UA17584U - Power plant - Google Patents

Abstract

The proposed power plant contains an accumulator, a generator of negative and positive electrostatic charges, a unit for neutralizing electrostatic charges, and metallic plate electrodes.

Description

Description of the invention

The useful model refers to the means for converting one type of energy into another and can find wide application in industry, transport, household appliances and other areas of human activity.

As you know, in our time, in almost all industries, means for reversible electromechanical conversion of energy (electrical energy - into mechanical energy and mechanical energy - into electrical energy), built on the phenomenon of force interaction of electromagnetic fields or magnetic fields of permanent magnets with electromagnetic fields of the current circuit, are widespread. At the same time, well-known electric induction machines and converters work in 70 rotational modes (both in the generator mode and in the motor mode). It is impossible to imagine modern civilization without the known method of electromechanical energy conversion and inductive electric machines and converters working on the basis of this method. Electric power (production of electricity), industrial and household electrical engineering, transport and many other technologies are based on the application of this open

by M. Faraday more than 150 years ago, a method of electromechanical energy conversion and inductive 12 electric machines based on it M., 1980.1.

The disadvantages of the mentioned machines are also well known: significant complexity and high cost, limitation of permissible operating voltage - due to electrical breakdown of coil insulation, criticality of magnetic properties of materials to temperature and vibrations. High energy consumption has an equally negative value, since significant electric currents must be passed through the coils of inductive electric machines to generate electromagnetic fields. Due to the high thermoelectric Joule energy losses in the induction coils of such machines, as well as due to the loss of electrical energy due to the formation of an electromagnetic field and their consumption of significant reactive power (up to 20...3095 of the full power of the machine), the efficiency of known machines is unsatisfactory, for example, with the most common for machine capacities from 5 to 40 kW, it does not exceed 70 7590. 29 The closest to the proposed one in terms of technical essence and features is the energy installation of a vehicle, which contains a direct current traction motor, a sectioned battery with a controlled energy converter connected to it, generator and an inertial motor rigidly connected to it (ША 46038, VbОЙ. 11/18, 15.05.2002).

The disadvantages of traditional electric motors and generators have already been mentioned above: significant complexity, high energy consumption, high cost and low efficiency. The disadvantages of the prototype should also include the negative properties associated with the presence of a traditional alkaline or acid battery, namely, the need for periodic refilling with fresh electrolyte and periodic replacement of the plates, as they are active and fail over time. uh-

The task of a useful model is a power plant, which, due to the direct conversion of 3o electrostatic energy of artificially created charges and charges of the surrounding environment into mechanical energy, is significantly simpler than the prototype in terms of the design of its components and the connections between them. which allows, ultimately, to reduce its energy consumption and cost by orders of magnitude.

In order to solve the given problem, the power plant, which contains an electrically connected battery and an engine, according to a useful model, is equipped with means for supplying it with positive and 70 negative coulomb charges from the environment, the battery is made in the form of two located with one near one of two containers made of dielectric material charged with static electricity, the first with positive and the second with negative Coulomb charges, and equipped with two capacitors, one of the covers of each of which, the inner one, is located inside the corresponding container, and the second cover, the outer one, - on the outside of the container, and a means for neutralizing charges in the form of a flask with inert gas, in the middle of which two metal plates are installed parallel to each other, at a distance from each other, one of which is connected - to one of the mentioned external capacitor covers, and the second plate connected to the second external capacitor cover, the stator of the motor in the form of a hollow cylinder made of a dielectric material, in the side wall of which a metal conductor in the form of a spiral is mounted, one end of which is electrically connected to a means for applying static electric charges to it from the surrounding environment by 20 of the first sign, and the other end of which is connected with the first of the mentioned external capacitor covers, and the armature is made in the form of a hollow cylinder charged with static electricity, installed in the middle

T" of the stator, concentric to it, with the possibility of rotation around their common axis, while the second of the mentioned external capacitor covers is electrically connected to the means for applying static electric charges of the second sign to it from the surrounding environment. 29 The phenomenon of the force interaction of electric charges and Coulomb's law, which established the quantitative characteristics of this interaction, are well known | see, for example. Physical encyclopedic dictionary. M., 1984, p. 334).

Numerous experiments have confirmed, in particular, that the forces of interaction of electric charges are very large, for example, that electric charges of the size of 1K at a distance from them act on each other (attract opposites and repel opposites) with a force of 9x109N | see S.G. Kalashnikov Zlectrychestvo Textbook for universities. bo M-, Nauka, 1985, p. 17). But, as far as I know, there is no way to directly convert electrostatic energy into mechanical energy.

The proposed design is such that due to the use of the mentioned forces of static electricity charges, with which the mentioned containers and the hollow cylinder of the motor stator are pre-charged, and the involvement of charges from the surrounding environment, which are directed through the mentioned means into the middle of the installation, into the useful work, for the first time , in my opinion, the possibility of forced rotation of the motor armature becomes possible during

practically, an unlimited amount of time. The design of the installation is very simple, with the exception of the output shaft of the anchor - without moving parts. Energy losses - only when charging battery capacities, capacitors and motor with static electricity.

In order to be able to adjust the magnitude of the induced charges on the outer capacitor plates, and thus the magnitude of the forces of interaction between the charges in the stator and the armature, it is advisable to install the storage tanks in a movable manner, with the possibility of fine-tuning the distance between the inner and outer capacitor plates.

It is also advisable, in order to balance the current load of the capacitor covers, to connect one of them (the other) 7/0 to a means for applying static electric charges of the second sign to it from the surrounding environment through two parallel metal plates, installed opposite each other in the middle of the flask with an inert gas Since the gas will glow when passing through this bulb of charges, it is advisable to make it from a transparent or translucent material: the glow of the gas will be visible and it is possible to follow the operation of the installation by this glow.

A useful model is explained by drawings, where on:

Fig. 1 shows the structural diagram of the installation;

Fig. 2 explains how charging of the battery capacity with static electricity is carried out;

Fig. 3 - section AA from Fig. 1;

Fig. 4 - the principle of operation of the engine is explained.

The installation is a housing, in the left part (see Fig. 1) of which there is a battery, which includes two vertically oriented cylindrical containers 2 and 3, made of constructive high-resistance dielectric material. In the spaces of the containers there are Coulomb charges: positive ka 4 - in container 2, negative -d"; - in container 3. The space 4 between the containers is under vacuum.

In the middle of containers 2 and З, in their lower parts, internal covers 5, 6, respectively, of capacitors С, Со are installed. The second covers, external, - 7, 8 capacitors are installed in front of the internal, but outside, containers 2,3. For the ability to adjust the capacity of the capacitors Я 4, С 2, З are installed with the possibility of movement in the vertical direction (the device for moving the containers is not shown).

Between the outer covers 7, 8 capacitors Si, So; a means for neutralizing charges, or a neutralizer 9, is located. It is a flask with an inert gas, in the middle of which two metal plates 10 are installed opposite and parallel to each other. Conductor 11 and with the help of means 12 one of the outer capacitor covers, 7, electrically connected to a source of negative static electricity, for example, it is grounded. To optimize the charging of the capacitors, two metal plates 13 are placed opposite each other in the path of the charges from the device 12, which are installed inside the bulb 14 with inert gas. Bulb 14 is made of transparent or translucent material, which makes it possible to observe the glow of the bulb when charges pass through it and, thereby, to receive an alarm about the operation of the installation. "-

On the side of the battery there is a brushless motor, the stator 15 of which is a horizontally oriented hollow cylinder 16 made of constructive high-resistance dielectric material. A metal conductor in the form of a spiral, or coil, 17 is mounted in the side wall of the cylinder 16. One of the ends of this spiral is connected by a conductor 18 to the outer cover 8 of the capacitor So, and its other end is electrically connected to means 19, for example, in the form of grounding, for application of positive static electric charges to it from the surrounding environment.

The anchor 20 is made in the form of a hollow cylinder 21 charged with negative static electricity, ;" fixed on the shaft 22 with the pulley 23 in the middle of the stator 15, concentric to it. The shaft 22 is mounted in the bearings 24. Please note that the signs of the charges in the conductor 18 and inside the armature 20 must always be opposite. - Structurally, the cylinder 21, with the help of partitions 25 of dielectric material installed inside, is made of sections 26 that are adjacent to each other both in the axial and radial directions (see fig. 1, 3). - The charging of the capacitors 2, C of the battery and the internal capacitor covers 5, 6 with charges of the corresponding c sign is carried out from the Van de Graaf generator through the conductor 27, installed inside the dielectric tube 28, and the conductor 29 (see Fig. 2). After charging, these conductors are removed and thermally sealed with the entrance to tube 28 (arrows B in Fig. 2). When installing containers 2, C in the housing 1, a vacuum is provided in the inter-volume space 4. In a similar way, the sections 26 of the anchor 20 are charged with negative static charges, after which individual parts of the cylinder 21 are connected to each other. Thermal welding is also used when installing plates 7, 8 - in the body 1, spiral 17, plates 13 in the bulb 14 and plates 10 of the neutralizer 9.

The latter, in particular, is very important, since the Coulomb charges should enter the neutralizer only from the inputs - groundings. c After the installation is turned on, charges, -43 and above (see Fig. 1), respectively, are opposite in sign to those with which the corresponding internal capacitor plates 5, 6 are charged. At the same time, the opposite movement of charges begins : negative - from the device 12 through the conductor 11 and the plate 13 - to the external capacitor cover 7; positive ones - from the means 19 through the spiral 17 and the conductor 18 - to the external capacitor cover 8. On the plates 10, when the charges approach them, their neutralization takes place.

When the positive charges pass through the spiral 17, they interact with the negative charges previously accumulated in the inner space of the anchor 21. An idea of how this interaction occurs is provided by an experiment known from the school physics course, illustrated in Fig. 4. When an ebonite stick 31 with positive charges applied to its surface is brought to the ebonite stick 30 with negative charges previously applied to the thread 29, for example, stick ZO deviates from stick Z1 in the direction shown by the arrow.

When stick 31 is further raised to stick 30, the latter again deviates in the same direction.

If stick 31 is rotated around stick 30, the latter will make a circular motion.

In the same way, as a result of the interaction of charges of different names in the spiral 17, which are, as mentioned, in constant motion in the direction of the outer cover 8, and in the inner space of the anchor 21, the latter rotates on the shaft 22. The magnitude of the force of interaction of these charges increases due to the presence bulkheads 25, which do not allow negative charges to concentrate near the longitudinal axis of the armature and force them to move along its periphery, closer to the positive charges moving along the spiral 17. 70 The magnitude of the rotation speed of the armature can be adjusted by changing the capacity of capacitors C. and Co by moving the capacities 2, C with internal capacitor plates in the vertical direction.

Claims (4)

The formula of the invention, , , 1. An energy installation containing an electrically connected battery and a motor, which is characterized by the fact that it is equipped with means 12, 19 for supplying it with positive and negative Coulomb charges from the surrounding environment, the battery is made in the form of two located next to each other near one of two containers 2, C made of dielectric material, charged with static electricity, the first with positive and the second with negative Coulomb charges, and equipped with two capacitors, one of the covers of each of which, the inner 5, 6, is located inside the corresponding battery capacity, and the second cover, external 7, 8 - outside the container, and means 9 for neutralizing charges in the form of a flask with an inert gas, inside which two metal plates 10 are installed parallel and opposite each other, one of which is connected to one of the mentioned external capacitors covers, and the second plate is connected to the second 25 external capacitor cover, the stator 15 of the motor is made in the form of hollows a hollow cylinder 16 made of a dielectric material, in the side wall of which a metal conductor in the form of a spiral 17 is mounted, one end of which is electrically connected to the means 19 for applying static electric charges of the first sign to it from the surrounding environment, and the other end of which is connected to the first of the mentioned external capacitor covers 8, and the armature 20 of the motor is made in the form of a statically charged hollow cylinder 21 installed inside the stator, concentric to it, with the possibility of rotation around their common axis, while the second of the mentioned external capacitor covers 7 is electrically connected 89 to means 12 for applying static electric charges of the second sign to it from the surrounding environment. yu 2. Energy installation according to claim 1, which differs in that the capacitors 2, charged with static electricity, from the battery are mounted movably with the possibility of adjusting the distance between the opposite inner and outer covers of the mentioned capacitors. "- C. Energy installation according to claim 1, which is characterized by the fact that the second of the mentioned external capacitor covers 7 is connected to the means 12 for supplying it with static electric charges of the second sign from the surrounding environment through two parallel metal plates 13, installed opposite each other inside the flask 14 with inert gas. " 4. Energy installation according to item C, which differs in that the bulb 14 with inert gas is made of transparent or translucent material. . and? - -and 1 (ee) s» 60 b5