CS210871B1 - Method of inspection of textile fibres beam breakage and apparatus for making the same - Google Patents

Abstract

A device for sensing breakage of textile fibre bundles in textile machines, particularly drawframes comprises a groove 2 for guiding the bundle, which is formed in the body 1 of the device, a light pulse source mounted in a direction normal to the fibre bundle, and oppositely thereto a receiving photoelement synchronized therewith. By this device, the disadvantages encountered with similar devices hitherto known, i.e. particularly delayed response to breakage, are mitigated. <IMAGE>

Description

BACKGROUND OF THE INVENTION The present invention relates to a method for controlling the breakage of a textile fiber bundle guided between a light source and a photoelement by means of a light beam in textile machines, in particular broaching machines, and a device for checking the breakage of textile fiber bundles.

In practice, the most commonly used devices for checking the breakage of a textile fiber bundle, hereinafter referred to as stops, operating electromechanically, which, on the principle of a pressure roller rolling over a floating textile fiber bundle, hereinafter referred to as a bundle, can inspect at most two bundles. By passing the free end of the bundle, the metal roller contacts the lower entrained roller and closes the electrical circuit to stop the machine.

The disadvantage of this device is the unreliability in beam monitoring, caused by the change in the transient resistance, which varies depending on the speed of the rollers and their contamination.

Furthermore, electronic stops operating on the photoelectric principle are known, wherein the free end of the falling beam intersects the light beam and the photoelectric element transmits a permitted signal to stop the machine. Textile machinery manufacturers mainly use a system with a separate light source and a photo probe, which are placed in a controlled plane. In another case, the light source is placed together with the photo probe in the housing and the reflection of the transmitted light beam back into the transmitter is provided by a reflective mirror.

The disadvantage of these stops is that when the falling free end of the beam is checked, due to the high discharge speed, the light beam is delayed or the controlled beam does not fall into the controlled area, thus delaying the machine stop command or failing to register the free beam end. the machine processes textile material outside the required parameters.

The requirement to quickly turn off the machine when the beam is broken is met by stops, where the passing beam forms the screen of the light beam. One of the known stops, for example, comprises photoelements embedded in the bottom of the slits of the guide ridge, their aperture being bundles and the photoelements being illuminated by outdoor lighting in the operating room. In another type of detent, the photoelements and light sources are mounted in opposing projections of the guide comb.

The disadvantage of this device is its sensitivity to external flashes and reflective light reflections, which cause the device to malfunction, ie it switches off even when the beam has not been broken. A further disadvantage of using outdoor lighting is that as the light intensity changes, the sensitivity of the device changes, which adversely affects its function.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a stop with a rapid response to beam breakage, responding only to the light beam itself, thus eliminating the reaction of the stop when changing external illumination.

This is achieved by a method for checking the breakage of the textile fiber bundle according to the invention, which essentially consists in emitting light pulses which induce electrical pulses in the receiver, which are compared with synchronizing electrical pulses transmitted simultaneously with light pulses.

The principle of the device according to the invention consists in the fact that in the groove a light pulse source is placed perpendicularly to the direction of passage of the textile fiber bundle, against which the synchronized receiving photoelement is located.

The advantage of the device according to the invention is the placement of all electronic circuits in the cavity of the stop body and the resulting easy interchangeability of the individual stops and the possibility of placing the stop anywhere on the machine.

Further advantages and features of the device according to the invention are evident from the following description of an exemplary embodiment, which is schematically shown in the accompanying drawings, where:

21.0S71 Fig. 1 - Stopper body Fig. 2 - Electronic part of the giant device. 3 - cover with giant fasteners. 4 - wiring diagram

The stop is formed by a body 1 made of abrasion-resistant material, in the upper part of which a groove 2 is formed, through which a guarded bundle (not shown) is guided. Perpendicular to the direction of movement of the bundle in the lower part of the side walls of the groove 2 opposite stored: source of light pulses and receiver photoelement 2 · 4 in the housing 1 the stop is a cavity for accommodating the circuit board 2 ^with connection ploěného elektronccýým * i circuits. Fixed to the printed circuit board 2 A connector 6 is connected by means of which the printed circuit board 2 is connected to a common three-wire bus (not shown) connected to a display device (not shown). The cavity in the body J of the stopper is closed by a cover X connected to the body J by means of screws 8. By fixing the cover χ, the printed circuit board 2 and the connector 6 are simultaneously fixed in the cavity of the body 1.

The electronic circuit breakers consist of a transmitter and a receiver. The short light pulses are emitted by a light pulse source J consisting of an infrared luminescent diode U1, supplied from the generator. The core of the generator is the so-called single-transverse mandrel, which in our case is replaced by the transistors Xg, where the collector of the transistor X is connected on the basis of the transistor Xg, the collector of the transistor Xg on the transistor Xja. the center of the resistive divider Rj ~ R ^, which determines the operating point of the generator.

The cut-off branches of the divider Rj, Rj are connected to the supply voltage, namely Rj to the positive pole and R to the negative pole. The emitter of transistor Xj is connected to the center of the series member R, R, which determines the width and frequency of the light impulses. The end points of the series member R ~ C. ~ are connected between the supply voltages so that the transducer с. between the emitter of the transistor Xg and the negative pole of the power supply is a series combination of a luminescent diode U, and a limiting resistor Rg, which, together with a capacitor. Cg connecting parallel to resistor R1 determines the required magnitude of the current pulses passing through the luminescent diode Z. .

The receiver is formed by a receiving frtoel emitter, amplifier circuits, evaluation circuits, and a memory power member. The receiving photoelement 2 consists of a phototraesis 10a whose emitter is connected to the negative pole of the supply and whose operating point is set by the resistance Rg connected between its collector and the positive pole. The operating point of transistor Xχ is determined by the resistor R, which supplies current from the positive pole of the power supply to the base of transistor Xj and the resistor Ry, which forms the collector load of transistor X.

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The Xχ transistor emitter is connected to the negative pole of the power supply. Alternating coupling between the transistor collector and the transistor collector of the transistor korneneatoo Сс. The output circuit is formed by a diode sv, which delivers positive interfering pulses from the collector of the transistor Xχ through the resistor Rg to the negative half-voltage. At the same time, the control electrode of the thyristor X- is connected to the collector of the transistor Xj, which acts as a part power member. The cathode Xg is connected to the negative pole of the power supply, the anode is connected to the connector 6 · thyristor by diode R through

If the beam disappears from the groove groove 2, the light impulses emitted by the luminescence impinge on the phototransistor X. The voltage pulse from the collector of transistor Xj closes the capacitor Xχ of the transistor X1. A positive voltage pulse appears on the collector of transistor Xj and hence on the control electrode of the thyristor Xg. At the same time, a gating pulse from the generator is applied to the control electrode of the thyristor Xg via diode U2. If both impulses, ie the gating and impulse excited by frtrtransisrore Xχ, arrive at the thyristor Xg, they open and let the current, the so-called command pulse, pass to the signaling device. Disturbing light impulses ee e coming from their own transmitter are therefore ee.

Claims (2)

SUBJECT OF THE INVENTION 1. A method for controlling the breakage of a textile fiber bundle guided between a light source and a photoframe by means of a light beam in textile machines, in particular broaching machines, characterized in that light pulses are called which generate electrical pulses in the receiver which are compared to synchronizing electric pulses. transmitted simultaneously with light pulses. Device for checking the textile fiber bundle according to the method of the invention, characterized in that the light pulse source (3) is driven by a generator connected at the same time to a comparator circuit of the receiver, to which the output of the receiving receiver is connected. (4).