RU70694U1 - PULSE STEAM ENGINE - Google Patents

Abstract

The utility model relates to steam engines, the working fluid is steam, when steam is formed in pipes of small diameter, steam shells are formed, which, when cooled, collapse, and the volume of liquid and gas changes. Pulses cause fluctuations in the liquid level, which causes a change in pressure, which leads to oscillation of the membrane. These vibrations set in motion, through the rod, the anchor mechanism. The engine can operate from any heat source (sun, radiator, stove, gas stove, etc.) that has a temperature higher than the boiling point of the working fluid, to obtain mechanical work, to drive piston and diaphragm pumps, connecting rod mechanisms, etc. d. The closest analogue is a tea device, a device for heating liquids, boiling, but has several disadvantages: a large cooling area. insufficient tightness of the lid, and if we extend the kettle to the pipe, we get a steam engine without a cooling system (radiator), in which the working substance (body) is water, antifreeze, ether, alcohol, vegetable oil, while the working substance is not consumed. A bubble steam engine can be positioned at any angle to the vertical.

Description

The utility model relates to engines, and more particularly to steam engines of low power.

There are many steam engines, where the working fluid is steam — steam engine boilers, and another technique in which steam, passing through a spool and a piston or turbine, makes return-translational or rotational movements, that is, they perform work. The disadvantage of all steam engines is low efficiency, a large refrigeration unit and an imperfect radiator heating system. The steam unit is also a regular household kettle with a whistle, this is the closest analogue and prototype (article 12012 or model C 27114 AP-4, the steam does the job of telling the whistle about vaporization).

The objective and purpose of the utility model is the use of any heating devices for the production of mechanical energy in small volumes, based on steam heaters. This goal is achieved by significantly lengthening the working volume of the engine, which goes into the refrigerator. Due to the lengthening of the working volume of the engine, bubble shells condense with a certain periodicity and perform work in a pulsed mode.

Such an engine works from any heat source (sun, radiator, stove, gas stove, etc.), which have a temperature higher than the boiling point of the working fluid, to obtain mechanical work.

The device consists of an elongated engine volume - 1 (a tube longer than a meter made of steel, any non-ferrous metal, quartz glass), one end is sealed, and the membrane body and membrane 2-3 are fixed at the other end, which transmits through the stem - 4 translational movements on the anchor mechanism - 5-6-7, which creates rotational movements .., that is, does the work. The pipe-engine section 9 — the heating region, the engine volume segment — 8, the cooling region. Almost the entire volume of the engine is filled with a working fluid-10.

The device operates on a periodic change in the volume of liquid in the event of the appearance of steam shells in the heating zone with subsequent condensation in the cooling zone of large steam bubbles (shells). The device operates as follows.

The lower part of the engine - 9, is located in the heating zone, the working fluid - 10, overheats and steam shells are formed - in the area of the cooling zone - 8 they quickly condense again into liquid, as a result of this periodicity the membrane - 3, affects the stem - 4, which makes reciprocating movements. And due to the anchor mechanism, which includes the anchor wheel - 5, the anchor fork - 7 and the flywheel - 6, rotational movements are performed, that is, work is being performed. The working fluid (water, antifreeze, etc.) is not consumed at all. Pulse steam engine can be located not only vertically, but also at any angle. Any transducers can also be used when using the reciprocating motion of a pulsed steam engine.

Claims (1)

A low-power pulsed steam engine containing a housing made in the form of a pipe filled with a working fluid — liquid, one end of which is sealed and located in the heating zone, and the other end in the cooling zone, with a membrane housing with a membrane fixed to the second end of the pipe, which through the rod transmits reciprocating movement to the anchor mechanism containing the anchor wheel, anchor fork and flywheel.