KR100992722B1 - Foldable wind power generator of vertical type - Google Patents

Abstract

PURPOSE: A foldable vertical wind power generator which prevents damage to a wind power generator due to weather change is provided to improve power generating efficiency by increasing the rotation speed of blades by increasing the contact surface of the blade with air. CONSTITUTION: A foldable vertical wind power generator comprises a main body, a rotating part, a fold part and a case part. The main body is composed of an upper post(100), an intermediate post(110) and a lower post(120). The rotating part operates an upper rotating pipe(200) and a lower rotating pipe(210). The fold part contacts with a protrusion and a concavo-convex part. The case part comprises a joint combined protrusion and the concavo-convex region.

Description

Foldable wind power generator of vertical type

The present invention relates to a foldable vertical wind power generator, and more particularly, to obtain maximum efficiency even with small wind power through the vertical wing of the wind power generator, and when the wind speed is strong or a typhoon occurs by installing a motor at the bottom of the wind turbine pole. In order to prevent damage to the wind turbine and to maintain it from time to time, it is to be grounded.

In general, a wind generator refers to a device that converts wind power by wind into kinetic energy through a rotor blade, which is a component of a wind generator, and then obtains electrical energy through a generator.

Due to the use of fossil fuels such as coal and petroleum, a large amount of carbon dioxide accumulates in the air and forms a thick carbon dioxide layer, which causes global warming. Also, due to the rapidly changing crude oil price, the need for alternative energy is known. R & D on development is expanding.

Conventional wind power generators are formed in a rectangular shape of the vertical wing, but easy to accommodate the outside wind, but receives a lot of air resistance, there is a problem that the power generation efficiency due to wind power is reduced because the vertical blade is not rotated smoothly. .

In addition, there is a risk of being damaged when a high wind speed such as a typhoon occurs due to bad weather.

The present invention is presented as follows to improve the proposed content as described above,

The present invention aims to increase the maximum efficiency at a small wind speed because the vertical wing of the existing wind turbine is in close contact with the air.

In addition, it is provided with a motor at the bottom of the pole of the wind power generator to fold the ground to prevent damage to the wind power generator due to weather changes, the folding place is formed to support the pole of the wind power generator.

The present invention for achieving the above object is the upper column 100, the intermediate column 110, the protrusion 130 is formed on the lower end, the uneven portion 140 is coupled to the lower column 120 formed on the upper end The main pillar 10 is provided with a cradle 150 on the outside so that the middle pillar 110 is inclined at an angle of 90 ° with respect to the lower pillar 120, the upper rotating tube 200, and the lower rotating tube ( 210 is coupled to the rotating tube bolt 221, the bearing 250 is provided in the upper and lower ends of the rotating tube (200, 210), the upper and lower bearing cover (251, 252) is coupled to the bearing cover bolt 253 , Ball 270 is formed between the lower bearing cover 252 lower surface and the ball guide plate 271, wing connecting pipe a, b (230, 231) on the outer circumferential surface of the upper rotary tube 200 and the lower rotary tube 210 Is coupled to the wing connecting bolt 232 and the wing connecting nut 233 in the connecting hole 234, the vertical wing 240 is provided in the wing connector a230 to generate electricity A rotating shaft 20 and the intermediate shaft 110, the gear shaft 350 is formed, the gear a (330) and the key 310 is coupled to the gear shaft 350, the upper side of the lower pillar 120 The motor shaft 320 is inserted into the coupling portion 50 to which the uneven portion 140 formed in the protrusion 130 of the intermediate pillar 110 is coupled, and the gear b 340 and the key ( 310 is coupled to the gear a 330 and the gear b 340 of the intermediate pillar 110 is formed in engagement, the lower column 120 fixed to the ground by receiving the power of the drive motor 300 provided on one side The folding unit 30, the intermediate pillar 110 is inclined at 90 degrees around the center, and the protrusion 130 and the uneven portion 140 of the driving motor 300 and the coupling unit 50 of the folding unit 30. In order to operate the gear a 330, the gear b 340 and the controller 400 is provided with a case portion 40 is characterized in that it comprises a configuration.

delete

delete

delete

delete

In addition, the case cover 450 for repairing the inside of the case part 40 is provided, the controller 400 is provided on the inner surface of the case cover 450, the blind guide (on the upper side of the case part 40) 410 is formed, and the lower blinder 420 is operated by the lower blinder motor 440 along the blinder guide 410, and the blinder band 490 formed as a band in the middle pillar 110 is the upper blinder 470. It is characterized in that the connection with.

According to the present invention the following effects are obtained.

The foldable vertical wind power generator of the present invention has an effect of providing maximum efficiency by increasing the rotational force even at a small wind speed because the vertical wing has a large air contact area.

In addition, by having a motor and a cradle at the bottom of the pole of the wind turbine has an effect of preventing damage to the wind turbine due to weather changes.

1 is a perspective view of the present invention foldable vertical wind turbine.
2 is a cross-sectional view of the folding portion for the present invention foldable vertical wind turbine.
3 is an enlarged detail view of the present invention foldable vertical wind turbine.
Figure 4 is an operating state diagram for the present invention folding vertical wind turbine.

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

Product configuration of the present invention is shown in Figures 1, 2 and 3, Figure 4 shows the operating state of the present invention.

The present invention relates to a foldable vertical wind turbine, to form a vertical wing 240 to increase the maximum efficiency even at low wind power, can be folded 90 ° through the gear a, b (330, 340) to prevent damage to the vertical wind turbine Damage caused by bad weather can be prevented and maintained at any time. The contents are as follows.

The product configuration of the present invention is largely formed by the upper column 100, the intermediate column 110 and the lower column 120, the main body 10, the upper rotary tube 200 and the lower rotary tube 210 is rotated Rotating portion 20 coupled to the pipe bolt 221 to generate electricity to generate electricity, the folding portion 30 and the protrusion portion 130, protrusions 130 and protrusions 130 are folded through the drive motor 300, 130 ) Is divided into a coupling part 50 to which the uneven part 140 is coupled, a case part 40 provided with components of the folding part 30 and the controller 400.

Hereinafter, the components for each part will be described.

Components of the main body 10 are provided with an upper column 100, a middle column 110, and a lower column 120 for supporting a vertical wind power generator, and an intermediate column 110 and a lower column 120. Protruding portion 130 and the uneven portion 140 is formed on one side, the intermediate pillar 110 is provided with a cradle 150 for supporting the upper pillar 100 when folded to 90 °, fixing the cradle 150 Mounting bolt 160 is provided.

Components of the rotating part 20 are connected to the upper column 100, the upper rotary tube 200, the lower rotary tube 210, the rotary tube bolt 221 is provided, the upper rotary tube 200 And a lower connecting tube a, b (230,231) are provided on the outer circumferential surface of the lower rotary tube 210, and a wing connecting bolt 232 and a wing connecting nut 233 are coupled to each other.

In addition, the bearing 250 is provided at the end of the upper rotary tube 200 and the lower rotary tube 210, the upper and lower bearing cover (251, 252) and the bearing cover bolt 253 is provided.

In addition, a ball 270 is provided between the lower bearing cover 252 bottom surface and the ball guide plate 271.

Gear a 330 and gear b 340 meshed to operate the driving motor 300 of the folding part 30 and the protrusion 130 and the uneven part 140 of the coupling part 50 are provided.
In addition, the motor support 360 for supporting the drive motor 300 is provided.

delete

As a component of the case part 40, a case cover 450 that opens and closes the case part 40 is provided at one side, and a controller 400 is provided at an inner side of the case cover 450, and the case part 40 is provided. The blinder guide 410 is provided on the upper side, and the lower blinder 420 is provided on the lower side along the guide, and the lower blinder motor 440 is provided to operate it.

In addition, an upper blinder case 480 is provided above the case part 40, and an upper blinder 470 is provided therein, and a blinder band 490 for operating the upper blinder 470 in the middle pillar 110. Is provided.

As described above, the components of the foldable vertical wind power generator of the present invention have been described, and a connection method between the components and details thereof will be described with reference to the accompanying drawings.

1 and 2 and the enlarged detailed view of FIG. 3, the lower column 120 of the vertical wind power generator is coupled to the case part 40 and fixed to the ground, and one side of the lower column 120. The motor shaft 320 and the key 310 are inserted into the uneven portion 140 and the protrusion 130 formed on the intermediate pillar 110, and the upper pillar 100 is joined to the upper side of the intermediate pillar 110 to be vertical. Form the pillar of the wind generator.

In addition, a gear shaft 350 is inserted into the intermediate column 110 to couple the gear a 330 and the key 310 to each other.

In addition, the ball guide plate 271 is formed by welding or another bonding method is formed in the appropriate position so that the rotating portion 20 is seated on the upper column (100).

The intermediate column 110 and the lower column 120 is located in the case portion 40, the motor shaft 320 and the driving motor 300 coupled to the lower column 120 is connected to the vertical wind power generator Creates power to tilt.

When the vertical wind power generator is tilted using the driving motor 300, damage may be prevented from rapid wind speed due to bad weather.

The blinder guide 410 is formed on the upper side of the case part 40, and the lower blinder 420 is opened and closed by the operation of the lower blinder motor 440. When the vertical wind generator is used, the lower blinder ( The 420 is closed along the blind guide 410 to the intermediate column 110.

In addition, when the vertical wind power generator is not used due to bad weather, the lower blinder 420 is opened, and the vertical wind power generator is tilted in the cradle direction.

At this time, the blinder band 490 coupled to the intermediate column 110 moves together as the pillar is inclined, and the upper blinder 470 connected to the blinder band 490 comes down.

As described above, the upper blinder 470 and the lower blinder 420 are provided to prevent foreign matter from entering the case part 40.

The upper column 100 is provided with a rotating unit 20, the upper rotating tube 200 and the lower rotating tube 210 surrounding the upper column 100 is fixed to the rotating tube bolt 221, the rotating unit ( In order to support 20), the ball guide plate 271 is provided at a suitable position of the upper column 100 by welding or another joining method.

A plurality of balls 270 are formed on the upper surface of the ball guide plate 271 and are provided to serve as bearings.

The rotating part 20 which is placed on the upper surface of the ball guide plate 271 in which the ball 270 is formed is formed by fitting the bearing 250 to the inside of the upper rotary tube 200, and prevents the bearing 250 from being pulled out. The bearing cover 251 is coupled through the bearing cover bolt 253.

In addition, the lower rotary tube 210 is formed by fitting the bearing 250 therein as described above, the lower bearing cover 252 is fixed with a bearing cover bolt 253.

In addition, the upper and lower rotary tubes 200 and 210 are coupled to the rotary tube bolt 221.

The wing connector b 231 is joined to the outer circumferential surface of the upper rotary tube 200 and the lower rotary tube 210 by welding or another method, and the wing connector a 230 is connected to one side of the vertical wing 240. Is joined by welding or another method.

A connection hole 234 is formed at the upper side of the wing connector a230 and the wing connector b 231, and is adjusted to increase the maximum efficiency according to the wind speed or the wind direction, thereby connecting the wing connection bolt 232 and the wing connection. Fix using a nut 233.

The vertical wing 240 is formed to have a high efficiency using a maximum area even at a small wind speed, and the air is a lot of contact area during rotation is made stable during rotation, due to the vertical wing 240 made of streamline It is formed so that air passes quickly.

The combined rotating part 20 is mounted on the ball guide plate 271 formed on the upper column 100, the upper column 100 and the bearing 250 is coupled by fitting.

As described above, the connection method and the details of the present invention have been described, and an operation process of folding a vertical wind power generator will be described as follows.

As shown in Figure 4, the foldable vertical wind power generator of the present invention in the drive motor 300 and the gears a, b (330, 340) formed inside the casing portion 40, the upper column 100 coupled to the rotating part 20 By the inclined to the cradle 150 direction.

At this time, the lower blinder 420 is lowered along the blinder guide 410, and the blinder band 490 formed on the intermediate pillar 110 is combined with the upper blinder 470 to be lowered along the blinder guide 410. To cover the foreign material from the outside by covering the U-shaped groove 430 is a section in which the pillar is inclined.

In addition, when the vertical wind turbine is inclined, the user lowers the rotating part 20 through the controller 400 to the height which can be manipulated, and adjusts the spacing of the wing connectors a, b (230, 231) to the cradle 150. Do not close on.

10. Main body 20. Rotating part
30. Folding part 40. Case part
50. Coupling
100. Upper column 110. Middle column
120. Lower column 130. Protrusion
140. Uneven portion 150. Cradle
160. Mounting bolt
200. Upper rotating tube 210. Lower rotating tube
221.Rotary Bolt
230. Wing connector a 231. Wing connector b
232. Wing connecting bolt 233. Wing connecting nut
234. Connection hole 240. Vertical wing
250. Bearing
251. Upper bearing cover 252. Lower bearing cover
253. Bearing cover bolts 270. Balls
271.Ball Guide Plate
300. Drive motor 310. Key
320. Motor shaft 330. Gear a
340. Gear b 350. Gear Shaft
360. Motor Support
400. Controller 410. Blinder guide
420. Lower blinder 430. U-shaped groove
440. Lower blinder motor 450. Case cover
460. Hinge 470. Upper Blinder
480. Upper Blinder Case 490. Blinder Bands

Claims (5)

The upper column 100, the intermediate column 110, the protrusion 130 is formed at the bottom, and the lower column 120 is formed at the top uneven portion 140 is coupled, the intermediate column 110 is the lower column 120 Main body 10 is provided with a cradle 150 to the outside so as to be inclined at 90 ° around the center;
The upper rotary tube 200, the lower rotary tube 210 is coupled to the rotary tube bolt 221, the bearing 250 is provided inside the upper and lower rotary tube (200, 210) ends, the upper and lower bearing cover ( 251, 252 is coupled to the bearing cover bolt 253, the ball 270 is formed between the lower bearing cover 252 and the ball guide plate 271, the upper rotary tube 200 and the lower rotary tube 210 ) Wing connector a, b (230, 231) on the outer circumferential surface is coupled to the wing connecting bolt 232 and the wing connecting nut 233 to the connecting hole 234, the vertical wing 240 to the wing connector a (230) Rotating unit 20 is provided to generate electricity to generate electricity;
The gear shaft 350 is formed on the intermediate pillar 110, the gear a 330 and the key 310 are coupled to the gear shaft 350, and the uneven portion 140 formed on the upper side of the lower pillar 120 is formed. The motor shaft 320 is inserted into the coupling portion 50 to which the protrusion 130 of the intermediate pillar 110 is coupled, and the gear b 340 and the key 310 are coupled to the motor shaft 320 so that the intermediate pillar ( The gear a 330 and the gear b 340 of the 110 is formed in engagement with the intermediate pillar 110 around the lower column 120 fixed to the ground by receiving the power of the drive motor 300 provided on one side. The folding part 30 inclined at 90 degrees;
Gear a (330), gear (b) 340 and controller (400) engaged to operate the driving motor (300) of the folding portion (30) and the protrusion (130) and the uneven portion (140) of the coupling portion (50). Case part 40 is provided;
Folding vertical wind turbine, characterized in that configured to include.
delete delete delete The method of claim 1,
A case cover 450 for repairing the inside of the case part 40 is provided, a controller 400 is provided on an inner surface of the case cover 450, and a blinder guide 410 on an upper side of the case part 40. Is formed, the lower blinder 420 is operated by the lower blinder motor 440 along the blinder guide 410, and the blinder band 490 formed as a band in the middle pillar 110 is provided with the upper blinder 470. Folding vertical wind turbine, characterized in that connected.

Images