SU1321837A1 - Rotary piston gas generator - Google Patents

Abstract

The invention relates to the field of power engineering and allows to increase the efficiency of the rotary-piston gas generator. A sleeve 13 with regenerative nozzles (PH) of 14 liters is rigidly connected to the housing 3 and is located in the engine section between the pistons (P) 5 and the gas distribution manifold 8 and coaxially with it for rotation. The P 5 movement agrees with the rotation of the collector 8 of the synchronization mechanism. With an increase in the volume of the cavity between P 5 and its communication through the PH of L4 with the inlet window 1 1, it is filled with compressed air. Upon the termination of the communication of the window 11 with the pH 14, fuel is injected into the cavity, which burns in the hot air. The expansion of the cavity continues and the expansion of gases occurs in it. When the cavity communicates with the PH 14, gas is displaced from it to the consumer. 11 il. f2 00 00 co // FIG. 8

Description

This invention relates to a power plant industry, in particular to gas generators.

The purpose of the invention is to increase the efficiency of the rotary-piston generator.

FIG. 1 shows a rotor-piston gas generator, a longitudinal section; in fig. 2 - compressor part of the generator at the beginning of compression and intake; in fig. 3 - the same, during injection and admission (pistons move from the vertical axis); in fig. 4 - the same at the beginning of compression and intake; in fig. 5 - the same, during injection and admission (pistons move to the vertical axis); in fig. 6 — the motor part of the generator, respectively, at the beginning of the intake and exhaust; in fig. 7 - the same, during the expansion compressor 2, air is drawn in. When the cavity reaches its maximum size, the collector 8 rotates, the cavity ceases to communicate with window 9 and begins to decrease, and the air in it compresses.

 When the exhaust port 10 begins to co-flow with the cavity, air is forced into the duct 12. As the collector 8 turns half a turn, each cavity has time to increase and decrease. Simultaneously in two

10 cavities x inlet, and in two cavities x - compression and injection.

In engine 1, between the pistons 5 there are four cavities that vary in size. When the cavity begins to grow, it communicates through the nozzle 14 with

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The air coming from the drip 12 and heating in the nozzle 14. When the window 11 stops communicating with the nozzle 14, fuel is injected into the air, which burns in the hot air. The cavity continues to grow, the expansion of gases occurs in it. When the cavity increases to a maximum, it communicates with the nozzle 14, the cavity decreases, and the gas is displaced from it, cooled in the regenerative

rhenium and intake (pistons move from a vertical 15 inlet window 11 and is filled with a compressed axial shaft); in fig. 8 - the same at the beginning of the inlet and outlet; in fig. 9 - the same, during expansion and intake (the pistons move to the vertical axis); in fig. 10 - the rotor; in fig. 11 - gas distribution manifold. The rotor-piston gas generator comprises a cylindrical body 3 divided into sections of the engine 1 and compressor 2, a coaxially located rotor 4 in the body 3 with radial pistons 5, about 25 pasadas attached through identical central corners, to the consumer, separating chambers of the engine 1 and chambers 7 of compressor 2, a gas distribution manifold 8 coaxially installed inside the rotor 4 with inlet ports 9 and exhaust ports 10 of compressor 2 with a number equal to the number of pistons 5 of the rotor 4, located in the manifold 8 and connecting the outlet windows 10 of compressor 2 with inlet ports 11 of engine 1, channels 12, sleeve 13 with regenerative nozzles 14, rigidly connected to housing 3 and located in

Claims (1)

Invention Formula A rotary piston gas generator containing a cylindrical housing divided into sections of an engine and a compressor, a coaxially located rotor in the housing with radial pistons attached through identical central angles forming the chambers of the engine and compressor, the distribution manifold with the inlet coaxially installed inside the rotor engine section 1 between pistons 5 and 35 and compressor outlet ports with a number, gas distribution manifold 8, fur-equal to the number of rotor pistons, located 15 synchronization of rotation of the collector in the collector and connecting the exhaust ports of the compressor with engine intake ports, different that, with the AQ goal of increasing efficiency, it is equipped with a sleeve with regenerative nozzles. ra 8 with piston movement o. The rotary piston generator operates as follows. The rotors 4 are reciprocating, and the porn 5 is converging on the vertical and horizontal axes. The collector 8 rotates at a constant speed clockwise. The movement of the pens 5 is consistent with the rotation of the collector 8 by the synchronization mechanism 4515. With increasing cavity g rigidly connected to the housing and located in the engine section between the pistons and the gas distribution manifold and coaxially rotated by it and equipped with a synchronization mechanism for its rotation with the movement of the pistons. F “g. one Compressor 2 air is drawn in. When the cavity reaches its maximum size, the collector 8 rotates, the cavity ceases to communicate with window 9 and begins to decrease, and the air in it compresses. When the exhaust port 10 begins to co-flow with the cavity, air is forced into the duct 12. As the collector 8 turns half a turn, each cavity has time to increase and decrease. Simultaneously in two The cavity x inlet occurs, and in two cavities x - compression and pressure. In engine 1, between the pistons 5 there are four cavities that vary in size. When the cavity begins to grow, it communicates through the nozzle 14 with the inlet window 11 and is filled with a compressed air bottle, the consumer, The air coming from the drip 12 and heating in the nozzle 14. When the window 11 stops communicating with the nozzle 14, fuel is injected into the air, which burns in the hot air. The cavity continues to grow, the expansion of gases occurs in it. When the cavity increases to a maximum, it communicates with the nozzle 14, the cavity decreases, and the gas is displaced from it, cooled in the regenerative the inlet window 11 and is filled with a compressed air bottle, the consumer, the inlet window 11 and is filled with a compressed air bottle, the consumer, Invention Formula A rotor-piston gas generator containing a cylindrical case divided into sections of an engine and a compressor, a coaxially located rotor in the case with radial pistons attached through identical central angles forming the chambers of the engine and compressor, the distribution manifold with the intake coaxially installed inside the rotor and compressor outlets with a number equal to the number of rotor pistons located tightly in contact with the housing and located in the engine section between the pistons and the gas distribution manifold and coaxial with it for rotation and equipped with a synchronization mechanism for its rotation with the movement of the pistons. Fi.g (pus. b P FIG. 6 eight  FIG. 7 13 eight Fi2.9 12 Fi9. // us. ten