GB2548608A

GB2548608A - Monopole magnetic flux apparatus

Info

Publication number: GB2548608A
Application number: GB1604963.7A
Authority: GB
Inventors: Reza Khodabakhsh Mohammed
Original assignee: Rumi Ip LLC
Current assignee: Rumi Ip LLC
Priority date: 2016-03-23
Filing date: 2016-03-23
Publication date: 2017-09-27
Also published as: GB201604963D0

Abstract

A three dimensional structure may be created using having one surface as single magnetic pole. The structure may have a plurality of magnets positioned so that common poles face inward toward each other and that the opposing poles face outwards. The structure may be a geodesic form 1 and may have a metallic core. The structure may have a series of pyramid shapes 2 made of metal on the outer surface. Bipolar magnets (2, Fig 7) may be connected so that like poles are in contact. A band (1, Fig 7) may be wrapped around the magnets to create a monopolar magnetic flux apparatus.

Description

Monopole Magnetic Flux Apparatus

BACKGROUND

Many devices in the world require the use of magnets. The only type of magnets currently available are bi-polar (having both a North and South pole). The nature of all bipolar magnets is to create a flux from one pole to the other. In devices where the magnetic flux and field needs to be suppressed due to the negative effects or naturally occurring drawbacks of their use. An example of this need is seen in a permanent magnet alternator where the use of bipolar magnets places an unwanted load on the rotor because of the naturally occurring magnetic bipolar field characteristics; reducing the efficiency of and increasing the wear and tear on the alternator. Another need is in the area chemistry including the efficient separation of molecules. Other needs arise in power generation as well as applications in transportation.

STATEMENT OF INVENTION

Using magnets of any shape or kind, a three dimensional shape can be constructed with the magnets being exposed with the same polarity, either North pole or South pole. We have produced a Monopole Magnet Flux using this faqade and have achieved a monopole magnetic flux and an anti-monopole magnetic flux producing apparatus.

ADVANTAGES

An example is seen in a permanent magnet alternator where the use of this apparatus will reduce the torque to the rotor because of the monopolar field characteristic; thereby increasing the efficiency and reducing the wear and tear on the alternator. Another use could be for the separation of molecules such as in the manner of attracting opposite charge molecules. Anyone familiar with the art will recognize and understand the potential of having and using a monopole magnet that only projects a single flux, either North or South. This will revolutionize all industries using magnetic flux or trying to block magnetic flux. These types of magnets do not currently exist. In electronic devices a lot of effort is spent to reduce or block magnetic field all due to bipolar magnetic field characteristics.

DESCRIPTION OF DRAWINGS

Figure 1 shows a geodesic apparatus with a solid metallic core in the process of transforming into a monopole magnetic flux apparatus.

Figure 2 shows a multifaceted polygon shaped solid apparatus.

Figure 3 shows a cubic shaped apparatus with a solid metallic core transformed into a monopole magnetic flux apparatus.

Figure 4 shows a solid cube transformed into a monopole magnetic flux apparatus.

Figure 5 shows two magnets with a gap facing one another with similar poles.

Figure 6 shows two magnets attached together with similar poles facing one another.

Figure 7 shows a metallic band with a magnet attached to it

DETAILED DESCRIPTION

This invention should not be mistaken with a monopole magnet. This invention only produces a monopole and anti-monopole magnetic flux.

One of the most basic properties of magnetism is that a magnet always has two poles, north and south, which cannot be separated into isolated poles, i.e. magnetic monopoles. There are strong theoretical arguments why magnetic monopoles should exist, but in spite of extensive searches they have never been found. This invention provides the mechanisms for experimental uses of magnetic monopoles and therefore aids in our understanding of fundamental physics as well as current known practical applications for the use of such an apparatus.

According to various embodiments of the invention, methods and skills are provided for the creation of a monopole magnet flux. I have found a way to create a monopole magnetic flux by using the following methods. Multiple apparatus were made; one was made using adhesives; one was made using rivets; one was made using fasteners; and one was fused. Each apparatus was made with either North sides facing in or South sides facing in. In one particular case, the apparatus was made using square magnets with beveled edges allowing a practically seamless apparatus.

The goal of one experiment (Figure 1) was to create an 8 inch geodesic shape (1) with one polarity on the exterior. The first step was to produce a solid iron core approximately 4 inches in diameter. The second step was to produce pyramidal shapes (2) of metal which would cover the entire external surface area. The tips of these were shortened and flattened to match the flat surfaces formed on the iron core. A frame was produced which would set the pieces in place from the outside of the magnets. The pyramidal pieces were and were then magnetized and assembled to complete the geodesic shape with the South polarity facing the entire outer surface of the apparatus.

In another case (Figure 4) each magnet (2) had its South pole placed towards the cube (1) ending with the North face exposed on all sides of the cube (3). The next step was to use a material for plating the apparatus. Once the plating was completed, the cube became virtually solid with no signs of any joints. This has been bench tested in the laboratory using a multitude of devices and practices to determine the flux projection of the apparatus. During all of the various tests zero measurable leakage of the opposing flux was detected.

In another case (Figure 5) using a set of identical magnets of any shape or any kind placed apart from each other with the opposing poles facing each other and with a minimum gap of 1 millimeter and maximum gap dependent on the application requirements with no limit restriction. A band (Figure 7) (1), consisting of a metallic material with a bipolar magnet (2) attached to it is designed to be wrapped around the two magnets forming one complete unit which is then plated to form one complete monopolar magnetic flux apparatus.

In another case (Figure 6) using a set of identical magnets of any shape or any kind placed onto one another secured as mentioned in prior examples to each other with the opposing poles facing each other. A band (Figure 7) (1), consisting of a metallic material with a bipolar magnet (2) attached to it is designed to be wrapped around the two magnets forming one complete unit which is then plated to form one complete monopolar magnetic flux apparatus.

In order to increase the versatility of the apparatus the device can be modularized by positioning one magnet of opposing polarity on each three dimensional apparatus on its exterior.

This apparatus will revolutionize any industry using magnets. For example, generators, alternators, electric motors, AC or DC, CT scans, MRI’s (but not limited to these obvious uses) or trying to block magnetic flux. I have used several differ shapes of bipolar magnets joining them together at the same pole to form a mono-pole magnet flux in a permanent magnet alternator.

Claims

1. Using magnets of any shape or kind, a three dimensional shape can be constructed with the magnets being exposed with the same polarity, either North pole or South pole. We have produced a Monopole Magnet Flux using this facade and have achieved a monopole magnetic flux and an anti-monopole magnetic flux producing apparatus.

2. According to claim 1, a globe shaped magnet (Figure2) will be produced using a set of identical polygon shaped magnets so as to be placed in a pattern much like a soccer-ball is sewn together with individual patches of geometric shapes.

3. According to Claim 2, magnets will be set directly next to each other with the gaps being either covered or eliminated through machining so as to cover said shape. Each magnet will have the same polarity on the exterior (for example S) and each magnet will have the same polarity on the interior (for example N).

4. According to Claim 3, pieces will be fused together using one of several processes and either plated with a metallic material (for example nickel, copper, gold, silver or aluminum or any of the other the known metallic materials) with the end effect being a single field on the exterior (for example S in this embodiment).

5. According to one of the preceding claims, a globe shaped magnet (Figure 1) will be produced using a set of identical polygon shaped magnets so as to be placed in a pattern much like a soccer-ball is sewn together with individual patches of geometric shapes.

6. According to Claim 5, polygon shaped magnets will extend all the way to the iron core (or to the center) creating a single solid globe shaped object. Each magnet will be set directly next to each other with the gaps being either covered or eliminated through machining so as to cover said shape.

7. According to Claim 5, magnets will have the same polarity on the exterior (for example S) and each magnet will have the same polarity on the interior (for example N). These pieces will be fused together using one of several processes and either plated with a metallic material (for example nickel, copper, gold, silver or aluminum or any of the other the known metallic materials) with the end effect being a single field on the exterior (for example S in this embodiment).

8. According to one of the preceding claims, using a set of identical magnets of any shape or any kind placed apart from each other (Figure 5) with the opposing poles facing each other and with a minimum gap of 1 millimeter and maximum gap dependent on the application requirements with no limit restriction.

9. According to one of the preceding claims, using a set of identical magnets of any shape or any kind will placed against each other (Figure 6) with the opposing poles facing each other and with no limit restriction.

10. According to one of the preceding claims, magnets are placed together to create a three dimensional shape, for example, geodesic, cubic, cylindrical, pyramid and so on.

11. According to one of the preceding claims a 6 sided cube shape produced with 5 N face and 1 S face.

12. According to one of the preceding claims a 4 faced pyramid shaped produced with 3 N face and 1 S face.

13. According to one of the preceding claims a 5 faced pyramid shaped produced with 4 N face and 1 S face.

14. According to one of the preceding claims any shaped three dimensional object produced with all but one N face and 1 S face.

15. According to one of the preceding claims, all the magnets described above could have a through hole that would allow one to use magnetic or non-magnetic fasteners or rivets to secure these magnets in place, with or without any kind of adhesive. None of these shapes will limit the invention and either solid supporting structure, hollow, soft or semi-solid supporting structure could be used.