KR101099904B1 - Wind power generator using the electric supply and distribution line - Google Patents

Abstract

The present invention relates to a wind power generator using a transmission and distribution line that can significantly reduce the installation cost. According to the present invention, two or more wires are installed on one side of the telephone pole along the vertical direction, and wires are connected to the wires; Fixing installation is installed on the other side of the telephone pole; A power generation module installed in the fixing installation hole; And a wind fan installed in the power generation module, wherein the load of the electric wire is applied to one side of the telegraph pole and the load of the power generator and the wind fan is acted on the other side of the telegraph pole to balance the telephone pole. The wind fan provides a wind power generator using a transmission and distribution line rotatably installed by the wind in the front and rear direction of the wind fan.

Description

Wind power generator using transmission and distribution lines {WIND POWER GENERATOR USING THE ELECTRIC SUPPLY AND DISTRIBUTION LINE}

The present invention relates to a wind power generator using a transmission and distribution line that can reduce installation costs.

In general, a wind power generator is a device that generates power by converting natural wind energy into mechanical energy.

These wind generators are installed in windy places such as fields, beaches, hills and mountains to generate power and electricity as the wind fan rotates by the force of the wind. The electricity may be transmitted to the power transmission station or distribution station.

The wind power generator may be built to install a wind power generator in the upper end of the support after standing the tens of meters on the floor surface.

However, the conventional wind power generator has to stand after manufacturing and transporting several tens of meters of struts, the cost of constructing the wind power generator has been significantly increased. In addition, since all the facilities must be prepared to install the wind turbine, the construction cost of the wind turbine is further increased.

An object of the present invention for solving the above problems is to provide a wind power generator using a transmission and distribution line that can reduce the construction cost of the wind power generator.

According to an aspect of the present invention for achieving the above object, two or more wires installed on one side of the telephone pole along the vertical direction, the wire is connected to the wire; Fixing installation is installed on the other side of the telephone pole; A power generation module installed in the fixing installation hole; And a wind fan installed in the power generation module, wherein the load of the electric wire is applied to one side of the telegraph pole and the load of the power generator and the wind fan is acted on the other side of the telegraph pole to balance the telephone pole. The wind fan provides a wind power generator using a transmission and distribution line rotatably installed by the wind in the front and rear direction of the wind fan.

The wind fan is rotatably installed in accordance with the direction of the wind, the generator may be formed with a stopper such that the wind fan is pivotable only within a certain angle range.

 The load of the power generator and the wind fan may be in equilibrium with the load of the wire acting on the telegraph pole.

According to the present invention, when the telephone pole is newly installed, the wind power generator can be installed together with the transmission and distribution line such as the telephone pole, thereby reducing the construction cost.

In addition, since the equipment used when planting the telephone pole on the floor when installing the wind turbine can be used together, there is an effect that can reduce the construction cost.

1 is a diagram illustrating an example in which a wind power generator using a transmission and distribution line according to the present invention is installed in a plurality of telephone poles.
2 is a front view illustrating a wind power generator using the transmission and distribution line of FIG. 1.
3 is an enlarged view illustrating a wind power generator using the transmission and distribution line of FIG. 2.
4 is a perspective view illustrating a stopper formed in the case of FIG. 3.
5 is a coupled state diagram illustrating a coupled state of the stopper of FIG. 4.

Specific embodiments of the wind power generator using the transmission and distribution line according to the present invention for achieving the above object will be described.

Field poles, beaches, hills, and mountain roads are installed at regular intervals to establish wires. Telegraph pole according to the present invention is a concept that includes a power pole made of concrete or a steel tower made by assembling the steel and a street lamp for supplying lighting to the road. In addition, since the telephone pole and the electric wire constitute a line for transmitting electric power, it will be referred to as a transmission and distribution line below.

1 is a diagram illustrating an example in which a wind power generator using a transmission and distribution line according to the present invention is installed in a plurality of telephone poles.

Referring to FIG. 1, the telephone poles 10 are installed at regular intervals, and each of the telephone poles 10 is provided with a wind generator 100. In this case, the wind generator 100 is installed in a place rich in wind, such as fields, beaches, hills and mountains.

 A power conversion unit 150 (refer to FIG. 3) is connected to the wind generator 100. The power conversion module 150 is a device that converts mechanical energy generated by wind power into electrical energy. At this time, the power conversion unit 150 may be installed for each telephone pole (10).

 In addition, the power conversion unit 150 is connected to a power storage module (not shown), the power storage module is connected to a transmitter (not shown). In this case, the power stored in the power storage module (not shown) temporarily stores, and the power distribution unit may transmit power stored in the power transmission device to a substation or power station or to distribute electricity where necessary.

The wind generator using the transmission and distribution line will be described in detail below.

Figure 2 is a front view showing a wind power generator using a transmission and distribution line, Figure 3 is an enlarged view showing a wind power generator using a transmission and distribution line.

2 and 3, the wind power generator using the transmission and distribution line includes a telephone pole 10, a wire installation port 110, a fixing installation hole 117, and a wind power generation module 120.

The telephone pole 10 has a power pole, a steel tower, a street lamp as described above, according to the type or scale of the telephone pole 10 can be appropriately designed size and load of the wind transmitter.

One side of the telephone pole 10 is provided with a wire installation port 110 so that the wire 111 can be connected. The wire mounting holes 110 are installed side by side at least two along the vertical direction. At this time, each of the wire mounting holes 110 is provided with an insulator (insulator) of a ceramic material, the wire 111 is fixed to the insulator (115). Since the wire installation port 110 is installed only on one side of the telephone pole 10, the load of the wire 111 acts only on one side of the telephone pole 10.

The other side of the telephone pole 10 is provided with a fixing installation port 117. At this time, the fixing installation tool 117 may be applied to various structures such as a clamp or a bracket or bolt.

The fixing installation 117 is provided with a wind power generation module 120. The wind power generation module 120 includes a generator 130 installed in the fixing installation hole 117, and a wind fan 160 rotatably installed in the generator 130. At this time, the wind fan 160 is composed of a plurality of blades 161 and the rotation shaft 163 is coupled to the center thereof.

The wind generator 100 is installed on the other side of the telephone pole 10, the load of the power generator 130 and the wind fan 160 acts on the other side of the telephone pole 10, the wire on one side of the telephone pole 10 By allowing the load of 111 to act, it is possible to prevent the telegraph pole 10 from tilting to one side.

At this time, the load of the power generator 130 and the wind fan 160 is to be in equilibrium with the load of the wire 111 acting on the telegraph pole 10, almost uniform load on both sides of the telegraph pole 10 It is desirable to make it work.

The generator 130 is a case 131 fixed to the fixing installation 117, the power transmission unit 140 is installed inside the case 131 to convert the wind into mechanical energy, and It includes a power conversion unit 150 for converting the mechanical energy transmitted from the power transmission unit 140 into electrical energy. The power conversion unit 150 is connected to a power storage module (not shown) to supply power to the power storage module.

The outer surface of the case 131 is formed in a streamline so as to minimize the resistance of the wind. The case 131 includes a first housing 132 installed in the fixing installation hole 117 and a second housing 133 rotatably coupled to the first housing 132 in a predetermined angle range. . In this case, the first housing 132 may be formed in an approximately "T" shape, and the second housing 133 may be formed in an approximately "B" shape.

An insertion hole (not shown) is formed in the front side of the first housing 132 so that the rotation shaft 163 of the wind fan 160 can be inserted. At this time, the rotation shaft 163 of the wind fan 160 is rotatably coupled by a bearing, the power transmission unit 140 is coupled to the rotation shaft 163 of the wind fan 160. The power transmission unit 140 is disposed inside the first and second housings 132 and 133.

The power transmission unit 140 includes a first gear 141 coupled to the rotation shaft 163 of the wind fan 160, a second gear 142 installed to mesh with the first gear 141, and the first gear 141. A first power transmission shaft 145 coupled to the second gear 142, a third gear 143 formed at a lower end of the first power transmission shaft 145, and engaged with the third gear 143. A fourth gear 144 installed, a second power transmission shaft 146 coupled to the fourth gear 144, and an accelerator 148 coupled to the second power transmission shaft 146. have.

The first, second, third, and fourth gears 141 to 144 have a bevel gear shape capable of vertically transmitting power. In addition, the rotation shaft 163 and the first power transmission shaft 145 of the wind fan 160 are orthogonal to each other, and the first power transmission shaft 145 and the second power transmission shaft 146 are also perpendicular to each other. Is placed. The first and second power transmission shafts 145 and 146 are rotatably installed in the first and second housings 132 and 133 by bearings.

In addition, the accelerator 148 is engaged with a plurality of gears (not shown) is engaged to serve to further increase the rotational force transmitted from the first and second power transmission shaft (145,146). The gears 141 of the accelerator 148 should be designed to have an appropriate gear 141 ratio according to the capacity of the wind turbine 100.

The wire 111 passes through the telephone pole 10, and the wire 111 of the telephone pole 10 electrically connects the power conversion unit 150 and a power storage module (not shown).

Figure 4 is a perspective view showing a stopper formed in the case, Figure 5 is a coupling state diagram showing a coupling state of the stopper.

4 and 5, the wind fan 160 is pivotally installed in accordance with the direction of the wind, and the stopper so that the wind fan 160 is pivotable only within a predetermined angle range in the power generator 130. 170 is formed.

The stopper 170 is formed at the end of the second arc 133 and the restraint guide 171 of the predetermined arc formed on the outer surface of the end of the first housing 132, the predetermined angle to the restraint guide 171 It includes a locking step (173) is inserted to rotate within the range.

Here, the difference between the arc length of the restraint guide 171 and the arc length of the latching jaw 173 is a rotation angle range of the second housing 133 because the latching jaw 173 can be moved. . At this time, it is preferable that the length of the restraint guide 171 and the locking step 173 is appropriately designed so that the rotation angle of the second housing 133 is rotated within approximately 90 °.

Since the stopper 170 limits the rotation angle of the second housing 133 within a certain angle range, the rotation angle of the wind fan 160 is also limited to the rotation angle range of the second housing 133. Therefore, since the wind fan 160 is rotated only within a limited range, it is possible to prevent the wind fan 160 from colliding with the wire 111.

Although the stopper 170 exemplifies an example of a structure in which the second housing 133 is rotated only within a certain rotation angle range, the stopper 170 may have various structures.

Since the wind fan f 160 rotates in a predetermined angle range as described above, the wind fan is rotated in response to the direction of the wind blowing toward the wind fan 160 to efficiently produce wind power.

The operation of the wind power generator using the transmission and distribution line according to the present invention configured as described above will be described.

First, the wind may blow side by side on the rotating shaft 163 of the wind fan 160. At this time, the direction of the wind may blow from the front side or the rear side of the wind fan 160. When the wind blows from the front side of the wind fan 160, the wind fan 160 is rotated to one side (for example, clockwise), if the wind blows from the rear side of the wind fan 160, the wind fan ( 160 is rotated to the other side (eg counterclockwise).

At this time, the rotational force of the wind fan 160 is the first gear 141, the second gear 142, the first power transmission shaft 145, the third gear 143, the fourth gear through the rotation shaft 163. 144, the second power transmission shaft 146, and the accelerator 148.

As the rotational force is accelerated in the accelerator 148, the power conversion unit 150 generates electrical energy. The electrical energy is stored in the power storage module and then transmitted to the transmitter, and the transmitter is transmitted to a power plant or substation.

Of course, when the wind generator 100 is installed in the street light, the power generated by the wind generator 100 can be used directly to illuminate the street light.

Next, the wind may blow along the direction inclined with the rotation shaft 163 of the wind fan 160. In this case, the wind power of the wind works relatively strongly on one side of the wind fan 160 and relatively weakly on the other side of the wind fan 160.

At this time, the wind fan 160 is turned to the strong wind by the left and right wind cars. For example, when the wind blows from the left side based on the rotation shaft 163 of the wind fan 160, the wind fan 160 is turned to the left of the wind fan 160, the wind is relatively strong by a limited range. On the other hand, if the wind blows from the right side based on the rotation shaft 163 of the wind fan 160, the wind fan 160 is rotated by a limited range to the right side of the wind fan 160, the wind is relatively strong.

In this way, since the wind fan 160 is properly rotated according to the direction of the wind, it is possible to significantly increase the amount of energy generated by the wind generator 100.

In addition, since the wind fan 160 is rotated only within a limited range by the stopper 170, the wind fan 160 does not collide with the electric wire 111, which is a surrounding structure. Therefore, it is possible to prevent the wind fan 160 from being damaged by the surrounding structure.

On the other hand, when the telephone pole 10 is newly installed, the wind power generator can be installed in the same transmission line as the telephone pole, thereby reducing the construction cost.

In addition, since the equipment used when planting the telephone pole on the floor when installing the wind turbine can be used together, there is an effect that can reduce the construction cost.

In addition, since the utility pole is newly installed without making a prop or a steel tower to install the wind turbine, it is possible to reduce the installation cost of the wind turbine.

The present invention can significantly reduce the installation cost of the wind turbine, there is a significant use in industry.

10: telephone pole 100: wind turbine
110: wire outlet 111: wire
117: fixing fixture 120: wind power generation module
130: generator 131: case
132: first housing 133: second housing
140: power transmission unit 141 ~ 144: gear
145,146: power transmission shaft 148: accelerator
150: power conversion unit 160: wind fan
161: blade 163: rotation axis
170: stopper 171: blade
173: jamming jaw

Claims (3)

Two or more wires installed on one side of the telephone pole along a vertical direction and connected to electric wires;
Fixing installation is installed on the other side of the telephone pole;
A power generation module installed in the fixing installation hole; And
A wind fan installed in the power generation module,
On one side of the telegraph pole, the load of the wire acts on the other side of the telegraph pole so that the load of the power generating device and the wind fan acts to balance the telegraph pole,
The wind fan is a wind power generator using a transmission and distribution line rotatably installed by the wind in the front and rear direction of the wind fan. The method of claim 1,
The wind fan is rotatably installed in accordance with the direction of the wind,
The generator is a wind generator using a transmission and distribution line, characterized in that the stopper is formed so that the wind fan can be turned only within a certain angle range. The method according to claim 1 or 2,
The load of the generator and the wind fan is a wind power generator using a transmission and distribution line, characterized in that the balance of the load of the wire acting on the telephone pole.

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