SU1730612A1 - Flow control arrangement - Google Patents

Abstract

The invention relates to an automatic control technique and can be used in various hydraulic and pneumatic control systems for controlling the flow of liquid and gas. The purpose of the invention is to increase the speed of the device and is achieved by a counter-deforming effect on the elastic sleeve 7 with elastic capillary-porous filler 8 of two ferromagnetic rings 6 interacting with the magnetic field of winding 2. 1 Il.

Description

The invention relates to an automatic control technique and can be used to control the flow of liquid and gas.

The purpose of the invention is to increase the speed of the device.

The drawing shows a device for controlling the flow, longitudinal section.

The device consists of a variable-voltage source 1 connected to a winding 2, which encompasses the device housing 3 on the outside. The housing 3 is provided with inlet 4 and outlet 5 nozzles. In the cavity of the housing 3 there are placed ferromagnetic rings 6 interconnected by means of an elastic sleeve 7, designed as a closed ring, filled with elastic capillary-porous filler 8.

The device works as follows. When the supply voltage of the source 1 is disconnected, the winding 2 does not create a magnetic field and the ferromagnetic rings 6 are maximally moved apart by the tensile force of the capillary-pore filler 8. The cross-section of the device at this moment is maximum, which ensures the maximum flow rate of the working medium,

Applying the voltage of the source 1 to the winding 2 causes the ferromagnetic rings 6 to be displaced towards each other under the action of a magnetic field, thus deforming the elastic sleeve 7 with the elastic filler 8. Because the direction of deformation is limited by the wall of the housing 3 and the end surfaces of the rings 6, This results in a uniform circumferential overlap of the flow area of the device, causing a corresponding restriction on the flow rate of the working medium.

The maintenance on winding 2 of any steady-state value of the voltage of source 1 leads to the fact that the force of converging rings 6 will be balanced by the elastic stiffness (L

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filler 8, as a result of which the magnitude of the elastic deformation and, consequently, the flow area of the device will remain unchanged.

An increase in the voltage on the winding 2 causes an increase in the degree of deformation of the elastic filler 8 and the sleeve 7 up to the complete overlap of the device flow area (zero flow mode).

When the voltage is removed from the winding 2 due to the amplification of the filler of the filler 8, the rings 6 are divorced to the sides and the regulator takes the initial position. Consumption through the device will again be maximum.

The proposed regulating device allows the implementation of virtually any law of regulation. It is characterized by simplicity, reliability and high speed, which allows it to be used in various areas of the national economy.

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Claims (1)

Apparatus of the Invention A device for regulating a flow comprising a cylindrical body enclosed in a winding and made of a non-magnetic material, a source of adjustable alternating voltage connected to the winding, a regulating member made in the form of an elastic sleeve mounted concentrically in the cylindrical case between the inlet and the outlet nozzles, one end of the elastic sleeve is associated with the first ferromagnetic ring mounted concentrically in a cylindrical body, characterized in that, with As the device speeds up, the second ferromagnetic ring is installed in the concentric-cylindrical case, the elastic sleeve is hollow and filled with a capillary-porous filler, and the ends of the elastic sleeve are fixed in the annular grooves made in the ends of the ferromagnetic rings. / UU ///////////////// L  //// U /////////, u /////////////////////// /