KR20120045972A - Power generation installation - Google Patents

Abstract

PURPOSE: An artificial energy type of a power generation device with a spherical rotary shaft is provided to guarantee a smooth rotation of a spherical rotary shaft by preventing a magnetic load of a magnetic field by using pressure energy of a hydraulic pump. CONSTITUTION: An artificial energy type of a power generation device with a spherical rotary shaft comprises a spherical rotary shaft(6), a spherical mass(5), flywheel(4) and a gear unit(3). The bottom of the sphere rotary shaft is supported by a carbon bearing and the upper end is supported by a ball bearing(14). The spherical mass and a first gear for transmission of initial power are connected to a spherical body. The flywheel, a magnetic levitation body and a driving gear of the gear unit are connected to the bottom of the spherical body of the spherical rotary shaft. The torque of the gear unit is delivered to a second hydraulic pump(71). The second hydraulic pump rotates hydraulic motor(72) for power generation, the electricity is generated and a battery(11) is charged. A first hydraulic motor and the hydraulic pump deliver the torque with being interlocked with the first gear in order that an initial operation of the spherical rotary shaft is operated by using the electricity of the battery.

Description

Artificial energy-type spherical rotary shaft power generator {Power generation installation}

The present invention combines the natural law of motion using the centripetal force, inertial force and centrifugal force with the magnetic levitation force, and delivers the initial rotational force and rotational force for power generation through a hydraulic pump to maximize the power generation efficiency through smooth rotation of the spherical rotating shaft The present invention relates to a spherical rotary shaft power generator.

In general, a mechanical power generator is divided into a vertical type using a propeller using wind power, and a horizontal type in which a wind guide plate is attached and rotated. The vertical or horizontal wind power generator using the wind power has been studied for the angle that is resisted by the wind, so if the wind strength is weak breeze can not generate power because the rotational force is not obtained.

Accordingly, the wind power generator has been proposed to install a plurality of propellers or guide plates for the wind receiving so as to receive the wind as much as possible to obtain rotational power in the breeze. As an example, US Patent No. 4382191 "wind power generation system" has been proposed, the wind power generation system is to increase the wind blades by installing a multi-layered wind member having a plurality of groove-shaped wings on the shaft connected to the generator, Unlike the determination that it can rotate even in the weak wind due to the large number of wind blades, there is a problem that the initial operation is impossible due to the increased load due to the breeze.

In order to solve the above problems, it is required to minimize the load-resistance of the plurality of wind members on the rotating shaft as well as to minimize the resistance to the contact so that the wind members themselves can be rotated in the breeze. Research in various fields such as in order to increase the power generation efficiency by smoothly rotating the rotating shaft connected to the generator by reducing the load on the rotating shaft to which the wind member is fixed through the repulsive force of the magnet and minimizing its own resistance. However, the reality is currently having a lot of difficulties in practical use.

In order to solve the above problems, the applicant has proposed the Republic of Korea Patent No. 0682411 "wind power generator".

The patent No. 0682411 "wind power generator is a wind blowing unit for inducing the wind discharged to the outside to ventilate the natural wind and the room, and the magnetic levitation that rotates smoothly by the accelerated wind supplied from the wind blowing unit The wind turbine disk and a generator for rotating the wind power of the wind disk to increase the rotational power generated by the gear unit in a configuration that includes, the increased wind supplied from the wind blower is reduced load for magnetic injury By effectively rotating the rotating body that is kept in the closed state it is possible to maximize the power generation through the generator connected to the rotating body.

However, the wind power generator has a problem that the magnetic field is conducted to the surrounding magnets so that the repulsive force is weakened because the magnet for magnetic levitation of the wind disk of the rotating body is exposed, and in particular, the generator is mounted on the support of the rotating body. When power generation is started, the electromagnetic force generated by itself is conducted to the rotating shaft and the gear part of the wind disk to reduce the rotational force of the generator and at the same time cause the damage of the generator, as well as a problem that the rotor is stopped.

Accordingly, the present invention is to solve the above-mentioned problems, the object of the present invention is to rotate for the initial start-up and power generation by using the pressure energy of the hydraulic pump to prevent the generation of magnetic force of the magnetic field of the spherical rotary shaft Minimize rotational friction force, simultaneously act on centripetal force of spherical rotary shaft, centrifugal force of heavy body, flywheel's inertia force and magnetic levitation force, and simultaneously rotate spherical rotary shaft by carbon bearing to minimize frictional force to maximize power generation efficiency It is to provide an artificial energy-type spherical rotary shaft power generator.

Artificial energy-type spherical rotary shaft power generator of the present invention for achieving the above object is a support on which a battery and a generator is installed at the bottom, and a fixed support plate and rotation each arranged with magnets so as to face the same polarity at predetermined intervals in the center of the support. An artificial-energy spherical rotary shaft power generator comprising a magnetic plate mounted with a support plate, and a drive gear for engaging with the generator to increase rotational speed, a flywheel for increasing rotational force, and a weight body mounted on one shaft. . The shaft is provided with a spherical rotary shaft made of a spherical body welded or mutually screwed, the lower end of the spherical rotary shaft is supported by a ball bearing, the upper end of the spherical rotary shaft and a spherical weight body disposed in all directions above the spherical body of the spherical rotary shaft A first gear for initial power transmission is mounted, and a flywheel, a magnetic levitation body, and a drive gear of a gear unit are mounted below the spherical body of the spherical rotating shaft, and the rotational force of the gear unit is connected to the second hydraulic pump. The second hydraulic pump is configured to charge the battery with electricity generated by rotating the second hydraulic motor for power generation, and transmits rotational force by engaging the first gear to initially operate the spherical rotary shaft by using the electricity of the charged battery. In the technical configuration consisting of the first hydraulic motor and the first hydraulic pump It can be a gong.

The present invention uses the pressure energy of the hydraulic pump to rotate for the initial start-up and power generation, so that no magnetic load of the magnetic field is generated, so that the smooth rotation of the spherical rotating shaft is possible, and the centripetal force of the spherical body and the centrifugal force of the heavy body and the flywheel Inertial force and magnetic levitation force act simultaneously on the spherical rotary shaft, and at the same time, the spherical rotary shaft can be contacted and rotated with carbon bearings to minimize the frictional force, thereby maximizing power generation efficiency with smoother rotation.

In addition, since the spherical body has a spherical body, the rotational force for initial start-up and power generation is transferred to the pressure energy of the fluid, so that unlike the mechanical contacting method, free rotation is possible, thereby minimizing the frictional force.

1 is a side view showing an artificial energy-type spherical rotary shaft power generator according to the present invention.
Figure 2 is a plan view showing a weight and a sphere of the artificial energy-type spherical rotary shaft power generator according to the present invention.

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

1 is a cross-sectional view showing an artificial energy-type spherical rotary shaft power generator according to the present invention, Figure 2 is a plan view showing a weight and a sphere, 1 is a support, 2 is a magnetic float, 3 is a gear, 4 Denotes a flywheel, 5 denotes a weight body, 6 denotes a spherical rotating body, 71 denotes a second hydraulic pump, 72 denotes a second hydraulic motor, 81 denotes a first hydraulic motor, and 82 denotes a first hydraulic pump.

The present invention combines the natural law of motion using centripetal force, inertial force and centrifugal force, and the initial rotational force and the rotational force for power generation while combining the magnetic levitation force through the hydraulic energy of the hydraulic oil to perform smooth rotation and power generation of the spherical rotational shaft and load and frictional force This is to minimize the efficiency.

In order to obtain a centripetal force, the spherical body 61 is provided as a spherical rotary shaft 6 formed by welding or screwing together. The spherical body 61 is maintained in balance with the support of a stable shaft. The lower end of the spherical rotary shaft 6 is supported by the carbon bearing 13 and the upper end is supported by the ball bearing 14 so that the carbon bearing 13 minimizes the friction force when the celebration is transmitted to the lower end.

Further, in order to obtain the centrifugal force, a spherical weight 5 disposed on all sides of the spherical body 61 of the spherical rotary shaft 6 is mounted. The weight body 5 is mounted on both ends of the thin rod, and the center of the rod fixing the weight body 5 to both ends is fixed to the spherical rotation shaft 6 and then fixed as a welding or fixing bolt which is a conventional method.

Further, in order to obtain an inertial force, a disc-shaped flywheel 4 is mounted below the spherical body 61 of the spherical rotational shaft 6, and the flywheel 4 has the spherical body 61 in the middle body of the weight body 5. It is mounted at the position corresponding to and is balanced.

In addition, the magnetic levitation body 2 is disposed below the spherical body 61 and the flywheel 4 of the spherical rotary shaft 6. The fixed support plate 21 of the magnetic levitating body 2 is fixed to the support 1, the rotation support plate 22 is fixed to the spherical rotary shaft 6 so that the repulsive force of the magnet 23 is spherical rotary shaft 6 It plays an important role in reducing the rotational friction by injuring.

The first gear 15 is mounted on the upper side of the spherical rotary shaft 6, and the drive gear 31 of the gear unit 3 is mounted on the lower side thereof.

The first gear 15 is for power transmission for initial operation, the power of which is engaged with the first gear 15 to initially operate the spherical rotary shaft 6 by using the electricity of the charged battery 11. The first hydraulic motor 81 and the first hydraulic pump 82 for transmitting rotational force are mounted to interlock.

In addition, the rotational force of the spherical rotary shaft 6 is transmitted to the gear unit 3 through the drive gear 31. The gear unit 3 is made of a conventional gear shift in order to obtain a rotational force and a rotational speed for power generation. And the rotational force of the gear unit 3 is transmitted to the second hydraulic pump 71, the second hydraulic pump 71 is the electricity generated by rotating the second hydraulic motor 72 for power generation battery 11 Is made to charge.

The first hydraulic pump 82 and the second hydraulic pump 71 are devices for converting mechanical energy supplied from the outside into pressure energy of hydraulic system hydraulic oil, and the first hydraulic motor 81 is an electric motor. The high pressure (about 50-200 kg per cm 2) generated from the driven first hydraulic pump 82 is applied to the operating shaft to rotate the first gear 15 by its power, and the first gear 15 is a spherical rotary shaft 6. ), The second hydraulic motor 72 is applied to the operating shaft by applying a high pressure (about 50 ~ 200kg per cm 2) generated from the second hydraulic pump 71 driven by the gear unit 3 Power is generated by the power to charge the battery 11 with electricity.

The battery 11 is supplied with electricity to operate the initial spherical rotary shaft 6 while using the charged electricity as a light bulb or household electricity.

The artificial energy type spherical rotary shaft power generator according to the present invention configured as described above uses the pressure energy of the first hydraulic pump 82 to rotate for initial startup and rotation for power generation. Since the first hydraulic motor 81 rotates the spherical rotary shaft 6 through the first gear 15, there is no magnetic force in the magnetic field, thereby minimizing the load.

In addition, the rotational force for power generation is transmitted from the spherical rotary shaft 6 to the gear unit 3, the gear unit 3 operates the second hydraulic pump 71 to generate pressure energy, the pressure energy of the fluid is power generation By operating the second hydraulic motor 72 for generating electricity, the magnetic force of the magnetic field is not transmitted to the spherical rotary shaft (6), there is no load is generated and smooth operation is achieved.

Further, since there is no magnetic load of the magnetic field, the spherical rotary shaft 6 can be smoothly rotated, and the spherical rotary body 6 has the centripetal force of the spherical body 61 and the centrifugal force of the weight body 5 and the flywheel 4. Since the inertial force and the floating force of the magnetic levitation body (2) are simultaneously operated, smooth rotation is possible. In addition, at the same time the spherical rotary shaft 6 can be minimized by the friction force by the lower end of the axial transmission is in contact with the carbon bearing 13 can be more smooth rotation to maximize the power generation efficiency.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Accordingly, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

1: Support 2: Maglev
3: gear portion 4: flywheel
5: weight 6: spherical rotating body
61: spherical body 71: second hydraulic pump
72: second hydraulic motor 81: first hydraulic motor
82: first hydraulic pump

Claims (1)

On the bottom, a support 1 having a battery 11 and a generator installed thereon, and a fixed support plate 21 and a rotation support plate 22 each having magnets 23 disposed so as to face the same polarity at predetermined intervals in the center of the support 1. And a flywheel 4 and a weight body 5 for arranging the magnetic levitation body 2, the drive gear 31 of the gear unit 3 for engaging with the generator 10 to increase the rotation speed, and for increasing the rotational force. In the artificial energy-type spherical rotary shaft power generator, which is attached to one shaft.
The shaft is provided with a spherical rotary shaft 6 is formed by welding the spherical body 61 or screwed together, the lower end of the spherical rotary shaft 6 is supported by a carbon bearing 13, the upper end is supported by a ball bearing 14, Above the spherical body 61 of the spherical rotary shaft 6, a spherical weight body 5 arranged in all directions and a first gear 15 for initial power transmission are mounted, and the spherical body 61 of the spherical rotary shaft 6 is mounted. ) The flywheel 4, the magnetic levitating body 2, and the drive gear 31 of the gear unit 3 are mounted on the lower side, and the rotational force of the gear unit 3 is applied to the second hydraulic pump 71. The second hydraulic pump 71 is connected to transmit the electric power generated by rotating the hydraulic motor 72 for power generation, and is charged to the battery 11, and uses a spherical rotary shaft by using the electricity of the charged battery 11. The first hydraulic motor 81 is engaged with the first gear 15 to transmit rotational force for initial operation of the 6. ) And an artificial energy-type spherical rotary shaft power generator characterized in that the hydraulic pump 82 is mounted.

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