RU2360847C2 - System for spacecraft launching on superconductor and method for its realisation - Google Patents

Abstract

FIELD: transportation.

SUBSTANCE: device comprises plate that is superconducting at room temperature, with magnet screen fixed to it tightly or at minimum distance from its single side ahead or behind in direction of travel during spacecraft launching, and magnetic screen represents sheet of ferromagnetic material, electromagnet with core of ferromagnetic or anti-ferromagnetic material, which is arranged in the form of letter "O" with slot that is installed normally relative to axis of launching shaft symmetry or arranged in the form of strip. Method consists in the fact that flat superconductor with magnetic screen on its one side, being installed into interpolar gap - groove of electromagnet, is oriented with its superconducting plates parallel to magnetic field in groove and normally to axis of groove symmetry for plates movement from superconductor along axis of groove symmetry.

EFFECT: reduced fuel consumption during spacecraft launching.

6 cl, 4 dwg

Description

FIELD OF THE INVENTION

The invention relates to the field of technical physics. The invention relates to propulsors using an uncompensated force acting on the superconductor from the side of the magnetic field, arising from the use of a magnetic screen attached to the superconducting plate on one of its flat sides.

State of the art

No analogues found.

Disclosure of invention

The purpose of the present invention is fuel economy when launching a spacecraft.

A system has been developed for launching a spacecraft on a superconductor, which is based on a device attached to the outer side surface of the spacecraft, a fragment of which consists of a small-sized superconducting plate at room temperature of the order of a few centimeters in width and length, normally located with respect to the symmetry axis of the spacecraft , with a magnetic screen attached to it closely from one flat side in front of it when starting the spacecraft, containing a sheet of ferromagnetic material, with individual fragments parallel to each other in each row with a successive alternation of superconducting plates and ferromagnetic sheets and spaced from each other at a distance several times or an order of magnitude greater than the thickness of the magnetic screen; the system also contains a device attached to the inner wall of the launch shaft, a fragment of which is an electromagnet with a core of ferromagnetic or antiferromagnetic material in the form of the letter “O” with a slot (with a gap) normally located with respect to the axis of symmetry of the launch shaft, with individual fragments spaced apart from each other at a distance less than or on the order of the thickness of the core of the electromagnet, and are parallel to each other in a row with the same adjacent magnetic poles, while forming rows of gutters for movement the rows of plates of a superconductor with a magnetic screen along the axis of symmetry of the trough in the slots (in the gaps) of the letter "O". Superconducting plates with a magnetic screen are attached to the outer side surface of the spacecraft with fasteners made of weakly magnetic material so as not to distort the magnetic flux in the gutter. A sheet of a permanent magnet material magnetized along the plane of the sheet can also be used as a magnetic screen [1], and the magnetization axes of individual fragments are parallel to each other and directed in the same direction, in the direction of the magnetic field of the gutter. Between the superconducting plate and the first or additional second magnetic screen in one fragment, a minimum distance can be maintained, less than or on the order of the sheet thickness of the magnetic screen. The gutters can be formed by a device attached to the inner wall of the launching shaft, a fragment of which is an electromagnet with a core made of ferromagnetic or antiferromagnetic material in the form of a strip curved along the arc of the circumference of the spacecraft’s cross section, and the individual fragments are spaced apart from each other by a distance less than or of the order of thickness electromagnet core, and are parallel to each other in a row with the same adjacent magnetic poles, and the rows are spaced from each other with a gap for movement the plates of a superconductor with a magnetic shield, and in each gap the magnetic poles of adjacent rows are opposite. Instead of an electromagnet, a permanent magnet can be used. Also in the system from the side of the magnetic screen parallel to it at a distance several times or an order of magnitude smaller than the distance between the superconducting plates, a second additional magnetic screen can be located, similar to the first, since a double magnetic screen is much more efficient than a single one [2]. The whole system is combined with fasteners made of weakly magnetic material so as not to disturb the magnetic flux in the inter-polar space of the magnets.

A method has been developed for launching a spacecraft on a superconductor, consisting in that the system for launching a spacecraft on a superconductor is oriented by its superconducting plates parallel to the magnetic field in the trench and normal to the axis of symmetry of the trench for the movement of plates from the superconductor along the axis of symmetry of the trench, therefore due to the interaction of the plates from a superconductor with a magnetic field, a trench arises from the side of a flat surface of a superconductor not protected by a magnetic shield, uncompensated and actions on the superconductor from the side of an inhomogeneous magnetic field penetrating to a small depth in the thickness of the superconductor [3], and directed from the flat surface of the superconductor not protected by the magnetic screen towards the weakening of the magnetic field, that is, towards the magnetic screen, which accelerates the system of superconducting plates with a magnetic screen and the spacecraft structure rigidly connected with it in this direction, the internal magnetic field of the magnetic screen made of the material of the permanent magnet entiruetsya in one direction with a magnetic field in the trough. Moreover, in the process of launching the spacecraft, acceleration occurs immediately at its given value by turning on the current in the electromagnet windings at its given value for a short time. Moreover, the acceleration is regulated by an electric circuit [4], which includes a spacecraft acceleration meter, which increases the electric current through the coil of electromagnets if the acceleration is less than a given value, and reduces the electric current through the coil of electromagnets if the acceleration is greater than a given value.

The invention is illustrated by drawings.

Figure 1 shows a plate of a superconductor, designated as 1, and attached to it from one of its flat surface, a magnetic screen, designated as 2.

, действующей на свободную от магнитного экрана плоскую поверхность сверхпроводника в направлении магнитного экрана.Figure 2 shows how the plate of the superconductor 1 with the magnetic shield 2 is oriented in the field lines of the magnetic field of the electromagnet with the core in the shape of the letter "O", with a slot (gap) oriented to provide uncompensated force

acting on the free surface of the superconductor from the magnetic screen in the direction of the magnetic screen.

, действующей на свободную от магнитного экрана плоскую поверхность сверхпроводника в направлении магнитного экрана.Figure 3 shows how the plate of a superconductor 1 with a magnetic screen 2 is oriented in the force lines of the magnetic field of the magnetic field of an electromagnet with a core in the form of a strip, to provide uncompensated force

acting on the free surface of the superconductor from the magnetic screen in the direction of the magnetic screen.

Figure 4 shows how the acceleration of a system for launching a spacecraft on a superconductor is controlled by an electric circuit, where: 3 is a meter for acceleration of a spacecraft developing upward, minus the acceleration of gravity; 4 - a shunt, it is also a feedback sensor; 5 - electronic amplifier; 6 - element of comparison; 7 - winding of an electromagnet; 8 - value of the acceleration developed upward, minus the acceleration of gravity.

The voltage difference Δu between the given voltage u _ass and the voltage from the electronic amplifier u _eu is supplied to the winding of the electromagnet from the comparison element.

Since the distance between the electromagnets forming the chute for the movement of superconducting plates with a magnetic screen is minimal, therefore, the movement of superconducting plates with a magnetic screen occurs in a practically uniform, almost gradientless magnetic field, which is in accordance with the invention.

, действующей на сверхпроводник, помещенный в магнитное поле.Evaluation of the possibility of the proposed device and method of launching a spacecraft consists in assessing the strength

acting on a superconductor placed in a magnetic field.

The force acting on a substance placed in a magnetic field is determined as follows [5] in CGSM:

where f _x is the magnitude of the force acting on the substance in the x direction;

χ is the volumetric magnetic susceptibility of the substance;

ν is the volume of the substance;

H is the magnitude of the magnetic field;

x is the direction.

Since the magnetic field is ejected from the superconductor and since the penetration depth of the magnetic field into the superconductor is 10 ^-5 ÷ 10 ^-6 (see [3]), therefore, a relatively high magnetic field gradient ∂Н / ∂х from the side of the superconductor arises at this depth, not protected by a magnetic screen, providing a relatively high force f _x acting on the surface of the superconductor, free from the magnetic screen. In this case, the superconductor, as an ideal diamagnet, is pushed out of the region of a stronger magnetic field towards the weakening of the magnetic field.

The parameters of a spacecraft with an acceleration system on a superconductor are determined from (1) as follows naturally in CGSM using the formula for determining the acceleration of a spacecraft:

where M is the mass of the spacecraft;

a - spacecraft acceleration;

χ is the magnitude of the volume magnetic susceptibility of the superconductor;

H is the magnitude of the magnetic field;

S 'is the area of the superconducting plate;

S is the base area of the spacecraft;

N is the number of superconducting plates.

The length of the shaft to launch the spacecraft is calculated as follows:

where L is the length of the shaft to launch the spacecraft;

V is the value of the speed of the spacecraft at the exit of the mine;

and - the value of the acceleration of the spacecraft in the mine.

For example, for a manned spacecraft, formula (2), a derivative of formula (1), gives at M / S = 10 ³ g · cm ^-2 (10 ⁴ kg · m ^-2 )

N = 10 ⁴

S = 10 ⁵ cm

S '= 25 cm ²

H = 3 · 10 ³ Oe

χ = -1 CGSM

will be ≲25 · 10 ³ cm · s ^-2 (25 · 10 m · s ^-2 )

Here it must be taken into account that this figure is presented with a margin that the real value of the acceleration a will be less, since in the region of the penetration of the magnetic field into the superconductor, the absolute value of the magnetic susceptibility of the superconductor decreases and the magnetic field decreases, and this fact makes its own corrections to the estimated formula (2). Suppose, with the selected parameters or close to them, the acceleration of the spacecraft will be achieved when launching at a = 3 · 10 ³ cm · s ^-2 , then the launch speed at a launch shaft depth of L = 10 ⁴ cm will be from formula (3) V = 7 · 10 ³ cm · s ^-1 (70 ms ^-1 ). If you choose the depth of the shaft more, then the launch speed will be greater. All that has been said will relate to the manned launch of the spacecraft, as well as to the unmanned launch of the spacecraft when it reaches a launching speed acceptable for the practice of launches.

A shaft for launching a spacecraft with contained in it troughs of electromagnets can be from vertical to horizontal.

The shaft for launching the spacecraft can be equipped with guide rails, and the body of the spacecraft can be equipped with the corresponding runners or wheels entering the rails when the spacecraft moves in the mine, to eliminate vibration and reduce friction during acceleration to launch the spacecraft in the mine.

Brief Description of the Drawings

Figure 1. - one of the fragments of a system for launching a spacecraft on a superconductor.

Figure 2. - a method of launching a spacecraft on a superconductor in a magnetic field of electromagnets with a core in the form of the letter "O" with a slot (with a gap).

Figure 3. - a method of launching a spacecraft on a superconductor in a magnetic field of electromagnets with a core in the form of a strip.

Figure 4. - a method for controlling the acceleration of a system for launching a spacecraft on a superconductor using an electrical circuit.

The implementation of the invention

The tool that implements this device and method has not yet been created. But from the calculations given in the description of the invention follows the possibility of its implementation.

References

[1] Edited by J. Kirschwink, D. Jones, B. Mac-Fadden, Biogenic magnetite and magnetoreception. M .: "World", 1989, t.1, p.271.

[2] Edited by J. Kirshvink, D. Jones, B. Mac-Fadden, Biogenic magnetite and magnetoreception. M .: Mir, 1989, v. 1, p. 264.

[3] Small Soviet Encyclopedia, State Scientific Publishing House "Soviet Encyclopedia", third edition, vol. 8, p. 254-255.

[4] A.S. Klyuyev. Automatic regulation. M .: Energy, 1973, p.6-11.

[5] P. Selwood. Magnetochemistry, ed. IL M., 1958, p. 13.

Claims (6)

1. A system for launching a spacecraft on a superconductor, a fragment of which is a device fastened from weakly magnetic material to the outer side surface of the spacecraft, consisting of a plate normally located relative to the axis of symmetry of the spacecraft at a room temperature, with the plate attached to it closely or on the minimum distance from one flat side ahead in the direction of travel when starting the spacecraft with a magnetic screen, which is a sheet of ferromagnetic material, and the individual fragments are spaced apart by an order of magnitude greater than the thickness of the magnetic screen, the system also includes a device attached to the inner wall of the launching shaft of the spacecraft, a fragment of which is an electromagnet with a core made of ferromagnetic or antiferromagnetic material, made in the form the letters O with a slot normally located in relation to the axis of symmetry of the launch shaft, while the individual fragments form rows of grooves in the form of letters О with slots for the movement of rows of plates from a superconductor with a magnetic screen along the axis of symmetry of the trough, or made in the form of a strip bent along an arc of a circumference of the cross section of the spacecraft, while the rows are spaced from each other with a gap for the movement of plates from a superconductor with a magnetic screen, moreover, in each gap the magnetic poles of adjacent rows are opposite, while the individual fragments in the form of a strip or in the form of the letter O are separated from each other at a distance less than or on the order of the thickness of the core ctromagnet, and are parallel to each other in a row with the same adjacent magnetic poles. 2. The system for launching a spacecraft on a superconductor according to claim 1, characterized in that a sheet of a permanent magnet magnetized along the plane of the sheet is used as a magnetic screen, and the magnetization axes of the individual fragments are parallel to each other and equally directed in the direction of the magnetic field of the trough. 3. The system for launching a spacecraft on a superconductor according to claim 1, characterized in that an additional magnetic screen is located on the side of the magnetic screen at an order of magnitude smaller than the distance between the superconducting plates. 4. The system for launching a spacecraft on a superconductor according to claim 1, characterized in that the distance between the superconducting plate and the magnetic screen in one fragment is less than or of the order of the thickness of the sheet of the magnetic screen. 5. A method of launching a spacecraft on a superconductor, consisting in that the system for launching a spacecraft on a superconductor, including as a fragment a flat superconductor with a magnetic screen on one side of it, placed in the interpole gap of the electromagnet, is oriented with its superconducting plates parallel to the magnetic field in the trench and normal to the axis of symmetry of the trench for the movement of plates from the superconductor along the axis of symmetry of the trench, therefore, due to the interaction of the plates from the superconductor and with the magnetic field of the trench, the uncompensated force acting on the superconductor from the side of an inhomogeneous magnetic field penetrating to a small depth into the thickness of the superconductor and directed away from the plane surface of the superconductor unprotected by the magnetic screen towards the weakening of the magnetic field arises from the side of the trench magnetic field , i.e. towards the magnetic screen, which accelerates the system of superconducting plates with a magnetic screen and rigidly connected with it the structure of the spacecraft in this direction, and during the launch of the spacecraft, acceleration occurs immediately at its given value by turning on the current in the windings of the electromagnets at its given value for a short time. 6. The method of launching a spacecraft on a superconductor according to claim 5, characterized in that the acceleration of the spacecraft is regulated by an electrical circuit that includes a spacecraft acceleration meter that increases the electric current through the coil of electromagnets if the acceleration is less than a given value and reduces the electric current through the winding of electromagnets, if the acceleration is greater than a given value.

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