KR20170000050U - Equipment for generating electricity with increase in speed function - Google Patents

Abstract

The present invention relates to a generator having a function of increasing the power generation efficiency so that power generation facilities can be easily prepared and installed in a small area or in an area where no electricity is supplied, The structure includes a rotating body rotating around a driving shaft by an external force; A first speed increasing portion connected to a driving shaft of the rotating body by a first coupling to increase a rotational force input through the driving shaft and the first driving shaft and outputting the increased rotational speed through a first driven shaft; A second driven shaft connected to a first driven shaft of the first speed increasing portion by a second coupling to increase a rotational force inputted through the first driven shaft and the second drive shaft to output through a second driven shaft, Wow; And a generator connected to the second driven shaft of the second speed increasing portion in series by a third coupling to generate electricity by rotational force transmitted through the second driven shaft and the generator shaft.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

More particularly, the present invention relates to a power generating device having a speed increasing function, and more particularly, it is possible to easily make power generation facilities in a small area or an area where electricity does not enter, The present invention relates to a generator having a speed increasing function for doubling the speed of the generator.

As is well known, a generator has been proposed as a device for converting mechanical energy into electric energy by utilizing electricity generated when a conductor moves in a magnetic field, and a power generating device using a tidal force, wind force and solar heat has been proposed.

Figs. 4 and 5 show an example of a discharge device using a tidal force, a wind force and a solar heat, and a tidal, wind and solar combined-cycle power generation apparatus disclosed in Laid-Open Patent Application No. 2001-0016571 The lower part of the supporting column 10 is buried in the subterranean underground 100 and the supporting columns 10 are connected to each other by the supporting column reinforcing equipment 60. [ The barge 20 has a constant floor area between the support pillars 10 and floats on the water surface. Reference numeral 30 denotes a tidal power generation facility, and reference numeral 32 denotes a rotation section of the tidal power generation facility. Reference numeral 40 denotes an air membrane structure, and the air membrane structure 40 is provided on the four sides of the barge 20 below the barge 20 and forms a single body with the barge 20.

In the combined tidal, wind and solar thermal power generation apparatus constructed as described above, the air membrane, which forms one body with the barge 20, adds a load to the barge 20 when the structure 40 ebbs, And the air membrane is lowered when the structure 40 is filled with water and the structure 40 and the barge 20 are higher than the water level of the seawater. Position.

Reference numerals 50 and 52 denote connecting lines, one end of which is connected to the rotation part 32 of the tidal power generation facility 30 and the other end of which is connected and fixed to the upper and lower portions of the support column 10, And at the same time, the tidal power generation facility 30 is driven in accordance with the upward and downward movement of the barge 20 by the tidal difference to produce electric power. Reference numeral 140 denotes a tidal power transmission line. Reference numeral 70 denotes a rotor blade. The rotary blade 70 is connected to a wind turbine generator 80 installed in the support column 10, The facility 80 converts the mechanical energy generated by the rotation of the rotary vane 70 into electrical energy to generate electric power and transmits the electric power to the integration and adjustment facility 130 of the electric power.

Reference numeral 150 denotes a wind power transmission line, which is connected to the power integration and adjustment facility 130. Reference numeral 90 denotes a solar thermal condenser connected to the solar power generation facility 110 to generate electricity, RTI ID = 0.0 > 130 < / RTI > In addition, reference numeral 130 denotes a power integration and adjustment facility that integrates and adjusts the power from the tidal power generation facility 30, the wind power generation facility 80, and the solar power generation facility 110, And is sent to the combined power generation transmission tower 180 on the land.

However, such a conventional tidal, wind and solar combined-cycle power generation apparatus can not be applied to a small area due to the large size of the apparatus and a huge cost, and in particular, a power generation facility can not easily be provided in an area where electricity is not supplied, there was.

Open Patent No. 2001-0016571 (published on Mar. 5, 2001.) "Tidal, wind and solar combined power generation device"

The object of the present invention is to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide an electric power generating system, And a generator having a speed increasing function for doubling the power generation efficiency with less power.

According to an aspect of the present invention, there is provided a power generating device having a speed increasing function according to the present invention includes: a rotating body rotating around a driving shaft by an external force; A first speed increasing portion connected to a driving shaft of the rotating body by a first coupling to increase a rotational force input through the driving shaft and the first driving shaft and outputting the increased rotational speed through a first driven shaft; A second driven shaft connected to a first driven shaft of the first speed increasing portion by a second coupling to increase a rotational force inputted through the first driven shaft and the second drive shaft to output through a second driven shaft, Wow; And a generator connected to the second driven shaft of the second speed increasing portion in series by a third coupling and generating electric power by a rotational force transmitted through the second driven shaft and the generator shaft.

The rotating body is formed by vertically connecting upper and lower rings of the same shape parallel to each other at regular intervals and vertically connecting the upper and lower rings to each other so as to support the upper portion of the vertical shaft perpendicular to the center of the upper and lower rings Wherein a plurality of connecting rods are integrally formed with a gap between the shank portion and the upper and lower rings.

Also, the driving shaft is rotatably supported by a first bearing, the upper and lower first driving shafts of the first speed increasing portion and the first driven shaft are rotatably supported by a second bearing and a third bearing, The second drive shaft and the second driven shaft between the second speed increasing portion and the second speed increasing portion, between the second speed increasing portion and the second speed increasing portion, and the second driven shaft between the second speed increasing portion and the third coupling are rotatable by the fourth bearing and the fifth bearing Wherein the first bearing is installed on the first plate, the upper portion of the second bearing and the first speed increasing portion is fixed to the second plate, and the upper portion of the fourth bearing and the upper portion of the second speed increasing portion are fixed to the second plate. Is fixed to the third plate.

The first plate, the second plate, and the third plate are vertically interconnected and supported by a vertical first support rod and a first fixing nut having outer spiral portions, And the first accelerating portion is connected and supported in a vertical direction on a base provided at a lower portion of the generator by a second fixing nut. The first accelerating portion is provided with a circular ring gear inside the housing, Wherein the four planetary gears are provided rotatably in a carrier integrally connected to the first drive shaft, and the four planetary gears are provided at the center of the sun gear, 1 driven shafts are integrally formed in a vertical direction.

As described above, in the present invention, the rotational force generated by the rotation operation using a person or an animal or the like is increased to a rotation speed at which the electric power can be generated, so that electricity can be made and used. Since it is small in size, it is easier to install and use electricity without difficulty in securing the installation space. Therefore, it is possible to produce and use electricity more easily in a small area or an area where no electricity is supplied. It is possible to provide the effect.

1 is a photograph showing the overall configuration of the present invention.
Figure 2 is a front view of Figure 1;
3 is a photograph showing the internal structure of the first speed increasing portion of FIG. 2;
4 is a perspective view showing a conventional tidal, wind and solar combined power generation device.
Fig. 5 is a front view of Fig. 4; Fig.

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

FIG. 1 is a photograph showing the overall construction of the present invention. FIG. 2 is a front view of FIG. 1. As shown therein, the present invention has a rotating body 110 on an upper side, And a first speed increasing portion 140 is provided immediately below the rotating body 110. The first speed increasing portion 140 is provided with a driving shaft 114 at an upper center thereof, The first driving shaft 141 and the first driving shaft 141 are connected to each other by a first coupling 121 in a mutually interlocking manner. A first driven shaft 142 is vertically installed at a lower center of the first speed increasing portion 140 and a second speed increasing portion 150 is provided at a lower portion of the first speed increasing portion 140.

The second speed increasing portion 150 is provided with a second driving shaft 151 which is vertically centered on the first driven shaft 142 of the first speed increasing portion 140 at an upper center thereof, And the second driving shaft 151 are connected to each other by a second coupling 122. A second driven shaft 152 is vertically installed at a lower center of the second speed increasing portion 150, A generator 170 is provided below the second speed increasing portion 150. The power generator shaft 170a of the generator 170 is installed in a direction perpendicular to the center line of the second driven shaft 152 of the second speed increasing portion 150 and the second driven shaft 152 is connected to the power generator shaft 170a are connected to each other by a third coupling 123.

The driving shaft 114 between the rotating body 110 and the first coupling 121 is rotatably supported by the first bearing 131. The first bearing 131 is rotatably supported by the first plate 131, (190a) to have a sufficient supporting force with respect to the driving shaft (114). The upper and lower first driving shaft 141 and the first driven shaft 142 of the first speed increasing portion 140 are rotatably supported by the second bearing 132 and the third bearing 133 The upper portion of the second bearing 132 and the first speed increasing portion 140 are fixed to the second plate 190b and have a supporting force by the second plate 190b, And the upper portion is installed and fixed in a manner to be inserted into a groove formed in the second plate 190b.

The upper and lower portions of the second speed increasing portion 150 and the portion between the second coupling portion 122 and the second speed increasing portion 150 and between the second speed increasing portion 150 and the third coupling 123 The second drive shaft 151 and the second driven shaft 152 are rotatably supported by the fourth bearing 134 and the fifth bearing 135 and the fourth bearing 134 and the second accelerator 150 Like the first accelerating portion 140 is fixed to the third plate 190c and has a supporting force by the third plate 190c and the upper portion of the second accelerating portion 150 is supported by the third plate 190c 190c, respectively.

The first plate 190a, the second plate 190b and the third plate 190c are vertically coupled to each other by a vertical first support rod 160 and a first fixing nut 161 having spiral outward portions. And the third plate 190c is connected and supported vertically on a base 180 provided at a lower portion of the generator 170 by a vertical support 162 and a second fixing nut 163, do.

FIG. 3 shows the internal structure of the first speed increasing portion 140 of the present invention. As shown in FIG. 3, the first speed increasing portion 140 according to the present invention includes a circular ring gear 144 And a sun gear 145 is provided at the center of the ring gear 144 and four planetary gears 147 are provided between the sun gear 145 and the ring gear 144. The four planetary gears 147 are rotatably mounted on a carrier 146 integrally connected to the first drive shaft 141. The carrier 146 is formed of a disk having a diameter slightly smaller than that of the ring gear 144 And four planetary gears 147 are rotatably provided on the disk at intervals. A first driven shaft 142 is integrally formed at the center of the sun gear 145 in the vertical direction. Here, the reference numerals are key grooves for connecting to the second drive shaft 151 of the second speed increasing portion 150 by the second coupling 122.

The rotating body 110 is formed with a handle 112 by connecting upper and lower rings 111a and 111b of the same shape parallel to each other with an interval therebetween by a vertical base 112a, A vertical shaft 113 is formed at the center of the upper and lower rings 111a and 111b and a gap between the shaft 113 and the upper and lower rings 111a and 111b is formed by a plurality of links 115 ), Which are spaced at an interval. The shaft portion 113 includes a vertical driving shaft 114. The driving shaft 114 is connected to the first driving shaft 141 of the first speed increasing portion 140 by the first coupling 121, The connection between the driving shaft 114 and the first driving shaft 141 by the first coupling 121 is achieved by key engagement.

The present invention is configured such that when the handle 112 of the rotating body 110 is gripped and rotated in one direction, the first coupling (not shown) is attached to the driving shaft 114 installed perpendicularly to the shaft- A rotational force is transmitted to the first driving shaft 141 side of the first speed increasing portion 140 connected to the first driving shaft 141 and the carrier 146 of the first speed increasing portion 140 connected to the first driving shaft 141 is rotated. The four planetary gears 147 coupled to the carrier 146 so as to be rotatable on an axis and meshed with the ring gear 144 and the sun gear 145 are engaged with the sun gear And the sun gear 145 is rotated in the same direction by the rotation of the four planetary gears 147 so that the sun gear 145 rotates along the circumference of the sun gear 145 via the first driven shaft 142 connected to the sun gear 145, So that the rotational force inputted through the first drive shaft 141 is output in a state of increased speed.

The rotational force output from the first speed increasing portion 140 through the first driven shaft 142 is also transmitted to the first driven shaft 142 through the second coupling 122, The second speed increasing portion 150 is transmitted to the inside of the second speed increasing portion 150 through the second driving shaft 151 of the second speed increasing portion 150 and the rotational force transmitted to the inside of the second speed increasing portion 150 The four planetary gears rotate along the circumference of the sun gear and the sun gear is rotated in the same direction as the planetary gear so that the sun gear is rotated in the same direction as that of the planetary gear through the second driven shaft 152 connected to the sun gear, 1 driven shaft 142 to multiply the rotational force output from the driven shaft 142. Thus, the generated rotational force is transmitted to the generator through the generator shaft to generate electricity through the generator.

In this embodiment, the rotational force generated by the rotation operation using a person or an animal is increased to a rotation speed at which the electric power can be generated, so that electricity can be produced and used. It is easier to install and use electricity without difficulty in securing the installation space, so that it is possible to produce and use electricity more easily in a small area or in an area where no electricity is supplied, thereby improving the quality of life and providing convenience It will be.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it is to be understood that the invention is not limited thereto, Are determined and limited. It will be apparent to those skilled in the art that various changes and modifications can be made by those skilled in the art without departing from the scope of the present invention.

110: rotating body 111a, 111b: upper and lower ring
112: handle 112a: vertical stand
113: shaft portion 114:
115: connecting rod 121, 122, 123: first, second and third coupling
131, 132, 133, 134, 135: 1st, 2nd,
140: first speed increasing portion 141: first driving shaft
142: first driven shaft 143: housing
144: ring gear 145: sun gear
146: carrier 147: planetary gear
150: second speed increasing portion 151: second driving shaft
152: second driven shaft 160: first support rod
161: first fixing nut 162: support
163: second fixing nut 170: generator
170a: Power generator shaft 180: Base
190a, 190b, 190c: first and second plates

Claims (6)

A rotating body (110) rotating around a driving shaft (114) by an external force;
The first driving shaft 141 is connected to the driving shaft 114 of the rotating body 110 by the first coupling 121 so that the rotational force input through the driving shaft 114 and the first driving shaft 141 is increased A first speed increasing portion 140 for outputting the first speed increasing portion 140 through the first driven shaft 142;
The second driven shaft 151 is connected to the first driven shaft 142 of the first speed increasing portion 140 by the second coupling 122 so that the first driven shaft 142 and the second driven shaft 151 A second speed increasing portion 150 for increasing the rotational force inputted through the second speed increasing portion 152 and outputting the increased speed through the second driven shaft 152;
The generator shaft 170a is connected in series with the third coupling 123 to the second driven shaft 152 of the second speed increasing portion 150 so that the second driven shaft 152 and the generator shaft 170a And a generator (170) for generating electricity by a rotational force transmitted through the generator (170).
The method according to claim 1,
The rotating body 110 is formed by connecting the upper and lower rings 111a and 111b of the same shape vertically parallel to each other with a gap therebetween by a vertical stand 112a to form a handle 112, A vertical shaft portion 113 for supporting the upper portion of the driving shaft 114 perpendicular to the center of the lower rings 111a and 111b is formed and the shaft portion 113 and the upper and lower rings 111a 111b) are integrally formed with a plurality of connecting rods (115) spaced therebetween.
The method according to claim 1,
The first driving shaft 141 and the first driven shaft 142 of the first speed increasing portion 140 are rotatably supported by the first bearing 131, And is rotatably supported by the bearing 132 and the third bearing 133 so as to be rotatable between the upper and lower portions of the second speed increasing portion 150 and between the second coupling 122 and the second speed increasing portion 150 The second drive shaft 151 and the second driven shaft 152 between the second speed increasing portion 150 and the third coupling 123 are rotatably supported by the fourth bearing 134 and the fifth bearing 135 And the power generating device has a function of increasing the speed.
The method according to claim 1 or 3,
The first bearing 131 is installed on the first plate 190a and the upper portion of the second bearing 132 and the first speed increasing portion 140 is fixed to the second plate 190b, And the upper portion of the bearing (134) and the second speed increasing portion (150) is fixed to the third plate (190c).
5. The method of claim 4,
The first plate 190a, the second plate 190b and the third plate 190c are vertically interconnected by a vertical first support rod 160 and a first fixing nut 161 having spiral outsides, And the third plate 190c is vertically connected and supported on the base 180 provided at the lower portion of the generator 170 by the vertical support 162 and the second fixing nut 163 And the power generation device has a speed increasing function.
6. The method of claim 5,
The first speed increasing portion 140 includes a circular ring gear 144 disposed in the housing 143 and a sun gear 145 disposed at the center of the ring gear 144. The sun gear 145, Four planetary gears 147 are provided between the ring gear 144 and the ring gear 144. The four planet gears 147 are rotatably mounted on a carrier 146 integrally connected to the first drive shaft 141, And the first driven shaft (142) is integrally formed in the vertical direction at the center of the sun gear (145).

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