Title of Invention	SELF PROPELED PERMANENT MAGNET ROTARY DYNAMO MACHINE
Abstract	This Invention relates to self propeled permanent magnet rotary Dynamo Machine. In which relative rotation occurs between two pole of magnet, one permanent magnet (10) and an other permanent magnet (11). The two same poles cause repulsion with in between 180° and 90°. Therefore permanent magnet rotor (11) is rotated.

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The following specification particularly describes and ascertains the nature of this Invention and the manner in which it is to be performed: FIELD OF INVENTtON: This invention relates to self propeled permanent magnet rotary dynamo machine of the type in which relative rotation occurs between a fixed permanent magnetic pole (10) and a permanent magnetic rotary pole. These two poles being the same repulse with each other and will result in rotational movement of cylindrical rotor Therefore the rotary permanent magnet will rotate continuously. PRIOR ART In the prior out rotational movement of such cylinder is caused by electrical power or any other source of energy. OBJECT OF INVENTION It is an object of this invention to provide an improved self propeled permanent magnet rotary dynamo machine and which will be cost effective as well as efficient in performance. Accordingly to his invention provides self propeled permanent magnet rotary dynamo machine having at least one generally a fixed solid cylindrical stator and at least one solid cylindrical rotor Rotatable about an axis and having a solid cylindrical surface facing said generally solid cylindrical stator and spaced apart, therefore said stator having a out side pole on or out a substrate of the stator the permanent magnetic poles being closely spaced out side the solid cylindrical circumference of the rotor surface said out side pole being position on that surface of the stator which faces said rotor so that the to poles are adiacent said solid cylindrical gap. Preferably there are relatively two numbers of poles on both the rotor and the stator of a rotor / stator pair so as to create a correspondingly short magnetic repulsion path between adjacent permanent magnetic poles. In most cases a single rotor stator pair will be sufficient. However this invention can be applied to multiple stators with single rotor. In this magnetic repulsion there may be any metal which will be capable of being magnetized. Preferably the solid cylindrical poles are provided or closed to the outer solid cylindrical surface of a stator and a rotor that the permanent magnetic poles were provided on the outer surface of surrounding solid cylindrical surface of a stator and a rotor that the permanent magnetic poles were provided on the outer surface of surrounding solid cylindrical shaped rotor. Brief description of the accompanying drawing Fig. 1. Illustrates the shape of main structure of the machine. Fig. 2. Illustrates a portion of the machine where in round shaped soft Iron plate is fitted with round rod. Fig. 3. Illustrates a cylindrical shaped permanent magnet body having a hole at centre. Fig. 4. a. Illustrates the permanent magnet of rectangular shape. Fig. 4. b. Illustrate the cover of the permanent magnet of rectangular shape. Fig. 5. a. Illustrate solenoid electro magnet. Fig. 5. b. Illustrate the cover of the solenoid electro magnet. Fig. 6. Illustrates the arrangement of rectangular magnets around the cylindrical magnet. Brief description of the accompanying drawing Other aspects of this invention will be described which is given by way of example only with reference to the accompanying drawings in which : A mechanical support for the permanent magnet against the high repulsion force encountered when the rotor is running at high r. p. m. Detailed description of the preferred embodiment of invention Fig. 1. Shows the shape of the main structure of the machine. It is like flattened spherical shape. There are three rectangular holes A, B, C, at the thick portion of machine. The body of he machine is made of non magnetic fibre so that it will not be attracted or repulsed by the magnet and no electricity can flow through it. The part of the machine as illustrated in Fig. 4 will be housed in the holes A, B, C, up to centre 'O' in such a way that the layer portion of the parts can be visible through 'O'. The cover illustrated in the Fig. 4b (BCJI) having about one mm thick can not be visible but through IJDE the layer portion of Fig 4(a) can be visible. The end portions of the holes A, B, C, are comparatively thinner than the upper portion. The soft iron cover shown in fig 4, b lie on the same plane of 'O' shaped hole explained in A, B, C, of Fig. 1. All the magnets are arranged with their identical poles. Fig. No. 2. : The portion of the machine MN in Fig. 2 is a spherical rod which is sealed with round shaped soft iron path of E. The rod MN is made of such matehal such hat it is no9t attracted or repulsed by the magnet and it is covered up with an insulate material. Fig. 3. in Fig. 3 is an uniform round shaped permanent magnet FG. There exists a hole H at the centre where rod MN as shown in Fig. 2 is fitted. It will be fitted in such a way that there is no gap between he plane E and F and they lie in the same plane. For this arrangement, the magnetic lines of force changes its direction and coming out perpendicularly along the length of magnet i.e. line of force are deviated through 90°. Fig. 4. The parts in Fig., 4.a. is permanent magnet of rectangular parallelepiped, whose breath and length are different. The portion PRW is comparatively thicker than the portion KUVQ. Similarly the part in Fig. 4. b is made of soft iron, whose length, breath and height are also different. The portion APG is thicker than the portion BCDE. Actually the part of shown in Fig. 4. b is a cover of the parts of Fig. A. The portion AFG is hollow and slight portion of the section BCDE is cover with the soft iron of section BCJI. The section KUVQ is entered through the hollow portion of AFG and it will touch with the section BCJI so that then will be no air gap. The plane of BCJI of Fig. 4. a lie the same plane of KUVQ. The permanent magnet in Fig. 4, will be rotated due to he repulsive force existed by the section KUVQ. The side KU is wrapped with the soft iron sheet of BCJI so that it will not create any disturbance in the portion of the magnet. The side IJ is wrapped with two folded soft iron sheet which is extended up to A. The four plane can be formed by double folding a sheet shown in Fig. 4. b. The side of the plane is extended upto AFG. The FE side is formed by joining to ends of double fold sheet. Fig. No. 5 : the portion fig. 5. a of Fig. 5 is electro magnet. It is also rectangular parallelepiped, which is covered with solenoid. The length, breadth and height are also different. The portion ABE is thicker than the portion CFGD for tapping. It is also soft iron. The section 5. b is a cover of the section 5. a. It is also soft iron. The upper portion of HIL and the lower portion of JMNK are completely empty and the remaining four plane are cover. The section CFGD is fixed through the section HIL in such a way that the plane CFGD and JMNK lie in the plane i.e. the part in Fig. 5. a is placed with in the part in Fig. 5 b like solenoid. The four plane in Fig. 5. b can be formed by double folding a sheet. The side of the plane is JLNK and the free end is extended upto HIL. IL is the joined end of IK. Fig. No. 6 ; In this section all the parts of the machine are arranged. In which A. B. C. of Fig. 1 is the A, B, C, of Fig. 6 and Fig. 3 lie in the same. Plane E of Fig. 2 these two portion of 1 and 3 is entered through the hole E of 6. So the end M of the rod MN is on the out side of the Machine and side E is inside the machine and they will move easily. The magnet of Fig. 4 are arranged along the half length of the magnet of 3 through slight gap for roation. The rectangular parallelepiped magnets of Fig. 4 are arranged one by one by one at an angle of 45° from the centre of the hole E. The distance between the round shaped magnet and the rectangular parallelepiped magnet Is about 2 mm and distance between any two rectangular magnet is about 1 mm. The wrapped portion of the rectangular magnet with soft iron is near the round shaped magnet. The remaining portion of the plane is far away from the round shaped magnet of Fig. 3. For which the plane KU is at an angle of 90° with the centre of hole E. and the plane KU is extended upto mid point L of NP. The cooling portion of electro magnet will be fitted on the upper portion of Fig. 4 such that the plane IMNK and the plane AFG lie in the same plane. The shape of machine has shown in Fig. 6 in which a spherical shaped permanent magnet is placed given in Fig. 3. A sot iron cover is placed on the south pole of the magnet. The lie of force facing toward south is coming out perpendicularly from the spherical surface of the magnet. The rectangular permanent magnet has shown in Fig. 4 in which the south pole is plane. The one end of the magnet is covered with soft iron case which neutralizes the repulsive force and ultimately the line of he force will proceed towards south. This magnet is permanently forced in the main part of the machine. Let the effective area of spherical magnet be A1 and that of rectangular magnet be A2. The pole strength of the magnet are m1& m2 respectively. So the strength of pole be A1m1 and A2m2. The plane edge of the rectangular magnet is situated perpendicularly from the centre of the plane portion of the spherical magnet. Since the same pole of the magnet has taken so the repulsive force will act and due to this force the spherical magnet will start rotation. Therefore the effective repulsive force Where n = no of rectangular magnet K = primitivily of the medium r = distance between the magnet The rotation is due to the repulsive force so no external force is required. ADVANTAGES OF PREFERRED MACHINES OF THIS INVENTION : 1. To maintain the self propeled permanent magnet rotary dynamo machine no need or the fuel coal, water, oil, solar energy and automatic energy, electric power. 2. This invention self propeled permanent magnetic rotary dynamo machine, when it start need not from out side power (electricity). 3. This invention will be free from air pollution. 4. This invention will be free from sound pollution. 5. This invention also will be free from Ozone Plane. i Claim : 1. A self propelled permanent magnet rotary dynamo machine comprising at least one solid cylindrical permanent magnet, which acts a rotor, having requisite magnetic strength capable of rotating about an axis. A plurality of rectangular shaped permanent magnets that act as stator, facing the same pole of rotor, said magnets are arranged radially with respect to each other, and which are proceeded around the said cylindrical rotor separated by a gap at least one millimeter in such a manner that a repulsive force between the said rotor and stator acts to cause the said rotor to rotate about its axis; Wherein at least one soft iron cover is placed on the south pole of the cylindrical rotor and another at least one cover is provided to cover a portion of four sides of the rectangular magnets not facing the cylindrical rotor; A plurality of switches are provided for putting the said machine on or off. And wherein said magnet arrangement forms angle between 180 degrees and 90 degrees with respect to the said cylindrical rotor during its rotation; 2. A self-propelled permanent magnet rotary dynamo machine as claimed in claim 1, wherein at least more than one rectangular shaped permanent magnet is provided. 3. A self propelled permanent magnet rotary dynamo machine comprising at least one solid cylindrical permanent magnet, which acts a rotor, having requisite magnetic strength capable of rotating about an axis. A plurality of rectangular shaped permanent magnets that act as stator, facing the same pole of rotor, said magnets are arranged radially (1) with respect to each other, and which are proceeded around the said cylindrical rotor separated by a gap at least one millimeter in such a manner that a repulsive force between the said rotor and stator acts to cause the said rotor to rotate about its axis; Wherein at least one soft iron cover is placed on the south pole of the cylindrical rotor and another at least one cover is provided to cover a portion of four sides of the rectangular magnets not facing the cylindrical rotor; A plurality of switches is provided for putting the said machine on or off. Where is an auxiliary solenoid magnet is provided for increasing the strength of the stator. And wherein said magnet arrangement forms angle between 180 degrees and 90 degrees with respect to the said cylindrical rotor during its rotation; 4. A self-propelled permanent magnet rotary dynamo machine as herein described with reference to the accompanying drawings. This Invention relates to self propeled permanent magnet rotary Dynamo Machine. In which relative rotation occurs between two pole of magnet, one permanent magnet (10) and an other permanent magnet (11). The two same poles cause repulsion with in between 180° and 90°. Therefore permanent magnet rotor (11) is rotated.

Documents:

33-kol-2005-abstract-1.0.pdf

33-kol-2005-abstract_1.1.pdf

33-kol-2005-claims.pdf

33-KOL-2005-CORRESPONDENCE.pdf

33-kol-2005-description (complete).pdf

33-kol-2005-drawings.pdf

33-kol-2005-examination report.pdf

33-kol-2005-form 1.pdf

33-kol-2005-form 18.pdf

33-kol-2005-form 2.pdf

33-kol-2005-reply to examination report.pdf

33-kol-2005-specification.pdf