RU2130661C1 - Magnetic system - Google Patents

Abstract

FIELD: permanent-magnet systems. SUBSTANCE: magnetic system is packed in nonmagnetic sealed case with vacuum-pressure and discharge pipe unions. Two extreme permanent magnets are fixed in position relative to nonmagnetic case; they are built up of spherical permanent magnets. Each permanent magnet has central magnetic core and telescopic permanent magnets in the form of bushings entering each other. Ends of bushings bear spherical segments which form, when assembled, spherical external surface of extreme permanent magnets of system. Intermediate permanent magnet is made for rotation about common longitudinal axis and placed in a spaced relation to extreme magnets. It is, essentially, hollow spherical body with top and bottom parallel planes cut off by segments and equally spaced from center of intermediate permanent magnet; hollow spherical current collector with parallel planes cut off by segments along secant line and intermediate spherical permanent magnet are coaxially arranged and equally spaced apart. EFFECT: improved magnetic energy of system and uniformity of magnetic field. 2 cl, 6 dwg

Description

 The invention relates to the field of electrical engineering, in particular to permanent magnet magnetic systems, and can be used in the electrical, electronic and other industries.

Compound multipolar permanent magnets are known that form a magnetic system in the assembled position. / RF patent N 2030002, cl. H 01 F 7/00, publ. 1995 /
The closest analogue is a magnetic system containing permanent magnets with an axial and radial direction of magnetization, each of which has a tapered side surface, mounted by these surfaces close to each other so that they form a magnetic system with a working gap inside.

/ USSR author's certificate N 763984, H 01 F 7/00, publ. 1980 /
The invention is illustrated by drawings, where in FIG. 1 - shows a General view of the layout of the magnetic system; FIG. 2 - components of extreme permanent magnets in disassembled form; FIG. 3 - shows the extreme permanent magnet in the assembled position; FIG. 4 - average permanent magnet; FIG. 5 is a general view of a magnetic system housed in a non-magnetic body; FIG. 6 is a diagram of magnetic fields.

 The magnetic system includes geometrically separate composite permanent magnets, forming an assembled system with a gap between the individual permanent magnets located coaxially. The system is characterized in that it is located in a sealed non-magnetic case with a vacuum and a discharge fitting and contains a holding device, two extreme permanent magnets fixed motionless relative to the non-magnetic body and made in the form of spherical composite permanent magnets with equatorial equalizers and consisting of a central magnetic rod and telescopically each other permanent magnets in the form of bushings, the ends of which are made with spherical segments, forming in the assembled position and the spherical outer surface of the extreme permanent magnets of the system. The middle permanent magnet is made to rotate around a common longitudinal axis and is located with a gap relative to the extreme magnets and is a spherical hollow body with segments cut off by parallel planes above and below and equidistant from the center of the middle permanent magnet. Around the middle permanent magnet with equal clearance, a spherical hollow current collector with cut segments by parallel planes secant and a middle spherical permanent magnet is coaxially located. The holding device is made in the form of movable pins located along the diameter of the middle permanent magnet.

 The technical result achieved is to increase the magnetic energy of the system, the uniformity of the magnetic field along the axis of the magnetic system, to simplify the device for generating current due to electromagnetic induction of the magnetic system, and to increase the efficiency of the magnetic system.

 Magnetic system / cm. FIG. 1 / includes the following structural elements: non-magnetic sealed housing 1, extreme upper permanent magnet 2 and extreme lower permanent magnet 3, middle permanent magnet 4, current collector 5 and vacuum nozzle 6, which ensures the vacuum of the cavity of the sealed housing 1. Extreme upper and lower permanent magnets 2 and 3 are equipped with equatorial equalizers 7 and are made composite / cm. FIG. 2 /. Extreme permanent magnets 2 and 3 include a central magnetic rod 8 and permanent magnets telescopically inserted into each other in the form of bushings 9-11, the ends of which are made with spherical segments, which in the assembled position form a spherical outer surface of the extreme permanent magnets 2 and 3 / cm. FIG. 3 /. Medium Permanent Magnet 4 / cm. FIG. 4 / is made to rotate around a common longitudinal vertical axis and is located with a gap relative to the extreme permanent magnets 2 and 3 and is a spherical hollow body with segments cut off by parallel planes above and below and equidistant from the center of the middle permanent magnet 4.

 Around the middle permanent magnet 4 with equal clearance, a spherical hollow current collector with cut-off segments with parallel cutting planes and an average spherical permanent magnet 4 are coaxially located.

 The housing 1 of the magnetic system is made composite / see FIG. 5 / and includes two cylinders 12 and 13 with a cavity and grooves, in which the extreme permanent magnets 2 and 3 are installed and fixedly fixed with bushings 14 and 15, covering cylinders 12 and 13 with a cavity and grooves by an annular threaded connection from the outside.

 The middle permanent magnet 4 is covered with a gap by a spherical hollow current collector 5 with cut off segments and a coil, a central sleeve 16 with a fitting 6 for evacuating the cavity of the housing 1 and a ring 17, the central sleeve 16 being movably mounted in the bushings 14 and 15. A holding device is mounted in the sleeve 16. 18, for fixing / holding / middle permanent magnet 4 through the movable pin-socket system in a certain position and releases it during rotation.

 The magnetic system operates as follows.

 The rotational magnetic moment of the middle magnet 4 occurs due to the geometric shape of the extreme and middle permanent magnets and their location coaxially.

 The middle permanent magnet is rotatably mounted about a vertical axis.

 The mobility of the middle permanent magnet 4 is due to the influence of the magnetic forces of the extreme magnets 2 and 3 and their geometric shape and is limited by the holding device 18. The coaxial arrangement of all three magnets 2, 3, 4 creates a unified magnetic gravitational vortex axis between them, converting the magnetic forces into a constant rotational the movement of the middle magnet 4. The torque of the middle magnet 4 is used to produce electrical energy.

 The rotation of the middle magnet during the orderly movement of its fields creates a magnetic flux, the so-called "pole flux", which induces magnetic induction in the coil of the current collector. The created magnetic flux of poles during rotation of the middle magnet creates such electromagnetic induction in the coil of the current collector, which will allow the removal of electric current without an armature.

Claims (2)

 1. A magnetic system comprising composite permanent magnets, forming an assembly system with a gap between the individual permanent magnets located coaxially, characterized in that it is located in a sealed non-magnetic housing with a vacuum and a discharge fitting and contains a holding device, two extreme permanent magnets, fixed motionless relative to the non-magnetic case, made in the form of spherical composite permanent magnets with equatorial equalizers and consisting of a central magnetic eraser and telescopically entering each other permanent magnets in the form of bushings, the ends of which are made with spherical segments, forming in the assembled position a spherical outer surface of the extreme permanent magnets of the system, the middle permanent magnet being made to rotate around a common longitudinal axis, located with a gap relative to the extreme magnets and represents a spherical hollow body with cut off segments parallel planes above and below and equidistant from the center of the middle position Nogo magnet, wherein the permanent magnet around an average with equal gap located coaxially with the spherical hollow susceptor severed segments parallel planes.  2. The system according to claim 1, characterized in that the holding device is made in the form of movable pins located along the diameter of the middle permanent magnet.

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