KR101833761B1 - Generator using lever principle - Google Patents

Abstract

The present invention utilizes a model that a squirrel runs on a wheel, wherein a driving power for spinning a wheel is not power of a squirrel, but the weight of a squirrel loaded on an edge far from a central axis of the wheel. When a squirrel walks from a point of 6 o′clock to a point of 3 or 9 o′clock, the body weight of the squirrel causes the wheel to spin. As the squirrel comes closer to a point of 3 or 9 o′clock, the rotation force is generated due to the weight of the squirrel and as the squirrel gets closer to the point of 3 o′clock or the point of 9 o′clock, the rotational force is increased, in that principle of a lever as much as a distance from the central shaft axis. At this time, torque increases proportionally to an increase in the body weight of a squirrel, an angle from the central axis, and a radius of the wheel. What if a squirrel stands at a point of 6 o′clock of the wheel to pull and spin the wheel Torque will not occur although it is little bit spun. Only the power as much as physical strength of a squirrel operates. That is because the body weight is not loaded based on a principle of a lever. The present invention utilizes the principle to generate high torque with small effort, thereby generating power.

Description

[0002] Generators using lever principle [

The present invention is a power generator that generates electric power using a certain amount of electric energy by applying the principle of a lever that increases as the radius of a wheel increases as the squirrel rushes the edge of the wheel.

Here, a fixed amount can be mounted with a driving force from 1 kW to several hundred kW, and the larger the radius of the driving force and the rotating body, the more the electric power production is doubled in proportion thereto.

In today's power generation mode, small power generation methods such as nuclear power, thermal power, and hydro power, except large capacity power generation, use small hydro, wind, solar, and tidal power.

It is obvious that each energy source is environmentally friendly. However, there are limitations in terms of power generation capacity, and the conditions and constraints of geographical and environmental conditions are different.

Korean Patent Laid-Open Publication No. 2014-0005005 (Sep. 18, 2014, entitled " Environmentally friendly electricity generation device equipped with power increasing gear mechanism ")

As described above, in the case of a small-capacity power generation system, it is necessary to have a specific geographical condition in the case of wind power generation. In the case of solar heat, the environmental constraints and the capacity for the weather are extremely limited. Big.

In order to solve the above-mentioned problems, the present invention is a new type of footsteps which is not conventionally applied by applying the principle of turning a wheel to a wheel and the principle of a lever.

The present invention is not affected by geographical requirements, environmental requirements, energy sources, etc., and can be installed anywhere in a certain space, can be underground, and can be grouped and enlarged in a certain space.

1 is a plan view of the present invention.
2 is a side view of the present invention.

The present invention relates to an internal gear (1) comprising a central shaft (6), a rotating body (1) mounted and rotated about the central shaft, a central shaft bearing (7) for supporting the central shaft, A hanger bearing 12 mounted on the center shaft 6 and a hanger 5 connected at one side to the hanger bearing 12 and a geared motor 3 connected to the other side of the hanger 3. The geared motor 3 And the motor gear 4 is disposed to mesh with the rotation internal gear 2. The rotation of the geared motor 3 causes the gear of the geared motor 3 to rotate, When the geared motor 3 starts to drive at the 0 degree point of the rotating body 1 as the motor gear 4 mounted on the shaft rotates, the rotating body 1 rides on the rotating body inner gear 2, Of the geared motor 3 is moved toward the 90-degree point of the motor gear 4, Lin will by the rotating inner point of the fall of the gear 2 to the rotating body as the rotating body is rotated by the weight of the geared motor, characterized in that the rotating of the whole to which the power generation.

The present invention is characterized in that a generator pulley 9 connected to the generator 11 and a generator 11 for generating electricity by the rotational force of the rotary body 1 are connected to the rotary pulley 8 connected to the rotary body 1, And a belt (10) connecting the rotor pulley (8) and the generator pulley (9) so that the rotational force of the rotor is transmitted to the generator (11) And the entire body is rotated to generate electric power.

Further, according to the present invention, as the geared motor is driven to move from the zero point to the 90 degree point of the rotating body and the action of the rotating body to descend, the rotating body is rotated, And the electric power is transmitted to the generator (11) to generate electric power. The generator is rotated by the weight of the geared motor to generate electric power.

A detailed description of the present invention will be given below.

1) The rotating body 1 is mounted on the central axis 6 of the rotating body 1 so as to become a circle.

A gear (2) is mounted on the inner surface of the rotating body (1). The bearing 7 is mounted on the central shaft 6 and the hanger 5 is mounted on the bearing 12 and the geared motor 3 is mounted on the lower side of the hanger 5. [ The gears (4) are mounted on the shaft of the geared motor so that the two gears are meshed with each other. The ratio of the gear 2 to the gear 4 is 15: 1.

The geared motor 3 is equipped with an inverter for controlling an instantaneous sharp rotation and an appropriate number of revolutions at an initial startup.

2) The radius of the rotating body 1 and the size of the geared motor 3 can be made as large as possible within a range as much as possible and this leads to an increase in the rotational force. However, in this case, the radius of the rotating body 1 is 3 m, When the value when the weight of the motor 3 is 50 kg is applied,

When the geared motor 3 starts to drive at a zero point in the entirety of the rotation of the geared motor 3, the gravity of the geared motor 3 rises to a point of 90 degrees on the gear 2. The rotating body 1 descends by the weight of the geared motor 3 . As a result, the squirrel turns the wheels. The starting time of the geared motor (3) is about one minute, using the inverter, starting from the low speed, gradually increasing the speed And the rpm of the geared motor 3 becomes 400, the rotational speed of the rotating body 1 becomes about 30 rpm.

When the geared motor (3) reaches 45 degrees, the horizontal distance from the center axis is about 2.1 m, and when calculated by torque, it becomes 9.8 nm x 50 kg x 2.1 m = 1029 n.m. × 50 × 3 = 1470 n.m.

This is equivalent to pushing with a force of 50 kg using a lever of 2.1 m or 3 m. Taking into consideration the efficiency, it is 9.8 × 50 × 2.5 = 1225 n.m when converted to a distance of 2.5 m, which is about 50 degrees. At this time, since the rotational speed is 30 rpm, the speed of the belt pulleys 8 and 9 is increased from 1 to 7 in order to set the generator 11 to the specification of 200 rpm.

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Considering the reduction of the torque by about 10% in the accelerating process, a torque of 1100 n.m is produced.

3) By calculating the radius of the rotor (1) to 10m, which is similar to the blade of a wind turbine, torque can be known and the power produced by it can be known.

4) Based on the above 2) and 3), the amount of torque produced increases with the increase of the radius of the rotating body 1 and the increase of the geared motor 3 mounted thereon.

When a 50 kw geared motor with a weight of 1100 kg is mounted on the rotating body 1 having a radius of 10 m, the torque is 9.8 x 1100 x 10 = 107,800 nm.

1: rotating body 2: rotating inner gear
3: Geared motor (1.5kw 5: 1 weight 50kg)
4: Motor gear mounted on geared motor 5: Hanger connected with geared motor.
6: The center shaft 7 of the rotating body is a center shaft bearing
8: Rotor pulley (700) 9: Generator pulley (100)
10: Belt
11: Generator fuselage (20 kw 200 rpm rated torque 955 n.m)
12: Hanger (5) bearing.

Claims (2)

A central axis 6;
A rotating body (1) rotatably mounted on the central axis;
A center shaft bearing 7 supporting the center shaft;
A rotating inner gear (2) mounted on the inner side of the rotating body
A hanger bearing 12 mounted on the central shaft 6;
A hanger 5 connected at one end to the hanger bearing 12;
A geared motor (3) connected to the other side of the hanger
A motor gear 4 mounted on an axis of the geared motor 3;
The rotating internal gear 2 and the motor gear 4 are arranged to mesh with each other
As the motor gear 4 mounted on the shaft of the geared motor rotates by the rotation of the geared motor 3
When the geared motor 3 starts to drive at the zero point of the rotary body 1, the rotary body 1 is moved toward the 90-degree point of the rotary body 1 by the internal gear 2
The weight of the geared motor 3 causes the point of the internal gear 2 engaged with the motor gear 4 to be lowered to rotate the rotating body. Power generation device The method of claim 1, wherein
A rotary pulley 8 connected to the rotary body 1;
A generator (11) for generating electricity by a rotational force of the rotating body (1);
A generator pulley 9 connected to the generator 11;
And a belt (10) connecting the rotor pulley (8) and the generator pulley (9)
A power generating device that applies the lever principle using the weight of the geared motor, which is characterized in that the rotational force of the rotating body is transmitted to the generator (11)

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