DE102011109496A1 - Hydro-buoyancy motor for converting pressurized air into mechanical energy, comprises cylindrical rotor with two lids, which is placed in radiator tank, where openings in cells of cylindrical rotor carry out control of medium change - Google Patents

Abstract

The hydro-buoyancy motor comprises a cylindrical rotor (2) with two lids, which is placed in a radiator tank (1). The openings (6) in the cells of the cylindrical rotor carry out the control of the medium change and are uniformly arranged. A cutoff wall (4) is connected to the radiator tank in a water-proof manner to an extent that excess water from an air side of the radiator tank is driven into a water side. A sealing system (5) is provided, which divides the radiator tank into the air side and the water side, and separates the rotor and an output shaft (3) in the radiator tank.

Description

The invention will be described with reference to an embodiment and the figures.

It shows:

1 Various cuts through the hydro-lift engine

2 function Explanation

The Hydra lifting motor, which uses both the weight of water in air and the buoyancy of air in water, consists of the following four main components: the water box 1 , the rotor 2 , which is stored in the water tank and with the drive shaft 3 firmly connected and the partition wall 4 with the sealing system 5 holding the water tank 1 divided into the areas air side and water side.

The air is introduced via the air inlet into the air side of the water tank 1 The pressure required in this area corresponds to the pressure of the water column on the water side of the water tank 1 , Because the partition 4 in the lower area not with the water box 1 is connected, the water can escape from the air side into the water side. Next is the partition 4 designed so that the rotor 2 is completely enclosed and at the lines of contact between partition 4 and rotor 2 a sealing system 5 is provided so that the separation of the water and air side is ensured.

The rotor 2 consists of two cylinders, which are connected at the front sides with discs. Between the cylinders there are walls that divide the volume between the outer and inner cylinder evenly into several cells. In the outer cylinder, each cell has an opening 6 , which are always arranged as slots or as a hole so that the individual cells can absorb a maximum of the medium air or water. in the direction of rotation are these openings 6 always in the upper part of the cells.

If air now flows through the air inlet into the air space of the water tank, the water is displaced into the water side. The water, but at that time in the cells of the rotor 2 can not be displaced by the air. This water can only through the openings 6 leave the cells. Now because of the cells on the air side, a torque on the rotor 2 is exercised, the cells move down and thus the openings 6 the cells. During this process, the cells lose more and more water, leaving them at the lowest points of the rotor 2 have lost all water and are now completely filled with air.

The now filled with air cell now rotates at the partition 4 over into the area of the water tank 1 which is filled with water. Due to the density difference between air and water, the cell now experiences a buoyancy force and thus the rotor 2 another torque. Since now the openings 6 The cells are located at the bottom, the air can only escape when the openings 6 to move up due to the rotation. Thus, the cells are at the highest points of the rotor 2 again completely filled with water.

The air that leaves the cells is released to the environment via the water surface. Thus, for the air flow required for the operation of the hydro-lift motor, exactly the amount of air that is discharged via the cells on the water side to the environment.

With this construction, each cell performs twice in one revolution. Once on the water and once on the air side of the hydro-lift engine. The filling change of the cells with water or air is through the openings 6 in the rotor 2 realized.

The advantage of the Hydro buoyancy motor is the effective use of the supplied energy in the form of air with low overpressure. By separating the system in the water and air side, each cylinder cell can do twice work. As a result, there are hardly any fluctuations in the torque. Due to the chosen construction, no movable control elements are required, since the charge exchange only through the openings 6 in the rotor 2 he follows. Furthermore, the operation of the hydro-boosting engine is almost immission-free: since there are no air emissions other than air and water noises, an environmental impact can be almost ruled out. The main advantage lies in the simple design, which works with five main components, namely the water box 1 with the air and water side, the rotor 2 with the cells and openings 6 that with the output shaft 3 is positively connected and the partition wall 4 that with the sealing system 5 the rotor 2 completely encloses and the separation of the water box 1 into an air and water side allows.

Claims (1)

The hydro-boosting engine with the main components water tank, rotor, output shaft and partition wall with sealing system, the rotor is mounted in the water tank, evenly arranged in the cylindrical rotor cells with openings, the partition is connected to the water tank almost completely waterproof and the rotor and the Output shaft with a sealing system den Water box divides into an air and a water side, is characterized in that a) the rotor ( 2 ) is a cylinder with two lids and in the water tank ( 1 ) is stored; b) the openings ( 6 ) in the cells of the cylindrical rotor ( 2 ) take over the control of the medium change and are arranged uniformly; c) the partition ( 4 ) with the water box ( 1 ) is connected as watertight, that excess water from the air side of the water box can be pressed into the water side; d) the sealing system ( 5 ) the rotor and the output shaft ( 3 ) the separation in the water tank ( 1 ) ensured in an air and a water side; e) each cell has performed twice during one revolution.

Images