KR20190027770A - MANY driving gear UTILIZATION; GENERATING SET - Google Patents

Abstract

The present invention relates to a power generator for maximizing a plurality of driving gears, which comprises: a first housing (50) receiving a power generator (10); a second housing (50a) receiving a plurality of driven pulleys (20) and a plurality of driving gears (30); a third housing (50b) receiving the driven pulleys (20) and the driving gears (30); electrical inlet and outlet (50a, 50b); a power generator rotor (13); and a power generator stator (12).

Description

MANY driving gear UTILIZATION; GENERATING SET}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a drive gear maximized power generator, and more particularly, to a drive gear maximized power generator having a plurality of driven gear pulleys extending vertically and downward, A plurality of extended drive gear pulleys; and a maximizing device between said driven gear pulleys. Power is applied to the motors to rotate the driven gear pulleys and generator rotors as a single axis, The amount of angular momentum is the product of the momentum (the amount multiplied by mass) of each part of the rotating body and the distance from the axis of rotation. To the generation of energy.

When a gear is connected between the driven gear pulley and the drive gear pulley, when one side is rotated, it is not possible to transmit a simple energy transfer device that slides and rotates when the gear teeth of the drive gear pulley come into contact with each other. Without the center-to-center centrifugal force, the resistance increases by a factor of four when the centrifugal force is increased by a factor of two.

Korean Patent Laid-Open No. 10-1112479 (Jan. 30, 2012) Korean Patent Laid-Open Publication No. 10-1320601 (Oct. 15, 2013)

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems of the prior art, and it is an object of the present invention to provide a power transmission device for a vehicle, A plurality of drive gear pulleys; and an electric inlet provided on the driven gear pulley and the rotor rotating surface of the generator by providing power to the motor for maximizing the distance between the driven gear pulleys, and an electric outlet is provided on the outer side of the first housing An electric inlet and an outlet: a gear is interposed between each of a plurality of driving gear pulleys having a distance between the front-rear-left-right equidirectional spaces of the plurality of driven gear pulleys, The input gear and the gear of the driven gear pulley are in sliding contact with each other, A plurality of driven gear pulleys, and a plurality of driven gear pulleys, and a plurality of driven gear pulleys, and a plurality of driven gear pulleys, Which is characterized by the generation of electrical energy conversion energy in the generator stator.

Further, it is preferable that the present invention attaches each of a plurality of driven gear pulleys of the upper and lower driven shafts of a vertically elongated generator.

Also, it is preferable to provide a plurality of horizontally extending driving gear pulleys 30 having a distance in the direction of the front-rear-left-right direction of the driven shaft 20.

And a plurality of horizontally elongated driving gear pulleys extending in the vertical direction and spaced apart from each other by a space in the outer front-rear-left-right direction of the plurality of driven gear pulleys above and below the generator, The angular momentum is the momentum of the rotating body of a rotating object multiplied by the momentum (multiplied by mass) and the distance from the axis of rotation. It is preferable that energy is generated in accordance with the above.

As described above, according to the present invention, there are provided a plurality of horizontally extending drive gear pulleys having a distance in the outer front-rear-left-right direction of a plurality of driven gear pulleys on a vertically elongated generator, When the gears between the gear pulleys are engaged to drive power input to the plurality of drive gear motors, the teeth of the driven gear pulley and the teeth of the starter gear pulley are in sliding contact with each other, It is the sum of the momentum of each part of the rotating body of the rotating body (the mass multiplied by the rotational speed, multiplied by the mass and the rotational speed, ) And the distance from the axis of rotation is called the angular momentum portion. The energy from the generator stator to the electrical energy.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front sectional view of a plurality of gear-maximized power generation apparatuses according to the present invention; FIG.
FIG. 2 is a plan view showing a plurality of driven shafts and driven gear pulleys of the third and fourth housings shown in FIG. 1,
Fig. 3 is a plan view showing a cut-away view of the plurality of driven gear pulleys in Fig. 2,
FIG. 4 is a plan view showing a cut-away view of one drive gear of FIG.
5 is a front sectional view of one of the drive gear pulleys of FIG. 1;
Fig. 6 is a plan view showing a cut-away view of the generator stator and the rotor of Fig. 1,
Fig. 7 is a plan view showing a cut-away view according to the plane of the rear fan cooling apparatus of Fig. 1

The generator 10 and the motor 30 are similar in structure and function to generators in general structure and function of generators and motors, and only a significant portion of the present invention is omitted for many structures.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front sectional view of a plurality of gear-maximized power generation apparatuses according to the present invention; FIG. The power generator 10 includes a generator body 11, a generator stator 12, a generator rotor 13, a generator center shaft 15, a generator upper rotation shaft 16a, a generator lower rotation shaft 16b, The driven gear 21 is driven by the driven gear 21 and the driven shaft 21 and the driven shaft 22 is driven by the driving gear 23 30, a drive gear motor 31, a fan 60, first, second and third housings 50, 60a, 50b, and the like.

A plurality of driven gear pulleys 20 and a plurality of driving gears 30 are installed in the second housing 50a and the plurality of driven gears 30 are installed in the third housing 50b A plurality of driven gear pulleys 20 and a plurality of drive gear pulleys 30 are installed. The second housing 50a is provided at the upper end of the generator 10 and the third housing 50b is provided at the lower end thereof and the first housing 50 is provided between the second housing 50a and the third housing 50b, 1 housing 50 has a vertically elongated shape, and the second and third housings 50a and 50b have a horizontally elongated shape. Electrical input ports 40 and 41 are provided on the outer sides of the first, second and third housings 50a and 50b and an electrical output port 41 is provided on the outer right side of the first housing 50.

A lower rotary shaft 16a protrudes from a lower end surface of the generator rotor 23 and an upper rotary shaft 16b extends from a lower end of the second rotary shaft 16b. And a housing 50a.

The upper rotary shaft 16a of the generator rotor 23 is engaged with the driven shaft 21 of the second housing 50a and the lower rotary shaft 16b is engaged with the driven shaft 21 of the third housing 50b . The upper rotation shaft 16a is rotatably supported by a shaft bearing 17 provided between the first housing 50 and the second housing 50a and the lower rotation shaft 16b is rotatably supported by the first housing 50 and the second housing 50a. 3 housing 50b. The shaft 50 is rotatably supported by a shaft bearing 17 provided between the housing 50b and the housing 50b.

A generator stator 13 is provided outside the generator rotor 14 and fixed to the inner wall surface of the first housing 50. The generator stator 13 and the rotor 14 are generally elongated in the vertical direction.

As shown in FIG. 1, a subordinate shaft 21 is provided at a central portion of the upper end of the generator in a horizontal direction in the second housing 50a, and a plurality of driven gear pulleys 20 are attached to the driven shaft The upper rotation 21a of the driven shaft is rotatably supported by the shaft bearing 22 of the upper surface of the second housing. The lower rotation shaft 21b of the driven shaft is connected to the upper rotation shaft 21a of the generator, And is rotatably supported by the coupled generator shaft bearing (17).

A driven shaft 21 is provided at a central portion extending in the horizontal direction in the third housing 50a at the lower end of the generator, a plurality of driven gear pulleys 20 are attached to the driven shaft, The lower rotating shaft 21b of the driven shaft is rotatably supported by a plurality of driven gear pulleys 20 which are rotatably supported by a shaft bearing 22 on the lower end surface of the third housing. Respectively.

A plurality of drive gear pulleys 30 having a distance in the front-rear-left-right direction space of the plurality of driven gear pulleys 20 in the second housing 50a are connected to the drive gear motor 31, Gear center axis 32. And a plurality of drive gear pulleys 30 are mounted on the upper and lower end surfaces of the first and second housings 50 and 50a and the drive gear shaft bearings 34, Rear-left-right direction spacing of the plurality of driven gear pulleys 20 in the third housing 50a, and is configured to be rotatably supported and movable by the installation of the second gear 34, The plurality of drive gear pulleys 30 includes a drive gear motor 31, a drive gear center shaft 32, And a plurality of drive gear pulleys 30 are mounted on the upper and lower ends of the first and second housings 50 and 50a, And is rotatably supported and movable by the installation of the bearing (34).

A generator shaft rotatable by an installation of an upper generator shaft bearing 17 at the upper portion of a housing where a plurality of belt pulleys 20 are installed, And connected to the lower rotating shaft 15 of the generator which is formed to protrude from the lower end surface of the generator central shaft 14. A plurality of belt pulleys 20 are installed on the lower portion of the housing, As shown in Fig.

In the present invention, the first housing (50) comprises a plurality of driven gear pulleys on the upper and lower sides of a generator having a vertically elongated shape, A plurality of driving gear pulleys extending in a longitudinal direction of the driven gear pulley; and a plurality of gears between the driven gear pulleys, : When they come into contact with each other, they slip together and are gathered by the force of the lever due to the rotation, so that a plurality of driven gear pulleys and generator rotors simultaneously rotate as one axis. The angular momentum is the momentum of each part multiplied by the mass and rotation speed multiplied by the distance from the axis of rotation. Is to generate energy from the generator stator to electrical energy

A plurality of openings in the first housing, which are adjacent to each other for air flow, are provided in the upper and lower portions of the generator central axis 15, For

Electrical input ports 40 and 41 are provided on the outer sides of the second and third housings 50a and 50b and an electrical output port 41 is provided on the outer right side of the first housing 50.

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

The driven gear of the present invention refers to a gear that receives force or motion from a counterpart of a pair of meshed gears, and the drive gear is a gear that transmits power among the meshing gears, and the driven shaft is a gear . And a device for transmitting the power while the contact surfaces between the gear and the rod are slid to each other.

The present invention is characterized in that when a power is input to a plurality of drive gear motors (31), a plurality of drive gear pulleys (30) are operated. When the contact surfaces of the plurality of driven gear pulleys (20) (20) coupled to the generator central shaft (15) when the coils are simultaneously rotated as one rotary shaft coupled to the driven shaft (21) of the rotary driven gear pulley (20) and the generator rotor The momentum of each portion of the rotating body of the rotating body by the force collected on the central axis by the force of the lever between the distances of the plurality of driving gear pulleys 30 having the distance between the front- (Amount multiplied by the mass and the rotational speed) multiplied by the distance from the rotational axis is called angular momentum. The total mechanical energy of the generator rotor 13 is converted from the generator stator to the electrical energy by the maximizing device which is the distance between the driven gear pulley 20 and the drive gear pulley 30 according to the rotation speed of the generator.

A plurality of driven gear pulleys 20 attached to the generator central axis 15 and a plurality of driven gear pulleys 20 mounted on the plurality of driven gear pulleys 30, The centrifugal force and the centripetal force of the plurality of drive gear pulleys 30, that is, the force of resting on the resultant wall of the circumferential-to-axial motion force, the force of resting on the floor, The amount of angular momentum is the product of the momentum (the mass multiplied by the rotational speed) of each part of the rotor and the distance from the axis of rotation. Large equipment can also generate safe working energy.

The above-mentioned prior art document Tokkai No. 1 (Korean Patent Laid-Open Publication No. 10-1112479) maximizes the entire fallout distance with a spiral flow path plate. The hydroelectric power plant and the 10-1112479 have a plurality of independent cross- Light fiber wings and front-rear-left-right circumferential bearing Jangji Maintaining the most natural winds (Conversely, the three wings of the existing wings are the smallest at the end of the wing, and the value of the natural wind is proportional. The present invention confirms the present invention by presenting an embodiment under the convergence of traditional energy technology and ICT technology.

Example 1: The energy that the whole human race is looking for is around our life with various tools, tools, levers. There are many kinds of creative energies such as opening doors and screws, turning the steering wheel of a car, typhoon Hayakane, black holes, various spheres, vortex fusion energy, etc. Until now, physical actors have been using physical forces related to angular momentum. It is.

Second Embodiment: When the rotating body rotates, it confirms 100% of the existence of the creative energy itself which has the greatest operating power at the circumferential end.

Third, example: 50m diameter per second speed 10m / s = linear motion, space three-dimensional, thermodynamic first law mechanical energy modern windmill formula = However, when the construction 4-dimensional rotor is rotated, the angular momentum, for example 50% radius R 25X25 = 625 times, is confirmed to be 312.50 times 31.250% when applying 50% friction loss.

Fourth Embodiment: The angular momentum is not only physics (engineering) but also various applications that are useful for describing various natural phenomena. The amount of angular momentum of each part of the rotating body of the rotating body ) And the distance from the axis of rotation is called the angular momentum portion. Is a discipline that becomes the basis of physics as a universal law of.

Fifth Embodiment Comparative Example of Line Movement and Angular Movement The present invention is confirmed by the following formula

. In the osteotomic table-line motion, the angular momentum between the linear motions is compared with each other and the angular momentum is compared with each other, and the linear momentum is different from the linear momentum and the angular momentum. What it means: The linear momentum is the integral of the force with respect to time. The angular momentum is the integral of the torque with respect to time.

Sixth Embodiment: Even if the diameter increases, the speed remains unchanged. Example: Existing windmill diameter 50m at 1800 RPM, the wing tip at 360 times speed operation has the largest power in the opposite direction, the wing width is the smallest, the ratio of the square of the value of natural wind is small, and the tragic conversation is accepted. Rotational energy creation without mechanical friction loss of RPM increase is very small, confirming the existence of creative energy in the diameter size of angular momentum.

EXAMPLE 7 If the famous Archimedes had a long enough pole and a pedestal to support the earth, the earth could be heard. ' The centrifugal force of a plurality of driven gear pulleys 20 attached to a generator center shaft 14 without a base and the centripetal force of the center shaft 31 of the plurality of drive gear pulleys 30, The sum of the momentum (the amount multiplied by the mass and the rotational speed) of the rotating body by the presence of the force that stays on the wall, the force that holds it on the floor, , Which is called the angular momentum, is proved by a number of evidences such as that large-sized equipment can safely generate working energy.

It is preferable to attach each of the plurality of driven gear pulleys 20 of the upper and lower longitudinal coaxial shafts 21 of the vertically elongated generator 10

The present invention is characterized in that a plurality of horizontally elongated drive gear pulleys (30) having a space in the front-rear-left-right direction of the driven shaft (20) and a plurality of drive gear pulleys It is good to do.

The invention phase of long stretches of generator 10 to the vertical, under the number of the driven gear outside around the pulley 20 Post-left-right, etc. hold horizontally for a distance of the direction area extending in a plurality of drive gear pulley ^* 30) is the total mechanical energy due to the maximizing device between: and: the angular momentum is the product of the momentum (multiplied by mass) of each part of the rotating body and the distance from the axis of rotation. It is good to generate energy according to.

The present invention includes a plurality of horizontally elongated drive gear pulleys (30) having a distance in the outer front-rear-left-right direction of a plurality of driven gear pulleys (20) When the gears between the driven gear pulleys are engaged and power is input to the plurality of drive gear motors 31, when the teeth of the driven gear pulley and the teeth of the starting gear pulley are in mesh with each other, The total number of driven gear pulleys and the generator rotation (13) are simultaneously operated as one axis and the total mechanical energy is rotated in one direction, and the momentum of each part of the rotating body of the rotating body (Amount multiplied by the mass and the rotational speed) multiplied by the distance from the rotational axis is called angular momentum. Is the effect of converting energy from the generator stator 12 to electric energy

As described above, the present invention has been described with respect to only specific preferred embodiments. However, the present invention is not limited to the above-described embodiments. For example, the belt wheel may vary according to the standard. It will be apparent to those skilled in the art that various modifications and variations are possible and that such modifications and variations are within the scope of the appended claims

10: Generator 11: Generator body
12: generator stator 13: generator rotor
15: center axis of the generator 16a:
16b: generator lower rotating shaft 17a: generator upper shaft bearing
17b: Generator upper shaft bearing 18 :: Support and support
20: driven gear pulley 21:
21a: a follower shaft upper rotational shaft 21b: a follower shaft lower rotational shaft,
22: Slave coaxial bearing
30 Drive gear pulley 31: Drive gear motor
32: drive gear central axis 33a: drive gear upper rotational axis
33b: Lower part of the drive gear rotation shaft 34: Drive gear shaft bearing
40: electrical inlet 41: electrical outlet
50: first housing 50a: second housing
50b: third housing 60 fan front face
60a: fan front 60b: fan front
61a: Air inlet 61b: Air inlet

Claims (4)

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]
A first housing (50) for receiving the generator (10):
A plurality of driven gear pulleys 20 and a second housing 50a accommodating the plurality of drive gears 30:
A plurality of driven gear pulleys 20 and a third housing 50b accommodating the plurality of drive gears 30:
The generator rotor 14 is provided at the central portion of the first housing 50 and includes the generator center axis 23 and the generator stator 13 is fixed to the inner wall surface of the first housing 50 at the outer side of the rotor . The second housing 50a is provided at the upper end of the generator 10 and the third housing 50b is provided at the lower end thereof.
The upper rotating shaft 16a is protruded from the upper end surface of the generator rotor 23 and the upper rotating shaft 16a includes the second housing 50a. The generator lower rotating shaft 16a is protruded and the lower rotating shaft 16b is formed by including the third housing 50a
The upper rotation shaft 16a of the generator rotor 23 is engaged with the driven shaft 21 of the second housing 50a and the lower rotation shaft 16b of the generator rotor 23 is engaged with the lower end of the third housing 50a The upper rotary shaft 16a is engaged with the driven shaft 21 and is rotatably supported by a shaft bearing 17 provided between the first housing 50 and the second housing 50a. Is rotatably supported by a shaft bearing (17) provided between the first housing (50) and the body housing (50b).
A driven shaft 21 is provided at a central portion extending in the horizontal direction in the second housing 50a of the upper end of the generator, a plurality of driven gear pulleys 20 are attached to the driven shaft, The second housing 50a includes a rotary shaft 22a and an upper rotary shaft 22a. The vertical shaft 21 is disposed at a central portion of the lower end of the generator in the third housing 50b. A plurality of driven gear pulleys 20 are attached to the driven shaft and the lower rotary shaft 22b is projected and the lower rotary shaft 22b includes the third housing 50b And the upper rotating shaft 21a is rotatably supported by a bearing 22 of a driven shaft 22 provided on the upper surface of the second housing 50a. The lower rotating shaft 21b is rotatably supported by a driven shaft bearing 22 provided on the upper surface of the third housing 50. [
A plurality of drive gear pulleys 30 having a distance in the front-rear-left-right direction space of the plurality of driven gear pulleys 20 in the second housing 50a are connected to the drive gear motor 31, Gear center axis 32. And a plurality of drive gear pulleys 30 are mounted on the upper and lower end surfaces of the first and second housings 50 and 50a and the drive gear shaft bearings 34, Rear-left-right direction spacing of the plurality of driven gear pulleys 20 in the third housing 50a, and is configured to be rotatably supported and movable by the installation of the second gear 34, The plurality of drive gear pulleys 30 includes a drive gear motor 31, a drive gear center shaft 32, And a plurality of drive gear pulleys 30 are mounted on the upper and lower ends of the first and second housings 50 and 50a, And is rotatably supported and movable by the installation of the bearing (34).
An electric inlet port 40 is provided on the outer and lower surfaces of the second and third housings 50a and 50b and an electric inlet port provided with an electric outlet port 41 on the outer side of the first housing 50, Outlets 50a and 50b:
A gear is engaged between each of a plurality of drive gear pulleys having a distance in the front-rear-left-right direction space of the plurality of driven gear pulleys 20, , The teeth of the driven gear pulley and the teeth of the driving gear pulley: while sliding in contact with each other while being in contact with each other, the distance between the driven gear pulley (20) and the plurality of drive gear pulleys A plurality of driven gear pulleys 20 and a generator stator 12 corresponding to an angular momentum at which the total mechanical energy is unidirectionally rotated integrally with the generator rotor 13 as one axis as one axis, A plurality of drive gears maximized power generation devices characterized by the generation of electric energy conversion energy, The method according to claim 1,
The present invention relates to a plurality of drive gear maximized power generation devices characterized by the attachment of a plurality of driven gear pulleys (20) of an upper and lower slave coaxial shaft (21) of a vertically elongated generator (10) 3. The method according to claim 1 or 2,
A plurality of horizontally elongated drive gear pulleys 30 having a distance in the front-rear-left-right direction of the driven shaft 20; and a plurality of drive gear pulleys 30 A plurality of driving gear maximized power generating devices The method according to claim 3 or 4,
The present invention is characterized in that a plurality of horizontally elongated driving gear pulleys (hereinafter referred to as " front " and " rear " 30) is the total mechanical energy due to the maximizing device between: and: the angular momentum is the product of the momentum (multiplied by mass) of each part of the rotating body and the distance from the axis of rotation. Maximized power generation of multiple gears featuring energy generation according to

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