SU245968A1 - GAS EJECTOR - Google Patents

Description

Gas ejectors are known, comprising a multi-nozzle head of an ejecting gas, a mixing chamber with a nozzle for injecting an ejected flow, and a diffuser.

The purpose of the invention is to provide reliable regulation of the ejector in a wide range of variations in the parameters of the ejecting gas.

This is achieved by placing a movable central orophilic body along the axis of each nozzle of the head, supported by a calibrated compression spring, which opens the output section of the nozzle at a given minimum pressure.

FIG. 1 schematically shows the proposed ejector; and FIG. 2 - ejector nozzle; in fig. 3 is one of the laws regulating the proposed electron.

The ejector contains a multilateral nozzle head / dl for the ejecting gas, a mixing chamber 2 with an inlet 3 for introducing the ejected flow and a diffuser 4. The axis of each nozzle on the guides is mounted on a calibrated compression spring 6.

High pressure air is supplied to the nozzles. With the outflow of air from the nozzles at high speed, the pressure in the cavity of the nozzle 3 decreases and the electrified gas is sucked through it by an electron. In the mixing chamber, both streams are mixed and through the diffuser, which serves to convert the velocity head to static pressure, are ejected from the ejector.

In the absence of a working pressure under the action of springs, all the central bodies occupy the extreme left position, opening the frontal sections of the nozzles. Up to a certain limiting pressure, all the nozzles remain in the open position, which ensures the necessary flow rate of the active gas at low pressures.

With further AM pressure pressure increase, overcoming the spring resistance, the first nozzle is closed, but the performance of the ejector does not decrease, since the decrease in the flow rate is compensated by the higher available energy of the active gas (pressure increase).

With a subsequent increase in pressure at a certain value, the second, third, etc. nozzles are successively closed. The magnitude of the closing pressure is set by selecting the springs.

Thus, the law of regulation is provided.