SU630617A1 - Method of regulating liquid and gaseous media rate-of-flow - Google Patents

Description

valve open; in fig. 2- in the closed.

The control valve is an elastic membrane 1 located on the expansion section of the pipeline 2 with a magnetic system inside it consisting of a coil 3, an open core 4 of a hard magnetic material and a magnetic fluid 5.

In the absence of a control signal on the coil 3 and zero core magnetization 4, the valve under the action of the pressure of the working medium and the elastic properties of the highly elastic membrane 1 is in the open state, i.e., it creates minimal hydraulic (aerodynamic) resistance to the working flow (see Fig. 1 ).

To reduce the flow through the control valve, a control current is applied to the control coil 3, which creates a field that magnetizes the core 4. Now the field of the magnetized core 4 acts on the magnetic fluid 5, which, under the action of this field, fills the space in the core gap, moves the membrane 1. The flow area is narrowed, the hydraulic (aerodynamic) resistance increases, the flow rate decreases. Thus, the greater the control current supplied to the coil 3, the more strongly the core 4 is magnetized, the more magnetic fluid is drawn into its gap and, ultimately, the flow rate of the working medium through the valves is reduced.

FIG. 2 shows the valve with the magnitude of the magnetization of the core 4, close to the limit.

A signal to increase the flow rate is fed to the control coil 3 in the form of current pulses in the reverse direction. The demagnetization of the core in this case occurs through partial cycles of induction change.

The simplicity of the design of the regulators that implement the proposed method, as well as the absence of any mechanical parts, make it possible to increase the reliability of the regulators, as well as reduce their cost, both during the production process and during operation.

Regulators on this principle can simultaneously perform the functions of shut-off valves.

Claims (2)

Invention Formula The method of controlling the flow of liquid and gaseous media by throttling the reversing actuator, characterized in that, in order to increase the reliability of the regulation, the reversible actuator is mixed a magnetic fluid that is acted upon by the magnetic field of a hard magnetic material, the strength of which is changed by the control electrical pulses. Information sources, taken into account during the examination 1. G. Nudler and others. Fundamentals of production automation. M., “Higher School, 1976, p. 100. 2. Yurmanov B.N. Automation of heating, ventilation and air conditioning systems. L., Stroyizdat, 1976, p. 97- 101. 57