CS232158B1 - Nozzle for weft insertion into shed by liquid current - Google Patents

Abstract

The invention relates to a clogging nozzle the weft into the shed by the fluid flow on the hydraulic weaving machines. Essence The invention is based on the fact that in the hollow cylindrical a nozzle body provided with an inner circumferential groove connected to the inlet pressure fluid, one is arranged needle with longitudinal grooves placed on the circumference of the needle, secondly in the hollow, cylindrical an axial insert is located in the housing a conical bore, the embodiment of which is such that between the insert and the conical « the flat of the needle forms an annulus, of which »Cross section is in the direction of the longitudinal grooves * decreases to the conical surface of the needle.

Description

, HUDEČEK JOSEF ing. TÝNIŠTĚ NAD ORLICÍ

I i

(54) Nozzle for inserting the weft into the shed by a liquid stream

BACKGROUND OF THE INVENTION The present invention relates to a nozzle for inserting a weft into a shed by a flow of liquid on hydraulic weaving machines. SUMMARY OF THE INVENTION In a hollow cylindrical nozzle body provided with an inner circumferential groove connected to a pressurized fluid supply, a needle is provided with longitudinal grooves located on the periphery of the needle, and on the other hand a hollow cylindrical body is provided with an axial conical bore, the design of which is such that between the insert and the tapered «

The cross-sectional area decreases in the direction from the longitudinal grooves * to the conical surface of the needle.

18 19

232 158

BACKGROUND OF THE INVENTION The present invention relates to a nozzle for inserting a weft into a shed by a jet of liquid on hydraulic nozzle states.

The nozzle of a hydraulic weaving machine is a device in which the pressurized liquid supplied to the pipe is transformed into a jet or a jet which usually wraps the supplied weft through the center of the nozzle and introduces it into the shed. Numerous nozzle designs are known, the common feature of which is to provide an internal arrangement of the nozzle so that the resulting liquid jet exerts a maximum pulling force on the weft, preferably for the entire duration of the weft clogging.

The better the nozzle meets this requirement, the greater the possibilities of utilizing the hydraulic weaving machine, both in terms of increasing the throughput and expanding the technological possibilities of these machines.

In known nozzle embodiments, the pressurized fluid is supplied through an inlet to the pressure chamber, which axially terminates in a hollow needle, the center of which is a weft in the nozzle. The disadvantage of this embodiment is that the fluid flow in the pressure chamber is bent several times spatially, whereby both hydraulic losses occur and, furthermore, the liquid particles are subjected to considerable turbulent movement, which can no longer be completely eliminated in the nozzle outlet section. Turbulence embryos in the nozzle exit jet result in the integrity of the jet during shed travel, thereby reducing the tensile force of the jet and other phenomena adversely affecting machine operation and performance. It is also known to provide an embodiment of the above-described construction by inserting an insert with an outer circumferential groove. The flow of liquid first fills this groove and then penetrates the pressure chamber through the axial holes. The filling of the pressure chamber is more uniform in this case, but in the pressure chamber the undesirable swirling again occurs due to the sudden expansion and joining of the individual fluid streams flowing from the peripheral groove of the insert through the axial holes. A common disadvantage of the above embodiments is the fact that the nozzle consists of a plurality of cylindrical bodies slid into each other. Thus, the manufacturing tolerances are added up, and thus the symmetry of the nozzle outlet ring is influenced even if the manufacturing accuracy is maintained.

Other known nozzle designs consistently aim to substantially reduce turbulence in the pressure chamber and thereby eliminate the major factor negatively affecting the quality of the jet of liquid exiting the nozzle. For this purpose, the pressure chamber is provided with an insert with a set of axial and radial grooves or an insert formed from a mesh fabric. In these nozzle designs, the fluid flow is already controlled in a more convenient manner, the swirl is reduced, but the disadvantage is the high manufacturing cost of the inserts, both the grooved inserts and the sieve fabric inserts.

It is an object of the invention to provide a nozzle which does not have the above-mentioned disadvantages. In the jet of liquid formed in this nozzle, germs of undesirable turbulence are suppressed, since the jet of liquid passing through the nozzle is appropriately axially directed, the nozzle being designed to be easier to manufacture and thus to achieve higher accuracy and hence quality of the nozzle. The principle of the invention consists in the fact that in a hollow cylindrical nozzle body having an inner circumferential groove, which is symmetrical to the axis of the inner longitudinal bore and interconnected by a further bore with the pressurized fluid supply. than the outer diameter of the needle, they continuously extend radially at the circumference of the needle at that of the two lateral edges of the inner circumferential groove which is more distant from the cylindrical diameter of the needle than the outer diameter of the needle. equal to the width of the inner circumferential groove, on the one hand, there is an insert in the hollow cylindrical body of the nozzle provided with an axial conical bore into which the conical surface of the needle engages with play; and a conical needle surface extending in the direction of the longitudinal grooves of the needle to a cylindrical diameter less than the outer diameter

232 158 of the needle, beyond this cylindrical needle diameter, is formed by an annulus whose cross section decreases in the direction from the longitudinal grooves to the conical surface of the needle.

With respect to nozzle alignment, it is preferable that the needle is rotatably supported in the body by a threaded connection of the needle to the face which is fixedly connected by bolts to the body, the needle thread having a diameter equal to the outer diameter of the needle and the nut is detachably connected to the needle.

Further advantages and features of the present invention are apparent from the following description, wherein FIG. 1 is a longitudinal schematic section of the nozzle; FIG. 2 is a cross-section of the nozzle in the plane A-A of FIG. 1.

The nozzle consists of a hollow, cylindrical body 1 provided with an inlet opening 2 for supplying pressure fluid. The nozzle body 1 further comprises an inner circumferential groove 3, which is symmetrical to the axis of the inner longitudinal bore 4, the bore 4 whose diameter is less than or equal to the width of the groove 2, opens into the inner circumferential groove 3. provided in its part adjoining the circumferential groove 3 by longitudinal grooves 6 such that the longitudinal grooves 6, starting from the cylindrical diameter 8 of the needle 5 smaller than the outer diameter of the needle j, continuously extend radially at the periphery of the needle 5 at that two side edges a groove 3 which is more distant from the cylindrical diameter 8 of the needle 11 than the diameter of the needle, wherein the length of the grooves 6 at the periphery of the needle is greater than or equal to the width of the inner circumferential groove 2. of the groove 6 at the end of this path the needle 5 is provided with an outer conical pl 7, wherein the transition between the conical surface 7 and the grooves 6 is formed by a cylindrical diameter 8 < In the axis of the needle 5, an opening 9 is provided which, in the direction away from the conical surface 7 of the needle jj, flows into the inner conical opening 10; On the side of the aperture 10, the needle 5 is provided with a thread 11, the outer diameter of which is identical to the outer diameter of the needle jj by which the needle jj is housed in the body 1. In the body 1 the needle 5 is rotatable and movable. From the side of the tapered bore 10, a nut 14 is screwed on the needle jj on the thread 11 extending from the face 12, but it is firmly but releasably connected 4 232 1S8 in a known manner, for example by means of a screw. 15, with the needle therein, so that the needle j is securely secured in the selected position.

In the opening 4 of the body 1 there is also an insert 16 provided with an axial tapered bore 17 into which the tapered surface 2 jly blends. The dimensions of the tapered bore 17 and the position of the insert 16 relative to the needle 5 are achieved. A cross-section is formed between the insert 16 and the conical surface 7 of the needle, the cross section of which decreases in the direction from the grooves 6 to the conical surface of the needle 2, and the cross-section of the annulus can be controlled. From the side of the liner 16, the face 18 is fastened to the body 1 by screws 19, resulting in a hollow cylindrical portion 20 in the direction of liquid flow. The needle 2 and the liner 16 are also provided with recesses 21 in which the sealing ring 22 is located.

The pressure fluid supplied through the opening 2 fills first the space defined by the groove 2 and then radially enters the grooves 6 ^{in the} grooves 6 the direction of flow gradually changes to axial, whereupon the individual axial flows into the conical annulus where by axial and laminar flow of individual liquid particles.

Upon leaving the conical surface J of the needle 2, the liquid jet surrounds the weft thread introduced through the opening 9, adheres thereto, thereby exerting a tensile force in the weft and introducing the weft into the shed.

Optional regulation of the nozzle outlet flow cross section can be accomplished by unscrewing or screwing the needle 2 through the nut 14.

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SUBJECT OF THE INVENTION

232 158

Claims (2)

232 158 A nozzle for inserting a weft into a shed by a liquid jet on hydraulic weaving machines, characterized in that, in a hollow cylindrical nozzle body (1) having an inner circumferential groove (3), which is symmetrical to the axis of the inner longitudinal bore (4) and connected (2) with a supply of pressurized fluid is arranged, rotatably and displaceably, a needle (5), whose longitudinal grooves (6), starting from a cylindrical diameter (8) smaller than the outer diameter of the needle (5), continuously extend radially at the periphery a needle (5) at that of the two lateral edges of the inner circumferential groove (3) which is more distant from the cylindrical diameter (8) of the needle (5) smaller than the outer diameter of the needle (5), 5) is greater than or equal to the width of the inner circumferential groove (3) »secondly, in the hollow cylindrical nozzle body (1) there is an insert (16) provided with an axial tapered bore (17) into which the conical surface (7) of the needle (5) engages with play, the dimensions of the axial conical bore (17), the position of the insert (16) and the conical surface (7) being between the insert (16) and the conical surface (7) of the needle (5) located in the direction from the longitudinal grooves (6) to the cylindrical diameter (8) of the needle (5) smaller than the outer diameter of the needle (5) beyond the cylindrical diameter (8) of the needle (5) of the grooves (6) to the conical surface (7) of the needle (5) decreases. Nozzle according to claim 1, characterized in that the needle (5) is rotatably and slideably in the body (1) yca35z ' by means of a threaded connection of the needle (5) to the body (12) which is fixedly connected by screws (13) to The thread (11) of the needle (5) has a diameter equal to the outer diameter of the needle (5) and a nut (14) is detachably connected to the needle (5) on a portion extending from the end 0.2. 1 drawing 232 158 Giant. and