CS255095B1 - Device for detecting breaking threads - Google Patents

Abstract

The present invention relates to a device for detecting the breaking of bonding yarns for reinforcing the edges of fabrics by non-film weaving machines with a rotary leno. The essence of the device is that it is formed by an electrically non-conducting body, attached to the control arm of the rotary entanger and provided with a pin, where an electrically conductive fork arm is pivotably mounted on the pin, the pivot path of the electrically conductive fork arm is perpendicular to the path of the binding yarns between the rotary coupler guide two electrically conductive stroke restrictors are provided in the pivot path of the electrically conductive fork arm, which are connected mechanically to the electrically non-conductive body and electrically to the first supply terminal, while the electrically conductive fork arm is electrically connected by the 3 second supply terminal . The solution can be advantageously used in the construction of weaving machines.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for detecting the breakage of binder yarns for reinforcing the edges with a rotary leno in a cordless loom.

When weaving on cordless weaving machines, additional yarns bound mainly by leno weave are used to strengthen the weave of the fabric in the edges.

One method of forming a leno weave utilizes a mechanism that creates a leno weave by completely crossing and twisting two binding yarns, a so-called rotary entanglement. This method of forming a reinforcing leno weave is very advantageous and, due to the continuous rotational movement of the weave formers, particularly suitable for high-speed weaving machines.

However, a drawback of the rotary entanglement is that due to the spatial movement of the binding threads, it is difficult to detect the breakage of the binding thread by the stopper.

There is known a stop with mechanical alternating palpation of the binding threads in the shed opening, which in the case of a yarn breakage closes the electrical contact controlled by the palpation arm.

The disadvantage of this stop, however, is that it requires sufficient tension in the binding threads to function, which is not satisfactory for all types of base fabric binding and requires sufficient binding thread strength. Failure to observe these conditions will result in false stops and loss of power to the weaving machine.

It is also known to lock the threads of a rotary entanglement, utilizing the tension compensation arms in shed rotation, located on the carrier of the spools of the binding threads, which rotates against the twisting direction of the binding threads in the shed according to the principle of the rotary entanglement. In the event of a breakage of the weave, the compensating arm is straightened and upon rotation of the bobbin carrier it encounters a fixed stop located on the entanglement frame, thereby stopping the entire weaving machine.

The disadvantage of this stop, however, is that it is only suitable for weaving with smooth, for example silk yarns, that allows! moving the broken thread to the position of the compensating arm on the rotating bobbin carrier. For hairy yarns, they often become entangled at break, which prevents them from sliding along with the stop of the stop.

The above-mentioned disadvantages of the prior art are largely eliminated by the device for detecting the breakage of the binding threads for the reinforcement of the fabric edges in the cordless weaving machines by a rotary lining, which consists of an electrically non-conductive body attached to the control arm of the the electrically conductive fork arm is pivotably mounted, wherein the pivot path of the electrically conductive fork arm is perpendicular to the plane of the binding thread path between the rotating thread guide wire and the tie former, two electrically conductive stroke limiters arranged on the sides of the electrically conductive fork arm. connected electrically to the electrically non-conductive body and electrically to the first supply terminal, while the electrically conductive fork arm is electrically connected to the second supply terminal.

An advantage of the device according to the invention is that it makes it possible to control the individual binding threads during rotary entanglement with a minimum additional tension, since it is distributed evenly over the two binding threads and therefore one of them is not switched over. Adjusting the stop with respect to the switching time interval is very simple and independent of the timing changes of the rotary entanglement proper function. The operation of the stopper is also not affected by the possible association of the broken thread with the thread not broken when using rough or hairy threads.

The invention will now be described in more detail with reference to the accompanying drawing, in which an exemplary embodiment of an apparatus for detecting the breakage of weave threads for reinforcing fabric edges in a cordless weaving machine according to the invention. In the figure, the actuator arm 1 of the rotary entanglement is shown, at one end of which the linker 2 is rotatably mounted. At the opposite end of the control arm 2 of the rotary entanglement there is a rotatable yarn guide wire 2. An electrically non-conductive body 2, provided with a pin 6, is fastened to the control arm 2 of the rotary entanglement.

The pin 2 ^e j pivoted electroconductive forked arm T_. The plane of the pivot path of the electrically conductive fork arm T is perpendicular to the plane of travel of the binding yarns 2 between the pivot yarn guide 2 and the binding former 2. On the sides of the electrically conductive fork arm T, two electrically conductive stroke limiters 2 are arranged in the pivot path thereof, which are mechanically connected to the electrically non-conductive body 2 and electrically to the first lead terminal 10. The electrically conductive fork arm 10 is electrically connected to the second lead terminal 11 The weave threads 2 are guided from the pivot yarn guide 2 through the slot of the electrically conductive fork arm T and the weave former 2 to the punch plane of the fabric 12.

In the operation of the yarn breakage detector for strengthening the fabric edges in the cordless weaving machines of the present invention, a pair of binding yarns 2 are fed from the binder yarn guide 2 through the slot of the electrically conductive fork arm 1 and the weave former 2 to the fabric. The binding thread tension 2 keeps the electrically conductive fork arm T in a vertical equilibrium position. As the shed is changed, by rotation of the binder former 2, the binder threads 2 meet in the middle position indicated by dashed lines and are lifted again into the open shed, the binder thread 2 which was originally in the up position moves to the down position. and vice versa, the binding thread 2 that was originally in the lower position is moved to the upper position.

Thus, the binding yarns 2 still maintain the electrically conductive fork arm T in a vertical equilibrium position in which it does not touch the electrically conductive stroke limiters 2. In case of breakage of one of the coupling yarns ³ and two electrically conductive forked arm] _ held in a vertical equilibrium position a second, unbroken binding yarns 2 j ^en until this binding yarn 2 nepřetoČí the lower branch of the shed. In this position of the binding thread 2, the support of the electrically conductive pivotable fork arm sní decreases so much due to its bearing on the pin 6 that it swivels under its own weight and touches one or the other of the electrically conductive stroke limiter 2. This results in electrical connection of the first and second supply terminals 10 and 22, which is further signaled to the weaving machine as a breakage of the binding thread 2, to which the weaving machine responds by stopping and possibly signaling the breakage.

The invention can be advantageously used in the construction of weaving machines.

Claims (1)

Device for detecting the breakage of weave threads to strengthen fabric edges in a cordless weaving machine with a rotary lining, characterized in that the electrically non-conductive body (5) attached to the control arm (1) of the rotary entanglement is provided with a pin (6) an electrically conductive fork arm (7), wherein the pivot path of the electrically conductive fork arm (7) is perpendicular to the plane of the binding thread path (8) between the binding thread rotating guide (3) and the binding former (2), along the sides of the electrically conductive fork arm (7). 7) two electrically conductive stroke limiters (9) are arranged in its pivot path, which are mechanically connected to the electrically non-conductive body (5) and electrically to the first supply terminal (10), while the electrically conductive fork arm (7) is electrically connected a second supply terminal (11).