SU977332A1 - Apparatus for locating the point of clogging of pipeline with material carried therealong in the stream of carrier fluid - Google Patents

Description

Other common points are interconnected via diodes 12-15 and signal blocks 16-18, each of which is a relay, for example an electronic one, which is triggered when the value (0.5-1) 10 flows through its input circuit. BUT.

All signal blocks 16–18 are interconnected via diodes 12–15 in series, and diodes 6–9 and 12–15 are turned on. In the same polarity.

The device works as follows.

A transported solution with gravity or self-pneumatic pipeline transport moves in portions that are separated by compressed air. When an electrically conducting solution (electrolyte), for example a concrete mix, comes into contact with an electrode, an emf is generated between the latter and the pipeline.

The voltage coming from duralumin electrodes 2-5 varies depending on the speed of movement of the mixture portion (piston) in the range of 4 0-100 mV. When compressed air moves, the voltage drops to 20-60 mV, while the sensor works on a solution wetting the pipe wall and moving inertia after a portion of the mixture. In the cork mode, there is naturally no oscillation.

As a result of the detection of the pulse voltage coming, for example, from an electrode. 3, an electric current flows in the circuit consisting of conduit 1, alkaline solution of electrolytes, electrode 3, diode 7, parallel-connected resistors 11 and capacitor 10 of the corresponding memory block. the capacitor 10 is charged to a value that varies the speed of the mixture, for example, 100 mV.

In the normal steady state reiim transport on all capacitors 10 will be the same voltage. Therefore, the electric current through the diodes 12-15 and through the signal blocks will not leak.

If the mixture stops, for example, in the region of the electrode 4, the EMF generated by this electrode drops sharply and the oscillations stop. The capacitor 10 of the corresponding memory block will begin to discharge. At the same time, electrodes 3 and 5 generate emf for some time: electrode 3 due to the fact that the portion of the mixture that moves behind the stopper, having kinetic energy, compresses the air in front of the piston plug and moves relative to the electrode 3 with a certain speed. Electrode 5 generates an emf as a result of passage relative to it due to the kinetic energy of the portion-porn, which is ahead of the portion-plug, and

also portions of the remainder portion of the tube. All other electrodes located along the pipeline route also generate a certain EMF for some time.

These processes lead to the fact that electric current flows through the diode 16 and the signal unit 18. The signal from the operation of the unit 18 indicates the location of the pipeline blocked in the area of the electrode 4. The diodes 8 and 14 are closed.

It may be that the portion length is small compared with the distance between the electrodes and the portion stops, for example, between electrodes 3 and 4. In this case, the EMF generated by electrodes 2 and 5 will be greater than the EMF generated by electrodes 3 and 4. As a result current begins to flow through the diode 12 and block 17, the signal of which indicates that the blockage occurred behind the electrodes 3. Diodes 7, 8, 13 and 14 are closed.

If, due to the replacement of the metal of the electrode, the polarity of the diodes changes, the circuit will work in the same way, but the current through the signaling device will change its direction.

Thus, the proposed device determines that the site of occlusion occurred directly opposite or between this electrode and the next one.

By increasing the number of electrodes and, accordingly, the blocks of memory and signaling, it is possible to achieve the necessary accuracy in determining the location of the blockage. This does not require complex and expensive equipment.

In addition, the device has low inertia, which allows it to be used for automatic control of the pipeline transportation process.

Claims (1)

Invention Formula A device for determining the location of a pipeline blockage transported by a material in a flow of a carrier medium, containing material presence sensors connected to the inputs of the memory blocks installed on the monitored pipeline sections, and associated with the latter signal blocks, in order to improve the accuracy of determination the places of blockage, the sensors are made in the form of electrodes built into the body of the pipeline, each of the memory blocks contains a capacitor and a resistor connected in parallel, one of the common points which are directly connected to the casing pipe, and the other through a diode - with one-. one of the electrodes, wherein each signal unit is connected via a different diode between the common and common points of the capacitor and memory block resistor, the first and second diodes are connected in the same polarity, and the signal units are interconnected through the second diodes in series. Sources of information taken into account in the examination D. USSR author's certificate 787311, cl. B 65 G 53/66, 1979 (prototype). 7 --.-.; -;.: I :. .й УУУ // ХХХХ // Х У // х / уу //// х // х / уу / х / уу / у: