KR101437507B1 - Multiple weft yarn feeder of air zet loom and feeding method therefor - Google Patents

Abstract

The present invention relates to a method for multi-weft yarn feeding in an air jet loom by which multiple weft yarns can be fed at the same time through a single opening movement. A decompression rate per high-pressure air for weft yarn feeding according to the number of weft yarns, between two and eight, to be fed at the same time is read from a decompression rate memory (24) where decompression rates are previously stored. Based on the read decompression rate, the high-pressure air for weft yarn feeding that is supplied to multiple main nozzles (10) is decompressed so that the two to eight multi-weft yarns sent by the decompressed high-pressure air injected from each of the two to eight main nozzles (10) are allowed to pass through air tunnels (6) of body parts (4) constituting a body. When thick and thin weft yarns are used at the same time, a rip-stop tissue structure like a go board for stopping cloth tearing can be realized. When weft yarns of various colors are used at the same time, geometrical patterns formed by unspecified colors can be expressed. As the weft yarns that are used at the same time tangle or twist, random unevenness can be expressed on a surface of a fabric.

Description

Technical Field [0001] The present invention relates to an apparatus and method for multi-position weaving in an air-jet loom,

The present invention relates to an air jet loom, and more particularly to a multi-weft threading device that allows multiple weft yarns to be simultaneously brought together in a single opening motion to enable a variety of weave texture expressions or color representations.

BACKGROUND ART In general, an air jet loom is a loom for weaving a fabric using a nozzle having a small amount of compressed air and holes without using a shuttle for supplying weft (warp) in a direction perpendicular to the warp, and is widely used for improving productivity and reducing noise have.

Weaving in an air jet loom is divided into a shedding motion which divides the incline into upper and lower parts to form an opening through which the weft can pass, a picking motion which sends out the weft through the opening formed by the opening movement, And a weaving operation by pushing the weft passed through the opening to the pel plate as a body to make the warp and the weft form a single structure.

In this weaving process, the opening motion is performed by vertically staggering the sheaves connecting a large number of slopes, thereby forming an opening through which the weft yarns can pass. Such a shearing motion causes the pair of shearing frames to move up and down in a staggered manner An opening is formed. In addition, the body stick motion is enabled because the body shaft, which receives the driving force from the driving motor, performs angular motion and the body fixed to the body shaft reciprocates constantly in the forward and backward directions.

In the case of such an air jet loom, one weft yarn is inserted into one weft yarn movement, and weft yarn weaving is performed by inserting several weft yarns into one opening.

If a plurality of weft yarns can be put into one opening movement, various texture expressions and color expressions can be performed, so that a lot of people can get a response and productivity of weaving will be improved.

Japanese Patent Application Laid-Open No. 10-1050451 entitled "Upper Saddle Stitcher for Air Jet Room Loom Using Idle Power"

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a multistage admission system that allows multiple weft yarns to be simultaneously brought into contact with a single opening motion, thereby enabling various woven texture expressions or new color expressions and improving weaving productivity.

In accordance with the present invention, there is provided a method of multi-directional weft insertion in an air-jet loom in order to simultaneously load multiple wefts with a single opening movement, wherein the weft supply according to the number of wefts Pressure high-pressure air for high-pressure air. The high-pressure air for weft supply supplied to a plurality of main nozzles is depressurized by a pressure reducer on the basis of the pressure reduction rate read and read from the memory, So that the multiple wefts conveyed in the air pass through the air tunnel of the body which constitutes the body.

At this time, when the air pressure ratio of the high-pressure air at the time of one weft is 100%, the air pressure of the low-pressure high-pressure air is 8, and the total air pressure of the high- And the air pressure supplied to the main nozzle is reduced so as to have a proportional relationship with the number of simultaneous upward and downward motions.

The present invention also relates to an apparatus for multiple weft insertion in an air jet loom, comprising: a plurality of main nozzles for collecting and delivering weft yarns to high-pressure air for weft supply; A pressure reduction rate memory for storing a pressure reduction rate per high-pressure air for weft supply according to the number of wefts of 2 to 8 to be simultaneously introduced into the air tunnel of the body wash, And a pressure reduction ratio control unit for reducing pressure control of the pressure reducer according to the number of wefts of 2 to 8 simultaneously introduced with reference to the pressure reduction rate memory to supply the reduced pressure high pressure air to each main nozzle.

The present invention uses multiple weft yarns by allowing a plurality of weft yarns to be woven while being simultaneously woven with a single oblique opening movement in an air jet loom. For example, when coarse weft yarns are used at a time, It is possible to express the shape of rip-stop tissue like array, and it is possible to express the geometric pattern which is made by unspecific color by using wefts of various colors at once, It is possible to make a fabric having a new texture or color combination by waving a random irregularity on the surface of the fabric.

Brief Description of the Drawings Fig. 1 is a schematic configuration view of an apparatus for multiple weft insertion in an air jet loom according to an embodiment of the present invention, Fig.
FIG. 2 is a view showing a state in which multiple wefts pass through an air tunnel of a body part;
3 is a block diagram of a memory map of the pressure reduction rate memory of the pressure reduction ratio control section of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of a multi-position false entry in an air-jet loom in accordance with an embodiment of the present invention, in which a single weft opening movement in an air- the appearance of the rip-stop tissue form, the geometric pattern expression created by the unspecified color, and the random irregularity expression on the surface of the fabric, thereby providing a new texture, shape and color expression on the fabric.

2 is a view showing a state in which multiple wefts pass through an air tunnel 6 formed by grasping the upper part of a large number of body fingers 4 constituting a body 2 that performs an oblique opening motion according to an embodiment of the present invention .

Before describing an apparatus and method for weft insertion of an air-jet loom according to the present invention, a configuration for weft insertion in an air-jet loom will be described with reference to FIGS. 1 and 2. FIG.

Referring to FIGS. 1 and 2 together, a number of body fingers 4 are tightly arranged in a transverse arrangement in a body 2 that performs an opening motion to open an incline, and on the upper part of many body fingers 4, An air tunnel 6 is formed so that the air passage 8 can be passed therethrough.

A main nozzle 10 for spraying high-pressure air for weft supply is installed on the entrance side of an air tunnel 6 formed so as to cover the upper part of many body fingers 4. In the present invention, a plurality of wefts 8 are simultaneously introduced A maximum of eight main nozzles 10 are installed concentrically.

And a plurality of subnozzles 12 for pushing the weft yarn 8 passing through the air tunnel 6 to compressed air so as to be interlaced to the final arrival position are arranged above the air tunnel 6. [ A plurality of subnozzles 12 add momentum to the weft yarn 8 passing through the air tunnel 6 by sequentially injecting sub-air carriers in accordance with the arrangement order. A weft sensor 9 is installed in the vicinity of the exit of the air tunnel 6 to detect whether the weft yarn 8 is upright or not and to provide a warp weft signal according to the detection of the superior twist yarn to the weft yarn controller, Allows the body acupuncture movement to occur after the forehead.

The multistage openings according to the present invention are installed with a plurality of main nozzles 10 so that a plurality of wefts can be simultaneously introduced by a single inclined opening movement in an air jet loom.

According to the present invention, the number of the main nozzles 10 to be focused according to the present invention is 2 to 8 as determined by the inventors through experiments, and is adjusted within a range of 2 to 8 according to the thickness of the weft or the need of the weaving machine. If the number of yarns exceeds 8, the yarn can escape from the air tunnel 6, causing loom stoppage due to failure of the weft sensor 9 to detect the yarn twist. If the number of weft yarns is one, it is not a multiple weft yarn.

According to the present invention, the weft yarn fed from the corresponding weft yarn supply unit 14 is fed into each of the two to eight main nozzles 10, and high-pressure air for supplying the corresponding weft yarn feed yarn is fed. Therefore, in each main nozzle 10, the weft yarn 8 is loaded on the high-pressure air and sent out to the air tunnel 6 on the body flesh 4.

A start air compressor 16 is provided to supply the high-pressure air for supplying weft yarn to each of two to eight main nozzles 10, and a start air compressor 16 and two to eight main nozzles 10 The number of the main nozzles 10 is set to be equal to the number of the air delivering pipes 26 and a solenoid valve 18 is provided on each of the pipes 26 for air pressure control and air pressure control according to the thickness of the weft.

Further, in the present invention, the pressure reducer 20 is provided between the solenoid valve 18 on the pipe 26 and the main nozzle 10, and the number of wefts in 2 to 8 And a pressure reduction ratio control section (22) for controlling the pressure reduction of the pressure reduction device (20).

The pressure reducing unit 20 may be implemented by using a regulator or an electronic control valve or an equivalent thereof and the pressure reducing rate control unit 22 may control the pressure decrease rate of the gas to be supplied to the air tunnel 6 And a decompression rate memory (24) storing the decompression rate per high-pressure air for supplying weft yarn according to the number of weft yarns in the eight yarns.

The depressurization rate per high-pressure air for weft supply stored in the decompression rate memory 24 is an average depressurization rate for many wefts. The difference in the thickness of each weft or the difference in processing conditions causes the decompression rate per high- Additional adjustments can be made independently.

The present invention includes an input / output unit 23 for a user interface with the pressure reduction ratio control unit 22. The input / output unit 23 is divided into a display unit and an input unit. The operator can confirm the pressure reduction ratio per predetermined high-pressure air through the input / output unit 23. Further, by using the input / output unit 23, it is possible to independently perform additional adjustment for each weft in consideration of the characteristics of the weaving operation with respect to the average depressurization rate per high-pressure air for weft supply.

FIG. 3 is a memory map configuration diagram of the pressure reduction rate memory 24 of the pressure reduction rate control unit 22 of the present invention. The total sum of the air tunnel airflow pressure and the high- The rate of decompression per unit time is matched and stored.

The inventor of the present invention conducted numerous experiments and found that when the air pressure ratio of the high-pressure air for supplying the weft yarn at the time of one weft is 100%, the air tunnel 6 of the body yarn 4 is fed with eight weft yarns It was recognized that the total air pressure ratio of high-pressure air should be 200%. As shown in FIG. 3, the air pressure supplied to the main nozzle 10 was reduced to obtain a proportional relationship to the number of simultaneous upper limit number of 2 to 8 ranges, thereby obtaining the pressure reduction rate per high pressure air for weft supply.

That is, when the number of the wefts is one as in the conventional case, the total air-tunnel air pressure ratio to be sent to the air tunnel 6 is 100%, the pressure reduction rate per one high-pressure air is 0%, and the number of weft- The total air tunnel air pressure ratio is 120% and the decompression rate per one high pressure air is 40%. If the number of weft weft is 3, the total air tunnel air pressure ratio is 150%, and the total air tunnel air pressure ratio is 150% The decompression rate per air is 50%.

If the number of wefts is 4, 5, 6, or 7, the total air tunnel air pressures are 160%, 170%, 180%, and 190%, respectively. If the number is 8, the total air tunnel air pressure is 200%, and the decompression rate per one high-pressure air is 87.5%.

It is to be understood that the depressurization rate per high-pressure air for weft supply shown in FIG. 3 is an initial set value, and can be updated and registered by the operator as required by the work.

In addition, the pressure reduction rate per high pressure air for weft supply can be adjusted according to the thickness of each weft or the difference in processing conditions. That is, the multiple wefts may be classified according to the thickness of the weft or the difference in the processing state so that the pressure reduction rate memory 24 may be independently pressurized or depressurized based on the pressure reduction rate (initial value) per predetermined high pressure air for weft supply.

For example, if the number of simultaneous weft wefts is three, the decompression rate per high-pressure air for weft supply set in the decompression rate memory 24 is 50%, and the operator selects one of three weft yarns 50% and the remaining two can be adjusted to have a reduced pressure ratio of 45%, which is higher than the initial value.

As another example, if the number of simultaneous weft wefts is two, the decompression rate per high-pressure air for weft supply set in the decompression rate memory 24 is 40%, and one of two weft yarns Value of 40% and the other one is pressurized rather than the initial value so that the decompression rate is 0%.

The additional pressurization adjustment for each gypsum to the pressure reduction rate per the initially set high-pressure air can be independently performed for each weft, and adjustment can be performed using the input / output unit 23 under the control of the pressure reduction rate control unit 22.

As described above, under the control of the pressure reduction rate control unit 22 referring to the pressure reduction rate memory 24, in order to allow 2 to 8 multiple wefts to be simultaneously introduced by a single tilting opening motion, Pressure air is injected from each of the main nozzles 10 so that even if two to eight wefts are simultaneously introduced into the air tunnel 6 of the body flesh 4, the weft insertion is normally performed. The weft sensor 9 located at the outlet of the air tunnel 6 senses the weft of all the wefts simultaneously loaded with 2 to 8 pieces of weft yarns, will be.

In the present invention, a plurality of wefts can be woven while being woven in a single oblique opening movement. By using thick and thin wefts at once, rip-stop tissue structure such as a checkerboard arrangement And the use of various colors of wefts at once allows for geometric patterns that can be created by unspecified colors and allows random expressions of irregularities on the surface of the fabric as the wefts are stacked or twisted at random.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be limited by the described embodiments, but should be determined by the scope of claims and equivalents thereof.

(2) - Body frame (4) - Body flesh
(6) - Air tunnel (8) - Weft
(9) - Weft detectors
(10) - main nozzle (12) - sub nozzle
(14) - Weft supply part (16) - Start air compressor
(18) - Solenoid valve (20) - Pressure reducer
(22) - Pressure reducing rate control part (24) - Pressure reducing rate memory

Claims (3)

A method for multiple weft insertion in an air jet loom in order to allow multiple wefts to be simultaneously implanted with a single opening movement,
The high pressure air for weft supply, which is supplied to a plurality of main nozzles based on the pressure reduction rate read from and read from the pressure reduction rate memory storing the pressure reduction rate per high pressure air for the weft supply according to the number of wefts to be simultaneously loaded, And the multiple weft yarns transported to the reduced pressure high-pressure air jetted from each of the two to eight main nozzles are caused to pass through the air tunnel of the body that constitutes the body.
The air conditioner according to claim 1, wherein the reduced-pressure high-pressure air has an air pressure ratio of 100% of the high-pressure air at the time of one weft insertion, and the total air pressure of the eight high- And the air pressure supplied to the main nozzle is reduced so as to have a proportional relationship with 2 to 8 simultaneous upward twisted yarn counts.
In an apparatus for multiple weft insertion in an air jet loom,
A plurality of main nozzles for collecting and delivering weft yarns to high-pressure air for weft supply,
Pressure air for supplying each weft supply from an air compressor to each of the plurality of main nozzles,
The number of wefts between 2 and 8, which have the pressure reduction rate memory storing the pressure reduction rate per high pressure air for the weft supply according to the number of wefts in 2 to 8 simultaneous entry into the air tunnel of the body wash, Wherein the pressure reducing unit controls the pressure reducing unit to supply the reduced pressure high pressure air to each of the main nozzles.

Images