SU905685A1 - Leak detector - Google Patents

Description

FIELD OF THE INVENTION The invention relates to mechanical engineering, in particular, to the monitoring of the tightness of isolations. It is known a device for the analysis of gas social working and reference elements, a measuring circuit equipped with an electrical compensation unit, and an incator. The electrical compensation unit allows you to adjust the initial value of the signal of indicator 1. The device’s downside is that the initial value of the signal varies randomly during operation, which reduces stability. Closest to the invention in its technical essence and the cognizable effect is a leak detector, which contains a sequentially connected sensitive element, a measuring unit, and a leak initiator. This leak detector is equipped with a concentrator mounted on the inlet of the measuring unit amplifier, which makes it possible to fully compensate the initial current of the sensitive element 2

Claims (1)

(54) LEVEL The failure of this leak detector lies in the fact that, not responding to the initial background, the device does not register its slow increase either, which leads to a decrease in the reliability of leak detection, since the design does not contain elements of stabilizing the zero signal. The aim of the invention is to improve the reliability of leak detection. The goal is achieved by the fact that a leak detector containing a series-connected sensing, measuring unit and leakage indicator is provided. a device for automatically setting the output signal zero, which includes a comparison unit, an adjustable inertial link and a zero signal regulator, whose input is connected to the output of the measuring unit through the comparator block and an adjustable inertial link, and you to the regulating input of the horizontal block, the test gas, including the background level inci- tor and the system behind the VHifls, which is in red with the second output peiynnTopa of the zero signal, and the output with the incicagor of the background level. The drawing shows a flowchart structural diagram. A leak detector attached, for example, to a gas sampling probe 1, consists of a post-stage sensitive sensor 2, a measurement unit 3, a leak indicator 4, a device for automatically setting a zero signal, including a comparison unit 6, an adjustable inertial link 7 with adjustable a torus 8 and a zero signal controller 9, and a device 10 automatically signaling the magnitude of the background level of the test gas, including the tracking device 11 and the incicillator 12 of the background level. The leak detector works as follows. When the sampling probe of the sampling is far from possible leak points, the sensitive element 2 emits a zero signal to the input of the unit 3 measurements, which leads to the appearance of a signal at its output. Under the action of this signal, the comparison unit 6, via the adjustable inertial link 7, acts on the zero-signal controller 9, and the latter introduces a corrective action in the measurement unit 3. As a result, the output signal of the measurement unit 3 after some time returns to the zero level. At the same time, the zero-signal controller 9 outputs to the tracking device an 11 signal proportional to the magnitude of the corrective action entered in unit 3 of the measurements. In accordance with this signal, the tracking device 11, by means of the background level indicator 12, signals the level of the test gas fkzn at the inlet of the probe 1 for sampling. If level 4 does not exceed the permissible limit, the operator takes measures to lower this level, after which he continues to work. When the probe 1 for sampling is approaching a leak, the test gas gets to the sensitive element 2, which leads to a sharp change in its signal. At the output of the measuring unit 3, a signal appears that acts on the leak indicator 4, which signals the presence of a leak. The adjustable inertial link 7 does not allow the zero-signal controller 9 to quickly adjust the egog signal, therefore the device 5 automatically sets the zero signal does not interfere with the search for a leak. However, the device 5 has a corrective effect on the measurement unit 3 for measuring the leak. The magnitude of this effect is proportional to the magnitude of the leak and the time of registration. Therefore, after the probe 1 for sampling moves away from the leak, the output signal of the measuring circuit may go to zero. This leads to the appearance at the output of block 6 of the comparison of the corresponding signal. Under this signal, the regulator 8 reduces the time constant of the adjustable inertial link 7, and the device 5 reconstructs the zero signal at the output of the unit 3 measurements. In this case, the output signal of the comparator unit 6 takes on an operational value, and the controller 8 restores the normal time constant of the adjustable inertia link 7. The invention is applied to an optical absorption absorber, the sensitive element of which is a single-channel optical-acoustic gas analyzer. The zero-signal regulator 9 is made in the form of a controlled resistor, which changes the gain of the signal of the optical-acoustic radiation receiver. In this case, simultaneously with the automatic zero setting, the sensitivity of the leak detector is stabilized. An integrator with a controlled voltage divider at the input was used as the inertial link 7 with an adjustable time constant. The voltage divider elements are chosen so that the integrator time constant decreases, for example, 100 times with a negative (idle) polarity of the output signal of the leak detector, i.e. the voltage divider is an inertia-level regulator 8. It is also possible to manually change the time constant of the inertial link. The remaining elements of the leak detector are made according to known schemes. A positive effect is achieved due to the stabilization of the zero value of the signal, which allows a natural gas leakage to be recorded. Claims of the invention: Leakage containing in series connected sensitive elements