RU2138682C1 - Vacuum power plant - Google Patents

Abstract

FIELD: power engineering. SUBSTANCE: power plant is designed for building forced movement of air providing rotation of impeller of electric generator. Cone-shaped spiral impeller coupled with generator is fitted in atmospheric air intake hole in ball-shaped reservoir. Impeller with self-contained drive to provide preliminary rarefying and evacuating of air from reservoir is fitted in air suction hole. High vacuum in reservoir is built by vacuum devices. Owing to air pressure differential, air is sucked into reservoir and gets out of ejector at high speed, thus turning the impeller whose rotation is conveyed to generator. EFFECT: possibility of power generation by owing to movement of air streams irrespective of natural phenomena acting onto wind energy. 2 cl, 1 dwg

Description

 The invention relates to power engineering, in particular to stationary installations for generating electrical energy.

 Known power plant that uses the energy of the air flow to propel the impeller of the generator.

 The power plant contains a container with openings for the influx of atmospheric air and its suction, an impeller with an individual drive installed in the suction port, and an impeller associated with a generator installed in the container from the side of the outlet for atmospheric air (SU 547546 A, F 03 D 3/00, 1977).

 The operation of a well-known power plant depends on the characteristics of wind energy, inconsistency of wind speed, the presence of periods of calm and the like.

 The objective of the invention is to ensure uninterrupted conversion of energy of the air flow into electrical energy by creating a forced movement of the air flow through the installation.

 The technical solution to the problem is achieved by the fact that the container is spherical and equipped with a hemispherical open container mounted internally from the side of the suction hole, and fittings for connecting a vacuum equipment, and a pressure control pressure gauge, and the holes for inflow and suction are located on one straight line against each other.

 The problem is also solved by the fact that the impeller associated with the generator is made in the form of a cone-shaped spiral impeller.

 The invention is illustrated in the drawing, which schematically shows a power plant.

 The installation contains a spherical container 1 with a hole 2 for the influx of atmospheric air and a hole 3 for suction of air. An impeller 4 with an individual drive is mounted in the hole 3 (not shown in the diagram). In the tank 1 from the side of the hole 2 for the influx of atmospheric air there is an impeller 5 connected to the generator 6. The impeller 5 is located in the ejector 7.

 The tank 1 is equipped with a hemispherical open tank 8, mounted from the inside from the side of the hole 3 for suctioning air. The tank 1 contains valves 9 for connecting a vacuum equipment and valves 10 for connecting a pressure control pressure gauge.

 Holes 2 and 3 are located on one straight line opposite each other.

 The impeller 5 is made in the form of a cone-shaped spiral impeller.

 The installation is as follows.

 Before starting the installation into operation, the valves on the hole 2 for the influx of atmospheric air are closed. Turn on the impeller drive 4, which creates a preliminary vacuum in tanks 1 and 8. Then turn on the vacuum equipment to create a high vacuum in tank 1. The pressure is determined by a pressure gauge.

 After creating a vacuum in the tanks 1 and 8, open the hole 2 and atmospheric air is sucked into the tank 8 due to the pressure drop. The impeller 4 provides a suction of the incoming air from the tank 8.

 The ejector 7 allows you to get a high speed of movement of the air flow, which spins the impeller 5. The rotation of the impeller 5 is transmitted to the generator 6, which generates electrical energy.

 The increase in pressure in the tank 1 is monitored by a pressure gauge, which gives a signal to turn on the vacuum equipment that supports a certain pressure drop to create air movement at a given speed.

 As a drive for the impeller 4 and vacuum equipment can be used in the energy generator for liquid fuel.

Claims (2)

 1. A vacuum power plant containing a container with openings for the influx of atmospheric air and its suction, an impeller with an individual drive installed in the suction hole, and an impeller associated with a generator installed in the container on the side of the opening for the supply of atmospheric air, characterized in that the container is made spherical and is equipped with a hemispherical open container mounted internally from the side of the suction hole, and fittings for connecting the vacuum equipment and pressure gauge pressure control, and the holes for the inflow and suction are located on one straight line opposite each other.  2. Installation according to claim 1, characterized in that the impeller associated with the generator is made in the form of a cone-shaped spiral impeller.