SU1670286A1 - Gas distributing station - Google Patents

Abstract

The invention allows to simplify the design, reduce the metal consumption, increase reliability, expand functionality and reduce the occupied area of the gas distribution station. In metal boxes placed processing units and gas treatment. In one box, made in the form of a pipeline section, a preheating unit, a crane unit, a strainer, a pressure regulator 5, a metering diaphragm unit, and a gas odorizer are placed successively in the direction of gas flow. The crane unit is made of segments of two coaxially arranged pipes 8, 9 of different diameters. The annular space is hermetically sealed with stiffening washers 10 and divided into sections 11. The last section 11 has a washer 12 with openings for the passage of gas. Inside each section 11, valve seats 13 are installed on a pipe 8 of smaller diameter. Corresponding valves 14 are placed on pipe 9 through flange holes. The proposed technical solution allows not only preparing the gas for consumption, but also transporting it. 1 hp ff, 5 ill.

Description

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The invention relates to a technique for the preparation and distribution of a gaseous medium and can be used in the gas, chemical and other sectors of industry.

The purpose of the invention is to simplify the design, reduce metal consumption, increase reliability, enhance functionality and reduce space.

FIG. 1 shows a gas distribution station, top view; figure 2 is the same, side view; on fig.Z - crane unit, side view; figure 4 - section aa on fig.Z; Figure 5 is a perforated stiffening washer.

The gas distribution station contains metal boxes with gas processing and treatment units, instrumentation, alarm devices and shut-off valves. In one box, made in the form of a segment of pipeline 1, successively in the direction of gas flow are placed the heating unit 2, crane unit 3, strainer 4, pressure regulator 5, metering diaphragm unit 6 and gas odorizer 7.

The crane unit 3 is made of segments of two coaxially arranged pipes 8 and 9 of different diameters, the annular space is hermetically sealed by washers 10 stiffness and divided into sections 11, the last of which has a washer 12c with openings for the passage of gas. Inside each section 11 on the pipe 8 of a smaller diameter are installed valve seats 13, and the corresponding valves 14 through the flange holes 15 and the steering wheels 16 are placed on the pipe 9 of a larger diameter.

The gas distribution station operates as follows.

The gaseous medium enters the inlet pipe of a smaller diameter heater 2, coaxially placed in a pipe of larger diameter, plugged at the end and perforated along the surface. In the annular space there is a coil of the heat exchanger preheater 2 with coolant located in the compartment of the block-box 17 of instrumentation located at a distance of 10 m from the gas distribution station (explosion-protection standards). Through a perforated screwdriver of the inlet pipe of a smaller diameter, the gaseous medium enters the annular space, where it is heated, interacting with the coil of the preheater. Alternatively, the heater can be an explosion-proof electric heater of the heating element type. Next, the gaseous medium enters the inlet of the pipe 8.

small diameter of the crane unit 3 and through the holes in the valve seats 13 as the valves 14 of each section enter the annular space of individual

sections and from there along laterals on the side surface is fed to the bypass line or redundant reducing pipelines. Valve actuators can be either in the form of steering wheels 16 or from pneumatic or

0 electric motors. The gaseous medium enters the zone of the screen filter 4 through the holes of the rigidity washer 12. The cross section of the filter is divided by a segmented partition that directs the flow of the medium to the lower half of the filter housing 4, and then, lifting, passes through the mesh frames. The gas medium is cleaned of suspended particles and enters the pipe of a smaller diameter for the pressure regulator control unit 5. Further, the flow of a gaseous medium of reduced pressure enters the pipe-main pipeline. In accordance with the requirements of metrology at a distance equal to 100 pipe diameters

5 from the pressure regulator pressure reduction unit, a diaphragm metering unit 6 is installed. Pass the diaphragm unit 6, the medium enters the gas odorizer 7, which is located at a distance of 10 diameters from the metering diaphragm unit 6. After the flow of a gaseous medium passes through the gas odor 7 an odorized gaseous stream fully prepared for

5 household needs, continues to move through the pipe to the consumer.

The use of the invention provides a reduction in metal consumption and labor intensity, as well as the expansion of functional

0 possibilities, since the gas distribution station not only performs the function of preparing gas for consumption, but is also a vehicle for the gaseous environment, since the body is like a segment

5 of the main gas pipeline, directed towards the consumer, and also eliminated the need to manufacture additional shelters in the form of metal boxes for gas treatment units.

Claims (2)

1. Gas distribution station, containing metal boxes with gas processing and treatment units, instrumentation, alarm devices and shut-off valves, which, in order to simplify the design, reduce metal consumption, increase reliability extending functionality and reducing of occupied areas, in one box, made in the form of a pipe segment, sequentially along the gas movement are placed the preheating unit, crane unit, strainer, pressure regulator, metering diaphragm unit and gas odorizer 2. The station according to claim 1, characterized in that the crane unit is made of segments of two coaxially arranged pipes of different diameters, with the annular space sealed with stiffening washers and divided into sections, and the last section has a washer with openings for gas passage, with valve seats inside each section and smaller valves with flange holes placed on pipe of larger diameter. H / H C / 4 ptte4 Editor A. Lezhnin Compiled by I.Salkova Tehred M. Morgental FIG. five Proofreader M.Kucher va