CN110528218B - Pre-shrinking machine, fabric edge finishing device thereof and fabric pre-shrinking treatment method - Google Patents

Abstract

The invention relates to a pre-shrinking machine, a fabric edge finishing device thereof and a fabric pre-shrinking treatment method. The fabric edge finishing device comprises a first fabric clamping mechanism, a second fabric clamping mechanism and a bracket. The first fabric clamping mechanism comprises a first mounting part arranged on the bracket and a plurality of first supporting bodies arranged on the first mounting part. The second fabric clamping mechanism comprises a second installation component arranged on the bracket and a plurality of second supporting bodies arranged on the second installation component. The relative positions of the first support bodies and the second support bodies are adjustable, so that certain pressure can be applied to the fabric to be processed, and the edges of the fabric to be processed are tidied in the transmission process of the fabric to be processed. The fabric pre-shrinking treatment method adopts the fabric edge finishing device, does not need a worker to pull the fabric, is simple to operate, and can improve the production efficiency.

Description

Pre-shrinking machine, fabric edge finishing device thereof and fabric pre-shrinking treatment method

Technical Field

The invention relates to the technical field of textile, in particular to a pre-shrinking machine, a fabric edge finishing device thereof and a fabric pre-shrinking treatment method.

Background

During the weaving process, problems of tilting of the weft yarns at the fabric edges may occur, which may adversely affect the quality and appearance of the fabric. The oblique weft yarn fabric is processed into products such as clothing and the like, and the quality of the products is also affected. During the process, it is therefore necessary to finish the fabric edges so that the weft yarns at the fabric edges become straight. At present, a manual operation method is usually adopted, namely, a worker pulls the selvedge according to the inclination direction (front inclination or rear inclination) of the weft yarn, so that the weft yarn at the edge of the fabric is straightened. Such a method relying on manual finishing is complex to operate and the pulling force is difficult to control, resulting in a very inefficient production process.

Disclosure of Invention

Accordingly, there is a need for a simple and efficient precondenser, a fabric edge finishing apparatus and a fabric precondensation treatment method.

A fabric edge finishing device comprises a first fabric clamping mechanism, a second fabric clamping mechanism and a bracket;

the first fabric clamping mechanism comprises a first mounting part arranged on the bracket and a plurality of first supporting bodies arranged on the first mounting part; the position of the first mounting part on the bracket is adjustable; the relative positions of the first supports are adjustable, and the first supports can be matched to form a first fabric transmission channel;

the second fabric clamping mechanism comprises a second installation component arranged on the bracket and a plurality of second supporting bodies arranged on the second installation component; the position of the second mounting part on the bracket is adjustable; the relative positions of the plurality of second supports are adjustable, and the plurality of second supports can be matched to form a second fabric transmission channel;

the first fabric conveying channel and the second fabric conveying channel are corresponding to each other so as to respectively pass through two sides of the fabric to be processed.

In one embodiment, the first support body comprises a first rotating shaft arranged on the first installation component and a first buffer body sleeved on the outer side of the first rotating shaft; the position of the first rotating shaft on the first mounting part is adjustable, and the first rotating shaft can rotate relative to the first mounting part; the first cushion bodies cooperate to form the first fabric transfer passage.

In one embodiment, the first rotating shafts are cylindrical, and central axes of the plurality of first rotating shafts are parallel.

In one embodiment, the number of the first rotating shafts is two; the two first rotating shafts are arranged at different heights on the first mounting part, and a gap between the two first rotating shafts forms the first fabric transmission channel.

In one embodiment, the second support body comprises a second rotating shaft arranged on the second installation component and a second buffer body sleeved on the outer side of the second rotating shaft, and the position of the second rotating shaft on the second installation component is adjustable; the second rotating shaft is rotatable relative to the second mounting component; the plurality of second cushion bodies cooperate to form the second fabric transfer channel.

In one embodiment, the second rotating shafts are cylindrical, and central axes of the second rotating shafts are parallel.

In one embodiment, the number of the second rotating shafts is two; the two second rotating shafts are arranged at different heights on the second installation part, and a gap between the two second rotating shafts forms the second fabric transmission channel.

In one embodiment, the fabric edge finishing device further comprises a first driving mechanism and/or a second driving mechanism; the first driving mechanism is connected with the first mounting component, and the second driving mechanism is connected with the second mounting component; the first and/or second drive mechanism acts to adjust the distance between the first and second mounting members.

In one embodiment, the fabric edge finishing device further comprises a third driving mechanism and a fourth driving mechanism; the third driving mechanism is respectively connected with the plurality of first supporting bodies so as to adjust the heights of the plurality of first supporting bodies relative to the upper surface of the bracket; the fourth driving mechanism is respectively connected with a plurality of second supporting bodies so as to adjust the heights of the second supporting bodies relative to the upper surface of the bracket.

A pre-shrinking machine comprising a pre-shrinking device and a fabric edge finishing device as described in any of the embodiments above; the fabric edge finishing device is arranged at the feeding end and/or the discharging end of the preshrinking device.

The fabric preshrinking treatment method adopts the preshrinking machine, and comprises the following steps:

adjusting the relative positions of the first mounting part and the second mounting part on the bracket to enable the fabric to be processed to be positioned between the first fabric clamping mechanism and the second fabric clamping mechanism; the first supporting bodies are matched to form a first fabric transmission channel, and the second supporting bodies are matched to form a second fabric transmission channel; and enabling two sides of the fabric to be processed to pass through the first fabric conveying channel and the second fabric conveying channel respectively.

In one embodiment, the fabric pre-shrinking method further comprises the step of adjusting the rotation direction and/or the rotation speed and/or the pressure of a plurality of the first supporting bodies.

In one embodiment, the fabric pre-shrinking method further comprises the step of adjusting the rotation direction and/or the rotation speed and/or the pressure of the plurality of second supporting bodies.

The fabric edge finishing device comprises a first fabric clamping mechanism, a second fabric clamping mechanism and a bracket. The first fabric clamping mechanism comprises a first installation component arranged on the bracket and a plurality of first supporting bodies arranged on the first installation component, and the position of the first installation component on the bracket is adjustable. The relative positions of the first supports are adjustable, and the first supports can be matched to form a first fabric transmission channel. The second fabric clamping mechanism comprises a second installation part arranged on the bracket and a plurality of second supporting bodies arranged on the second installation part; the second mounting member is adjustable in position on the bracket. The relative positions of the plurality of second supporting bodies are adjustable, and the plurality of second supporting bodies can be matched to form a second fabric transmission channel. The first fabric conveying channel and the second fabric conveying channel are corresponding to each other so as to respectively pass through two sides of the fabric to be processed. According to the fabric edge finishing device, the positions of the first fabric clamping mechanism and the second fabric clamping mechanism on the support can be adjusted according to the size of the fabric to be processed, so that the fabric to be processed is located between the first fabric clamping mechanism and the second fabric clamping mechanism. And then adjusting the relative positions of the first supporting bodies and the second supporting bodies to form a first fabric conveying channel and a second fabric conveying channel respectively, so that two sides of the fabric to be processed can pass through the first fabric conveying channel and the second fabric conveying channel respectively. The relative positions of the first support bodies and the second support bodies are adjustable, so that certain pressure can be applied to the fabric to be processed, and the edges of the fabric to be processed are tidied in the process of conveying the fabric to be processed. In the process of finishing the fabric to be processed, the fabric is not required to be pulled by a worker, the operation method is simple, and the production efficiency can be improved.

The pre-shrinking machine comprises a pre-shrinking device and the fabric edge finishing device; the fabric edge finishing device is arranged at the feeding end or the discharging end of the preshrinking device. The fabric edge finishing device is arranged at the discharge end and/or the feed end of a pre-shrinking device (such as a rubber blanket pre-shrinking device) commonly used in production of the pre-shrinking machine, and can finish the edges of the fabric before and after pre-shrinking according to production requirements, so that the quality of the fabric is improved.

The fabric pre-shrinking treatment method is simple to operate, the positions of the first fabric clamping mechanism, the second fabric clamping mechanism, the first supporting body and the second supporting body are conveniently adjusted according to the size of the fabric to be processed, and the fabric pre-shrinking treatment method is convenient to manage; the fabric edges to be processed do not need to be finished by workers, and the production efficiency can be improved.

Drawings

Fig. 1 is a schematic structural view of a fabric edge finishing apparatus according to an embodiment of the present invention.

The figure indicates:

10. a fabric edge finishing device; 11. a first fabric clamping mechanism; 111. a first mounting member; 112. a first support body; 1121. a first rotating shaft; 1122. a first buffer body; 12. a second fabric clamping mechanism; 121. a second mounting member; 122. a second support body; 1221. a second rotating shaft; 1222. a second buffer body; 13. a bracket; 14. a control device; 141. a touch screen; 142. a pressure regulating valve controller; 143. a servo motor controller; 144. a knob switch; 145. a cylinder controller; 15. a third driving mechanism; 16. and a fourth driving mechanism.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1, an embodiment of the present invention provides a fabric edge finishing apparatus 10, which includes a first fabric clamping mechanism 11, a second fabric clamping mechanism 12, and a bracket 13.

The first fabric clamping mechanism 11 includes a first mounting part 111 provided on the bracket 13, and a plurality of first supporting bodies 112 provided on the first mounting part 111. The position of the first mounting part 111 on the bracket 13 is adjustable. The relative positions of the plurality of first supporting bodies 112 are adjustable, and the plurality of first supporting bodies 112 can cooperate to form a first fabric transfer passage (not shown).

The second fabric clamping mechanism 12 includes a second mounting member 121 provided on the bracket 13, and a plurality of second support bodies 122 provided on the second mounting member 121. The position of the second mounting part 121 on the bracket 13 is adjustable. The relative positions of the plurality of second support bodies 122 are adjustable, and the plurality of second support bodies 122 can cooperate to form a second fabric transfer channel (not shown).

The first fabric conveying channel and the second fabric conveying channel are corresponding to respectively pass through two sides of the fabric to be processed.

The fabric edge finishing device 10 in this embodiment can adjust the positions of the first fabric holding mechanism 11 and the second fabric holding mechanism 12 on the support 13 according to the size of the fabric to be processed, so that the fabric to be processed is located between the first fabric holding mechanism 11 and the second fabric holding mechanism 12. Then, the relative positions of the plurality of first supporting bodies 112 and the plurality of second supporting bodies 122 are adjusted to form a first fabric transfer passage and a second fabric transfer passage, respectively, so that both sides of the fabric to be processed can pass through the first fabric transfer passage and the second fabric transfer passage, respectively. The relative positions of the first support bodies 112 and the second support bodies 122 are adjustable, so that a certain pressure can be applied to the fabric to be processed, and the edges of the fabric to be processed are tidied in the process of conveying the fabric to be processed. In the process of finishing the fabric to be processed, the fabric is not required to be pulled by a worker, the operation is simple, and the production efficiency can be improved.

In a specific example, the first support 112 includes a first shaft 1121 provided on the first mounting member 111, and a first buffer 1122 sleeved outside the first shaft 1121; the position of the first rotation shaft 1121 on the first mounting member 111 is adjustable, and the first rotation shaft 1121 is rotatable with respect to the first mounting member 111; the plurality of first buffer bodies 1122 cooperate to form a first fabric transfer channel.

In a specific example, the first shafts 1121 are cylindrical, and central axes of the plurality of first shafts 1121 are parallel.

In one specific example, the number of first rotation shafts 1121 is two; two first shafts 1121 are provided at different heights on the first mounting member 111, and a gap between the two first shafts 1121 constitutes a first fabric transfer passage.

In this embodiment, the first buffer 1122 is a rubber roller of 30 to 50HS (shore hardness), and the number of the first rotating shafts 1121 is two. In the transport direction of the fabric to be processed, two first spindles 1121 are arranged up and down. Preferably, in order to reduce the adjustment frequency of the first support 112 during the process, the lower first rotating shaft 1121 is fixed to the first mounting part 111, the first fabric transfer path is formed by adjusting the upper first rotating shaft 1121, and the press finishing of the fabric to be processed is completed.

It will be appreciated that during the processing, a plurality of first shafts 1121 may be provided, such as 2, 3, 4, 5, 6 first shafts 1121, depending on the size of the fabric to be processed or the production needs. Preferably, the number of first rotation shafts 1121 is an even number. For example, when the number of the first rotating shafts 1121 is 4, the first rotating shafts 1121 are arranged in a 2×2 manner, and the gaps between the two first rotating shafts 1121 in each row and the two upper and lower rows form the first fabric transfer passage. When the number of the first rotating shafts 1121 is 6, the first rotating shafts 1121 are arranged in a 3×2 manner, and the gaps between the upper and lower rows of the first rotating shafts 1121 form a first fabric transfer passage.

In a specific example, the second supporting body 122 includes a second rotating shaft 1221 provided on the second mounting part 121, and a second buffer body 1222 sleeved outside the second rotating shaft 1221; the position of the second rotary shaft 1221 on the second mounting member 121 is adjustable, the second rotary shaft 1221 being rotatable relative to the second mounting member 121; the plurality of second buffer bodies 1222 cooperate to form a second fabric transfer channel.

In a specific example, the second rotating shafts 1221 are cylindrical, and central axes of the plurality of second rotating shafts 1221 are parallel.

In a specific example, the number of second shafts 1221 is two; the two second rotating shafts 1221 are provided at different heights on the second mounting member 121, and a gap between the two second rotating shafts 1221 constitutes a second fabric transfer passage.

In this embodiment, the second buffer 1222 is a rubber roller of 30 to 50HS (shore hardness), and the number of the second rotating shafts 1221 is two. In the transport direction of the fabric to be processed, two second spindles 1221 are arranged up and down. Preferably, in order to reduce the adjusting frequency of the second support 122 during the process, the lower second rotary shaft 1221 is fixed to the second mounting part 121, the second fabric transfer path is formed by adjusting the upper second rotary shaft 1221, and the press finishing of the fabric to be processed is completed.

It will be appreciated that during the processing, a plurality of second shafts 1221 may be provided according to the size of the fabric to be processed or the production requirement, for example, the number of the second shafts 1221 is 2, 3, 4, 5, 6. Preferably, the number of the second rotary shafts 1221 is an even number. For example, when the number of the second rotating shafts 1221 is 4, the second rotating shafts 1221 are arranged in a 2×2 manner, and the gaps between the two second rotating shafts 1221 in each row and the two upper and lower rows form the second fabric conveying passage. When the number of the second rotating shafts 1221 is 6, the second rotating shafts 1221 are arranged in a 3×2 manner, and the gaps between the upper and lower rows of the second rotating shafts 1221 form a second fabric conveying channel.

Preferably, the first mounting member 111 is slidably coupled to the bracket 13. The first mounting part 111 is slidably connected to the bracket 13 to facilitate adjustment of the position of the first mounting part 111 on the bracket 13.

Preferably, the second mounting part 121 is slidingly connected with the bracket 13. The second mounting part 121 is slidably connected to the bracket 13, facilitating adjustment of the position of the second mounting part 121 on the bracket 13.

In a specific example, the fabric edge finishing device 10 further includes a first drive mechanism (not shown) and/or a second drive mechanism (not shown). The first driving mechanism is connected to the first mounting member 111, and the second driving mechanism is connected to the second mounting member 121; the first drive mechanism and/or the second drive mechanism act to adjust the distance between the first mounting part 111 and the second mounting part 121. .

In this embodiment, the fabric edge finishing apparatus 10 includes a first driving mechanism and a second driving mechanism, the first driving mechanism being connected to the first mounting part 111 to control the first mounting part 111 to move on the bracket 13; the second driving mechanism is connected to the second mounting part 121 to control the movement of the second mounting part 121 on the bracket 13. The first driving mechanism and the second driving mechanism are both cylinder driving mechanisms, and the cylinder driving mechanisms are simple and easy to obtain and convenient to operate, so that the production efficiency can be further improved. It will be appreciated that the first and second drive mechanisms may also be other forms of drive mechanisms, as well as enabling control of the movement of the first and second mounting members 111, 121 on the carriage 13, respectively.

In one specific example, the fabric edge finishing device 10 further includes a third drive mechanism 15 and a fourth drive mechanism 16. The third driving mechanism 15 is connected to the plurality of first supporting bodies 112 to adjust the heights of the plurality of first supporting bodies 112 with respect to the upper surface of the bracket 13. The fourth driving mechanism 16 is connected to the plurality of second supporting bodies 122 to adjust the heights of the plurality of second supporting bodies 122 with respect to the upper surface of the bracket 13.

In this embodiment, the third driving mechanism 15 and the fourth driving mechanism 16 are all cylinder driving mechanisms, and the cylinder driving mechanisms are simple and easy to obtain, are convenient to operate, and can further improve production efficiency. It will be appreciated that the third and fourth drive mechanisms 15, 16 may also be other forms of drive mechanisms, as well as enabling adjustment of the height of the plurality of first support bodies 112 relative to the upper surface of the bracket 13 and the height of the plurality of second support bodies 122 relative to the upper surface of the bracket 13.

Preferably, the fabric edge finishing device 10 further comprises a control device 14. The control device 14 is connected to the first drive mechanism, the second drive mechanism, the third drive mechanism 15, and the fourth drive mechanism 16, respectively, and controls the first drive mechanism, the second drive mechanism, the third drive mechanism 15, and the fourth drive mechanism 16.

Preferably, the rotation speed and rotation direction of the first and second rotation shafts 1121 and 1221 are adjustable. While the pressure of the first and second rotary shafts 1121, 1221 to the fabric to be processed can be adjusted.

In the production process, the rotation directions of the first rotation shaft 1121 and the second rotation shaft 1221 are set according to the inclination direction of the weft yarn of the edge of the fabric to be processed; setting the rotation speeds of the first and second rotary shafts 1121, 1221 according to the transport speed of the fabric to be processed; the pressures of the first and second rotary shafts 1121, 1221 to be processed are set according to the inclination degree of the weft yarns of the edge of the fabric to be processed and the processing requirements.

The present embodiment controls the rotational direction and rotational speed of the first and second rotary shafts 1121, 1221 by a servo motor. The pressure of the fabric to be processed is adjusted by the first and second rotary shafts 1121, 1221 through the pressure regulating valve. Control of the movement states of the first and second rotary shafts 1121, 1221 is facilitated.

In this embodiment, the control device 14 includes a touch screen 141, a pressure regulating valve controller 142, a servo motor controller 143, a knob switch 144, and a cylinder controller 145. The operator can set corresponding parameters through the touch screen 141, and the operation is convenient. The pressure of the fabric to be processed is adjusted by the first and second rotary shafts 1121, 1221 through the pressure adjusting valve controller 142. The rotation direction of the servo motor is controlled by the servo controller 143, thereby adjusting the rotation directions of the first and second rotation shafts 1121, 1221. The rotation speed of the servo motor, and thus the rotation speeds of the first and second rotation shafts 1121, 1221, is adjusted by the knob switch 144. The cylinder controller 145 controls the cylinder driving mechanism, and thereby adjusts the positions of the first and second mounting members 111 and 121 on the bracket 13, and adjusts the relative positions of the plurality of first supports 112 and the plurality of second supports 122.

An embodiment of the present invention provides a pre-shrinking machine, comprising a pre-shrinking device and a fabric edge finishing device 10; the fabric edge finishing device 10 is provided at the feed end and/or the discharge end of the preshrinking device.

In this embodiment, the fabric edge finishing device 10 is installed at the discharge end and/or the feed end of the rubber blanket pre-shrinking device, so that the edges of the fabric before and after pre-shrinking can be finished according to production requirements, and the quality of the fabric is improved.

An embodiment of the present invention provides a pre-shrinking method, which adopts the pre-shrinking machine, and the pre-shrinking method includes the following steps:

the relative positions of the first mounting part 111 and the second mounting part 121 on the bracket 13 are adjusted so that the fabric to be processed is positioned between the first fabric clamping mechanism 11 and the second fabric clamping mechanism 12. The first supporting bodies 112 cooperate to form a first fabric transmission channel, and the second supporting bodies 122 cooperate to form a second fabric transmission channel; the two sides of the fabric to be processed are respectively passed through the first fabric conveying channel and the second fabric conveying channel.

In a specific example, the pre-shrinking method further includes a step of adjusting the rotational direction and/or rotational speed and/or pressure of the plurality of first supporting bodies 112.

In a specific example, the pre-shrinking method further includes a step of adjusting the rotation direction and/or the rotation speed and/or the pressure of the plurality of second supporting bodies 122.

The pre-shrinking method in the embodiment is simple to operate, and is convenient for adjusting the positions of the first fabric clamping mechanism 11, the second fabric clamping mechanism 12, the first supporting body 112 and the second supporting body 122 according to the size of the fabric to be processed, and is convenient for management; the fabric edges do not need to be finished by workers, and the production efficiency can be improved. The rotation direction, rotation speed and pressure of the fabric to be processed of the first rotation shaft 1121 and the second rotation shaft 1221 are all adjustable, and the finishing effect of the fabric to be processed can be further improved.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (11)

1. A fabric edge finishing device, characterized in that: comprises a first fabric clamping mechanism, a second fabric clamping mechanism and a bracket;

the first fabric clamping mechanism comprises a first mounting part arranged on the bracket and a plurality of first supporting bodies arranged on the first mounting part; the position of the first mounting part on the bracket is adjustable; the relative positions of the first supports are adjustable, and the first supports can be matched to form a first fabric transmission channel; the first support body comprises a first rotating shaft arranged on the first installation part and a first buffer body sleeved on the outer side of the first rotating shaft; the position of the first rotating shaft on the first mounting part is adjustable, and the first rotating shaft can rotate relative to the first mounting part; a plurality of first buffer bodies are matched to form the first fabric transmission channel;

the second fabric clamping mechanism comprises a second installation component arranged on the bracket and a plurality of second supporting bodies arranged on the second installation component; the position of the second mounting part on the bracket is adjustable; the relative positions of the plurality of second supports are adjustable, and the plurality of second supports can be matched to form a second fabric transmission channel; the second support body comprises a second rotating shaft arranged on the second installation component and a second buffer body sleeved on the outer side of the second rotating shaft, and the position of the second rotating shaft on the second installation component is adjustable; the second rotating shaft is rotatable relative to the second mounting component; a plurality of second buffer bodies are matched to form a second fabric transmission channel;

the first fabric conveying channel and the second fabric conveying channel are corresponding to each other so as to respectively pass through two sides of the fabric to be processed.

2. The fabric edge finishing apparatus of claim 1, wherein: the first rotating shafts are cylindrical, and the central axes of the first rotating shafts are parallel.

3. The fabric edge finishing apparatus of claim 2, wherein: the number of the first rotating shafts is two; the two first rotating shafts are arranged at different heights on the first mounting part, and a gap between the two first rotating shafts forms the first fabric transmission channel.

4. The fabric edge finishing apparatus of claim 1, wherein: the second rotating shafts are cylindrical, and the central axes of the second rotating shafts are parallel.

5. The fabric edge finishing apparatus of claim 4, wherein: the number of the second rotating shafts is two; the two second rotating shafts are arranged at different heights on the second installation part, and a gap between the two second rotating shafts forms the second fabric transmission channel.

6. The fabric edge finishing apparatus of any one of claims 1-5, wherein: the device also comprises a first driving mechanism and/or a second driving mechanism; the first driving mechanism is connected with the first mounting component, and the second driving mechanism is connected with the second mounting component; the first and/or second drive mechanism acts to adjust the distance between the first and second mounting members.

7. The fabric edge finishing apparatus of any one of claims 1-5, wherein: the device also comprises a third driving mechanism and a fourth driving mechanism; the third driving mechanism is respectively connected with the plurality of first supporting bodies so as to adjust the heights of the plurality of first supporting bodies relative to the upper surface of the bracket; the fourth driving mechanism is respectively connected with a plurality of second supporting bodies so as to adjust the heights of the second supporting bodies relative to the upper surface of the bracket.

8. A precondenser, characterized in that: comprising a pre-shrinking device and a fabric edge finishing device according to any one of claims 1 to 7; the fabric edge finishing device is arranged at the feeding end and/or the discharging end of the preshrinking device.

9. A fabric preshrinking treatment method is characterized in that: the method for pre-shrinking fabric using the pre-shrinking machine according to claim 8, comprising the steps of:

adjusting the relative positions of the first mounting part and the second mounting part on the bracket to enable the fabric to be processed to be positioned between the first fabric clamping mechanism and the second fabric clamping mechanism; the first supporting bodies are matched to form a first fabric transmission channel, and the second supporting bodies are matched to form a second fabric transmission channel; and enabling two sides of the fabric to be processed to pass through the first fabric conveying channel and the second fabric conveying channel respectively.

10. A fabric pre-shrinking treatment as claimed in claim 9, wherein: the method further comprises the step of adjusting the rotation direction and/or the rotation speed and/or the pressure of a plurality of the first supporting bodies.

11. A fabric pre-shrinking treatment process according to any one of claims 9 to 10, characterized in that: the method further comprises the step of adjusting the rotation direction and/or the rotation speed and/or the pressure of a plurality of the second supporting bodies.