KR200290285Y1 - Magnetogravity Hulahoop - Google Patents

Abstract

The present invention has a fixed shaft formed of the first pole of the magnet half and the second half of the magnet; It has a diameter larger than this fixed shaft, the first pole of the magnet is formed in the circular center direction, the outer side comprises a rotating body in the form of a ring formed with the second pole of the magnet.

The fixed shaft is formed in the inner portion of the donut-shaped ring which is empty inside, and the donut-shaped ring preferably has a vacuum inside, when the axis of the fixed shaft magnet is installed at an angle of about 45 degrees with respect to the direction of the gravity field, that is, When installed at an angle of 45 degrees from the vertical, the size of the combined attraction force in the direction of the gravity field of the magnet formed on the rotating body and the magnet formed on the fixed shaft is smaller than the gravity weight of the rotating body. A magnet may be formed at four places so that the inner side of the donut outside becomes the second pole, and the repelling force is applied to the rotating body to make the rotation better.

Description

Rotating mechanism using magnetic force and gravity {Magnetogravity Hulahoop}

The present invention relates to a rotating mechanism using magnetic force and gravity.

Conventional objects that can be called rotating mechanisms are made by bending iron bars or iron pipes in a circular shape, such as a hoop made by rolling by hand or V-shape, or a pinnacle for children's toys. It is possible to turn the marble inside by putting a marble in the barrel, or to play a ball game.

The present invention is to provide a rotating body (referred to as a rotating mechanism in the present application) that can be rotated for a long time by the force of magnetic force and gravity unlike a small force from the outside unlike the conventional rotating mechanism.

The rotating mechanism of the present invention comprises: a fixed shaft formed of a first pole of the magnet and half of the circumference of the magnet; It has a diameter larger than this fixed shaft, the first pole of the magnet is formed in the circular center direction, the outer side comprises a rotating body in the form of a ring formed with the second pole of the magnet.

The fixed shaft is formed in the inner portion of the donut-shaped ring which is empty inside, and the donut-shaped ring preferably has a vacuum inside, when the axis of the fixed shaft magnet is installed at an angle of about 45 degrees with respect to the direction of the gravity field, that is, When installed at an angle of 45 degrees from the vertical, the size of the combined attraction force in the direction of the gravity field of the magnet formed on the rotating body and the magnet formed on the fixed shaft is smaller than the gravity weight of the rotating body.

1 is a plan view of a rotating mechanism using magnetic force and gravity of the present invention.

2 is a side view of a rotating mechanism using magnetic force and gravity of the present invention.

3 and 4 is a cross-sectional view and a longitudinal cross-sectional view of the rotary mechanism using the magnetic force and gravity of the present invention.

1 and 2 schematically show the external appearance of the rotary mechanism of the present invention, the rotary mechanism 10 is in the form of a donut, in which a ring-shaped rotary body 14 is inserted.

3 and 4 show a cross section and a longitudinal section, the ring-shaped rotating body 14 has a first pole of magnet (for example, N pole) formed on the surface of the circular center side and the outer surface of the ring-shaped rotor 14. Two poles (for example, S poles of course) are formed.

The first half of the circumference (16-1) is formed at the center of the donut-shaped circle, and the first pole of the magnet is formed inside the donut, and the second pole of the magnet is formed outside the donut, and the other half (16-2) of the circumference is On the contrary, a magnet is formed, that is, a second pole of the magnet is formed inside the donut and a first pole of the magnet is formed outside. The remaining portion of the donuts, that is, the outer portion of the donuts 12 serves as a fence for spatially limiting the position of the rotating body, and seals the inside of the donut to make a vacuum. The magnets 17 are formed at about four places on the donut periphery 12 so that the inner side thereof becomes the second pole, so that the rotation can be made better by applying a repelling force to the rotating body. The donuts should be made of transparent plastic.

The rotating body is divided into sections in the circumferential direction so as to have various colors, which makes it clear when rotating or stationary.

The operation of the present invention configured as described above is as follows. When the donut is held by hand and rotates in the circumferential direction of the donut, the inner rotor rotates inside the donut because it is smaller than the outer diameter of the donut. It is as if the hoop is hooked and turned around, as the hoop circulates around the wrist around the wrist. If you set various colors on the rotating body, you will see various colors when you go back.

In addition, as shown in Figure 3 by holding the rotary mechanism of the present invention in the form of donuts by hand or placed on a fixed cradle to stand in the vertical direction, and the magnetic field direction of the fixed shaft is inclined about 45 degrees from the vertical, the donuts a little When rotated, the first pole (N pole) of the rotating body and the N pole of the fixed shaft are rejected and the S pole of the fixed shaft is sucked, so that the combined magnetic force Fm is lifted in the inclined direction by 45 degrees. Upwards, the gravity weight Fg of the rotating body is vertically downward so that the combined force Fsum of the two becomes a force from vertical to left or left. Actually, the inhalation force of the north pole and south pole tries to lift the rotor 45 degrees upward, and the gravity acting on the rotor moves the rotor vertically downward, so the combination of these two forces is directed to the left or right direction. Thus, when viewed from the center of gravity of the rotating body, a force is generated to rotate the rotating body clockwise or counterclockwise. That is, the rotation moment is generated.

So, when the donuts are slightly rotated for the first time, the inner rotor rotates a little by this force. Since the rotor is floating in the inner space, the energy of air friction is lost due to friction loss when the rotor rotates. Can be continuous rotation. If magnets are formed at about 4 places so that the inner side becomes the second pole on the outer side of the donut 12, when the rotating body vibrates or becomes eccentric, the force generated increases as the rotating body and the magnet get closer, so that the rotation becomes better. do.

If the inside of the donut is vacuumed, there is no air resistance, so the air friction loss is extremely low, so it can be rotated longer. This is because the N pole and the S pole of the fixed shaft are inclined at 45 degrees, and the gravity weight of the rotating body is larger than the magnetic force acting vertically. In other words, the gravity force acts so that the rotor does not win the weight and the rotor rotates downwards so that the N pole of the fixed shaft and the N pole of the rotor come into contact with each other, and the magnetic force is pulled against the N pole of the rotor and the S pole of the fixed shaft. Since the center of gravity is moved, it cannot be stabilized at any one point.

Rotating mechanism of the present invention of the structure as described above is enough to attract the attention of the person because it rotates for a long time if you start with a small force.

Claims (5)

A fixed shaft formed of one half of the circumference of the magnet and a second pole of the magnet; Rotating mechanism using magnetic force and gravity having a diameter larger than the fixed shaft, the first pole of the magnet is formed in the direction of the center, and the outer body comprises a ring-shaped rotating body formed with the second pole of the magnet outside The method according to claim 1, The fixed shaft is formed on an inner portion of a donut shaped ring having an empty inside, and the donut shaped ring has a magnetic mechanism and a gravity force, which is vacuum inside. The method according to claim 1, When the shaft of the magnet of the fixed shaft is installed at an angle of about 45 degrees with respect to the direction of the gravity field, the size of the combined attraction force in the direction of the gravity field of the magnet formed on the rotating body and the magnet formed on the fixed shaft is smaller than the gravity weight of the rotating body. Rotating mechanism using magnetic force and gravity characterized by The method according to claim 1, The rotating body is a rotating mechanism using magnetic force and gravity, characterized in that the various colors are colored in a plurality of zones The method according to claim 2, Rotating mechanism using magnetic force and gravity, characterized in that magnets are formed at about 4 places so that the inner side of the donut outer portion 12 becomes the second pole to exert a force against the rotating body.