KR20100004299U - Rotation Apparatus for generator - Google Patents

Abstract

The present invention relates to a generator driving rotary device to achieve efficient power generation by rotating the rotary blades in the same direction as the direction of the flow of wind or hydraulic power that can be used as a power source, more specifically, the rotary blades formed by a vertically formed rotary shaft The operating plate coupled to the left and right to open and close to minimize the resistance according to the weight of the operating plate itself when the wind acts in the reverse wind so that it can be operated quickly and lightly, the coupling portion of the rotating shaft coupled directly to the generator or coupled to the generator In order to increase the size of the device by forming a magnetic levitation means so that the load of the rotating shaft and the rotating blade formed on the rotating shaft does not reach the generator and the transmission coupled to the generator.

Rotary shaft, rotary blade, operating plate, opening control means, magnetic levitation means, flywheel

Description

Rotor for driving generators {Rotation Apparatus for generator}

The present invention relates to a generator for driving a rotary device, and more specifically, to rotate in the same direction as the direction of the flow of wind or hydraulic power that can be used as a power source to achieve efficient power generation.

In general, in order to operate a power generation facility used to generate electricity, a generator has been operated by burning fossil fuels such as coal or oil, or by using rotational energy obtained by using nuclear energy, solar heat, wind power, and hydropower. .

Power generation facilities using fossil fuels have been widely used due to their high efficiency, but have many problems such as depleting resources and causing environmental pollution. Recently, the utilization of power generation facilities using nuclear power is increasing.

However, nuclear power has a problem that a serious damage is likely to occur if an accident such as a leak occurs, so it was difficult to select the installation site of the power generation facilities due to severe backlash by the residents.

As a result, in recent years, the efficiency has not been widely used, but attempts are being made to increase the efficiency of solar power, wind power, and hydroelectric power generation facilities without fear of resource depletion or environmental pollution.

Conventionally, windmills have been widely used as a power source for driving a generator of a wind turbine.

Windmills are rotated along the inclined plane of the wing with the inclination of the wind, rotating the windmill at right angles to the direction of the wind. The windmill is rotated. It is difficult to apply in places where the intensity of the car is low and the frequency is low.

Accordingly, there has been a proposal of a wind turbine generator (registration utility model No. 253749) which is made to rotate in the same direction as the direction of the wind so as to increase the utilization of the wind.

However, in the conventional wind turbine rotor, when the rotor blades are placed in the opposite direction of the wind, the operating plate is opened up and down by the force of the wind. When the operating plate cannot be miniaturized, the operating plate is opened by its own weight. Since this is not smooth, the resistance is increased, not only to maximize the efficiency, but also because the load of the rotating device is concentrated to the generator and the transmission, there was a problem that it is difficult to enlarge.

Therefore, the first object of the present invention is to provide a generator driving rotary device that is open quickly and lightly when the operating plate of the rotary blade is placed in the opposite direction to the wind, the resistance is minimized,

The second object of the present invention is to provide a generator driving rotary device to form a large size of the device by forming a rotating device so that the load of the rotating device is not directly transmitted to the transmission or the generator.

The object of the present invention is to allow the operating plate coupled to the rotary blade formed by the vertically formed rotating shaft to be opened and closed left and right to minimize the resistance according to the weight of the operating plate itself when the wind acts as a reverse wind to operate quickly and lightly Magnetic coupling means are formed in the coupling part of the rotating shaft directly coupled to the transmission or the generator, so that the load of the rotating shaft and the rotating blades formed on the rotating shaft does not reach the transmission coupled to the generator and the generator so that the apparatus can be enlarged. .

According to the generator driving rotary device of the present invention, the rotational efficiency by the wind is high, and can be installed and operated anywhere regardless of the frequency or strength of the wind, and the generator driving rotary apparatus is injured by the magnetic levitation means. As it is rotated, the rotational efficiency can be improved by minimizing the rotational resistance, and the vertical load acting on the generator combined with the transmission and the transmission can be eliminated, thereby increasing the size of the device.

In addition, the generator drive rotation apparatus of the present invention can always be rotated in one direction, and has the effect that it can be installed and used in the sea, such as not only wind power but also the flow of rivers and tides.

Hereinafter, with reference to the accompanying drawings will be described in detail the most preferred embodiment of the present invention. First, in describing each of the drawings, only the same components have the same reference numerals as much as possible even if shown on different drawings.

1 is an exploded perspective view showing the configuration of the present invention, FIG. 2 is a combined perspective view showing the configuration of the present invention, and FIG. 3 is an enlarged perspective view of the main part showing the configuration of the open suppression means according to the present invention, and FIG. A perspective view showing a driving state.

According to the drawings, the present invention is a generator driving rotary device for transmitting a rotational force to the transmission (T) geared to the generator (G), the rotary device is coupled so that the lower end is perpendicular to the transmission (T) Interposed between the rotary shaft 10 and the rotary shaft 10 and the transmission (T) spaced vertically spaced apart from the outer periphery of the magnetic levitation means 20 and the rotary shaft 10 facing each other in parallel and outwardly facing and facing Hinge on hinge shaft 32 connecting between pair of supporting rods 31 and opening rods 31 having opening inhibiting means 34 to allow opening and closing of operating plate 33 only in one direction. Combination is composed of a plurality of rotary blades 30 consisting of a plurality of operating plate 33 to open and close left and right.

According to another embodiment of the present invention, the bottom of the rotary shaft 10 is further provided with a disk-shaped flywheel 40 for increasing the rotational inertial force.

The lower end of the rotary shaft 10 is coupled to the transmission (T) geared to the generator (G) is coupled to the shaft to be rotated about the axis.

The magnetic levitation means 20 is arranged so that a pair of permanent magnets or electromagnets face the same poles, and the magnet located at the upper side is fixed to the rotation shaft 10 and the magnet located at the lower side surrounds the rotation shaft 10. The magnetic force lines formed between the magnets facing each other raise the rotary shaft 10 so that the load of the rotary blade 30 including the rotary shaft 10, the operating plate 33, and the support rod 31 is coupled with the rotary shaft. Since it is not directly transmitted to the transmission, it is possible to increase the rotational efficiency and to prevent damage to the shaft joint, thereby making the device larger in size.

The rotary blades 30 are formed so that two or more of the plurality of radial to form an even angle with respect to the rotary shaft 10 to form a multi-stage or length depending on the conditions of the installation site can be increased to increase the rotational force. Will be.

At this time, in the case of forming the length of the rotary blade 30 to form a tension wire 50 for further connecting the front end of the rotary blade 30 and the rotating shaft 10, using a length adjusting means 51 such as a turnbuckle To prevent sagging.

The rotary blade 30 is formed radially at an equiangular center with respect to the axis of rotation. Preferably, the four rotary blades are formed to have a 90 degree conformal angle.

An opening inhibiting means 34 is formed between the supporting rods 31 so that opening and closing of the operating plate 33 is made in only one direction. The opening inhibiting means 34 is an inner surface of the supporting rod 31 facing each other. By forming the step 34a along the longitudinal direction or by providing the auxiliary bar 34b between the support bar 31 to be formed.

The operating plate 33 is hinged to the hinge shaft 32 for connecting the support rods 31 arranged up and down to open and close.

The hinge shaft 32 is formed at a position spaced apart from the outer surface of the rotary shaft 10 by the length of the operating plate 33 and sequentially formed by separating the number of the operating plate 33 by the operating plate 33 from the rotating shaft It is preferable to allow the operating plate 33 to be prevented from colliding with the rotary shaft 10 because the operation plate 33 can be opened while being far away, so that the durability of the operation plate 33 can be reduced.

At this time, the operation plate 33 is preferably made as lightweight as possible by covering the fabric in a rectangular frame made of a solid material.

In particular, when the magnetic levitation means 20a is formed between the operating plate 33 and the inner surface of the support bar 31, the opening and closing of the operating plate 33 can be achieved more easily.

As shown in FIG. 4, the generator driving rotary device of the present invention having the configuration as described above includes a working plate formed of a rotary blade 30 placed in a rotational direction and a forward direction of the rotary shaft 10 when wind generated from one side blows. (33) is closed, the rotation is made by the force of the wind and the operating plate 33 formed of the rotary blades 30 placed in the opposite direction is opened by the force of the wind is repeated by the operation that the resistance does not occur and the rotation is continued. do.

In particular, even when the wind is not continuously blown due to the rotational inertia of the flywheel 40 provided on the rotary shaft 10 it is possible to achieve a continuous rotation of the rotary shaft.

The present invention having the configuration as described above can be achieved by generating rotational power by the flow of flowing water when the rotary wing 30 is locked in the river or stream (river) having a flow and installed in the sea water with the difference between tides only It can also make progress.

1 is an exploded perspective view showing the main configuration of the present invention.

Figure 2 is a perspective view showing the configuration of the subject innovation.

Figure 3 is an enlarged perspective view of the main portion showing the opening inhibiting means according to the present invention.

4 is a perspective view showing an operating state of the present invention.

Figure 5 is a main portion perspective view showing another embodiment of the open inhibiting means according to the present invention.

Explanation of symbols on the main parts of the drawing

T: Transmission G: Generator

10: rotation axis 20: magnetic levitation means

30: rotor blade 31: support rod

32: hinge shaft 33: operating plate

34: means of opening inhibition 34a: step

34b: auxiliary bar 40: flywheel

50: tension wire 51: length adjusting means

Claims (3)

In the generator driving rotary device for transmitting a rotational force to the transmission (T) geared to the generator (G), the rotary device is a rotary shaft 10 and the rotary shaft is coupled so that the lower end is perpendicular to the transmission (T) Interposed between (10) and the transmission (T) is spaced up and down a certain distance from the outer periphery of the magnetic levitation means 20 and the rotary shaft 10 faced in parallel and outwardly facing the opening and closing of the operating plate 33 Is hinged to a pair of support rods 31 having an open inhibiting means 34 and a hinge shaft 32 connecting between the support rods 31 so as to be made only in one direction, and opened and closed left and right. Generator drive rotary device, characterized in that consisting of a plurality of rotary blades 30 made of a working plate (33). The method of claim 1, wherein the magnetic drive means 20a is characterized in that the magnetic lifting means (20a) is further formed on the inner surface of the operating plate 33 and the support rod 21 which is hinged by the hinge shaft (32). Device. 3. The generator driving rotary device according to claim 1 or 2, wherein a disk-shaped flywheel (40) is further formed on the rotating shaft to increase rotational inertia force.

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