RU2145021C1 - Control double-seat valve for controlling steam flowrate - Google Patents

Abstract

FIELD: systems for controlling operation of steam turbines, namely organs for sustaining steam pressure. SUBSTANCE: control double-seat valve includes shutter arranged in its body and having upper and lower plates. Shutter is operated by means of servomotor with the aid of rod. In order to equalize pressure values in chambers over upper and under lower plates of valve, shutter is provided with means for equalizing pressure in the form of one equalizing tube arranged between plates concentrically relative to valve axis, rigidly joined with plates, detachably joined with rod and connecting over-plate chamber with under-plate chamber. Shutter may have two equalizing tubes arranged symmetrically relative to valve axis between plates, tubes may be rigidly joined with plates for mutually connecting said chambers. In the whole range of valve opening chambers are always mutually communicated by means of equalizing tube in order to equalize pressure difference between chambers occurred in predetermined opening modes of valve and to reduce pulsations of valve. EFFECT: enhanced controllability of valve in opening range, simplified process of steam pressure controlling. 3 cl, 1 dwg

Description

 The invention relates to a power system and can be used in control systems for steam turbines.

 Known single-seat control valve controlled by a servomotor [1].

 Its disadvantage when installing on a large-diameter pipeline is that the single-seat valve has large dimensions and a large static force of the medium acts on its valve, pressing the valve against the valve seat, which requires the installation of an appropriate servomotor with a large margin of switching force, so that when working on small Valve openings did not retract the valve into the valve seat.

 With large differences in the pressure of the medium, this valve must have a special unloading valve, which completely or partially relieves the shutter from the unilateral action of the medium’s force, but this does not exclude the possibility of a pulsation of the medium pressure in the chambers under and above the shutter.

 To exclude the effect of these pulsations on the valve, special discharge openings in the valve can always be made, which always connect these chambers, but this on valves of large diameters will lead to a noticeable loss in valve density, since it is necessary to make large radial clearances in such valves, which is undesirable from the point of view of protecting the turbine from the return steam flow during load shedding or when the protections are triggered.

 The closest in technical essence to the invention is a two-seat valve with a poppet valve, controlled by a servomotor and used to protect the turbine from the return steam flow when the generator load is relieved or when the turbine protection is activated [1].

 During turbine operation, these valves are in the fully open position. And despite the fact that the conditions for the flow of steam in the chambers above the upper and under the lower valve plates differ from each other, this difference, when the valve is fully opened, has little effect on the dynamic and static characteristics of the valve, the rod of which is on the stop, locking the steam leaks along the rod .

If these valves are used as control valves to maintain steam pressure, for example, during the organization of controlled steam extraction on a steam turbine, then in the area of small valve openings, the steam flow is interrupted from the valve plates with the formation of vortex zones, moreover, on valves of large diameter D _y = 600 mm or more) due to the dissimilarity of the conditions around the valve plates flowing in a vapor stream in the chambers above the upper and lower valve plates, the vapor pressure, and especially the amplitudes and phases of pressure pulsations, can be significantly different, and the valve stem is not on the stop. In addition, due to flow separation phenomena, pulsation of vapor pressure and, accordingly, of the valve stem may occur.

This can lead to off-design forces acting on the valve plates, and since on valves with a diameter of D _y = 600-1500 mm or more, the difference in the diameters of the upper and lower plates of the valve is insignificant, then under certain conditions these non-calculated forces may prevail and therefore spontaneous swinging of the valve may occur, up to its complete closure with subsequent opening, which reduces reliability of the valve and complicates the regulation process to maintain steam pressure.

 The technical effect of the invention is the elimination or reduction of the influence of fluctuations in the pressure of the medium in two-seat valves with small valve openings.

 As a result, the reliability of the valve increases due to the elimination of pulsations of the valve stem, provides good controllability in the entire range of valve movement, which allows the use of a large two-seat valve as a regulatory body.

 The technical effect of the invention is provided in a two-seat control valve for regulating steam flow, comprising a disk valve controlled by a servo motor, in which according to the invention the valve has one equalizing pipe between the valve upper and lower plates, which is integral with the valve plates located concentrically to the valve axis, or at least two pipes located symmetrically to the axis of the valve, and the pipe (s) connects (connect) the chambers to each other above the upper and lower plates of the valve .

 The equalization pipe, made in this way, allows to maximally equalize the vapor pressure in the chambers above the upper and under the lower valve plates, which eliminates or significantly reduces the influence of the vapor pressure pulsation and, accordingly, the valve stem.

 The invention is illustrated in the drawing, which shows a General view of the valve.

 The two-seat control valve comprises a valve located in the housing 1, comprising an upper 2, lower 3 plates and equalizing pipe 4. The valve is controlled by a servomotor 5 using a rod 6.

 The equalization pipe 4 is located concentrically to the valve axis, covers the stem 6, is rigidly connected to the plates 2 and 3 detachably with the rod 6. The chamber 7 above the plate 2 is communicated through the equalization pipe 4 with the chamber 8 under the plate 3.

 Such a structural implementation of the equalization pipe does not have a significant effect on the valve resistance.

 The shutter can be made with two equalizing pipes placed symmetrically to the valve axis between the plates 2, 3, rigidly connected to the latter, communicating the chamber 7 with the chamber 8 (not shown).

 Throughout the entire opening range of the valve, chambers 7 and 8 are always connected to each other by means of a surge pipe, thus equalizing the pressure difference between the chambers arising at certain valve opening modes and reducing valve ripple, which simplifies the process of regulating steam pressure.

 Thus, the presence of the equalization pipe makes it possible to ensure good valve control over the entire range of its opening, which makes it possible to use it as a control valve to maintain steam pressure for steam turbines when organizing controlled steam extraction in them.

Sources of information
1. A.S. Klyueva. Adjustment of automatic systems and process control devices (reference manual). -M .: Energy, 1977, p. 239, fig. 4-8; from. 243, fig. 4-11.

Claims (3)

 1. Regulating two-seat valve for regulating the flow of steam, comprising a valve plate of the valve chambers located in the housing, an actuator characterized in that a means for balancing the pressure between the chambers is installed between the plates of the two-seat valve, the latter being rigidly connected to the plates of the two-seat valve.  2. The two-seat valve according to claim 1, characterized in that the means for balancing the pressure is made in the form of a pipe located concentrically to the axis of the valve.  3. The two-seat valve according to claim 1, characterized in that the means for balancing the pressure is made in the form of at least two pipes located symmetrically about the axis of the valve.