SU1684361A1 - Device for controlling the position of moving material - Google Patents

Description

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(21) 4410337/12

(22) 04/14/88

(46) 10/15/91. Bul

(71) Ivanovo Research Experimental Design Engineering Institute

(72) In A.Stegnin and A.M.Yakovlev (53) 677.053.216 (088.8)

(56) Radio Ne 11, 1984. p.58.

(54) DEVICE TO CONTROL THE POSITION OF MOVING MATERIAL

(57) The invention relates to means of controlling the location of objects and N.O.- can be used in the textile industry. The aim of the invention is to improve the control accuracy by increasing the noise immunity. For this purpose, a feedback link covering the output of the resonant amplifier and the control input of the optocoupler emitter is introduced into the circuit consisting of series-connected optocouplers, resonator amplifier, detector, comparator and indicator. 1 silt

The invention relates to means of controlling the location of objects and can be used in the textile industry.

The purpose of the invention is to improve the control accuracy by increasing the noise immunity.

The drawing shows a block diagram of the device.

The device contains an optocoupler, made in the form of a radiator 1, which generates a luminous flux, directed at the photodetector 2 and closing the positive feedback circuit in the device.

The photodetector 2 senses the luminous flux from the emitter 1, converts it into a voltage that is applied to the input of the resonant amplifier 3, which provides the amplification of the alternating current voltage at a certain frequency. The detector 4 converts the change in the amplitude of the signal of the alternating voltage of self-oscillations into a change in the constant voltage. The comparator 5 detects a change in the voltage amplitude at the detector output and generates a tracking signal for the moving material, which is fed to the indicator (not shown in the drawing). The comparator 6 synchronizes the switching on of the radiator 1 with the operating frequency of the resonant amplifier and is an element of the congura- tion of the positive feedback.

The device works as follows.

Photoreceiver 2 senses the luminous flux from radiator 1 and converts it into a voltage that is applied to the input of the resonant amplifier 3. The amplifier 3, having a maximum gain factor, generates an alternating current voltage at a certain frequency with an amplitude sufficient to switch the comparator 6, the output of which is formed rectangular waveform with a frequency specified by a resonant amplifier. This voltage feeds the emitter 1, the luminous flux from which is fed to the photodetector 2 directly or reflected from the material

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Thus, the connection between the emitter 1 and the photodetector 2 through the luminous flux closes the positive feedback circuit, which causes the amplifier 3 to be excited at a certain frequency, depending on the parameters of the only functional component of the resonant amplifier 3.

The change in frequency as a result of a change in the parameters of the resonant amplifier does not affect the process of self-oscillations, since the emitter and resonant amplifier 3 continue to operate at the same frequency.

Thus, the emitter 1 was forced to work at its own frequency, the device automatically tunes in frequency, and therefore suppresses all signals other than this frequency, i.e. interference signals.

When optical communication is disturbed through the luminous flux and, consequently, by changing the coefficient of positive feedback, the self-oscillations attenuate partially or completely break down.

The change in the feedback coefficient is directly proportional to the amplitude of the AC signal at the output of the resonant amplifiers 3 and depends on the distance from the radiation source to the receiver.

The change in the amplitude of the self-oscillation signal after rectification by the detector 4 is compacted by a comparator 5, which generates a control signal arriving at the indicator.

The device can also be made on the basis of an amplifier that does not possess resonant properties but has a gain sufficient to provide a self-excitation mode.

Claims (1)

Invention Formula A device for controlling the position of a moving material, preferably a fabric edge, containing an emitter and a photodetector, the electrical output of which through a series-connected resonant amplifier, detector and comparator is associated with an indicator, characterized in that, in order to increase the control accuracy by increasing noise immunity, it has an additional comparator input connected to the output of the resonant amplifier, and the output to the control input of the radiator. + /. OP