WO2020022987A2 - A system producing a circular movement with magnetic impact area - Google Patents

Abstract

The present invention relates to a system producing a circular movement with magnetic impact area that, can be used to produce clean energy; at least one station (I) formed from the first movement block (1) and the second movement block (2) contacting each other, at least one main shaft (3) moving in stations (1), on the main shaft (3) The bar magnets (5), positioned at equal intervals and at different angles, are composed of movable parts (6) associated with the main shaft (3) and movement magnets (4) positioned around the rod magnets (5) to form a magnetic field such that they make a sliding motion.

Description

A SYSTEM PRODUCING A CIRCULAR MOVEMENT WITH MAGNETIC

IMPACT AREA

Technological Field:

The present invention relates to a system producing a circular movement with magnetic impact area, that can be used in the production of clean energy.

Known State of the Technology:

The increases in population and welfare level in the world have intensified energy consumption. The world population, which has increased more than double since 1950, is expected to increase by 40% by 2050. This data inevitably makes a solution to the energy problem. To meet the increasing demand for energy; in doing so, it is possible to use economic, environmental and socially sensitive methods including the fight against greenhouse gas emissions. Various studies are carried out to enable people in the world to use their energy resources more sensitively. In this respect, R & D and innovation studies are focused on. For these to happen, the transition processes to renewable energy sources are accelerated.

Due to the rapid depletion of oil resources, in order to prevent transportation problems in the future, the electricity-driven car project remains important for projects in the sector all over the world. Forecasts predicts of electrically driven cars in 2020 would be 10% of all vehicles. Even this data makes the transformation and change in energy systems inevitable. Many projects such as generating electricity from solar energy, generating electricity from wind turbines, generating electricity from wave energy and producing fresh water from sea water further increase the importance of energy systems. All these innovations and developments are also supported by states. R & D studies on renewable energy are ongoing. New electrical energy generation methods are developed and some of them are implemented. The consumption of electric energy increases with increasing human population. However, it is thought that the production of electrical energy will not be enough for human beings. For this, the transformation of energy is of great importance. In order to do this, it is necessary to produce electrical energy from inert mechanical movements. With these energy transformations, it is possible to save energy. Technological developments show that the transition from fossil-fueled energy sources to electrical energy sources will increase rapidly and electrical energy will be more important in the future. Nowadays, the need for an alternative source of energy production is becoming increasingly important. Especially fuel-free systems attract attention and are of great importance for the design of the future.

The “Magnetic (Magnet) Energy Generator” is described in the utility model TR201801788. The present invention is an energy generator designed to generate electrical energy from the magnetic material at a continuous, infinite and zero cost. When the engine reaches 1500 rpm, the energy supplied by the solar energy or the electricity is cut off and the generator is able to generate endless energy. The generator is transformed from potential energy into kinetic energy when it is running, and it is related to the magnetic (magnet) energy generator that generates electricity from magnets.

In patent application no. TR201300425,“Some kind of power generation system” is described. An electrical generation system for generating electricity from a power source, wherein a shaft is rotatable coupled to said shaft, wherein at least one main turbine having position, number, shape-adjustable blades, pressurizing the fluid from a power source and intermediate elements at least one turbine with magnet-pole wings rotating in the main turbine by rotating on the same shaft as the main turbine, which is connected to the main turbine by means of a pressure booster pump on the main turbine, which is capable of rotating the torque on the main turbine, is produced during the rotation of electricity is generated. In the above mentioned useful model / patent applications, the mechanisms acting by the force generated by the magnetic field are mentioned. The products described require a power supply to start the movement according to the structure and design it has. These products are also disadvantageous in terms of cost.

In the patent application TR201810876 of the inventor, a "magnetic movement unit" is described. The magnets on the basis of the invention are magnets on a magnet on the aluminum frame and a magnet in the middle of this array with magnets that are crimped in the shape of these magnets with small magnets that open in front of each end of these magnets with V-shaped magnets opening to the rear. The motion energy is formed by the rotation of the spindle with the effect of magnetic field.

The inventor needed improvement in his patent application described above.

As a result, with a unique design that can overcome the aforementioned disadvantages, it is practical to use, without any need for any power source, it can produce movement with a magnetic field force, provides a clean, environment-friendly energy, and does not require frequent maintenance is needed.

Definition of the Invention:

The present invention is a system producing a circular movement with magnetic impact area which can overcome the aforementioned disadvantages; It is a new technology with a unique design, practical to use, without any need for any power source, with a magnetic field force, providing an environmentally friendly, clean energy, with no maintenance, long life, durability and low cost.

The product of the present invention is in a unique design with its structure. The product of the invention is practical with its structure and design. It can produce movement without the need for any power supply and this feature has a high efficiency. The product according to the invention is based on the structure and design with the effect of magnetic field strength. The design of the present invention is in an environmentally friendly manner. The product according to the invention provides a clean energy production with its structure and design. The product according to the invention does not require frequent maintenance with its structure and design. With this feature, maintenance costs are low. The product according to the invention has a long service life with its structure and design. It has a strong structure with its design. It has low cost with its structure and design.

Because of the easy fixing of the components forming the invention, it is easy to install and the costs are low due to the short installation time. The invention also has a robust structure.

Description of Drawings:

The invention will now be described with reference to the accompanying drawings, whereby the features of the invention will become more apparent and appreciated, but this is not intended to limit the invention to these particular embodiments. On the contrary, it is intended to encompass all alternatives, modifications and equivalents which may be included in the scope of the invention as defined by the appended claims. It should be understood that the details shown are presented solely for the purpose of illustrating preferred embodiments of the present invention and for providing both the shaping of the methods and the most useful and easy-to-understand description of the rules and conceptual features of the invention. In these drawings;

Figure 1 is a perspective view of the system.

Figure 2 is a sectional view of the system.

Figure 3 is a perspective view of the first movement block.

Figure 4 is a perspective view of the second movement block.

Figure 5 is a perspective view of the main shaft and the movable part.

Figure 6 is a view of the view of A.

Figure 7 is a rear view of the main shaft and the moving part

Figure 8 is a perspective view of a moving magnet

Figure 9 is a front view of the drive magnet. Figure 10 is a front view of the magnet and the magnet.

Figure 11 is a perspective view of the moving part.

Figures to assist in the understanding of the present invention are numbered as indicated in the accompanying drawing and are given below with their names.

Description of the References:

1. First movement block

1.1. The first movement path

2. Second movement block

2.1. Second movement path

3. Main shaft

3.1. Registration

3.2. Motion output shaft

4. Motion magnet

5. Bar magnet

6. Movable parts

6.1. Handle

6.2. Roller

I. Station

Description of the Invention:

Invention; at least one station (I) formed from the first movement block (1) and the second movement block (2) contacting each other, at least one main shaft (3) moving in stations (I), on the main shaft (3) The bar magnets (5), positioned at equal angles and at different angles, consist of the movable parts (6) associated with the main shaft (3) and the motion magnets (4) positioned around the bar magnets (5) so as to create a sliding motion (Figure-l, Figure-2, Figure-lO). The product according to the invention has a first movement block (1) which comprises a first movement path (1.1) which has a curved (rolling) structure. The product of the present invention is provided with a second movement block (2) comprising a second movement path (2.1) which has a curved (rolling-out) structure. The product according to the invention consists of the main shaft (3) comprising the registration part (3.1) associated with the movable part (6). The product of the present invention has a main shaft (3) which includes the motion output shaft (3.2) which provides the transmission of the obtained movement (Figure-l, Figure-3, Figure-4, Figure-5, Figure-6).

The product according to the invention has a movable part (6) which includes the movement handle (6.1). The product according to the invention consists of the movable part (6) which comprises the handle (6.1) in which the rollers (6.2) are moved on the first movement path (1.1) and the second movement path (2.1). The product according to the invention has the movable part (6) comprising the linear bearing associated with the registration portion (3.1) (Figure-l, Figure-3, Figure-4, Figure-6, Figure-l 1).

The product according to the invention has a main shaft (3) which is rotatable clockwise or counterclockwise with respect to the position of the N and S poles on the movement magnet (4). The product according to the invention consists of the motion magnet (4) which causes the main shaft (3) to rotate 360 degrees by pushing the bar magnet (5) with the effect of the magnetic field it generates (Figure-l, Figure-8, Figure-9). The invention has a first movement path (1) and a second movement path (2), preferably made of aluminum.

The invention is positioned side by side of the same poles so that all of the poles of the poles are within the N poles or the poles of the outer poles are all N. Side-by-side positioning of the same poles is formed in the motion magnet (4) until the end of the hook. Detailed Description of the Invention:

The components of the invention are basically; the first movement block (1), the second movement block (2), the main shaft (3), the motion magnet (4) and the bar magnet (5) (Figure-l, Figure-2, Figure-lO).

The first movement block (1) is present in the product according to the invention. The first movement block (1) comprises the first movement path (1.1). The second movement block (2) is provided in the product according to the invention. The second movement block (2) comprises the second movement path (2.1) (Figure-3, Figure-4). The product according to the invention has a main shaft (3). The main shaft (3); the registration portion (3.1) and the movement output shaft (3.2). The product according to the invention has a motion magnet (4) and a bar magnet (5). The product according to the invention has a moving part (6). Moving part (6); it includes the lever (6.1) and the bearing (6.2) (Figure-l, Figure-6, Figure-7, Figure-l 1).

In the product of the present invention, the first movement block (1) and the second movement block (2); the first movement path (1.1) and the second movement path (2.1) are fixed together. The first movement block (1) and the second movement block (2) form the station (I) (Figure-l, Figure-3, Figure-4). In the product according to the invention, the registration portion (3.1) is positioned on the side surfaces of the main shaft (3). At the far end of the main shaft (3), the movement output shaft (3.2) is positioned. In the recording portions 3.1, the movable parts (6) are associated with the linear bearings. At least one movable handle (6.1) is positioned in the product according to the invention, corresponding to the edge portions of the movable part (6). Rollers (6.2) are associated to the ends of the motion arms (6.1) (Figure-l, Figure-6, Figure-l 1).

Rod magnets (5) are positioned so that they are evenly spaced on the main shaft (3). The motion magnet (4), which is shaped like a half moon, is positioned around the bar magnet (5). In the product according to the invention, the main shaft (3) moves clockwise or counterclockwise as the poles of the motion magnet (4) are facing inside or outside. The main shaft (3); and the first movement path (1.1) and the second movement path (2.1) with the movable part (6). The bar magnets (5) in the product of the present invention are positioned on the main shaft (3) to make 30 degrees with the previous bar magnet (5) (Figure-l, Figure-2, Figure-3, Figure-4). The study of the invention is as follows; The bar magnets (5) are pushed by the magnetic field formed by the movable magnet (4). The main shaft (3), which is fixed by pushing the bar magnets (5), rotates. Bearings (6.2) while rotating the main shaft (3); the first movement path (1.1) and the second movement path (2.1). At the same time, the movable part (6) moves linearly on the main shaft (3) with the recording-slide system. The movement of the main shaft (3) by its rotation about its own axis; the movement is transferred from the motion output shaft (3.2) (Figure-l, Figure-2, Figure- 6).

Claims

CLAIMS l-The invention relates to a system producing a circular movement with magnetic impact area;

at least one station (I) formed from the first movement block (1) and the second movement block (2) that touch each other,

- at least one main shaft (3) acting in the stations (I),

- bar magnets (5) positioned at equal angles and at different angles on the main shaft (3),

- the movable part (6) associated with the main shaft (3) and

- the motion magnets (4) positioned around the bar magnets (5) so as to form a magnetic field.

2-The station (I) according to claim 1, characterized in that; it has a first movement block (1) comprising a first movement path (1.1) which has a curved (rolling-out) structure.

3 -The station (I) as recited in claim 1, characterized in that; it has a second movement block (2) comprising a second movement path (2.1) which has a curved (rolling-out) structure.

4-A system producing a circular movement with magnetic impact area as claimed in claim 1, characterized in that; the movable part (6) has the main shaft (3) comprising the associated recording portion (3.1).

5-A system producing a circular movement with magnetic impact area as claimed in claim 1, characterized in that; it has the main shaft (3) comprising the movement output shaft (3.2) which ensures the transmission of the resulting movement. 6-A system producing a circular movement with magnetic impact area as claimed in claim 1, characterized in that; it has a movable member (6) comprising the movement lever (6.1).

7- A system producing a circular movement with magnetic impact area as claimed in claim 1, characterized in that; it has a movable part (6) which comprises movement handle (6.1) where the rollers(6.2) are fixed on the first movement path (1.1) and the second movement path (2.1).

8-A system producing a circular movement with magnetic impact area as claimed in claim 1, characterized in that; it has a movable part (6) having a linear bearing associated with the registration portion (3.1).

9-A system producing a circular movement with magnetic impact area as claimed in claim 1, characterized in that; the N and S poles on the driving magnet (4) have a main shaft (3) which is rotatable in a clockwise or counterclockwise direction according to the position of the poles.

10- A system producing a circular movement with magnetic impact area as claimed in claim 1 or claim 9, characterized in that; the poles are all of the outer poles are in the S poles, or the outer poles are all of the poles in the inner poles, all of them being N, so that the same poles are positioned side by side.

11- A system producing a circular movement with magnetic impact area as claimed in claim 1 or claim 9 or claim 10, characterized in that it comprises: it is the side-by-side positioning of the same poles is formed in the motion magnet (4) so that the hooks continue until the end.

12- A system producing a circular movement with magnetic impact area as claimed in claim 1, characterized in that; it is having a magnet (4) which rotates the rod (5) by rotating the bar magnet (5) and rotates 360 degrees of the main shaft (3). 13- A system producing a circular movement with magnetic impact area as claimed in claim 1, characterized in that it has a first movement block (1) and a second movement block (2) which are preferably made of aluminum.