KR840000453Y1 - A weft guide in the jet loom - Google Patents

Abstract

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Description

Weiss guide in fluid injection loom

1 is a front view of a conventional weiss guide,

2 and 3 are a front view and a main sectional view of another conventional weiss guide,

4 to 7 is a front view, a cross-sectional view, a main cross-sectional view, and a partially cut-out front cross-sectional view of the wesa guide incorporating the present invention,

8 is a front view of a weiss guide showing another example of the present invention.

The present invention relates to a weiss guide in a fluid jet loom.

As shown in Fig. 1 of the prior art, the ejection hole 2 of the auxiliary air stream in the weed guide 1 of the "crossed type" is formed of the arc guide piece 1a and the upright guide piece 1b of this guide 1. A large number of projections were made so as to form an annular shape as a whole on the inner edge side of the annular portion 3.

Thus, through the air passage 4 formed in the weir guide 1, the blowing hole 2 supplied the auxiliary air to the entire outer periphery of the main air flowing in the inlet direction from the main nozzle.

However, since the lower blower hole 2 near the base end of the YIS guide 1 directly blows the air flow from the air passage 4 described above, the blowout power of the auxiliary air flows from the upper blower hole 2 above. It is stronger than blowing air and blows the weft in 5 directions of the "slit" part of this guide 1, so that it cannot be sent in the exact inlet direction, or it can escape from the "slit" part 5 There was problem such as becoming impossible. In order to solve this problem, even if the inner diameter of the blower hole 2 in the lower part mentioned above was made small, the jet power of the auxiliary air flow from each blower hole 2 was made uniform, but the adjustment was very difficult and practically impossible.

In addition, as shown in FIG. 2, in order to eliminate the above-mentioned drawbacks, weide 1, which eliminated the lower blowout hole 2 where strong auxiliary air was blown out, was considered, but the airflow directly hits the inner wall 6 of the air passage 4. As it is dispersed in the air, the flow velocity is slowed and distorted, and the air is injected into the upper blower 7, the inflow resistance of the air is increased and the strength of the auxiliary air from each blower 7 cannot be uniformed.

In addition, as shown in FIG. 3, the auxiliary air flow blown out from the blower hole 7 is blown upward by the straightness of the fluid. There is also a problem.

The purpose of the present invention is to solve the above-mentioned defects, to reduce the inflow resistance of the air stream, and to uniformly distribute the auxiliary air from each ejection hole, and to make the inlet of the weft firmly and smoothly. To provide a weft guide in a fluid jet loom.

The present invention will be described below with reference to Figs. 4 to 7 one embodiment of the weed guide in the fluid injection weaving machine.

10 denotes the entire weiss guide, and 11 denotes a base fixed to a "slay" (not shown), and an arcuate guide piece 12 extending from the upper end of the base 11 to the woven fabric side is formed.

13 is an upright guide piece which is branched and extended to the opposite side to the arc guide piece 12 mentioned above from the upper part of the base 11, and the circular upright hole 14 is formed with the arc guide piece 12. As shown in FIG.

15 is a "slit" formed between the tip portion of the arc guide guide 12 and the upright guide piece 13 described above, and the weft yarn enclosed when the weft guide 10 is tilted to the woven fabric to "bite". It is supposed to be out of 15. 16 is a base air passage formed in the base 11 described above, 17 is a branch wall formed by directing the inner wall of the upper end of the base air passage 16 described above, and the bottom end is formed to be thin. The base air passage 16 branches into the branch guide path 18 on the one side of the arc guide and the branch passage 19 of the side of the upright guide.

The branch passages 18 and 19 on each side of the guide and side of the upright guide have a thickness on the branch wall 17, as shown in Fig. 7, so that they are formed near the outer side of the arc and the upright guide pieces 12 and 13, respectively. The ratio of the sizes of the respective openings 18a and 19a is determined according to the ratio of the areas of the laterally blown openings 21 and 23, and uniformly outputs the auxiliary air flows from each of the blowing holes 21 and 23. It is supposed to be.

20 is the arc guide side air passage in communication with the tip opening 18b of the arc guide side branch passage 18 described above, and as shown in FIG. 7, the inner diameter thereof is widened inwardly larger than the inner diameter of the arc guide side branch passage 18 described above. Lost

21 denotes six ejection holes, as shown in FIG. 4 and FIG. 5, close to the inner side of the inward direction side of the arc guide guide 12 described above, and the air flow from the base air passage 16 is discharged. It blows off as auxiliary air on the center side line of the uptake hole 14 which passed through the arc-shaped guide one side branch path and the air paths 18 and 20.

22 is an upright guide one side air passage in communication with the tip opening 19b of the upright guide one side branch passage 19 described above, and as shown in FIGS. 6 and 7, its inner diameter is larger than that of the upright guide one side branch passage 19 described above. It is greatly widened inward.

23 is an upright in which air flows from the base air passage 16 posted as four ejection holes laid as shown in FIGS. 4 and 5 near the inner edge side of the upright direction of the upright guide piece 13 described above. It is blown off as auxiliary air via the guide piece side branch passage and the air passages 19 and 22.

Next, the utility of the weiss guide 10 configured as described above will be described.

The air flow flowing in from the base air passage 16 is smoothly classified into the arc guide one-side branch passage 18 and the upright guide one-side branch passage 19 without resistance by the branch wall 17, and is ejected from the respective spout holes 21 and 23, respectively.

Therefore, when the air flow is classified by the aforementioned branch wall 17, the flow velocity of the air flow can be prevented from reaching the delay and turbulent flow, and the inflow resistance can be very small.

The ratio of the size of the proximal end opening portion 18a of the branch guide side branch passage 18 formed by the branch wall 17 and the proximal end opening portion 19a of the upright guide side branch passage 19 to the blowhole 21 and the upright guide piece 13 side of the 12 side arc guide guide, respectively. Since it is set according to the area ratio of the blowing hole 23, the blowing output of the auxiliary air of each blowing hole 21, 23 can be made uniform.

In addition, as shown in FIG. 6, the tip opening 19b of the branch passage 19 on the upright guide side (the same as the tip opening 18a of the branch guide 18 on the arc guide guide side) is rearward with respect to the ejection hole 23 by the thickness of the branch wall 17. FIG. Since it is located far away, the air flow from this branch passage 19 toward its exit 23 has a certain angle, which can alleviate the upward angle of the auxiliary air blown out from this blowhole 23.

In this case, if the inner wall 24 of the ejection hole 23 side of the air passage 22 on the upright guide has a thickness in a range where the inflow resistance of the air flow is not too large, the upward angle of the auxiliary air stream can be further alleviated.

In addition, the present invention is not limited to the above-described embodiment, and as shown in FIG. 8, the above-described upright guide piece 13 may be applied to the weiss guide 26 which is bent inward, so as not to depart from the spirit of the present invention. You can change it.

As described above, the present invention is provided with a pair of guide pieces in a secondary arc having a proximal end fixed to a "slave" and forming a standing hole at the distal end of the proximal end, and excluding the lower part of the pair of guide pieces. A "cross-type" weft guide in which blow-out holes communicating with a base air passage formed in the base end described above are provided, wherein a branch for classifying the air flow sent from the base air passage to the upper inner wall of the base air passage described above. By installing a pair of branch passages that direct the walls and feed them into the electric blowout holes installed on the pair of guide pieces, the inflow resistance of the airflow can be reduced and the auxiliary air flow from each blowhole can be reduced. It is possible to make the output evenly, and it is possible to perform the infiltration of the weft firmly and smoothly. Of the outstanding practical guide designed as a weft.

Claims (1)

A pair of guide pieces in secondary arcs are formed in which the proximal end is fixed to a "sleigh" and forms an upright hole at the tip of the proximal end, and is posted on the inner side except the lower part of the pair of guide pieces. In the "cross-type" weft guide in which the ejection hole which communicates with the base air passage formed in the base end was deposited, the airflow sent from this base air passage to the upper inner wall of the base air passage mentioned above. Wefts in a fluid spray loom characterized by forming a diverging wall for dividing the water, and providing a pair of branch passages for feeding into the electric blow-out hole provided in the pair of guides. guide.