KR101336314B1 - A wnd power genarator apparatus - Google Patents

Abstract

The present invention relates to a wind power generator having a generator therein. According to the present invention, the wind power generator having a generator therein comprises an impeller (110) which has an upper plate (111), a lower plate (112) being spaced from the upper plate (111), and a plurality of blades (113, 114) of which the upper end and the lower end are formed to be fixated in the upper plate (111) and the lower plate (112) in the equal distance, is located in front of a ventilating opening (D) of a building and is rotated when the wind discharged from the ventilating opening enters to the blades (113, 114) or is discharged through the blades (113, 114); a generator (130) which is received in the internal space (S1) of the impeller (110) and generates the induced electromotive force by being integrated with the impeller (110) to be rotated; and a shaft rod (140) which is installed in a casing (131) of the generator (130) to be vertical to the rotation direction of the generator (130) so that the generator can be rotated according to the rotation of the impeller (110), thereby easily replacing the generator and maximizing the efficiency of the impeller while minimizing the size of a product.

Description

Generator Built-in Wind Generator {A WND POWER GENARATOR APPARATUS}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a generator built-in wind generator, and more particularly, to a generator built-in wind generator that is easy to replace the generator and is suitable to be able to increase the rotational efficiency of the impeller to speed up the rotation speed.

In recent years, as environmental concerns have increased, large-scale investments have been made in wind power generators that generate power by using wind energy, which is clean energy. Accordingly, various aspects of wind power generation have been developed. ought.

However, such a wind power generator is equipped with a high support for supporting a generator and a long blade to be installed in the generator, which requires a large installation space and is very expensive, so it is suitable for installation in a general home or a small factory. There was a problem that did not.

Therefore, there is a need for a wind turbine generator having a new structure, which can be easily installed in a general home or a small factory and is very inexpensive.

The technology developed in view of this point is known as the "ventilation fan wind power generator" according to registration number 20-0453826 (May 23, 2011) and publication number 10-2010-0107964 (published date 2010). "Ventilation wind turbine" by October 06, 2007) is known.

Ventilation fan wind power generators and vents wind power generators are described in detail in the registration and public publications, so a detailed description thereof will be omitted.

However, the wind power generator using the vent according to the prior art as described above had the following problems.

The prior art as described above has a problem that the power generation is large because the fan is installed inside the ventilation hole, the power generation is large, and also because the fans all rotate at right angles to the air flow axis, there is a problem that the efficiency is lowered.

The present invention was created to solve the problems of the prior art as described above, the object of the generator-built wind generator according to the present invention,

Firstly, the generator rotates integrally with the impeller, the impeller rotates in the same direction as the wind from the vent, and the wind flows into the impeller through the blades and then discharges, thereby eliminating wind loss. It can utilize most of the exhaust wind, increasing efficiency,

Secondly, the generator is provided inside the impeller to reduce the size of the entire product,

Third, after the wind discharged from the ventilation port flows through the blades, it is discharged through the passage passage through the internal space of the impeller, so that the loss of wind is small, so that the efficiency can be increased.

Fourth, the generator can be detachably mounted inside the impeller by using a fastening screw, so that the generator can be detached and replaced easily. As a result, generators of various sizes can be installed according to the amount and strength of the wind.

Fifth, the blade is composed of a blade body portion and the blade tail, to increase the rotational speed of the impeller,

Sixth, by adopting the flow guide member, it is possible to smoothly and quickly inflow and discharge the wind while minimizing the resistance of the wind coming into the impeller,

Seventh, by forming the blade in a spiral, it is possible to increase the rotational efficiency of the impeller,

Eighth, it is to provide a generator-integrated wind generator that is suitable to be able to make the rotation speed of the impeller even faster by inclining the blade at a predetermined angle with respect to the vertical.

The generator built-in wind generator of the present invention for achieving the above object, in the wind power generator for generating power using the wind discharged from the ventilation openings of the building: the top plate, the bottom plate spaced from the top plate, the top and bottom are respectively An impeller composed of a plurality of blades fixed at equal intervals on the upper plate and the lower plate and positioned in front of the ventilation opening of the building to rotate by the wind discharged from the ventilation opening into the blade; A generator accommodating the inner space of the impeller and generating the induced electromotive force by rotating integrally with the impeller; It characterized in that it comprises a shaft installed in the casing of the generator perpendicular to the rotation direction of the generator so that the generator is rotatable in accordance with the rotation of the impeller.

Generator built-in wind generator of the present invention having the configuration as described above has the following effects.

Firstly, the generator rotates integrally with the impeller, the impeller rotates in the same direction as the wind from the vent, and the wind flows into the impeller through the blades and then discharges, thereby eliminating wind loss. Since the exhaust wind can be almost used, the efficiency can be increased.

Second, since the generator is provided inside the impeller, there is an effect that can reduce the size of the entire product.

Third, after the wind discharged from the ventilation port is introduced through the blades and discharged through the passage passage through the inner space of the impeller, the wind loss is small and the efficiency can be increased.

Fourth, by allowing the generator to be detachably mounted inside the impeller by using a fastening screw, the generator can be easily removed and replaced. As a result, generators of various sizes can be installed according to the amount and strength of the wind. There is.

Fifth, by configuring the blade body and the blade tail, there is an effect that can increase the rotational speed of the impeller.

Sixth, by adopting the flow guide member, there is an effect that can smoothly and quickly inflow and discharge the wind while minimizing the resistance of the wind coming into the impeller.

Seventh, by forming the blade in a spiral shape, there is an effect that can increase the rotational efficiency of the impeller.

Eighth, by forming the blade inclined at a predetermined angle with respect to the vertical, there is an effect that the rotation speed of the impeller can be made even faster.

1 is a cross-sectional view of a generator built-in wind generator according to an embodiment of the present invention and a state diagram of use thereof.
2 is a front view of Fig.
3 is a plan view of Fig.
4 is a front perspective view of the blade 113 in FIGS. 1 to 3.
5 is a modified embodiment when the generator 130 is mounted on the lower plate in the generator built-in wind power generator according to an embodiment of the present invention shown in FIGS.
6 is a cross-sectional view of a generator built-in wind generator according to another embodiment of the present invention and a state diagram of use thereof.
FIG. 7 is a plan view of FIG. 6.
FIG. 8 is a front view of the blade 114 in FIGS. 6 and 7.
FIG. 9 is a configuration diagram of a modified embodiment of a generator-type wind generator according to another embodiment of the present invention shown in FIGS. 6 to 8.
10 is a configuration diagram of a modified embodiment of the embodiment shown in FIG. 9.
11 is a configuration diagram of a modified embodiment in the case of bending the shaft 140 in the embodiment shown in FIG.

Next will be described in detail with reference to the accompanying drawings a preferred embodiment of the generator-built wind generator of the present invention.

FIG. 1 is a cross-sectional view and a state diagram showing a state in which the generator 130 is mounted on the upper plate 111 in the generator built-in wind generator according to an embodiment of the present invention. The front view of FIG. 1 is shown, the top view of FIG. 2 is shown in FIG. 3, the front perspective view of the blade 113 in FIGS. 1 to 3 is shown, and the generator 130 is shown in FIG. 5. An alternative embodiment is shown when mounted on the bottom plate.

As shown, the generator built-in wind generator (A) according to another embodiment of the present invention, in the wind power generator for generating power using the wind discharged from the ventilation opening (D) of the building, the impeller 110 and the impeller Generator 130 accommodated in the inner space (S1) of the 110 (space formed by the inner side of the blades 113, 114 arranged in a circular shape) and rotates integrally with the impeller 110 to generate an induced electromotive force And a shaft installed in the casing 131 of the generator 130 perpendicular to the rotation direction of the generator 130 such that the generator 130 is rotatable in accordance with the rotation of the impeller 110. It is configured to include a 140, the impeller 110 is the upper plate 111, the lower plate 112 spaced apart from the upper plate 111, the upper and lower ends of the upper plate 111 and lower plate 112, respectively Fixed installation at equal intervals in a circle Composed of a plurality of blades (113, 114), and is located in front of the ventilation openings (D) of the building is characterized in that the wind discharged from the ventilation openings (D) is rotated by flowing into the blades (113, 114).

In the generator built-in wind generator A according to another embodiment of the present invention, the wind from the ventilation port D rotates the blades 113 and 114 while passing between the plurality of blades 113 and 114, Blades 113 and 114 are characterized in that the rotation in the same direction as the wind discharged from the vent (D).

According to the configuration as described above, since the generator 130 rotates integrally with the impeller 110, all the rotational force of the impeller 110 can be utilized, and the impeller 110 rotates in the same direction as the wind coming from the ventilation hole (D). In addition, since the wind enters the impeller 110 through the blades 113 and 114 and flows out, the exhaust wind of the air vent D can be almost used without wind loss, thereby increasing the utilization efficiency. Located in front of the ventilation opening (D) has the advantage of receiving less resistance than when installed inside the ventilation opening (D), because the generator 130 is provided inside the impeller (110) can reduce the size of the entire product There is an advantage.

In the generator-built wind generator (A) according to the present invention, the passage passage holes (111b, 112b) for discharging the wind flowing into the internal space (S1) of the impeller 110 through the blades (113, 114) to the outside ) Is formed on any one of the lower plate 112 or the upper plate (111).

As shown in FIGS. 1 to 3, the generator 130 is mounted on the upper plate 111 when the flow passage through hole 112b is formed in the lower plate 112 to form an inner space of the impeller 110. S1), and as shown in FIG. 5, when the flow passage through hole 111b is formed in the upper plate 111, it is mounted in the lower plate 112 and is provided in the inner space S1 so that the impeller 110 and It is characterized by rotating integrally.

According to the above configuration, since the wind enters between the blades 113 and is discharged through the passage passage hole 111b via the internal space of the impeller 110, there is an advantage that the efficiency of the wind is small and the loss is small.

1 to 3, in the generator-built wind generator A according to an embodiment of the present invention, the upper plate 111 is formed when the passage passage hole 112b is formed in the lower plate 112. A plurality of top plate fastening holes 111a are formed in the casing, and a plurality of casing fastening holes 131a are formed in the casing 131 of the generator 130 at a corresponding position with the top plate fastening holes 111a. The generator 130 is mounted on the upper plate 111 by a first fastening screw 121 for screwing the upper plate fastening hole 111a and the casing fastening hole 131a.

In addition, as shown in Figure 5, in the generator built-in wind generator (A) according to an embodiment of the present invention, when the passage passage hole 111b is formed in the upper plate 111, the lower plate 112 A plurality of lower plate fastening holes 112a are formed in the casing, and a plurality of casing fastening holes 131a 'are formed in the casing 131 of the generator 130 at a position corresponding to the lower plate fastening holes 112a. The generator 130 is mounted on the lower plate 112 by a first fastening screw 121 for screwing the lower plate fastening hole 112a and the casing fastening hole 131a '.

According to the above configuration, since the generator 130 can be detachably mounted inside the impeller 110 using the first fastening screw 121, the generator 130 can be easily attached and detached and replaced. There is an advantage in that it is possible to install the generator 130 of various sizes according to the amount and strength.

In the generator built-in wind generator (A) according to an embodiment of the present invention, An insertion hole 131b for inserting and installing the upper side of the shaft rod 140 into the casing 131 is formed at one side of the casing 131.

And, as shown in Figures 1 to 4, in the generator-built wind generator (A) according to an embodiment of the present invention, the blade 113 is concave in the opposite direction of the direction in which the impeller 110 rotates. It is characterized in that it consists of a curved blade body portion 113a and the blade tail portion 113b formed to block in the direction of rotation extending radially inward from the blade body portion 113a.

According to the configuration of the blade 113 as described above, the wind discharged from the ventilation port (D) is to enter the blade body portion 113a while rotating the impeller 110 so that the direction of the flow path in the blade tail portion (113b) changes There is an advantage that the rotation of the impeller 110 is faster.

Meanwhile, the casing 131 of the generator 130 may be rotatably connected to the shaft rod 140 by, for example, a bearing br.

FIG. 6 is a cross-sectional view of the generator built-in wind generator according to another embodiment of the present invention, and a cross-sectional view taken along line BB of FIG. 7, FIG. 7 is a plan view of FIG. 6, and FIG. A front view of the blade 114 in FIG. 7 is shown, and FIG. 9 is a configuration diagram of a modified embodiment of a generator-type wind generator according to another embodiment of the present invention shown in FIGS. 6 to 8. 10 is a diagram illustrating a modified embodiment of the embodiment shown in FIG. 9, and FIG. 11 is a diagram illustrating a modified embodiment when the shaft 140 is bent in the embodiment shown in FIG. 6.

In the generator built-in wind generator (A) according to another embodiment of the present invention, the impeller 110 in order to smoothly discharge the wind flowing through the blade 114 to the passage passage holes (111b, 112b). A flow guide member (150, 160, 170) mounted to the upper plate 111 or the lower plate 112 to be provided in the inner space of the structure is further included, the generator 130 is the flow guide member 150, It is characterized in that it is provided in the interior space (S3) of 160, 170.

According to the above configuration, there is an advantage that the wind flowing through the blades 113 and 114 of the impeller 110 can be smoothly discharged to the passage passage holes 111b and 112b with minimum resistance, and as a result, There is an advantage to increase the power generation efficiency.

6 to 8 and 10, in the generator built-in wind generator A according to another embodiment of the present invention, the flow path guide member (160, 170), and the side portion (161, 171) Consists of the mounting portion (162, 172) to block the upper or lower side of the side portion (161, 171), the outer peripheral surface (161a, 171a) of the side portion (161, 171) flow path through the hole to smoothly guide the wind without resistance As the outer diameter decreases toward the center in the direction in which the (111b, 112b) is located, the generator 130 is curved, and the generator 130 is formed in the inner space S3 formed by the inner circumferential surfaces 161b and 171b of the side parts 161 and 171. It is accommodated and mounted to the mounting parts 162 and 172, It is characterized by the above-mentioned.

As described above, the outer circumferential surfaces 161a and 171a of the side parts 161 and 171 are formed to be curved while the outer diameter becomes smaller toward the center in the direction in which the passage passage holes 111b and 112b are located to guide the wind. There is an advantage that can smoothly and quickly inflow and discharge the wind while minimizing the resistance of the wind coming into the interior.

In addition, the generator 130 can be accommodated in the inner space S3 formed by the inner circumferential surfaces 161b and 171b of the side portions 161 and 171, so that even if the flow path guide members 160 and 170 are constituted, There is an advantage that can be miniaturized.

As shown in FIGS. 6, 7 and 10, the mounting portions 162 and 172 block the upper sides of the side portions 161 and 171 to serve as an upper surface, but the mounting portions 162 and 172 are not limited thereto. Of course, even if the lower side of the side portions (161, 171) belongs to the technical scope of the present invention.

6 and 7, a fastening hole 172a is formed in the mounting portion 172 to communicate with the casing fastening hole 131a of the generator 130, so that the generator 130 has a second fastening screw 122. It is characterized in that the screwed to the mounting portion 172 by the).

Then, the insertion opening 112c for inserting the generator 130 into the internal space S3 is characterized in that the lower plate 112 is formed.

And, as shown in Figure 10, the mounting portion 162 is provided with a fastening hole 162a to communicate with the upper plate fastening hole (111a) and the casing fastening hole (131a), the generator 130 is the first fastening screw ( 121 is screwed to the mounting portion 162 and the upper plate 111 at the same time.

As shown in FIG. 8, in the generator built-in wind generator A according to another embodiment of the present invention illustrated in FIGS. 6 to 11, the blades 114 are formed in a spiral shape.

According to the configuration as described above, the wind enters the inner space S1 while forming a flow path spirally through the inner surface 114a of the blade 114, and afterwards extinguishes while staying in the inner space S1 for a long time. There is an advantage that can increase the rotational efficiency of (110).

Reference numeral 114b denotes an outer surface 114b of the blade 114.

And the blade 114 is characterized in that the upper plate 111 and the lower plate 112 is fixed to the inside by entering a predetermined distance (w1), respectively (see Figure 6).

6, 9 and 10, in the generator-built wind generator A according to another embodiment of the present invention, the blade 114 is inclined at a predetermined angle (θ) with respect to the vertical It is characterized by being. According to this, there is an advantage that the rotation speed of the impeller 110 can be made even faster.

As shown in FIG. 9, in the generator-built wind generator A according to another embodiment of the present invention, the flow path guide member includes a guide tube 150 having a through hole 150b formed therein. The outer circumferential surface 150a of the guide tube 150 is curved while the outer diameter decreases toward the center in the direction in which the flow passage through holes 111b and 112b are smoothly guided without resistance. 130 is accommodated in the inner space (S3) of the through hole (150b) is characterized in that it is mounted on the upper plate 111 or the lower plate (112).

According to this, there is an advantage that the wind can be smoothly and quickly in and out while minimizing the resistance of the wind coming into the impeller 110 by a simple configuration.

As shown in FIG. 12, the shaft rod 140 includes a vertical portion 140a and a bent portion 140b bent in the direction of the ventilation opening D from the vertical portion 140a, and the generator 130 includes the bent portion ( Even if it is installed to be rotatable in 140b) is of course within the technical scope of the present invention.

In the generator built-in wind generator (A) according to another embodiment of the present invention, the flow path guide member (150, 160, 170) is the upper plate 111 or the lower plate by a screw fastening method by welding or fastening screw 121, etc. Can be mounted to 112.

On the other hand, the space (S2) inside the generator 130 is provided with a magnet and an induction coil, etc. for generating the induced electromotive force, of course, the current excited in the generator 130 is stored in the storage battery (not shown) Of course.

It will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. It is self-evident to those who have.

Therefore, the above-described embodiments are to be considered as illustrative rather than restrictive, and the present invention is not limited to the above description, but may be modified within the scope of the appended claims and equivalents thereof.

A: Wind power generator according to the present invention
110 impeller S1: internal space of the impeller
111: upper plate of the impeller 111a: upper plate fastening hole
112: lower plate of the impeller 112a: lower plate fastening hole
111b, 112b: flow passage hole 112c: insertion opening
113, 114: impeller blade 113a: blade body portion
113b: blade tail 114a: inner surface of the blade
114 b: outer surface of the blade 121: first fastening screw
122: second tightening screw 130: generator
S2: Generator internal space 131: Generator casing
131a, 131a ': casing fastening hole 131b: insertion hole
br: bearing 140: shaft
140a: vertical portion 140b: bend portion
150: guide pipe 160, 170: euro guide member
150b: through hole 150a: outer circumferential surface of the guide tube
161, 171: side portion 162, 172: mounting portion
162a, 172a: fastening hole 161a, 171a: outer peripheral surface of the side portion
161b, 171b: inner circumferential surface of the side part S3: inner space of the guide member
D: Ventilation opening B: Mounting table

Claims (5)

delete In a wind turbine for power generation using wind from the building's ventilation openings (D):
The upper plate 111, the lower plate 112 spaced apart from the upper plate 111, and a plurality of blades 113 and 114 fixedly installed at equal intervals on the upper plate 111 and the lower plate 112, respectively. It is composed of, the impeller 110 is located in front of the ventilation opening (D) of the building to be rotated by the wind discharged from the ventilation opening (D) flows into the blades (113, 114);
A generator 130 accommodated in the internal space S1 of the impeller 110 to generate an induced electromotive force by rotating integrally with the impeller 110;
It includes a shaft 140 which is installed in the casing 131 of the generator 130 perpendicular to the rotation direction of the generator 130 so that the generator 130 is rotatable in accordance with the rotation of the impeller 110. Become,
Either of the lower plate 112 or the upper plate 111 has flow passage passage holes 111b and 112b for discharging the wind introduced into the internal space S1 of the impeller 110 through the blades 113 and 114 to the outside. Formed in one,
The generator 130 is provided in the inner space S1 of the impeller 110 when the flow passage through hole 112b is formed in the lower plate 112, and is provided in the upper plate 111. When the (111b) is formed on the upper plate 111 is mounted on the lower plate 112 is provided in the inner space (S1) and the generator built-in wind generator, characterized in that to rotate integrally with the impeller (110).
In a wind turbine for power generation using wind from the building's ventilation openings (D):
The upper plate 111, the lower plate 112 spaced apart from the upper plate 111, and a plurality of blades 113 and 114 fixedly installed at equal intervals on the upper plate 111 and the lower plate 112, respectively. It is composed of, the impeller 110 is located in front of the ventilation opening (D) of the building to be rotated by the wind discharged from the ventilation opening (D) flows into the blades (113, 114);
A generator 130 accommodated in the internal space S1 of the impeller 110 to generate an induced electromotive force by rotating integrally with the impeller 110;
It includes a shaft 140 which is installed in the casing 131 of the generator 130 perpendicular to the rotation direction of the generator 130 so that the generator 130 is rotatable in accordance with the rotation of the impeller 110. Become,
Either of the lower plate 112 or the upper plate 111 has flow passage passage holes 111b and 112b for discharging the wind introduced into the internal space S1 of the impeller 110 through the blades 113 and 114 to the outside. Formed in one,
In order to allow the wind flowing through the blades 113 and 114 to be smoothly discharged to the passage passage holes 111b and 112b, the upper plate 111 or the lower plate 112 is provided in the internal space of the impeller 110. Is further configured to include a flow path guide member (150, 160, 170),
The generator (130) is a generator built-in wind generator, characterized in that is provided in the interior space (S3) of the flow path guide member (150, 160, 170).
The method according to claim 3,
The flow guide member is composed of a guide tube 150 having a through hole 150b formed therein,
The outer circumferential surface 150a of the guide tube 150 is curved while the outer diameter decreases toward the center in the direction in which the passage passage holes 111b and 112b are located to guide the wind.
The generator 130 is accommodated in the inner space (S3) of the through hole (150b) is built-in generator, characterized in that mounted on the upper plate 111 or lower plate (112).
The method according to claim 3,
The flow path guide members 160 and 170 may include side parts 161 and 171 and mounting parts 162 and 172 that block one side of the side parts 161 and 171.
The outer circumferential surfaces 161a and 171a of the side parts 161 and 171 are curved while the outer diameter decreases toward the center in the direction in which the passage passage holes 111b and 112b are located to guide the wind.
The generator 130 is accommodated in the inner space (S3) formed by the inner circumferential surfaces (161b, 171b) of the side parts (161, 171) is mounted on the mounting portion (162, 172), characterized in that the generator .

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