KR101569096B1 - Warp and weft fault detection device for textile weaving machine - Google Patents

Abstract

The present invention relates to a warp and weft error detecting device for a textile weaving apparatus, which is easy to detect a break in warp and weft produced during a textile weaving process using a water-jet loom. The device has a warp and weft error sensor which is located between a friction roller and a textile winding roller, located in a position that the textile is formed, from a weaving ball by interweaving warp and weft when making the textile. In addition, the device detects errors in the textile by a warp and weft error detecting shaft and a current conductive plate connected to a control unit and a wire unit, stops driving of the textile weaving apparatus and repairs a broken textile and errors of the textile weaving apparatus by a user.

Description

Technical Field [0001] The present invention relates to a warp and weft fault detecting device for a textile weaving machine,

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a warp and weft error detecting apparatus for a textile weaving machine, and more particularly, to a warp and weft error detecting apparatus for detecting a warp and weft breakage occurring during a textile weaving process using a water jet loom, The device is located between Friction Roller and fabric take-up roller located at the portion where the fabric is stuck from the fastball where the fabric is wound to find the portion where the warp and weft are not staggered. To a warp and weft error detection apparatus for fabric weaving apparatus capable of producing an excellent fabric.

Generally, a warp yarn is fed during weaving of a fabric using a weaving machine, in particular, a water jet loom, and a warp is opened by a vertical motion of the weft, and weft insertion is performed between the opened warp yarns. The fabric weaving device continues to operate, the weaving condition of the fabric becomes poor and the quality of the product is lowered. In case of severe case, the fabric has to be discarded. To solve this problem, a water jet loom which weaves conventional fabrics causes considerable errors due to rust due to moisture and physical conditions due to dust and vibration generated during weaving, There is a problem that the manpower and the cost are wasted because the manager has to individually identify the fabric that is generated in the machine. In order to solve such a problem, there has been proposed an apparatus for detecting the warp and weft state of a fabric by providing a sensor including a light emitting portion and a light receiving portion in a process of being passed through a friction roller of a fabric weaving machine. However, such a sensor has a problem that it easily breaks down due to moisture, dust, and vibration generated in a fabric weaving machine using a water jet loom.

Accordingly, it is an object of the present invention to provide a yarn removing device which is located between a friction roller and a fabric take-up roller located at a portion where a fabric is wound from a fastener where a warp and a weft are intertwined, And a warp and weft error detecting device for a fabric weaving machine capable of producing an excellent fabric by supplying the fabric quality in an optimal state.

According to another aspect of the present invention, there is provided a warp and weft error monitoring apparatus for a fabric weaving machine, comprising: A warp warp error detector positioned between the shank roller and the fabric take-up roller; A warp and weft error sensor having one end connected to the warp and weft sensor and one or more conductors disposed at one end of the fabric, A current conducting plate formed at a lower portion of the fabric produced by the fabric weaving machine corresponding to one end of the warp and weft-detecting axis and formed of a conductor; .

Preferably, the upper regulating unit is located at the upper end of the warp-caused error sensor and allows the upper end thereof to rotate 360 degrees and adjusts the height thereof. .

A lower end fixing unit positioned at a lower end of the warp yarn error sensor and fixing a lower end of the warp yarn error detector to the fabric weaving machine; .

The warp warp error sensing axis may further include a load control unit coupled to the warp weft error sensor and formed on the warp warp error sensing axis.

The current conduction plate may include at least one support portion at a lower portion thereof; An adjuster capable of adjusting a distance between the current conducting plate and the support portion; .

The fabric weaving machine according to the present invention is characterized in that a warp and weft error detecting device for fabric weaving machine is installed.

According to the present invention, when weaving of a fabric using a weaving machine, in particular a water jet loom, becomes complicated due to warp and weft weaving, the fabric weaving machine is checked with a warp and weft error detector, The user can repair and restart the fabric weaving machine and the user can knit the fabric in a rough state and cope with shipment of the defective product in advance.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
Fig. 2 is an exemplary diagram showing still another embodiment of the present invention
3 is an exemplary diagram illustrating another embodiment of the present invention.
4 is an exemplary diagram illustrating another embodiment of the present invention.
5 is an exemplary diagram illustrating another embodiment of the present invention.
6 is a diagram illustrating an example of the use state of the present invention

Hereinafter, the present invention will be described in detail with reference to the drawings. It is to be noted that the same elements among the drawings are denoted by the same reference numerals whenever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

1 is a view showing the most preferred embodiment of the present invention. Referring to FIG. 1, the warp and weft error detecting apparatus for fabric weaving machine includes warp warp error sensor 100, warp weft error sensing axis 200, current conduction plate 300, and wire unit 430.

The warp and weft error sensor 100 is disposed between the friction roller 400 and the fabric take-up roller 410, which are located at a portion where the warp and weft are intertwined, Located.

The warp warp error sensing axis 200 has one end connected to the warp warp error sensor 100 and one end located at the upper portion of the fabric which is moved from the friction roller 400 to the cloth winding roller 410, And one end coupled to the warp-weft error sensor is connected to the fabric weaving machine control unit and the wire unit 430.

In addition, while the warp yarn is fed during weaving of the produced fabric, warp yarn is opened by the vertical motion of the heald and the weft yarn is introduced between the opened warp yarns by the jet number, A gap is generated when the fabric becomes rough due to an error in the introduction of the weft yarn by the weft yarn, and one end of the warp yarn defect sensing axis 200 is dropped by gravity from the upper portion of the fabric to the lower portion of the fabric.

In addition, the warp warp failure sensing axis 200 senses the other end portion corresponding to the portion where the weft insertion is performed by the jetting number when the fabric is sensed, and detects a defect when the weft insertion is not completed It is desirable to detect.

The current conduction plate 300 is disposed at a lower portion of the fabric produced by the fabric weaving machine corresponding to one end of the warp and weft-detecting axis, and is formed of a conductor and connected to the control portion of the fabric weaving machine through the wire portion 430.

In addition, when one end of the warp and weft-error sensing shaft 200 comes into contact with the current conduction plate 300 due to gravity between the gaps of the fabric, a signal is sent to the control unit of the fabric weaving machine to stop the operation of the fabric weaving machine The user can identify and repair the fabric weaving machine and modify the loosely woven fabric.

2, the warp and weft error sensor 100 is formed as an upper end 110 and a lower end 150, and the upper end 110 is connected to the upper end (130) is provided to adjust the height of the upper end portion, and the upper end portion is rotatable by 360 degrees.

In addition, the warp and weft error sensing axis 200 may be located at the upper end 110 and may be adjusted by the upper regulating unit 130 in accordance with the direction and length at the upper end of the fabric to be woven.

3, the warp warp error detector 100 is formed as the upper end portion 110 and the lower end portion 150, and the lower end portion of the warp and weft error sensor 100 includes a lower end fixing portion 170 are provided to fix the lower end portion to the fabric weaving machine.

The lower fixing part forms a fixing groove and fixes the warping yarn defect sensor 100 between the friction roller 400 and the fabric take-up roller 410 by using a fastening member, 200 are brought into contact with the upper portion of the fabric to be produced.

FIG. 4 is a diagram illustrating another embodiment of the present invention. As shown in FIG. 4, a load adjustment unit 210 for forming at least one groove in the warp and weft error sensing axis 200 is provided, and the load adjustment unit 210 Is controlled by adjusting the length of the warp and weft-detecting axis 200 so that the weaving yarn is not damaged according to the kind of the weaving yarn.

In addition, the load adjusting unit 210 is formed in an empty shape so that a groove is formed in the warp and weft-detecting shaft 200 at a position corresponding to the load adjusting unit 210, and a length Or to control the length by forming a plurality of grooves directly in the warp and weft error sensing axis 200. [

5 is a diagram illustrating another embodiment of the present invention. As shown in FIG. 5, at least one support portion 310 is provided under the current conduction plate 300, And a control unit 330 is provided between the current conduction plate 300 and the support unit 310 to adjust the height of the current conduction plate 300. [ have.

6 is a view illustrating the use state of the present invention. As shown in FIG. 6, a fabric produced by installing the present invention between the friction roller 400 and the cloth take-up roller 410 is wound around the cloth take- When the fabric is defective due to an error in the apparatus that receives the warp and weft while the yarn is moving, the yarn is sensed by the yarn misalignment detecting shaft 200. When the warp yarn is detected by the gravitational force, The fabric weaving machine is stopped by contacting the current conduction plate 300 connected to the wire portion 430. Then, the fabric and fabric weaving machine produced by the user is repaired.

100: warp warp error detector 110:
130: upper regulating portion 150: lower end
170: bottom fixing portion 200: inclined warp error detection axis
210: load regulator 300: current conducting plate
310: support part 330:
400: friction roller 410: fabric take-up roller
430:

Claims (6)

A weft warp error sensor 100 positioned between a friction roller 400 and a fabric take-up roller 410 located at a portion where a warp and a weft are intertwined with each other to form a fabric, );
A warp warp error sensing shaft 200 formed by a conductor having one end connected to the warp weft sensor 100 and the other end positioned at the upper portion of the fabric to be produced and having at least one conductor;
A current conducting plate 300 formed at a lower portion of the fabric produced by the fabric weaving machine corresponding to one end of the warp and weft-detecting axis 200 and formed of a conductor;
A warp and weft error detector for a textile weaving machine
The method according to claim 1,
An upper control unit 130 located at the upper end 110 of the warp-caused error sensor 100 and capable of rotating the upper end 110 360 degrees and adjusting the height of the upper end 110;
A warp and weft error detection device for a textile weaving machine
The method according to claim 1,
A bottom fixing part 170 positioned at the lower end 150 of the warp-caused error sensor 100 and fixing the lower end 150 to the fabric weaving machine;
A warp and weft error detection device for a textile weaving machine
The method according to claim 1,
The warp and weft error sensing axis 200 is coupled to the warp and weft error sensor 100 and is formed on the warp and weft error sensing axis 200.
A warp and weft error detection device for a textile weaving machine
The method according to claim 1,
The current conducting plate 300 includes at least one support portion at a lower portion thereof;
An adjusting unit 330 for adjusting a distance between the current conducting plate 300 and the supporting unit 310;
A warp and weft error detection device for a textile weaving machine
A fabric weaving machine with a warp and weft error detection device for a fabric weaving machine according to any one of claims 1 to 5

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