CN116145353B - Steamer for man-made cotton fabric - Google Patents

Abstract

The utility model relates to a steamer for man-cotton fabrics, which comprises a machine body and a plurality of supporting pipes, wherein a cloth inlet and a cloth outlet are respectively formed in two sides of the machine body, a plurality of conveying belts are arranged in the machine body, the conveying belts are arranged at intervals along the conveying direction of the fabrics, the length direction of the conveying belts is consistent with the conveying direction of the fabrics, the conveying belts are arranged in two rows along the width direction of the fabrics, the conveying belts are arranged at intervals, the supporting pipes are respectively positioned between two adjacent conveying belts, the length direction of the supporting pipes is consistent with the width direction of the fabrics, the bottoms of the supporting pipes are connected with lifting assemblies, and the lifting assemblies are used for moving the supporting pipes along the vertical direction. The utility model has the following effects: the fabric can be prevented from being folded in the steamer as much as possible, so that the steaming effect of the steamer on the fabric is improved.

Description

Steamer for man-made cotton fabric

Technical Field

The utility model relates to the field of fabric processing equipment, in particular to a steamer for a cotton fabric.

Background

Steaming is the process of treating printed fabric with steam. The effect of the steamer is that the dye in the color paste is transferred into the fiber through steaming to achieve the fixation effect, and the effect directly influences the color and vividness after printing. The main technological parameters affecting the effect of the steamer are temperature, humidity and steaming time, which are changed with different fibers and dyes to a certain extent.

The utility model of China with the application number of CN202220163428.8 discloses a steamer, which comprises a machine shell, wherein an air inlet pipe is fixedly communicated with the machine shell, processing windows are formed in two sides of the machine shell, a processing box and an air pump are fixedly connected to the top of the machine shell, a first air pipe is fixedly communicated with one side of the processing box, which is far away from the air pump, of the processing box, one end of the first air pipe, which is far away from the processing box, is fixedly communicated with the top of the machine shell, a second air pipe is fixedly communicated with the output end of the air pump, one end of the second air pipe, which is far away from the air pump, is fixedly communicated with one side of the processing box, which is far away from the first air pipe, of the processing box, and a filter screen is attached to the inner side wall of the processing box. According to the utility model, the sucking pump is started, so that the hot steam in the machine shell is sucked into the treatment box, and then the dye powder in the hot steam is intercepted in the treatment box by the filter screen, so that the effect of treating the hot steam is achieved.

The fabric is input into the steamer, and the fabric is easy to fold in the steamer, so that the steaming effect of the fabric can be influenced.

Disclosure of Invention

The utility model provides a steamer for a rayon fabric, which aims to avoid the folding of the fabric in the steamer as much as possible so as to improve the steaming effect of the steamer on the fabric.

The utility model provides a steamer for a man-made cotton fabric, which adopts the following technical scheme:

the utility model provides a cotton fabric of people evaporates machine, includes organism and a plurality of stay tube, cloth inlet and cloth outlet have been seted up respectively to the organism both sides, be equipped with a plurality of conveyer belts in the organism, each the conveyer belt sets up along fabric conveying direction interval just conveyer belt length direction is unanimous with fabric conveying direction, each the conveyer belt arranges into two rows and each along fabric width direction conveyer belt interval sets up, each the stay tube is located adjacent two respectively between the conveyer belt just stay tube length direction is unanimous with fabric width direction, each the stay tube bottom all is connected with lifting unit, lifting unit is used for following vertical direction and removes the stay tube.

Through adopting above-mentioned technical scheme, when fabric evaporates in getting into the organism, fabric is carried from cloth inlet to cloth outlet through each conveyer belt, the stay tube accessible lifting unit upwards moves can prop up the fabric on the conveyer belt, can avoid the fabric to take place to fold as far as possible in the steamer, the fabric accomplishes the back of evaporating in the organism, the stay tube passes through lifting unit downwards and moves to flush with the conveyer belt, the fabric moves back to on the conveyer belt along with the stay tube down, the conveyer belt exports the organism with the fabric, so can improve the steaming effect of steamer to the fabric.

Preferably, the lifting assembly comprises a first pipe, a second pipe and a cylinder, wherein the length direction of the first pipe is consistent with that of the second pipe, the first pipe is sleeved on the second pipe, the first pipe is connected with the second pipe in a sliding manner along the vertical direction, one end of the first pipe is connected with the bottom of the support pipe, the cylinder is connected to the peripheral wall of the second pipe, the length direction of a piston rod of the cylinder is consistent with that of the first pipe, and the end part of the piston rod of the cylinder is connected with the bottom of the support pipe.

By adopting the technical scheme, when the cylinder pushes or pulls the support tube along the vertical direction, the support tube drives the first tube to be connected with the second tube in a sliding way, so that the height position of the support tube can be adjusted, and the support tube can jack up the fabric or return the fabric to the conveying belt.

Preferably, a plurality of steam outlet pipes are arranged in the machine body, the length direction of each steam outlet pipe is consistent with the length direction of the supporting pipe, each steam outlet pipe is uniformly and alternately distributed along the conveying direction of the fabric, each steam outlet pipe is used for being communicated with a steam source through a steam inlet pipe, a plurality of steam outlet holes are formed in each steam outlet pipe, each steam outlet hole is uniformly and alternately distributed along the length direction of the steam outlet pipe, one end of the second pipe, which is far away from the supporting pipe, is communicated with the steam outlet pipe, and one end of the first pipe, which is far away from the cylinder, is communicated with the supporting pipe.

Through adopting above-mentioned technical scheme, the steam that the steam source produced is carried to each steam outlet pipe through the steam inlet pipe, and the steam outlet pipe is through the steam outlet hole output steam to this can carry steam to the organism in steaming the fabric, in the steam carries the stay tube through second pipe, first pipe, so can heat the stay tube, can with heat transfer to the fabric with the stay tube contact, can improve the steaming effect to the fabric.

Preferably, a plurality of steam baffles are arranged in the machine body, the steam baffles are S-shaped, each steam baffle is located above each steam outlet pipe and below the conveying belt, and each steam baffle is distributed at intervals along the conveying direction of the fabric to form a gas conveying channel.

By adopting the technical scheme, in the process of conveying steam from the bottom of the machine body to the top of the machine body, the steam firstly passes through the gas conveying channel, and in the process of conveying the steam in the gas conveying channel, the steam contacts with the steam baffle plate, so that the steam can be prevented from being directly sprayed on the fabric to the greatest extent to scald the fabric, and the quality of the fabric during steaming can be improved.

Preferably, the two ends of the support tube are connected with support plates, and one ends of the two support plates along the length direction are hinged with the end parts of the support tube so as to open or close the openings at the two ends of the support tube.

Through adopting above-mentioned technical scheme, the backup pad can open or close the opening at stay tube both ends when rotating, and when the backup pad closed the opening, the both sides of fabric were taken off at the both ends of stay tube, and when the backup pad opened the opening, the backup pad can support the fabric that is taken off at the stay tube both ends. Before the supporting tube upwards supports the fabric, the supporting tube firstly closes the opening, after the supporting tube supports the fabric, the two sides of the fabric are fallen on the two ends of the supporting tube, so that the fabric can be prevented from being folded along the length direction and the width direction as much as possible, the supporting tube rotates to open the opening and support the two sides of the fabric, after the steaming of the fabric is completed, the supporting tube descends to be flush with the conveying belt, and the supporting tube rotates to close the opening, so that the fabric can be prevented from being folded along the length direction and the width direction as much as possible when the steaming of the fabric is completed, and further the steaming effect of the steaming machine on the fabric can be improved.

Preferably, a screw rod is arranged in the support tube, the length direction of the screw rod is distributed along the vertical direction, one end of the screw rod is connected with a motor, a sliding block of the screw rod is hinged with two support rods, and one end, far away from the screw rod, of the support rod penetrates through an opening at the end part of the support tube and then is hinged with the support plate.

Through adopting above-mentioned technical scheme, when driving the lead screw rotation, the slider of lead screw slides along lead screw length direction to this can drive bracing piece promotes or pulls the backup pad, and the backup pad can switch stay tube tip opening with this.

Preferably, a detecting member is arranged in the first pipe, the detecting member is electrically connected with a controller, the controller is electrically connected with the air cylinder, the detecting member is used for detecting the steam pressure in the first pipe and outputting a steam pressure value, the controller is used for receiving the steam pressure value and comparing the steam pressure value with a preset interval, and when the steam pressure value is located in the preset interval, the controller controls the air cylinder to push the supporting pipe.

By adopting the technical scheme, the detection part can detect the steam pressure value in the first pipe, the controller can compare with the preset interval according to the steam pressure value detected by the detection part, and when the steam is conveyed into the first pipe and the steam pressure value in the first pipe reaches the preset interval, the controller controls the air cylinder to push the supporting pipe so as to prop up the fabric.

Preferably, the motor is electrically connected with the controller, the controller is used for receiving the steam pressure value and comparing with a preset interval, and when the steam pressure value is greater than the maximum value of the preset interval, the controller controls the motor to rotate the screw rod so as to realize that the support plate opens the end opening of the support tube.

Through adopting above-mentioned technical scheme, the steam pressure value that the controller can be detected according to the detecting element compares with preset interval, and when steam pressure value was greater than the maximum value in preset interval, the controller control motor rotated the lead screw, and the bracing piece struts the backup pad, and the backup pad can support the fabric both sides with this.

Preferably, the controller is electrically connected with a clock module, the clock module is used for outputting time signals at intervals, and the controller is used for receiving the time signals and controlling the air cylinder to pull the supporting tube and controlling the motor to rotate the screw rod so as to enable the supporting plate to close the opening of the end part of the supporting tube.

By adopting the technical scheme, the clock module outputs time signals at intervals, the controller controls the supporting tube to descend to be flush with the conveying belt according to the time signals and controls the supporting plate to close the opening at the end part of the supporting tube, and the time between the two time signals is the time for finishing one-time steaming of the fabric, so that the supporting tube and the supporting plate can be reset after the steaming of the fabric is finished.

Preferably, the machine body is connected with a drying chamber, the drying chamber is communicated with the cloth outlet, a plurality of guide rollers are arranged in the drying chamber, the guide rollers are distributed at intervals along the conveying direction of the fabric and are staggered along the vertical direction, a plurality of fans for providing hot air for the fabric are arranged in the drying chamber, the fans are distributed at the bottom and the top of the drying chamber, and the fans are distributed along the conveying direction of the fabric.

By adopting the technical scheme, the fabric is conveyed into the drying chamber after steaming, the fabric is conveyed along each guide roller, and meanwhile, the fan blows hot air to the fabric, so that the fabric can be dried, the moisture in the fabric is reduced, and the fabric can be dried.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. when the fabric enters the machine body for steaming, the fabric is conveyed from the fabric inlet to the fabric outlet through each conveying belt, the supporting pipe can move upwards through the lifting assembly to support the fabric on the conveying belt, the fabric can be prevented from being folded in the steamer as much as possible, after the fabric is steamed in the machine body, the supporting pipe moves downwards to be flush with the conveying belt through the lifting assembly, the fabric moves back to the conveying belt along with the supporting pipe, and the conveying belt outputs the fabric to the machine body, so that the steaming effect of the steamer on the fabric can be improved;

2. the steam generated by the steam source is conveyed into each steam outlet pipe through the steam inlet pipe, the steam outlet pipes output steam through the steam outlet holes, so that the steam can be conveyed into a machine body to steam fabrics, the steam is conveyed into the support pipe through the second pipe and the first pipe, the support pipe can be heated, heat can be transferred to the fabrics contacted with the support pipe, and the steaming effect on the fabrics can be improved;

3. in the process of conveying steam from the bottom of the machine body to the top of the machine body, the steam firstly passes through the gas conveying channel, and in the process of conveying the steam in the gas conveying channel, the steam contacts with the steam baffle plate, so that the phenomenon that the steam is directly sprayed on the fabric to scald the fabric can be avoided as much as possible, and the quality of the fabric during steaming can be improved.

Drawings

Fig. 1 is a schematic view showing the overall structure of a steamer for man-made cotton fabrics according to the embodiment of the utility model.

Fig. 2 is a sectional view of a steamer for man-made cotton fabric for showing a machine body according to an embodiment of the utility model.

Fig. 3 is a schematic view of a part of a steamer for man-made cotton fabrics, which is used for showing a conveying belt.

Fig. 4 is a schematic view of a part of a steamer for man-made cotton fabrics, which is used for showing a supporting tube.

Fig. 5 is a sectional view showing a part of the structure of a steamer for man-made cotton fabric according to an embodiment of the utility model, for showing a support bar.

Fig. 6 is a sectional view of a steamer for man-made cotton fabrics, showing a drying room, according to an embodiment of the utility model.

Reference numerals illustrate:

100. a body; 101. a conveyor belt; 102. a steam shield; 103. a gas transmission channel;

200. a support tube; 201. a support plate; 202. a screw rod; 203. a motor; 204. a support rod;

300. a lifting assembly; 301. a first tube; 302. a second tube; 303. a cylinder; 304. a detecting member;

400. a steam outlet pipe; 401. a steam inlet pipe; 402. a steam outlet hole; 403. a steam source;

500. a drying chamber; 501. a guide roller; 502. a blower.

Detailed Description

The present utility model will be described in further detail below with reference to the accompanying drawings.

The embodiment of the utility model discloses a steamer for a man-made cotton fabric. Referring to fig. 1 and 2, the steamer for the rayon fabric comprises a machine body 100, a conveyor belt 101 and a support tube 200, wherein the conveyor belt 101 and the support tube 200 are both positioned in the machine body 100, the conveyor belt 101 is used for conveying the fabric, and the support tube 200 is used for moving along a vertical direction to prop up or descend the fabric, so that the fabric can be prevented from being folded on the conveyor belt 101 as much as possible, and the steaming effect of the steamer on the fabric can be improved.

The machine body 100 is in a hollow cuboid shape, the length direction of the machine body is consistent with the conveying direction of the fabric, the two ends of the machine body 100 along the length direction are respectively provided with a fabric inlet and a fabric outlet, and the fabric is fed into the machine body 100 from the fabric inlet and is output from the fabric outlet after steaming is completed.

Referring to fig. 2 and 3, there are a plurality of conveyor belts 101, and each conveyor belt 101 is level. The longitudinal direction of the plurality of conveyor belts 101 is identical to the longitudinal direction of the machine body 100. The conveyor belts 101 are arranged in two rows in the machine body 100, and the conveyor belts 101 in the same row are uniformly spaced apart along the length direction of the machine body 100.

The support tubes 200 are multiple, the length direction of each support tube 200 is distributed along the width direction of the machine body 100, each support tube 200 is positioned between two rows of conveying belts 101, and each support tube 200 is uniformly distributed at intervals along the length direction of the machine body 100. The support tube 200 is located between two adjacent conveyor belts 101 in the same row. The top of the support tube 200 is arc-shaped and the convex arc surface is arranged towards the top of the machine body 100. The support pipe 200 is hinged with the support plate 201 at two ends along the length direction, the support plate 201 is hinged with the top of the support pipe 200, the support plate 201 can switch the two end openings of the support pipe 200 when rotating, the support plate 201 is positioned between two adjacent conveyor belts 101 when rotating to be level with the conveyor belts 101, at the moment, the two end openings of the support pipe 200 are opened, and when the support plate 201 rotates to close the two end openings of the support pipe 200, the end part of the support plate 201 faces the bottom of the machine body 100.

The bottom of the machine body 100 is provided with a plurality of steam outlet pipes 400, the length direction of each steam outlet pipe 400 is consistent with the length direction of the supporting pipe 200, the steam outlet pipes 400 are uniformly distributed at intervals along the length direction of the machine body 100, and the steam outlet pipes 400 are respectively positioned under the supporting pipes 200. The middle parts of the steam outlet pipes 400 are mutually communicated, a plurality of steam outlet holes 402 are formed in the top of each steam outlet pipe 400, and the steam outlet holes 402 are uniformly distributed at intervals along the length direction of the steam outlet pipe 400. Each of the steam outlet pipes 400 is used to communicate with a steam source 403 through a steam inlet pipe 401, and the steam source 403 adopts a steam generator. The steam generator is positioned outside the machine body 100, one end of the steam inlet pipe 401 is communicated with the bottom of the steam outlet pipe 400 positioned at the center of the machine body 100, and the other end of the steam inlet pipe 401 penetrates through the side wall of the machine body 100 to be communicated with the steam generator.

Referring to fig. 3 and 4, the bottom of each support tube 200 is connected with a lifting assembly 300, the lifting assembly 300 comprises a first tube 301, a second tube 302 and a cylinder 303, the length directions of the first tube 301 and the second tube 302 are all distributed along the vertical direction, one end of the first tube 301 is communicated with the center of the bottom of the support tube 200, the other end of the first tube 301 is sleeved on one end of the second tube 302, and the bottom of the second tube 302 is communicated with the center of the top of the steam outlet tube 400 right below the support tube 200.

The cylinder 303 casing is connected to the outer wall of the second pipe 302, one end of a piston rod of the cylinder 303 is connected with the bottom of the support pipe 200, and when the piston rod of the cylinder 303 stretches, the support pipe 200 can be driven to move along the vertical direction.

Referring to fig. 4 and 5, a screw 202, a motor 203 and a supporting rod 204 are arranged in the supporting tube 200, an output shaft of the motor 203 is connected with one end of the screw 202, the length direction of the screw 202 is distributed along the vertical direction, and a shell of the motor 203 is connected with the inner top wall of the supporting tube 200. The two support rods 204 are arranged, one end of each support rod 204 is hinged with a sliding block of each lead screw 202, the other end of each support rod 204 is hinged with one side of each support plate 201, when the motor 203 drives the lead screws 202 to rotate, the sliding blocks of the lead screws 202 move in the vertical direction, the sliding blocks of the lead screws 202 drive the support rods 204 to move and rotate, the support rods 204 can push and pull the support plates 201, and the support plates 201 can switch the openings at the two ends of the support tubes 200.

The inner wall of the first pipe 301 is connected with a detecting member 304, the detecting member 304 adopts an MIK-P300 type pressure transmitter, and the detecting member 304 is used for detecting the steam pressure in the first pipe 301 and outputting a steam pressure value. The detection part 304 is electrically connected with a controller, the controller adopts an S7-200 type PLC, the controller is electrically connected with a clock module, the clock module adopts a ds1302 type clock chip, the clock module is used for outputting time signals at intervals, and the motor 203 and the air cylinder 303 are electrically connected with the controller.

The controller is used for receiving the steam pressure value and comparing the steam pressure value with a preset interval, and when the steam pressure value is within the preset interval, the controller controls the cylinder 303 to push the support tube 200; when the steam pressure value is greater than the maximum value of the preset interval, the controller controls the motor 203 to rotate the screw 202, and the supporting plate 201 opens the end opening of the supporting tube 200; the controller is used for receiving the time signal and controlling the cylinder 303 to pull the supporting tube 200, and simultaneously controlling the motor 203 to rotate the screw 202, and the supporting plate 201 closes the end opening of the supporting tube 200.

Referring to fig. 2 and 3, a plurality of steam baffles 102 are disposed in a machine body 100, the cross section of the steam baffles 102 is S-shaped, the length direction of the steam baffles 102 is consistent with the width direction of the machine body 100, and two ends of the steam baffles 102 are connected with the side wall of the machine body 100. Each steam shield 102 is distributed between the conveyor belt 101 and the steam outlet pipe 400. The steam baffles 102 are uniformly and alternately distributed along the length direction of the conveying belt 101 to form a gas conveying channel 103, the gas conveying channel 103 is S-shaped, and steam output by the steam outlet pipe 400 is conveyed to fabrics through the gas conveying channel 103.

Referring to fig. 1 and 6, a drying chamber 500 is connected to a discharge side of the machine body 100, the machine body 100 is communicated with the drying chamber 500 through a cloth outlet, and the drying chamber 500 is in a hollow cuboid shape and has a length direction consistent with a length direction of the machine body 100. A plurality of guide rollers 501 are arranged in the drying chamber 500, the length direction of the guide rollers 501 is distributed along the width direction of the drying chamber 500, the guide rollers 501 are spaced along the length direction of the drying chamber 500 and are distributed in two rows in a staggered manner along the vertical direction, and fabrics sequentially pass through the guide rollers 501 when conveyed in the drying chamber 500. A plurality of fans 502 are arranged in the drying chamber 500, the fans 502 are distributed on the top of the drying chamber 500 and on two side walls of the bottom of the drying chamber 500, the fans 502 are used for providing hot air for fabrics, and the fans 502 are uniformly distributed at intervals along the length direction of the drying chamber 500.

The embodiment of the utility model relates to a steamer for man-made cotton fabrics, which comprises the following implementation principle: the fabric enters the machine body 100 from the fabric inlet, is conveyed to two ends of the fabric by the conveying belt 101 and is respectively close to the fabric inlet and the fabric outlet, and the steam source 403 conveys steam into the steam outlet pipe 400 through the steam inlet pipe 401.

When the steam pressure value detected by the detecting piece 304 reaches the preset interval, the controller controls the air cylinder 303 to push the supporting tube 200, the supporting tube 200 ascends to prop up the fabric on the conveying belt 101, the steam inlet pipe 401 is directly communicated with the steam outlet pipe 400 at the center in the machine body 100, the supporting tube 200 at the center in the machine body 100 ascends to prop up the fabric first, the fabric is propped up at the center in the length direction first, the fabric can be prevented from sliding off the supporting tube 200 when propped up, the supporting tubes 200 at the two ends of the machine body 100 ascend to prop up the fabric last, in the propping up process of the fabric, the two ends of the fabric in the length direction can hang down to the two sides of the machine body 100 in the length direction due to the gravity action of the periphery of the fabric, and the two ends of the fabric in the width direction can hang down to the two ends of the supporting tube 200, so that the fabric can be prevented from being folded in the width direction and the length direction as much as possible.

When steam is continuously input into the machine body 100, when the steam pressure value detected by the detecting piece 304 is greater than the maximum value of the preset interval, the controller controls the motor 203 to enable the supporting plate 201 to open the end opening of the supporting tube 200, and the supporting plate 201 rotates to support the two ends of the fabric in the width direction.

The steam is continuously input into the machine body 100 to complete steaming of the fabric, after the steaming of the fabric is completed, the controller controls the air cylinder 303 to pull the supporting tube 200 according to the time signal, the supporting tube 200 descends to be flush with the conveying belt 101, the fabric returns to the conveying belt 101, the controller controls the motor 203 again to enable the supporting plate 201 to rotate to close the opening of the end part of the supporting tube 200, and the fabric is input into the drying chamber 500 through the conveying belt 101 for drying.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (10)

1. A steamer for man-made cotton fabrics is characterized in that: including organism (100) and a plurality of stay tube (200), cloth inlet and cloth outlet have been seted up respectively to organism (100) both sides, be equipped with a plurality of conveyer belts (101) in organism (100), each conveyer belt (101) are along fabric conveying direction interval setting just conveyer belt (101) length direction is unanimous with fabric conveying direction, each conveyer belt (101) are arranged into two rows and each conveyer belt (101) interval setting along fabric width direction, each stay tube (200) are located adjacent two respectively between conveyer belt (101) and stay tube (200) length direction is unanimous with fabric width direction, each stay tube (200) bottom all is connected with lifting unit (300), lifting unit (300) are used for following vertical direction and remove stay tube (200).

2. The steamer for man-made cotton fabric as claimed in claim 1, characterized in that: lifting assembly (300) include first pipe (301), second pipe (302) and cylinder (303), first pipe (301) length direction with second pipe (302) length direction is unanimous, first pipe (301) cover is located second pipe (302), first pipe (301) along vertical direction with second pipe (302) slide and be connected, first pipe (301) one end with stay tube (200) bottom is connected, cylinder (303) connect in on second pipe (302) perisporium, cylinder (303) piston rod length direction with first pipe (301) length direction is unanimous and cylinder (303) piston rod tip with stay tube (200) bottom is connected.

3. A steamer for man-made cotton fabrics as claimed in claim 2, characterized in that: a plurality of steam outlet pipes (400) are arranged in the machine body (100), the length direction of each steam outlet pipe (400) is consistent with the length direction of the supporting pipe (200), each steam outlet pipe (400) is uniformly distributed at intervals along the fabric conveying direction, each steam outlet pipe (400) is used for being communicated with a steam source through a steam inlet pipe (401), a plurality of steam outlet holes (402) are formed in each steam outlet pipe (400), each steam outlet hole (402) is uniformly distributed at intervals along the length direction of the steam outlet pipe (400), one end, far away from the supporting pipe (200), of the second pipe (302) is communicated with the steam outlet pipe (400), and one end, far away from the air cylinder (303), of the first pipe (301) is communicated with the supporting pipe (200).

4. A steamer for man-made cotton fabrics as claimed in claim 3, characterized in that: a plurality of steam baffles (102) are arranged in the machine body (100), the steam baffles (102) are S-shaped, each steam baffle (102) is located above each steam outlet pipe (400) and below the conveying belt (101), and the steam baffles (102) are distributed at intervals along the conveying direction of the fabric to form a gas conveying channel (103).

5. A steamer for man-made cotton fabrics as claimed in claim 3, characterized in that: the two ends of the support tube (200) are connected with support plates (201), and one ends of the two support plates (201) along the length direction are hinged with the ends of the support tube (200) so as to open or close the openings at the two ends of the support tube (200).

6. The steamer for man-made cotton fabric as defined in claim 5, wherein: be equipped with lead screw (202) in stay tube (200), lead screw (202) length direction distributes along vertical direction, lead screw (202) one end is connected with motor (203), the slider of lead screw (202) articulates there are two bracing pieces (204), bracing piece (204) keep away from one end of lead screw (202) pass behind stay tube (200) tip opening with backup pad (201) are articulated.

7. The steamer for man-made cotton fabric as set forth in claim 6, wherein: the device is characterized in that a detection part (304) is arranged in the first pipe (301), the detection part (304) is electrically connected with a controller, the controller is electrically connected with the air cylinder (303), the detection part (304) is used for detecting the steam pressure in the first pipe (301) and outputting a steam pressure value, the controller is used for receiving the steam pressure value and comparing the steam pressure value with a preset interval, and when the steam pressure value is located in the preset interval, the controller controls the air cylinder (303) to push the support pipe (200).

8. The steamer for man-made cotton fabric as set forth in claim 7, wherein: the motor (203) is electrically connected with the controller, the controller is used for receiving the steam pressure value and comparing the steam pressure value with a preset interval, and when the steam pressure value is larger than the maximum value of the preset interval, the controller controls the motor (203) to rotate the screw (202) so as to realize that the supporting plate (201) opens the end opening of the supporting tube (200).

9. The steamer for man-made cotton fabric as claimed in claim 8, wherein: the controller is electrically connected with a clock module, the clock module is used for outputting time signals at intervals, and the controller is used for receiving the time signals and controlling the air cylinder (303) to pull the supporting tube (200) and controlling the motor (203) to rotate the screw rod (202) so as to enable the supporting plate (201) to close the opening of the end part of the supporting tube (200).

10. The steamer for man-made cotton fabric as claimed in claim 1, characterized in that: the machine body (100) is connected with a drying chamber (500), the drying chamber (500) is communicated with the cloth outlet, a plurality of guide rollers (501) are arranged in the drying chamber (500), the guide rollers (501) are distributed at intervals along the conveying direction of the fabric and are staggered along the vertical direction, a plurality of fans (502) for providing hot air to the fabric are arranged in the drying chamber (500), the fans (502) are distributed at the bottom and the top of the drying chamber (500), and the fans (502) are distributed along the conveying direction of the fabric.