SU817107A1 - Device for retaining weft in pneumatic loom - Google Patents

Description

(54) DEVICE FOR RETAINING SECURITY THREAD ON PNEUMATIC MOBILE MACHINE

The invention relates to the textile industry, namely, devices for holding weft threads on pneumatic machines. Closest to the proposed technical entity is a device for holding a weft thread on a pneumatic weaving machine, comprising a pneumatic nozzle connected to a source of compressed air and having a channel for passing the thread, and a control valve made in the form of spring-loaded cylindrical spool with stem 1. Compressed air is supplied from the pneumatic network through a distribution chamber with a spring-loaded slide valve driven by a cam. The duration of the air supply to the ejector depends on the cam profile. However, in the known device, a high consumption of compressed air is required to create the necessary string, since the Slope tube must have a diameter not less than the diameter of the air channel in the throat of the basis of the loom, otherwise the weir thread conditions deteriorate. The purpose of the invention is to increase the reliability of holding the thread before cutting it and reducing the flow of compressed air. The goal is achieved by the fact that the channel of the nozzle for passing the thread communicates with the cavity in the housing for the spool, and the spool is installed with the possibility of blocking the outlet of the channel for passing the thread by means of a sleeve rigidly fixed to the free end of the rod, coaxially with the slide. has a spool travel stop. The slide valve stop is made in the form of at least one adjusting nut connected to the body. FIG. 1 shows the device section; in fig. 2 is a view A of FIG. 1 in FIG. 3 is a section BB in FIG. 1. The device comprises a housing in a hollow cylinder and a channel 2 made therein and a notch 3 dp of compressed air supply, a channel 4 for passing the weft yarn, a gold 5, on the rod b of which the sleeve 7 with holes is fixed coaxially to the valve core. Around the sleeve 7 is located

spring 8, one. the end abutting against the flange of the sleeve 7, the other end of the diffuser 9 fixed in the housing 1. The spool 5 is attached to the stem 6 10, and its stroke is adjusted by the nut 11 and the screw-in depth of the diffuser 9 fixed by the G2 nut,

The device works as follows.

At the time of weaving on the weaving rattle of the weft thread, compressed air from the nozzle of the piercing mechanism is post. goes into the passageway 4 and holds the weft yarn, which is a direct continuation of the air passage in the base of the machine, presses the air stream on the bottom of the sleeve 7, compresses the spring 8 and, moving the sleeve 7, opens the channel 4. Simultaneously with the full opening of the kangsha 4, a gradual complete closing of the recess 3 occurs and the air supply to the chamber is stopped. After the weft yarn is pushed, the outflow of air from the machine nozzle stops and the sleeve 7 under the action of the spring 8 returns to its initial position fixed by the nut 11, as a result of which the opening of the channel 2 opens and the compressed air enters the cylinder 1. After the holes in the bottom bushings 7, it ejects air from channel 4 and creates thrust force to hold the rolled weft yarn before it arrives at the edge of the fabric

When the next weft yarn is being pushed through, the cycle of operation of the device is repeated.

Thus, when the machine is in operation, the sleeve 7 and the valve 5 rigidly connected with it make a reciprocating movement; And also, since part of the wall of the outlet of the canal is made adjustable and movable, it is possible to establish not only the optimal air intake gap but also to minimize the resistance of this gap to the weft of the weft yarn into the machine shed. All this ensures sufficient tension and reliable retention of the rolled yarn, therefore, improving the quality of the produced tissues due to the elimination of marriages due to under-weft. In addition, it creates an economic effect, which is obtained both by reducing the flow of compressed air to keep the weft yarn at its former the length of the piercing, as well as by reducing the weft thread to the machine's mouth at the same air flow rate at its insertion.

Claims (2)

Invention Formula 1, A device for holding a daily thread on a pneumatic weaving machine, comprising a pneumatic nozzle connected to a source of compressed air and having a channel for passing the thread, and a control valve made in the form of a spring-loaded cylindrical spider placed in the cavity of the body with a stem that, in order to increase the Finesse of operation and to reduce the consumption of compressed air, the kangs of the nozzle for passing the thread communicate with the cavity of the body for the spool, and the spool is fitted with the ability to shut off the output An analogue for the passage of iti by means of a sleeve rigidly fixed at the free end of the stem, coaxial with the spool, while the control valve has a spool travel stop. 2. The device according to claim 1, characterized in that the stroke limiter of the slide is made in the form of at least one adjusting nut connected to the body. Sources of information taken into account in the examination 1. Patent of the USSR 99858, cl. D About D 47/30, 1950 (prototype). //////////// m L 7 I I t ±