KR101339427B1 - Wind generating apparatus - Google Patents

Abstract

The present invention relates to a speed increase type wind power generator, and more particularly, to a speed increase type wind power generator capable of increasing power generation efficiency by increasing rotational force of a blade.
The speed increase-type wind power generator of the present invention includes a main body; A blade rotatably mounted in front of the body; An increaser disposed inside the main body and connected to the blade at the rear of the blade; A generator connected to the accelerator to generate electric energy; In the speed increase-type wind power generator comprising a storage battery connected to the generator, the speed increaser, one end is connected to the blade, the insertion hole is formed in the center of the other end, the insertion hole is in communication with the insertion hole on both sides of the center An input member having a gear seating hole formed therein; A pair of planetary gears inserted into the gear seating holes and protruding toward the outer circumferential surface of the input member; A rotating shaft rotatably coupling the planetary gear to the input member; A ring gear surrounding a pair of the planetary gears, the gear having an inner circumferential surface thereof meshing with the planetary gears; One end is inserted into the insertion hole and the gear is engaged with the planetary gear on the outer peripheral surface, the other end is composed of the output member connected to the generator, the ring gear is fixedly coupled to the main body, a pair of planetary gear Is characterized in that arranged at intervals of 180 degrees.

Description

Increased wind power generator {Wind generating apparatus}

The present invention relates to a speed increase type wind power generator, and more particularly, to a speed increase type wind power generator capable of increasing power generation efficiency by increasing rotational force of a blade.

In general, the wind power generator is to rotate the windmill (blade) by the wind of nature and to generate power by rotating the shaft of the generator using the rotational force of the windmill.

Conventional wind turbines have been equipped with a gearbox to increase the rotational force of the blade (Patent No. 10-0752510, etc.).

However, the speed increaser used in such a conventional wind power generator uses a general planetary gear device.

That is, in the conventional planetary gear device used in the conventional wind power generator, three planetary gears are arranged at intervals of 120 degrees, so as to obtain an effect of speed increase.

However, since the three planetary gears are to be arranged at intervals of 120 degrees, the structure is complicated, and it is difficult to assemble them.

The present invention is to solve the above-mentioned problems, the number of planetary gears made of two, the structure is simple and easy to assemble, while increasing the output rotation to the input rotation, the fastener and the generator can be fastened It is an object of the present invention to provide a speed increase type wind turbine generator that can be easily made.

In order to achieve the above object, the speed increase-type wind power generator of the present invention includes a main body; A blade rotatably mounted in front of the body; An increaser disposed inside the main body and connected to the blade at the rear of the blade; A generator connected to the accelerator to generate electric energy; In the speed increase-type wind power generator comprising a storage battery connected to the generator, the speed increaser, one end is connected to the blade, the insertion hole is formed in the center of the other end, the insertion hole is in communication with the insertion hole on both sides of the center An input member having a gear seating hole formed therein; A pair of planetary gears inserted into the gear seating holes and protruding toward the outer circumferential surface of the input member; A rotating shaft rotatably coupling the planetary gear to the input member; A ring gear surrounding a pair of the planetary gears, the gear having an inner circumferential surface thereof meshing with the planetary gears; One end is inserted into the insertion hole and the gear is engaged with the planetary gear on the outer peripheral surface, the other end is composed of the output member connected to the generator, the ring gear is fixedly coupled to the main body, a pair of planetary gear Is characterized in that arranged at intervals of 180 degrees.

The inner ring is further coupled to the outer circumferential surface of the input member, and the outer ring further comprises a bearing member fixedly coupled to the main body or ring gear.

It further comprises a bracket for coupling the blade to one end of the input member, the bracket is coupled to the surface contact with each other while wrapping one end of the input member, the inner peripheral surface and the input of the bracket in contact with the input member One end of the member is formed to face the key groove into which the key is inserted, and one end of the input member and the inner circumferential surface of the bracket are formed in a tapered shape in which the diameter gradually decreases in the direction in which the bracket is inserted.

In addition, the coupling member is made to further include a coupling member for coupling to one end of the input member, the connection member, one end is coupled to the blade, the other end is inserted into the main body and disposed between, A connecting rotary shaft supported by the main body by a bearing member disposed in the main body; It is made of a fixing member for holding and coupling the other end of the connection rotary shaft and one end of the input member.

And a couple member mounted on the other end of the output member and the rotary shaft of the generator, respectively connecting the output member and the generator to each other, wherein the couple member has a coupling hole formed at the center of the other end or the output member. A base part to which the rotating shaft of the generator is inserted and coupled; A plurality of coupling protrusions formed at one end of the base to be spaced apart from each other; An extension part formed by cutting along the circumferential direction of the base part, one end of which is integrally connected to the base part, and the other end moving in the circumferential direction of the base part to expand or reduce the diameter of the coupling hole; A coupling screw for coupling the other end of the expansion portion to the base portion, the first coupling projection of the first couple member mounted on the other end of the output member, and the second coupling of the second couple member mounted on the rotating shaft of the generator The protrusions are inserted into spaced spaces and cross-coupled to each other, and the fastening screw pulls the other end of the expansion part into the base part to change the diameter of the coupling hole so that the couple member is connected to the other end of the output member or the rotating shaft of the generator. Fix it.

The couple member may be disposed between the first couple member and the second couple member, and further comprising a gap adjusting member formed on the outer circumferential surface of the gap between the eight gap protrusions to protrude from each other. Four coupling protrusions are formed at intervals of 90 degrees, and the gap protrusions are varied with each other by an external force, and the gap protrusions are disposed between the first coupling protrusion and the second coupling protrusion which are arranged to cross each other. It is in contact with the coupling protrusion and the second coupling protrusion.

According to the speed increase type wind power generator of the present invention as described above has the following effects.

Since the number of planetary gears is two, the structure is simple and the assembly is easy, but the output rotation with respect to the input rotation can be increased.

In addition, it is possible to easily fasten the blade and the input member through the bracket, it is possible to fasten easily while increasing the speed and generator through the couple member.

1 is a schematic diagram of a speed increase type wind turbine generator according to an embodiment of the present invention;
2 is a structural diagram of a speed increaser according to an embodiment of the present invention;
3 is a cross-sectional view taken along line AA of FIG.
4 is a perspective view of an input member according to an embodiment of the present invention;
5 is a perspective view of a state in which the other end of the output member and the rotary shaft of the generator according to an embodiment of the present invention is coupled by a couple member,
Figure 6 is an exploded perspective view of the couple member in Figure 5,
FIG. 7 is a cross-sectional view taken along line BB of FIG. 5;
8 is a cross-sectional view taken along line CC of FIG. 5;
9 is a cross-sectional structural view showing a coupling structure of an input member and a blade according to another embodiment of the present invention;

1 is a schematic view of a speed increase type wind turbine generator according to an embodiment of the present invention, FIG. 2 is a structural diagram of a speed increaser according to an embodiment of the present invention, and FIG. 3 is a cross-sectional view taken along line AA of FIG. 4 is a perspective view of an input member according to an embodiment of the present invention, Figure 5 is a perspective view of the other end of the output member according to an embodiment of the present invention and the rotating shaft of the generator coupled by a couple member, Figure 6 is Figure 5 Is an exploded perspective view of the couple member, Figure 7 is a cross-sectional view taken on line BB of Figure 5, Figure 8 is a cross-sectional view taken on line CC of FIG.

As shown in FIG. 1, the speed increase-type wind power generator of the present invention includes a main body 100, a blade 200, a speed increaser 300, a generator 400, and a storage battery (not shown). Is done.

The main body 100 is supported by being spaced apart from the ground.

The blade 200 is mounted to rotate in front of the main body 100.

The speed increaser 300 is disposed inside the main body 100 and is connected to the blade 200 at the rear of the blade 200 to transmit the rotational force of the blade 200 to the generator 400. When it speeds up and delivers.

The generator 400 is connected to the speed increaser 300 to generate electric energy.

The storage battery is connected to the generator 400 and serves to store electrical energy.

As shown in FIG. 2, the speed increaser 300 includes an input member 310, a planetary gear 320, a rotation shaft 330, a ring gear 340, an output member 350, and a bearing. Member 360.

One end of the input member 310 is connected to the blade 200, and the insertion hole 312 is formed in the center of the other end.

In addition, two gear seating holes 311 communicating with the insertion hole 312 are formed at both sides of the input member 310 as shown in FIGS. 3 and 4.

The gear seating holes 311 are formed to be symmetrical with respect to the insertion hole 312, so that the planetary gear 320 seated in the gear seating hole 311 is disposed at intervals of 180 degrees as will be described later To be.

In addition, as shown in FIG. 2, the blade 200 is coupled to one end of the input member 310 by a bracket 210.

That is, the bracket 210 is coupled to one end of the input member 310, and the blade 200 is coupled to the bracket 210.

The bracket 210 is in surface contact with each other while wrapping one end of the input member 310, it is fixedly coupled through a bolt or the like.

In this case, one end of the input member 310 and the inner circumferential surface of the bracket 210 are formed in a tapered shape in which the diameter of the bracket 210 is gradually decreased in the direction in which the bracket 210 is inserted into the one end of the input member 310. do.

Thus, when one end of the input member 310 is inserted into and connected to the bracket 210, the input member may have a slight tolerance between the diameter of one end of the input member 310 and the inner circumferential surface of the bracket 210. The surface 310 can be easily coupled to the bracket 210 while the surface contact.

If one end of the input member 310 is formed in a simple flat shape without being inserted into the inner circumferential surface of the bracket 210, and the one end of the input member 310 is coupled to the bracket 210 by a bolt or the like, , The contact area is reduced, the shaking occurs in the bracket (210).

In addition, when the end of the input member 310 and the inner circumferential surface of the bracket 210 are not formed in a tapered shape and have a simple cylindrical insertion structure, the diameter of the end of the input member 310 and the bracket ( When a tolerance occurs in the dimension of the inner circumferential surface of the 210, the assembly itself is not or the mutual gap is generated so that the surface contact does not come into contact with the coupling force is weakened may cause a shake in the bracket (210).

However, the input member 310 is formed by forming one end of the input member 310 and the inner circumferential surface of the bracket 210 in a tapered shape such that the diameter becomes smaller in the insertion direction of the bracket 210 as in the present invention. Even if a tolerance occurs in the diameter of one end of the and the inner circumferential surface of the bracket 210, one end of the input member 310 may be inserted into the inner circumferential surface of the bracket 210 to always be in contact with each other.

Thus, the contact area between the bracket 210 and the input member 310 is increased, so that the bracket 210 may be fixedly coupled to one end of the input member 310 without shaking.

The outer peripheral surface of the bracket 210 and one end of the input member 310 are formed to face the key grooves 213 and 313 to which the key 215 is inserted.

The rotation force of the bracket 210 may be better transmitted to the input member 310 by the key 215.

The planetary gear 320 is composed of two pairs, that is, inserted into two gear seating holes 311 as shown in FIG. 3, and protrudes toward the outer circumferential surface of the input member 310.

The pair of planetary gears 320 are disposed at 180 degree intervals.

The rotation shaft 330 rotatably couples the planetary gear 320 to the input member 310.

The ring gear 340 surrounds the pair of planetary gears 320 protruding toward the outer circumferential surface of the input member 310 from the outside of the input member 310, and fits the planetary gear 320 on an inner circumferential surface thereof. The biting gear is formed.

The ring gear 340 is fixedly coupled to the body 100.

One end of the output member 350 is inserted into the insertion hole 312 and a gear is engaged with the planetary gear 320 on an outer circumferential surface thereof, and the other end thereof is connected to the generator 400.

The bearing member 360 has an inner ring coupled to an outer circumferential surface of the input member 310, and an outer ring fixedly coupled to the main body 100 or the ring gear 340 to generate friction during rotation of the input member 310. It serves to support the input member 310 to minimize.

Of course, as shown in FIG. 2, a bearing member may be disposed between the output member 350 and the input member 310.

The speed increaser 300 having such a configuration has two planetary gears 320 and is disposed at intervals of 180 degrees, and thus the structure thereof is simpler and easier to assemble than a conventional speed increaser.

On the other hand, the present invention is mounted on the other end of the output member 350 and the rotating shaft 330 of the generator 400, as shown in Figure 5 interconnects the output member 350 and the generator 400 A couple member 500 may be further included.

At this time, the couple member 500, the first couple member 501 mounted on the other end of the output member 350 and the second couple member 502 mounted to the rotary shaft 330 of the generator 400. Separated by.

Since the first couple member 501 and the second couple member 502 are identical in structure and shape, unless otherwise stated, the first couple member 501 and the second couple member 502 are coupled to each other. The unit 500 will be described as a single unit.

The couple member 500 includes a base part 510, a coupling protrusion 520, an expansion part 530, and a fastening screw 540.

The base portion 510 has a coupling hole 511 is formed in the center, the other end of the output member 350 or the rotating shaft 330 of the generator 400 is inserted into the coupling hole 511 is coupled.

The plurality of coupling protrusions 520 protrude from one end of the base portion 510 to be spaced apart from each other.

The expansion part 530 is formed by cutting along the circumferential direction of the base part 510, one end of which is integrally connected to the base part 510, and the other end thereof is spaced apart from the base part 510.

The other end of the expansion part 530 may move in the circumferential direction of the base part 510 to expand or reduce the diameter of the coupling hole 511.

The fastening screw 540 expands or reduces the diameter of the coupling hole 511 by coupling the other end of the expansion part 530 which is a free end to the base part 510.

Therefore, when the other end of the output member 350 or the rotary shaft 330 of the generator 400 is to be inserted into the coupling hole 511, the diameter of the coupling hole 511 may be easily inserted. Make sure

In addition, in the state in which the other end of the output member 350 or the rotation shaft 330 of the generator 400 is inserted into the coupling hole 511, the fastening screw 540 is rotated as shown in FIG. By moving the other end of the expansion part 530 toward the base part 510, the diameter of the coupling hole 511 is reduced so that the other end of the output member 350 or the rotation shaft 330 of the generator 400 is moved. It is to be strongly fixed to the base portion 510.

5 and 6, the coupling protrusion 520 includes a first coupling protrusion 521 of the first coupler member 501 mounted at the other end of the output member 350, and the generator ( The second coupling protrusion 522 of the second couple member 502 mounted on the rotating shaft 330 of the 400 is divided.

In the present embodiment, four of the first coupling protrusion 521 and the second coupling protrusion 522 are formed at intervals of 90 degrees.

The first coupling protrusion 521 and the second coupling protrusion 522 are respectively inserted into spaces spaced apart from each other and cross-coupled.

That is, the second coupling protrusion 522 is inserted into the spaced space of the plurality of first coupling protrusions 521, and the first coupling protrusion is spaced from the space of the second coupling protrusion 522. An insertion portion 521 is inserted to allow the first coupling protrusion 521 and the second coupling protrusion 522 to be coupled to each other.

The first coupling protrusion 521 and the second coupling protrusion 522 may be directly in contact with each other, or may be coupled to each other through the gap adjusting member 550 as in the present embodiment.

As shown in FIGS. 5 and 6, the gap adjusting member 550 is disposed between the first couple member 501 and the second couple member 502, and eight gap protrusions 551 are formed on an outer circumferential surface thereof. It is formed spaced apart from each other.

The gap protrusion 551 is made of a structure or a material that can be mutually variable by an external force, as shown in Figures 5 and 8, the gap projection 551 is the first coupling protrusion is arranged cross each other It is disposed between the 521 and the second coupling protrusion 522 to contact the first coupling protrusion 521 and the second coupling protrusion 522.

As described above, the gap protrusion 551 is disposed between the first coupling protrusion 521 and the second coupling protrusion 522 while contacting the first coupling protrusion 521 and the second coupling protrusion 522. Since the gap between the gap protrusions 551 may be varied, even if the distance between the plurality of first coupling protrusions 521 and the second coupling protrusions 522 is not constant, the first couple member 501 and the first coupling member 501 may not be constant. The second couple member 502 can be easily coupled.

Unlike the present embodiment, the other end of the output member 350 and the rotating shaft 330 of the generator 400 may be connected to each other through other fastening elements.

Hereinafter, look at the assembly and operation of the present invention made of the above-described configuration.

When assembling the speed increaser 300, the planetary gear 320 is disposed at the gear seating holes 311 formed at both sides of the input member 310, and then the planetary gear is mounted using the rotary shaft 330. The gear 320 is rotatably coupled.

Thereafter, the output member 350 is inserted into the insertion hole 312 to be engaged with the pair of planetary gears 320.

At this time, in the present invention, since the planetary gear 320 is composed of two, the gear meshing of the planetary gear 320 and the gear formed on the outer circumferential surface of the output member 350 can be made easier.

Thereafter, the ring gear 340 and the bearing member 360 are mounted, and the speed increaser 300 assembled as described above is coupled to the main body 100.

Then, the bracket 210 is coupled to one end of the input member 310.

At this time, one end of the input member 310 and the inner circumferential surface of the bracket 210 is formed in a tapered shape that gradually decreases in diameter in the insertion direction of the bracket 210, one end of the input member 310 And the bracket 210 may be fixed by being in close contact with the surface in a large area.

Thus, while the assembly of the bracket 210 and the input member 310 can be facilitated, the shaking of the bracket 210 can be minimized.

In addition, the first couple member 501 and the second couple member 502 are mounted on the other end of the output member 350 and the rotation shaft 330 of the generator 400, respectively, and then coupled to each other.

At this time, as described above, the diameter of the coupling hole 511 is varied by the movement by the expansion part 530 and the fastening screw 540, and the other end of the output member 350 and the generator 400. The rotating shaft 330 is to be easily inserted into the coupling hole 511, and to be strongly fastened after insertion.

The gap between the first couple member 501 and the second couple member 502 is caused by the gap adjusting member 550 inserted between the first couple member 501 and the second couple member 502. Without being tightly coupled to each other, the rotational force of the speed reducer 300 can be transmitted to the generator 400 well.

Meanwhile, one end of the blade 200 and the input member 216 may be coupled to each other by a connecting member 216 as shown in FIG. 9 instead of the bracket 210.

9 is a cross-sectional view illustrating a coupling structure of the input member 310 and the blade 200 according to another embodiment of the present invention.

The connecting member 216 is composed of a connecting rotary shaft 217 and a fixing member 218.

One end of the connection rotary shaft 217 is coupled to the blade 200, and the other end is inserted into the main body 100.

At this time, a bearing member 219 is disposed between the connection rotating shaft 217 and the main body 100 so that the connection rotating shaft 217 is supported while being rotated on the main body 100.

The fixing member 218 is fixedly coupled while wrapping the other end of the connection rotary shaft 217 and one end of the input member 310.

The fixing member 218 may be made of a conventional coupling or the couple member 500 of the present invention.

As described above, one end of the connection rotating shaft 217 and the input member 310 connected to the blade 200 are rotatably supported by respective bearing members 219 and 360 on both sides of the fixing member 218. Therefore, when the blade 200 is rotated, the connection rotation shaft 217 can transmit the rotational force to the input member 310 without shaking.

The inventors of the present invention are not limited to the above-described embodiments, but may be modified and implemented in various ways within the allowable technical spirit of the present invention.

100: main body, 200: blade, 210: bracket, 213: keyway, 215: key, 216: connecting member, 217: connecting shaft, 218: fixing member, 219: bearing member,
300: speed increaser, 310: input member, 311: gear seating hole, 312: insertion hole, 313: keyway, 320: planetary gear, 330: rotary shaft, 340: ring gear, 350: output member, 360: bearing member,
400: generator,
500: couple member, 501: first couple member, 502: second couple member, 510: base portion, 511: coupling hole, 520: coupling protrusion, 521: first coupling protrusion, 522: second coupling protrusion, 530: Expansion part, 540: fastening screw, 550: gap adjusting member, 551: gap protrusion,

Claims (6)

A body; A blade rotatably mounted in front of the body; An increaser disposed inside the main body and connected to the blade at the rear of the blade; A generator connected to the accelerator to generate electric energy; In the speed increase-type wind power generator consisting of a storage battery connected to the generator,
The speed-
An input member having one end connected to the blade and having an insertion hole formed at a center of the other end thereof, and a gear seating hole communicating with the insertion hole at both sides of the insertion hole;
A pair of planetary gears inserted into the gear seating holes and protruding toward the outer circumferential surface of the input member;
A rotating shaft rotatably coupling the planetary gear to the input member;
A ring gear surrounding a pair of the planetary gears, the gear having an inner circumferential surface thereof meshing with the planetary gears;
One end is inserted into the insertion hole and the gear is engaged with the planetary gear is formed on the outer peripheral surface, the other end is made of an output member connected to the generator,
The ring gear is fixedly coupled to the body,
A pair of said planetary gear is an increased speed wind turbine generator, characterized in that arranged at intervals of 180 degrees. The method according to claim 1,
An inner ring is coupled to the outer circumferential surface of the input member, the speed increase-type wind power generator characterized in that the outer ring further comprises a bearing member fixedly coupled to the main body or ring gear. The method according to claim 1,
It further comprises a bracket for coupling the blade to one end of the input member,
The brackets are coupled in surface contact with each other while wrapping one end of the input member,
The inner circumferential surface of the bracket and the one end of the input member which are in contact with the input member are formed to face the key groove into which the key is inserted, respectively.
One end of the input member and the inner circumferential surface of the bracket is an increased speed wind turbine generator, characterized in that formed in a tapered shape that gradually decreases in diameter in the direction in which the bracket is inserted. The method according to claim 1,
It further comprises a connection member for coupling the blade to one end of the input member,
The connecting member includes:
A connecting rotary shaft having one end coupled to the blade and the other end inserted into the main body and supported by the main body by a bearing member disposed between the main body;
The speed increase-type wind power generator, characterized in that consisting of a fixed member for wrapping and wrapping the other end of the connecting rotary shaft and one end of the input member. The method according to claim 1,
Further comprising a couple member mounted on the other end of the output member and the rotating shaft of the generator, respectively connecting the output member and the generator,
The couple member,
A base portion having a coupling hole formed at a center thereof, and having the other end of the output member or the rotating shaft of the generator inserted therein and coupled thereto;
A plurality of coupling protrusions formed at one end of the base to be spaced apart from each other;
An extension part formed by cutting along the circumferential direction of the base part, one end of which is integrally connected to the base part, and the other end moving in the circumferential direction of the base part to expand or reduce the diameter of the coupling hole;
Consists of a fastening screw for coupling the other end of the expansion portion to the base portion,
The first coupling protrusion of the first couple member mounted on the other end of the output member and the second coupling protrusion of the second couple member mounted on the rotating shaft of the generator are inserted into the spaces spaced apart from each other and cross-coupled.
The fastening screw is a speed increase-type wind power generator, characterized in that for pulling the other end of the expansion portion to the base portion by varying the diameter of the coupling hole to couple the couple member to the other end of the output member or the rotating shaft of the generator. The method of claim 5,
The couple member,
It is disposed between the first couple member and the second couple member, and further comprising a gap adjusting member formed on the outer circumferential surface of the eight gap projections are projected apart from each other,
Each of the first and second coupling protrusions is formed at intervals of 90 degrees, respectively
The gap protrusions are mutually variable by an external force,
The gap protrusion is disposed between the first coupling projection and the second coupling projection which is arranged cross each other in contact with the first coupling projection and the second coupling projection, the speed increase type wind power generator.

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