SU609994A1 - Peak pressure statistical measuring device - Google Patents

Description

The invention relates to a measurement technique and can be used to measure maximum pressure values and to study their statistical distribution in the cylinders of internal combustion engines, piston compressors. Known instruments for measuring maximum pressures, recording absolute pressure maxima and containing a pneumatic sensor, compensating for the pneumatic system, electronic control circuit 1, 2 and 3. The closest i proposed is a device containing a pneumatic-electric compensating pressure sensor compensating the pneumatic system with bypass and reset valves, read device, cycle sensor and electronic circuit including cycle and overshoot counters, tunable decoder and valve control unit 4. The disadvantages of limestone devices are a large consumption of the working fluid, since the difference in the pneumatic system must change from minimum to maximum during each cycle, the possibility of counting only at one point, high methodological measurement error. 2, In the proposed meter, the control unit; the valves are two-input matching two schemes, the control inputs of which are connected to the forward and inverse outputs of the decoder, and the signal inputs to the output of the cycle counter, and two driver amplifiers, whose inputs are connected to the outputs of the coincidence circuits, and the outputs to valves , as well as the collecting circuit, by means of which the outputs of the amplifiers are additionally connected to the meter reset buses. The drawing shows a diagram of the proposed meter. The meter contains a pressure sensor 1 installed in the working cavity of the machine 2, the sensor 3 is the number of cycles, the counter 4 is the number of cycles equal to it by the number of bits the counter 5 is the number of exceedances associated with each digit with the exceeding counter 5 tunable decryption-; Rator 6, valve control unit including two coincidence circuits 7 and 8 and two amplifier 9 and 10, element OR 11, source 12 of compressed air, batch controlled control valves bypass 13 and reset 14, reading device 15. - 4 The meter &) melts as follows.

In the original (hmgönin at the main output of the decoder b, associated with scheme 7, there is a resolution signal and 1 signal. In the inverse output of the decoder 6, there is no signal and circuit 8 is closed.

A sensor 3 with the frequency of operation of the machine under investigation sends out pulses and fills the cycle counter 4. At the same time, the pressure sensor 1 pulses into the elevation counter, but only if the maximum cycle pressure exceeds the pressure in the compensating system. Before starting work on the decoder 6, a static static distribution coefficient is set, for example 0.5. If by the time of the complete filling of the counter 4, the elevation counter 5 is filled less than 0.5 of its capacity, then the output of the 1X1 generator does not change. In this case, the last impulse from Datap 3 passes through the counter 4, open circuit 7 and starts the usher 9. As a result, the valve 14 is activated, releases a predetermined portion of air into the atmosphere and increases the pressure in the compensating pneumatic system for a certain step. At the same time, through the circuit I, the counters 4 and 5 are sensed, and the switch is repeated at a reduced pressure {in the circuit system.

If in. the next cycle of operation, the counter 5 is again not filled to 0.5 of its capacity, the pressure is lowered by one more step, and so on.

If the counter 5 is filled to 0.5 capacitance, then the state of the turns of the decoder 6 changes - the circuit 7 closes and the circuit 8 opens. In this case, the last pulse, which caused the filling of counter 4, passes through circuit 8,

the amplifier 10, and the valve 13 increases the pressure in the system at a steady pace. At the same time, counters 4 and 5 are reset.

The pressure is fixed by the reading device 15.

When setting the coefficient of statistical determination, close to 0 or 1, the meter operates in the following mode for an absolute maximum or minimum.

Claims (4)

1. The statistical maximum pressure meter containing an pneumoelectric pressure sensor, a pneumatic compensating system with bypass and reset valves, a reading device, a cycle sensor and an electronic circuit including cycle counters and transducers, a tunable decoder, and a control panel of the keyboard, featuring a simulator. Improving measurement accuracy and reducing the flow rate of the working fluid; the valve control unit is made in the form of two two-input coincident circuits, the control inputs of which are connected to the direct and inverse outputs of the decoder, and signal outputs to the cycle counter output, and two driver amplifiers, whose inputs are connected to the outputs of the coincident circuits, and outputs to valves, as well as a collective circuit, through which the outputs of the amplifiers are additionally connected to the counter reset buses . 2. A meter according to claim 1, characterized in that the bypass and the dumping device are made with gurzioshgami. Sources of w {formations taken into account during the examination: 1. USSR author's certificate number 191855, cl. Since 01 L, 1967. 2. Authors certificate of the USSR W 304467, cl. from 01 L 13/02, 1970. 3.Pateng Germany No. 1943279, class. (01 L 23/04, 1972. 4. Copyright svdedetstvo USSR N 265507, cl. Q01 L 23/00, 1970.