FR2908842A1 - Compressed air energy producing device for e.g. boat, has cylinder to compress air in reservoir till air attains specific pressure and manometer located on reservoir to indicate pressure of air, where compressed air is supplied to turbine - Google Patents

Abstract

The device has a single or double action hydropneumatic pump (1) activated by a heat engine for transmitting a force to a double or single action hydraulic climbing cylinder (3). A compressor (4) fills air in a reservoir (6) via a duct (5). The cylinder compresses the air in the reservoir till the air attains a pressure of 700-14000 bars, where the compressed air is supplied to a turbine (9). A manometer (7) is located on the reservoir to indicate the pressure of the air.

Description

The present invention relates to a device for producing

  COMPRESSED AIR energy from a compressor and a single or double acting hydropneumatic pump supplying a compressed air tank, operating a turbine or a motor.

  This force is transmitted from the pump to cylinders ranging from a capacity of 10 to 1000 tons and a stroke per step of 50 to 1219 m / m or more. This allows very powerful compressions on cylinders ranging from 1 to 10 cubic m3 and more.

  These cylinders and its hydropneumatic pumps have the power to lift the decks of ships trains etc. ... therefore also to compress air up to 1000 tons so to produce electrical energy by adapting an electric generator to the turbine All this system can be mounted on a chassis and this system can be considered as a movement perpetual where more precisely as a perpetual energy, since it initially uses only one percent of its force for start-up. That is to say for example a person weighing 100 kg can lift a truck of 10 tons or 1000 kilos. Ci this person can lift 10 tons it can also compress 10000 kg of air, using only its force of 20kg. This force of 20kg can also be produced by an engine that can be refueled by the electric or thermal generator producing 7 bar or more. Take for example a hydropneumatic pump, it is a single acting pump of a nominal ratio 400-1- surface of the pneumatic piston engine / surface of the hydraulic piston = 400 (A = Admission E = Exhaust C = Valve) If the pressure compressed air is 7 bar and the supply, pressure or discharge will be at most 400 x 7 = 2800 bar. Simple effect. The double-acting pump with pneumatic piston and 2 hydraulic pistons and therefore a higher flow.

  Compared to a single-acting pump a double-acting pump uses less compressed air to produce the same flow, both types have the same pneumatic piston and allow to transform a low-pressure fluid into high pressure. 2908842 -2- The starting is done by an electrical outlet on electric sector or thermal engine, which actuates the single or double-acting hydropneumatic pump according to the diagram (1) and (2) AIR OIL this force is transmitted to the CRIMPING CYLINDER HYDRAULIC DUAL EFFECT (3) which actuates the compressor (4) which fills the tank (6) via the conduit (5). On the tank is a pressure gauge (7) which indicates the air pressure and a safety valve (8). The air pressure contained in the tank feeds a turbine (9) and it feeds an electric generator (10) and it supplies the motor pump (1) via a transfluid transmission or gear.

Claims (1)

  1. the device produces compressed air energy from a single or double acting hydropneumatic pump, supplying one or more hydraulic cylinders climber which can go from 10 to 1000 tons of power (3) which compress air in a tank (6) of large capacity that can reach powers of 700 to 14000 bar and more depending on the needs requested. This compressed air supplies a turbine (9). The device according to the claim characterizes that hydropneumatic pumps provide more energy than they consume, and more electric current than they consume. The device according to the claims made that this system self feeds in operation and can be compared to a perpetual motion or at least a very powerful and inexhaustible perpetual energy, able to lift or compress 1000 tons of air (4) and by the even, run engines of cars, aircraft engines, electric turbines, hydraulic, trains boats etc. and can produce more energy than a nuclear power plant.