SU1737414A1 - Flow rate control apparatus - Google Patents

Abstract

The invention relates to devices for controlling the flow of a liquid or gas and can be used in pneumatic and hydraulic systems where it is necessary to regulate the flow of the working fluid remotely or autonomously. The aim of the invention is to improve the economy and reliability of the device, which is achieved by using petals 6 of materials that change their magnetic properties at a temperature corresponding to the Curie point, and by hinging the petals 6 to the end surface of the annular permanent magnet 5 or the inner surface pipe 4. 1 Il.

Description

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This invention relates to automatic regulation and can be used to regulate the flow of liquid and gas.

The purpose of the invention is to increase the efficiency and reliability of the device.

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

The device comprises a housing 1 in which a heater is placed in the form of a thermal insulator 2 and an electric spiral 3. In the housing 1 a regulating member is fixed, made in the form of a pipe 4, inside which is placed an annular permanent magnet 5 with hinges installed on its end surface or on the inner surface of the pipe 4 petals 6. Each petal is made of a material, the second order phase transition of which is expressed in the change of magnetic properties, and has its Curie point within the temperature range of the heater.

The device works as follows

In the absence of the supply voltage on the helix 3 of the heater, all the petals 6 have the properties of ferromagnets, under the action of the floor of the permanent magnet 5 they are pressed against its end surface, i.e. are located in the same plane across the stream, providing maximum resistance to the flow. The value of the flow of the working medium at this point is minimal.

Applying voltage to the heater coil 3 causes the petals 6 to heat. As the temperature rises, it reaches a value corresponding to the Curie point of the lowest-temperature petal. At the same time, the material of the petal of a ferromagnet almost instantaneously becomes a paramagnetic and loses the ability to interact with the field of the magnet 5. Under the action of flow, the petal turns on a hinge along the flow, thereby increasing the flow area of the device and, accordingly, the flow rate.

A further increase in temperature will lead to the fact that the lepestx, which is next in value to the Curie point of its material, will appear to be a paramagnetic and, rejecting the flow, will further increase the flow area.

Similarly, the opening of all other petals. At any heating stage, you can install and maintain any fixed

the value of the flow of the working fluid. When the supply voltage is removed from the helix 3 of the heater, the petals of the regulator body, cooled by the working fluid, are closed under the action of the reverse transition through

Curie point, becoming paramagnetic ferromagnetic, interacting with the field of a constant magnet 5. Change the supply voltage according to the required law, get corresponding to this law

change in temperature, and hence change in the flow of the working medium.

For autonomous control, in a constructive sense, the regulator is simplified by eliminating the heater and essentially reduces only to the design of the regulator, which is installed in the controlled flow line. The law of regulation is determined by the temperature change of the working medium itself.

The use of this design of the device for controlling the flow improves the economy, speed and operational reliability of controlling the flow of various media.

Claims (1)

Apparatus of the Invention comprising a housing, between the inlet and outlet cavities of which a regulating member is installed, made in the form of lobes arranged in one plane across the stream, made of materials with different temperature values of the second order phase transition and associated with a heater, characterized in increase the efficiency and reliability of the device, it is equipped with an annular permanent magnet, on the end surface of which there are hinged petals installed with the possibility of turning along the flow and made of materials having different values of the Curie point within temperatures corresponding to the range of operation of the heater.