KR102529368B1 - Air circulation maximizing wind power engine - Google Patents

Abstract

The present invention relates to an air-maximized induction wind engine, which can be expected to have a high energy generation effect, comprising: a main body (10) having a hub axis (16) installed therein; a horizontally operated rotating body (20); a generator (30) for producing electricity; and a wind power supply fan (40) for supplying wind power to a lower part of the horizontally operated rotating body (20).

Description

Air circulation maximizing wind power engine}

The present invention relates to an air maximization induction wind engine, and more particularly, the output of a windmill is proportional to the square of the blade radius. Also, when the wind speed is doubled, the power output increases by 8 times (i.e. 8 times the energy is used). As a principle, air density in the global village is mostly 1,225 (kg/m3). The construction of this natural law maximization induction device relates to an air maximization induction wind engine in which four-dimensional operating energy is created.

Conventional methods and facilities for generating electricity include nuclear power generation, thermal power generation, solar power generation, and hydroelectric power generation.

In the case of thermal power generation and nuclear power generation, although they have the ability to produce electricity, problems such as generation of pollutants harmful to the human body and the environment, and increased energy such as solar power output is proportional to the square of the radius of the wing, do not exist, Even if installed, there is a problem in that the installation cost is high because it cannot meet the domestic energy demand.

Registered Patent No. 10-1112479 Registered Patent No. 10-0755737 Registered Patent No. 10-0755739 Registered Patent No. 10-0966031

Accordingly, according to the present invention, the output of the windmill is proportional to the square of the blade radius according to the foundation of the wind turbine. Also, when the wind speed is doubled, the power output increases eight times. The output increases towards the tip of the wing. The output is insignificant near the hub. etc. refers to the existence of creative energy.

At this time, the representative three-winged windmill on the horizontal axis has the smallest wing width in the circumferential part with the largest area and action power when operating in 99% of the world's current 4-dimensional operation, the wing inclination is irregular, and three wings are composed of multiple When this is large and reaches 20 m/s per second, many problems such as a shutdown device and about 1% of the numerical physics are non-conversational and the remaining 99% are abandoned without being accepted. Therefore, the wind power formula (½pAmV³), that is, the above three blades windmill Example: Diameter 50m = cross-sectional area 1962,5㎡ × air density 1,225kw/㎥ × wind speed 7,5 (㎨V³) × efficiency 50 (%) = power 507kw is produced do.

In the present invention, a horizontally operated rotary body with a plurality of independent lightweight carbon fiber blades is, for example: 50 m in diameter, 1,225 kw/m 3 in air density, and 50 (%) in efficiency, the same as each windmill with three blades, but with a speed of 15 When (㎨V³) is doubled, the output increases by 8 times, and the output is proportional to the square of the wing radius. Diameter 50m radius (r) 25 × 25 = 625 (times), that is, 5,000 (times) more energy is created.

In the air maximization induction wind engine of the present invention for achieving the above technical problem, a ring-shaped first fixture 11 installed on the ground is formed, and a first installation made of a disc in the center of the first fixture 11 A portion 12 is formed and extends radially from the first installation portion 12 to be connected to the first fixture 11, and protrudes vertically at intervals on an arc to the top of the fixture 11 A support 13 is formed, and a second fixture 14 having the same ring shape as the first fixture 11 is formed on the upper side of the support 12, and a disk is formed in the center of the second fixture 14. The second installation part 15 is formed and extends radially from the second installation part 15 to be connected to the second fixing body 14, and the second installation part 15 from the first installation part 12 The main body 10 in which the hub shaft 16 protrudes upward is installed; A rotating ring 21, which is a ring shape spaced apart inside the second fixed body 14 of the main body 10, is formed and becomes a disk in the center of the rotating ring 21, so that the hub shaft 16 is reduced ( 22) is formed, and a plurality of spiral blade rotation guide plates 24 are formed around the circumference from the shaft tongue 22 to the rotation ring 21 so as to be radially coupled at regular equal angle intervals, so that the plurality of A horizontally operated rotating body 20 that is rotated by the principle of constant speed and turning force, lever motion force, and angular momentum by supplying wind power to the spiral blade rotation guide plate 24; The upper part of the horizontally operated rotary body 20 is configured coaxially with the hub shaft 16 on which the horizontally operated rotary body 20 is stored, and operates according to the rotation of the horizontally operated rotary body 20 to generate electricity. Generator 30 to produce; It is characterized in that it is configured to include; wind power supply fan 40 for supplying wind power to the lower part of the horizontally operated rotating body 20.

In addition, the wind power supply fan 40 extends from the outside of the main body 10 to the inside of the main body 10 between the supports 12, and the ends extending to the main body 10 are installed at regular intervals. 24), it is characterized in that it consists of a plurality of induction pipes 41 for inducing supply, and a supply fan generating air on the other side of the induction pipe 41 and supplying it to the induction pipe 41.

In addition, the horizontally operated rotating body 20 has a plurality of spiral blade rotation guide plates 24 attached to each radially at a constant equal angle around the circumference, and a rotating ring 21 inside the second fixed body 14. A plurality of circumferential bearings 50 rotatably supporting the outer side of the ) are installed, and the horizontally operated rotating body 20 responds to the centrifugal force of the hub shaft 16 by wind power supplied by the wind power supply fan 40. It is characterized in that the action of the centripetal force is made to promote the safe operation of the horizontally operated rotating body (20).

In addition, a plurality of air outlets 25 are formed in the spiral blade rotation guide plate 24, and the spiral blade rotation guide plate 24 is inclined according to the direction of the wind power supplied by the wind power supply fan 40. to be characterized

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In the present invention, a rotatable horizontally operated rotor having a spiral blade rotation guide plate is rotatably supported through a circumferential bearing inside the main body, and a wind power supply fan for supplying wind power to the spiral blade rotation guide plate is provided, Through the interaction of the centrifugal force of the center of the horizontally operating type rotating body and the centripetal force given to the circumferential bearing outside it, the stable rotation and operation of the horizontally operating type rotating body can be promoted, as well as the centrifugal force and It is a useful invention that can expect a high energy generation effect by setting the distance between the centripetal forces of the circumferential bearing as far as possible and according to the principle of leverage and angular momentum that the output is proportional to the square of the radius.

1 is a perspective view showing a preferred embodiment of the present invention
Figure 2 is a perspective view showing a preferred form of the main body and horizontally operated rotating body of the present invention
3 is a side view showing a preferred form in which the present invention operates;
4 is an enlarged view of part A of FIG. 1

The air maximization induction wind engine of the present invention will be described in more detail based on the accompanying drawings.

1 is a perspective view showing a preferred embodiment of the present invention, Figure 2 is a perspective view showing a preferred form of the main body and horizontally operated rotating body of the present invention, Figure 3 is a side view showing a preferred form in which the present invention works , Figure 4 is an enlarged view of portion A of Figure 1, the present invention is configured to include a main body 10, a horizontally operated rotating body 20, a generator 30, a wind power supply fan 40.

The main body 10 has a cylindrical shape in which a ring-shaped first fixture 11 and a second fixture 14 installed on the ground are connected by a support, so that the first fixture 11 and the second fixture The first and second installation parts 12 and 15 are formed at the center of the body 14, respectively, and the hub shaft 16 protrudes upward from the first and second installation parts 12 and 15 to the upper part of the second installation part 15. It is composed so that

The horizontally operated rotating body 20 is formed in a circular shape, accepts wind power supplied from below with minimal loss, and rotates horizontally according to its counteraction, coaxially with the hub shaft 16 to drive the generator 30. .

The generator 30 is configured coaxially with the hub shaft 16 on which the horizontally operated rotating body 20 is installed on the top of the horizontally operated rotating body 20 and operates according to the rotation of the horizontally operated rotating body 20. It is configured to generate electricity.

The wind power supply fan 40 is configured to promote the operation of the horizontally operated rotating body 20 by supplying wind power to the lower part of the horizontally operated rotating body 20 .

<body>

The main body 10 is installed on the ground, and a horizontally operated rotating body 20, a generator 30, and a wind power supply fan 40 to be described later each As a structure to be installed, a ring-shaped first fixture 11 installed on the ground is formed, and a first installation part 12 made of a disk is formed in the center of the first fixture 11, so that the first installation part ( It extends radially from 12) and is formed to be connected to the first fixture 11.

In addition, a support 13 protruding vertically at intervals on a circular arc is formed on the upper part of the fixture 11.

In addition, a second fixture 14 having the same ring shape as the first fixture 11 is formed on the upper side of the support 12, and a second installation part 15 made of a disc at the center of the second fixture 14 ) is formed and extends radially from the second installation part 15 to be connected to the second fixture 14, and the hub shaft protrudes from the first installation part 12 to the second installation part 15. (16) is installed.

<Horizontal motion type rotating body>

In the horizontal operation type rotating body 20, a ring-shaped rotating ring 21 spaced apart inside the second fixed body 14 of the main body 10 is formed, and a disk is formed in the center of the rotating ring 21 to form a hub shaft. (16) is formed with a shaft tongue 22 is formed to rotate around the hub axis 16 is made of a structure.

In addition, a plurality of spiral blade rotation guide plates 24 are formed around the circumference from the shaft tongue 22 to the rotation ring 21 so as to be radially coupled at regular equal angle intervals, thereby inducing the rotation of the plurality of spiral blades. Wind power is supplied to the plate 24 so that it is rotated at a constant speed, a turning force, a leverage force, and an angular momentum principle.

Therefore, wind power is supplied to the plurality of spiral blade rotation guide plates 24 to rotate at a constant speed, a turning force, a lever motion force, and an angular momentum principle.

In addition, a plurality of circumferential bearings 50 rotatably supporting the outside of the rotary ring 21 are installed inside the second stationary body 14, so that the horizontally operated rotary body 20 is a wind power supply fan 40 The action of the centripetal force corresponding to the centrifugal force of the hub shaft 16 is made by the wind power supplied by, so that the safe operation of the horizontally operated rotating body 20 can be achieved.

That is, the centrifugal force of the horizontally operated rotary body 20 by the hub shaft 16 and the centripetal force composed of the circumferential bearing 50 so that the rotary ring 21 can rotate in all directions interact with each other to form a large horizontally operated type. The rotating body 20 also operates safely, which is operated by the resultant force of force, the force to withstand the wall or the force to withstand the floor, or the existence of various unexpected advantages.

On the other hand, the spiral blade rotation guide plate 24 is formed inclined according to the direction of the wind power supplied by the wind power supply fan 40, and the material is composed of light carbon fiber.

Therefore, the horizontal motion type rotary body 20 of the present invention is a configuration that creates space-time four-dimensional operating energy based on the principle of the natural law of moment of inertia in the rotational force, lever motion force, and rotational motion that is most advantageous for horizontal motion and the original energy existence. .

<Generator>

The generator 30 generates electricity while rotating simultaneously as it is connected to the horizontally operated rotating body 20 and the hub shaft 16 at the upper part of the horizontally operated rotating body 20, and the inside thereof Since the structure and principle of is already widely known, a detailed description of the structure will be omitted.

<Wind Power Supply Fan>

The wind power supply fan 40 extends from the outside of the main body 10 to the inside of the main body 10 between the supports 12, and the ends extending to the main body 10 are installed on the spiral blade rotation guide plate 24 installed at equal intervals. It is configured to include a plurality of guide tubes 41 leading to supply.

In addition, it is composed of a supply fan that generates air on the other side of the induction pipe 41 and supplies it to the induction pipe 41.

At this time, the plurality of guide tubes 41 are installed at equal intervals from the tongue part 22 to the rotary ring 21, and in preparation for the tongue part 22 among the spiral blade rotation guide plates 24, the tongue part 22 It is configured to be individually supplied to the and adjacent parts, middle parts, and outermost parts.

Most of the wind power generated by the wind power supply fan 40 is dissipated due to the action of the wind power generating helical blade rotation guide plate 24, and the remaining energy passes through the plurality of air outlets 25 to the generator 30 at the top. It may also perform a cooling function.

<Reference>

According to the basics of wind turbines, Jang Jong-hoon, Intervision, page 69, lines 3 to 7, etc., the output is proportional to the third power of the wind speed, so when the wind speed doubles, the output increases eight times. Power is proportional to the density of the air, which varies with temperature and altitude. "Power is proportional to the square of the radius of the wing", i.e. a 10% increase in radius results in a 21% increase in power. According to page 102, line 5 or less, the power factor increases toward the tip of the wing. Near the hub, the output of the turbine is negligible. This is an absolute value that no one who specializes in creative energy existence can deny.

At this time, 99% of the world's 3-wing windmill installation construction 4-dimensional operation, the working power effect gradually increases from the central axis to the circumference, and the largest at the tip of the wing. And the area of the circumferential part is the largest. However, conversely, the blade width gradually decreases from the central axis of the three-winged windmill to the circumference. In addition, the wing inclination greatly differs in the acceptance value, and the wings are composed of several layers, the weight is large, and the wind speed is irregular at 3m/s to 13m/s. Despite the fact that the remaining 99% of the conversation capacity is wasted, the energy generated without stopping is because the output has energy proportional to the square of the wing radius.

Therefore, the modern wind power formula (½pAmV³) ½*density*area*velocity, that is, outside of ½, space is three-dimensional.

The present invention is a horizontally operated rotating body 20 having a plurality of light carbon fiber wings independent of the entire diameter, and has a shaft tongue 22 for the purpose of advantageously introducing air into the main body 10 through a wind power supply fan 40 In preparation for this, wind power is supplied to the shaft 22, the adjacent portion, the middle portion, and the outermost portion, respectively, to produce wind power to a plurality of radial spiral blade rotation guide plates 24 having different diameters in the upper part of the entire cross-sectional area. Action At this time, the centrifugal force centered on the hub axis 16 of the rotating body and the centripetal force of the circumferential bearing 50 of the rotating ring outside it interact (At this time, the resultant force of the force, the force holding the wall or the force holding the floor, or Angular momentum is the safe operation of a horizontally operated rotating body, that is, the amount multiplied by the momentum (amount multiplied by the mass and the rotational speed) of the rotating angular part of the rotating object and the distance from the rotating axis. Or, the most advantageous turning force of horizontal rotation, the force of direct motion, the moment of inertia, the principle of natural law, four-dimensional operation based on the principle, confirm the key theorem with the numerical physics ground comparison table below by the above formula according to the existence of the original energy.

<Comparison Table>

Existing wind power formula (½pAmV³) 1/2, here handling efficiency 50 (%), P: energy [kW/h], A: cross-sectional area (㎡), m: air density 1.225 (kg/㎥), average wind speed (㎨V³) ), “power is proportional to the square of the wing radius”. When the wind speed is doubled, the output is increased by a factor of 8.

NO briefs diameter cross-sectional area air density wind speed default circumference radius
square efficiency total production offset value output
(Surplus) unit 1,2 m ㎡ kg/m3 ㎨V³ kw/h radius (r),
(ship) % kw/h kw/h kw/h One existing
windmill 50 1,962.5 1,225 7,5 1,014 3 wings
'0' 50 about 507 0 507 2 source
invent 50 1,962.5 1,225 15 8,114 25×25=625 50 2,535,625 -8,114 2,527,511

As shown in [Table 1] above, compared to the existing windmill, the original invention shows a surplus power production amount of about 5,000 times when the windmill with three blades is the standard. Here, 50% efficiency was applied, and even if power consumption is offset, it is a source invention technology in the field of green energy creation by installing it where energy in the global village is needed at low cost of source facilities.

Therefore, in view of the operating power generation due to the adverse conditions of the existing three-winged windmill, the present invention is improved in the setting device up to 15 ~ 30m/s even for large machines by interaction with the centrifugal force of the rotating ring in the housing and the centripetal force of the circumferential bearing, and the same speed It is possible to generate electricity by operating safely.

10: body 11: first fixture
12: installation part 13: support
14: second fixture 15: second installation part
16: hub axis 20: horizontally operated rotating body
21: rotation ring 22: shaft tongue
24: spiral blade rotation guide plate 25: air outlet
30: generator 40: wind power supply fan
41: guide pipe 50: circumferential bearing

Claims (5)

A ring-shaped first fixture 11 installed on the ground is formed, and a first installation part 12 made of a disc is formed in the center of the first fixture 11, so that the first installation part 12 radially It is formed to be extended and connected to the first fixture 11, and a support 13 protruding vertically at intervals on an arc is formed on the upper part of the fixture 11, and a first support 13 is formed to the upper side of the support 12. A second fixture 14 having the same ring shape as the fixture 11 is formed, and a second installation part 15 made of a disc is formed in the center of the second fixture 14, so that the second installation part 15 A body 10 extending radially from the body 10 formed to be connected to the second fixture 14 and having a hub shaft 16 protruding from the first installation part 12 to the second installation part 15;
A rotating ring 21, which is a ring shape spaced apart inside the second fixed body 14 of the main body 10, is formed and becomes a disk in the center of the rotating ring 21, so that the hub shaft 16 is reduced ( 22) is formed, and a plurality of spiral blade rotation guide plates 24 are formed around the circumference from the shaft tongue 22 to the rotation ring 21 so as to be radially coupled at regular equal angle intervals, so that the plurality of A horizontally operated rotating body 20 that is rotated by the principle of constant speed and turning force, lever motion force, and angular momentum by supplying wind power to the spiral blade rotation guide plate 24;
The upper part of the horizontally operated rotary body 20 is configured coaxially with the hub shaft 16 on which the horizontally operated rotary body 20 is stored, and operates according to the rotation of the horizontally operated rotary body 20 to generate electricity. Generator 30 to produce;
An air maximization induction wind engine, characterized in that it is included and configured; wind power supply fan (40) for supplying wind power to the lower part of the horizontally operated rotating body (20). According to claim 1,
The wind power supply fan 40 extends from the outside of the body 10 to the inside of the body 10 between the supports 12, and the spiral blade rotation guide plate 24 having ends extending to the body 10 are installed at equal intervals. A plurality of guide tubes 41 for inducing supply to the
An air maximization induction wind engine, characterized in that composed of a supply fan for generating air on the other side of the induction pipe (41) and supplying it to the induction pipe (41). According to claim 2,
The horizontally operated rotating body 20 has a plurality of spiral wing rotation guide plates 24 attached to the circumference in a constant equal angle radial shape, respectively,
A plurality of circumferential bearings 50 rotatably supporting the outside of the rotary ring 21 are installed inside the second fixed body 14, so that the horizontally operated rotary body 20 is attached to the wind power supply fan 40. An air maximization induced wind engine characterized in that the action of centripetal force corresponding to the centrifugal force of the hub shaft 16 is made by the wind power supplied by the horizontal operation type rotation body 20 to promote safe operation. According to claim 3,
A plurality of air outlets 25 are formed in the spiral blade rotation guide plate 24,
The air maximization induced wind engine, characterized in that the spiral blade rotation guide plate (24) is formed inclined according to the direction of the wind power supplied by the wind power supply fan (40). delete

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