SU300088A1 - Combustion chamber - Google Patents

Description

The invention relates to the field of gas engines used in pulse-type machines, for example, to deform metals,

Known combustion chambers of the pulse type, containing a buffer cylinder with a piston and a working cavity, equipped with a measuring device and pipelines with valves for supplying gas and air,

The lack of known structures is the lack of purging and cooling of the working cavity of the combustion chamber, which leads to a decrease in the reliability of, for example, inlet bodies.

In addition, in the known chambers, gas and air are supplied to the working cavity through various pipe joints, which complicates the design,

The purpose of the invention is the creation of such a design of the combustion chamber, which would ensure the purging and cooling of the working cavity with air from the buffer chamber.

cylinder, and the flow of gas and air would be made by one pipeline,

For this, the buffer cylinder is connected to the working cavity by a pipeline, which is locked by a valve, and the measuring device is made in the form of electrical contact gauges connected to valves,

The drawing shows the proposed camera.

The combustion chamber contains a buffer cylinder 1 with a piston 2, a working cavity 3 equipped with a measuring device made in the form of electrical contact gauges 4 and 5 and pipelines 6 and 7 with valves 8 and 9 for supplying gas and air to the working cavity 3, Electrocontact pressure gauges 4 and 5 are connected to valves 10 and 11,

The device works as follows.

Claims (2)

Through the valve 12 and the filter 13 compressed air flows; to valves 8-11 and 14, for example, electropneumatic type 33, and to the reducer 15 via pipeline 7. From the reducer through the check valve 16, air enters the buffer cylinder 1 of the combustion chamber. When the valve 9 is turned on, the gas is injected into the working cavity 3. Gas, the passage through the fan 17 and the filter 18, goes to the valve 19, which is controlled by the electro-pneumatic CMI valve 9 ,, and then through the check valve 20, pipeline 6 and the inlet valve valve 21 into the working cavity 3. At the same time, switching on the electropneumatic valve 11 controlling the valve 22, the working cavity 3 of the combustion chamber communicates via valve 23 from the pressure gauge to the electrocontact pressure gauge 5. The filling of the working cavity 3 with gas leads to a certain limit, On the manometer 5, at the end of the filling of the cavity 3 with gas, the electropneumatic valves 9 and 11 are turned off and the valves 8 and 1O are turned on. Compressed air through the valves 8 and 24 through the pipeline 6 and through the inlet valve 21 enters the working cavity 3, and through the check valve 25 into the buffer cylinder 1. After filling is completed, the electrical contact pressure gauge 4 turns on the valves 8 and 10, the mixture is ignited in the working cavity 3 and a duty cycle is performed, after which the electro-pneumatic valve 26 is turned on, as a result of which the compressed air exhausted in the buffer cylinder 1 through the check valve 27 and the inlet valve 21 enters the working cavity 3 to purge and cool it, and e SID remove residual combustion products through the decompression valve 28 to the atmosphere. Claim 1, a combustion chamber of an engine, for example of a pulsed type, containing a buffer. A cylinder with a piston, a working cavity provided with a measuring device and pipelines with valves for supplying gas and air, characterized in that, in order to purge and cool the working cavity with air from the buffer cylinder, the latter is in communication with the working cavity of the pipeline with a lockable valve. 2. The camera according to claim 1, so that in order to ensure the separate supply of gas and air into the working cavity through a single pipeline, the measuring device is made in the form of electrical contact gauges connected to the valves. / W