SU470664A1 - Vortex amplifier - Google Patents

Description

The invention relates to the field of inkjet flow control devices and can be applied in the oil and gas, petrochemical and other industries.

Vortex amplifiers are known, consisting of a vortex chamber, a rectifying element, a feed channel, a control channel and an output channel. The known vortex amplifiers contain a working chamber with a radially located supply channel, a tangentially located control channel and an output channel located in the center of the vortex chamber and a converting element.

Known vortex amplifiers are always flow-through and cannot be used as a locking device.

The proposed vortex amplifier containing a working chamber with a radially located supply channel, a tangentially located control channel and an output channel located in the center of the vortex chamber, and a converting element, is characterized in that the directing element is movably placed on the end plane of the vortex chamber and wives with an output channel.

These differences allow the amplifier to be used as a locking device. In this way, the functionality of the device is increased.

FIG. 1 shows a longitudinal section of the proposed device; in fig. 2 - transverse section of the amplifier with a locking device and two pairs of channels. The vortex amplifier consists of a vortex chamber 1, a radial feed channel 2, a tangential control channel 3, an output channel 4, and a movable directing element 5.

Structurally, the amplifier can be performed, for example, in the following way.

The vortex chamber I is a relatively low cylinder, the height of which is 1-2 times and the diameter 4-5 times the diameter of the output channel 4. The radial feed channels 2 and the tangential control channels 3 have a rectangular cross-section, their height is equal to the height chambers I. Output channel 4 has the form of a diffuser with an extension angle of the order of b-10 ° and rounding at the entrance with a radius equal to the diameter of the output channel. The movable spraying element 5 can be made, for example, in the form of a cone, with a height of 0.8-1.0 of the chamber height, an apex angle of 60 °, with a stroke size sufficient to close the output channel.

The vortex amplifier is

adjustable variable resistance depending on the magnitude of the tangential control signal. The device has a negative gain factor and can change the total flow from the maximum flow to the lock flow, at which the total flow equals the flow control. In the case of the operation of the movable directing element 5 and the closing of the output channel 4, the flow rate is 0.

The flow through chamber 1, other things being equal, depends on its hydraulic resistance. In order to reduce the hydraulic resistance, which causes irretrievable energy losses of the flow, and shut off the flow, a converting element 5 is introduced into the chamber 1 in the form of a cone located along the axis of the chamber.

When pressed, the cone is lowered onto the output channel, completely blocking it.

The use of a spiraling apparatus increases the coefficient of flow of the vortex

amplifier 10: -15%, does not affect the appearance and gain of the flow characteristic at the time of adjustment and ensures complete blockage of the total flow when lowering it to the output channel.

Subject invention

A vortex amplifier containing a working chamber with a radially located supply channel, a tangentially located control channel and an output channel located in the center of the vortex chamber, and

The converting element, characterized in that, in order to expand the functionality, the converting element is movably placed on the end plane of the vortex chamber and is coupled to the output

channel.

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