CS243072B1 - Apparatus for detecting weft conveyed by a weaving shed - Google Patents

Abstract

The solution relates to a device for detecting a weft conveyed through a shed of a weaving machine. The essence of the invention is that it is formed by a U-shaped yoke, connectable to a shuttle, with a transmitter arranged on the shorter arm of the yoke and a receiver arranged on the longer arm of the yoke. The transmitter can advantageously be formed by a source of infrared radiation and the receiver by a system of photosensitive elements, for example phototransistors. The invention can be advantageously used in the construction of weaving machines.

Description

The present invention relates to an apparatus for; detecting the weft conveyed through the weaving machine.

The weft detection devices known hitherto consist of a collimating lens provided with a light source located behind the wall of the picking channel, where the light rays are transmitted through the gaps between individual canes. The light receiver is formed from a series of photosensitive elements on the cane of the opposite open side of the picking channel, or these elements are located outside the picking channel, and the optical connection is made by optical fiber bundles that result in the respective wall of the picking channel. Also known is a device in which the light source is positioned against the center of the open wall of the picking channel, the receiver being connected to the picking channel by a bundle of optical fibers located between the cane.

The disadvantages of the prior art are that the use of optical fibers in conjunction with the photosensitive elements results in significant light loss. In case they are source or photosensitive. If the elements are located in the open wall of the picking channel, it may happen that the overflow passage hits one of these elements. Another disadvantage is that it is not possible to reduce the fabric by sliding the device towards the nozzle without having to shorten the breast. Another disadvantage lies in the use of an autonomous transmitter and receiver and the consequent difficulty of adjusting the optical system directly on the machine. At the same time, the devices with the optical system consisting of a lens and optical fibers are much more difficult to manufacture.

The above-mentioned disadvantages of the prior art are largely eliminated by the weft detection device conveyed by the shed of the weaving machine, which is constituted by a U-shaped yoke attachable to the bidlen, with a transmitter on the shorter arm of the yoke and a receiver on the longer yoke . In this case, the transmitter can advantageously consist of an infrared radiation source and a receiver with an array of photosensitive elements, for example phototransistors.

The advantages of the device for detecting the weft conveyed by the shed of the weaving machine according to the invention are that there is no light loss in the device, there is no danger of the weft being hit by a control element, which is very easy to manufacture. Another advantage is that the device according to the invention can be easily adjusted before the device is attached to the machine. Another advantage is that when using this device it is possible to reduce the fabric by moving the device towards the nozzle without having to shorten the breast. The device is resistant to parasitic signals since the cane system creates a screen for beams that do not come directly from the transmitter, so that only a useful signal is received at the receiver.

The device will be described in more detail below with reference to the accompanying drawing, in which an exemplary embodiment of a device for detecting weft conveyed by a shed of a weaving machine according to the invention is shown.

Cane 1 and bidlen 2 form a picking channel. The transmitter 3 and the receiver 4 are fixed in the U-shaped yoke 5 so that the transmitter 3 is mounted in the shorter arm and the receiver 4 in the longer yoke arm 5. The yoke 5 is then firmly connected, for example by a screw, to the bidlen 2. The geometric dimensions of the receiver 4 are. such that all the beams of the transmitter 3 that pass through the picking channel and between the cane 1 fall on the sensing surface of the receiver 4. If the sensing surface of the receiver 4 is made up of discrete sensing elements, these elements are arranged offset so that if between the first and second cane 1 impinges on the interface between two sensing elements, an adjacent beam in the direction of weft passing after passing between the second and third cane 1 impinges on the sensing surface of another sensing element.

In the pick operation, the weft travels through the portion of the pick channel in which the weft is detected. The receiver formed by the photosensitive elements in the exemplary embodiment records the weft passage and sends a weft presence signal to the pick channel. In case the weft does not pass through the detection device, the evaluation unit (not shown) records the absence of the weft in the picking channel and sends a signal to which the machine responds by stopping or, in automatic operation, for example.

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

Claims (3)

Subject A device for detecting weft conveyed through a shed of a weaving machine, characterized in that it consists of a U-shaped yoke (5) attachable to the bidlen (2), wherein a transmitter (3) is arranged on the shorter yoke arm (5) and a receiver (4) is provided on the longer yoke arm (51). vynalezu Device according to claim 1, characterized in that the transmitter (3) is formed by an infrared radiation source. Device according to claim 1 or 2, characterized in that the receiver (4) consists of a set of photosensitive elements, for example phototransistors.