DE4009022A1 - Generation of electricity by wind-power - by using windmill to drive water pump which drives turbine - Google Patents

Abstract

The windmill has a vertically mounted rotor which is driven by the wind which is deflected upwards by means of a vertical duct. The windmill is used to drive a vacuum pump (79) which maintains a vacuum in a tank (80) which is connected through valves to cylinders (87) and (104). The valves are controlled by a computer and apply negative and positive pressure alternatively to the cylinders (87,104) so that the pistons (89,102) drive the pistons (92,101) of a water pump (88) which supplies water at high pressure to drive a turbine (82). USE - Utilisation of wind power.

Description

The additional application pursues the purpose of expanding the use of the vertical wind tunnel mill by using a system instead of an E generator, as provided in the parent application P 39 28 321.6, that is compatible with the use of the positive and negative atmospheric Pressure, which serves as the piston drive in cylinders 87-104 .

Fig. 1 shows the schematic representation of the pressure system and turbine drive in connection with the vertical wind tunnel mill.

The general drive results from the energy supplied by the vertical wind tunnel mill FIG. 1, the vertical axis 7 of which rotates the V-belt pulleys 11-12 , which are connected to the V-pulleys 15-18 by V-belts and rotate them. The axes 16-19 , which are mounted in the lever beam, connect the wedge disks 18-20 and 15-17 . The rotation of these wedge disks simultaneously rotates the lever beam 21 to which the gear wheel 22 is fastened and which is toothed with the gear wheel 43 of the vacuum pump 27 . Vacuum pumps of various designs can be used, but it is important that the air is extracted from cylinders 87-104 as quickly as possible, with a rough vacuum not less than (1 Torr).

Fig. 2 illustrates more clearly the construction of the drive shaft 45 to the vacuum pump 63.

By means of the rotation of the lever beam 61 , caused by the V-pulleys 52-56 , which roll over the stationary-attached V-belt 62 , the vacuum pump 79 is rotated at the same time, which cause the negative pressure in the cylinders 87-104 .

The negative pressure on one side of the pistons 89-102 is opposed to the positive atmospheric pressure on the opposite side of the pistons 89-102 , which results in the movement of the pistons. The continuous movement of the pistons is caused by the computer-controlled solenoid valves, which is explained in detail in the summary.

Drawing explanation

Fig. 1 illustrates the entire project P 39 28 321.6 and the additional application as illustrated in Figs. 2 and 3.

Figure 2 illustrates more clearly the drive connection from the wind rotors to the pump and vacuum system.

Fig. 3 illustrates, details the pump system with effect on the water turbine.

Claims (4)

1. The additional application is characterized in that by means of atmospheric pressure, positive and negative, within the air cylinder ( 87-104 ) have the effect that a pumping action occurs, the air cylinder ( 87-104 ), some under negative and on the other hand under positive atmospheric pressure, which are controlled by solenoid valves from a computer program so that the two double pistons ( 89 - 92 - 101 - 102 ), which move against each other, receive a uniform stroke movement, wherein the water volume in the cylinder ( 88 ) is pressed into the collecting tank ( 81 ) and the water turbine, which is coupled to an E generator, rotates by means of the Venturi nozzle. 2. Additional application, characterized in that at both ends one cylinder, one cylinder with a larger diameter is attached. 3. Additional application, characterized in that by the Guide two piston rods to the front of the cylinder Pistons are attached to the respective cylinder diameter are adjusted. 4. Additional application, characterized in that the water circuit run is closed, making the entire project independent from the location.