CN115196398A

CN115196398A - Weaving cloth rolling equipment

Info

Publication number: CN115196398A
Application number: CN202211125389.3A
Authority: CN
Inventors: 朱小亮; 漆庆华
Original assignee: Suqian Shixiang Textile Co ltd
Current assignee: Suqian Shixiang Textile Co ltd
Priority date: 2022-09-16
Filing date: 2022-09-16
Publication date: 2022-10-18
Anticipated expiration: 2042-09-16
Also published as: CN115196398B

Abstract

The invention relates to the technical field of spinning, in particular to a textile cloth rolling device. The utility model provides a weaving cloth rolling equipment includes transmission platform, rolling base, cloth roller, take-up pulley, adjustment mechanism and actuating mechanism, and adjustment mechanism's quantity is two. Two adjustment mechanism install in the both sides of transmission platform, and every adjustment mechanism includes slip subassembly, apron, flat subassembly of exhibition and drive assembly, and it is a plurality of to put down the flat subassembly. The sliding assembly comprises a sliding plate, a hinge rod and a long rod. Each flattening assembly comprises a pressure roller and two connecting units. The transmission assembly is used for pressing the telescopic rods to move downwards when the tensioning wheel moves downwards. The driving mechanism is used for rotating the cloth roller. The invention provides a textile cloth winding device, which aims to solve the problem that a cloth flattening mechanism can be separated from cloth when the tension force applied to the cloth is changed in the conventional winding device.

Description

Weaving cloth rolling equipment

Technical Field

The invention relates to the technical field of spinning, in particular to a textile cloth rolling device.

Background

In order to ensure that the cloth rolled on the cloth roller can be kept close to each other in the cloth rolling process, the cloth rolling device is often required to be provided with a tensioning device at the front end of the cloth rolling device, and then certain tensioning force is given to the cloth. However, when some elastic cloth is pulled by the cloth roller, the two sides of the cloth can be curled upwards, so that the cloth roller rolls the cloth, the thickness of the two side edges of the rolled cloth on the cloth roller is larger than that of the center of the rolled cloth on the cloth roller, and the flatness of the cloth during rolling is affected.

Chinese patent CN111874686B discloses a cloth winding device and a winding method, the winding device includes a cloth roller for winding the cloth in the weaving area, a cloth edge unfolding mechanism is disposed between the cloth roller and the weaving area, the cloth edge unfolding mechanism includes two eccentric rollers for driving two sides of the cloth away from the center of the cloth, and the length direction of the eccentric rollers is the same as the conveying direction of the cloth. This coiling mechanism adopts two flattening rollers to realize flattening after the cloth deformation, however along with the gradual rolling of cloth, the speed that cloth was convoluteed on the cloth roller increases gradually.

What adopt among the prior art is that the feed rate that changes the cloth or slow down the rotational speed of cloth roller gradually controls the even coiling of cloth to maintain the tensile force that the cloth receives with this and keep unchangeable, however in design work, the motor is at the continuous variable speed in-process, hardly guarantees to unreel and the speed of rolling remains invariable all the time, makes the tensile force that the cloth receives constantly change in certain extent, in case the tensile force that the cloth receives increases gradually, the mechanism for flat-out cloth can probably break away from with the cloth emergence.

Disclosure of Invention

The invention provides a textile cloth rolling device, which aims to solve the problem that a mechanism for flattening cloth can be separated from the cloth when the tension force applied to the cloth by the existing rolling device is changed.

The invention relates to a textile cloth rolling device, which adopts the following technical scheme: a textile cloth winding device comprises a winding base, cloth rollers, a transmission platform, tension wheels, two adjusting mechanisms and two driving mechanisms; the cloth roller can be arranged on the winding base in a way of rotating around the axis of the cloth roller; two first vertical plates are arranged at one end, far away from the cloth roller, of the transmission platform, a first sliding groove is formed in each first vertical plate along the vertical direction, two vertical plate groups are arranged at one end, close to the cloth roller, of the transmission platform, the two vertical plate groups are respectively arranged on two sides of the transmission platform, each vertical plate group comprises two second vertical plates, and a second sliding groove is formed in each second vertical plate along the vertical direction; the tensioning wheel is horizontally arranged and can be installed in the first sliding groove in a vertically sliding manner;

the two adjusting mechanisms are arranged on two sides of the transmission platform, each adjusting mechanism comprises a sliding assembly, a cover plate, a plurality of flattening assemblies and a transmission assembly, and the number of the flattening assemblies is multiple; the sliding component comprises a sliding plate, a synchronizing rod and a long rod; the sliding plate can be slidably arranged in the third sliding chute, and a hinge rod is fixedly arranged on the sliding plate; one end of the synchronizing rod is rotatably connected to the hinge rod, the other end of the synchronizing rod is rotatably connected to the long rod, the long rod can be arranged in the two second sliding grooves of each vertical plate group in a vertically sliding mode, and one end of the long rod is fixedly connected to the tensioning wheel; the cover plate is slidably arranged on the transmission platform, a first spring is fixedly arranged on one side of the cover plate, one end of the first spring is fixedly connected to the sliding plate, and a fourth sliding groove is formed in the cover plate along the axial direction of the cloth roller;

each flattening component comprises a pressing roller and two connecting units; the pressing roller can be rotationally arranged around the axis of the pressing roller, the length direction of the pressing roller is the same as the conveying direction of the cloth, and the two connecting units are arranged at the two ends of the pressing roller; each connecting unit comprises a sliding block, a second spring, a hollow block, a telescopic rod and a rotating shaft; the sliding blocks are arranged in the fourth sliding grooves through limiting blocks fixed on the sliding blocks, and two ends of the second spring are fixedly connected to two adjacent sliding blocks respectively; the hollow block can be arranged in the sliding block in a vertically sliding manner, a second sleeve is fixedly arranged on the hollow block and is vertically arranged, and a third spring is arranged in the second sleeve; the telescopic rod is arranged in the second sleeve in a vertically sliding manner, and the lower end of the telescopic rod is fixedly connected to the third spring; one end of the rotating shaft is rotatably arranged in the hollow block, and the other end of the rotating shaft is fixedly connected to the pressing roller;

the transmission assembly is used for pressing the telescopic rods to move downwards when the tensioning wheel moves downwards; the driving mechanism is used for rotating the cloth roller.

Further, the transmission assembly comprises fixing rods and connecting rods, and the number of the fixing rods is two. Two dead levers set up in the both ends of apron with sliding from top to bottom respectively, and the lower surface of dead lever offsets with the up end of a plurality of telescopic links. The one end of connecting rod is cup jointed in the stock, and the other end of connecting rod is fixed and is equipped with the second horizontal pole, and the connecting rod can stretch out and draw back, and two dead levers are fixed connection respectively in the both ends of second horizontal pole.

Further, the driving mechanism includes a first motor and a timing belt. First motor is fixed to be set up on the rolling base, and the one end of hold-in range is connected in the output shaft of first motor, and the other end of hold-in range is connected on the cloth roller.

Furthermore, the sliding block of the flattening component close to the center of the transmission platform is fixedly arranged on the cover plate, and other sliding blocks can be arranged on the cover plate in a sliding mode.

Further, the plurality of third springs may have an elastic coefficient gradually increasing in a direction from the center of the transferring platform to the edge of the transferring platform.

Furthermore, the connecting unit further comprises a second motor, the second motor is arranged in the hollow block, and an output shaft of the second motor is fixedly connected with the rotating shaft.

Further, a first sleeve is vertically arranged on the transmission platform. The take-up pulley includes the first horizontal pole and two montants that set up perpendicularly in first horizontal pole both ends that the level set up. First horizontal pole can set up in first spout with sliding from top to bottom, and the montant can set up in first sleeve with sliding.

Furthermore, a fifth spring is arranged in the first sleeve and is abutted against the lower end of the vertical rod.

Furthermore, a fourth spring is fixedly arranged in the sliding block, and the upper end of the fourth spring is fixedly connected to the hollow block.

Further, still the level is provided with fixed tensioning roller on the transmission platform, and the cloth passes between fixed tensioning roller and the transmission platform.

The beneficial effects of the invention are: according to the textile cloth rolling device, whether the tension applied to the cloth changes or not is sensed through the two symmetrical adjusting mechanisms, when the tension applied to the cloth changes, the cloth deforms, and the friction force balanced with the tension is adjusted through the change of the tension, so that the cloth is always in a flattened state, meanwhile, springs with different stiffness coefficients are arranged on the pressing rollers, when the tension applied to the cloth changes, the pressing rollers are adjusted to move towards the direction close to the center of the conveying platform or move towards the direction far away from the center of the conveying platform, so that the number of the pressing rollers in contact with the cloth is adjusted, the friction force between the cloth and the pressing rollers is changed, the cloth is prevented from being pulled too much by the pressing rollers, and the cloth cannot be separated from the pressing rollers.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and 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 these drawings without creative efforts.

Fig. 1 is a schematic structural view of an embodiment of a textile piece goods rolling device according to the invention;

fig. 2 is an exploded view of an embodiment of a textile piece goods rolling apparatus according to the present invention;

fig. 3 is an exploded view of an adjusting mechanism of an embodiment of a textile piece goods rolling apparatus according to the invention;

fig. 4 is an exploded view of a flattening assembly of an embodiment of a textile piece goods rolling apparatus according to the present invention;

fig. 5 is a schematic structural diagram of a cover plate of an embodiment of a textile cloth rolling device of the present invention;

fig. 6 is a front view of a cover plate of an embodiment of a textile piece goods rolling apparatus of the present invention;

fig. 7 isbase:Sub>A cross-sectional view taken atbase:Sub>A-base:Sub>A in fig. 6.

In the figure: 100. a winding base; 110. a connecting rod; 120. fixing the rod; 130. a pressure roller; 140. a slider; 141. a limiting block; 142. a second spring; 151. a hollow block; 152. a rotating shaft; 153. a second sleeve; 154. a fourth spring; 155. a third spring;

160. a telescopic rod; 200. a cloth roller; 300. a first motor; 400. a synchronous belt;

500. a transport platform; 501. a third chute; 502. a first sleeve; 503. a second chute; 504. a first chute; 505. fixing a tension roller;

600. distributing; 700. a tension pulley; 800. a slide plate; 801. a hinged lever; 802. a synchronization lever; 803. a long rod;

900. a cover plate; 901. a first spring; 902. and a fourth chute.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

The embodiment of the textile cloth rolling device of the present invention is shown in fig. 1 to 7, and the textile cloth rolling device of the present embodiment is used for rolling cloth 600, and includes a rolling base 100, a cloth roller 200, a conveying platform 500, a tension wheel 700, two adjusting mechanisms and two driving mechanisms. The cloth roller 200 is rotatably disposed on the winding base 100 around its axis. The transmission platform 500 is used for supporting the cloth 600, one end, far away from the cloth roller 200, of the transmission platform 500 is provided with two first vertical plates, a first sliding groove 504 is formed in each first vertical plate along the vertical direction, one end, close to the cloth roller 200, of the transmission platform 500 is provided with two vertical plate groups, the two vertical plate groups are respectively arranged on two sides of the transmission platform 500, each vertical plate group comprises two second vertical plates, and a second sliding groove 503 is formed in each second vertical plate along the vertical direction. The conveying platform 500 is provided with a plurality of third sliding grooves 501 along the horizontal direction. The cloth 600 passes through the transfer platform 500 and is finally wound up on the cloth roll 200. The tension pulley 700 is horizontally disposed, and the tension pulley 700 is slidably mounted in the first slide groove 504 in the up-down direction.

Two adjusting mechanisms are installed on two sides of the transmission platform 500, each adjusting mechanism comprises a sliding assembly, a cover plate 900, a flattening assembly and a transmission assembly, and the number of the flattening assemblies is multiple. The slide assembly includes a slide plate 800, a synchronization rod 802, and an elongated rod 803. The slide plate 800 is slidably disposed in the third chute 501, and the hinge rod 801 is fixedly disposed on the slide plate 800. One end of the synchronizing rod 802 is rotatably connected to the hinge rod 801, the other end of the synchronizing rod 802 is rotatably connected to the long rod 803, the long rod 803 is vertically slidably arranged in the two second sliding grooves 503 of each vertical plate group, and one end of the long rod 803 is fixedly connected to the tensioning wheel 700. The cover plate 900 can be slidably arranged on the transmission platform 500, a first spring 901 is fixedly arranged on one side of the cover plate 900, the first spring 901 is a tension spring, one end of the first spring 901 is fixedly connected to the sliding plate 800, the first spring 901 provides tension for the adjusting mechanism all the time, and a fourth chute 902 is formed in the cover plate 900 in the axial direction of the cloth roller 200.

Each flattening assembly includes a pinch roller 130 and two connection units. The pinch roller 130 is rotatably disposed around its axis, the length direction of the pinch roller 130 is the same as the conveying direction of the cloth 600, and the two connection units are installed at both ends of the pinch roller 130. Each of the connection units includes a slider 140, a second spring 142, a hollow block 151, a telescopic bar 160, and a rotation shaft 152. The sliding blocks 140 are disposed in the fourth sliding grooves 902 through the limiting blocks 141 fixed on the sliding blocks 140, and two ends of the second spring 142 are respectively and fixedly connected to two adjacent sliding blocks 140. The hollow block 151 can be arranged in the sliding block 140 in a vertically sliding manner, a second sleeve 153 is fixedly mounted on the hollow block 151, the second sleeve 153 is vertically arranged, and a third spring 155 is arranged in the second sleeve 153. The extension bar 160 is slidably disposed in the second sleeve 153 in a vertical direction, and a lower end of the extension bar 160 is fixedly connected to the third spring 155. One end of the rotation shaft 152 is rotatably provided in the hollow block 151, and the other end of the rotation shaft 152 is fixedly connected to the pressure roller 130.

The transmission assembly is used for pressing the plurality of telescopic rods 160 to move downwards when the tension wheel 700 moves downwards. The driving mechanism is used to rotate the cloth roller 200.

In the present embodiment, as shown in fig. 3, the transmission assembly includes two fixing rods 120 and two connecting rods 110. The two fixing rods 120 are respectively slidably disposed at both ends of the cover plate 900, and the lower surfaces of the fixing rods 120 are abutted to the upper end surfaces of the plurality of telescopic rods 160. One end of the connecting rod 110 is sleeved on the long rod 803, the other end of the connecting rod 110 is fixedly provided with a second cross rod, the connecting rod 110 can stretch, and the two fixing rods 120 are respectively and fixedly connected to two ends of the second cross rod. When the tensioning wheel 700 moves downwards, the long rod 803 is driven to move downwards, and further the connecting rod 110 and the fixing rod 120 are driven to move downwards, and the fixing rod 120 compresses the plurality of telescopic rods 160 downwards.

In the present embodiment, as shown in fig. 1, the driving mechanism includes a first motor 300 and a timing belt 400. The first motor 300 is fixedly disposed on the winding base 100, one end of the synchronous belt 400 is connected to an output shaft of the first motor 300, and the other end of the synchronous belt 400 is connected to the cloth roller 200. The first motor 300 is started, and the first motor 300 drives the cloth roller 200 to rotate through the synchronous belt 400, so that the cloth 600 is rolled.

In the present embodiment, the sliding block 140 of the flattening assembly near the center of the transmission platform 500 is fixedly disposed on the cover plate 900, and the other sliding blocks 140 are slidably disposed on the cover plate 900.

In the present embodiment, the plurality of third springs 155 have an elastic coefficient that is gradually increased in a direction from the center of the transfer platform 500 to the edge of the transfer platform 500.

In this embodiment, the connection unit further comprises a second motor, the second motor is disposed in the hollow block 151, and an output shaft of the second motor is fixedly connected with the rotating shaft 152. The second motor drives the pressing roller 130 to rotate, and the rotating pressing roller 130 generates friction force on the cloth 600.

In this embodiment, as shown in fig. 2, a first sleeve 502 is vertically disposed on the transfer platform 500. The tensioning wheel 700 comprises a first horizontal rod horizontally arranged and two vertical rods vertically arranged at two ends of the first horizontal rod. The first cross bar is slidably disposed in the first sliding groove 504, and the vertical bar is slidably disposed in the first sleeve 502.

In this embodiment, a fifth spring is disposed in the first sleeve 502, and the fifth spring is abutted against the lower end of the vertical rod. When the tension applied to the cloth 600 is increased, the tension wheel 700 is pulled downward by the cloth 600, and the elastic force of the fifth spring is overcome, so that the tension wheel 700 moves downward. When the tension applied to the cloth 600 is reduced, the tension wheel 700 moves upward under the action of the fifth spring.

In this embodiment, as shown in fig. 7, a fourth spring 154 is fixedly disposed in the slider 140, and an upper end of the fourth spring 154 is fixedly connected to the hollow block 151. The fourth spring 154 serves to restore the hollow block 151.

In this embodiment, as shown in fig. 2, two fixed tensioning rollers 505 are further horizontally arranged on the conveying platform 500, and the cloth 600 passes through between one of the fixed tensioning rollers 505 and the conveying platform 500, then passes over the tensioning wheel 700, then passes through between the other fixed tensioning roller 505 and the conveying platform 500, and finally is wound on the cloth roller 200.

The working process is as follows: the first spring 901 is a tension spring that always provides tension to the adjustment mechanism. The cloth 600 passes around the tension pulley 700 and passes through the transfer platform 500, and is finally wound on the cloth roller 200. The first motor 300 is started, and the first motor 300 drives the cloth roller 200 to rotate through the synchronous belt 400, so that the cloth 600 is rolled. Meanwhile, the second motor is started, the second motor drives the pressing roller 130 to rotate, the rotating pressing roller 130 generates friction force on the cloth 600, and the cloth 600 is continuously rolled to two side edges. Because more and more cloth 600 are wound on the cloth roller 200, under the condition that the angular velocity of the cloth roller 200 is not changed, the diameter of a winding drum formed by the cloth roller 200 and the cloth 600 is larger and larger, and the linear velocity of the winding drum is larger and larger, namely, the cloth 600 is in variable-speed motion when the cloth roller 200 winds the cloth.

When the tension applied to the cloth 600 is increased, the tension wheel 700 is pulled downward by the cloth 600, and the elastic force of the fifth spring is overcome, so that the tension wheel 700 moves downward. When the tension of the cloth 600 is increased, the two sides of the cloth 600 are tightened toward the center of the cloth 600, and the number of the pressing rollers 130 contacting the cloth 600 is reduced, that is, the friction force between the cloth 600 and the pressing rollers 130 is reduced. At this time, the tension applied to the cloth 600 is increased, and the friction applied to the cloth 600 is reduced. When the tension wheel 700 moves downwards, the long rod 803 is driven to synchronously move downwards, and the long rod 803 moves downwards to drive the sliding plate 800 to move towards the direction close to the center of the conveying platform 500 through the synchronous rod 802.

Meanwhile, the long rod 803 is driven to move downwards when moving downwards, the connecting rod 110 is driven to move downwards when moving downwards, the fixing rod 120 is driven to move downwards when moving downwards, the plurality of telescopic rods 160 are controlled to move downwards synchronously for the same distance through the descending of the fixing rod 120, the positive pressure between the pressing rollers 130 and the cloth 600 is increased, and the elastic coefficient of the third spring 155 is gradually increased from the center of the transmission platform 500 to the edge of the transmission platform 500, namely, the positive pressure between the plurality of pressing rollers 130 and the cloth 600 is in an increasing state from the center of the transmission platform 500 to the edge of the transmission platform 500. The stretching assemblies capable of sliding are subjected to the elastic force of the second springs 142 on the left side and the right side and the friction force generated between the pressing roller 130 and the cloth 600, and at the moment, the increase of the friction force between the pressing roller 130 and the cloth 600 can overcome the elastic force of the second springs 142, so that the stretching assemblies are close to the center of the transmission platform 500, namely, the space between the stretching assemblies is reduced. The number of the press rollers 130 contacting the cloth 600 increases, that is, the friction force between the cloth 600 and the plurality of press rollers 130 increases until the tension force is equal to the tension force applied to the cloth 600. That is, the changed tension and the changed friction force on the cloth 600 are equal, so that the cloth 600 is always in a flattened state due to the tensile friction force generated by the pressing roller 130, and the uniformity of winding is ensured.

Meanwhile, when the plurality of flattening assemblies are drawn close to the center of the transmission platform 500, the friction force applied to the flattening assemblies is increased, namely the friction force of the whole adjusting mechanism is increased, the whole adjusting mechanism is drawn close to the center of the transmission platform 500, the first spring 901 is stretched, the friction force applied to the adjusting mechanism is equal to the tension force applied to the adjusting mechanism, the adjusting mechanism is always in a dynamic balance state, and the situation that the pressing roller 130 is separated from the cloth 600 in a contact mode is avoided.

When the tension applied to the cloth 600 is reduced, the tension wheel 700 moves upward under the action of the fifth spring. Meanwhile, both sides of the cloth 600 may be stretched toward both sides, and the number of the pressing rollers 130 contacting the cloth 600 may be increased, that is, the frictional force between the cloth 600 and the plurality of pressing rollers 130 may be increased. When the tension pulley 700 moves upward, it drives the long rod 803 to move upward synchronously, and further drives the sliding plate 800 to move in a direction away from the center of the conveying platform 500.

The long rod 803 moves upwards to drive the fixing rod 120 to move upwards through the connecting rod 110, the plurality of telescopic rods 160 are controlled to move upwards synchronously by the same distance through the upward movement of the fixing rod 120, and the friction force between the pressing roller 130 and the cloth 600 is reduced. At this time, the elastic force of the second spring 142 overcomes the friction force between the pressing roller 130 and the cloth 600, so that the plurality of flattening assemblies are close to each other towards the direction away from the transmission platform 500, the number of the pressing rollers 130 contacting the cloth 600 is reduced, and the friction force between the plurality of pressing rollers 130 and the cloth 600 is further reduced. The tension is reduced to be equal to the tension borne by the cloth 600, that is, the changed tension on the cloth 600 is equal to the changed friction, so that the cloth 600 is always in a flattened state due to the tensile friction force generated by the pressing roller 130, and the uniformity of winding is ensured.

Meanwhile, as the friction between the pressing rollers 130 and the cloth 600 is reduced, the friction applied to the whole adjusting mechanism is reduced, and the whole adjusting mechanism moves towards the direction far away from the conveying platform 500 to compress the first spring 901. Namely, the friction force borne by the adjusting mechanism is reduced, the tensile force borne by the adjusting mechanism is also reduced, the friction force borne by the adjusting mechanism is equal to the tensile force borne by the adjusting mechanism, and the adjusting mechanism is always in a dynamic balance state.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a weaving cloth rolling equipment which characterized in that:

the cloth rolling device comprises a rolling base, a cloth rolling roller, a transmission platform, a tension wheel, two adjusting mechanisms and two driving mechanisms; the cloth roller can be arranged on the winding base in a way of rotating around the axis of the cloth roller; two first vertical plates are arranged at one end, far away from the cloth roller, of the transmission platform, a first sliding groove is formed in each first vertical plate along the vertical direction, two vertical plate groups are arranged at one end, close to the cloth roller, of the transmission platform, the two vertical plate groups are respectively arranged on two sides of the transmission platform, each vertical plate group comprises two second vertical plates, and a second sliding groove is formed in each second vertical plate along the vertical direction; the tensioning wheel is horizontally arranged and can be installed in the first sliding groove in a vertically sliding manner;

the two adjusting mechanisms are arranged on two sides of the transmission platform, each adjusting mechanism comprises a sliding assembly, a cover plate, a plurality of flattening assemblies and a transmission assembly, and the number of the flattening assemblies is multiple; the sliding component comprises a sliding plate, a synchronizing rod and a long rod; the sliding plate can be arranged in the third sliding chute in a sliding manner, and a hinge rod is fixedly arranged on the sliding plate; one end of the synchronizing rod is rotatably connected to the hinge rod, the other end of the synchronizing rod is rotatably connected to the long rod, the long rod can be arranged in the two second sliding grooves of each vertical plate group in a vertically sliding mode, and one end of the long rod is fixedly connected to the tensioning wheel; the cover plate is slidably arranged on the transmission platform, a first spring is fixedly arranged on one side of the cover plate, one end of the first spring is fixedly connected to the sliding plate, and a fourth sliding groove is formed in the cover plate along the axial direction of the cloth roller;

each flattening component comprises a pressing roller and two connecting units; the pressing rollers can be rotationally arranged around the axes of the pressing rollers, the length direction of the pressing rollers is the same as the conveying direction of the cloth, and the two connecting units are arranged at two ends of the pressing rollers; each connecting unit comprises a sliding block, a second spring, a hollow block, a telescopic rod and a rotating shaft; the sliding blocks are arranged in the fourth sliding grooves through limiting blocks fixed on the sliding blocks, and two ends of the second spring are fixedly connected to two adjacent sliding blocks respectively; the hollow block can be arranged in the sliding block in a vertically sliding manner, a second sleeve is fixedly arranged on the hollow block and is vertically arranged, and a third spring is arranged in the second sleeve; the telescopic rod is arranged in the second sleeve in a vertically sliding manner, and the lower end of the telescopic rod is fixedly connected to the third spring; one end of the rotating shaft can be rotatably arranged in the hollow block, and the other end of the rotating shaft is fixedly connected to the pressing roller;

2. A textile cloth rolling apparatus according to claim 1, characterized in that:

the transmission assembly comprises two fixed rods and two connecting rods; the two fixing rods are respectively arranged at two ends of the cover plate in a vertically sliding manner, and the lower surfaces of the fixing rods are abutted against the upper end surfaces of the plurality of telescopic rods; the one end of connecting rod is cup jointed in the stock, and the other end of connecting rod is fixed and is equipped with the second horizontal pole, and the connecting rod can stretch out and draw back, and two dead levers are fixed connection respectively in the both ends of second horizontal pole.

3. A textile piece goods rolling apparatus as claimed in claim 1, wherein:

the driving mechanism comprises a first motor and a synchronous belt; first motor is fixed to be set up on the rolling base, and the one end of hold-in range is connected in the output shaft of first motor, and the other end of hold-in range is connected on the cloth roller.

4. A textile cloth rolling apparatus according to claim 1, characterized in that:

the sliding blocks of the flattening assemblies close to the center of the transmission platform are fixedly arranged on the cover plate, and other sliding blocks can be arranged on the cover plate in a sliding mode.

5. A textile piece goods rolling apparatus as claimed in claim 1, wherein:

the plurality of third springs have a gradually increasing elastic coefficient in a direction from the center of the transfer platform to the edge of the transfer platform.

6. A textile cloth rolling apparatus according to claim 1, characterized in that:

the connecting unit further comprises a second motor, the second motor is arranged in the hollow block, and an output shaft of the second motor is fixedly connected with the rotating shaft.

7. A textile piece goods rolling apparatus as claimed in claim 1, wherein:

a first sleeve is vertically arranged on the transmission platform; the tensioning wheel comprises a first horizontal rod and two vertical rods, wherein the first horizontal rod is horizontally arranged, and the two vertical rods are vertically arranged at two ends of the first horizontal rod; the first cross rod can be arranged in the first sliding groove in a vertically sliding mode, and the vertical rod can be arranged in the first sleeve in a sliding mode.

8. A textile piece goods rolling apparatus as claimed in claim 7, wherein:

a fifth spring is arranged in the first sleeve and is propped against the lower end of the vertical rod.

9. A textile cloth rolling apparatus according to claim 1, characterized in that:

a fourth spring is fixedly arranged in the sliding block, and the upper end of the fourth spring is fixedly connected with the hollow block.

10. A textile cloth rolling apparatus according to claim 1, characterized in that:

still the level is provided with fixed tensioning roller on the transmission platform, and the cloth passes between fixed tensioning roller and the transmission platform.