CN214989087U - Cloth guide device - Google Patents

Abstract

The utility model relates to a lead cloth device. The cloth guiding device comprises a control mechanism, a cloth detecting mechanism, a cloth guiding mechanism, a first cloth passing mechanism, a second cloth passing mechanism and a cloth pressing mechanism, wherein the cloth guiding mechanism drives cloth to pass through a cloth passing interval between the first cloth passing mechanism and the second cloth passing mechanism, when the cloth detecting mechanism does not detect cloth below the cloth pressing mechanism, the cloth is about to be excessively pulled, the control mechanism controls the cloth guiding mechanism to stop driving the cloth at the moment, and controls the telescopic driving part to drive the cloth pressing part to be ejected towards the first cloth passing mechanism so as to tightly press the cloth on the first cloth passing mechanism, the cloth is prevented from continuously advancing due to inertia, the cloth is prevented from being pulled through a cloth shaft, and therefore the cloth can be automatically and effectively stopped so as to be connected with the following cloth, and manpower is saved.

Description

Cloth guide device

Technical Field

The utility model relates to a textile machinery equipment technical field especially relates to a cloth guider.

Background

In the finishing process of the piece goods, it is often necessary to join one end of a large roll of piece goods to the piece goods that have previously been passed over the cloth beam, so that the latter piece of cloth is pulled into the machine by the former piece of cloth. However, after the front cloth is processed, due to the inertia effect, the front cloth is always brought forward, sometimes the front cloth is pulled through the cloth shaft and cannot be connected with the rear cloth, and then the cloth needs to be manually threaded. The manual cloth penetrating action is to lap the front cloth from the cloth penetrating shaft and then connect the front cloth with the rear cloth. The height of the cloth passing shaft is about three meters generally, which is very difficult and dangerous for operators.

SUMMERY OF THE UTILITY MODEL

In view of this, there is a need for a cloth guide device that stops the advance of the leading piece of cloth after the treatment is completed, avoiding being pulled through the cloth shaft.

One of the purposes of the utility model is to provide a cloth guider, the scheme is as follows:

a cloth guide device comprises a control mechanism, a cloth detection mechanism, a cloth guide mechanism, a first cloth passing mechanism, a second cloth passing mechanism and a cloth pressing mechanism;

the first cloth passing mechanism and the second cloth passing mechanism are oppositely arranged and connected, a cloth passing interval for cloth to pass through is formed between the first cloth passing mechanism and the second cloth passing mechanism, the cloth pressing mechanism is arranged on the second cloth passing mechanism, the cloth pressing mechanism comprises a telescopic driving part and a cloth pressing part, the telescopic driving part is arranged on the second cloth passing mechanism, and the telescopic driving part is connected with the cloth pressing part and used for driving the cloth pressing part to be ejected out towards the first cloth passing mechanism so as to press the cloth in the cloth passing interval on the first cloth passing mechanism;

the cloth guiding mechanism is used for driving the cloth to pass through the cloth passing interval;

the cloth detection mechanism is used for detecting whether cloth exists below the cloth pressing mechanism or not, the control mechanism is electrically connected with the cloth detection mechanism and the telescopic driving part, when the cloth detection mechanism does not detect the cloth, the control mechanism controls the cloth guide mechanism to stop driving the cloth and controls the telescopic driving part to drive the cloth pressing part to eject.

In one embodiment, the control mechanism is an industrial computer or a Programmable Logic Controller (PLC).

In one embodiment, the cloth guiding mechanism comprises a rotating roller and a rotating driving part, wherein the rotating driving part is connected to the rotating roller and is used for driving the rotating roller to rotate.

In one embodiment, the piece goods detection mechanism is a photodetector. In one embodiment, the piece goods detection mechanism is a reflective photodetector.

In one embodiment, the position of the cloth pressing mechanism on the second cloth passing mechanism is adjustable.

In one embodiment, the cloth pressing mechanism further comprises a mounting component, the telescopic driving component is connected to the second cloth passing mechanism through the mounting component, and the mounting component is movably connected with the second cloth passing mechanism.

In one embodiment, the second cloth passing mechanism includes a first cross bar and a second cross bar, the first cross bar and the second cross bar are both horizontally disposed, and the first cross bar is disposed above the second cross bar. Two ends of the first cross rod and the second cross rod are respectively connected to the first cloth passing mechanism. The mounting part is movably connected to the first cross rod and the second cross rod, and the telescopic driving part is arranged on the mounting part and located between the first cross rod and the second cross rod.

In one embodiment, the mounting member is connected to the first cross bar and the second cross bar by bolts, and a plurality of threaded holes are distributed on the first cross bar and the second cross bar.

In one embodiment, the number of the cloth pressing mechanisms is multiple, such as 2, 3, etc.

In one embodiment, the cloth pressing component is a soft rubber piece at least on one side facing the first cloth passing mechanism. In one embodiment, the cloth pressing member is integrally a soft rubber member.

In one embodiment, the first cloth passing mechanism is a flat plate structure.

In one embodiment, the cloth guide device further comprises a cloth guide roller, the cloth guide roller is arranged below the cloth pressing mechanism, and the cloth guide roller is located between the first cloth passing mechanism and the second cloth passing mechanism in the horizontal direction.

Compared with the prior art, the cloth guide device has the following beneficial effects:

the cloth guide device can automatically stop the cloth when the subsequent cloth needs to be plugged. The cloth guiding device comprises a control mechanism, a cloth detecting mechanism, a cloth guiding mechanism, a first cloth passing mechanism, a second cloth passing mechanism and a cloth pressing mechanism, wherein the cloth guiding mechanism drives cloth to pass through a cloth passing interval between the first cloth passing mechanism and the second cloth passing mechanism, when the cloth detecting mechanism does not detect cloth below the cloth pressing mechanism, the cloth is about to be excessively pulled, the control mechanism controls the cloth guiding mechanism to stop driving the cloth at the moment, and controls the telescopic driving part to drive the cloth pressing part to be ejected towards the first cloth passing mechanism so as to tightly press the cloth on the first cloth passing mechanism, the cloth is prevented from continuously advancing due to inertia, the cloth is prevented from being pulled through a cloth shaft, and therefore the cloth can be automatically and effectively stopped so as to be connected with the following cloth, and manpower is saved.

Drawings

Fig. 1 is a schematic structural view of a cloth guide device according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of the cloth guiding apparatus shown in FIG. 1 from another perspective (in which the cloth guiding mechanism and the first cloth passing mechanism are not shown in FIG. 2);

description of reference numerals:

100. a cloth guide device; 110. a cloth guiding mechanism; 112. a cloth passing shaft; 120. a first cloth passing mechanism; 130. a second cloth passing mechanism; 131. a first cross bar; 132. a second cross bar; 140. a cloth pressing mechanism; 141. a telescopic driving member; 142. a cloth pressing member; 143. a mounting member; 150. a cloth guide roller; 200. and (6) cloth.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The 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 "disposed on" 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. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

In the description of the present invention, it is to be understood that the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

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 in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 and fig. 2, a cloth guide device 100 according to an embodiment of the present invention includes a control mechanism (not shown), a cloth detecting mechanism (not shown), a cloth guiding mechanism 110, a first cloth passing mechanism 120, a second cloth passing mechanism 130, and a cloth pressing mechanism 140.

The first cloth passing mechanism 120 and the second cloth passing mechanism 130 are oppositely arranged and connected, a cloth passing interval for the cloth 200 to pass through is formed between the first cloth passing mechanism 120 and the second cloth passing mechanism 130, the cloth pressing mechanism 140 is arranged on the second cloth passing mechanism 130, the cloth pressing mechanism 140 comprises a telescopic driving part 141 and a cloth pressing part 142, the telescopic driving part 141 is arranged on the second cloth passing mechanism 130, and the telescopic driving part 141 is connected to the cloth pressing part 142 and is used for driving the cloth pressing part 142 to eject towards the first cloth passing mechanism 120 so as to press the cloth 200 passing through the cloth passing interval on the first cloth passing mechanism 120.

The cloth guiding mechanism 110 is used for driving the cloth 200 to pass through the cloth passing interval.

The cloth detection mechanism is used for detecting whether the cloth 200 is arranged below the cloth pressing mechanism 140 or not, the control mechanism is electrically connected with the cloth detection mechanism and the telescopic driving part 141, when the cloth detection mechanism does not detect the cloth 200, the control mechanism controls the cloth guiding mechanism 110 to stop driving the cloth 200, and controls the telescopic driving part 141 to drive the cloth pressing part 142 to eject.

The cloth guide device 100 can automatically stop the cloth 200 when the subsequent cloth 200 needs to be connected. The cloth guiding device 100 includes a control mechanism, a cloth detecting mechanism, a cloth guiding mechanism 110, a first cloth passing mechanism 120, a second cloth passing mechanism 130 and a cloth pressing mechanism 140, wherein the cloth guiding mechanism 110 drives the cloth 200 to pass through a cloth passing interval between the first cloth passing mechanism 120 and the second cloth passing mechanism 130, when the cloth detecting mechanism does not detect that the cloth 200 is under the cloth pressing mechanism 140, the cloth 200 is about to be excessively pulled, at this time, the control mechanism controls the cloth guiding mechanism 110 to stop driving the cloth 200, and controls the telescopic driving component 141 to drive the cloth pressing component 142 to eject out towards the first cloth passing mechanism 120, so as to press the cloth 200 on the first cloth passing mechanism 120, and prevent the cloth 200 from continuously advancing due to inertia and from being pulled through the cloth shaft 112, thereby automatically and effectively stopping the cloth 200, so as to be connected with the following cloth 200, and save labor.

It is understood that the control mechanism may be a controller commonly used in the art, for example, but not limited to, an industrial computer, a Programmable Logic Controller (PLC), etc.

In one example, the piece goods detection mechanism is a photo detector. Further, the cloth detection mechanism is a reflection type photoelectric detector.

As shown in fig. 1, in one example, the cloth guiding mechanism 110 includes a rotating roller and a rotation driving part (not shown in the figure) connected to the rotating roller for driving the rotating roller to rotate.

In one example, the position of the cloth pressing mechanism 140 on the second cloth passing mechanism 130 is adjustable. In this way, the position of the cloth pressing mechanism 140 on the second cloth passing mechanism 130 can be adjusted as needed.

It is understood that the telescopic driving part 141 may be, but not limited to, a telescopic cylinder.

In the illustrated specific example, the cloth pressing mechanism 140 further includes a mounting part 143, the telescopic driving part 141 is connected to the second cloth passing mechanism 130 through the mounting part 143, and the mounting part 143 is movably connected to the second cloth passing mechanism 130.

The second cloth passing mechanism 130 includes a first cross bar 131 and a second cross bar 132, the first cross bar 131 and the second cross bar 132 are both horizontally disposed, and the first cross bar 131 is disposed above the second cross bar 132. Both ends of the first cross bar 131 and the second cross bar 132 are respectively connected to the first cloth passing mechanism 120. The mounting part 143 is movably connected to the first cross bar 131 and the second cross bar 132, and the telescopic driving part 141 is disposed on the mounting part 143 and between the first cross bar 131 and the second cross bar 132.

The mounting part 143 is connected with the first cross bar 131 and the second cross bar 132 through bolts, and a plurality of threaded holes are distributed on the first cross bar 131 and the second cross bar 132, so that the position of the mounting part 143 on the second cloth passing mechanism 130 can be adjusted, that is, the position of the cloth pressing mechanism 140 on the second cloth passing mechanism 130 can be adjusted.

In the illustrated specific example, the first cloth passing mechanism 120 is a flat plate structure, one plate surface faces the second cloth passing mechanism 130, that is, faces the cloth pressing mechanism 140, and when the telescopic driving member 141 drives the cloth pressing member 142 to eject, the cloth pressing member 142 presses the cloth 200 against the plate surface of the first cloth passing mechanism 120.

The length of the cloth passing interval between the first cloth passing mechanism 120 and the second cloth passing mechanism 130 can be selected according to the cloth width of the cloth 200 to be processed. In one example, the length of the blanket interval is 1m to 5 m. In some specific examples, the length of the clothing spacing is 1m, 2m, 3m, 4m, 5m, etc.

In the illustrated specific example, the number of the cloth pressing mechanisms 140 is 1. In other examples, the number of the cloth pressing mechanisms 140 is not limited to only 1, and may be multiple, for example, 2, 3, etc. By providing a plurality of cloth pressing mechanisms 140, the need for large-format cloth 200 can be met.

In one example, the cloth pressing member 142 is a soft rubber member at least on the side facing the first cloth passing mechanism 120. When the telescopic driving part 141 drives the cloth pressing part 142 to press on the cloth 200, the part of the soft rubber is contacted with the cloth surface, on one hand, the friction force is larger, and on the other hand, the contact part is softer, so that the cloth surface is not damaged.

It is to be understood that the cloth pressing member 142 may be integrally formed as a soft rubber member.

As shown in fig. 1, in one example, the cloth guide apparatus 100 further includes a cloth guide roller 150, the cloth guide roller 150 is disposed below the cloth pressing mechanism 140, and the cloth guide roller 150 is located between the first cloth passing mechanism 120 and the second cloth passing mechanism 130 in the horizontal direction. The cloth guide roller 150 can prevent the cloth cover from being damaged due to the fact that the bottom edge of the telescopic driving part 141 scrapes the cloth cover.

Further, the present invention also provides a cloth guide method using the cloth guide apparatus 100 of any of the above examples, the cloth guide method comprising the steps of:

controlling the cloth guiding mechanism 110 to drive the cloth 200 to pass through the cloth passing interval; when the cloth detection mechanism does not detect the cloth 200, the control mechanism controls the cloth guiding mechanism 110 to stop driving the cloth 200, and controls the telescopic driving component 141 to drive the cloth pressing component 142 to eject towards the first cloth passing mechanism 120, so as to press the cloth 200 on the first cloth passing mechanism 120.

The cloth guiding method can automatically stop the cloth 200 when the subsequent cloth 200 needs to be connected, when the cloth detection mechanism does not detect that the cloth 200 is under the cloth pressing mechanism 140, the cloth 200 is about to be excessively pulled, at this time, the control mechanism controls the cloth guiding mechanism 110 to stop driving the cloth 200, and controls the telescopic driving component 141 to drive the cloth pressing component 142 to eject towards the first cloth passing mechanism 120, so as to press the cloth 200 on the first cloth passing mechanism 120, and prevent the cloth 200 from continuously advancing due to inertia, thereby automatically and effectively stopping the cloth 200 and saving labor.

The following description of the embodiments is provided for illustration, but the invention is not limited to the embodiments described below, and it is to be understood that the appended claims cover all such modifications that would come within the spirit of the invention and the scope of the appended claims.

Example 1

As shown in fig. 1 and fig. 2, the present embodiment provides a cloth guide apparatus 100, which includes a control mechanism, a cloth detecting mechanism, a cloth guiding mechanism 110, a first cloth passing mechanism 120, a second cloth passing mechanism 130, a cloth pressing mechanism 140, and a cloth guide roller 150.

The first cloth passing mechanism 120 and the second cloth passing mechanism 130 are oppositely arranged and connected, and a cloth passing interval for the cloth 200 to pass through is arranged between the first cloth passing mechanism 120 and the second cloth passing mechanism 130. The length of the cloth-passing interval is 2 m. The first cloth passing mechanism 120 is a flat plate structure, and one plate surface faces the second cloth passing mechanism 130.

The cloth pressing mechanisms 140 are provided on the second cloth passing mechanisms 130, and the number of the cloth pressing mechanisms is 1. The cloth pressing mechanism 140 includes a telescopic driving member 141, a cloth pressing member 142 and a mounting member 143, the telescopic driving member 141 is disposed on the second cloth passing mechanism 130, and the telescopic driving member 141 is connected to the cloth pressing member 142 for driving the cloth pressing member 142 to eject toward the first cloth passing mechanism 120, so as to press the cloth 200 in the cloth passing interval on the first cloth passing mechanism 120. The second cloth passing mechanism 130 includes a first cross bar 131 and a second cross bar 132, the first cross bar 131 and the second cross bar 132 are both horizontally disposed, and the first cross bar 131 is disposed above the second cross bar 132. Both ends of the first cross bar 131 and the second cross bar 132 are respectively connected to the first cloth passing mechanism 120. The mounting part 143 is movably connected to the first cross bar 131 and the second cross bar 132, and the telescopic driving part 141 is disposed on the mounting part 143 and between the first cross bar 131 and the second cross bar 132. The cloth pressing member 142 is a soft rubber member at a side facing the first cloth passing mechanism 120.

The cloth guiding mechanism 110 is used for driving the cloth 200 to pass through the cloth passing interval. The cloth guiding mechanism 110 includes a rotating roller and a rotation driving part connected to the rotating roller for driving the rotating roller to rotate.

The cloth detection mechanism reflection-type photoelectric detector is used for detecting whether cloth 200 is arranged below the cloth pressing mechanism 140 or not, the control mechanism is electrically connected with the cloth detection mechanism and the telescopic driving component 141, when the cloth detection mechanism does not detect the cloth 200, the control mechanism controls the cloth guiding mechanism 110 to stop driving the cloth 200, and controls the telescopic driving component 141 to drive the cloth pressing component 142 to eject.

The cloth guide roller 150 is disposed below the cloth pressing mechanism 140, and the cloth guide roller 150 is located between the first cloth passing mechanism 120 and the second cloth passing mechanism 130 in the horizontal direction.

Example 2

The present embodiment provides a cloth guiding device, which includes a control mechanism, a cloth detecting mechanism, a cloth guiding mechanism, a first cloth passing mechanism, a second cloth passing mechanism, and a cloth pressing mechanism.

The first cloth passing mechanism and the second cloth passing mechanism are oppositely arranged and connected, and a cloth passing interval for cloth to pass through is arranged between the first cloth passing mechanism and the second cloth passing mechanism. The length of the cloth-passing interval was 3 m. The first cloth passing mechanism is of a flat structure, and one plate surface faces the second cloth passing mechanism.

The cloth pressing mechanism is arranged on the second cloth passing mechanism, and the number of the cloth pressing mechanisms is 2. The cloth pressing mechanism comprises a telescopic driving part, a cloth pressing part and an installation part, the telescopic driving part is arranged on the second cloth passing mechanism, and the telescopic driving part is connected to the cloth pressing part and used for driving the cloth pressing part to be ejected out towards the first cloth passing mechanism so as to tightly press cloth in the cloth passing interval on the first cloth passing mechanism. The second cloth passing mechanism comprises a first cross rod and a second cross rod, the first cross rod and the second cross rod are arranged horizontally, and the first cross rod is arranged above the second cross rod. Two ends of the first cross rod and the second cross rod are respectively connected to the first cloth passing mechanism. The mounting part is movably connected to the first cross rod and the second cross rod, and the telescopic driving part is arranged on the mounting part and located between the first cross rod and the second cross rod. The cloth pressing component is integrally a soft rubber part.

The cloth guiding mechanism is used for driving the cloth to pass through the cloth passing interval. The cloth guiding mechanism comprises a rotating roller and a rotating driving part, and the rotating driving part is connected to the rotating roller and used for driving the rotating roller to rotate.

The cloth detection mechanism reflection-type photoelectric detector is used for detecting whether cloth exists below the cloth pressing mechanism or not, the control mechanism is electrically connected with the cloth detection mechanism and the telescopic driving component, and when the cloth detection mechanism does not detect the cloth, the control mechanism controls the cloth guide mechanism to stop driving the cloth and controls the telescopic driving component to drive the cloth pressing component to eject.

Example 3

The present embodiment provides a cloth guiding apparatus, which includes a control mechanism, a cloth detecting mechanism, a cloth guiding mechanism, a first cloth passing mechanism, a second cloth passing mechanism, a cloth pressing mechanism, and a cloth guiding roller.

The first cloth passing mechanism and the second cloth passing mechanism are oppositely arranged and connected, and a cloth passing interval for cloth to pass through is arranged between the first cloth passing mechanism and the second cloth passing mechanism. The length of the cloth-passing interval was 4 m. The first cloth passing mechanism is of a flat structure, and one plate surface faces the second cloth passing mechanism.

The cloth pressing mechanism is arranged on the second cloth passing mechanism, and the number of the cloth pressing mechanisms is 3. The cloth pressing mechanism comprises a telescopic driving part, a cloth pressing part and an installation part, the telescopic driving part is arranged on the second cloth passing mechanism, and the telescopic driving part is connected to the cloth pressing part and used for driving the cloth pressing part to be ejected out towards the first cloth passing mechanism so as to tightly press cloth in the cloth passing interval on the first cloth passing mechanism. The second cloth passing mechanism comprises a first cross rod and a second cross rod, the first cross rod and the second cross rod are arranged horizontally, and the first cross rod is arranged above the second cross rod. Two ends of the first cross rod and the second cross rod are respectively connected to the first cloth passing mechanism. The telescopic driving part is fixedly installed through the installation part and is positioned between the first cross rod and the second cross rod. The cloth pressing component is provided with a soft rubber piece at one side facing the first cloth passing mechanism.

The cloth guiding mechanism is used for driving the cloth to pass through the cloth passing interval. The cloth guiding mechanism comprises a rotating roller and a rotating driving part, and the rotating driving part is connected to the rotating roller and used for driving the rotating roller to rotate.

The cloth detection mechanism reflection-type photoelectric detector is used for detecting whether cloth exists below the cloth pressing mechanism or not, the control mechanism is electrically connected with the cloth detection mechanism and the telescopic driving component, and when the cloth detection mechanism does not detect the cloth, the control mechanism controls the cloth guide mechanism to stop driving the cloth and controls the telescopic driving component to drive the cloth pressing component to eject.

The cloth guide roller is arranged below the cloth pressing mechanism, and is positioned between the first cloth passing mechanism and the second cloth passing mechanism in the horizontal direction.

The cloth guide device 100 and the cloth guide method can automatically stop the subsequent cloth when the subsequent cloth needs to be connected. The cloth guiding device 100 includes a control mechanism, a cloth detecting mechanism, a cloth guiding mechanism 110, a first cloth passing mechanism 120, a second cloth passing mechanism 130 and a cloth pressing mechanism 140, wherein the cloth guiding mechanism 110 drives the cloth to pass through a cloth passing interval between the first cloth passing mechanism 120 and the second cloth passing mechanism 130, when the cloth detecting mechanism does not detect that the cloth is under the cloth pressing mechanism 140, it indicates that the cloth is about to be excessively pulled, the control mechanism controls the cloth guiding mechanism 110 to stop driving the cloth at this time, and controls the telescopic driving component 141 to drive the cloth pressing component 142 to eject out toward the first cloth passing mechanism 120, so as to press the cloth on the first cloth passing mechanism 120, and prevent the cloth from continuously advancing due to inertia and being pulled through the cloth shaft 112, thereby automatically and effectively stopping the cloth, so as to connect with the following cloth, and save manpower.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A cloth guide device is characterized by comprising a control mechanism, a cloth detection mechanism, a cloth guide mechanism, a first cloth passing mechanism, a second cloth passing mechanism and a cloth pressing mechanism;

the first cloth passing mechanism and the second cloth passing mechanism are oppositely arranged and connected, a cloth passing interval for cloth to pass through is formed between the first cloth passing mechanism and the second cloth passing mechanism, the cloth pressing mechanism is arranged on the second cloth passing mechanism, the cloth pressing mechanism comprises a telescopic driving part and a cloth pressing part, the telescopic driving part is arranged on the second cloth passing mechanism, and the telescopic driving part is connected with the cloth pressing part and used for driving the cloth pressing part to be ejected out towards the first cloth passing mechanism so as to press the cloth in the cloth passing interval on the first cloth passing mechanism;

the cloth guiding mechanism is used for driving the cloth to pass through the cloth passing interval;

the cloth detection mechanism is used for detecting whether cloth exists below the cloth pressing mechanism or not, the control mechanism is electrically connected with the cloth detection mechanism and the telescopic driving part, when the cloth detection mechanism does not detect the cloth, the control mechanism controls the cloth guide mechanism to stop driving the cloth and controls the telescopic driving part to drive the cloth pressing part to eject.

2. The cloth guide of claim 1, wherein the cloth guiding mechanism includes a rotating roller and a rotational driving member connected to the rotating roller for driving the rotating roller to rotate.

3. The cloth guide of claim 1, wherein the cloth detection mechanism is a photodetector.

4. The cloth guide apparatus of claim 1, wherein the position of the cloth pressing mechanism on the second cloth passing mechanism is adjustable.

5. The cloth guide apparatus of claim 4, wherein the cloth pressing mechanism further comprises a mounting member, the telescopic driving member is connected to the second cloth passing mechanism through the mounting member, and the mounting member is movably connected to the second cloth passing mechanism.

6. The cloth guide apparatus of claim 5, wherein the second cloth passing mechanism comprises a first cross bar and a second cross bar, the first cross bar and the second cross bar are horizontally disposed, the first cross bar is disposed above the second cross bar, two ends of the first cross bar and the second cross bar are respectively connected to the first cloth passing mechanism, the mounting member is movably connected to the first cross bar and the second cross bar, and the telescopic driving member is disposed on the mounting member and located between the first cross bar and the second cross bar.

7. The cloth guide apparatus of claim 1, wherein the number of the cloth pressing mechanisms is plural.

8. The cloth guide device of claim 1, wherein the cloth pressing component is a soft rubber piece at least on one side facing the first cloth passing mechanism.

9. The cloth guide of claim 1, wherein the first cloth passing mechanism is a plate-like structure.

10. The cloth guide device according to any one of claims 1 to 9, further comprising a cloth guide roller disposed below the cloth pressing mechanism, the cloth guide roller being located between the first and second cloth passing mechanisms in a horizontal direction.

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