SU706641A2 - Apparatus for detecting leaks in liquid-conveying pipelines - Google Patents

Claims (1)

(54) FLUID DETECTION DEVICE FOR LIQUID PIPELINES 7: The start of the coaxial cable coincides with the beginning of the monitored pipeline section and is connected via a terminating resistor 4 to the voltage comparator 5, which through the driver 6, which serves to convert the output signal from the comparator 5 to impulse generator is connected to the pulse generator 7. The secondary device 8 is connected to the pulse generator 7 and is designed to convert the pulse frequency of the gene Ratio V. The order characterizing in digital form the distance from the beginning of the pipeline to the point of leakage. At the end of the monitored section, coaxial cable 3 is loaded with resistance 9. The device works as follows .. Pulse generator 7 sends positive pulses through a consistent resistance 4 through coaxial cable 3. In the absence of fluid leakage in the pipeline, 2 1 pulse sent from generator 7, reflecting from the end a cable 3 in the form of a negative polarity pulse, is separated by a voltage comparator 5, from which a pulse generator is started through a shaper 6 times, to send a pulse generator; He; momentum. As the parameters of the coaxial cable; in the absence of liquid leaks from the pipeline remain unchanged, the frequency of operation of the pulse generator 7 will be constant, and the time interval between the pulses will be proportional to the time required for the pulse to pass from the beginning of the line to its end and back. The secondary device 8 will output a signal characterizing the absence of a leak. If there is a leak in any part of the inclined pipe line through the porous heat insulation 1, the liquid in this area, the stack down, reaches the part of the coil of the coaxial cable 3 located near the leak, and penetrates through the hole in its outer conductor internal conductor. In this case, the length of the coaxial cable 3 is partially an; 6ln liquid, resulting in a sharp change in the dielectric constant of its insulator, which, in turn, causes a change in the resistance of the coaxial cable. The impulse sent from generator 7 will be reflected from any point on the cable where its resistance has changed dramatically. The moment of occurrence of the reflected pulse on the comparator, 5 voltages, which, through shaper 6, controls the triggering of the pulse generator 7, will change accordingly. The generator will generate pulses whose following frequency 4 is proportional to the time required for the pulse to pass from the beginning of the coaxial cable 3 to the location resistance changes and back. Secondary device 8 converts (taking into account the spirality of the laid coaxial cable), the time HkTepal between pulses coming from the generator to the value characterizing the true distance from the beginning of the pipeline to the point of leakage. . Claims An apparatus for detecting leaks in fluid lines according to ed. St. No. 612102, distinguished by the fact that, in order to improve the control accuracy for obliquely located pipelines, the coaxial cable is laid in thermal insulation in a spiral.