SU1105766A1 - Maximum pressure meter - Google Patents

Abstract

METER maximum pressure / pneumoelectric comprising pressure sensors, pneumatic konpensiruyuschuyu- .. series-connected with a source of compressed air, a bypass portionwise and bleed valves, a recording device, cycle sensor counts the number of cycles and elevations tunable decoder, the coincidence circuit and the bypass and bleed valves, two pulse shaping amplifiers for overflow and bleed valves and a collective reset circuit, with a control input of the circuit the bleed valve matches the direct input of the tunable decoder, and the control input of the bypass valve matching circuit with its inverse output, and the signal inputs of the matching circuit are connected to the loop counter output, the bleed valve output circuit is connected to the portion bleed input amplifier through the bleed valve output the valve, the outputs of both coincidence circuits through the collective circuit are connected to the reset buses of the number of cycles and elevations, characterized in that, in order to increase The device’s speed, an electronic switch, a control coincidence circuit and a collective batch overflow valve are entered into it, the information inputs of the electronic switch i are connected to electrical outputs of the pneumoelectric pressure sensors, and its output is connected to the elevation counter input, the control inputs The coincidence circuits are associated with the direct output of the tunable decoder and the inverse output of the loop number counter, and its output is connected with the first input of the collective portioning circuit the bypass valve and the inlet of the collecting reset circuit, a second input circuit porel collecting insulating bypass valve coupled to the output of matching circuit Nogo bypass valve and its exit through Ushio:. lit-former- with inlet valve.

Description

The invention relates to information and measuring technology and can be used to measure maximum values of rapidly changing pressures in cylindrical internal combustion engines and to study their static distribution. A maximum pressure meter is known, which includes pressure sensors installed on the engine under study, a switch, a compensation pneumatic system with a control electric pressure gauge, an averaging unit, a logic device and a recording device 17. However, the known meter does not make it possible to measure the absolute maximum pressure value qi lindre engine. The closest in technical essence and effect achieved to the invention is a maximal pressure meter containing pneumoelectric daelen sensors that compensate the pneumatic system with a series-connected compressed air source, portion bypass and bleed valves, a recording device, a cycle sensor, a counter for the number of cycles and exceedances, rearrange decoder, bypass and bleed valve matching schemes, two pulse shaping amplifiers on the bypass and country the inflator valves and the collective reset circuit, wherein the control input of the matching circuit of the bleed-off valve is connected to the direct input of the tunable decoder, and the control input of the overflow valve matching circuit with its inverse output and the signal inputs of the matching circuit are connected to the output of the counter cycles, the output of the bleed valve matching circuit through the amplifier-Former is connected to the inlet of the batch bleed valve, the outputs of both matching circuits are connected to the buses through the collecting circuit reset the counters for the number of cycles and exceedances of C2J. The main disadvantages of this meter are, firstly, that the compensation pressure in the compensating pneumatic system must be necessarily greater than the measured pressure before starting work, therefore, before measuring it, manual pressure setting in the compensation system is required, which leads to to increase the laboriousness of the measurements, secondly, when working with a multi-cylinder engine, the measurement over the cylinders must be carried out only by manually disconnecting the gauge from the sensor of the previous cylinder and CONNECTIONS to the sensors installed on the engine next cylinder. The purpose of the invention is to increase the speed of the device. The goal is achieved by the fact that the maximum pressure meter, which contains pneumoelectric pressure sensors, compensates the pneumatic system with successively connected sources of compressed air, rotational bypass and bleed valves, a recording device, a cycle sensor, counters of the number of cycles and exceedances, a tunable decoder, and overflow schemes and bleed valves / two pulse power amplifiers for overflow and bleed valves and a collective reset circuit The control input of the bleed valve matching circuit is connected to the direct input of the tunable decoder, and the control input of the overflow valve matching circuit with its inverse output, and the signal inputs of the matching circuit are connected to the output of the loop counter, the output of the bleed valve matching output through the amplifier the former is connected to the inlet of the batch relief valve, the outlets of both coincidence circuits are connected through the collecting circuit to the reset buses of the counters of the number of cycles and exceedances, by introducing The electronic switchboard, the Controller, the coincidence circuit and the collective scheme of the overflow valve, the information inputs of the electronic switch of the 1mutator are connected to the electrical outputs of the pneumoelectric pressure sensors, and its output - from the input of the elevation counter, the inputs of the control coincidence circuit are connected to the direct output a tunable decoder and an inverted counter output for the number of cycles, and its output is connected to the first input of the collecting circuit of the batch relief valve and the input of the collecting circuit scatter, a second input circuit collective batch bypass valve coupled to the output of matching circuit bypass valve, and its output through an amplifier-driver - to the input of the overflow valve. The drawing shows the structural scheme of the proposed meter. The meter contains pressure sensors 1 installed in the cylinders of the internal combustion chamber 2 sensor of the number of cycles 3, electronic switch 4, counter of the number of cycles 5, equal to it in the number of bits counter of the number of exceedances. 6, each associated with a tunable decryptor 7, the control unit clap.

pans, including a coincidence circuit 8, a coincidence control circuit 9, a coincidence circuit 10, two amplifiers 11 and 12, a collective circuit 13, a collective reset circuit 14, controllable batch bleed and bypass valves 15 and 16, a recording device 17, a source compressed air 18, the electrical outputs of the pressure sensors 1 are connected to the information inputs of the electronic switch 4, and the sensor of the number of cycles 3 is connected to the counter of the number of cycles 5, the output of the electronic switch 4 is connected to the counter of the number of exceedances 6, and each digit of the number of exceedances counter 6 is connected with a tunable decoder 7, the inverse output of which is connected to the input of the coincidence circuit 8 of the controlled portion bleed valve 15, and the forward code of the tunable decoder 7 is connected to the inputs of the control coincidence circuit 9 and matching circuit 10 of the bypass valve 16, the control inputs of the matching circuits 8 and 10 are connected to the direct, the matching control circuit 9 and the inverse output of the counter of the number of cycles 5, the output of the matching circuit 8 is connected to the input collectively The reset circuit 14 and with the booster 11, the output of the booster amplifier 11 is connected to the controlled batch bleed valve 15, the output of the control circuit coincides 9 with the inputs of the collective reset circuit 14 and the collective circuit 13 of the portioned bypass valve 16 output of the coincidence circuit 10 of the portion the bypass valve 16 is connected with the control input of the electronic switch 4, with the recording device 17, with the BTOpfcoM input of the collecting circuit 13 of the batch bypass valve 16 and with the input of the collecting circuit ca 14, output circuit 13 GSS selectivity of batch bypass valve 16 is connected to the input of amplifier -formirovatel 12, and the last - in portions with a controlled bypass valve 16, the collective output circuit 14 is connected to the counter reset tires of cycles and elevations 5 and 6.

The meter works as follows

in a way.

I

In the initial state, at the inverse output of the tunable decoder associated with the coincidence circuit 8, there is an enable signal and the coincidence circuit 8 is open. At the right exit de. the tunable decoder 7 has no signal and the matching schemes 9 and 10 are closed.

Before starting work on the tunable decoder 7, the

a given static distribution coefficient, e.g. 0.5, which would additionally correspond to the average value of the maximum pressure.

Consider the case of the scheme.

In the first case, before working in the compensation system, the pressure of compressed air is known to be greater than the measured average value of the maximum cycle pressure. The pulses from the sensor of the number of cycles 3 with the frequency of operation of the machine under investigation are filled in the counter of the number of cycles 5. Simultaneously from the outputs of the pneumoelectric pressure sensors 1, the electronic switch 4 receives pulses, but only if at least one or several values of the maximum cycle pressure for the set With a cycle number counter 5, the number of cycles exceeds the compensation pressure. If, by the ms of a full-fill counter 5, the counter of the number of exceedances 6 is less than 0.5 of its capacity, then the output state of the tunable decoder 7 does not change. In this case, the overflow pulse of the counter of the number of cycles 5 through the open coincidence circuit 8 and the amplifier-shaper 11 is supplied to the controlled batch bleed valve 15. As a result, the valve 15 is activated and releases a portion of air into the atmosphere, thereby lowering the pressure in the compensating pneumatic system. At the same time, the contents of the number of cycles 5 and the number of exceedances 6 are cleared through the collecting discharge circuit 14, and the operation cycle described is repeated. It . will be performed until the number of exceedances counter 6 is filled to 0.5 of its capacity.

If the count of exceptions 6 is filled to 0.5 capacity before the count of cycles 5, then the output state of the tunable decoder 7 changes - the coincidence circuit 8 closes, and the coincidence circuits 9 and 10 open. In this case, an overflow pulse from the output of the cycle number counter 5 passes through an open coincidence circuit 10 to the recording device 17 to fix the measured pressure value to the control input of the electronic switch 4 to switch its input with the next sensor 1 and through the collective reset circuit 14 to bus reset counters of the number of cycles 5 and the number of exceedances b, at the same time the pulse from the output of the coincidence circuit 10 through the collecting circuit 13 of the overflow batch valve 16 and the amplifier-driver 12 goes to the pack Aulus emy bypass continental

Claims (1)

MAXIMUM PRESSURE METER, containing pneumatic-electric pressure sensors, compensating two amplifier-driver of impulses to the bypass and bleed valves and a collective reset circuit, while the control input of the matching circuit the valve is connected to the direct input of the tunable decoder, and the control input of the bypass valve matching circuit is connected to its inverse output, and the signal inputs of the matching circuits are connected to the output of the cycle counter, the output of the matching valve circuit through the amplifier-shaper is connected to the inputs of the batch valves, the outputs of both matching circuits through a collective circuit are connected to the reset buses of the number of cycles and excess counters, characterized in that, in order to increase the speed The device’s operation, an electronic switch, a coincidence control circuit and a collective batch bypass valve circuit are introduced into it, and the electronic information inputs _{from the} switch are connected to the electrical outputs of the pneumoelectric pressure sensors, and its output to the excess meter input, the coincidence control circuit inputs are connected to direct the output of the tunable decoder and the inverse output of the number of cycles counter, and its output is connected to the first input of the collective circuit of the portioned bypass valve collecting input reset circuit, a second input circuit batch collecting overflow valve connected to the output of the coincidence circuit of the bypass valve, and its output through an amplifier with an input-formirovatel- bypass valve. SU „..1105766