KR830002353B1 - Implantation apparatus in jetloom - Google Patents

Abstract

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Description

Implantation apparatus in jetloom

1 is a schematic side view of an embodiment showing a loom incorporating the present invention.

FIG. 2 is a schematic plan view of FIG.

3 is a side view showing a guard piece of one embodiment according to the present invention.

4 is a cross-sectional view taken along line 1-1 of FIG.

5 is a II-II cross-sectional view of FIG.

6 is a schematic plan view of some cross-sections of one embodiment illustrating the functionality of the present invention.

7 is a schematic plan view of a partial cross section showing the function of a conventional apparatus.

The present invention relates to an auxiliary nozzle for injecting an auxiliary fluid on a sleigh and an inlet apparatus of a jet room provided with a plurality of guide members for guiding the auxiliary fluid and the weft yarn.

Conventionally, a plurality of guide members are provided in order to guide the fluid and the weft yarn on the sleigh, and a guide member having a substantially circular shape is provided on the guide surface to form a substantially cylindrical passage in the inlet direction and sprayed from the main nozzle. It is known that the fluid is made to pass near the center of the cylindrical passage so that the weft thread runs in the space of the cylindrical passage, but the present invention is not intended for this kind of entrainment.

This type of entraining device is easy to install because of the installation of the auxiliary nozzle, which enables stable entraining regardless of the width of the fabric, and the opening of the weft of the guide member that supports the auxiliary nozzle is easy to install. It has the advantage of being easy to grasp the state of intrusion. However, this stable infiltration is exerted when the infiltration is performed at a relatively low speed. However, in order to make the infiltration rate higher, not only the wetting speed of the weft thread but also the infiltration stability are increased even if the fluid velocity is increased. Inhibiting texture

The present invention is to improve the configuration of the guide member in the half-opened state and to inject the auxiliary fluid therein to solve the above-mentioned drawbacks of the conventional apparatus and to increase the speed of the gastric inlet while maintaining gastric stability.

EMBODIMENT OF THE INVENTION Hereinafter, the content of this invention is demonstrated in detail based on drawing.

1 and 2 schematically show an embodiment of a loom to which the present invention is applied, in which 1 is a sleigh fixed to sword 2 reciprocating in the volcanic direction by a drive mechanism not shown in the drawings. to be. The guide member and the auxiliary nozzle 5 which are comprised by the body 3 and the guide piece 4 are arrange | positioned at the 1st of a sled. As shown in FIG. 2, a plurality of guide pieces 4 are arranged side by side in the inlet direction and guide surfaces of the fluid and the weft yarn are formed by guide walls 6 half-opened to the body side thereof. In addition, the auxiliary nozzle 5 every predetermined interval

3 to 5 show a guide piece 4 constructed in accordance with the present invention, wherein the guide piece 4 is half-opened at the top and forms a guide wall 6 of the wall surface in the opening. In addition, the guide wall 6 is inclined such that both the lower surface and the longitudinal surface of the guide wall 6 extend from the opposite side to the upper mouth. Moreover, the lower surface of the guide wall 6 is also inclined downward, which is configured so that the guide piece 4 does not pull the inclination when entering the inclined opening.

Next, the effect of this invention is demonstrated. FIG. 6 (invention) and FIG. 7 (conventional apparatus) are the same in that only the point which inclines so that guide wall 6, 6 'may be widened toward the upper entrance side, and the point is flat, and all other conditions are the same. Referring to the conventional apparatus of FIG. 7, the auxiliary fluid injected from the auxiliary nozzle 5 radially diffuses in the conical direction at the opening 7, and denotes a streamline at the highest flow velocity position. Therefore, as it moves away from a, it becomes a streamline at a position where the flow velocity is low (this is also the case in FIG. 6). The streamline a collides with the indentation side end of the guide wall 6 'of the guide piece 4' in the position (b) and reflects in the indentation direction at a predetermined angle. The streamline b also collides with the end on the opposite side of the guide wall 6 'of the guide piece 4' of (b) and also flows in the upright direction. The streamline e flows in the indentation direction without colliding with the guide piece 4 'of (b). However, since the streamline d passes through the end opposite to the indentation side of the guide wall 6 'of (a) and collides with the side of the guide piece 4' of (b), it leaks behind the mode guide piece 4 '. Therefore, all of the fluids in the range A 'ranging from a to d become leaking fluids and flow behind the guide piece 4' and are not effective because the weft yarns are run off. Moreover, in the case of the conventional apparatus, it is the fluid of position a-bubble having the highest flow rate with the fluid having a range A ', and since most of them become leaking fluids, the utilization efficiency of the fluid for increasing the inlet velocity is extremely poor. However, many leaking fluids in this conventional apparatus exhibit the function of retaining the weft weft on the guide wall 6 'side on the contrary, resulting in the improvement of the inlet stability. However, the leaked fluid pushes the weft on the guide wall 6 'side more than necessary to increase the chance of contact with the guide wall 6'.

In the present invention shown in FIG. 6, the guide wall 6 is inclined so as to extend from the upper side. The streamlines a, b and e flow in the same indentation direction as before. However, the streamline a collides with the central portion of the guide wall 6 in (b), and the streamline c in a position where the streamline a position bougle has a relatively high velocity collides with the upstream side end of the guide wall 6 in the position (b). Flows into. Therefore, the leakage fluid region A in the streamlines c to d is extremely reduced and in particular, the fluid near the high position of the flow rate necessary for increasing the inlet velocity, that is, the streamline a neighborhood

In addition, in the present invention, in order to make the guide wall 6 into an inclined surface in which the upper inlet side is enlarged, the peeling phenomenon of the leakage fluid occurs more than the case where the guide wall 6 'is flat as in the conventional apparatus, and turbulence between the guide pieces is caused. The area of occurrence becomes extremely wide. As a result, the space through which the leaking fluid other than the turbulent region can pass becomes extremely small, so that the leaking fluid is reduced. That is, in the present invention, the leakage fluid area is reduced and the influence of the fluid peeling phenomenon acts synergistically to reduce the leakage fluid to the extreme compared to the conventional apparatus.

The object of the present invention is to open the weft guide portion of one guide member or several guide members corresponding to the auxiliary nozzle among the guide members arranged on the sleigh approximately half, so that the remaining guide member has a slit from which the weft thread comes out when the body strikes. In the form of one approximately closed shape, or in the form of roughly half opening of the weft guides of all guide members, the guide being formed by deforming a part of the body to form a guide member and formed by the opening face of the copper guide member. Limited in the form of injecting an auxiliary fluid into the wall

In general, when the injection angle of the injection hole 7 of the auxiliary nozzle 5 is constant, the inclination angle of the guide wall is inversely proportional to the space ratio of the guide member. However, the inclination angle θ of the guide wall in the present invention is 0 ° by experiment. A range of <θ <30 ° is preferable, and in this case, it is preferable to set the injection angle of the injection port 7 of the auxiliary nozzle 5 to 5 to 60 ° with respect to the indentation direction.

In addition, the setting of the inclined surface on the guide wall is sufficient to achieve the effect of the present invention even if performed only on the deepest side of the opening surface, and the upper side and the lower side of the guide wall can be more effective in preventing unnecessary fluid leakage. will be.

In the case of the present invention, the leakage fluid is extremely reduced, so that the conventional sting stability performance is lowered. Furthermore, since the guide wall 6 is light, the reflection angle of the fluid is increased. It may be pushed toward the opening side, and as a result, it may be considered that the gastric incidence performance is greatly impaired. However, in the present invention, as shown in FIG. 6, the presence of the leaked fluid region A to some extent and the force pushed toward the opening side of the guide piece 4 with respect to the weft yarn are such that the angle of reflection of the reflecting fluid at the streamline b to c position is Although it is caused by the size, there exists an auxiliary fluid in the upstream direction at the position of the streamline e on the opening side rather than the reflective fluid, so that the flow of the reflective fluid is disturbed by the auxiliary fluid and the phenomenon flows in the total inflow direction as a whole. Therefore, the force for pushing the weft yarn toward the opening side is reduced, and rather, the force pushing in the direction of the indentation while maintaining the weft yarn on the six side walls of the guide wall acts strongly, thereby exhibiting stability that does not lag behind conventional devices.

Incidentally, the inclined surface of the present invention does not necessarily need to be applied to all of the guide walls, and may be applied only to the guide member or several guide members corresponding to the auxiliary nozzles. Moreover, it can be applied also to the so-called guided body of the deformed body type which combined the body, the fluid and the weft of the guide, and can exhibit the same effect.

As described above, the present invention forms a part or all of the guide wall of each guide member arranged in the upward direction in an inclined surface that extends toward the upper entrance side, and directs the fluid injection port of the auxiliary nozzle with respect to the guide wall. The use efficiency of the auxiliary fluid for the system can be extremely increased, and the positional velocity can be made higher while maintaining the gastric stability.

In addition, by guiding the inclined surface of the guide wall, the injection angle of the auxiliary nozzle can be increased with respect to the inlet direction. As a result, the distance from the auxiliary nozzle to the guide wall can be shortened and the inlet speed can be increased. You can get speed.

In addition, since the leakage fluid is reduced by the inclined surface of the guide wall, the gap between the guide members can be increased so that the inclination of the inclined can be prevented and the weaving of the fabric having a high inclined density is also possible.

Claims (1)

A jet room in which a plurality of guide members for guiding fluid and weft yarns on the sleigh are arranged in the inlet direction and opened toward the guide surface formed by the guide members, the jet room being arranged to support at least the auxiliary nozzles. An inclined surface is formed such that the guide wall of the guide member extends from the opposite side to the upper inlet side, and the opening of the auxiliary nozzle is directed to the inclined surface of the guide member.

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