RU9067U1 - INSTALLATION FOR CHECKING AND GRADING GAS METERS - Google Patents

Abstract

Installation for checking and calibrating gas meters, comprising a housing, a connection mechanism to the measuring line, an exemplary flow meter with nozzles located on the base, an input for the flow of the medium to be measured, a rarefaction supercharger, a device for maintaining the required flow rate for each nozzle, characterized in that the installation equipped with pressure sensors, a thermometer, a barometer, units: power, registration and calculation control, while the housing is made with a hinged lid containing mounting elements, m the connection mechanism to the measuring line is equipped with a line-atmosphere bypass valve, and the base of the exemplary flowmeter with nozzles is installed hermetically through a spring-loaded intermediate disk between the racks rigidly fixed in the housing, while the intermediate disk is equipped with a squeezing mechanism, and the input for the medium flow is made in the form of a straight pipe segment, one end rigidly connected to the intermediate disk, and the other end connected movably with the line-atmosphere bypass valve.

Description

INSTALLATION FOR CHECKING AND GRADING GAS METERS

The utility model relates to a flow measurement technique and can be used to verify and calibrate gas meters.

A known installation for calibration and calibration of gas meters, consisting of a bell gas meter, a test bench

And a device for measuring flow, 1 a6 of which is based on the method of direct comparison of the readings of a verified meter V with the readings of a flow measuring device.

However, this installation has large dimensions, it can be performed only in a stationary version in a room with constantly maintained harsh climatic conditions 1.

A known installation for checking and calibrating gas meters, containing exemplary flow meters with nozzles, a supercharger that creates a vacuum, a reference flow meter.

However, this installation is stationary, it requires a large volume prechamber, the design is complicated by V valve mechanisms made for each nozzle, and the presence of a high-precision reference flow meter significantly increases the installation cost and increases the complexity of the C2 verification process.

Closest to the technical nature of this invention is the installation for calibration and calibration of gas meters, comprising a housing, a mechanism for connecting to a measuring line, an exemplary flow meter with nozzles located on the base, inlets for the flow of the medium for each nozzle, a supercharger creating device for maintaining the required flow rate. An exemplary flow meter with nozzles, each of which is provided with an inlet for the flow of the medium to be measured, using an input for

at the moment, the nozzles are connected directly to the mechanism for connecting to the measuring line, and with the help of ngvr | staff

air is passed through a verified meter and a selected nozzle.

Next, they carry out SBavnenie 1 askhoda per unit 1vred; across

nozzle with flow rate indications of the verified meter.

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effort and cost to ensure the integrity of the measuring line. In addition, connecting the nozzles directly to the meter to be verified does not accurately determine the moment the supercharger exits to a steady state operating mode, which reduces the measurement accuracy, and the absence of pressure sensors, a barometer and a thermometer reduce the measurement accuracy even more SZ.

The invention is directed to the creation of a high-precision, portable, compact, small-sized, lightweight installation for the verification and calibration of gas meters both in production conditions, in metrological calibration centers, and directly in the premises of residential buildings.

This is achieved by the fact that the installation is equipped with pressure sensors, temperature, a barometer, units: power, registration and calculation control, the installation has only one input for the medium flow through which any nozzle is connected to the connection mechanism to the measuring line, and the connection mechanism to the measuring line is equipped with a bypass valve line - atmosphere, and the housing is made with a hinged lid on the hinge containing mounting elements; the base of the exemplary flowmeter with nozzles is installed to ensure tightness through a spring-loaded intermediate disk between the racks rigidly fixed in the housing, and the intermediate disk is equipped with a squeezing mechanism, and the only input for the flow of the measured medium is made in the form of a straight pipe segment, one end rigidly connected to the intermediate disk, and the other end of the line connected to the bypass valve is the atmosphere.

The essence of the utility model is illustrated by drawings, where in FIG. 1 shows a general view of an apparatus for checking and calibrating gas meters, FIG. 2 is a diagram of the operation of the installation.

The installation for checking and calibrating gas meters consists of: a mechanism for connecting to a measuring line 1 with a bypass valve line - atmosphere 2.1 of a standard flowmeter with nozzles 3 mounted in the base of the intermediate disk 4, spring-loaded 9 J SU.SC 5 mechanism 6, one input for the gaseous medium flow 7, uprights 8 and 9, the rarefaction supercharger 10, pressure sensors 11, thermometer 12, barometer 13, power supply 14, control unit, registration and calculation 15, the device for maintaining the required flow rate 16, housing 17, reclining hinges 18, cover 19, containing, for example, mounting elements 20 for connection to a connection mechanism to the measuring line. For verification, a gas meter 21 with plugs 22, installed in the line 23, with a shut-off valve 24, is used. The installation for calibration and calibration of gas meters works as follows. At the housing 17, the cover 19 mounted on the hinges 18 is tilted. With the help of the shut-off valve 24, the gas meter 21 is disconnected from the line 23, the plugs 22 are removed. A mounting element 20 is installed at the counter output, for example, a flexible connector - a hose. The other end of the connector is connected to the connection mechanism to the measuring line 1, containing the line-atmosphere bypass valve 2, made, for example, by the principle of a plunger electromagnet, and the valve is in the atmosphere position. Using a squeezing mechanism 6, which can be performed, for example, in the form of a rotary handle connected to a squeezing clutch, or can be squeezed out automatically using electrical devices, the intermediate disk 4 spring-loaded by spring 5 releases hermetically, for example, using rubber gaskets, the installed base with nozzles of the sample flow meter 3, and a movable installation, for example, through a rubber V casing, of a single inlet for the flow of the measured medium from the bypass valve allows you to connect to the input for the flow of the measured medium; 7 any optional nozzle 1, then connect the power supply 14, turn on the supercharger 10 and suck the air, bypassing the counter, from the atmosphere, while the supercharger is brought into operation by means of a support device of the required size from the output 16, taking into account the readings of the pressure sensors 11. After the supercharger reaches the desired operating mode using the button on the control unit, registration and calculation 15, the bypass valve 2 is switched to line mode, the timer is turned on and for a specified period of time Air is passed through a verified meter, then the control, registration and calculation unit records the flow rate unit of time through the nozzle, and taking into account the readings of the thermometer 12 and barometer 13, calculation and / comparison of the flow rate through the nozzle with -j -3-V

plastic plastics, for example polyoxymethylene (POM), ABS plastic, other parts are made by machining metal rods and pipes, gaskets and seals are made of rubber, printed circuit boards manufactured according to standard technological processes are used in electronic blocks.

The progressive methods of manufacturing parts and assemblies for calibrating and calibrating gas meters — injection molding, stamping, resistance welding, machining where it is possible to use CNC, allow for low labor costs and cost, and compactness and light weight with a sufficient degree of convenience to transfer the installation and use it for calibration and calibration of gas meters not only in stationary conditions, but also directly in the premises of residential buildings.

SOURCES OF INFORMATION

1. GOST R 50818-95 Volumetric diaphragm gas meters. General technical requirements and test methods.

2. Japanese application 1E 62-39689, publication 87 08 25 R 6-993, MKIB G01 F25 / 00, G01 F13 / 00.

3. CERTIFICATE FOR USEFUL MODEL 4165.

second: #

About Bernatskaya Yanina Konstantinovna Kazakov Valery Viktorovich

/ Sokolov Gennady Vladimirovich

-1

Claims (1)

Installation for checking and calibrating gas meters, comprising a housing, a connection mechanism to the measuring line, an exemplary flow meter with nozzles located on the base, an input for the flow of the medium to be measured, a rarefaction supercharger, a device for maintaining the required flow rate for each nozzle, characterized in that the installation equipped with pressure sensors, a thermometer, a barometer, units: power, registration and calculation control, while the housing is made with a hinged lid containing mounting elements, m the connection mechanism to the measuring line is equipped with a line-atmosphere bypass valve, and the base of the exemplary flowmeter with nozzles is installed hermetically through a spring-loaded intermediate disk between the racks rigidly fixed in the housing, while the intermediate disk is equipped with a squeezing mechanism, and the input for the medium flow is made in the form of a straight pipe segment, one end rigidly connected to the intermediate disk, and the other end connected movably with the line-atmosphere bypass valve.