SU836251A1 - Device for automatic stabilization of fibrous mass expediture in pneumoguides - Google Patents

Description

one

The invention relates to preparatory equipment and can be used to automatically stabilize the consumption of fibrous mass in the pneumatic lines of preparatory equipment.

A device for automatic stabilization of the pulp flow rate in pneumatic lines is known, which contains an illuminator and a photoelectric sensor diametrically located on a transparent section of the pneumatic pipe, which is connected to an actuator by means of a signal processing circuit. Photoelectric sensor is made in the form of photoresistors, and the processing circuit. The signal has an integrating circuit and an amplifier {1.

A disadvantage of this device is that with an increase in the speed of transportation of the fibrous mass in the pneumatic duct, the sensitivity of the device decreases, which is caused by the inertia of the photoresistors used as photosensors. Elect Typical signal processing circuit from the sensor

built so that its output signal, controlling the operation of the actuator drive of the machine feeding the pneumatic distributor, is not related to the flow through the pneumatic conduit, but to the total duration of the overlap of the light beam passing by the pneumatic conduit scraps of fibrous mass.

The purpose of the invention is to improve the accuracy of the stabilization of the consumption of fibrous mass in

pneumatic lines of preparatory equipment.

Claims (1)

This goal is achieved in that the sensor is designed as a photodiode, and the signal processing circuit has a matching cascade, an amplifier, a square pulse shaper and a linear-varying voltage, and a low-pass filter, which is connected through the matching cascade and amplifier with the output of the sensor, and its output through the linear variable voltage driver and the low-pass filter with the actuator. 3. In FIG. 1 shows the basic scheme of the device; in fig. 2 - the waveform at the control points of the device at different values of passage through the pneumatic conduit of the pulps of the fibrous mass. The schematic diagram of the device contains an incandescent lamp H-, which creates a luminous flux through the transparent section of the pneumatic line 1 with passing scraps of fibrous mass 2 along it to the photodiode Vl, connected to the matching cascade, made by the transistor V 2, which is through rectangular pulses on a microcircuit The linearizer-variable transformer voltage on the 1LD microcircuit and the integrating circuit 9C2 is connected to an A5 microcircuit amplifier, the output of which is connected to the circuit control of the actuator. The luminous flux created by the Hf lamp fed from the direct current sink crosses the pneumatic line 1 through which shreds of the fibrous mass 2 fly, either scatters on them or hits the photodiode. The signal from the photodiode goes to the matching stage, on the transistor V 2 At time points, a shred of pulp (respectively, first, second, third) blocks the light flux from the HI lamp and the base potential of the transistor V2 is 5m1 ((J Fig. 1). At times tii-t j-fcg, the photodiode is again illuminated by light flow. more in The shred of the shred is, the longer the time to which it blocks the luminous flux and the pulse from it (... Potentiometer R2 sets the sensitivity of the circuit. The use of the cascade assembled on the transistor V provides the required signal level (Ul, Fig. 1) to trigger the next former to be rectangular by it (pulses collected on the D1 chip, - ((Ug, fig. 1)), which are two NAND logic elements with an open collector output. The pulses of a straight KOii shape, the width of which is proportional to the duration of overlapping of the light beam by scraps of pulp flying along the pneumatic circuit, are fed to a linear-varying voltage driver, made on a D 1.2 chip and an R8C-1 integrating chain. Its time constant is chosen so that the impulse received from the maximum in size. The box is triangular in shape with the greatest height and does not take the form of a trapezium. The area of the pulses received at the linear variable voltage driver (1) is proportional to the square of the duration of the light beam overlap. Further, from the field of the pulse sequence on the low-pass filter, a constant component is extracted (Fig. 1), and the signal is fed to an operational amplifier, outputted on an A5 microcircuit and operating in a voltage repetition mode and providing current to the load ( Ug V of Fig. 1), required for the actuator control circuitry. Apparatus of the Invention A device for automatically stabilizing the flow of fibrous mass in pneumatic lines, comprising an illuminator and a photoelectric sensor diametrically located in the transparent section of the pneumatic line pipe, which is associated with an actuator by means of a signal processing circuit. The sensor is designed as a photodiode to increase the accuracy of flow rate stabilization, and the signal processing circuit has a matching stage, an amplifier, a square pulse shaper and a linear-varying voltage, and a low-pass filter, the input of the right-side shaper. The pulses are connected through a matching stage and an amplifier with a sensor output, and its output through a linear-varying voltage driver and a low-pass filter is connected to an actuator. Sources of information taken into account in the examination 1. USSR author's certificate N 208484 Cl. D 01 G 23/02. g (2) / / f / V-  : j // -g /; DM 7P ffQ