RU221608U1 - Gas tight butterfly valve - Google Patents

Abstract

The utility model relates to the mechanical engineering industry. The gas-tight butterfly valve is used for installation on gas-air pipelines of boiler houses, metallurgical plants and thermal power plants to control the supply of the working medium (air, gases) and the removal of flue gases. The proposed technical solution allows you to completely block the gas-air pipeline for the movement of the working medium, which makes it possible to control the working medium (air, gas) of the gas-air pipeline. The technical result is achieved due to the fact that the gas-tight two-leaf valve contains a housing, a pre-chamber with a branch pipe, and the housing consists of three sections: two sections with dampers and a pre-chamber section located between them, into which air is supplied through the branch pipe to create excess pressure, blocking the gas-air duct for the movement of the working medium, the gas-tight butterfly valve contains an electric single-turn actuator mechanism, which is installed on the bracket and is connected to the dampers by means of rods and levers, and contains a pressure gauge mount intended for installing a pressure gauge necessary to maintain a given pressure of the gas medium in the prechamber. 3 ill.

Description

The utility model relates to the mechanical engineering industry. The gas-tight butterfly valve is used for installation on gas-air pipelines of boiler houses, metallurgical plants and thermal power plants to control the supply of the working medium (air, gases) and the removal of flue gases.

A shut-off valve is known (see RF patent No. 2184896, publ. 2002), containing a housing with inlet and outlet pipes and a seat covered by a shut-off element equipped with a piston that forms a sub-piston and supra-piston cavities inside the housing, the first of which is connected through a pre-chamber with the inlet pipe, and the second - with the outlet pipe, and a control shut-off element is installed on this communication line, and on the communication line of the pre-chamber with the sub-piston cavity, a system of pipes and a separation chamber are sequentially installed, while the first pipe from the pre-chamber is located at an acute angle to the axis of the inlet pipe and has an inlet in a section located inside the pre-chamber on the side of this pipe opposite the inlet pipe.

The disadvantage of the known solution is the inability to control the working medium (air, gas) of the gas-air pipeline.

The proposed technical solution allows you to completely block the gas-air pipeline for the movement of the working medium, which makes it possible to control the working medium (air, gas) of the gas-air pipeline.

The technical result is achieved due to the fact that the gas-tight two-leaf valve contains a housing, a pre-chamber with a branch pipe, and the housing consists of three sections: two sections with dampers and a pre-chamber section located between them, into which air is supplied through the branch pipe to create excess pressure, blocking the gas-air duct for the movement of the working medium, the gas-tight butterfly valve contains an electric single-turn actuator mechanism, which is installed on a bracket and is connected to the dampers by means of rods and levers, and contains a pressure gauge mount intended for installing a pressure gauge necessary to maintain a given pressure of the gas medium in the prechamber.

The proposed device is illustrated by the following description of an example design and figures, where Fig. 1 shows a variant of a gas-tight butterfly valve with a pre-chamber for compressed air; in figure 2 - also, front view, in figure 3 - also, side view.

The main components of a gas-tight butterfly valve are: two dampers (1), valve body with sections (2, 3), pre-chamber (4), connecting rod (5), pressure gauge mount (6), supports (7, 8), bracket (9 ) under IEO; electric drive MEO (10), lever (11); traction (12).

The gas-tight butterfly valve body consists of three detachable sections: two damper sections (2, 3) and a prechamber section (4).

Each section is made of welded sheet steel. In the prechamber section (4) there is a service hatch and an air supply pipe. Two dampers (1) in the closed position and the valve body form a closed space - a pre-chamber (4). Air is supplied to the prechamber (4) to create a pressure exceeding the pressure of the working medium in the gas-air pipeline. Thus, the air in the prechamber (4) completely blocks the gas-air pipeline for the movement of the working medium, which makes it possible to control the working environment of the gas-air pipeline.

The supports (7, 8) of the gas-tight butterfly valve are metal structures, made of welded sheet steel and welded to the body of the gas-tight butterfly valve. The supports (7, 8) are used to install the valve in a horizontal or vertical position.

The connecting rod (5) consists of an electric single-turn actuator mechanism (abbreviated as MEO) (10), rods (12) and levers (11). The connecting rod (5) is used to uniformly close and open the dampers (2, 3).

The operating principle of the electric single-turn actuator (10) is to convert the electrical signal coming from the regulating or control device into rotational movement of the output shaft. The MEO actuator (10) is installed on the bracket (9) and is connected to the dampers (2, 3) through rods (12) and levers (11). The MEO actuator (10) consists of an electric motor, a mechanical brake, a gearbox, a manual drive, and an alarm unit.

The bracket (9) is intended for installation of the electric single-turn actuator mechanism MEO (10), which is used to open and close the valves.

The pressure gauge mount (6) is designed to install the pressure gauge necessary to maintain the specified pressure of the gas medium in the prechamber (4).

The principle of operation is to supply air through the pipe into the pre-chamber (4) to create a pressure exceeding the pressure of the working medium in the gas-air pipeline. Thus, the air in the prechamber (4) completely blocks the gas-air pipeline for the movement of the working medium, which makes it possible to control the working environment of the gas-air pipeline.

Claims (1)

A gas-tight two-leaf valve containing a housing, a pre-chamber with a branch pipe, characterized in that the body consists of three sections: two sections with dampers and a pre-chamber section located between them, into which air is supplied through the branch pipe to create excess pressure, blocking the gas-air pipeline for the movement of the working medium, The gas-tight butterfly valve contains an electric single-turn actuator mechanism, which is installed on a bracket and is connected to the dampers by means of rods and levers, and contains a pressure gauge mount intended for installing a pressure gauge.