SU878971A1 - Multichannel control valve - Google Patents

Description

The invention relates to the field of power engineering, in particular to systems for regulating steam turbines.

A control valve is known comprising a movable stem with a cup and a fixed seat {1].

A disadvantage of the known valve is the significant separation force and the presence of significant circumferential unevenness of the parameters of the working fluid. YU

Also known is a multi-channel control valve comprising a housing with a fixed seat passing into the outlet diffuser, and a movable stem with a bowl, {2]. _]5

In the known construction, there is also a circular non-uniformity of the parameters of the working fluid, which leads to a decrease in its specific consumption and an increase in the lifting force. ₂ o

The aim of the invention is to increase the specific consumption of the working fluid and reduce the lifting force.

The goal is achieved by the fact that perforated ₂₅ shells of spherical shape are installed around the stem in one case and have nozzles with sharp output edges, and the shells are pressed with the cup in the closed position to the saddle, and the nozzles with diffuser 30 form annular channels of equal cross section, passing into diffuser, and diffuser channels have a length not less than the length of the outlet diffuser.

The drawing shows the proposed valve (section) in two characteristic positions: to the right of the center line - the valve in the closed position; on the left - in the working, fully open position.

The multi-channel control valve contains a bowl 1; stock 2; fixed seat with outlet diffuser 3; concentric axisymmetric shells 4 and 5, which are installed with the possibility of movement along the valve stem 2 and have inlet spherical perforated sections 6 and 7, turning into cylindrical inlet sections 8 and 9 of the outlet pipes 10, 11.

For mounting on the valve stem 2 of the shells 4 and 5, stop sleeves 12 are provided. The fixed valve seat with outlet diffuser 3 also has a cylindrical section 13 in the inlet part of the diffuser. The length of each nozzle 10 and 11 is not less than the length of the stationary outlet diffuser 3. Each of the nozzles 10 and 11 ends with a sharp output edge 14, has a seating surface 15, and is a locking member for the corresponding external channel.

The principle of operation of the multichannel design under consideration is as follows: first, when the rod 2 and the all-metal shut-off valve are lifted, the pairs pass through the perforated sphere-shaped inlet sections 6, 7 of the shells 4 and 5 to the inner (smallest) pipe 10. When the rod 2 is further raised, the valve bowl 1 rests on the sleeve 12 , on which the shell 4 is attached, and lifts it together with the movable pipe 10. Now the flow goes not only along the internal channel, but also enters the annular space formed by the surfaces of the shells 4 and 5. Both the fluxes in this case are not mixed, providing a stable flow pattern that changes only depending on the degree of lift of the rod 2. This is achieved due to the fact that the length of each internal diffuser formed by nozzles 10, 11 is not less than the length of the stationary outlet diffuser 3.

Thus, in the channel, the lifting forces are reduced and the specific consumption of the working fluid is increased.

Claims (2)

Claim 1. Multichannel control valve, comprising a housing with a fixed seat, turning into a diverting diffuser, and a movable rod with a bowl, characterized in that, in order to increase the specific consumption of the working fluid and reduce the lifting force, perforated shells of spherical shape are installed around the stem, placed one into the other and having nozzles with sharp exit edges, the shells are pressed by means of a bowl in the closed position to the saddle, and the nozzles with a diffuser form annular channels of equal cross section, passing in diffuser. 2. Valve on π. 1, characterized in that the diffuser channels have a length not less than the length of the outlet diffuser.