KR101806399B1 - ventilator - Google Patents

Abstract

The present invention relates to a ventilator which comprises: a first case which is placed in the upper part of a vertical duct, of which the width goes narrower upwards, and into which indoor air flows; a second case which is combined with the upper part of the first case, and wherein a generator is accommodated; a third case which is combined with the upper part of the second case, and where a wave-shaped blade is placed in the upper part thereof; a rotary blade which is placed inside the third case, and rotates by wind power of the indoor air flowing into through the first case; and a penetration type connection pin which is fixed to the upper part of the wave shaped blade, which penetrates the rotary blade, and of which one end is connected with the generator so that the generator can be self-powered by rotational force of the wave shaped blade and the rotary blade. Therefore, the ventilator can be self-powered by utilizing wind power caused by air currents formed in an air duct.

Description

The ventilator {ventilator}

The present invention relates to a ventilator, and more particularly, to a self-generating ventilator.

Since the late 1990s, there has been a continuing need for measures to solve energy consumption problems with the proliferation of high-rise residential buildings. In particular, for high-rise buildings, the ratio of new and renewable energy is regulated to be more than 3%, and the proportion of renewable energy applications in high-rise buildings will become more important in the future.

Solar power, which is the most commonly applied new renewable technology, has a daily power generation of about 3.5 hours and requires a large area for 1kw production.

In addition, there is a method of generating electric power by installing a power generation facility using wind power on the roof or roof of a skyscraper, but it is also difficult to apply the wind power facility in the city center. In addition, There is a problem that the property is lowered.

On the other hand, in the case of a skyscraper, it is possible to utilize the elevation difference of the building itself and the wind environment at a high altitude, so that the power generation utilizing wind power generated by a ventilation facility, such as a ventilator installed on a roof or a roof, It has a high possibility to do. In particular, due to the nature of skyscraper buildings, due to the nature of the skyscraper as well as the wind power generation by natural wind, the chimney effect generated from the air ducts passing through the building (due to the influx of outside air in the lower part of the winter, It is anticipated that technologies capable of producing electricity using such wind power will be continuously developed.

Korean Patent No. 10-1604909 (2013.03.14)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a self-generating ventilator.

It is another object of the present invention to provide a ventilator capable of self-power generation by utilizing wind power generated by an airflow formed in an air duct.

According to an aspect of the present invention, there is provided a ventilator comprising: a first case provided on an upper portion of a vertical duct and formed to have a narrower width in an upward direction, A second case coupled to an upper portion of the case and having a generator accommodated therein, a third case coupled to an upper portion of the second case and having a wing on an upper side thereof, A rotating blade rotatable by the wind force of the room air introduced through one case; a rotating blade fixed on the top of the wave blade and passing through the rotating blade, one end of which is connected to the generator to rotate the wave blade and the rotating blade And a through-type connecting pin for allowing the generator to generate electricity by a rotational force.

The rotating type blade may include a body through which the through type connecting pin passes, and a plurality of blades provided on an outer circumferential surface of the body and rotated by wind force.

The first case includes a first coupling part coupled to the vertical duct, a main body part extending upward in the first coupling part and narrowing in an upward direction, And a second engaging portion inserted into the second case and engaged with the second case.

The first coupling unit may include a first horizontal member provided on an upper portion of the vertical duct and a first vertical member extending downward from the first horizontal member to face the outer surface of the vertical duct.

The second engaging portion may include a second horizontal member on which the lower portion of the second case rests, and a second vertical member extending upward in the second horizontal member and inserted into the second case.

The second case includes a third engaging portion located outside the second vertical member and a fourth engaging portion extending upward in the third engaging portion and inserted into the third case and engaged with the third case, And a fixing unit which is provided on the inner side of the fourth coupling unit and accommodates the generator, and a fixing unit that connects the receiving unit and the fourth coupling unit to fix the receiving unit.

The fourth engaging portion may include a third horizontal member on which the lower portion of the third case rests, and a third vertical member extending upward in the third horizontal member and inserted into the third case.

According to another aspect of the present invention, there is provided a ventilator comprising: a first case which is provided on an upper portion of a vertical duct and is formed to have a narrower width in an upward direction, A second case coupled to an upper portion of the first case and receiving a generator therein, a third case coupled to an upper portion of the second case and having a wing on an upper side thereof, A fixed blade fixed to the third case and rotated together with the third case by the wind force of the room air introduced through the first case, and a fixed blade coupled with the fixed blade so that the fixed blade is connected to the generator And a coupling type connecting pin.

The fixed blade includes a main body, a plurality of fixing members extending from the main body and having one end connected to the third case to integrate the fixed blade and the third case, and a plurality of fixing members extending between the plurality of fixing members, And a wing member for allowing the third case and the fixed blade to rotate by the wind force of the first case and the second case.

The first case includes a first coupling part coupled to the vertical duct, a body extending upward in the first coupling part and narrowing in an upward direction, and a body extending from the body, And a second engaging portion inserted into the second case and engaged with the second case.

The first coupling unit may include a first horizontal member provided on an upper portion of the vertical duct and a first vertical member extending downward from the first horizontal member to face the outer surface of the vertical duct.

The second engaging portion may include a second horizontal member on which the lower portion of the second case rests, and a second vertical member extending upward in the second horizontal member and inserted into the second case.

The second case includes a third engaging portion located outside the second vertical member and a fourth engaging portion extending upward in the third engaging portion and inserted into the third case to engage with the third case. And a fixing unit which is provided on the inner side of the fourth coupling unit and accommodates the generator, and a fixing unit that connects the receiving unit and the fourth coupling unit to fix the receiving unit.

The fourth engaging portion may include a third horizontal member on which the lower portion of the third case rests, and a third vertical member extending upward in the third horizontal member and inserted into the third case.

According to the inventive ventilator, by providing a generator, self-power generation utilizing wind power can be performed.

In addition, by providing the blades, it is possible to perform self-power generation utilizing the wind force generated by the airflow formed in the air duct.

1 is a perspective view of a ventilator according to an embodiment of the present invention;
2 is a sectional view of the ventilator shown in Fig.
3 is an exploded view of the ventilator shown in Fig.
4 is a perspective view of a ventilator according to another embodiment of the present invention;
5 is a cross-sectional view of the ventilator shown in Fig.
6 is an exploded view of the ventilator shown in Fig. 5; Fig.

Hereinafter, a ventilator according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a ventilator according to one embodiment of the present invention, and FIG. 2 is a cross-sectional view of the ventilator shown in FIG.

1 and 2, the ventilator 10 according to an embodiment of the present invention is coupled with the vertical duct 20 of the structure to discharge indoor air to the outside by wind power, The self-power generation can be performed by utilizing the wind power of the indoor air flowing through the vertical duct 20. [

The ventilator 10 may include a first case 100, a second case 200, a third case 300, a rotating blade 400, and a penetrating connecting pin 500 have.

The first case 100 is provided on the upper portion of the vertical duct 20 and is formed to have a narrower width toward the upper direction so that room air can be introduced into the interior. Since the first case 100 is formed in the above-described shape, it is possible to induce the room air to the central portion of the first case 100 to increase the power generation amount.

The second case 200 is provided on the upper part of the first case 100 and is coupled to the upper part of the first case 100 and the generator 30 is accommodated therein. And may be provided on the upper portion of the second case 200 and coupled with the upper portion of the second case 200 and provided with a wing 40 on the upper side.

The rotatable blade 400 is provided inside the third case 300 and can be rotated by the wind force of the indoor air introduced through the first case 100.

The through-type connecting pin 500 may integrally connect the corrugated vane 40, the rotating blade 400, and the generator 30. To this end, the through-type connection pin 500 may be provided such that one end thereof is connected to the generator 30 and the other end thereof is fixed to the upper portion of the wave vane 40 and penetrates the rotation type blade 400.

The rotatable blade 400 is provided on the outer surface of the body 410 through which the through-type connecting pin 500 passes and is connected to the wind force of the indoor air flowing through the first case 100 And may include a plurality of blades 420 that rotate.

As the wing blades 40, the rotating blades 400 and the generator 30 are integrally connected by the through-type connecting pins 500 as described above, when the wing blades 40 rotate due to natural wind, The generator 30 is operated by the force generated when the rotatable blade 400 rotates due to the force generated by the internal air flowing through the vertical duct 20 or by the internal air introduced through the vertical duct 20,

Hereinafter, the first case 100, the second case 200 and the third case 300 will be described in more detail. In the following description, only different parts from the above-described embodiment will be described in detail and the same or similar parts will not be described in detail.

3 is an exploded view of the ventilator shown in Fig.

1 to 3, a ventilator 10 according to an embodiment of the present invention is provided at an upper portion of a vertical duct 20 and is formed to have a narrower width toward the upward direction, A second case 200 coupled to an upper portion of the first case 100 and receiving the generator 30 therein; a second case 200 coupled to an upper portion of the second case 200, A rotatable blade 400 which is provided inside the third case 300 and rotates by the wind force of indoor air introduced through the first case 100, And is connected to the generator 30 so that one end of the rotor 30 is connected to the generator 30 so that the generator 30 is self-powered by the rotational force of the wing blades 40 and the rotatable blades 400 (Not shown).

The first case 100 may include a first coupling part 110, a main body part 120, and a second coupling part 130.

The first coupler 110 is coupled to the vertical duct 20 and includes a first horizontal member 111 provided on the upper portion of the vertical duct 20 and a second horizontal member 111 provided on the upper portion of the first horizontal member 111, And a first vertical member 112 extending to abut the outer surface of the vertical duct 20. Since the first coupling unit 110 includes the first horizontal member 111 and the first vertical member 112, a portion of the upper portion of the vertical duct 20 is connected to the first coupling unit 110 Can be covered.

The main body portion 120 is a portion which upwardly extends from the first coupling portion 110 and allows indoor air moved through the vertical duct 20 to substantially flow into the first case 100, And may be provided in a shape in which the width becomes smaller. The above-described configuration can induce the indoor air to flow easily in the direction of the rotary blades 400, thereby increasing the amount of power generated by the generator 30.

The second coupling part 130 extends upward from the second horizontal member 131 and the second horizontal member 131 which extend from the main body part 120 and on which the lower part of the second case 200 is mounted, And a second vertical member 132 inserted into the second case 200. The second coupling portion 130 includes the second horizontal member 131 and the second vertical member 132 so that the second case 200 can be stably supported and coupled with the second case 200 .

The second case 200 may include a third coupling part 210, a fourth coupling part 220, a receiving part 230, and a fixing part 240.

The third coupling part 210 is located outside the second vertical member 132 and is inserted into the third coupling part 210 in the first case 100 and the second case 200 are connected to each other. At this time, the third coupling portion 210 is provided so that the inner side thereof abuts the outer side surface of the second vertical member 132, so that the first case 100 and the second case 200 can not be easily separated.

The fourth engaging part 220 is coupled to the third case 300 and includes a third horizontal member 221 on which the lower part of the third case 300 rests, And a third vertical member 222 extending in the direction of the first case 300 and inserted into the third case 300. The fourth coupling unit 220 may include the third horizontal member 221 and the third vertical member 222 to stably support the third case 300 and may be coupled to the third case 300 . The outer surface of the third vertical member 222 is configured to abut the inner surface of the third case 300 so that the second case 200 and the third case 300 can not be easily separated.

The receiving portion 230 may be provided inside the fourth coupling portion 220 where the generator 30 is accommodated. The fixing part 240 includes at least four fixing parts 240 connecting the receiving part 230 and the fourth connecting part 220 from four sides to fix the receiving part 230, 30) to produce electricity structurally and safely.

As described above, the ventilator 10 is not installed in the first case 100, the second case 200, and the third case 300 through separate joining methods such as welding By being installed through a fitting method, it is easy to install and improve the workability. Also, disassembly is easy, and maintenance such as inspection or replacement can be easily performed.

Next, the ventilator 10 according to another embodiment of the present invention will be described.

FIG. 4 is a perspective view of a ventilator according to another embodiment of the present invention, and FIG. 5 is a sectional view of the ventilator shown in FIG.

4 and 5, the ventilator 10 according to another embodiment of the present invention is coupled with the vertical duct 20 of the structure to discharge indoor air to the outside by wind power, And the indoor air flowing through the vertical duct 20 can be utilized for self-power generation.

To this end, the ventilator 10 may include a first case 100, a second case 200, a third case 300, a fixed blade 600, and a coupling type connection pin 700 .

The first case 100 is provided on the upper portion of the vertical duct 20 and is formed to have a narrower width toward the upper direction so that room air can be introduced into the interior. Since the first case 100 is formed in the above-described shape, it is possible to induce the room air to the central portion of the first case 100 to increase the power generation amount.

The second case 200 is provided on the upper part of the first case 100 and is coupled to the upper part of the first case 100 and the generator 30 is accommodated therein. And may be provided on the upper portion of the second case 200 and coupled with the upper portion of the second case 200 and provided with a wing 40 on the upper side.

The fixed blade 600 is fixed to the third case 300 in the third case 300 and is coupled with the third case 300 by the wind force of the room air introduced through the first case 100 It can rotate.

The coupling type coupling pin 700 may be coupled with the fixed blade 600 to connect the fixed blade 600 to the generator 30. [ To this end, the coupling type connection pin 700 may be provided such that one end is connected to the generator 30 and the other end is connected to the fixed type blade.

The fixed blade 600 includes a main body 610 and a plurality of second main bodies 610 extending from the main body 610 and having one end connected to the third case 300 to integrate the fixed blade 600 and the third case 300 And a wing member 630 provided between the fixing member 620 and the plurality of fixing members 620 for allowing the third case 300 and the stationary blade 600 to rotate by wind force of room air .

As the fixed blade 600 is connected to the generator 30 by the coupling type connection pin 700 as described above, the force generated when the wing blade 40 rotates due to the natural wind or the force generated when the vertical duct 20 is rotated by the natural wind, The generator 30 is operated by the force generated when the stationary blade 600 rotates due to the wind force of the internal air introduced through the internal combustion engine 100,

Hereinafter, the first case 100, the second case 200 and the third case 300 will be described in more detail. In the following description, only different parts from the above-described embodiment will be described in detail and the same or similar parts will not be described in detail.

6 is an exploded view of the ventilator shown in Fig.

4 to 6, the ventilator 10 according to another embodiment of the present invention is provided at an upper portion of the vertical duct 20 and is formed in a shape that the width becomes narrower toward the upper direction, A second case 200 coupled to an upper portion of the first case 100 and accommodating the generator 30 therein, a second case 200 coupled to an upper portion of the second case 200, The third case 300 is provided in the third case 300 and is fixed to the third case 300. The third case 300 is provided with the first case 100, A fixed blade 600 rotating together with the third case 300 and a coupling type connection pin 700 coupling the fixed blade 600 to the generator 30 in combination with the fixed blade 600 can be provided .

The first case 100 may include a first coupling part 110, a main body part 120, and a second coupling part 130.

The first coupler 110 is coupled to the vertical duct 20 and includes a first horizontal member 111 provided on the upper portion of the vertical duct 20 and a second horizontal member 111 provided on the upper portion of the first horizontal member 111, And a first vertical member 112 extending to abut the outer surface of the vertical duct 20. Since the first coupling unit 110 includes the first horizontal member 111 and the first vertical member 112, a portion of the upper portion of the vertical duct 20 is connected to the first coupling unit 110 Can be covered.

The main body portion 120 is a portion which upwardly extends from the first coupling portion 110 and allows indoor air moved through the vertical duct 20 to substantially flow into the first case 100, And may be provided in a shape in which the width becomes smaller. The above-described configuration can induce the indoor air to flow easily in the direction of the rotary blades 400, thereby increasing the amount of power generated by the generator 30.

The second coupling part 130 extends upward from the second horizontal member 131 and the second horizontal member 131 which extend from the main body part 120 and on which the lower part of the second case 200 is mounted, And a second vertical member 132 inserted into the second case 200. The second coupling portion 130 includes the second horizontal member 131 and the second vertical member 132 so that the second case 200 can be stably supported and coupled with the second case 200 .

The second case 200 may include a third coupling part 210, a fourth coupling part 220, a receiving part 230, and a fixing part 240.

The third coupling part 210 is located outside the second vertical member 132 and is inserted into the third coupling part 210 in the first case 100 and the second case 200 are connected to each other. At this time, the third coupling portion 210 is provided so that the inner side thereof abuts the outer side surface of the second vertical member 132, so that the first case 100 and the second case 200 can not be easily separated.

The fourth engaging part 220 is coupled to the third case 300 and includes a third horizontal member 221 on which the lower part of the third case 300 rests, And a third vertical member 222 extending in the direction of the first case 300 and inserted into the third case 300. The fourth coupling unit 220 may include the third horizontal member 221 and the third vertical member 222 to stably support the third case 300 and may be coupled to the third case 300 . The third vertical member 222 is spaced apart from the third case 300 by a predetermined distance so that the third case 300 can be easily rotated from the third vertical member 222.

The receiving portion 230 may be provided inside the fourth coupling portion 220 where the generator 30 is accommodated. The fixing portion 240 connects the receiving portion 230 and the fourth connecting portion 220 to fix the receiving portion 230 so that the generator 30 accommodated in the receiving portion 230 can generate electricity structurally and safely .

As described above, the ventilator 10 is not installed in the first case 100, the second case 200, and the third case 300 through separate joining methods such as welding By being installed through a fitting method, it is easy to install and improve the workability. Also, disassembly is easy, and maintenance such as inspection or replacement can be easily performed.

While the present invention has been described with reference to the preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Those skilled in the art, who understands the spirit of the present invention, can readily suggest another embodiment by adding, changing, deleting, or adding elements within the scope of the same idea, but this is also within the spirit of the present invention something to do.

10: Ventilator 20: Vertical duct
30: generator 40: wing blade
100: first case 200: second case
300: third case 400: rotatable blade
500: Through-hole connection pin 600: Fixed blade
700: Coupling connection pin

Claims (14)

delete delete delete delete delete delete delete 1. A ventilator which is coupled with a vertical duct of a structure and discharges indoor air to the outside by wind power,
The ventilator is provided on the upper portion of the vertical duct and has a narrower width toward the upper side,
A second case coupled to an upper portion of the first case and receiving a generator therein,
A third case coupled to an upper portion of the second case and having a wing on an upper side thereof,
A fixed blade installed inside the third case and fixed to the third case and rotated together with the third case by wind force of room air introduced through the first case;
And a coupling type coupling pin coupled with the fixed blade to connect the fixed blade to the generator,
The fixed blade includes a main body, a main body, and a main body, which are extended from the main body and one end is connected to the third case to integrate the fixed blade and the third case, 3 cases, a plurality of fixing members for increasing the amount of self-generated power by increasing the amount of rotation transmitted to the generator by rotating the wing blades and the fixed blade provided in the third case integrally, And a wing member which is provided in the first case and allows the third case and the fixed blade to rotate by a rising air flow of room air,
The first case includes a first coupling part coupled to the vertical duct, a body extending upward in the first coupling part and narrowing in an upward direction, and a body extending from the body, And a second engaging portion inserted and joined to the second case,
Wherein the second engaging portion includes a second horizontal member on which a lower portion of the second case rests and a second vertical member extending upward in the second horizontal member and inserted into the second case,
The second case includes a third engaging portion located outside the second vertical member and a fourth engaging portion extending upward in the third engaging portion and inserted into the third case to engage with the third case. A receiving portion provided on the inner side of the fourth engaging portion and formed in a streamlined shape on the side of the first case side and accommodated in a form in which the generator is wrapped around the receiving portion and the fourth engaging portion, And a fixing unit for minimizing vibration and noise generated when the generator is operated by being fixed to the second case,
Wherein the fourth engaging portion includes a third horizontal member on which the lower portion of the third case rests, and a third vertical member extending upward in the third horizontal member and inserted into the third case,
Wherein the first coupling portion comprises a first horizontal member provided on an upper portion of the vertical duct and a first vertical member extending downward from the first horizontal member and abutting the outer surface of the vertical duct.
delete delete delete delete delete delete

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