RU2406902C1 - Control valve - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: control valve consists of case with inlet and outlet branches and of gate and throttling grid positioned in case. The gate corresponds to a seat and a plate connected to a driving device by means of a rod. Circular channels are made in the case of the valve along perimetre of the gate seat and throttling grid. These channels are interconnected with pipeline and are communicated with radial orifices correspondingly with a cavity under the gate plate and with a cavity over the throttling grid.

EFFECT: ensuring change of flow area of throttling grid in proportion to change of flow area of gate.

1 dwg

Description

The invention relates to power fittings, in particular to control valves of pressure reducing coolers (DOC), and can be used in steam throttling systems for technological purposes.

Known control valve containing a housing with inlet and outlet nozzles located in the housing of the valve, made in the form of a seat and a plate connected by a rod with a drive device (see, for example, patent RU 2166643 C2, class F01K 13/00, 10.05 .2001).

In the known control valve, a change in the flow rate of the medium passing through the shutter is achieved by changing the area of the bore of the shutter, i.e. by moving the stem with a drive device and changing the position of the valve disc relative to the seat. This limits the scope of the known valve.

The closest in technical essence and the achieved positive effect (prototype) is a control valve containing a housing with inlet and outlet nozzles located in the housing of the shutter, made in the form of a seat and a plate connected by a rod with a drive device, and a throttling grate (see Shut-off and butterfly valve 890-100 / 200-Э, p. 164, Industry catalog "Power fittings for thermal power plants and nuclear power plants", NIIEINFORMENERGOMASH, 1981).

This control valve has two throttle stages. At the first stage, for throttling the medium passing through the shutter, the area of the shutter passage section is changed by moving the rod by the drive device and changing the position of the shutter plate relative to the seat. The second stage of throttling is carried out by passing the flow of medium through the holes in the throttling grid.

The disadvantage of this control valve is that the passage area of the second throttle stage - the throttling grid - remains unchanged. Therefore, with large decreases in the flow rate of the medium, the velocity in the grating decreases and it ceases to fulfill its functions, that is, to throttle the flow of the medium. This limits the scope of the control valve and leads to increased noise and wear of its shutter.

The problem to which the present invention is directed is to create a control valve in which, with a change in the flow rate of the medium and a change in the area of the bore of the shutter, the throughput of the throttling grate will change in a proportional proportion.

The problem is solved in that in the control valve, comprising a housing with inlet and outlet nozzles, a shutter located in the housing, made in the form of a seat and a plate connected by a rod to the drive device, and a throttling grill, according to the invention, in the housing around the perimeter of the valve seat and along the perimeter of the throttling grate, annular channels are made, interconnected by a connecting pipe, and communicated by radial holes, respectively, with a cavity under the shutter plate and with a cavity above osseliruyuschey bars.

The execution in the housing of two annular channels: the first around the perimeter of the valve seat and the second around the perimeter of the throttling grill, the presence of a connecting pipe connecting both ring channels and the execution in the housing of radial holes communicating these channels, respectively, of the first with a cavity under the shutter plate, and the second - with a cavity above the throttling grate, allows you to proportionally change the throat of the throttling grate when changing the area of the passage through the gate.

The invention is illustrated in the drawing.

The control valve comprises a housing 1 with inlet 2 and outlet 3 nozzles. A shutter is located in the housing 1, made in the form of a saddle 4 and a plate 5, connected via a rod 6 to a drive device (not shown in the drawing) and a throttling grate 7. In the housing 1, annular rings are made along the perimeter of the valve seat 4 and around the perimeter of the throttling grate 7 channels 8 and 9, interconnected by a connecting pipe 10. An annular channel 8 with radial holes 11 communicates with a cavity 12 located under the shutter plate 5, and an annular channel 9 with radial holes 13 communicates with a cavity 14 above the throttling grate.

The control valve operates as follows.

The flow of medium (steam) under pressure through the inlet 2 pipe is fed into the control valve and passes through the valve. To throttle the flow of the medium using a drive device (not shown in the drawing), the rod 6 and the associated plate 5 are moved relative to the seat 4, thereby changing the area of the passage of the shutter. Further, in the cavity 12, located under the shutter plate 5, the medium flow (steam) is divided into two streams: the main one and the control one. The main flow is fed to the throttling grate 7 and, passing through its openings, enters the outlet 3 pipe, and the control flow through the radial holes 11 enters the annular channel 8 and then through the connecting pipe 10 into the annular channel 9. Since the annular channel 9 is radial openings 13 is in communication with the cavity 14, then the control flow of the medium, moving perpendicular to the main flow along the perimeter of the throttling grating 7, closes its peripheral holes. Moreover, the flow rate of the medium (steam) in the control flow is determined by the movement of the valve stem 6, that is, it becomes proportional to the change in the area of the passage section of the shutter of the control valve. At the same time, with a smaller bore of the shutter, the passage through the throttling grate 7 opens to a greater extent. The higher the flow rate through the control channel, the higher the medium velocity in the control flow and, accordingly, the greater the number of holes in the throttling grate 7 is locked.

The inventive control valve in comparison with the prototype allows you to change the orifice of the throttle grate in proportion to the change in the area of the orifice of the shutter.

Claims (1)

A control valve comprising a housing with inlet and outlet nozzles and a valve located in the housing, made in the form of a seat and a plate connected by a rod to the actuator, and a throttling grille, characterized in that in the housing around the perimeter of the valve seat and around the perimeter of the throttling grate annular channels are made, interconnected by a connecting pipe and communicated by radial holes, respectively, with a cavity under the shutter plate and with a cavity above the throttling grate.