RU178452U1 - CONTROL VALVE - Google Patents

Abstract

The utility model relates to control valves and is designed to control the flow of the working medium in pipelines used in the petrochemical, gas and other industries. The control valve, comprising a housing with a cover and inlet and outlet nozzles, the flow part of the housing is made in the form of a hollow cylinder with profiled openings, coaxially to which a shut-off element is made, made in the form of a rod connected to a hollow cylindrical plunger, in the lower part of which there are profile holes, equipped with a stuffing box placed in the housing cover from the side of its internal cavity, and the locking element is placed at an angle of 30 ° <a <60 ° to the axis of the inlet pipe of the housing, and the rod is connected ene with the lower end portion of the plunger, which has openings. At the same time, the inlet and outlet nozzles of the housing have a bend that allows it to be installed in a direct pipeline. A useful model provides increased reliability of the valve and also allows it to be installed in a direct pipeline. 1 s.p. f., 3 ill.

Description

The utility model relates to control valves and is designed to control the flow of the working medium in pipelines used in the petrochemical, gas and other industries.

Known valve control axisymmetric, in which there is a housing with inlet and outlet nozzles, with a cowl located inside the housing. An unloaded cylindrical shutter is installed in the fairing cavity movably along the valve axis, by means of a drive gear - rack mechanism. The housing has an upper flange connector with a groove in which a sealing element is installed to seal the connector: housing-cover. The shutter contains a cavity with upper, lower and inner surfaces, which are both guides and the support of the separator. Between the housing and the lid there is a sealed closed circuit with a tightness control channel (Patent RU No. 2520729, class F16K 1/12, 03/03/2012).

A disadvantage of the known valve is the high wear of the rack gear, the inability to perform maintenance and repair inside the housing devices without cutting from the pipeline.

Known control valve comprising a housing with inlet and outlet nozzles, a balanced shutter with a guide cage and a seat located in it, while the valve outlet nozzle is made in the form of a diffuser, in the narrow part of which a hollow sleeve is fixed, the end face of the sleeve facing the exit is plugged, and on its side surface there are made radial holes of the same or different diameter (Patent RU No. 2259508, class F16K 39/04, 06/03/2003).

A known solution relates to valves with a two-section cage, the design of which allows to reduce flow, reduce noise and / or reduce or eliminate cavitation. However, at low pressures, the fluid pressure may not be sufficient to reliably hold the seal against the sealing surface, resulting in undesired leakage through the valve.

The closest technical solution is a control valve containing a housing with a cover and inlet and outlet nozzles, while the flowing part of the housing is made in the form of a hollow cylinder with profiled windows, coaxially to which a shut-off element is made, made in the form of a rod connected to a hollow cylindrical plunger, the lower part of which profile holes are located (Patent RU No. 2495314, class F16K 39/04, 12/11/2008). The solution also applies to valves with a two-piece cage.

The known solution has the same drawbacks as the previous one, and the known design also does not allow reliable shut off of the working fluid flow, and the valve arrangement as a whole does not allow the use of similar solutions for pipelines with a large nominal diameter.

The objective of the utility model is to increase the reliability of the control valve, increase the balance of the work flow and improve the layout of the structure, which will reduce its overall dimensions, and as a result, will reduce the cost of maintenance and repair during operation.

The technical result is an increase in reliability while increasing the balance of flow and improving the layout.

The technical result is achieved by a control valve comprising a housing with a cover and inlet and outlet nozzles, while the flowing part of the housing is made in the form of a hollow cylinder with profiled openings, coaxially to which a shut-off element is made, made in the form of a rod connected to a hollow cylindrical plunger, the lower part of which the profile holes are located, is equipped with a stuffing box located in the housing cover from the side of its internal cavity, and the locking element is placed at an angle of 30 ° <a <60 ° to the input axis th body nozzle, the rod being connected to the lower end part of the plunger in which the holes are made. In this case, the inlet and outlet nozzles of the housing have a bend, which allows it to be installed on a direct pipeline.

The authors experimentally found that when the angle a is less than 30 ° and more than 60 °, the overall dimensions change upwards and the flow equilibrium changes, which generally reduces the reliability of the valve.

The device is illustrated in the drawing, where in FIG. 1 is a general view of the valve in the open position; FIG. 2 is a general view of the valve in the “Closed” position; FIG. 3 is a sectional view of the valve.

The control valve consists of a housing 1 with inlet and outlet pipes and a flow part made in the form of a hollow cylinder with profiled windows 2, a plunger 3 (control element) made in the form of a hollow cylinder, cover 4, rod 5, stuffing box 6 with sealing elements providing tightness on the rod relative to the external environment, rack 7, electromechanical actuator 8 (electromechanical actuator is shown conditionally in the drawings).

The rod 5 is fixed in the lower part of the end part of the plunger 3, in which the holes 9 are made.

The translational movement of the hollow cylindrical plunger 3 inside the cylinder of the housing 1 controls the flow rate of the working medium.

Moreover, the valve design provides the location of the axis of the shutter to the inlet pipe at an angle a lying in the range 30 ° -60 °. The device operates as follows.

In the shutter position “Open”, fluid flow enters the inlet pipe of valve body 1 (in the direction of the arrow). The liquid from the inlet pipe enters the flow part of the housing and then through the profiled windows 2 enters the outlet pipe.

In the shutter position “Closed”, the profiled windows of the flowing part of the housing 1 are blocked by the plunger 2 and the fluid movement stops.

The regulation of fluid flow is carried out when changing the bore of the windows of the flowing part of the housing 1 due to the axial movement of the plunger 2.

The axial movement of the plunger 2 is provided by the movement of the rod 4 associated with the electromechanical actuator 7 mounted on the rack 6.

At any position of the plunger 2, due to its location at an angle a, the axial component of the static pressure force of the fluid acting on the plunger 2 is balanced. Balancing is also provided by holes in the lower part of the plunger 2, which allow fluid to penetrate into its internal cavity.

Due to the placement of the stuffing box in the housing cover from the side of its internal cavity, the overall dimensions of the valve are harmonized, which also results in balancing the flow and, accordingly, the reliability of the valve.

In addition, the inlet and outlet nozzles of the housing have a bend that allows it to be installed on a direct pipeline, which also increases the reliability of the valve when it is working on a direct pipeline.

Thus, the proposed utility model improves the reliability of the valve, and also allows you to install it on a direct pipeline.

Claims (2)

1. The control valve, comprising a housing with a cover and inlet and outlet nozzles, while the flowing part of the housing is made in the form of a hollow cylinder with profiled holes, coaxially to which is installed a shut-off element made in the form of a rod connected to a hollow cylindrical plunger, in the lower part of which profile openings are located, characterized in that the control valve is equipped with a stuffing box located in the housing cover from the side of its internal cavity, and the locking member is placed at an angle of 30 ° <a <60 ° to the axis a housing connecting pipe, the rod being connected to the lower end part of the plunger in which the openings are made. 2. The valve according to claim 1, characterized in that the inlet and outlet nozzles of the housing have a bend that allows it to be installed in a straight pipe.

Images