KR20170129031A - The air gear liyong wind power generator - Google Patents

Abstract

Disclosed is a power generator using air and a gear, which is able to create a large amount of energy using a small amount of input energy with high efficiency. The power generator using air and a gear of the present invention comprises a housing, a generator, a rotor, a rotor drag surface, a rotor lift surface, a rotor shaft, a rotor shaft bearing, a fan house, fans, a spur gear, and a pinion drive gear. The power generator of the present invention further comprises: a plurality of radial rotor racks having diameters different from each other inside the rotor; a plurality of rotor supports supporting spaces between the rotor racks; and a plurality of rotor blades slantingly coupled between the rotor racks and the rotor supports.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to an air-

The present invention relates to a power generation apparatus using air and gears, and more particularly, to an apparatus and a method for generating power by simultaneously inputting a small amount of energy at an initial stage, a drag surface and a lift surface of a plurality of independent light fiber blades, B, c, and d in the front fan housing of the rotor, the rotational force acting on the air generating rotor and the rotational force acting on the rotor Of an electron circumferential spur gear: a pinion of a plurality of pinion drive gears: an angular momentum between the center axis and the rotor wing tip distance, the energy of which rotates integrally with each other. The mass of the object is multiplied by the rotational speed, and the distance is multiplied by the distance from the rotational axis to discharge the energy of the electric power according to the positive induction.

One windmill's "same wing", "same wind speed", "simultaneous operation", the center of the circle from the center of the effect of increasing power effect is the most contrary modern wings 3 windmills 99% of the world installed windmill wingspan to the circumference Smaller energy production, such as accommodating a portion of the value of the wind, such as a tapering configuration, or a large device cost, such as accommodating tragedy, and out-of-center motion, The creative work of. On the contrary, all modern machines have the problem that if the motion is twice as large as the diameter of the motion outside the center axis, the resistance becomes four times larger and destructive action.

KR Patent Publication No. 10-1112479 (Jan. 30, 2012) 4 KR Patent Publication No. 10-1320601 (2013, 10.15)

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the problems of the prior art, and it is an object of the present invention to provide an apparatus and a method for minimizing input energy, B, c, and d in the front fan housing of the rotor, the rotational force acting on the air generating rotor and the rotational force acting on the rotor The number of angular momentum between the center axis and the rotor blade tip, the energy that rotates integrally with the teeth of a number of pinion drive gears. The object of which is to multiply the mass of the object by the rotation speed and to multiply the distance by the distance from the rotation axis, and to discharge the energy of the power according to the positive induction.

In order to achieve the above object, there is provided a power generation apparatus using air and gears, in which a small amount of energy is initially input, and a rotational motion intensity of an angular momentum is rotated to generate high-efficiency energy. A plurality of radial rotary pedestals 210 having diameters different from each other inside the rotor, with respect to the energy discharge of the positive induction power obtained by multiplying the mass of the object by the rotation speed and multiplying the distance by the distance from the rotary shaft; A plurality of rotor blades supporting the space between the rotor brackets; and a plurality of rotor blades sloped between the rotor brackets and the rotor brackets, wherein one rotor blade has a large inclination toward the front, The rotor blade has a drag surface having a long distance from the rotation axis of the rotor and has a recessed surface to allow the rotor to receive a certain amount of residual energy while pushing the rotor toward the right side while bending against the rotor blade. It is characterized by the maximization of the maximum effect of the combined effect of one force of rotation and one force of pushing the wing by the lift action in the direction that the lift surface with the front reference slope is small and the distance is about 40%

The left and right pylons are coupled to a lower end surface of the housing, and the pylon is coupled to a top side of the housing, , And a mold reinforcement supporting member for supporting and supporting the connection between the upper outer end and the housing.

In addition, a fan house is installed in the front of the rotor for use in the rotor, and the fan house is connected to the bottom structure of the fan house to be coupled to the ground structure, and the upper fan house is connected to the upper part of the fan house, And the pinion drive gear structure is coupled to the lower steel towers and the left upper surfaces of the upper steel towers.

The fan housing and the fan house are provided with: a rotor having a central axis extending therefrom; a rotor center shaft having a rotor shaft bearing mounted on the rotor; It is preferable to arrange the plurality of fixed pinion drive gears on the gear and the lower structure so as to engage with each other and rotate integrally.

A rotating force for rotating the power use air by the action of the generator on the mounting of the fans a, b, c, and d in the fan house on the front face of the rotor, and the energy used for the pinion driving gear Angular momentum between the tip of an electronic wing tip The intensity of the rotational motion of a rotating object. It is preferable that the energy of the positive induction power obtained by multiplying the mass of the object by the rotation speed and multiplying it by the distance from the rotation axis is discharged.

As described above, the power generation apparatus using air and gears is designed to maximize the input of small energy at the initial stage. In order to generate high efficiency energy, the drag surface (sinking surface) and the lift surface of a plurality of independent light fiber blades are simultaneously operated B, c, and d in the front fan housing of the rotor, the rotational force acting on the air generating rotor and the rotational force acting on the rotor The number of angular momentum between the center axis and the rotor blade tip, the energy that rotates integrally with the teeth of a number of pinion drive gears. This is about multiplying the mass and rotation speed of the object and multiplying the distance by the distance from the axis of rotation.

Fig. 1 is a side view of the internal structure according to the present invention,
FIG. 2 is a front view showing the pinion drive gear construction stand or the rotor support and the rotor support of FIG. 1,
Fig. 3 is a front view showing the rotor blade spur gear and the pinion drive gear of Fig. 1,
FIG. 4 is a perspective view of a rotor-independent blade of FIG. 3,
FIG. 5 is a front view showing the fans a, b, c, and d of the fan house of FIG.
FIG. 6 is an enlarged plan view of the wind generating fan blade of FIG. 5,

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings. FIG. 2 is a front view showing a pinion drive gear construction stand or a rotor support and a rotor support according to the present invention; FIG. 2 is a front view showing a pinion drive gear construction stand or a rotor support and a rotor support of FIG. And a rotor shaft 250. The rotor shaft 250 is rotatably supported by the rotor shaft 260 and rotatably supported by the rotor shaft 260. The rotor shaft 260 is rotatably supported by the rotor shaft 260, And a pinion drive gear 410. The pinion drive gear 410 and the pinion drive gear 410 are connected to each other.

Initially input small energy to maximize the efficiency of angular momentum to create high-energy rotation of a rotating object. Which is obtained by multiplying the mass of an object by the rotation speed and multiplying the distance by a distance from the rotation axis,

The housing 100 houses the generator 110. The present invention is characterized in that the entire cross-sectional area is divided into a plurality of radial rotatable pedestals (210) having a plurality of independent light fiber blades each having a different diameter inside the rotor (200); A plurality of rotor supports 220 supporting the space between the rotor supports 210 and a plurality of rotor blades 230 between the rotor supports 210 and the rotor supports 220 are slantedly coupled .

The rotor 200 has an independent rotor blades 230 having a large reference surface inclination and a long distance of about 60% with a drag surface 240 against which a wind swings to the right and rotates to the right And a concave surface 280 so as to receive some residual energy.

The lift face 260 having a smaller front slope of the front face of the rotor 400 and a short distance of about 40% from the rear flank of the fancy face 240 pushes the wing in a lifting direction The state is composed of continuous action rotation and a single force, which maximizes the maximization effect.

The left and right pylons 130a and 130b are coupled to the left and right pylons 130a and 130b which are fixed to the building and are fixed to the ground so that the rotor 200 is supported and operated. The steel tower 131 is coupled to the upper end of the housing 100 and is integrally connected to the lower end of the housing 100 by a mold reinforcement support 440 that supports the upper outer end of the housing 100 and the housing 100, .

Air is produced on the front surface of the rotor 200. The fan house 300 is installed in the rotor and is connected to the ground structure 101 by the lower connecting rod 380 of the fan house 300, The upper fan house 300 is coupled to the pinion drive gear upper structure 431 by being connected to the fan house upper link 381. The pinion drive gear structure 430 is coupled to the lower and upper steel towers 130a, And a fan housing 300 coupled to the left side of the left and right side walls 131 and 131.

The fan housing 300 and the rotor 200 have a rotor center axis 270 in which a generator center axis 111 extends and a rotor center axis 270 in which a rotor shaft bearing 280 is installed A plurality of fixed pinion drive gears 410 are mounted on the spur gear 400 around the circumference of the rotor 200 and fixed to the pinion drive gear structure 430 so as to engage with each other, .

A rotating force for rotating the power use air by the action of the generator 200 on the mounting of the fans 310 in the fan house 300 on the front face of the rotor 200 and the rotating force for rotating the pinion 300 The energy used in the drive gear 410 is the angular momentum between the center axis and the rotor blade tip distance. The mass of the object is multiplied by the rotation speed, and the energy of the positive induction power obtained by multiplying the distance by the distance from the rotation axis is discharged.

Examples of the phenomenon occurring in the natural sciences surrounding us in the context of the present invention: When the diameter of the center point outside is reduced to 1/2, the resistance is reduced to 1/4. The creative work of. On the contrary, all modern machines are free from the central axis and the movement is twice as large as the diameter = the resistance is four times larger, which is disastrous.

Example: Simultaneous construction of "same wing", "same wing area", "same wind speed" of one central axis Increasing power from center axis point to circumference in 4-dimensional operation Increasing power effect, the output according to the point of action is proportional to the square of the circumference I was supposed to do.

The operation of the present invention configured as described above will be described as follows.

Initially input small energy to maximize the efficiency of angular momentum to create high-energy rotation of a rotating object. This is related to the induction of the energy discharge of positive power by multiplying the mass of the object by the rotation speed and multiplying the distance by the distance from the rotation axis,

. As shown in FIG. 4, the entire cross-sectional area of the left side surface wing of the plurality of independent light fiber blades is formed by a drag surface 260 having a long frontal inclination of the rotor 200 and a long distance of about 60% And a recessed surface 280 is formed on the rear surface of the fountain surface 440 so as to be able to receive a part of the remaining wind while rotating in the right direction while bumping against the rotor 200. [ (250) with a small slope of the frontal reference and a distance of 40% is continuously operated by a lifting action that pushes the wing in the direction of rotation from the simultaneous action. The rotation is combined with one force to accommodate the maximum maximization with the wind Effect Angular momentum The intensity of the rotational motion of a rotating object. By multiplying the mass of the object by its rotation speed and multiplying it by the distance from the axis of rotation, it creates creative energy according to the energy discharge of the positive induction power.

The same power-driven wind generating rotor 200, i.e., "same blade "," same blade area ", " "" Same wind speed "is the largest power effect at the a position in the space-time four-dimensional operation of the simultaneous a, b, c, d fan (310) This means an amount by which the distance from the rotation axis is multiplied. In this case, not all of them operate at the position a, but should be summarized by the 1/2-coefficient which is an average action point of the cross-sectional area according to the diameter.

A plurality of fixed pinion drive gears 410 of a plurality of pinion drive gears 410 of the circumferential spur gear 400 of the rotor 200; Angular momentum between the rotor blade tip end and the rotor. The mass of the object is multiplied by the rotation speed, and the energy is discharged by multiplying the distance by the distance from the rotation axis.

The angular momentum of the present invention is a very important concept not only in physics but also in various engineering fields, and also has a wide variety of applications. The reason why the angular momentum is so important is that the angular momentum is preserved if the turning force does not act. The conservation of the angular momentum is a source-inventive technique that is applied to principles that are useful for describing various natural phenomena as well as engineering.

The left and right pylons 130a and 130b are coupled with the left and right pylons 130a and 130b fixed to the building and the building 101 fixedly installed on the ground so that the rotor 200 is supported and operated. The steel tower 131 is coupled to the upper side of the upper side of the housing 100 and is connected to the upper end of the housing 100 by a mold reinforcement support 440 , It does not need many devices along the wind direction of other windmills in the market and can operate perfectly with these devices.

Air is produced on the front surface of the rotor 200. The fan house 300 is installed in the rotor and is connected to the ground structure 101 by the lower connecting rod 380 of the fan house 300, The upper fan house 300 is coupled to the pinion drive gear structure 430 by being connected to the fan house upper link 381. The pinion drive gear upper and lower structures 430 and 431 are coupled to the lower pylon 130a, And a fan housing (300) coupled to a left side surface of the upper steel tower (131). In the structure of the fan house (300) The mass of the object multiplied by the rotation speed multiplied by the distance from the axis of rotation multiplied by the distance away from the axis of rotation, that is, 50 × 25 × 25 = 625 times too much energy in the presence of more kinetic energy, mechanical energy, Energy conservation law and so on, multiplied by the mass of the object and the rotation speed.

Example: When the wind speed of 50m at the wind speed of 10 m / s and the wind speed of 888KW / h is generated, the existing three-bladed windmill or the entire wing in the cross section of the present invention or the spatial three- Construction by Natural Winds In the case of rotor rotation in 4-D operation, 625 ovulation of natural wind values is created by the presence of creative energy.

The fan housing 300 and the rotor 200 have a rotor center axis 270 in which the generator center axis 110 extends and a rotor center axis 270 in which the rotor shaft bearing 280 is installed And a plurality of fixed pinion drive gears 410 are mounted on the spur gear 400 around the circumference of the rotor 200 and fixed to the pinion drive gear structure 430, The centrifugal force of the spur gear 400 and the centripetal force of the pinion drive gear 410: not only the safe operation of the interaction but also the strength of the rotational movement of the rotating object. It is preferable that the energy is generated by multiplying the mass of the object by the rotation speed and the distance multiplied by the distance from the rotation axis, thereby generating creative energy of 25 × 25 = 625 ovulation when the diameter is 50 m.

It will be apparent to those skilled in the art that various modifications and variations can be made in the technical scope of the present invention based on the concrete examples described above, It is obvious that the appended claims are intended to fall within the scope of the appended claims.

100: housing 101: ground structure
110: generator, 111: generator center axis,
120 generator shaft bearing, 130a: lower steel tower
130b Lower steel tower 131 Upper tower
200: rotor, 210: rotor base,
220: rotor support, 230: rotor blade,
240: Rotor drag surface 250: Rotor lift surface
260: rotor recess 270: rotor center axis
280: Rotor shaft bearings
300: fan house 310a, b, c, d: fan
350: fan blade 360: center axis of the fan
370: Fan shaft bearing 380: Fanhouse lower linkage
381: Fan house top link 390: Fan motor
400: spur gear 410: pinion drive gear
430: Pinion drive gear upper structure 431: Pinion drive gear upper structure
440: a frame reinforcing support,

Claims (5)

Initially input small energy to maximize the efficiency of angular momentum to create high-energy rotation of a rotating object. Which is obtained by multiplying the mass of an object by the rotation speed and multiplying the distance by a distance from the rotation axis,
A plurality of radial rotary pedestals 210 each having a different diameter inside the rotor 200; A plurality of rotor supports 220 for supporting the space between the rotor supports 210 and a plurality of rotor blades 230 between the rotor supports 210 and the rotor supports 220 are slantedly coupled , A single independent rotor blade 230 is provided with a drag surface 240 having a long reference distance of about 60% and having a large frontal inclination. When the wind hits the blade, it pushes to the right and rotates to the right, A lift surface 260 having a small inclination of the front surface of the rotor 400 and a short distance of about 40% from the rear wing of the finessing surface 240, Continuous action that pushes the wing by the lift action in the direction of rotation in the simultaneous action. The method according to claim 1,
The left and right pylons 130a and 130b are coupled with the left and right pylons 130a and 130b fixed to the building and the building 101 fixedly installed on the ground so that the rotor 200 is supported and operated. The steel tower 131 is coupled to the lower end surface of the housing 100 and is integrally formed with the upper end side of the housing 100 and the mold supporting reinforcement 440 for supporting and supporting the upper end of the housing 100 A power generator using air and gears including a connection, 3. The method of claim 2,
Air is produced on the front surface of the rotor 200. The fan house 300 is installed in the rotor and is connected to the ground structure 101 by the lower connecting rod 380 of the fan house 300, The upper fan house 300 is coupled to the pinion drive gear upper structure 431 by being connected to the fan house upper link 381. The pinion drive gear structure 430 is coupled to the lower and upper steel towers 130a, And a fan housing (300) coupled to a left side surface of the fan housing (131) The method according to claim 1,
The fan house 300 and the rotor 200 have a rotor center axis 270 in which the generator center axis 111 extends to the left and a rotor center axis 270 in which the rotor center axis And a plurality of fixed pinion drive gears 410 mounted on the spur gear 400 around the circumference of the rotor 200 and fixed to the pinion drive gear structure 430, A power generating device using air and gear configured to rotate, 5. The method of claim 4,
A rotating force for rotating the power use air by the action of the generator 200 on the mounting of the fans 310 in the fan house 300 on the front face of the rotor 200 and the rotating force for rotating the pinion 300 The energy used in the drive gear 410 is the angular momentum between the rotor center axis 270 and the rotor blade tip distance. A power generation device using air and gears that multiply the mass of an object by the rotation speed and multiply the distance by a distance from the rotation axis to discharge the energy of the positive induction power.

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