CN210826554U - Thin fabric broken warp induction device - Google Patents

Abstract

The utility model discloses a thin fabric cracked ends induction system, include: reed: the steel reed is provided with a first optical fiber probe, and the first optical fiber probe is connected with the steel reed; heald frame: the heald frame is provided with a second optical fiber probe which is connected with the heald frame; a dropper seat: the warp stop seat is provided with a third optical fiber probe, and the third optical fiber probe is connected with the warp stop seat; the three groups of high-precision probes are used for monitoring the glass fiber warps in different areas in real time, so that the broken positions of the glass fiber warps can be identified in time, the glass fiber warps can be stopped in time, the loss is prevented from being enlarged, the glass fiber warps are more stable and reliable, the stopping rate is greatly reduced, the machine table efficiency is improved, and the quality of glass fiber cloth is improved.

Description

Thin fabric broken warp induction device

Technical Field

The utility model relates to the field of textile technology, concretely relates to thin fabric cracked ends induction system.

Background

In order to prevent the cloth cover defects from continuously expanding after warp yarn breaking in the weaving process of the glass fiber cloth, a warp stop sheet type warp breaking automatic stop device is arranged on a loom, the thin fabric warp yarn is thin, the photoelectric warp breaking automatic stop device is used for replacing a warp stop sheet type warp breaking automatic stop device, and after warp yarn breaking, the loom can automatically stop to prevent the glass fiber cloth from generating the cloth cover defects of warp breaking, warp doubling and the like. Warp yarns can be wound on other warp yarns after warp breakage, photoelectric induction cannot be timely induced, and the probability of cloth cover abnormity is greatly increased. After the cracked ends are generated, the positions of the cracked ends cannot be accurately judged, so that the cracked ends are not beneficial to determining the reasons of the cracked ends and can be generated.

In order to solve the technical problem, therefore, the emergence of a thin fabric cracked ends induction system is waited for urgently, carries out real time monitoring to the glass fiber warp subregion through three high-precision probes of group, can in time discern the position that the glass fiber warp was broken to in time parking prevents the expansion of loss, and is more reliable and more stable, has reduced the outage rate by a wide margin, has improved board efficiency, thereby improves the quality of glass fiber cloth.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a thin fabric cracked ends induction system carries out real time monitoring to glass fiber warp subregion through three high-precision probes of group, can in time discern the position that glass fiber warp was disconnected to in time park, prevent the expansion of loss, more reliable and more stable has reduced the outage rate by a wide margin, has improved board efficiency, thereby improves the quality of glass fiber cloth.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

a thin fabric warp break sensing device comprising:

reed: the steel reed is provided with a first optical fiber probe, and the first optical fiber probe is connected with the steel reed;

heald frame: the heald frame is provided with a second optical fiber probe which is connected with the heald frame;

a dropper seat: and a third optical fiber probe is arranged on the dropper seat and is connected with the dropper seat.

The utility model provides a pair of thin fabric cracked ends induction system carries out real time monitoring to glass fiber warp subregion through three high-precision probes of group, can in time discern the position that glass fiber warp was disconnected to in time park, prevent the expansion of loss, more reliable and more stable, reduced the outage rate by a wide margin, improved board efficiency, thereby improve the quality of glass fiber cloth.

On the basis of the technical scheme, the following improvements can be made:

preferably, the method comprises the following steps: the first optical fiber probe, the second optical fiber probe and the third optical fiber probe are respectively and electrically connected with the central controller.

Preferably, the method comprises the following steps: and the central controller is electrically connected with the human-computer interaction device.

Preferably, the method comprises the following steps: the yarn winding device comprises a yarn winding roller, wherein glass fiber warps are wound on the yarn winding roller.

Preferably, the method comprises the following steps: a first roller to which the take-up roller delivers the glass fiber warp.

Preferably, the method comprises the following steps: and the first roller conveys the glass fiber warps to the guide rollers.

Preferably, the guide roller conveys the glass fiber warp to the drop wire seat.

Preferably, the drop wire guides deliver glass fiber warp yarns to the heald frame.

Preferably, the heald frame transfers the glass fiber warps to the reed, and the reed transfers the glass fiber warps to the take-up roller.

Preferably, the method comprises the following steps: the human-computer interaction device is connected with the glass fiber warps through the glass fiber cloth.

Drawings

Fig. 1 is a structural diagram of a thin fabric warp break sensing device according to an embodiment of the present invention;

wherein: 1. the device comprises a first optical fiber probe, 2, a second optical fiber probe, 3, a third optical fiber probe, 4, a yarn winding roller, 5, glass fiber warps, 6, a first roller, 7, a guide roller, 8, a human-computer interaction device and 9, glass fiber cloth.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

In order to achieve the object of the present invention, as shown in fig. 1, a thin fabric warp break sensing device in the present embodiment includes:

reed (not shown): a first optical fiber probe 1 is arranged on the reed (not shown), and the first optical fiber probe 1 is connected with the reed (not shown);

heald frame (not shown): a second optical fiber probe 2 is arranged on the heald frame (not shown), and the second optical fiber probe 2 is connected with the heald frame (not shown);

dropper seat (not shown): the dropper seat (not shown) is provided with a third fiber-optic probe 3, and the third fiber-optic probe 3 is connected with the dropper seat (not shown).

The utility model provides a pair of thin fabric cracked ends induction system carries out real time monitoring to glass fiber warp subregion through three high-precision probes of group, can in time discern the position that glass fiber warp was disconnected to in time park, prevent the expansion of loss, more reliable and more stable, reduced the outage rate by a wide margin, improved board efficiency, thereby improve the quality of glass fiber cloth.

In some embodiments, the method comprises: a central controller (not shown), and the first fiber-optic probe 1, the second fiber-optic probe 2 and the third fiber-optic probe 3 are electrically connected with the central controller (not shown), respectively.

By adopting the embodiment, the three groups of high-precision optical fiber probes are used for monitoring the broken glass fiber warps in the divided areas in real time, so that the method is more stable and reliable compared with the prior method, the outage rate is greatly reduced, and the machine table efficiency is improved.

In some embodiments, the method comprises: a human-computer interaction device 8, wherein the central controller (not shown) is electrically connected with the human-computer interaction device 8.

By adopting the embodiment, after the glass fiber warps 5 are disconnected, the first optical fiber probe 1, the second optical fiber probe 2 or the third optical fiber probe 3 senses the signals of the disconnection of the glass fiber warps 5 and simultaneously senses the signals of the disconnection positions (three positions of a reed, a heald frame and a pan head) of the glass fiber warps 5, the first optical fiber probe 1, the second optical fiber probe 2 or the third optical fiber probe 3 transmits the sensed signals of the disconnection positions of the glass fiber warps 5 to a central controller (not shown), the central controller (not shown) processes the received signals of the disconnection positions of the glass fiber warps 5, the human-computer interaction device 8 receives the data of the disconnection positions of the glass fiber warps 5 processed by the central controller (not shown), and the data of the disconnection positions of the glass fiber warps 5 are displayed through the human-computer interaction device 8, so that an operator can know the operation condition of the machine in real time, effectively avoided on glass fiber warp 5 twines adjacent glass fiber warp 5 like this, reduced the outage rate by a wide margin, improved board efficiency to the quality of glass fiber cloth has been improved.

In some embodiments, the method comprises: the yarn winding device comprises a yarn winding roller 4, wherein glass fiber warps 5 are wound on the yarn winding roller 4.

By adopting the embodiment, the structure is simple, the operation is convenient, and the quality of the glass fiber cloth is improved.

In some embodiments, the method comprises: a first roller 6, the yarn roller 4 delivering the glass fiber warp 5 to the first roller 6.

By adopting the embodiment, the structure is simple, the operation is convenient, and the quality of the glass fiber cloth is improved.

In some embodiments, the method comprises: a guide roller 7, the first roller 6 transmits the glass fiber warps 5 to the guide roller 7.

By adopting the embodiment, the structure is simple, the operation is convenient, the guide roller 7 is arranged to guide and convey the conveying direction of the glass fiber warps 5, the conveying of the glass fiber warps 5 is convenient, and the quality of the glass fiber cloth is improved.

In some embodiments, the guide rollers 7 convey the glass fibre warp yarns 5 to the drop wire seats (not shown).

Adopt above-mentioned embodiment, its simple structure, convenient operation has improved the quality of glass fiber cloth.

In some embodiments, the warp let-off seats (not shown) deliver the glass fibre warp yarns 5 to the heald frame (not shown).

Adopt above-mentioned embodiment, its simple structure, convenient operation has improved the quality of glass fiber cloth.

In some embodiments, the heald frame (not shown) transfers the glass fiber warps 5 to the reed (not shown), which transfers the glass fiber warps 5 to the take-up roller (not shown).

By adopting the embodiment, the structure is simple, the operation is convenient, and the coiling roller is arranged below the human-computer interaction device, so that the quality of the glass fiber cloth is improved conveniently.

In some embodiments, the method comprises: the human-computer interaction device 8 is connected with the glass fiber warp yarns 5 through the glass fiber cloth 9.

Adopt above-mentioned embodiment, its simple structure, convenient operation has improved the quality of glass fiber cloth.

In some embodiments, the diameter of the first roller 6 is greater than the diameter of the guide roller 7.

By adopting the embodiment, the glass fiber warp yarn conveying device is simple in structure, convenient to operate and convenient for conveying the glass fiber warp yarns 5.

The above is only the preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many variations and modifications can be made without departing from the inventive concept, and these all fall into the protection scope of the present invention.

Claims (10)

1. A thin fabric warp break sensing device, comprising:

reed: the steel reed is provided with a first optical fiber probe, and the first optical fiber probe is connected with the steel reed;

heald frame: the heald frame is provided with a second optical fiber probe which is connected with the heald frame;

a dropper seat: and a third optical fiber probe is arranged on the dropper seat and is connected with the dropper seat.

2. The tissue break sensing device of claim 1, comprising: the first optical fiber probe, the second optical fiber probe and the third optical fiber probe are respectively and electrically connected with the central controller.

3. The tissue break sensing device of claim 2, comprising: and the central controller is electrically connected with the human-computer interaction device.

4. The tissue break sensing device of claim 3, comprising: the yarn winding device comprises a yarn winding roller, wherein glass fiber warps are wound on the yarn winding roller.

5. The tissue break sensing device of claim 4, comprising: a first roller to which the take-up roller delivers the glass fiber warp.

6. The tissue break sensing device of claim 5, comprising: and the first roller conveys the glass fiber warps to the guide rollers.

7. The tissue break sensing device of claim 6, wherein said guide rollers deliver glass fiber warp yarns to said drop wire seat.

8. The thin fabric warp stop sensor of claim 7, wherein the drop wire seat delivers glass fiber warp yarns to the heald frame.

9. The thin fabric warp break sensing device of claim 8, wherein the heald frame transfers the glass fiber warp yarns to the reed, which transfers the glass fiber warp yarns to the take-up roller.

10. The tissue break sensing device of claim 9, comprising: the human-computer interaction device is connected with the glass fiber warps through the glass fiber cloth.

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