SU1242651A1 - Ejector - Google Patents

Description

This invention relates to ink jet apparatus.

The purpose of the invention is to expand the range of operation by ensuring the operation of each of the nozzles as a gas-dynamic shutter.

The drawing shows the ejector, a longitudinal section.

The ejector contains a cylindrical body 1, a nozzle block placed in it, made in the form of confusion-diffuser nozzles 2 with outgoing cylindrical sections 3, and a mixing chamber 4, inlet pipes 5 of the same flow section, autonomously attached to the nozzles 2, sections of cylindrical The sections of the latter 3 are located in the same plane, perpendicular to the axis of the housing, the nozzles 2 have equal areas of minimal flow sections at the inlet and outlet, and the mixing chamber 4 is annular.

The ejector works as follows.

When using an ejector to combine the exhaust pipelines of ship diesel generators, the exhaust gases, which in this case are a pulsating active medium, can be supplied via nozzles 5 to any of the nozzles 2 or to several nozzles 2 at once. Since all nozzles 5 and nozzles 2 have equal passages sections, nozzles 2 can work both in active mode and in passive mode (depending on whether the corresponding diesel generator is working). If all diesel generators are working at once, then the ejector performs the function of a regular collector. However, in the case when one or several diesel generators are stopped, the nozzles 2 connected to the exhaust pipes of the latter become passive and through them air is ejected from the engine room through open inlet and outlet

0 valves of one or more of the diesel generator cylinders. Since the nozzles 2 are made confused-diffuser, the passive medium accelerates in them to the speed of sound in the minimum section. In this case, the passive nozzle turns into a gas-dynamic gate and the exhaust gases from the working diesel generator can no longer enter the engine room. In the annular mixing chamber 4, energy is exchanged between the active and passive environments, then the gas mixture is emitted into the atmosphere.

Thus, the indicated geometry of the ejector makes it possible to expand the range of its operation, since each of the nozzles can work as a gas-dynamic seal. For example, when connecting to the ejector of the exhaust pipes of ship diesel generators, the exhaust gases are prevented from entering the engine room with any combination of running and stopped engines.

Claims (1)

EJECTOR, comprising a cylindrical body, a nozzle block placed therein, made in the form of concentric confuser-diffuser nozzles with exit cylindrical sections, and a mixing chamber, characterized in that, in order to expand the range of operation by ensuring that each nozzle operates as a gas-dynamic shutter, it is equipped with inlet pipes of the same flow area, independently connected to the nozzles, sections of the cylindrical sections of the latter are located in the same plane perpendicular to the axis of the housing, Opl have equal areas of minimum and passage sections at the inlet and outlet, and the mixing chamber is circular.