KR102052367B1 - Generator using variable rotary weight - Google Patents

Abstract

According to the present invention, the shape of the right figure of FIG. 1 is changed by changing the direction of the rotary weight ⑦ mounted on the rotating drum ① by using the mechanism of the half gear gear ②⑭, the spur gear ③ and the ratchet gear ⑥ without any other energy. It is a device that generates eccentric rotational force generated according to this shape and uses the rotational force to turn the generator fuselage to generate electric power. It does not require expensive materials and can be installed anywhere. The larger the rotor, the larger the torque.

Description

Generator using variable rotary weight {omitted}

The rotation of the watermill is due to the constant application of constant force on one edge of the wheel, and the principle of hydropower is the same.

The present invention is a device that generates a certain amount of torque by continuously generating an eccentric weight by mounting a rotary weight on the edge of the rotating drum in this way.

This device uses the physical force according to the position change of the rotating weight. However, the minimum geared motor is installed for additional roles such as the speed control of the rotating body.

In today's power generation, power generation using fossil fuels, including nuclear power, is the mainstream, and they are unrivaled in terms of efficiency, while the environmental damage is enormous. We are aiming to develop solar power. Although it is true that it is a very good energy source in terms of affinity, its use is limited by geographical, environmental, and other conditions, and there are limited limitations on the generation capacity and the cost of power generation is also high.

Republic of Korea Patent Publication No. 1020080054378 (2008,06,10), "Rotational device using eccentric rotational power" Korean Unexamined Patent Publication No. 2014-0005005 (September 18, 2014, "Environmental Generating Device with Power Increase Gear Mechanism")

As mentioned above, facilities are installed anywhere without being restricted by geographical conditions, conditions for sunlight, conditions for facility sites, etc. in wind power generation, geothermal power generation, small hydro power generation, solar power generation, and the like. Easy and eco-friendly third party development is required.

Accordingly, the present invention is a conventional power generation apparatus that generates power without being subject to the above conditions or restrictions.

The present invention is not subject to any restrictions in the geographical requirements, environmental requirements, etc. in installing the apparatus, and does not require expensive materials. In addition, it can be installed anywhere and can be grouped and enlarged in a certain space.

The left side of Fig. 1 is a diagram showing a cross section of the apparatus, and the right side is a diagram showing an arrangement of rotating weights.
2, is a detail view of "A"

The present invention forms a shape as shown in FIG. 1, and forms a combination with a rotating drum ① that rotates about a central axis ⑧ and the central axis, and a ucp bearing ⑨ supporting the central axis and a rotating support rod ④ mounted on the rotating drum. The bearing housing⑤ and the ratchet gear⑥ mounted on the left side of the bearing housing and the spur gear③ mounted on the right side, the rotary weight⑦ mounted on the bearing housing, the upper gear② and the lower gear⑭ and the geared motor meshing with each other. ⑩ is provided,

When the rotating drum ① starts to rotate, the rotary rod mounted on the rotating drum ① rotates 180 ° by the action of the spur gear ③ and the ratchet gear ⑥ while passing the lower half gear gear ,, and then the upper half gear gear ②. In the process of passing through again by 180 ° to form a shape as shown in the right figure of Figure 1, as a result, and relates to a power generation device characterized in that to generate the eccentric rotational power generated by this shape.

The device also relates to the fact that the larger the size of the rotating drum ① and the rotating weight ⑦ in the range possible, the greater the torque can be generated in proportion.

Details of the present invention are as follows.

1) Using the ratchet gear ⑥ in the state where the rotating drum ① is artificially fixed, place the rotary weight ⑦ as shown in the right drawing of Fig. 1 ,.

2) When the fixed state is released, the rotating drum ① rotates in the direction of the arrow due to the eccentricity of the weight.

3) The shape of the rotary weight ⑦ while rotating from the point where the rotary weight ⑦ passes through the lower half gear gear 까지 to the top half gear gear ② is similar to FGHI in Fig. 1, and the moment it passes through the upper half gear gear ② again 180 °. Rotate to form the shape shown in Figure 1, A, B, C, D.

4) Rotating weight ⑦ rotated by 180 ° is not reversed by ratchet gear⑥.

5) The distance from the center of the rotary weight ⑦ to the center of the spur gear ③ is 566r, and the weight of the rotary weight is 120kg. The torque required to rotate it 180 ° is about 940 nm, which is covered by the torque of the geared motor.

6) The specification of the geared motor 2.2 is 2.2kw 30/1 35.8kgf-m, and when the spur gear ③ radius 160r is applied, it is about 2,192nm, which satisfies this and simultaneously controls the rotation speed of the rotating drum① to 60rpm. do.

7) As the above operation is continuously made, a considerable torque is generated. The calculation is as follows.
Briefly summarized the present invention through the above contents and Figure 1, the arrow in Figure 1 is from the rotary weight A toward the rotary weight B, it can be seen that the rotation direction of the rotating drum ① rotates counterclockwise.
In addition, in the above description, the rotation weight ⑦ rotates 180 ° by the action of the spur gear ③ and the ratchet gear⑥ in the process of passing the lower half gear gear ,, and then rotates 180 ° again in the process of passing the upper half gear gear ②. 1, the lower surface of the upper half gear gear ② is shown as a concave curved surface meshed with the spur gear ③ and the upper surface of the lower half gear gear is a concave curved surface and the spur gear ③. The figure is meshed with the gears, and the lower concave surface of the upper half gear gear ② and the upper concave surface of the lower half gear gear 충분히 can sufficiently predict that the gear meshed with the spur gear ③ is machined.
Furthermore, since the rotation weight ⑦ rotated 180 degrees does not reverse rotation by the ratchet gear ⑥, the rotation weight rotated clockwise by the upper half gear ② and the lower half gear gear 쳇 is a ratchet gear. It can be seen that it does not rotate counterclockwise by.
Accordingly, the rotary weight located on the right side of the center line connecting the upper half gear gear ② and the lower half gear gear 기 is located between the center point of the rotating drum ① and the center point of the spur gear ③ as shown in FGHI of FIG. 1.
The rotary weight located on the left side with respect to the center line connecting the upper half gear gear ② and the lower half gear gear 위치 is located outside the center point of the spur gear ③ as shown in A, B, C, and D of FIG. It can be seen that the weight of the rotary weight is eccentrically to the left and rotates counterclockwise.

Based on the baseline L-L,

The left four streets are

A; 1,867

B; 1,175

C; 1,867

D; 1,175, so the average distance is 1,521.

The four streets on the right,

F; 789

G; 501

H; 789

I; 501, so the average distance is 645 and the difference between the two distances is

1.521-645 = 876.

That is, the weight 480kg of four rotating weights ⑦ act on the rotating body of radius 876r.

If you convert this to torque (nm) unit again,

Weight of one rotator; 120kgf-m * 9.8 * 0.876 = 1,030nm,

If you apply four rotary weights to this,

1,030n, m * 4 = 4,120nm.

8) The rotating drum ① is controlled at 60rpm by the geared motor, so that the torquer decreases in proportion to the increase of 2.1 times in order to adjust the rotational speed to 125rpm of the low speed generator⑬, resulting in 4,120 / 2.1 = 1,961nm.

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10) The above values are calculated by applying the conditions when the radius of the rotating drum ① is 1600r and the weight of the rotating weight ⑦ is 120kg,

Very large torque can be generated by increasing the weight of rotary drum① and rotary weight⑦ within the range possible.

① Rotating Drum
② Upper half-gear gear (a device for rotating the rotary weight ⑦)
③ Spur Gears (Matches with Half Moon Gears)
④ Rotating Clamp (Put the rotary weight ⑦)
⑤ Bearing housing (a device that turns the rotary weight ⑦)
⑥ Ratchet Gear
⑦ Rotating weight
⑧ Central axis
⑨ ucp bearing
⑩ geared motor
⑪ V belt
⑫ pulley
Low speed generator
Lower half gear

Claims (2)

Central axis ⑧; and
Rotating drum ① is mounted around the central axis ⑧ to rotate;
Rotating mounting bracket ④ mounted on the rotating drum ①; and
A bearing housing ⑤ formed in combination with the rotary spring holder; and
Ratchet gear ⑥ mounted on the left side of the bearing housing ⑤; and
Spur gear ③ mounted on the right side of the bearing housing ⑤; and
Rotary weight ⑦ mounted to the bearing housing ⑤; and
Half moon gear ② ⑭ engaged with the spur gear ③; and
Geared motor 결합 coupled to the central axis ⑧; And
A V-belt ⑪ and a pulley ⑬ connecting the central shaft ⑧ and the low speed generator 저속 are provided.
When the rotating drum ① starts, the rotating drum ① rotates counterclockwise due to the eccentricity of the weight.
The upper half gear ② and the upper side of the lower half gear and the lower half gear gear form a concave curved surface, and as the gears meshed with the spur gear ③ are processed.
The rotary weight ⑦ is rotated 180 ° clockwise by the lower half-gear gear ,, and then rotated 180 ° clockwise again by the upper half-gear gear ②,
The rotary weight ⑦ rotated by 180 ° clockwise maintains a constant state as it does not rotate counterclockwise by the ratchet gear ⑥,
The rotary weight located on the right side with respect to the center line connecting the upper half gear gear ② and the lower half gear gear 위치하고 is located between the center point of the rotating drum ① and the center point of the spur gear ③.
The rotary weight located on the left side with respect to the center line connecting the upper half gear gear ② and the lower half gear gear 위치 is located outside the center point of the spur gear ③ so that the weight of the rotary weight is eccentric to the left based on the center point of the rotating drum ①. The generator is characterized in that the eccentric rotational power is generated in the rotating drum ① as arranged. delete

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