RU221129U1 - PISTON VALVE - Google Patents

Abstract

The utility model is used to regulate the flow of liquid media. The piston valve for regulating the fluid flow contains a mechanical unit; metal body; level sensor; a rod containing an internal channel; piston, seat; cavities. In this case, the metal housing is equipped with a cover, the housing cover is made of metal and is equipped with a lever containing holes. The area of the piston is equal to the area of the seat. The technical result of the utility model is to increase the reliability and, as a consequence, the operational wear resistance of the valve and its drive. 2 salary f-ly.

Description

The utility model is used to regulate the flow of liquid media. The utility model can be used in the oil industry.

A piston valve is known from the prior art (patent RU53748U1), containing a valve body cover, which is a drive cover and is attached to the valve body through an adapter flange. Inside the body, on the lid, there is a clip with a bushing, which serves as a guide for the spindle of the shut-off element.

Also known from the prior art is a piston valve (patent RU2403479) containing a housing with an inlet, an outlet and a passage for a fluid. The latter passes through the passage hole. The actuator is located in a control chamber connected to the housing and is configured to move along an axis with a range of movement from an open position to a closed position. The shut-off and control element is connected to the drive. The seat-guide insertion assembly contains a seat, a plurality of shut-off and control valve guides, and a bushing. The seat is designed to be hermetically installed in the passage hole and has a sealing surface to which the shut-off and control element fits tightly. The plurality of guides of the shut-off and control body are made as a single unit with the seat and extend from said seat in the direction of the control chamber. The bushing is connected or made as a single unit with the said plurality of guides of the shut-off and control body. The sleeve is configured to be fixed relative to the inner surface of the control valve so that the seat is fixed relative to the passage hole. The housing and control chamber form a neck at the junction. The sleeve has a radially opening locking assembly for fixing said insertion assembly relative to the inner surface of said neck.

The design of piston valves known from the prior art does not ensure the reliability of the device during its operation.

The purpose of the utility model is to improve the design of the valve.

The technical result of the utility model is to increase the reliability and, as a consequence, the operational wear resistance of the valve and its drive.

A piston valve for regulating the flow of liquid contains a metal body with cavities, a mechanical block is installed inside the body, consisting of a rocker arm, a seat, a rod, a pusher consisting of a piston with a plate, and the pusher is connected to a rod containing an internal channel, a metal cover connected to a metal body in its upper part, equipped with a lever containing holes, configured to transmit force to the rocker arm, a liquid level sensor mounted on a metal body, configured to act on the lever using a rod, the piston area is equal to the area of the seat.

A mechanical block is installed in the metal valve body by screwing or groove connection. The mechanical block contains a rocker arm, a rod, a pusher and a seat. The pusher contains a piston and a plate, and the pusher is mated with a rod.

At the top of the valve there is a housing cover connected to the valve body using a screw connection. The lever is located on the housing cover.

The metal valve body and its cover protect the structural elements located inside the device from external and internal negative physical influences and prevents damage.

The liquid level sensor monitors the liquid level in the tank and prevents excess pressure in the tank, which protects the valve structure from destruction.

The mechanical block, together with a lever containing holes, allows you to adjust the degree of opening of the valve flow area, which also helps prevent excess pressure in the tank and protects the valve structure from destruction.

The force from the lever through the rocker arm is transmitted to the rod on which the piston and plate are attached. The area of the piston is equal to the area of the seat, so that the pressure of the fluid acting downward on the seat is neutralized by the pressure exerted from below by the fluid on the piston. The flow pressure is transmitted through the hollow rod to the top side of the piston. The upward flow pressure on the seat is counteracted by a downward force of the same pressure acting on the top side of the piston. In this case, the piston valve is easily controlled by a lever, since it is not subject to flow pressure.

The piston valve is connected to a liquid level sensor using a lever; at the operating level of the medium in the tank, the valve is closed. The plate is pressed against the seat of the mechanical block - the cartridge - by the force from the liquid level sensor, created on the lever using a rod. The lever has holes with a given pitch, designed to regulate the position of the rod. When the level of the medium in the tank increases, the draft from the liquid level sensor to the lever decreases, thereby opening the flow area of the valve, to the full opening value; when the valve opens, the liquid is removed from the tank. When the liquid level sensor is installed to the required liquid level in the tank, the force on the lever drops and the flow area closes, pressing the plate to the seat. Forced operation of the piston valve is achieved by lowering the lever manually.

A mechanical block is required in the device to transmit force from the lever to the rod. The mechanical unit is a replaceable cartridge, which consists of a rocker arm, a pusher; The pusher contains a piston and a plate, and the pusher is connected to a rod.

The rod is a float connected mechanically to the piston valve lever, which is located in the tank; when the liquid level in the tank rises, the float rises, lowers the valve lever and opens the valve. When the liquid is drained, the float moves down and closes the valve.

The pusher is connected by a threaded connection to a rod on which a piston and a plate with a guide and seat gasket are attached. The rod has an internal channel for communicating the cavity behind the plate with the cavity above the piston. The piston seal is implemented using a ring that moves along a special surface of the mechanical block - the cartridge. The seat to which the plate is pressed is made of part of the cartridge. Inside the housing, the cartridge is sealed using rubber rings and pressed with a lid.

In a particular embodiment of the utility model, the metal valve body and its cover are made of cast iron, bronze, brass or stainless steel.

In a particular embodiment of the utility model, the lever is made of metal.

In a particular embodiment of the utility model, the valve can be used to control the flow of a liquid medium.

In a particular embodiment, the liquid flowing through the valve can be water, oil, or derivative liquid petroleum products.

In a particular embodiment of the utility model, a pneumatic or hydraulic valve drive can be used.

In a particular embodiment of the utility model, the valve consists of a body with a cover.

In fig. 1 shows a piston valve.

Example of implementation of utility model No. 1

The piston valve body is made of bronze, and cavities are machined inside the valve. A level sensor is screwed to the housing. A mechanical unit is secured inside the housing by screwing. The mechanical block contains a rocker arm, a rod, a pusher and a seat. The pusher contains a piston and a plate, and the pusher is mated with a rod. A piston and seat are attached to the rod. The piston is made equal to the area of the seat. A cover made of bronze is attached to the valve body by screwing. A lever is secured to the lid using an assembly operation. Holes are drilled in the lever, located at a given distance from each other.

The valve is connected to a liquid level sensor using a lever; at the operating water level, the valve is closed. The plate is pressed to the seat of the mechanical block by the force from the liquid level sensor created on the lever using a rod. When the water level rises, the thrust from the liquid level sensor to the lever lowers and opens the flow area of the valve to the full opening value; when the valve opens, water is removed from the tank. The force from the lever is transmitted through the rocker arm to the rod on which the piston and plate are attached. The pressure of the water flow is transmitted through the hollow rod to the top side of the piston. The area of the piston is equal to the area of the seat, so that the downward pressure of the water on the seat is neutralized by the pressure exerted from below by the water on the piston. The upward pressure of the water flow on the seat is counteracted by a downward force of the same pressure acting on the top side of the piston.

When the liquid level sensor is installed to the required water level in the tank, the force on the lever drops and the flow area closes, pressing the plate to the seat. Forced operation of the piston valve is achieved by lowering the lever manually.

Example of implementation of utility model No. 2

The piston valve body is made of brass, and cavities are machined inside the valve. A level sensor is screwed to the housing. A mechanical unit is secured inside the housing by screwing. The mechanical block contains a rocker arm, a rod, a pusher and a seat. The pusher contains a piston and a plate, and the pusher is mated with a rod. A piston and seat are attached to the rod. The piston is made equal to the area of the seat. A cover made of brass is attached to the valve body by screwing. A lever is secured to the lid using an assembly operation. Holes are drilled in the lever, located at a given distance from each other.

The valve is connected to a liquid level sensor using a lever; at the operating water level, the valve is closed. The plate is pressed to the seat of the mechanical block by the force from the liquid level sensor created on the lever using a rod. When the water level rises, the thrust from the liquid level sensor to the lever lowers and opens the flow area of the valve to the full opening value; when the valve opens, water is removed from the tank. The force from the lever is transmitted through the rocker arm to the rod on which the piston and plate are attached. The pressure of the water flow is transmitted through the hollow rod to the top side of the piston. The area of the piston is equal to the area of the seat, so that the downward pressure of the water on the seat is neutralized by the pressure exerted from below by the water on the piston. The upward pressure of the water flow on the seat is counteracted by a downward force of the same pressure acting on the top side of the piston.

When the liquid level sensor is installed to the required water level in the tank, the force on the lever drops and the flow area closes, pressing the plate to the seat. Forced actuation of the valve is accomplished by lowering the lever manually.

Example of implementation of utility model No. 3

The piston valve body is made of stainless steel, and cavities are machined inside the valve. A liquid level sensor is screwed to the housing. A mechanical unit is secured inside the housing by screwing. The mechanical block contains a rocker arm, a rod, a pusher and a seat. The pusher contains a piston and a plate, and the pusher is mated with a rod. A piston and seat are attached to the rod. The piston is made equal to the area of the seat. A cover made of stainless steel is attached to the valve body by screwing. A lever is secured to the lid using an assembly operation. Holes are drilled in the lever, located at a given distance from each other.

The valve is connected to a liquid level sensor using a lever; when the oil level is operating, the valve is closed. The plate is pressed to the seat of the mechanical block by the force from the liquid level sensor created on the lever using a rod. When the oil level rises, the thrust from the liquid level sensor to the lever lowers and opens the valve flow area to the full opening value; when the piston valve opens, oil is removed from the tank. The force from the lever is transmitted through the rocker arm to the rod on which the piston and plate are attached. The area of the piston is equal to the area of the seat, so that the downward pressure of the oil on the seat is neutralized by the pressure exerted from below by the oil on the piston. The pressure of the oil flow is transmitted through the hollow rod to the top side of the piston. The upward pressure of the oil flow on the seat is counteracted by a downward force of the same pressure acting on the top side of the piston.

When the liquid level sensor is installed to the required oil level in the tank, the force on the lever drops and the flow area closes, pressing the plate to the seat. Forced actuation of the valve is accomplished by lowering the lever manually.

Claims (3)

1. A piston valve for regulating the flow of liquid, containing a metal body with cavities; a mechanical unit is installed inside the body, consisting of a rocker arm, a seat, a rod, a pusher, consisting of a piston with a plate, and the pusher is connected to a rod containing an internal channel; the metal cover is connected to the metal body in its upper part and is equipped with a lever containing holes, configured to transmit force to the rocker arm, a liquid level sensor mounted on the metal body, configured to act on the lever using a rod, the area of the piston is equal to the area of the seat. 2. A piston valve for regulating the flow of liquid according to claim 1, characterized in that the lever is made of metal. 3. A piston valve for regulating the flow of liquid according to claim 1, characterized in that the metal body and its cover are made of brass, or bronze, or stainless steel.