CN112391775A

CN112391775A - Intelligent cloth stentering system for textile printing and dyeing industry

Info

Publication number: CN112391775A
Application number: CN202011245740.3A
Authority: CN
Inventors: 李川凌; 李洪奇; 夏光梅
Original assignee: Guizhou Huayi Green Textile Industry Technology Co ltd
Current assignee: Guizhou Huayi Green Textile Industry Technology Co ltd
Priority date: 2020-11-10
Filing date: 2020-11-10
Publication date: 2021-02-23

Abstract

The invention discloses an intelligent cloth stentering system in textile printing and dyeing industry, which belongs to the technical field of textile fabric production and comprises a cloth feeding driving roller, an expanding system main body, a cloth discharging driving roller, an expanding first cloth guide roller, an expanding second cloth guide roller, an expanding first yarn dividing roller, an expanding second yarn dividing roller, an expanding first deviation correction roller, an expanding second deviation correction roller, an expanding infrared photoelectric tube, an expanding third yarn dividing roller, an expanding fourth yarn dividing roller, an expanding fifth yarn dividing roller, an expanding sixth yarn dividing roller, an expanding seventh yarn dividing roller, an expanding chassis, an expanding eighth yarn dividing roller, an expanding third cloth guide roller, a first electric screw rod, a first expanding roller, a second electric screw rod, a second expanding roller, a third electric screw rod, a third expanding roller, an expanding fourth cloth guide roller and an expanding first reinforcing rod. The intelligent cloth stentering system in the textile printing and dyeing industry can completely expand the turned edge of the cloth, has a good stentering effect, can track the position of the cloth edge, and automatically adjusts and moves the stentering device according to the position of the cloth edge.

Description

Intelligent cloth stentering system for textile printing and dyeing industry

Technical Field

The invention relates to an intelligent cloth stentering system in the textile printing and dyeing industry, and belongs to the technical field of textile fabric production.

Background

In the dyeing and finishing process of the open width fabric, due to the influence of mechanical and chemical actions, the warp tension of each point in the whole width of the fabric is not equal, and the weft tension is usually very small, so that the fabric is easy to shrink in the weft direction to generate warp wrinkled strips, if the warp wrinkled strips are not found in time and are immediately removed, the wrinkled strips are aggravated continuously, a large number of defective products are caused, the product quality is seriously influenced, and even the mechanical damage is caused. This is particularly true in the process steps of padding, steaming, drying, etc. The main reason for the warp direction wrinkles in the fabric during processing is that the weft direction tension is too low. The expander increases the weft tension of the fabric through mechanical action to achieve the purposes of crease resistance and crease removal. Therefore, the spreader is one of the main universal devices of open width processing dyeing and finishing equipment.

The types of the expanders are various, and mainly include a screw expander, a roll bending expander, a telescopic plate expander, a conical roll expander, a flexible spiral expander and the like. The existing expanding device has the defects of rough manufacture, unobvious expanding effect, serious resilience after expanding, incapability of spreading the cloth edge in a tiled mode and incapability of achieving the substantial expanding and edge-spreading effect, edge suckers positioned on two sides of the cloth edge cannot automatically track the position of the cloth edge according to the position of the cloth edge, cloth with different widths needs to be manually adjusted to the position of the edge sucker, and the operation is complex.

Therefore, the intelligent cloth stentering system can completely expand the turned edge, has a good expanding effect, can track the cloth edge position, automatically adjusts the expanding device according to the cloth edge position, and becomes a technical problem which needs to be solved urgently in the technical field.

Disclosure of Invention

The invention aims to provide an intelligent cloth stentering system in the textile printing and dyeing industry, which can completely expand turned edges, has a good stentering effect, can track the position of a cloth edge, and automatically adjust a movable stentering device according to the position of the cloth edge.

In order to achieve the purpose, the invention adopts the following technical scheme:

an intelligent cloth stentering system in textile printing and dyeing industry comprises a cloth feeding driving roller, an expanding system main body, a cloth discharging driving roller, an expanding first cloth guide roller, an expanding second cloth guide roller, an expanding first dividing roller, an expanding second dividing roller, an expanding first deviation correction roller, an expanding second deviation correction roller, an expanding infrared photoelectric tube, an expanding third dividing roller, an expanding fourth dividing roller, an expanding fifth dividing roller, an expanding sixth dividing roller, an expanding seventh dividing roller, an expanding chassis, an expanding eighth dividing roller, an expanding third cloth guide roller, a first electric screw rod, a first expanding roller, a second electric screw rod, a second expanding roller, a third electric screw rod, a third expanding roller, an expanding fourth cloth guide roller, an expanding first reinforcing rod, an expanding second reinforcing rod, an expanding fifth cloth guide roller, an expanding sixth cloth guide roller and an expanding third reinforcing rod; the bracket of the first expanding system comprises an expanding system main body and an expanding chassis, a cloth feeding driving roller, an expanding first cloth guiding roller, an expanding second cloth guiding roller, an expanding first yarn dividing roller, an expanding second yarn dividing roller, an expanding first deviation correcting roller, an expanding second deviation correcting roller, an expanding infrared photoelectric tube, an expanding third yarn dividing roller, an expanding fourth yarn dividing roller, an expanding fifth yarn dividing roller, an expanding sixth yarn dividing roller, an expanding seventh yarn dividing roller, an expanding eighth yarn dividing roller and an expanding third cloth guiding roller are sequentially arranged on the left side of the expanding system main body from bottom to top, and a first electric screw rod is fixedly connected with the first expanding roller to form a first group of expanding mechanism; the second electric screw rod and the second spreading roller respectively form a second group and a third group of spreading mechanisms, the second group and the third group of spreading mechanisms are sequentially arranged on the right lower side of the spreading system main body from bottom to top, the fourth spreading roller is positioned on the third spreading roller, the first spreading reinforcing rod, the second spreading reinforcing rod and the third spreading reinforcing rod are sequentially arranged on the middle upper part of the spreading system main body from bottom to top, and the fifth spreading roller, the sixth spreading roller and the cloth discharging driving roller are sequentially arranged on the right upper part of the spreading system main body from bottom to top;

the first spreading roller, the second spreading roller and the third spreading roller respectively comprise a spreading mechanism body, a spreading mechanism driving roller mounting frame, a spreading mechanism driving roller, a spreading mechanism driven roller mounting frame, a swing air cylinder, a spreading mechanism fixing plate, an air cylinder connecting swing arm and an infrared sensor; the fixed plate of the spreading mechanism is respectively fixed on the first electric screw rod, the second electric screw rod and the third electric screw rod through screws, a spreading mechanism body is in threaded connection with the fixed plate of the spreading mechanism, a driving roller mounting rack of the spreading mechanism is in threaded connection with the body of the spreading mechanism, a driving roller of the spreading mechanism is in threaded connection with the driving roller mounting rack of the spreading mechanism, a driven roller mounting rack of the spreading mechanism is in threaded connection with the body of the spreading mechanism, a swing cylinder is in threaded connection with the body of the spreading mechanism, a swing arm is connected with the cylinder and is in shaft connection with the driven roller mounting rack of the spreading mechanism, and an infrared sensor is in threaded connection with the body of the spreading mechanism.

Preferably, the intelligent cloth stentering system in the textile printing and dyeing industry further comprises a PLC controller, which is respectively electrically connected with the following components: the device comprises a cloth feeding driving roller, a cloth discharging driving roller, an expanding first yarn dividing roller, an expanding second yarn dividing roller, an expanding first deviation correcting roller, an expanding second deviation correcting roller, an expanding infrared photoelectric tube, an expanding third yarn dividing roller, an expanding fourth yarn dividing roller, an expanding fifth yarn dividing roller, an expanding sixth yarn dividing roller, an expanding seventh yarn dividing roller, an expanding eighth yarn dividing roller, a first electric screw rod, a first expanding roller, a second electric screw rod, a second expanding roller, a third electric screw rod and a third expanding roller.

Preferably, the PLC controller is electrically connected to the following components: servo motors on the cloth feeding driving roller and the cloth discharging driving roller; a driving motor in the first expanding wire dividing roller, the second expanding wire dividing roller, the third expanding wire dividing roller, the fourth expanding wire dividing roller, the fifth expanding wire dividing roller, the sixth expanding wire dividing roller, the seventh expanding wire dividing roller, the eighth expanding wire dividing roller, the first expanding deviation correcting roller and the second expanding deviation correcting roller; the stepping motors are arranged on the first electric screw rod, the second electric screw rod and the third electric screw rod; servo motors on driving rollers of the expanding mechanisms in the expanding rollers in the first expanding roller, the second expanding roller and the third expanding roller; swing cylinders and infrared sensors in the first spreading roller, the second spreading roller and the third spreading roller.

Preferably, the first spreading roll, the second spreading roll and the third spreading roll are arranged in an inverted 'splay' shape.

Has the advantages that:

the intelligent cloth stentering system in the textile printing and dyeing industry can completely expand the turned edge, has good stentering effect, can track the position of the cloth edge, and automatically adjusts and moves the stentering device according to the position of the cloth edge.

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and specific embodiments, but the present invention is not meant to be limited to the scope of the present invention.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent cloth tentering system in the textile printing and dyeing industry in embodiment 1 of the invention.

Fig. 2 is a schematic structural diagram of a first spreading roll in an intelligent cloth tentering system in the textile printing and dyeing industry in embodiment 1 of the invention.

Names of main parts:

1 feeding cloth driving roller 2 expanding system main body

3 cloth-out driving roller 4 expanding first cloth guide roller

5 second cloth guide roller and 6 first dividing roller

7 expanding second dividing roll 8 expanding first deviation correcting roll

9-expanding second rectification roller 10-expanding infrared photoelectric tube

11 expanding third branch silk roller and 12 expanding fourth branch silk roller

13 fifth spreading roll and 14 sixth spreading roll

15 expanding seventh dividing roll 16 expanding chassis

17 expanding eighth dividing roll 18 expanding third cloth guide roll

19 first electric screw rod 20 first expanding roller

21 second electric screw rod 22 second spreading roller

23 third electric screw rod 24 third spreading roller

25-expanding fourth cloth guide roller 26-expanding first reinforcing rod

27 expanding second reinforcing bar 28 expanding fifth cloth guide roller

29 expanding sixth cloth guide roller 30 expanding third reinforcing rod

31-to-be-widened grey cloth

20-1 expanding mechanism body 20-2 expanding mechanism driving roll mounting rack

20-3 expanding mechanism driving roll 20-4 expanding mechanism driven roll

20-5 driven roller mounting rack 20-6 swing cylinder of expanding mechanism

20-7 fixed plate of spreading mechanism and 20-8 cylinder connecting swing arm

20-9 infrared sensor

Detailed Description

Unless otherwise indicated, the devices and methods described in the detailed description of the invention are all conventional in the art; unless otherwise indicated, the devices or components of the embodiments of the present invention are commercially available conventional devices or components, and their installation and connection are conventional in the art.

Example 1

Fig. 1 is a schematic structural diagram of an intelligent fabric tentering system in textile printing and dyeing industry in embodiment 1 of the present invention; wherein, 1 is a cloth feeding driving roller, 2 is a main body of an expanding system, 3 is a cloth discharging driving roller, 4 is an expanding first cloth guiding roller, 5 is an expanding second cloth guiding roller, 6 is an expanding first dividing roller, 7 is an expanding second dividing roller, 8 is an expanding first rectifying roller, 9 is an expanding second rectifying roller, 10 is an expanding infrared photoelectric tube, 11 is an expanding third dividing roller, 12 is an expanding fourth dividing roller, 13 is an expanding fifth dividing roller, 14 is an expanding sixth dividing roller, 15 is an expanding seventh dividing roller, 16 is an expanding chassis, 17 is an expanding eighth dividing roller, 18 is an expanding third cloth guiding roller, 19 is a first electric screw rod, 20 is a first expanding roller, 21 is a second electric screw rod, 22 is a second expanding roller, 23 is a third electric screw rod, 24 is a third expanding roller, 25 is a fourth cloth guiding roller, 26 is a first expanding roller, and 28 is a fifth reinforcing rod, 29 is a sixth fabric guide roller for expanding, 30 is a third reinforcing rod for expanding, and 31 is a grey fabric to be expanded;

the intelligent cloth stentering system in the textile printing and dyeing industry in the embodiment 1 of the invention comprises: the expanding device comprises a cloth feeding driving roller 1, an expanding system main body 2, a cloth discharging driving roller 3, an expanding first cloth guide roller 4, an expanding second cloth guide roller 5, an expanding first wire dividing roller 6, an expanding second wire dividing roller 7, an expanding first deviation correction roller 8, an expanding second deviation correction roller 9, an expanding infrared photoelectric tube 10, an expanding third wire dividing roller 11, an expanding fourth wire dividing roller 12, an expanding fifth wire dividing roller 13, an expanding sixth wire dividing roller 14, an expanding seventh wire dividing roller 15, an expanding chassis 16, an expanding eighth wire dividing roller 17, an expanding third cloth guide roller 18, a first electric screw rod 19, a first expanding roller 20, a second electric screw rod 21, a second expanding roller 22, a third electric screw rod 23, a third expanding roller 24, an expanding fourth cloth guide roller 25, an expanding first reinforcing rod 26, an expanding second reinforcing rod 27, an expanding fifth cloth guide roller 28, a sixth cloth guide roller 29 and a third reinforcing rod 30; the bracket of the first expanding system comprises an expanding system main body 2 and an expanding chassis 16, a cloth feeding driving roller 1, an expanding first cloth guiding roller 4, an expanding second cloth guiding roller 5, an expanding first wire dividing roller 6, an expanding second wire dividing roller 7, an expanding first deviation correcting roller 8, an expanding second deviation correcting roller 9, an expanding infrared photoelectric tube 10, an expanding third wire dividing roller 11, an expanding fourth wire dividing roller 12, an expanding fifth wire dividing roller 13, an expanding sixth wire dividing roller 14, an expanding seventh wire dividing roller 15, an expanding eighth wire dividing roller 17 and an expanding third cloth guiding roller 18 are sequentially arranged on the left side of the expanding system main body 2 from bottom to top, a first electric screw rod 19 is fixedly connected with the first expanding roller 20 to form a first group of expanding mechanisms, similarly, a second electric screw rod 21 and a second expanding roller 22, a third electric screw rod 23 and a third group of expanding rollers 24 respectively form a second group and a third group of expanding mechanisms, and the third group of expanding mechanisms are sequentially arranged on the right lower side of the expanding system main body 2, the expanding fourth cloth guide roller 25 is positioned on the third expanding roller 24, the expanding first reinforcing rod 26, the expanding second reinforcing rod 27 and the expanding third reinforcing rod 30 are sequentially arranged at the middle upper part of the expanding system main body 2 from bottom to top, the expanding fifth cloth guide roller 28, the expanding sixth cloth guide roller 29 and the cloth discharging driving roller 3 are sequentially arranged at the right upper part of the expanding system main body 2 from bottom to top, and the grey cloth sequentially passes through the expanding fourth cloth guide roller 25, the expanding fifth cloth guide roller 28, the expanding sixth cloth guide roller 29 and the cloth discharging driving roller 3 to enter the next step;

the operation flow of the intelligent cloth stentering system in the textile printing and dyeing industry is as follows: when an expanding gray fabric 31 enters an expanding system through a fabric feeding driving roller 1, an expanding first cloth guide roller 4 and an expanding second cloth guide roller 5, the expanding first yarn dividing roller 6 and an expanding second yarn dividing roller 7 expand the edge and expand the width of the gray fabric, the expanding first deviation correction roller 8 and the expanding second deviation correction roller 9 correct the deviation, an expanding infrared photoelectric tube 10 detects the position of the edge of the fabric, the expanding infrared photoelectric tube enters a first expanding roller through an expanding third yarn dividing roller 11, an expanding fourth yarn dividing roller 12, an expanding fifth yarn dividing roller 13, an expanding sixth yarn dividing roller 14, an expanding seventh yarn dividing roller 15 and an expanding eighth yarn dividing roller 17, a first electric screw rod 19, a second electric screw rod 21 and a third electric screw rod 23 respectively drive the first expanding roller 20, the second expanding roller 22 and a third expanding roller 24 to reach specified positions according to set width requirements, and the first expanding roller 20, the second expanding roller 22 and the third expanding roller 24 reach specified positions through the first expanding roller 20, the second expanding roller 22 and the third expanding roller 24, the grey cloth is widened according to the set width, and after the widening, the grey cloth to be widened 31 sequentially passes through a fourth widening cloth guide roller 25, a fifth widening cloth guide roller 28, a sixth widening cloth guide roller 29 and a cloth discharging transmission roller 3 to enter the next process;

fig. 2 is a schematic structural diagram of a first spreading roll in an intelligent stentering system for fabrics in textile printing and dyeing industry in embodiment 1 of the invention (the structures of a second spreading roll 22 and a third spreading roll 24 are completely the same as those of the first spreading roll); wherein, 20-1 is an expanding mechanism body, 20-2 is an expanding mechanism driving roll mounting rack, 20-3 is an expanding mechanism driving roll, 20-4 is an expanding mechanism driven roll, 20-5 is an expanding mechanism driven roll mounting rack, 20-6 is a swinging cylinder, 20-7 is an expanding mechanism fixing plate, 20-8 is a cylinder connecting swinging arm, and 20-9 is an infrared sensor; the first spreading roller in the intelligent cloth stentering system in the textile printing and dyeing industry in the embodiment 1 of the invention comprises a spreading mechanism body 20-1, a spreading mechanism driving roller mounting frame 20-2, a spreading mechanism driving roller 20-3, a spreading mechanism driven roller 20-4, a spreading mechanism driven roller mounting frame 20-5, a swing air cylinder 20-6, a spreading mechanism fixing plate 20-7, an air cylinder connecting swing arm 20-8 and an infrared sensor 20-9; the fixed plate 20-7 of the spreading mechanism is fixed on a first electric screw rod 19 (a second electric screw rod 21 or a third electric screw rod 23) through screws, the body 20-1 of the spreading mechanism is in threaded connection with the fixed plate 20-7 of the spreading mechanism, the mounting frame 20-2 of the driving roll of the spreading mechanism is in threaded connection with the body 20-1 of the spreading mechanism, the driving roll 20-3 of the spreading mechanism is in threaded connection with the mounting frame 20-2 of the driving roll of the spreading mechanism, the mounting frame 20-5 of the driven roll of the spreading mechanism is in threaded connection with the body 20-1 of the spreading mechanism, the mounting frame 20-5 of the driven roll of the spreading mechanism is in threaded connection with the mounting frame 20-5 of the driven roll of the spreading mechanism, the oscillating cylinder 20-6 is in threaded connection with the body 20-1 of the spreading mechanism, the oscillating cylinder 20-6 is in shaft connection with the oscillating arm 20-8 of the cylinder, the oscillating arm, the infrared sensor 20-9 is in threaded connection with the spreading mechanism body 20-1;

the operation flow of the first spreader bar is as follows: when the position of the selvedge is not detected by the infrared sensor 20-9, the driving roll 20-3 of the spreading mechanism and the driven roll 20-4 of the spreading mechanism are in an open state, the first spreading roll 20 is driven to move through the regulation of a motor on the first electric screw rod 19 until the infrared sensor 20-9 detects the selvedge, the swing cylinder 20-6 works, and the swing arm 20-8 is connected through the cylinder, so that the mounting frame 20-5 of the driven roll of the spreading mechanism drives the driven roll 20-4 of the spreading mechanism to press the driving roll 20-3 of the spreading mechanism, the passing fabric is firmly pressed, and then the passing fabric sequentially passes through the second spreading roll 22 and the third spreading roll 24;

the required width is set through a PLC controller, the positions of the first spreading roller 20, the second spreading roller 22 and the third spreading roller 24 are automatically adjusted, the first spreading roller 20, the second spreading roller 22 and the third spreading roller 24 are arranged in an inverted splayed shape, and the set width is reached after the fabric comes out through the third spreading roller 24 and enters lower process equipment.

The intelligent cloth stentering system in the textile printing and dyeing industry in the embodiment 1 of the invention also comprises a PLC controller which is respectively and electrically connected with the following components: the device comprises a cloth feeding driving roller 1, a cloth discharging driving roller 3, an expanding first dividing roller 6, an expanding second dividing roller 7, an expanding first correcting roller 8, an expanding second correcting roller 9, an expanding infrared photoelectric tube 10, an expanding third dividing roller 11, an expanding fourth dividing roller 12, an expanding fifth dividing roller 13, an expanding sixth dividing roller 14, an expanding seventh dividing roller 15, an expanding eighth dividing roller 17, a first electric screw rod 19, a first expanding roller 20, a second electric screw rod 21, a second expanding roller 22, a third electric screw rod 23 and a third expanding roller 24.

The PLC controller is electrically connected with the following components:

is electrically connected with servo motors (not marked in the figure) on the cloth feeding driving roller 1 and the cloth discharging driving roller 3 to control the linear speed;

the device is electrically connected with driving motors (not marked in the figure) in a first expanding wire dividing roller 6, a second expanding wire dividing roller 7, a third expanding wire dividing roller 11, a fourth expanding wire dividing roller 12, a fifth expanding wire dividing roller 13, a sixth expanding wire dividing roller 14, a seventh expanding wire dividing roller 15, an eighth expanding wire dividing roller 17, a first expanding deviation correcting roller 8 and a second expanding deviation correcting roller 9 for on-off control;

is electrically connected with the extended infrared phototube 10;

is electrically connected with the stepping motors (not marked in the figure) on the first electric screw rod 19, the second electric screw rod 21 and the third electric screw rod 23;

electrically connected with a servo motor (not shown in the figure) on a driving roll of a spreading mechanism in the spreading rolls of the first spreading roll 20, the second spreading roll 22 and the third spreading roll 24 for linear speed control;

electrically connected to the oscillating cylinders 20-6 and the infrared sensors 20-9 in the first expander roll 20, the second expander roll 22, and the third expander roll 24.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides a textile printing and dyeing trade cloth intelligence tentering system which characterized in that: the device comprises a cloth feeding driving roller, an expanding system main body, a cloth discharging driving roller, an expanding first cloth guide roller, an expanding second cloth guide roller, an expanding first dividing roller, an expanding second dividing roller, an expanding first deviation correction roller, an expanding second deviation correction roller, an expanding infrared photoelectric tube, an expanding third dividing roller, an expanding fourth dividing roller, an expanding fifth dividing roller, an expanding sixth dividing roller, an expanding seventh dividing roller, an expanding chassis, an expanding eighth dividing roller, an expanding third cloth guide roller, a first electric screw rod, a first expanding roller, a second electric screw rod, a second expanding roller, a third electric screw rod, a third expanding roller, an expanding fourth cloth guide roller, an expanding first reinforcing rod, an expanding second reinforcing rod, an expanding fifth cloth guide roller, an expanding sixth cloth guide roller and an expanding third reinforcing rod; the bracket of the first expanding system comprises an expanding system main body and an expanding chassis, a cloth feeding driving roller, an expanding first cloth guiding roller, an expanding second cloth guiding roller, an expanding first yarn dividing roller, an expanding second yarn dividing roller, an expanding first deviation correcting roller, an expanding second deviation correcting roller, an expanding infrared photoelectric tube, an expanding third yarn dividing roller, an expanding fourth yarn dividing roller, an expanding fifth yarn dividing roller, an expanding sixth yarn dividing roller, an expanding seventh yarn dividing roller, an expanding eighth yarn dividing roller and an expanding third cloth guiding roller are sequentially arranged on the left side of the expanding system main body from bottom to top, and a first electric screw rod is fixedly connected with the first expanding roller to form a first group of expanding mechanism; the second electric screw rod and the second spreading roller respectively form a second group and a third group of spreading mechanisms, the second group and the third group of spreading mechanisms are sequentially arranged on the right lower side of the spreading system main body from bottom to top, the fourth spreading roller is positioned on the third spreading roller, the first spreading reinforcing rod, the second spreading reinforcing rod and the third spreading reinforcing rod are sequentially arranged on the middle upper part of the spreading system main body from bottom to top, and the fifth spreading roller, the sixth spreading roller and the cloth discharging driving roller are sequentially arranged on the right upper part of the spreading system main body from bottom to top;

2. The intelligent cloth tentering system in textile printing and dyeing industry according to claim 1, characterized in that: the intelligent cloth stentering system in the textile printing and dyeing industry further comprises a PLC controller which is respectively electrically connected with the following components: the device comprises a cloth feeding driving roller, a cloth discharging driving roller, an expanding first yarn dividing roller, an expanding second yarn dividing roller, an expanding first deviation correcting roller, an expanding second deviation correcting roller, an expanding infrared photoelectric tube, an expanding third yarn dividing roller, an expanding fourth yarn dividing roller, an expanding fifth yarn dividing roller, an expanding sixth yarn dividing roller, an expanding seventh yarn dividing roller, an expanding eighth yarn dividing roller, a first electric screw rod, a first expanding roller, a second electric screw rod, a second expanding roller, a third electric screw rod and a third expanding roller.

3. The intelligent cloth tentering system in textile printing and dyeing industry according to claim 2, characterized in that: and the PLC is respectively and electrically connected with the servo motors on the cloth feeding driving roller and the cloth discharging driving roller.

4. The intelligent cloth tentering system in textile printing and dyeing industry according to claim 3, characterized in that: the PLC is respectively and electrically connected with driving motors in a first expanding dividing roller, a second expanding dividing roller, a third expanding dividing roller, a fourth expanding dividing roller, a fifth expanding dividing roller, a sixth expanding dividing roller, a seventh expanding dividing roller, an eighth expanding dividing roller, a first expanding correcting roller and a second expanding correcting roller.

5. The intelligent cloth tentering system in textile printing and dyeing industry according to claim 4, characterized in that: the PLC is respectively and electrically connected with the stepping motors on the first electric screw rod, the second electric screw rod and the third electric screw rod.

6. The intelligent cloth tentering system in textile printing and dyeing industry according to claim 5, characterized in that: and the PLC is respectively and electrically connected with a servo motor on a driving roll of a spreading mechanism in a spreading roll in the first spreading roll, the second spreading roll and the third spreading roll.

7. The intelligent cloth tentering system in textile printing and dyeing industry according to claim 6, characterized in that: and the PLC is respectively and electrically connected with the swing cylinders and the infrared sensors in the first spreading roller, the second spreading roller and the third spreading roller.

8. The intelligent cloth tentering system in textile printing and dyeing industry according to claim 7, characterized in that: the first spreading roller, the second spreading roller and the third spreading roller are arranged in an inverted splayed shape.