CS227478B1 - Optoelectronic reflecting apparatus for detecting weft or yarn threads - Google Patents

Abstract

An optoelectronic reflecting device for scanning weft or warp yarn in which fibre (13) passing through a zone (5) adjacent a transparent scanning plate (4) is scanned by reflection of an infrared light ray from a source (6), which is detected by a receiver (7), advantageously a photo transistor, which converts the optical signal into an electrical signal, which is transmitted, after amplification to a light source emitting an optical signal. The scanning plate (4) is preferably wiped by the scanned fibre (13). The electrical signal may be passed to other circuits for assessing the fibre passage through the scanning zone (5). The device is useful for scanning weft or warp yarn, particularly for multished textile machines, scanning yarn in flat knitting machines, scanning holes, streaks and needle latches in knitting machines. <IMAGE>

Description

The present invention relates to an optoelectronic rebound device for sensing yarn in a weft or warp.

In textile machines it is necessary to continuously check the correctness of the machine operation, which is connected with the signaling of the machine failure or fabric defects. Therefore, especially in multi-thread weaving machines, the yarn in the weft must be continuously removed. The yarn in the weft is sensed according to the prior art by a sensor connected to an electronic circuit in the switchgear.

The discrepancy of the present state is that the electronic circuit of the sensor is very expensive and demanding in terms of dimensions and not the component base. Its reliability is not great and during the operation it is necessary to adjust, for example the sensitivity when changing the weft parameters or changing the yarn thickness.

A disadvantage of the prior art is that the removal of damaged yarns in flat knitting machines is performed by an electromechanical tongue and is insensitive to some types of yarn. Damaged tongues of knitting needles are removed - only mechanically.

These disadvantages of the prior art are largely eliminated by the optoelectronic yarn pickup device in the weft or warp according to the invention, which is based on a toothed tip-ended block with a transparent picking plate underneath the pickup plate below the pickup plate. an infrared radiation source and a reflected beam receiver, which is connected to an amplifier, are positioned at an angle through an AC coupling coupled to an inverter coupled to the indicator circuit coupled to the light source.

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Advantages of the optoelectronic reflecting device for sensing the yarn in the weft or warp according to the invention are low purchase costs, low base cost and small dimensions. The sensing is performed optoelectronically, it is characterized by high reliability and it is not necessary to adjust it in operation. In addition, the transparent shielding plate is not contaminated. whereas it is constantly wiped by a gliding controo-oval thorn.

The opto-electronic reflecting device for sensing yarn in the weft or warp according to the invention will be further described with reference to the accompanying drawings, in which Fig. 1 is a schematic arrangement of the sensing portion of the device and Fig. 2 is a block diagram of an electronic device.

The block 1, which provides thermal and mechanical stability of the components of the device therein, is provided at one end with a leading surface 2, terminated by a tooth j. A transparent, preferably glass, sensor plate 4 is fixed below the tooth £ sensing. In block 1, an infrared radiation source 6 and a reflected beam receiver 1 are fixed at a given angle. The reflected beam receiver 1 is connected to the input of an amplifier 8, which via its output via an AC coupling 2 is connected to the input of the invurtor 10, and its output is connected to the input of the indicator circuit 11. The indicator circuit 11 is connected to the light source. 12 and to the circuitry (not shown) for monitoring the passage of the scanned object. ,

In operation, the filament 13 slides on the lead-in surface 2, optionally over the tooth J, and slides on the glass sensor plate 1 in the scanning area. The infrared radiation source 6 emits infrared light, which is reflected off the filament 13 in the scanning area 2, and the reflected beam arrives at the reflected beam receiver X, which records the passage of the string as a light flash that converts non-electrical signal of the passage.

The spatial arrangement of the infrared radiation source 6 and the reflected beam receiver 2 relative to each other and to the plane of the sensor plate 1. it is necessary to select such that light reflected from the sensing plate 1 does not enter the reflected beam receiver X. The electrical signal of the filament travel from the reflected beam receiver X, preferably constituted by the fetetrisanisor, is applied to the amplifier 8 and via an alternating coupling 2. excludes the stent, from the signal, and via the inverter 10 to the indicator circuit 11, from whose output is supplied a light source 12, which serves as an optical control of the weft passage of the scanning area 2. The same output signal is then applied to the circuits (not shown) to evaluate the passage of the fiber 13 past the% scan.

The invention can advantageously be used for picking up yarn in weft or warp, in particular for textile machines, for picking up yarns for flat knitting machines, for detecting holes, streaks and tongue needles of knitting machines.

Claims (1)

Oopo-electronic reflection device for sensing yarn in a weft or warp, characterized in that in a block (1) provided with a leading surface (2) terminated by a tooth (3) below which a transparent pickup plate (4) is located an infrared radiation source (6) is located at a given angle (4) to the sensor plate (4) and the reflected beam receiver (7) is connected to the amplifier (8). via an alternating coupling (9) coupled to an inverter (10) connected to the non-indicating? a circuit (11) connected to the light source (12).