CN211280197U - Drying and baking equipment applied to cloth printing - Google Patents

Abstract

The embodiment of the utility model discloses be applied to stoving and the equipment of curing of cloth stamp for solve present stoving and cure equipment and arrange for sharp sectional type, form longer production line, cause the technical problem of operation difficulty. The embodiment comprises a low-temperature drying device and a high-temperature baking device; the low-temperature drying device comprises a first conveyor belt; the high-temperature baking device comprises an annular conveyor belt, a second conveyor belt, a third conveyor belt and a fourth conveyor belt, wherein the feeding end of the second conveyor belt is connected with the discharging end of the first conveyor belt; the discharge end of the second conveyor belt is connected with the feed end of the third conveyor belt; the discharge end of the third conveyor belt is connected with the starting end of the fourth conveyor belt; the terminal end of the fourth conveyor belt is connected with the feeding end of the first conveyor belt; the annular conveyor belt comprises an upper layer conveyor belt and a lower layer conveyor belt; the surface of the upper layer conveyor belt is attached to the surface of the second conveyor belt, and the surface of the lower layer conveyor belt is attached to the surface of the third conveyor belt.

Description

Drying and baking equipment applied to cloth printing

Technical Field

The utility model relates to a be applied to the stoving of cloth stamp and cure the equipment field, especially relate to a be applied to the stoving of cloth stamp and cure equipment.

Background

In the coating and printing and dyeing processes of textiles, artificial leather and the like, a base material after coating and printing and dyeing needs to be heated, dried and shaped.

The existing printing and dyeing equipment generally comprises devices such as low-temperature drying devices and high-temperature baking devices, wherein the low-temperature drying devices and the high-temperature baking devices are arranged in a linear sectional mode, and when the devices are assembled together, a long growth line can be formed, so that not only is the occupied area large, but also the operation is very difficult due to the fact that the whole production line is too long.

Therefore, in order to solve the above technical problems, it is an important subject of research by those skilled in the art to find a drying and baking apparatus for printing cloth, which is simpler to operate and more reasonable in layout.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model discloses be applied to stoving and the equipment of curing of cloth stamp for solve present stoving and cure equipment and arrange for sharp sectional type, form longer production line, cause the technical problem of operation difficulty.

The embodiment of the utility model provides a drying and baking device applied to cloth printing, which comprises a frame; the rack is provided with a low-temperature drying device and a high-temperature baking device; the low-temperature drying device is arranged above the high-temperature baking device;

the low-temperature drying device comprises a first conveyor belt; the first conveyor belt is used for conveying the cloth from the feeding end of the low-temperature drying device to the discharging end of the low-temperature drying device;

the high-temperature baking device comprises an annular conveyor belt, a second conveyor belt, a third conveyor belt and a fourth conveyor belt, wherein the feeding end of the second conveyor belt is connected with the discharging end of the first conveyor belt; the discharge end of the second conveyor belt is connected with the feed end of the third conveyor belt; the discharge end of the third conveyor belt is connected with the starting end of the fourth conveyor belt; the terminal end of the fourth conveyor belt is connected with the feed end of the first conveyor belt; the first conveyor belt, the second conveyor belt, the third conveyor belt and the fourth conveyor belt form an endless conveyor belt structure;

the annular conveyor belt comprises an upper layer conveyor belt and a lower layer conveyor belt; the surface of the upper layer conveyor belt is attached to the surface of the second conveyor belt to form a first heating and conveying channel for heating the cloth; the surface of the lower layer conveyor belt is attached to the surface of the third conveyor belt to form a second heating and conveying channel for heating the cloth; the first heating conveying channel is connected with the second heating conveying channel to form a U-shaped structure.

Optionally, the first conveyor belt, the second conveyor belt, the third conveyor belt and the fourth conveyor belt are all provided with a high-temperature resistant surface layer; the high-temperature resistant surface layer is a silica gel surface layer or a Teflon surface layer; iron powder or magnetic powder is mixed in the high-temperature resistant surface layer;

a high-temperature resistant surface layer is also arranged on the annular conveying belt, and magnetic powder or iron powder is mixed in the silica gel surface layer;

the surface of the second conveyor belt is attracted with the surface of the upper-layer conveyor belt;

and the surface of the third conveyor belt is attracted with the surface of the lower-layer conveyor belt.

Optionally, the endless conveyor belt, the first conveyor belt, the second conveyor belt, the third conveyor belt, and the fourth conveyor belt are stainless steel belts.

Optionally, the annular conveyor belt, the first conveyor belt, the second conveyor belt, the third conveyor belt and the fourth conveyor belt are all provided with a deviation rectifying device, and the deviation rectifying device comprises a photoelectric sensor, an electric or pneumatic or oil-pressure deviation rectifying power device and a deviation rectifying guide wheel; the deviation rectifying power device is connected with the deviation rectifying guide wheel; the photoelectric sensor is used for detecting the edge running conditions of the annular conveyor belt, the first conveyor belt, the second conveyor belt, the third conveyor belt and the fourth conveyor belt, and controlling the deviation rectifying power device to drive the deviation rectifying guide wheel to run through detected signals.

Optionally, the endless conveyor belt, the first conveyor belt, the second conveyor belt, the third conveyor belt and the fourth conveyor belt are further provided with a conveyor belt tension adjusting device, the tension adjusting device is a lead screw adjusting device, a spring adjusting device or a hydraulic or pneumatic adjusting device, and the hydraulic or pneumatic adjusting device adjusts the tension of the conveyor belt by adjusting hydraulic pressure or pneumatic pressure; the spring adjusting device adjusts the tension of the conveyor belt by adjusting the tightness of the spring, and the lead screw adjusting device adjusts the tension of the conveyor belt by manually or electrically adjusting the displacement of the lead screw.

Optionally, a heating assembly is further included;

the heating assembly comprises a heat exchanger and an air supply fan;

the air supply fan is connected with an air supply pipeline; the air supply pipeline is connected with a first air supply pipeline;

the first air supply pipeline is arranged above the first conveyor belt.

Optionally, the high-temperature baking device further comprises a second air supply pipeline, a third air supply pipeline and an air supply exhaust; the second air supply pipeline, the third air supply pipeline and the air supply air exhaust row are all connected with the air supply pipeline;

the second air supply pipeline is arranged above the first heating and conveying channel, and an air outlet of the second air supply pipeline faces the first heating and conveying channel;

the third air supply pipeline is arranged below the second heating and conveying channel, and an air outlet of the third air exhaust pipeline faces the second heating and conveying channel;

the air supply air row is arranged between the first heating conveying channel and the second channel, and an air outlet of the air supply air row faces towards the first heating conveying channel and the second heating conveying channel.

Optionally, a blowing device and an exhaust gas extraction device are further arranged above the discharge end of the second heating and conveying channel;

the blowing device comprises a blowing fan; the blowing fan is connected with a plurality of blowing pipelines; a waste gas extraction pipeline is arranged among the plurality of air blowing pipelines; the waste gas extraction pipeline is connected with an air exhaust fan.

Optionally, a printing device is further connected to the feed end of the first conveyor belt;

the feeding end of the printing device is also connected with a cloth sending device;

the printing device is a circular screen printing device, a flat screen printing device or an ink-jet printing device.

Optionally, the discharge end of the second heating and conveying channel is further connected with a functional coating device;

the discharge end of the functional coating device is connected with a drying device; the discharge end of the drying device is connected with a finished product collecting device; the functional coating device is one of a roll coating device, a spraying device and a roller coating device.

According to the technical solution provided by the utility model, the embodiment of the utility model has the following advantage:

in this embodiment, set up low temperature drying device in high temperature baking device top, the cloth dries the back through first conveyer belt, and the U style of calligraphy structure heating channel that comprises first heating transfer passage and second heating transfer passage through first conveyer belt below cures, through such design, can shorten the length of the production line of drying and curing the constitution greatly, reduces the area of occupation of land as far as possible, the operation of being convenient for more.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 is a schematic structural view of a drying and baking apparatus applied to a cloth printing provided in an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a second embodiment of the drying and baking apparatus for textile printing provided in the embodiment of the present invention;

fig. 3 is a schematic structural diagram of a third embodiment of the drying and baking apparatus for textile printing provided in the embodiment of the present invention;

fig. 4 is a schematic structural diagram of the first conveyor belt, the second conveyor belt, the third conveyor belt, the fourth conveyor belt and the endless conveyor belt which are used in the drying and baking device for printing cloth provided in the embodiment of the present invention.

Illustration of the drawings: a low temperature drying device 1; a high-temperature baking device 2; a heat exchanger 3; an air supply fan 4; an air supply duct 5; a first heating conveyance path 6; a second heating conveyance path 7; an exhaust gas extraction device 8; a blowing device 9; a blowing duct 10; a first supply duct 11; a second supply duct 12; a third supply duct 13; an air supply row 14; a printing device 15; a cloth delivery device 16; a finished product collecting device 17; a drying device 18; a functional paint application device 19; a first conveyor belt 20; a second conveyor belt 21; an upper conveyor belt 22; a lower conveyer belt 23; a third conveyor belt 24; a fourth conveyor belt 25.

Detailed Description

The embodiment of the utility model discloses be applied to stoving and the equipment of curing of cloth stamp for solve present stoving and cure equipment and arrange for sharp sectional type, form longer production line, cause the technical problem of operation difficulty.

In order to make the technical field better understand the solution of the present invention, the following detailed description of the present invention is provided with reference to the accompanying drawings and the detailed description. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 and 4, an embodiment of a drying and baking apparatus for printing cloth provided in an embodiment of the present invention includes:

a frame; the frame is provided with a low-temperature drying device 1 for drying moisture carried by the cloth and a high-temperature drying device 2 for fixing dye in a fiber tissue structure of the cloth after sublimation; the low-temperature drying device 1 is arranged above the high-temperature baking device 2;

wherein, the low temperature drying device 1 comprises a first conveyor belt 20; the first conveyor belt 20 is used for conveying the cloth from the feeding end of the low-temperature drying device 1 to the discharging end of the low-temperature drying device 1;

the high-temperature baking device 2 comprises an annular conveyor belt, a second conveyor belt 21, a third conveyor belt 24 and a fourth conveyor belt 25, wherein the feeding end of the second conveyor belt 21 is connected with the discharging end of the first conveyor belt 20; the second conveyor belt 21 is located below the first conveyor belt 20; the discharge end of the second conveyor belt 21 is connected with the feed end of the third conveyor belt 24; the third conveyor belt 24 is located below the second conveyor belt 21; the discharge end of the third conveyor belt 24 is connected with the starting end of the fourth conveyor belt 25; the fourth conveyor belt 25 is located below the third conveyor belt 24; the terminal end of the fourth conveyor belt 25 is connected to the feed end of the first conveyor belt 20;

the first conveyor belt 20, the second conveyor belt 21, the third conveyor belt 24 and the third conveyor belt 25 form an endless conveyor belt structure;

the endless conveyor includes an upper conveyor 22 and a lower conveyor 23; the surface of the upper layer conveyor belt 22 is attached to the surface of the second conveyor belt 21 to form a first heating and conveying channel 6 for heating the cloth; the surface of the lower layer conveyor belt 23 is attached to the surface of the third conveyor belt 24 to form a second heating and conveying channel 7 for heating the cloth; the first heating and conveying channel 6 is connected with the second heating and conveying channel 7 to form a U-shaped structure.

Further, the endless conveyor belt, the first conveyor belt 20, the second conveyor belt 21, the third conveyor belt 24 and the fourth conveyor belt 25 are arranged in the frame through a plurality of supporting wheels and guide wheels, and are driven to operate through a power device.

It should be noted that the cloth enters the low-temperature drying device 1 from the feeding end of the first conveyor belt 20, the moisture is dried by the low-temperature drying device 1, the cloth enters the high-temperature baking device 2, specifically, the cloth sequentially enters the first heating and conveying channel 6 and the second heating and conveying channel 7 to perform the baking process, and finally, the cloth is discharged from the discharging end of the second heating and conveying channel 7.

Furthermore, the annular conveyor belt, the first conveyor belt 20, the second conveyor belt 21, the third conveyor belt 24 and the fourth conveyor belt 25 are all provided with deviation rectifying devices, and each deviation rectifying device comprises a photoelectric sensor, an electric or pneumatic or oil-pressure deviation rectifying power device and a deviation rectifying guide wheel; the deviation rectifying power device is connected with the deviation rectifying guide wheel; the photoelectric sensor is used for detecting the edge running conditions of the annular conveyor belt, the first conveyor belt 20, the second conveyor belt 21, the third conveyor belt 24 and the fourth conveyor belt 25, and controlling the deviation rectifying power device to drive the deviation rectifying guide wheel to run through detected signals.

Further, the endless conveyor belt, the first conveyor belt 20, the second conveyor belt 21, the third conveyor belt 24 and the fourth conveyor belt 25 are further provided with conveyor belt tension adjusting devices, the tension adjusting devices are screw adjusting devices, spring adjusting devices and hydraulic or pneumatic adjusting devices, and the hydraulic or pneumatic adjusting devices adjust the tension of the conveyor belts by adjusting hydraulic or pneumatic pressure; the spring adjusting device adjusts the tension of the conveyor belt by adjusting the tightness of the spring, and the lead screw adjusting device adjusts the tension of the conveyor belt by manually or electrically adjusting the displacement of the lead screw.

Further, referring to fig. 4, the first conveyor belt 20, the second conveyor belt 21, the third conveyor belt 24 and the fourth conveyor belt 25 in this embodiment are all provided with a high temperature resistant surface layer; the high-temperature resistant surface layer can be a silica gel surface layer or a Teflon surface layer, and can resist the adhesion of dye; iron powder or magnetic powder is mixed in the high-temperature resistant surface layer;

the annular conveyer belt in the embodiment is also provided with a high-temperature resistant surface layer, and magnetic powder or iron powder is mixed in the high-temperature resistant surface layer;

the surface of the second conveyor belt 21 is attracted with the surface of the upper conveyor belt 22;

the surface of the third belt 24 is engaged with the surface of the lower belt 23.

It should be noted that the surface of the second conveyor belt 21 is attracted to the surface of the upper conveyor belt 22, and the surface of the third conveyor belt 24 is attracted to the surface of the lower conveyor belt 23, so that the design can perform the function of attaching and sealing, and the dye sublimated and gasified cannot diffuse from the two sides of the heating channel.

Further, the endless conveyor belts and/or the endless conveyor belt structures formed by the first conveyor belt 20, the second conveyor belt 21, the third conveyor belt 24, and the fourth conveyor belt 25 in this embodiment are stainless steel conveyor belt structures.

Furthermore, the back surfaces of the annular conveyor belt and/or the first conveyor belt 20, the second conveyor belt 21, the third conveyor belt 24 and the fourth conveyor belt 25 are provided with deviation-preventing guide bars, and grooves corresponding to the deviation-preventing guide bars are arranged at corresponding positions of the support wheels of the conveyor belts.

Furthermore, in order to enable the two conveying belts which are pressed tightly, the first heating conveying channel and the second heating conveying channel are in arc-shaped design, and a guide wheel below the conveying channels is matched with the conveying channels and is also in corresponding arc-shaped design.

Further, referring to fig. 1, the present embodiment further includes a heating element;

the heating assembly comprises a heat exchanger 3 and an air supply fan 4;

the air supply fan 4 is connected with an air supply pipeline 5; the air supply pipeline 5 is connected with a first air supply pipeline 11;

a first supply duct 11; the first blowing duct 11 is provided above the first conveyor belt 20.

It should be noted that the air blower 4 blows air that has obtained heat from the heat exchanger 3 through the first air supply duct 11 onto the first conveyor belt 20, so that moisture in the cloth on the first conveyor belt 20 is dried.

Further, the high-temperature roasting device 2 in the present embodiment further includes a second air supply duct 12, a third air supply duct 13, and an air supply duct row 14;

the second air supply pipeline 12, the third air supply pipeline 13 and the air supply air exhaust 14 are communicated with the air supply pipeline 5;

the second air supply pipeline 12 is positioned above the first heating and conveying channel 6, and an air outlet of the second air supply pipeline 12 faces the first heating and conveying channel 6; the third air supply pipeline 13 is positioned below the second heating and conveying channel 7, and an air outlet of the third air supply pipeline 13 faces the second heating and conveying channel 7; the air supply duct 14 is disposed between the first heating and conveying passage 6 and the second heating and conveying passage 7, and an air outlet of the air supply duct 14 faces the first heating and conveying passage 6 and the second heating and conveying passage 7.

The exhaust outlet of the second blowing duct 12 is used for blowing hot air to one side of the first heating conveyance path 6; the air outlet of the air supply air exhaust 14 blows hot air to the other side of the first heating and conveying channel 6; the air outlet of the third row of pipelines is used for blowing hot air to one side of the second heating and conveying channel 7; the air outlet of the air supply air outlet 14 blows to the other side of the second heating and conveying channel 7; through the design, the surfaces of the second conveyor belt 21 and the upper conveyor belt 22 which form the first heating and conveying channel 6 can be heated and heated, and the surfaces of the third conveyor belt 24 and the lower conveyor belt 23 which form the second heating and conveying channel 7 can be heated and heated, so that the cloth is heated and baked when passing through the first heating and conveying channel 6 and the second heating and conveying channel 7.

Further, referring to fig. 1, a blowing device 9 and an exhaust gas extraction device 8 are further disposed above the discharge end of the second heating and conveying channel 7 in the present embodiment;

the blowing device 9 comprises a blowing fan; the blowing fan is connected with a plurality of blowing pipelines 10; a waste gas extraction pipeline is arranged among the plurality of blowing pipelines 10; the waste gas extraction pipeline is connected with an air exhaust fan.

It should be noted that after the cloth comes out from the high-temperature baking device 2, part of the dye is inevitably not absorbed by the fiber, so as to form so-called floating color, in order to reduce the floating color amount, a blowing device 9 and an exhaust gas extraction device 8 are arranged at the outlet of the high-temperature baking device 2 (the discharge end of the second heating conveying channel 7), the blowing device 9 blows away the dye particles attached to the surface of the cloth, and simultaneously, the cloth is cooled, and the exhaust gas extraction device 8 extracts the dye particles and the exhaust gas, and the dye particles and the exhaust gas are discharged after being filtered by the exhaust gas filter device.

The above is a detailed description of the specific structure of the drying and baking device applied to the cloth printing provided by the embodiment of the present invention, and the device will be further described with a second embodiment, please refer to fig. 2 and fig. 4, the second embodiment of the drying and baking device applied to the cloth printing provided by the present invention includes:

the cloth printing machine further comprises a finished product collecting device 17, a cloth sending device 16 and a printing device 15;

the cloth sending device 16 is used for discharging cloth, a discharging end of the cloth sending device 16 is connected with a feeding end of the printing device 15, the cloth is printed by the printing device 15 and then enters the first conveyor belt 20 through the discharging end of the printing device 15 and is conveyed by the first conveyor belt 20, the cloth is driven by the first conveyor belt 20 to pass through the low-temperature drying device 1 and then enters the high-temperature baking device 2, specifically, the cloth sequentially enters the first heating and conveying channel 6 and the second heating and conveying channel 7 from the discharging end of the first conveyor belt 20, the cloth enters the finished product collecting device 17 from the discharging end of the second heating and conveying channel 7 after being baked at high temperature, and the finished product collecting device 17 is connected with a discharging end of the second heating and conveying channel 7; the finished product collecting device 17 recovers the cloth.

It should be noted that the finished product collecting device 17 in this embodiment is a swing arm type doffing device or a wheel type winding device; the printing device 15 in this embodiment is a rotary screen printing device 15, a flat screen printing device 15, or an inkjet printing device 15.

The above is a detailed description of the specific structure of the second embodiment of the drying and baking apparatus for textile printing according to the embodiment of the present invention, and the apparatus will be further described with a third embodiment, please refer to fig. 3 and 4, and the third embodiment of the drying and baking apparatus for textile printing according to the embodiment of the present invention includes:

the embodiment also comprises a finished product collecting device 17, a cloth sending device 16, a functional coating device 19, a drying device 18 and a printing device 15;

the cloth sending device 16 is used for discharging cloth, a discharging end of the cloth sending device 16 is connected with a feeding end of the printing device 15, the cloth is printed by the printing device 15 and then enters the first conveying belt 20 through the discharging end of the printing device 15 and is conveyed by the first conveying belt 20, the cloth is driven by the first conveying belt 20 to pass through the low-temperature drying device 1 and then enters the high-temperature baking device 2, specifically, the cloth sequentially enters the first heating and conveying channel 6 and the second heating and conveying channel 7 from the discharging end of the first conveying belt 20, after being baked at high temperature, the cloth enters the functional paint coating device 19 from the discharging end of the second heating and conveying channel 7, a discharging end of the functional paint coating device 19 is connected with a feeding end of the drying device 18, and a discharging end of the drying device 18 is connected with the finished product collecting device 17; the cloth is dried by the drying device 18 and then enters the finished product collecting device 17 to be collected by an operator.

It should be noted that the finished product collecting device 17 in this embodiment is a swing arm type doffing device or a wheel type winding device; the printing device 15 in this embodiment is one of a rotary screen printing device 15, a flat screen printing device 15, or an inkjet printing device 15; the functional paint coating device 19 in the present embodiment is one of a roll coating device, a spray coating device, and a roll coating device.

It is right above the utility model provides a be applied to drying and baking equipment of cloth stamp and introduced in detail, to the general technical personnel in this field, according to the utility model discloses the thought of embodiment all has the change part on concrete implementation and application scope, to sum up, this description content should not be understood as right the utility model discloses a restriction.

Claims (10)

1. The drying and baking equipment applied to cloth printing is characterized by comprising a rack; the rack is provided with a low-temperature drying device and a high-temperature baking device; the low-temperature drying device is arranged above the high-temperature baking device;

the low-temperature drying device comprises a first conveyor belt; the first conveyor belt is used for conveying the cloth from the feeding end of the low-temperature drying device to the discharging end of the low-temperature drying device;

the high-temperature baking device comprises an annular conveyor belt, a second conveyor belt, a third conveyor belt and a fourth conveyor belt, wherein the feeding end of the second conveyor belt is connected with the discharging end of the first conveyor belt; the discharge end of the second conveyor belt is connected with the feed end of the third conveyor belt; the discharge end of the third conveyor belt is connected with the starting end of the fourth conveyor belt; the terminal end of the fourth conveyor belt is connected with the feed end of the first conveyor belt; the first conveyor belt, the second conveyor belt, the third conveyor belt and the fourth conveyor belt form an endless conveyor belt structure;

the annular conveyor belt comprises an upper layer conveyor belt and a lower layer conveyor belt; the surface of the upper layer conveyor belt is attached to the surface of the second conveyor belt to form a first heating and conveying channel for heating the cloth; the surface of the lower layer conveyor belt is attached to the surface of the third conveyor belt to form a second heating and conveying channel for heating the cloth; the first heating conveying channel is connected with the second heating conveying channel to form a U-shaped structure.

2. The drying and baking apparatus for cloth decorating according to claim 1, wherein the first conveyor belt, the second conveyor belt, the third conveyor belt and the fourth conveyor belt are all provided with a high temperature resistant surface layer; the high-temperature resistant surface layer is a silica gel surface layer or a Teflon surface layer;

a high-temperature resistant surface layer is also arranged on the annular conveying belt;

the surface of the second conveyor belt is attracted with the surface of the upper-layer conveyor belt;

and the surface of the third conveyor belt is attracted with the surface of the lower-layer conveyor belt.

3. The drying and baking apparatus for cloth printing according to claim 1, wherein the endless conveyor, the first conveyor, the second conveyor, the third conveyor and the fourth conveyor are stainless steel belts.

4. The drying and baking equipment applied to cloth printing according to claim 1, wherein the endless conveyor belt, the first conveyor belt, the second conveyor belt, the third conveyor belt and the fourth conveyor belt are all provided with deviation rectifying devices, and the deviation rectifying devices comprise photoelectric sensors, electric or pneumatic or oil pressure deviation rectifying power devices and deviation rectifying guide wheels; the deviation rectifying power device is connected with the deviation rectifying guide wheel; the photoelectric sensor is used for detecting the edge running conditions of the annular conveyor belt, the first conveyor belt, the second conveyor belt, the third conveyor belt and the fourth conveyor belt, and controlling the deviation rectifying power device to drive the deviation rectifying guide wheel to run through detected signals.

5. The drying and baking apparatus for cloth printing according to claim 1, wherein the endless conveyor, the first conveyor, the second conveyor, the third conveyor and the fourth conveyor are further provided with a conveyor tension adjusting device, the tension adjusting device is a screw adjusting device, a spring adjusting device, a hydraulic or pneumatic adjusting device, and the hydraulic or pneumatic adjusting device adjusts the tension of the conveyor by adjusting hydraulic or pneumatic pressure; the spring adjusting device adjusts the tension of the conveyor belt by adjusting the tightness of the spring, and the lead screw adjusting device adjusts the tension of the conveyor belt by manually or electrically adjusting the displacement of the lead screw.

6. The drying and baking apparatus for textile printing according to claim 1, further comprising a heating assembly;

the heating assembly comprises a heat exchanger and an air supply fan;

the air supply fan is connected with an air supply pipeline; the air supply pipeline is connected with a first air supply pipeline;

the first air supply pipeline is arranged above the first conveyor belt.

7. The drying and baking apparatus for cloth decorating according to claim 6, wherein the high temperature baking device further comprises a second air supply duct, a third air supply duct and an air supply row; the second air supply pipeline, the third air supply pipeline and the air supply air exhaust row are all connected with the air supply pipeline;

the second air supply pipeline is arranged above the first heating and conveying channel, and an air outlet of the second air supply pipeline faces the first heating and conveying channel;

the third air supply pipeline is arranged below the second heating and conveying channel, and an air outlet of the third air supply pipeline faces the second heating and conveying channel;

the air supply air row is arranged between the first heating conveying channel and the second heating conveying channel, and an air outlet of the air supply air row faces to the first heating conveying channel and the second heating conveying channel.

8. The drying and baking equipment for cloth printing according to claim 1, wherein a blowing device and an exhaust gas extracting device are further arranged above the discharge end of the second heating and conveying channel;

the blowing device comprises a blowing fan; the blowing fan is connected with a plurality of blowing pipelines; a waste gas extraction pipeline is arranged among the plurality of air blowing pipelines; the waste gas extraction pipeline is connected with an air exhaust fan.

9. The drying and baking apparatus for cloth decorating according to claim 1, wherein a decorating device is further connected to a feeding end of the first conveyor belt;

the feeding end of the printing device is also connected with a cloth sending device;

the printing device is a circular screen printing device, a flat screen printing device or an ink-jet printing device.

10. The drying and baking apparatus for textile printing according to claim 1, wherein a functional paint coating device is further connected to the discharge end of the second heating and conveying channel;

the discharge end of the functional coating device is connected with a drying device; the discharge end of the drying device is connected with a finished product collecting device; the functional coating device is one of a roll coating device, a spraying device and a roller coating device.

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