collecting device on the device are kept stable, then the cloth penetrates through all parts on the inner side of a box body (1) and is bound on the cloth collecting roller, driving motors (202) on two groups of support frames (2) run to drive a support rod (201) to rotate, the support rod (201) rotates to drive the lower support groove (203) to rotate, the lower support groove (203) drives the upper clamping groove (204) and a roller rod on the inner side to rotate, and therefore the cloth is unfolded and furled;

s2, the cloth penetrates through the inner side of a penetrating port (101) of an input end, then the movement of the cloth is guided by a first guide roller (105), then the cloth bypasses the upper surface of a second guide roller (106), then the cloth is guided downwards to enable the cloth to bypass the lower surface of a sinking roller (602), a servo motor (6) operates to drive a transmission rod (601) to rotate, the transmission rod (601) rotates to drive the sinking roller (602) on the outer side to rotate anticlockwise for guiding the movement of the cloth, the lower half part of the sinking roller (602) sinks into the inner side of a coating pool (5), the cloth can be contacted with the coating when passing through the sinking roller (602), then the coating is invaded onto the cloth, so that the dyeing of the cloth is realized, then the dyed cloth moves upwards, the cloth bypasses the upper surface of a second squeezing roller (703), and meanwhile, a telescopic rod (701) extends to drive a connecting seat (702) to move downwards, the connecting seat (702) drives the first squeezing roller (7) to move downwards in the downward movement process, the telescopic rod (701) abuts against the upper surface of the second squeezing roller (703), and the first squeezing roller (7) and the second squeezing roller (703) squeeze the cloth in the middle, so that redundant coating solution in the cloth is squeezed out, and the phenomenon that the coating drips along the line in the movement process and pollutes equipment due to excessive moisture in the cloth is avoided;

s3, the cloth passes through the guide opening (104) and moves to the upper surface of the first set of anti-sticking rollers (401), the cloth moves downwards to bypass the lower surface of the second set of anti-sticking rollers (401), then the cloth moves upwards to bypass the upper surface of the third set of anti-sticking rollers (401), the cloth continues to move downwards to bypass the lower surface of the fourth set of anti-sticking rollers (401), then the cloth moves upwards to bypass the upper surface of the fifth set of anti-sticking rollers (401), the cloth is output from the through opening (101) of the output end and then is wound on the winding roller;

s4, in the process that cloth meanders on five groups of anti-sticking rollers (401), a blower (3) operates to suck air into a heating cavity (301) from the outside, so that a heating wire (302) on the inner side of the heating cavity (301) is heated, the air is heated by the heating wire (302), the air enters an output pipe (304) along a gas conveying pipe (303) due to overhigh pressure, the output pipe (304) conveys the air to a blowing opening (305), the air is blown out by the blowing opening (305), hot air is blown onto the cloth, the cloth is dried by the hot air, and the drying of the cloth is guaranteed.

Technical Field

The invention relates to the technical field of textile processing, in particular to a cloth printing and dyeing device for textile processing and a using method thereof.

Background

The textile processing refers to a device for processing fiber knitted products, the textile is divided into two groups of cloth, namely woven fabric and knitted fabric, the cloth needs to be printed and dyed in order to enable the cloth to be more attractive in the processing process, the dyeing of the cloth in China has a long history, and the dyed colors are more and more diversified along with the increase of the dyeing technology.

The cloth printing and dyeing equipment in the prior art has the following defects:

1. comparison document CN210215856U discloses weaving is with cloth printing and dyeing equipment with dust removal function, "including dust removal case, dyeing and printing case and stoving case, the opening has all been seted up to the both sides of dust removal case, dyeing and printing case and stoving case, one side of dust removal case and the top fixedly connected with fixed block that is located the opening, the recess that uses with first blade cooperation is seted up to the bottom of fixed block, the inside fixedly connected with extrusion spring of recess. The textile cloth printing and dyeing equipment with the dust removal function has the advantages that through the arrangement of the first blade, the second blade, the fixing block, the groove and the linkage relationship among the extrusion springs, adhered objects on the surface of cloth can be cleaned, through the linkage relationship among the first cylinder, the first transverse plate, the first vertical rod, the first dust removal roller and the second dust removal roller, dust on the surface of the cloth can be further cleaned, the cloth can be cleaned and can enter the printing and dyeing box, the cloth printing and dyeing effect is prevented from being influenced, equipment for automatically supplementing dye is lacked in the structure of the device, when the dye is supplemented, manual supplement of workers is needed, and manpower is wasted;

2. reference CN211256335U discloses a cloth printing and dyeing device with a drying function, which comprises a shell, wherein two fixing rods are fixedly mounted on the left side and the right side of the top of the shell. The cloth printing and dyeing equipment with the drying function heats the copper pipe in the shell through the arrangement of the heater, the heated copper pipe conducts heat to the silk screen, the inside air is heated, because the silk screen is S-shaped, the heating area is larger, the heating effect on the air is better, the cloth body printed and dyed inside is dried, through the arrangement of the hot air blower, hot air is introduced into the air duct to further heat the cloth body in the shell, and the hot air introduced into the shell is divided into a plurality of sections through the arrangement of the air inlet holes, so that the pressure of the air is higher, thereby accelerating the flow velocity of the hot air inside, accelerating the drying speed, achieving the aim of quick drying, the device is inside to lack material loading and receive the material structure, and inconvenient device is inconvenient simultaneously to the transport of cloth installing and dismantling the cloth.

3. The comparison document CN212640878U discloses a cloth printing and dyeing equipment for textile processing, which comprises a base, the top fixedly connected with of base dyes the pond, the top fixedly connected with fixed block that dyes the pond, the inside of fixed block is rotated and is connected with the first deflector roll that one end extends to the fixed block top, the inside of dyeing the pond is rotated and is connected with the second deflector roll, the top fixedly connected with of base and the platform of being connected of dyeing pond right side fixed connection, the left side fixedly connected with of connecting the platform is located the support frame that dyes the pond top, the equal fixedly connected with sponge piece of the inner chamber left and right sides wall of support frame. The cloth printing and dyeing equipment for textile processing has the advantages of high quality of printed and dyed finished products and the like, solves the problems that the existing cloth printing and dyeing equipment for textile processing mostly does not have the functions of drying and ironing, is slow in drying after cloth printing and dyeing and is easy to generate wrinkles, so that the quality of printed and dyed finished products is poor, and the dyeing effect of the device is influenced due to the fact that dyes are easy to precipitate in the dyeing process of the device;

4. reference CN208649666U discloses cloth printing equipment with stoving function, "including the printing equipment body, the equal fixedly connected with landing leg in both sides of printing equipment body bottom, the inner chamber fixedly connected with baffle of printing equipment body, the middle part of baffle runs through and has seted up the feed inlet, and the right side of printing equipment body runs through and has seted up the discharge gate, the top fixedly connected with air heater of printing equipment body. This cloth printing and dyeing equipment with stoving function, it is hot-blast through the continuous production of air heater, and send into the inside of printing and dyeing equipment body through the hot-blast main, dry the cloth, use through the cooperation of standing groove and electric heating rod, can heat the rotation warming mill, dry the cloth and the face of rotation warming mill contact when the cloth is through rotating the warming mill, further increase the effect of drying, use through the cooperation of a plurality of rotation warming mill, can prolong the time that the cloth was dried, the device lack the antidrip function, the condition that causes dyestuff dripping everywhere easily takes place.

Disclosure of Invention

The invention aims to provide a fabric printing and dyeing device for textile processing and a using method thereof, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a fabric printing and dyeing device for textile processing and a using method thereof comprise a box body, wherein a bottom plate is arranged at the bottom of the box body, supporting frames are arranged at the top of the bottom plate through bolts, and two groups of supporting frames are symmetrically arranged at two sides of the box body;

the top of the box body is provided with a blower in a penetrating way, the top of the inner side of the box body is provided with a temperature sensor, the temperature sensor is positioned on one side of the blower, the top of the temperature sensor is provided with a temperature display, and the temperature display penetrates through the top wall of the box body;

there are five groups of dwang that the wave was listed as to the pendulum on the inner wall of box, the baffle is installed to the inner wall of box, and the baffle is located one side of dwang, the telescopic link is installed to the inboard top diapire of box, and the telescopic link is located the one side that the dwang was kept away from to the baffle, the inner wall of box runs through and installs the transfer line, scribble the pond is installed at the top of bottom plate, scribbles the below that the pond is located the dwang.

Preferably, the both sides of box have been seted up and have been run through the mouth, and the inboard of baffle is run through and is installed the guide mouth, and the inner wall of box has first guide roller through connecting rod movable mounting, and first guide roller is located the through mouth one side of entering end, and the inner wall of box has the second guide roller through connecting rod movable mounting, and the second guide roller is located one side of first guide roller.

Preferably, the inboard movable mounting of support frame has the bracing piece, and the lower supporting groove is installed to the one end of bracing piece, and there is last draw-in groove at the top in lower supporting groove through hinge connection, and bolt swing joint is passed through in the front of lower supporting groove and last draw-in groove, and driving motor is installed to one side of support frame, and driving motor's output and bracing piece are connected.

Preferably, the heating chamber is installed to the output of hair-dryer, the heater strip is installed to the inner wall in heating chamber, and the gas-supply pipe is installed to the bottom of heater strip, and the output tube is installed to the bottom of gas-supply pipe, installs the mouth of blowing on the outer wall of output tube.

Preferably, the outside of dwang is installed and is prevented the roll.

Preferably, the fixed plate is installed at the top of scribbling the pond, and infrared ray level sensor is installed to the bottom of fixed plate, and the inside of scribbling the pond is run through and is installed the spiral agitator arm, installs step motor on scribbling the outer wall of one side in pond, and step motor's output is connected with the one end of spiral agitator arm, runs through on the inner wall of one side in scribbling the pond and installs the input tube, and the delivery pump is installed to the one end of input tube, and the connecting pipe is installed in the front of delivery pump, and the connecting pipe runs through the front outer wall of box.

Preferably, a servo motor is installed at the front end of the transmission rod, the servo motor is installed on the front face of the box body through a supporting table, a sinking roller is installed on the outer side of the servo motor, and the sinking roller is located on the inner side of the coating pool.

Preferably, the connecting seat is installed to the bottom of telescopic link, and the inboard movable mounting of connecting seat has first squeeze roll, has the second squeeze roll through bull stick movable mounting on the inner wall of box, and the second squeeze roll is located the below of first squeeze roll, and first squeeze roll is located the top in scribbling the pond.

Preferably, the working steps of the device are as follows:

s1, a user places a cloth roller on a support frame at an input end, places the cloth roller on the inner side of a lower support groove, installs an upper clamping groove above the lower support groove through bolts, is convenient for workers to install the cloth roller on the support frame, and installs a cloth collecting roller on a support frame at a discharge end, so that a feeding device and a material collecting device on the device are kept stable, cloth passes through all parts inside a box body and is bound on the cloth collecting roller, driving motors on the two groups of support frames run to drive a support rod to rotate, the support rod rotates to drive the lower support groove to rotate, the lower support groove drives the upper clamping groove and a roller rod inside the upper clamping groove and the roller rod to rotate, and therefore the cloth is unfolded and furled;

s2, the cloth penetrates through the inner side of the through hole of the input end, then the movement of the cloth is guided by the first guide roller, then the cloth bypasses the upper surface of the second guide roller, then the cloth is guided downwards to enable the cloth to bypass the lower surface of the sinking roller, the servo motor operates to drive the transmission rod to rotate, the transmission rod rotates to drive the sinking roller on the outer side to rotate anticlockwise for guiding the movement of the cloth, the lower half part of the sinking roller sinks into the inner side of the coating pool, the cloth can be contacted with the coating when passing through the lower half part of the sinking roller, then the coating is infected on the cloth, so that the dyeing of the cloth is realized, the dyed cloth moves upwards, the cloth winds to the upper surface of the second extrusion roller, meanwhile, the telescopic rod extends to drive the connecting seat to move downwards, the first extrusion roller is driven to move downwards in the downward movement process of the connecting seat, and the telescopic rod abuts against the upper surface of the second extrusion roller, the first squeezing roller and the second squeezing roller squeeze the cloth in the middle, so that redundant coating solution in the cloth is squeezed out, and the phenomenon that the coating drips along the line in the moving process and pollutes equipment due to excessive moisture in the cloth is avoided;

s3, the cloth penetrates through the guide opening and moves to the upper surface of the first group of anti-sticking rollers, the cloth moves downwards to bypass the lower surface of the second group of anti-sticking rollers, then the cloth moves upwards to bypass the upper surface of the third group of anti-sticking rollers, the cloth continues to move downwards to bypass the lower surface of the fourth group of anti-sticking rollers, then the cloth moves upwards to bypass the upper surface of the fifth group of anti-sticking rollers, the cloth is output from the penetrating opening of the output end and then is wound on the winding roller;

s4, in the process that the cloth meanders on the five groups of anti-sticking rollers, the air is sucked into the heating cavity from the outside by the operation of the blower, the heating wire inside the heating cavity is heated, the air is heated by the heating wire, the air enters the output pipe along the air conveying pipe due to overhigh pressure, the air is conveyed to the air blowing opening by the output pipe, the air is blown out by the air blowing opening, hot air is blown onto the cloth, the cloth is dried through the hot air, and the drying of the cloth is guaranteed.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the infrared liquid level sensor is supported by the fixing plate in the coating pool, the infrared generator in the infrared liquid level sensor emits induction rays, the induction rays can be reflected after contacting the liquid level surface of the dye, the infrared rays are reflected to the infrared receiver, the distance can be calculated according to the time from the emission to the reception of the infrared rays and the propagation speed of the infrared rays, so that the liquid level height of the dye can be judged, when the liquid level height is lower than a specified value, the conveying pump operates to extract the dye from the outside through the connecting pipe, then the dye is conveyed to the inside of the input pipe, the dye is conveyed to the inside of the coating pool through the input pipe, automatic feeding is realized, and when the coating height reaches the specified value, the conveying pump stops conveying.

2. According to the cloth feeding device, the supporting frames are arranged on two sides of the input end and the output end of the box body, the cloth roller is placed on the inner side of the lower supporting groove, the upper clamping groove is arranged above the lower supporting groove through the bolts, the cloth roller is conveniently arranged on the supporting frames by workers, the cloth collecting roller is arranged on the supporting frame at the discharge end, the feeding device and the material collecting device on the device are kept stable, cloth penetrates through all parts on the inner side of the box body and is bound on the cloth collecting roller, the driving motors on the two groups of supporting frames run to drive the supporting rods to rotate, the supporting rods rotate to drive the lower supporting groove to rotate, and the lower supporting groove drives the upper clamping groove and the roller rods on the inner side to rotate, so that the cloth is unfolded and wound.

3. According to the invention, the coating pool is arranged, the dye is stored in the coating pool, the stepping motor rotates to drive the spiral stirring rod to rotate, and the spiral stirring rod rotates to drive the dye in the coating pool to be stirred, so that the dye is more uniform, the dye in the dye is prevented from precipitating to the bottom of the coating pool, and the dyeing quality is improved.

4. According to the invention, the connecting seat is arranged at the bottom end of the telescopic rod, the telescopic rod is fixed on the top wall of the box body, the telescopic rod extends to drive the connecting seat to move downwards, the first extruding roller is driven to move downwards in the process that the connecting seat moves downwards, the telescopic rod is abutted against the upper surface of the second extruding roller, and the first extruding roller and the second extruding roller extrude the cloth in the middle, so that redundant coating solution in the cloth is extruded, and the phenomenon that the coating drips along the line in the moving process due to excessive moisture in the cloth and the pollution to equipment are avoided.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

figure 3 is a schematic view of a blower according to the present invention;

FIG. 4 is a schematic view of the supporting frame of the present invention;

FIG. 5 is a schematic perspective view of the supporting frame of the present invention;

FIG. 6 is a schematic view of a paint pool configuration of the present invention;

FIG. 7 is a schematic structural diagram of a servo motor according to the present invention;

fig. 8 is a schematic view of the structure of the first press roll of the present invention.

In the figure: 1. a box body; 101. a through opening; 102. a base plate; 103. a partition plate; 104. a guide port; 105. a first guide roller; 106. a second guide roller; 2. a support frame; 201. a support bar; 202. a drive motor; 203. a lower support groove; 204. an upper clamping groove; 3. a blower; 301. a heating cavity; 302. heating wires; 303. a gas delivery pipe; 304. an output pipe; 305. an air blowing port; 4. rotating the rod; 401. an anti-sticking roller; 5. a coating pool; 501. a fixing plate; 502. an infrared liquid level sensor; 503. a helical agitator shaft; 504. a stepping motor; 505. an input tube; 506. a delivery pump; 507. a connecting pipe; 6. a servo motor; 601. a transmission rod; 602. sinking the roller; 7. a first squeeze roll; 701. a telescopic rod; 702. a connecting seat; 703. a second squeeze roll; 8. a temperature sensor; 801. and a temperature display.

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 should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1, fig. 2, fig. 3 and fig. 8, an embodiment of the present invention: a cloth printing and dyeing device for textile processing and a use method thereof;

the first embodiment comprises a box body 1, wherein through holes 101 are formed in two sides of the box body 1, the through holes 101 in the two sides of the box body 1 provide a space for the cloth to pass in and out, so that the cloth can be conveniently input into the device through the through holes 101 and then output through the through holes 101, a partition plate 103 is installed on the inner wall of the box body 1, the partition plate 103 is located on one side of a rotating rod 4, a guide hole 104 is installed on the inner side of the partition plate 103 in a penetrating manner, the partition plate 103 partitions the inner space of the box body 1, the guide hole 104 is used for guiding the cloth to enter the next space from one space, a first guide roller 105 is movably installed on the inner wall of the box body 1 through a connecting rod, the first guide roller 105 is located on one side of the through hole 101 at an entrance end, a second guide roller 106 is movably installed on the inner wall of the box body 1 through the connecting rod, after the cloth enters the box body 1, the movement of the cloth is guided by the first guide roller 105, and then the cloth bypasses the upper surface of the second guide roller 106, then the cloth moves downwards, the second guide roller 106 is positioned on one side of the first guide roller 105, the bottom plate 102 is installed at the bottom of the box body 1, the bottom plate 102 fixes the top structure and ensures the stability of the device, the top and bottom walls of the inner side of the box body 1 are provided with the telescopic rod 701, the telescopic rod 701 is positioned on one side of the partition plate 103 far away from the rotating rod 4, the bottom end of the telescopic rod 701 is provided with the connecting seat 702, the inner side of the connecting seat 702 is movably provided with the first extrusion roller 7, the inner wall of the box body 1 is movably provided with the second extrusion roller 703 through the rotating rod, the second extrusion roller 703 is positioned below the first extrusion roller 7, the first extrusion roller 7 is positioned above the coating pond 5, the telescopic rod 701 is fixed on the top wall of the box body 1, the telescopic rod 701 extends to drive the connecting seat 702 to move downwards, the first extrusion roller 7 is driven to move downwards in the downward movement process of the connecting seat 702, and the telescopic rod 701 abuts against the upper surface of the second extrusion roller 703, the first squeezing roller 7 and the second squeezing roller 703 squeeze the cloth in the middle, so that redundant coating solution in the cloth is squeezed out, and the phenomenon that the coating drips along the line in the moving process and pollutes equipment due to the fact that the moisture in the cloth is too much is avoided.

Referring to fig. 1, fig. 2, fig. 4 and fig. 5, an embodiment of the present invention: a cloth printing and dyeing device for textile processing and a use method thereof;

the second embodiment comprises a bottom plate 102, wherein the top of the bottom plate 102 is provided with support frames 2 through bolts, two groups of support frames 2 are symmetrically arranged on two sides of a box body 1, the inner side of each support frame 2 is movably provided with a support rod 201, one end of each support rod 201 is provided with a lower support groove 203, the top of each lower support groove 203 is connected with an upper clamping groove 204 through a hinge, the front surfaces of the lower support groove 203 and the upper clamping groove 204 are movably connected through bolts, one side of each support frame 2 is provided with a driving motor 202, the output end of the driving motor 202 is connected with the support rods 201, the support frames 2 are arranged on two sides of the input end and the output end of the box body 1, a cloth roller is arranged on the inner side of the lower support groove 203, the upper clamping groove 204 is arranged above the lower support groove 203 through bolts, so that a worker can conveniently install the cloth roller on the support frames 2 and install the cloth roller on the support frame 2 at the discharge end, the feeding device and the receiving device on the device are kept stable, then cloth passes through all parts on the inner side of the box body 1 and is bound on the cloth receiving roller, the driving motors 202 on the two groups of supporting frames 2 run to drive the supporting rods 201 to rotate, the supporting rods 201 rotate to drive the lower supporting grooves 203 to rotate, and the lower supporting grooves 203 drive the upper clamping grooves 204 and the roller rods on the inner side to rotate, so that the cloth is unfolded and furled;

referring to fig. 1, fig. 2, fig. 3, fig. 6, fig. 7 and fig. 8, an embodiment of the present invention: a cloth printing and dyeing device for textile processing and a use method thereof;

embodiment three, including box 1, the top of box 1 runs through and installs hair-dryer 3, heating chamber 301 is installed to the output of hair-dryer 3, heating wire 302 is installed to the inner wall of heating chamber 301, and air delivery pipe 303 is installed to the bottom of heating wire 302, and output tube 304 is installed to the bottom of air delivery pipe 303, installs the mouth of blowing 305 on the outer wall of output tube 304, temperature sensor 8 is installed at the inboard top of box 1, and temperature sensor 8 is located one side of hair-dryer 3, temperature display 801 is installed at the top of temperature sensor 8, and temperature sensor 8 inspects the inside temperature of box 1 through inside thermistor, then shows the information that detects through temperature display 801, and the person of facilitating the use observes, and temperature display 801 runs through the roof of box 1, movable mounting has five groups dwang 4 that the wave was listed up on the inner wall of box 1, an anti-sticking roller 401 is installed on the outer side of the rotating rod 4, the cloth is wound on the upper surface of a first set of anti-sticking rollers 401, then the cloth moves downwards to bypass the lower surface of a second set of anti-sticking rollers 401, then the cloth moves upwards to bypass the upper surface of a third set of anti-sticking rollers 401, the cloth continues to move downwards to bypass the lower surface of a fourth set of anti-sticking rollers 401, then the cloth moves upwards to bypass the upper surface of a fifth set of anti-sticking rollers 401, the cloth is output from a through opening 101 at an output end and then wound on a take-up roller, in the process of conveying the cloth, the air is sucked into the heating cavity 301 from the outside by the operation of the air blower 3, so that the heating wire 302 at the inner side of the heating cavity 301 is heated, the air is heated by the heating wire 302, and enters the inner part of the output pipe 304 along the air conveying pipe 303 due to overhigh pressure, the air is conveyed to the output pipe 304 to the air opening 305, the air is blown out by the air blowing opening 305, and the hot air is blown to the cloth, the cloth is dried by hot air, so that the evaporation speed of water on the cloth is increased, and the drying of the cloth is ensured;

referring to fig. 1, fig. 2, fig. 6 and fig. 7, an embodiment of the present invention: a cloth printing and dyeing device for textile processing and a use method thereof;

the fourth embodiment comprises a box body 1, a transmission rod 601 is installed on the inner wall of the box body 1 in a penetrating manner, a servo motor 6 is installed at the front end of the transmission rod 601, the box body 1 fixes the transmission rod 601, so that the transmission rod 601 rotates stably, the transmission rod 601 supports a sinking roller 602 on the outer side, the servo motor 6 is installed on the front surface of the box body 1 through a support table, a sinking roller 602 is installed on the outer side of the servo motor 6, cloth bypasses the lower surface of the sinking roller 602, the servo motor 6 operates to drive the transmission rod 601 to rotate, the transmission rod 601 rotates to drive the sinking roller 602 on the outer side to rotate anticlockwise for guiding the movement of the cloth, the lower half part of the sinking roller 602 sinks into the inner side of a coating pond 5, the cloth can contact with the coating when passing through the lower half part of the sinking roller 602, then the coating is infected on the cloth, so that the dyeing of the cloth is realized, and the sinking roller 602 is located on the inner side of the coating pond 5, the coating pond 5 is installed at the top of bottom plate 102, coating pond 5 is located the below of dwang 4, fixed plate 501 is installed at the top of coating pond 5, infrared ray level sensor 502 is installed to the bottom of fixed plate 501, the inside of coating pond 5 runs through and installs spiral puddler 503, install step motor 504 on the outer wall of one side of coating pond 5, step motor 504's output is connected with spiral puddler 503's one end, it installs input tube 505 to run through on the inner wall of one side of coating pond 5, delivery pump 506 is installed to the one end of input tube 505, connecting pipe 507 is installed in the front of delivery pump 506, connecting pipe 507 runs through the positive outer wall of box 1, store the dyestuff through coating pond 5, step motor 504 rotates and drives spiral puddler 503 rotatory, spiral puddler 503 rotates and drives the dyestuff of coating pond 5 inside to stir, make the dyestuff more even, the dyeing quality is improved by preventing the dye in the dye from depositing on the bottom of the coating pool 5, the coating pool 5 supports the infrared ray liquid level sensor 502 through the fixing plate 501, the infrared ray generator in the infrared ray liquid level sensor 502 emits induction rays, the induction rays can be reflected after contacting the liquid level surface of the dye, the infrared rays are reflected to the infrared ray receiver, the distance can be calculated according to the time from the emission to the reception of the infrared ray and the propagation speed of the infrared ray, so that the level height of the dye can be judged, and when the level height is lower than a designated value, the transfer pump 506 operates to draw the dye from the outside through the connection pipe 507, then, the dye is conveyed to the interior of the input pipe 505, the dye is conveyed to the interior of the coating pool 5 through the input pipe 505, automatic feeding is realized, and when the height of the coating reaches a designated value, the conveying pump 506 stops conveying.

The working steps of the equipment are as follows:

s1, a user places a cloth roller on the support frame 2 at the input end, places the cloth roller on the inner side of the lower support groove 203, installs the upper clamping groove 204 above the lower support groove 203 through bolts, is convenient for workers to install the cloth roller on the support frame 2, and installs the cloth collecting roller on the support frame 2 at the discharge end, so that a feeding device and a material collecting device on the device are kept stable, cloth passes through all parts inside the box body 1 and is bound on the cloth collecting roller, the driving motors 202 on the two groups of support frames 2 operate to drive the support rods 201 to rotate, the support rods 201 rotate to drive the lower support groove 203 to rotate, the lower support groove 203 drives the upper clamping groove 204 and the roller rods inside to rotate, and therefore the cloth is unfolded and furled;

s2, the cloth passes through the inner side of the through hole 101 of the input end, then the movement of the cloth is guided by the first guide roller 105, then the cloth bypasses the upper surface of the second guide roller 106, then the cloth is guided downwards so that the cloth bypasses the lower surface of the sink roll 602, the servo motor 6 operates to drive the transmission rod 601 to rotate, the transmission rod 601 rotates to drive the sink roll 602 at the outer side to rotate anticlockwise for guiding the movement of the cloth, the lower half part of the sink roll 602 sinks into the inner side of the coating pool 5, the cloth contacts with the coating when passing through the lower half part of the sink roll 602, then the coating is infected on the cloth, thereby realizing the dyeing of the cloth, then the dyed cloth moves upwards, the cloth bypasses the upper surface of the second extrusion roller, meanwhile, the telescopic rod 701 extends to drive the connecting seat 702 to move downwards, the first extrusion roller 7 is driven to move downwards in the process that the connecting seat 702 moves downwards, the telescopic rod 701 abuts against the upper surface of the second extrusion roller 703, and the first extrusion roller 7 and the second extrusion roller 703 extrude the cloth in the middle, so that redundant coating solution in the cloth is extruded, and the phenomenon that the coating drips along the line in the moving process and pollutes equipment due to excessive moisture in the cloth is avoided;

s3, the cloth passes through the guide opening 104 and moves to the upper surface of the first group of anti-sticking rollers 401, the cloth moves downwards to bypass the lower surface of the second group of anti-sticking rollers 401, then the cloth moves upwards to bypass the upper surface of the third group of anti-sticking rollers 401, the cloth continues to move downwards to bypass the lower surface of the fourth group of anti-sticking rollers 401, then the cloth moves upwards to bypass the upper surface of the fifth group of anti-sticking rollers 401, the cloth is output from the through opening 101 at the output end and then wound on the winding roller;

s4, in the process that the cloth meanders on the five anti-sticking rollers 401, the air is sucked into the heating cavity 301 from the outside by the operation of the air blower 3, so that the heating wire 302 inside the heating cavity 301 is heated, the air is heated by the heating wire 302, the air enters the output pipe 304 along the air conveying pipe 303 due to too high pressure, the air is conveyed to the air blowing port 305 by the output pipe 304, the air is blown out by the air blowing port 305, hot air is blown onto the cloth, the cloth is dried through the hot air, and the drying of the cloth is ensured.

The working principle is as follows: a user places a cloth roller on the support frame 2 at the input end, places the cloth roller on the inner side of the lower support groove 203, installs the upper clamping groove 204 above the lower support groove 203 through bolts, is convenient for the worker to install the cloth roller on the support frame 2, installs the cloth roller on the support frame 2 at the discharge end, keeps the feeding device and the receiving device on the device stable, then the cloth passes through all parts inside the box body 1 and is bound on the cloth roller, the driving motors 202 on the two groups of support frames 2 operate to drive the support rod 201 to rotate, the support rod 201 rotates to drive the lower support groove 203 to rotate, the lower support groove 203 drives the upper clamping groove 204 and the roller rod at the inner side to rotate, thereby spreading and furling the cloth, the cloth passes through the inner side of the penetrating port 101 at the input end, then the first guide roller 105 guides the movement of the cloth, then the cloth winds around the upper surface of the second guide roller 106, then the cloth is guided downwards to make the cloth pass around the lower surface of the sinking roller 602, the servo motor 6 operates to drive the transmission rod 601 to rotate, the transmission rod 601 rotates to drive the sinking roller 602 on the outer side to rotate anticlockwise for guiding the movement of the cloth, the lower half part of the sinking roller 602 sinks into the inner side of the coating pool 5, the cloth can contact with the coating when passing through the lower half part of the sinking roller 602, then the coating is infected on the cloth, so that the dyeing of the cloth is realized, then the dyed cloth moves upwards, the cloth winds to the upper surface of the second extrusion roller 703, meanwhile, the telescopic rod 701 extends to drive the connecting seat 702 to move downwards, the first extrusion roller 7 is driven to move downwards in the process that the connecting seat 702 moves downwards, the telescopic rod 701 abuts against the upper surface of the second extrusion roller, the first extrusion roller 7 and the second extrusion roller 703 extrude the cloth in the middle, so that the redundant coating solution in the cloth is extruded, the phenomenon that paint drips along the line in the moving process and pollutes equipment due to the fact that excessive water in the cloth is avoided, the cloth passes through the guide opening 104 and moves to the upper surface of the first set of anti-sticking rollers 401, the cloth moves downwards to bypass the lower surface of the second set of anti-sticking rollers 401, then the cloth moves upwards to bypass the upper surface of the third set of anti-sticking rollers 401, the cloth continues to move downwards to bypass the lower surface of the fourth set of anti-sticking rollers 401, then the cloth moves upwards to bypass the upper surface of the fifth set of anti-sticking rollers 401, the cloth is output from the penetrating opening 101 of the output end and then wound on the winding roller, in the winding moving process of the cloth on the five sets of anti-sticking rollers 401, the air is sucked into the heating cavity 301 from the outside by the operation of the blower 3, so that the heating wire 302 on the inner side of the heating cavity 301 is heated, the air is heated by the heating wire 302, and the air enters the inner part of the output pipe 304 along the air conveying pipe 303 due to overhigh pressure, the output pipe 304 conveys air to the air blowing port 305, the air is blown out from the air blowing port 305, hot air is blown onto the cloth, and the cloth is dried through the hot air, so that the drying of the cloth is ensured.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.