RU2873U1 - STAND FOR CHECKING GAS METERS WITH ELECTROMECHANICAL REPORTING DEVICE - Google Patents

Abstract

A bench for checking gas meters with an electromechanical metering device, comprising a constant flow rate adjuster, for example, an exemplary micro nozzle whose output is connected to the input of a low-pressure cavity, and the input - to the output channel of the last of n sequentially installed counters, the input channel of the first of which is connected to the atmosphere moreover, the channel at the inlet to the flow controller is also connected to the pressure measuring means, and the input channel of the first counter is connected to the absolute measuring instruments (atmospheric w) pressure and temperature, characterized in that a current sensor is installed in the meter’s power supply circuit, with an amplifier, a counting trigger and a chronometer connected in series to it.

Description

The utility model relates to the field of instrumentation and can be used for calibration of jet gas meters with an electromechanical reading device.

There are known stands for believe and flow meters and counters, containing two sequentially installed flow meters (counters), a calibrator and an exemplary G, see VL1 Flaps. Laboratory instruments for measuring fluid and gas flows, 1955, p. 71.

The disadvantage of this stand is the great complexity when conducting verification of gas meters,

The closest in technical essence to the proposed stand is the installation, for checking gas meters with the help of replaceable nozzles, they contain a valve.gator (vacuum pump) j damper (valve) ,, nozzle, measuring instruments for pressure and temperature of fuel and lubricants. Pavlovsky A.H.j Measurement of the flow rate and quantity of liquids, gas and steam .. M. 5 Publishing house of standards,, p. Mbz,

The disadvantage of this test bench is that it is very laborious to carry out verifications due to the long exposure time of one gas meter for a given paJChod.

The objective of the invention is the creation of a stand providing a reduction in the complexity of the calibration of gas meters with electrical metering device (such as gas meters Cr-l).

This is achieved by the fact that in the stand for checking jet counters with an electromechanical counter, a reading device containing a constant constant output sensor, for example, a set of interchangeable exemplary micro nozzles 3 is the outlet of the cat.; One is connected to the entrance to the cavity with low pressure, for example, to the entrance to a vacuum pump, and the input with the output channel of the meter being verified, the input channel of which is connected to the atmosphere, the channel at the inlet to the flow meter is also connected to pressure measuring means, for example, a piezometer. The stand also contains means for measuring atmospheric pressure and temperature .. And a current sensor is installed in the power circuit, s

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serially connected to it by an amplifier, counting trigger and chronometer.

The stand also provides for the possibility of connecting additional verifiable counters in series between the first meter and constant-flow transmitter, to the input channel of each additional meter, a pressure measuring device has been raised, and current sensors are installed in the power circuit of each additional meter, with successively connected sensors. , respectively, amplifiers., counting triggers and chronometers. The drawing shows a diagram of a stand for checking the meters of a Haw with electromechanical readout construction and described below.

Verifiable counter 1 (1),., 1 (p) are installed in series. The input of the first verified meter 1 (1) is connected to the atmosphere. and the output of the last 1 (t) is connected to the inlet of the constant flow detector., made, for example, in the form of an exemplary micro nozzle (OMS) 2. whose output is connected to the entrance of the low-pressure cavity., for example, to the entrance to the vacuum pump S, the outlet pressure Willow obratsovogo microsop. 71a S is measured with the aid of a pressure measuring device, for example, a vacuum gauge 4. The channel at the entrance to OMO 2 is connected as well with a pressure measuring device, for example, a piezometer 5 (l). A current sensor 6, is installed in the power circuit of the verified meter 1. with an amplifier 7. connected in series with it, with a counting trigger 8 and a chronometer 9, For temperature and absolute pressure at the inlet to the first counter, a thermometer 10 and a means for measuring absolute pressure (for example, a barometer) are provided 11. Additional verifiable counters 1 (S).,. 1 (p) are installed sequentially, 1 but between the first meter 1 (1) and the constant flow transmitter .S, and to the input. the channel of each additional counter 1 (2) ... 1 (p) is connected to pressure measuring means 5 (2) ... 5 (p)., and in the power circuit of each additional counter 1 (2) ... 1 (p) installed current sensors 6 (2) 6 (p) .. with sequentially connected., respectively, amplifiers 7 (2) ... (p)., counting triggers 8 (2) ... 8 (p) and chronometers 9 ( 2) ... 9 (p).

The stand works as follows. Vacuum pump 3 creates a vacuum., Causing air drawing through counter (s) 1 and exemplary micro nozzle 2. At a sufficiently low pressure at the outlet of

exemplary micro nozzle (less than and. 4 ata) a critical flow is established in it, the flow rate through the exemplary micro nozzle g does not depend on the pressure behind it, so the micro nozzle is a constant flow rate adjuster. (It is also fashionable to provide a constant flow rate through a micro-nozzle by maintaining a constant drop across it - by monitoring by means of pressure measuring instruments 4 and 5 (p)}. This same flow rate also passes through counter 1 (meters 1 (1) ,,. 1 (p)). Using measuring instruments 10 and 11, the air temperature TH at the inlet to the meter and atmospheric air pressure Rd is measured, the discharge LRoc at the inlet to the CHM S is measured with the help of the pressure measuring instrument 4, and the absolute air pressure at the inlet to the POWC micro nozzle is determined RK using a chronometer 9 carries out I measurement time interval t between two posledovateln.mi orabotkalda counter reading device 1 as follows.

During operation, counter 1 consumes a small current - current to power the microcircuits of the amplifier-driver of pulses received from the primary transducer ra :: counter 1 (the frequency of pulses is proportional to the volumetric air flow through the counter), and the pulse-counting microcircuits The magnitude of this current in the power supply circuit of counter 1 less than O.B.

When passing the number of pulses corresponding to the counting unit of the electromechanical reading device of counter 1, by. The electromagnet of the reading device of the counter j is supplied with a short-term (duration of less than 0.1 sec) current pulse, with an amplitude of more than O.S. A, current sensor 6 detects this 3cc Reset current. The amplifier generates a signal to the counting trigger 8, which, when the first pulse passes, gives a signal in the form of a constant voltage with V 6 + -1V to the control unit of the chronometer 9. By starting the time count, and when the current t-spool passes again in the power supply circuit of counter 1 (with a t-amplitude greater than O.SA), trigger 8 generates a signal in the form of a constant voltage with V 0, P4-0.1V. beautiful (and remembering) countdown of time t: chronometer 9.

The Gr-ed counter coefficient at a given flow rate is determined by for / gula

RAG KoMc “fSqrt (TK) T ()

where: Kg2:, ms calibration factor of the exemplary micro nozzle, M is the volume corresponding to the unit of the reading device

counter., sort - square root

This is the calibration of jet gas meters with an electromechanical reading device that cannot be prepared (due to protection from unauthorized interference with their work and because of the danger of a leak in the meter, which is unacceptable in terms of explosion hazard). At the same time, the labor productivity of the tester is significantly increased - it becomes possible to sow; the duration between two successive trials of the reading device is eliminated, since the error is removed due to subjective delay when the tester burns time, and it becomes possible to simultaneously verify a large number of counters by one tester, From the authors , // /(.-,

 7. "J1 N.V. Yyulogodsky

Claims (1)

A bench for checking gas meters with an electromechanical metering device, comprising a constant flow rate adjuster, for example, an exemplary micro nozzle whose output is connected to the input of a low-pressure cavity, and the input - to the output channel of the last of n sequentially installed counters, the input channel of the first of which is connected to the atmosphere moreover, the channel at the inlet to the flow controller is also connected to the pressure measuring means, and the input channel of the first counter is connected to the absolute measuring instruments (atmospheric w) pressure and temperature, characterized in that a current sensor is installed in the meter’s power supply circuit, with an amplifier, a counting trigger and a chronometer connected in series to it.