RU222137U1 - Mobile device for testing gas analyzer - Google Patents

Abstract

The utility model relates to metrological devices and can be used in all industries for calibrating gas analyzers, chromatographs, gas analytical systems and gas analytical converters.

The technical problem is the creation of a compact and mobile device with the ability to determine the verification mixture supplied to the device at the time of verification and without the need for constant analysis of the ASG supply circuit when working with various types of gas analyzers.

The technical result is to increase labor productivity when calibrating gas analyzers.

The technical result in a mobile device for testing a gas analyzer, containing a stand, a gearbox, a pressure gauge, a rotameter, is achieved by the fact that the stand is a cubic frame, on the upper edge of which a calibration table is rigidly fixed, while a panel for switching and supplying the calibration test is rigidly fixed to the calibration table. gas mixture (AGM), containing ball valves for connecting cylinders with AGM, a receiver, a pressure gauge, a rotameter and an AGM dispensing sleeve, while at the end of the ASG dispensing hose a calibration valve is rigidly attached, with the ability to connect to the device being verified, and to the bottom edge of the stand is rigidly a storage shelf is fixed, while at the top of the storage shelf a form for storing cylinders is rigidly fixed, with the possibility of fixing cylinders with ASG, and at the bottom of the storage shelf there are wheels rigidly fixed, with the possibility of moving the structure.

Description

The utility model relates to metrological devices and can be used in all industries for calibrating gas analyzers, chromatographs, gas analytical systems and gas analytical converters.

There is a well-known metrological stand for testing LNG gas analyzers, containing a work table, a fume hood, cylinders with diluent gas, cylinders with standard gas mixtures, calibration gas mixtures (hereinafter referred to as CGM), panels with pneumatic switching elements, reference gas generators, rotameters. [Catalogue “Measuring instruments”, chapter “Metrological equipment”, item “Metrological stands”, pp. 342-343, JSC “PG “Metran”, 2023].

The disadvantages of the known stand are its dimensions, which occupy a large area inside the metrology laboratory, the inability to determine the verification mixture supplied to the device at the time of verification, and the need for constant analysis of the ASG supply circuit when working with various types of gas analyzers.

A device for preparing a test gas mixture is known, described in the method for preparing test gas mixtures and a device for its implementation, containing a vessel with a test gas connected to a common channel, equipped with a reducer, a mixing vessel and a gas analyzer sensor placed in the outlet channel, wherein, in it, the indicated elements are connected to a common channel through separate valves, and the mixing vessel is equipped with a pressure sensor, while in addition to the common channel through separate valves, a compressor, a vacuum pump and a reducer with a valve in the bypass channel are connected, the output of the reducer is connected to a set equipped with separate valves of vessels for removing the prepared ASG, and the gas analyzer sensor is connected to a set of vessels equipped with separate valves with reference ASG of various concentrations. [RF patent No. 2383007, IPC G01N 25/00, publ. 02/27/2010 bulletin. No. 6].

The disadvantage of the known device is the possibility of only stationary use, due to the large number of component parts operating from the network.

There is a well-known metrological stand for verification of LNG-2 gas analyzers, made in the form of a rack and intended for verification of gas analytical equipment using ready-made standard gas mixtures, with the concentration values of the target components required by the verification procedure. The LNG-2 stand allows you to simultaneously connect up to 4 cylinders to the input port of the device being tested. Each of the channels of the stand has its own control line, the elements of which are built into the front panel of the LNG-2 stand: a channel shut-off valve, used to turn on and off the PGS-GSO cylinder from the outlet port of the stand, a pressure gauge, to control the mixture pressure in the channel, a regulating rotameter, used to set the gas mixture flow rate for each channel (control range from 0.4 to 4.1 l/min). As standards at the LNG-2 stand, exemplary gas mixtures of the zero, 1st and 2nd categories are used, and to regulate the pressure before entering the pneumatic wiring of the LNG-2 stand, pressure reducers for PGS-GSO cylinders are used [Catalog “Measuring Instruments ", chapter "Metrological equipment", paragraph "Metrological stands", pp. 343-344, JSC "PG "Metran", 2023].

The disadvantages of the prototype are the large dimensions of the structure, the possibility of only stationary use, the inability to determine the verification mixture supplied to the device at the time of verification, the need for constant analysis of the ASG supply circuit when working with various types of gas analyzers.

The technical problem is the creation of a compact and mobile device with the ability to determine the verification mixture supplied to the device at the time of verification and without the need for constant analysis of the ASG supply circuit when working with various types of gas analyzers.

The technical result is to increase labor productivity when calibrating gas analyzers.

The technical result in a mobile device for testing a gas analyzer, containing a stand, a gearbox, a pressure gauge, a rotameter, is achieved by the fact that the stand is a cubic frame, on the upper edge of which a calibration table is rigidly fixed, while a panel for switching and feeding the calibration test is rigidly fixed to the calibration table. gas mixture (AGM), containing ball valves for connecting cylinders with AGM, a receiver, a pressure gauge, a rotameter and an AGM dispensing sleeve, while at the end of the ASG dispensing hose a calibration valve is rigidly attached, with the ability to connect to the device being verified, and to the bottom edge of the stand is rigidly a storage shelf is fixed, while at the top of the storage shelf a form for storing cylinders is rigidly fixed, with the possibility of fixing cylinders with ASG, and at the bottom of the storage shelf there are wheels rigidly fixed, with the possibility of moving the structure.

The claimed technical solution is illustrated by the drawing.

In fig. 1 – general view of the device for testing the gas analyzer,

in fig. 2 – panel for switching and supplying ASG, front view,

in fig. 3 – panel for switching and supplying ASG, rear view,

in fig. 4 – connection diagram of the device for testing the gas analyzer.

The mobile device for checking the gas analyzer contains the following structural elements: 1 – stand, 2 – calibration table, 3 – storage shelf, 4 – form for storing cylinders, 5 – panel for switching and supplying ASG, 6 – gearboxes, 7 – ball valves, 8 - receiver, 9 - pressure gauge, 10 - rotameter, 11 - test valve, 12 - ASG supply hoses, 13 - ASG dispensing hose, 14 - wheels, 15 - cylinders with ASG.

A mobile device for testing a gas analyzer contains a rack 1, which is a cubic frame made of metal corners, on the upper edge of which, using, for example, bolts, a calibration table 2, made of wood and varnished, resistant to mechanical and chemical influences, is rigidly fixed, and To the bottom edge, using, for example, bolts, a storage shelf 3 is rigidly fixed, also made of wood and containing wheels 14 for moving the structure. In this case, on the storage shelf 3, a form for storing cylinders 4 is rigidly fixed, for example, with bolts, made from longitudinal sections of pipe and containing a rubber gasket (not indicated in the figure), with the possibility of fixing cylinders with ASG 15. In this case, to the upper edge of the rack 1, on the side, using, for example, bolts, a panel for switching and supplying the ASG 5 is rigidly fixed, on which, in turn, ball valves 7, a receiver 8, a pressure gauge 9 and a rotameter 10 are rigidly fixed using, for example, bolts. To regulate the pressure, pressure reducers 6 are used, mounted on cylinders with ASG 15. The ASG is supplied to the ball valves 7 through the ASG supply hoses 12. From the ball valves 7, the ASG through silicone hoses (not indicated in the figure) enters the receiver 8. Then the ASG from receiver 8, through another silicone hose (not indicated in the figure), enters rotameter 10 to set the ASG flow rates. Next, from the ASG rotameter 10, through the ASG dispensing hose 13, it flows to the verification valve 11, connected to the verification sensor on the gas analyzer.

The mobile device for testing the gas analyzer operates as follows.

A gas analyzer is brought to the location of the rack 1 and installed on the calibration table 2 and the calibration valve 11 is connected to the gas analyzer sensor using the ASG dispensing hose 13. Then, a form for storing cylinders 4 is installed on the storage shelf 3. Next, in the storage form cylinders 4, install cylinders with ASG 15, the required concentration, and mount gearboxes 6 on them. After this, using ASG supply hoses 12, reducers 6 are connected to ball valves 7 located on the panel for switching and supplying ASG 5. Then, based on passports for the gas analyzer being verified, open the valve of one of the cylinders with ASG 15, the required concentration, and one of the ball valves 7, which is connected via one of the supply hoses of ASG 12 to the selected cylinder with ASG 15. As a result, the ASG is carried out via a silicone hose ( not indicated in the figure) begins to flow into the receiver 8, and then, through a silicone hose (not indicated in the figure), into the rotameter 10, while the pressure in the line is displayed on the pressure gauge 9. Then, the flow rate of the ASG is adjusted on the rotameter 10 and the ASG with a given flow rate comes out of the panel to switch and supply the ASG 5 through the ASG dispensing hose 13 to the verification valve 11. The verification program is turned on on the gas analyzer. The gas analyzer is being verified. After successful verification of the gas analyzer, close the valve on the selected cylinder with ASG 15 and the corresponding ball valve 7 and disconnect the gas analyzer from the verification valve 11. The work on calibrating the gas analyzer is completed.

Thus, the technical problem has been solved and the technical result has been achieved.

An analysis of known technical solutions, carried out according to scientific, technical and patent documentation, showed that the set of essential features of the proposed technical solution is unknown from the level of technology, therefore, it meets the conditions of patentability of a utility model: novelty.

The claimed technical solution is industrially applicable, manufactured on standard equipment using modern available materials and technologies and is used in the instrumentation and automation service of the Konstantinovsky linear production department of main gas pipelines of Gazprom Transgaz Kazan LLC.

Claims (1)

A mobile device for testing a gas analyzer, containing a stand, a gearbox, a pressure gauge, a rotameter, characterized in that the stand is a cubic frame, on the upper edge of which a calibration table is rigidly fixed, while a panel for switching and supplying the calibration gas mixture is rigidly fixed to the calibration table. ASG), containing ball valves for connecting cylinders with ASG, a receiver, a pressure gauge, a rotameter and an ASG dispensing sleeve, while at the end of the ASG dispensing hose a verification valve is rigidly fixed, with the ability to connect to the device being verified, and a shelf for storage, while at the top of the storage shelf there is a rigidly fixed form for storing cylinders, with the possibility of fixing cylinders with ASG, and at the bottom of the storage shelf, wheels are rigidly fixed, with the ability to move the structure.