EA010034B1 - Method and device for moving an object in space - Google Patents

Abstract

A method and a device for its realization relate to transportation of objects, using outer magnetic field and can be used in space industry, aviation, load-lifting equipment and load-bearing machines.The method of moving an object in space is based on effecting the magnetic field upon the winding comprising a conductor rigidly connected to the object to be moved, wherein the winding having two electrical conductors, said conductors connected in series and being parallel and crosswise or at an angle to magnetic lines of natural origin, one conductor is rigidly connected to a moving object, wherein the second conductor is arranged along the rotor generating connected to the moving object adapted for free rotation around its axis. D.C. is passed through the second conductor only being in operation mode, when the conductor can freely move relative to the first conductor provided preserving direction of Ampere force.The device for moving an object in space comprises an electric conductor as a multi-turn winding, the conductor is powered from a power system, the multi-turn winding is arranged in the rotor and interacts with the magnetic field of natural origin and wound so that in the working state one longitudinal side of the winding is positioned along the rotor shaft crossing its vertical axis, wherein the other longitudinal winding side is positioned along the rotor generating crossing its horizontal axis. In the device for moving the object in space windings are not connected electrically and their number can be changed to n units. The technical result is aimed at capability of free movement objects in space in any direction, using only magnetic field of natural origin due to purposeful arrangement of windings in a rotor.

Description

The method and device for its implementation relate to the field of transportation of objects using an external magnetic field of natural origin and can find application in the space industry, aviation, lifting equipment, power machines.

A known method of moving an object in space and a device for its implementation, based on exposure to an electromagnetic field on a conductor rigidly connected with a moving object (patent RU 2023203).

The disadvantage of this method is the use of an artificial source of a magnetic field to create areas with lower and higher total vector potential, which does not allow free movement of an object in an open system, since the source of the artificial field will be on board the object. And this means that in an open system, the pushing resulting forces will act only relative to this artificial source, and the source itself in the open system cannot be moved due to these forces.

The closest set of essential features to the proposed method are a method of moving an object in space and a device for moving an object in space. The method of moving an object in space is based on the action of an electromagnetic field on a conductor rigidly connected to a moving object, and the conductor can be made in the form of a winding (patent RU 2269194).

The disadvantage of this method is the use of an artificial source of a magnetic field to create areas with reduced and increased total vector potential, which does not allow free movement of an object in an open system, and that the conductor must be placed in space so that it intersects the plane formed by the electromagnetic field propagation vector and the vector of the magnetic component of this field. In addition, it is necessary to create an alternating current in the conductor with a frequency equal to the frequency of the electromagnetic field and a phase determined by the direction of its movement with respect to the source of the field. Also, the need to use an alternating magnetic field does not allow the use of a field of natural origin and to move freely in space.

The objective of the proposed method is to move bodies at any point in a magnetic field of natural origin using this field and electromagnetic energy and create traction that can overcome the force of gravity.

To achieve this objective, the claimed method of moving an object in space, based on the effect of a magnetic field on a winding, including a conductor rigidly connected to a moving object, in a winding consisting of two electric conductors with current, the conductors are connected in series, arranged parallel to each other and across or at an angle to the magnetic lines of the field of natural origin, moreover, one conductor is rigidly attached to the moving object, and the second conductor is placed along the generatrix Otori attached to a movable object, able to rotate freely around its axis. Direct current is passed through the second conductor only in the operating position, when this conductor can move freely relative to the first conductor, provided that the direction of the Ampere force is maintained.

The inventive method is illustrated in FIG. 1, where 1 - conductors rigidly attached to the moving object, 2 - conductor mounted on a freely rotating rotor around its axis (3). Fi = F ₂ .

Two electrical conductors 1 and 2 (Fig. 1) are connected in series (and short-circuited), arranged parallel to each other and across (or at an angle) to the magnetic lines of the field of natural origin B. Moreover, conductor 1 is rigidly attached to the movable object (not shown ), and conductor 2 is placed along the generatrix of the rotor, which is able to freely rotate around its axis 3. The axis 3 of this rotor is rigidly attached to the moving object parallel to conductor 1. Direct current is passed through conductor 2 and only in the working position when this conductor can freely move relative to conductor 1, provided that the direction of the Ampere force is preserved (i.e., in a position where the radius drawn to the conductor is perpendicular or not parallel to the translational motion vector).

A device for implementing the method (Fig. 2) in the form of an electrodynamic mover provides the movement of bodies in space due to translational acceleration, which is created due to the mechanical redistribution of energy in the rotor, where the windings are located, which are not electrically connected. Each winding is short-circuited. With one longitudinal side, the winding runs along the shaft, crossing the vertical axis. The second longitudinal side of the winding runs along the generatrix of the rotor. Windings can be made of any electrical conductor. The windings are electrically powered alternately as they enter the operating position (sector 5), which coincides with the horizontal axis of the rotor. The redistribution of energy in the rotor during its rotation is carried out by the following application of forces: one force F _{0 is} constantly applied to the center of mass of the rotor and has a constant direction. Another force F _k , equal in magnitude and oppositely directed, is applied along the generatrix to the rotor. The direction of the force F _k remains constant relative to the point of application of the force F ₀ . The forces are created by the interaction of the current in the energized winding with an external magnetic field of natural origin. To create an external force pushing the rotor, it is necessary to use an external magnetic field. An increase in the number of windings leads to an increase in efficiency.

An advantage of this invention is the use of the natural field of the Earth and the location of the rotor windings, which allows you to freely move objects relative to this field at any point.

The inventive device for implementing the inventive method is presented in FIG. 2, where 1 is the winding of the mover, 2 is the rotor housing of the mover, 3 is the shaft, 4 are the guides for the windings, 5 is the sector of the working position of the winding.

A device for implementing the method works as follows.

The mover is oriented across the magnetic lines of the field of natural origin, fix the shaft 3 in the bearings, allowing free rotation. The windings 1, with the help of guides 4 located in the rotor housing 2, are electrically energized alternately as they get into the operating position (sector 5), which coincides with the horizontal axis of the rotor, and the Ampere force on the winding 1 begins to act, corresponding to the direction of the current. The current is directed so that, in accordance with the direction of the magnetic lines of the field of natural origin on the shaft 3, the force F ₀ acts in the direction of the necessary movement, and the force F _k in the opposite direction. The rotor 2 begins to rotate, which leads to the alternate power supply of all windings 1 of the rotor 2. When the rotor is rotated, the resulting force is directed towards the necessary movement. The resulting force is transmitted through the shaft 3 to the moving body.

To prove the efficiency of the invention, a model was made that clearly shows the correctness of theoretical calculations. The model is a rotor that can rotate freely around its axis. A couple of forces were applied to the rotor axis and generatrix, which were equal in magnitude and opposite in direction. The force acting on the axis was directed against the action of the gravity of the rotor, and the force acting on the tangent was aligned with the force of gravity. The rotor gravity F _tsx was 200 H. The forces acting on the axis F ₀ and along the tangent F _k gradually increased simultaneously to 1000 H each. Moreover, the equality F ₀ = F _{k was} always satisfied. As a result, when the forces F ₀ and F _k reach the value (2-2.5) F _tsx (and higher), the rotor acquires acceleration directed against the action of gravity.

The technical result consists in the possibility of free movement of bodies in space in any direction using only a magnetic field of natural origin due to the targeted location of the windings in the rotor.

Claims (4)

1. A method of moving an object in space, based on the influence of a magnetic field on a winding, including a conductor rigidly connected to a moving object, characterized in that in a winding consisting of two electric conductors with current, the conductors are connected in series, arranged parallel to each other and across or at an angle to the magnetic lines of the field of natural origin, moreover, one conductor is rigidly attached to the movable object, and the second conductor is placed along the generatrix of the rotor attached to movable object that can rotate freely around its axis. 2. The method of moving an object in space according to claim 1, characterized in that direct current is passed through the second conductor only in the operating position, when this conductor can move freely relative to the first conductor, provided that the direction of the Ampere force is maintained. 3. A device for moving an object in space, containing an electrical conductor in the form of a multi-turn winding, powered by an energy system, characterized in that the multi-turn winding, designed to interact with a magnetic field of natural origin, is located in the rotor and is wound so that in the working position one the longitudinal side of the winding is located along the rotor shaft, intersecting its vertical axis, and the other longitudinal side of the winding is located along the generatrix of the rotor, crossing its horizontal Camping. 4. A device for moving an object in space according to claim 3, characterized in that the windings are not electrically connected and their number can vary up to n units.