SU414453A1 - CONTROL VALVE CONTROL MOMS PULSED - Google Patents

Description

Pulse-operated control valves are known to contain a Regulatory Body associated with the pore, the cavity above which is connected to the inlet iolost with a constant section channel, and the cavity under the pore is connected to the nodal cavity with a channel covered by a valve, associated with a balancing valve stem. The disadvantage of such a valve is a large stroke of the pulse valve, equal to the stroke of the main spool. The purpose of the invention is to reduce the stroke; i the dimensions of the pulse valve. In the proposed valve, the throttle, fitted to the inlet, communicating the over-piston cavity with the inlet, is made in the form of a profile spool connected to the body .M. And interacting with the seat connected to the noipnjiie.M. The drawing shows a control valve, axial section. The control valve with impulse control consists of the housing /, the regulator 2, connected with the stepped piston 3, the pulse valve 4. The inlet gate) of the housing I is connected by channel 5 to the substep cavity L and channel 6 - to the over piston cavity B. Channel 6 partially overlapped by a profile spool 7 connected to the housing 1. The outlet nipple of the pulse valve; and 4 is associated with a cavity in which the pressure and;: the same as in the inlet of the housing /. Operates the control valve as follows. When the impeller valve 4 is closed, the working cpeia passes through the gap between the core spool 7 1 channel 6 into the overpiston cavity B and closes the regulating member 2. But as the pulse valve 4 opens, the pressure in cavity B drops and reaches the value at which the opening: the tearing force created The pressure of the medium p of cavity A on the annular area of the piston becomes greater than the force created by the pressure in cavity B acting on the entire surface area. Due to the difference of these efforts, the piston 3 and the regulating organ 2 begin to move to the opening. The net area between the orifice of the channel 6 by the core spool increases, which leads to an increase in pressure in cavity B. With the onset of force on the pressure plate 3, its movement is stopped. The subsequent opening of the impulse valve 4, the regulator 2 moves the opening, while maintaining a certain ratio between the open section of the pulse valve and the regulator 2. The nature of this ratio depends on

spool profile 7.

The control valve closes when the pulse valve 4 is closed.

Subject invention

A control valve with emulsion control, containing a regulating organ connected to the piston, the cavity under which

associated with the inlet cavity, and the cavity above the one channel, in which the choke is installed, is also connected with the input cavity, and the other with the drain cavity, characterized in that, in order to reduce the stroke and dimensions of the pulse valve, the choke is made in as a profile spool connected to the body and interacting with the saddle connected to the nod.