SU1744623A1 - Portable gas analyzer - Google Patents

Description

the sensing element, the flow booster are reversible and equipped with a control unit, the gas analyzer is additionally equipped with a command device, a delay device, an adder, a compensator and a setting device, the output of the measuring device connected to the first input of the adder and the input of the delay device whose output is connected to the second input of the adder, the output of the adder is connected to the first input of the comparator, the setpoint controller is connected to the second input of the comparator, the output of which is connected to the control input of the command device, the output of the command device is connected to the control inputs of the flow rate control unit, the delay device and the adder.

The drawing shows a diagram of the device.

The device contains a sample gas sampling unit 1, a filter 2, a measuring chamber 3 with a sensing element 4, a flow booster 5, an absorber 6, a measuring device 7, a delay device 8, an adder 9, a setting device 10, a comparator 11, a command device 12, control unit 13.

Node 1 for sampling the analyzed gas, filter 2, measuring chamber 3, reversing flow booster 5 and absorber 6 are connected to the circulation circuit. The input of the measuring device 7 is connected to the sensitive element 4, and the output to the inputs of the delay device 8 and the first input of the adder 9, the output of which is connected to the first input of the comparator 11. The second input of the comparator 11 is connected to the output of the setting device 10, and the output of the comparator 11 - from the control input of the command device 12. The output of the command device is connected to the control inputs of the delay device 8, the adder 9, and the flow rate control unit 13, the output of which is connected to the electric drive of the consumption booster.

The device works as follows.

In the Analysis mode (the time interval T2 - t - according to the signal of the command device 12, equal to 1, the control unit 13 forms a voltage pulse applied to the electric drive of the flow driver, such polarity that the latter ensures the flow of the analyzed gas from the device 1 Samples through the filter 2 into the measuring chamber 3. The analyzed components that have entered the measuring chamber change the value of the informative parameter of the sensing element 4, which is measured by the measuring device 7 and fed from its output and the inputs of the delay device 8 and the adder 9. The unit signal level of the command device 12 applied to the control input of the adder 9 blocks the operation of the summation, and the output signal of the device is zero. cycle, a signal is generated that is equal to the signal of the measuring device at the moment in time

In the Preparing mode (time interval Tg - t), the signal of the command device 12 becomes equal to 0, the control unit 13 generates a voltage pulse applied to the electric drive of the flow rate drive 5, such polarity that the latter ensures the flow of the analyzed gas from the selection device 1 through the absorber b and a flow booster 5 to the measuring chamber 4. In this case, the analyzed components are completely retained in the absorber 6 and the measuring device 7 measures the value of the informative parameter of the sensing element 4 is the corresponding process of desorption of analytes from it. The zero level of the command device signal applied to the control input of the adder 9 removes the ban on the summing operation, and the output of the adder 9 generates a signal equal to the difference between the signal of the measuring device 7 at the end of the Analysis cycle (time instant) and the signal of the delay device 8, which and is the output of the analyzer in this analysis loop.

The instant of the next unit signal level of the command device 12 (Tz), depending on the amplitude of the signal of the adder 9 in the previous measurement cycle, is determined by the signal of the comparator 11, which is a proportional regulator that compares the amplitude of the signal of the adder 9 with the reference signal from the setpoint 10 that determines the duration of the Prep mode, which is proportional to the amplitude of the output signal.

Claims (1)

Claims: A portable gas analyzer comprising a sample gas sample node, a filter, a measuring chamber with a sensing element, a flow booster and an absorber connected to a circulation loop, a measuring device connected to the sensing element, characterized in that The flow rate booster is reversible and equipped with a control unit, the gas analyzer is additionally equipped with a command device, a delay device, an adder, a comparator and adatchikom, moreover, the output of the measuring device is connected to the first input of the adder and with 0 the input of the delay device, the output of which is connected to the second input of the adder, the output of the adder is connected to the first input of the comparator, the setpoint device is connected to the second input of the comparator, the output of which is connected to the control input of the control unit, and the output of the control unit is connected to the control input of the control unit , delay and adder devices.