KR20110022153A - Rotation power device - Google Patents

Abstract

PURPOSE: A power connection device is provided to increase torque while reducing power loss by compensating the energy loss on the initial torque with the repulsive force between magnets. CONSTITUTION: A power connection device comprises a fixed element(100) and a rotating element(200). The fixed element comprises a plurality of fixed units(120) in which stationary ring magnets(140a,140b) having the same diameter are installed in the opposite positions to create the same polarities and which has an inclined surface on an end and a vertical cut surface on the other. The rotating element comprises a plurality of rotating units(220) in which a pair of rotating magnets(240a,240b) are located at an interval corresponding to the stationary magnets and coupled with a ball bearing(260). The rotating units are connected through an elastic member(280) containing a spring.

Description

ROTATION POWER DEVICE to increase torque

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power connection device for increasing rotational force, and more particularly, to a power connection device for increasing rotational force so as to compensate energy loss for an initially acting rotational force through repulsive force between magnets of the same polarity.

In general, it is well known that power units have a major concern about how much power can be delivered without loss of energy.

Various devices are being researched and developed in order to realize such a technology, and in many cases, technical improvements are made to minimize energy loss.

In particular, most of the conventionally developed technologies focus on reducing energy loss by controlling rotational cycles while reducing friction against rotational forces. Since such techniques have many limitations in improvement, natural forces of other aspects are Attention is focused on techniques that can compensate for energy loss using.

The main object of the present invention is to provide a power connection device that increases the rotational force to reduce the loss of power by compensating the energy loss for the initially acting rotational force between the magnets of the same polarity through the repulsive force.

According to the power connection device to increase the rotational force of the present invention as described above, by compensating the energy loss for the initial acting rotational force through the repulsive force between magnets of the same polarity, it is possible to reduce the power loss to achieve more efficient energy transfer. That is a very useful effect.

The power loss compensator of the present invention has a ring shape having the same diameter and forms a pair of stator magnets facing the same polarities at symmetrical positions on the inner surface thereof, and covers the stator magnets in a state in which the stator magnets protrude inwardly. One end of which forms a gentle streamlined inclined surface within a certain angle range, and the other end of the fixing unit is formed by connecting a plurality of fixing units formed vertical cutting surface up / down; And a pair of rotating magnets facing the same polarity corresponding to the stator magnets so as to be rotated at a predetermined interval along the inner surface of each of the fixing units with respect to the rotating shaft installed at the inner center of the stator. Each rotating magnet is coupled to the ball bearing so as to be smoothly driven in close contact with the inclined surface at the end thereof, and a plurality of rotating units formed at right angles by connecting a plurality of rotating units connected to each other through an elastic member having a spring coupled therefrom. It is made of a rotating body connected.

At this time, the pair of stator magnets symmetrical to each of the fixed unit and the pair of rotator magnets symmetrical to each of the rotating unit corresponding to each other is formed by forming a positive symmetry.

In addition, a blower fan is formed on one side of the rotating shaft with respect to one end of the fixed body.

On the other hand, a rotating device for generating power is coupled to one end of the rotating shaft of the rotating body, and the other end is formed by combining a generator for generating electricity by the rotational force.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a power connection device to increase the rotational force to which the present invention is applied, FIG. 2 is a longitudinal sectional view showing a power connection device to increase the rotational force to which the present invention is applied, FIG. Figure 4 is a cross-sectional view showing a power connection device, Figure 4 is a functional view showing a power connection device to increase the rotational force to which the present invention is applied, Figure 5 is a perspective view showing another embodiment of a power connection device to increase the rotational force to which the present invention is applied 6 is an application state diagram illustrating a power connection device for increasing rotational force to which the present invention is applied.

As shown in FIGS. 1 to 6, the power connecting device for increasing the rotational force of the present invention has a large number of fixing units 120 having a pair of stator magnets 140a and 140b symmetrically formed on an inner surface thereof. Rotation unit 220 having a pair of rotating magnets (240a, 240b) to be rotated along the inner surface of each of the fixing unit around the fixed body 100 and the rotating shaft (200a) installed in the inner center of the fixed body formed ) Is composed of a rotating body 200 formed by connecting a plurality of upper and lower sides in the angular orientation difference.

Thus, the fixing body 100 is made by connecting a plurality of fixing units 120 up and down as described above, the reason for separating the fixing body 100 into a plurality of fixing units 120 as described above As shown in the figure, although each of the fixing units 120 may be uniformly coupled up / down at the same angle (orientation), it is to be able to combine each of the fixing units 120 at an upper / lower angle as necessary. .

In this case, the fixing unit 120 has a ring shape having the same diameter and forms a pair of stator magnets 140a and 140b on the inner surface thereof so that the same polarity faces each other. The stator magnets 140a and 140b protrude inwardly of the fixing unit 120. In this case, one end of the inner surface covering the stator magnets 140a and 140b has a gentle streamlined slope 160a within a predetermined angle range. ) And the other end is formed by a vertical cut surface (160b). That is, the inner surface of the fixing unit 120 is formed to have the same diameter, it is formed so as to narrow inward with respect to the inclined surface (160a). The inclined surface is configured so that the magnetic force of the stator magnet does not reach any disturbing force on the rotating unit.

The stator magnet is composed of permanent magnets, and the magnets face each other with the same poles, and in order to reduce pulling force as much as possible. When a strong magnetic force is generated on the front and back, the magnets on the side have less magnetic force due to the poles of the magnets. Of course, if you are a developer, it is desirable to configure to suppress the unnecessary magnetic force as much as possible.

In the present application, the staging magnet and the rotating magnet is configured in a "c" shape is arranged so that the N pole and the N pole face each other and receive a repulsive force.

In addition, the present invention is characterized in that the inertia force can be obtained by the accumulation of rotational force on the same principle as the flywheel configured on the rotating body of the engine to help the rotational force smoothly when rotating. In other words, when it is connected to a power source and rotates by receiving the rotational force at the beginning, the power is initially required for a lot of power.

As described above, the rotating body 200 is formed by coupling the plurality of rotating units 220 at an upper / lower angle with respect to the rotating shaft 220a installed at the inner center of the fixing body 100. That is, the repulsive force due to the same polarity is formed by forming the rotary magnets 240a and 240b of each rotating unit 220 to be positioned at different angles from the corresponding magnets 140a and 140b of the respective fixed units 120. It is to work continuously.

At this time, the rotating unit 220 is coupled to a rotating shaft of a pair of rotating magnets 240a, 240b to be rotated at a predetermined interval along the inner surface of each of the fixing unit 120, the rotating unit 220 The end of the) is coupled to the ball bearing 260 to be driven smoothly in close contact with the inclined surface (160a). In addition, the elastic member 280 to form a contraction of the length with respect to the inclined surface (160a) as a means for coupling the rotating magnets (240a, 240b) to the rotating shaft (200a), such an elastic member 280 Is formed to contract and expand through the spring 282 therein as shown in each figure. On the other hand, the rotating magnets 240a and 240b are formed to face the same polarity corresponding to the stator magnets 140a and 140b.

Therefore, according to the power connection device for increasing the rotational force of such a configuration, the action of each fixing unit 120 and the rotating unit 220 is made as shown in FIG. That is, when the pair of rotating units 220 are rotated along the inner surface of the fixing unit 120 by the initial rotational force T, the stationary magnet 140b and the rotating unit on the cutting surface 160b of the fixing unit 120 are rotated. Force F is generated by the mutual repulsive force of the rotating magnet 240a of 220, which is the ball bearing 260 in which the other symmetrical rotating magnet 240a is in close contact with the inclined surface 160a of the fixed unit 120. Since the friction loss of f is greater than f, natural rotation can be achieved.

Of course, the mutual reaction force F between the stator magnets (140a, 140b) and the rotating magnets (240a, 240b) acts while rubbing along the inclined surface (160a) in this action, but this is smaller than the initial rotational force T (modified as follows: The mutual repulsion force F '(which must be added to the drawing) between the stator magnet 140a and the rotating magnet 240a is also generated on the inclined surface 160a affected by the friction loss f described above, but is smaller than the initial torque T.

Therefore, the sum of the initial rotational force T and the repulsive force F between the stationary magnet 140b and the rotating magnet 240b is the sum of the repulsive force F 'between the stationary magnet 140a and the rotating magnet 240a and the frictional force f at the inclined surface 160a. Because of its larger size, natural rotation can be achieved.

In addition, the rotation unit formed by connecting the elastic member coupled to the spring from the inside of the rotating shaft has a length (L1) is short while the one side is climbing the streamlined slope, the other side is the length (L2) by the spring elasticity As the fixed magnet and the rotating magnet push the same poles of the N pole and the N pole in the state where) is increased, the longer part of the rotating unit pushes the frictional energy loss part due to the streamlined slope, so that the seesaw compensates for the loss part. It is characterized by the principle of use.

At this time, since the above operation is made continuously by a predetermined time difference through each of the fixed unit 120 and the rotation unit 220 coupled up / down, the continuous rotation can be made while reducing the loss of energy as much as possible.

On the other hand, a pair of symmetrical magnets (140a, 140b) of the fixed unit 120 and a pair of symmetrical rotating magnets (240a, 240b) of each of the rotating unit 220 corresponding to each of the positive symmetry It is made by forming a position which is offset by a certain angle. That is, as shown in FIG. 4, the stator magnet 140b and the rotation magnet 240b of the other side of the stator magnet 140a and the rotating magnet 240a of one side are formed at a predetermined angle.

In addition, as shown in Figure 5 as another embodiment of the present invention is formed by coupling the blowing fan 300 on one side of the rotating shaft (200a) with respect to one end of the fixed body (100). The blowing fan 300 serves to lower the temperature rising therein while assisting the smooth rotation of the rotating shaft 200a.

In addition, according to the power connection device for increasing the rotational force of the present invention can be implemented as shown in FIG. That is, a power source for providing a rotational force is coupled to one end of the rotating shaft 200a of the rotating body 200, and a generator for generating electricity by the rotational power is coupled to the other end, thereby smoothly using nature. The production of energy is possible. In other words, the rotation of the power connection device that increases the rotational power using natural wind or steam to obtain the rotational power required to drive the generator while reducing the loss of the rotational force as much as possible, the energy production efficiency is greatly improved.

The stationary body is made of materials that do not have magnetic force, non-ferrous metal materials, synthetic resin materials, aluminum alloy materials, etc. to prevent magnetic forces.

In addition, the power connection device for increasing the rotational force of the present invention, the longer the rotation axis is preferably formed to be longer to maximize the force of the central axis. In addition, it is preferable that the length of the rotating unit can be easily hung on the inclined surface of the part where the fixed magnet is installed.

As described above, the present invention has been described with reference to the embodiments illustrated in the drawings, but this is merely exemplary and will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. will be. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

1 is a perspective view showing a power connection device for increasing the rotational force of the preferred embodiment of the present invention.

Figure 2 is a cross-sectional view showing a power connection device for increasing the rotational force to which the present invention is applied.

Figure 3 is a cross-sectional view showing a power connection device for increasing the rotational force of the present invention.

Figure 4 is a functional view showing a power connection device to increase the rotational force of the present invention.

5 is a perspective view showing another embodiment of the power connection device to increase the rotational force of the present invention.

Figure 6 is an application state showing the power connection device to increase the rotational force of the present invention.

** Description of symbols for the main parts of the drawing **

100: fixed body 120: fixed unit

140a, 140b: stator magnet 160a: slope

160b: cutting plane

200: rotating body 200a: rotating shaft

220: rotating unit 240a, 240b: rotating magnet

260: ball bearing 280: elastic member

282: spring

 300: blower fan

Claims (6)

A pair of stator magnets are formed in a ring shape having the same diameter so as to face the same polarity at symmetrical positions on the inner surface thereof, but one end of the inner surface covering the stator magnets to protrude inward is smooth within a certain angle range. Forming a streamlined inclined surface, the other end of the fixed unit is formed with a vertical cutting surface connected to the upper / lower plurality of fixed body formed; And Form a pair of rotating magnets facing the same polarity corresponding to the stator magnets so as to be rotated at a predetermined interval along the inner surface of each of the fixing unit around the rotation axis installed in the inner center of the fixture, Rotating magnet is coupled to the ball bearing to be driven smoothly in the state in close contact with the inclined surface, and the rotary unit formed by connecting the spring through the elastic member coupled to the inside from the rotating shaft in the angular direction Power connecting device to increase the rotational force, characterized in that consisting of; The method of claim 1, wherein the pair of symmetrical magnets of the fixed unit of each of the fixed unit and the pair of symmetrical rotating magnets of the corresponding rotating unit are each formed by forming a position that is offset by a certain angle in the normal symmetry Power linkage to increase torque. The power connecting device of claim 1, wherein a blower fan is coupled to one side of the rotating shaft with respect to one end of the fixed body. The method of claim 1, wherein the stator and the rotating magnet Power connection device for increasing the rotational force, characterized in that arranged in the same pole of the N pole and the N pole or S pole and S pole. The method according to any one of claims 1 to 4, One end is coupled to the rotary device for generating power with respect to the rotary shaft of the rotating body, the other end is a power connection device for increasing the rotational force, characterized in that formed by coupling the generator for generating electricity by the rotational force . According to claim 1, wherein the rotation unit formed by connecting the spring through the elastic member coupled to the rotating shaft is shorter in length while one side is climbing the streamlined inclined surface, the other side is in a normal length Since the stationary magnet and the rotating magnet push the same poles of the N pole and the N pole, the long rotating body pushes the frictional energy loss part due to the streamlined slope, so the principle of seesaw is used to compensate for the loss part. Power linkage to increase torque.

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