JP3903219B2 - Generator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce power required for power generation by utilizing gravity. <P>SOLUTION: Working load is reduced when a large rotator 6 rotates through utilization of a matching resilient body 1 and balanced fixing of a heavy matter 3, and a generator 9 is operated by starting rotational operation with gravity of the heavy matter 3 thus generating electric power. The large rotator 6 is provided with a gear 5 meshing a gear 4. The gear 4 is fixed with the matching resilient body 1 and the heavy matter 3 while balancing and a large rotator shaft 7 is connected with the generator 9. The large rotator 6 under balanced state is rotated by hydraulic power, thermal power or electric driving power. Rotation is thereby sustained and a gravity generator sustaining power generation is constituted. <P>COPYRIGHT: (C)2004,JPO&amp;NCIPI

Description

[0001]
[Industrial application fields]
The present invention is used in the field of generators.
[0002]
[Prior art]
Matching elastic body device
Generator-related Japanese Patent Application No. 2001-151732
The same Japanese Patent Application 2002-344669
[0003]
[Problems to be solved by the invention]
It is to make power generation easier by using gravity.
[0004]
[Means for solving the problems]
Utilize matching elastic device and gravity balance.
[0005]
[Action]
Reduce power during operation.
[0006]
[Example 1]
1 and 2 show an embodiment of claim 1. In the case of FIG. 2, the rotation of the large rotating body uses a crank, and 2 indicates a crankshaft. In accordance with the rotation or stop of 5, 8 is engaged or separated by an electromagnet or the like so that the operation of the generator is not hindered.
[Example 2]
FIG. 3 is a reference example.
[0008]
[Example 3]
FIG. 4 shows an embodiment of claim 2. FIG. 8 is a view showing a mechanism of the gear portion of the second and fourth aspects, in which the gear 4 is rotated by the rotation of the shaft by the rotation of the small rotating body and the small gear 5 is rotated. The generator is operated by rotating the shaft of the small gear 5.
[0009]
[Example 4]
FIG. 6 shows an embodiment of claim 3 in which the gear 4 rotates and the generator is operated by the rotation of the shaft.
[0010]
[Example 5]
FIG. 5 shows an embodiment of claim 4.
[0011]
[Example 6]
FIG. 7 shows an embodiment of claim 5.
[00012]
【The invention's effect】
Reduce power requirements and reduce environmental damage [Brief description of drawings]
FIG. 1 is a power generation apparatus according to claim 1. FIG. 2 is a power generation apparatus according to claim 1. FIG. 3 is a power generation apparatus as a reference example. FIG. 4 is a power generation apparatus according to claim 2. FIG. 6 is a diagram showing a mechanism of the power generator according to claims 2 and 4; and FIG.
DESCRIPTION OF SYMBOLS 1 Matching elastic body apparatus 2 Shaft crank apparatus shaft which rotates large rotating body 3 Heavy article 4 Gear 5 Small gear 6 Large rotating body 7 Large rotating body shaft 8 Detachment device 9 Generator 10 Small rotating body 11 Toothed rod-shaped plate 12 Tip Toothed plate 13 Heavy load moving groove

Claims (5)

(B) A large rotating body that rotates around the shaft or by other methods is provided, and a gear or small rotating body that rotates about its own axis is attached to this large rotating body, and the small rotating body is mounted. If so, attach more gears to the shaft. Install heavy objects near the circumference of the gear or small rotating body.
(B) A plurality of elastic bodies are attached to a plurality of rotatable mounting devices, and a device of a mechanism connected in a circular manner is provided. The elasticity of this device is generated by a heavy object or the like generated in the large rotating body described in (a) above. An apparatus having a mechanism capable of maintaining an operating load during rotation mainly by weight and a balance state or a strength ratio within a certain range (hereinafter, this apparatus is referred to as a matching elastic body apparatus). Alternatively, a single elastic body is used to form a device having the same mechanism.
(C) A large rotating body in a balanced state is rotated by a thermal power, hydraulic power, electric power, or other method using the device described in (b).
(D) A rotating or other type generator using a coil, a permanent magnet or an electromagnet (hereinafter simply referred to as a magnet) is provided, and a small gear rotating by contact with the gear described above is provided. The generator is operated by the rotation of the shaft of the small gear to generate power.
By the mechanism as described above, the gear or the small rotating body, which has a heavy object up by the rotation of the large rotating body, is rotated by half due to the weight of the heavy object, and the generator is operated by the shaft. Next, the gear or the small rotator, which is turned up again by half rotation of the large rotator, is rotated halfway, and the operation is returned to the initial operation state by further half rotation of the large rotator. A gravity generator that is configured to continue to rotate and generate electricity in this way. (A) A large rotating body that rotates about an axis or by other methods is provided, and several or many small rotating bodies are provided in the large rotating body in a structure that maintains the weight balance of the large rotating body.
(B) Install a heavy object of the same weight near the circumference of each small rotating body.
(C) A mechanism for generating electric power by operating a generator using coils and magnets by rotation of a small rotating body by a heavy object.
(D) The large rotating body described in (a) is rotated by thermal power, hydraulic power, electric power, or other methods.
By the mechanism as described above, the small rotator with the heavy load turned by rotating the large rotator rotates, and the small rotator rotates every time the large rotator rotates, so that gravity is generated. Generator. (B) A large rotating body that rotates about an axis or by other methods is provided, and a large number of heavy objects that fall within a certain range along the circle of the large rotating body are provided. A structure that maintains the balance of weight, which affects the rotation of the large rotating body in all subsequent positions, is adopted.
(B) A rotating or other type generator using a coil or magnet is provided, and a gear of a mechanism for operating the generator by rotating the gear shaft is provided. A mechanism for rotating the gears by the falling down is used.
(C) The rotation of the large rotating body described in (i) is a mechanism using thermal power, hydraulic power, electric power, or other methods.
By rotating the large rotating body by the mechanism as described above, the heavy object is dropped along the circle to rotate the gear, and the large rotating body is rotated halfway, so that the dropped heavy object does not affect the gear. Gravity generator configured to return to its original position, start operating by further rotation, and continue power generation. (A) A large rotating body that rotates about an axis or by other methods is provided, and several or many small rotating bodies are provided in the large rotating body in a structure that maintains the balance of the weight of the large rotating body. Attach a heavy object of the same weight near the circle. Furthermore, one heavy object is provided on the circumference of the large rotating body itself.
(B) A plurality of elastic bodies are attached to a plurality of rotatable mounting devices, and a device of a mechanism connected in a circular connection is provided, and the elasticity of this device is a heavy object attached to the large rotating body itself described in (a), etc. The device of the mechanism that can keep the ratio of the balance between the operating load caused by the rotation mainly due to the weight and the balance state or the strength within a certain range (this device is hereinafter referred to as a matching elastic device). To do. Or it is set as the apparatus of the same mechanism with a single elastic body.
(C) A mechanism for generating electricity by operating a generator using coils and magnets by rotation of the small rotator by a heavy object attached to the small rotator.
(D) The large rotating body described in (a) is a mechanism that is rotated by thermal power, hydraulic power, electric power, or other methods.
By the mechanism as described above, the balance of the weight of the large rotating body is changed to a balanced state with the tension to be pulled upward, and the rotation is smoothed, and the power generation is continued by the rotation. (B) A large rotating body that rotates about an axis or by other methods is provided, and a large number of heavy objects that fall within a certain range along the circle of the large rotating body are provided. A structure that maintains the balance of weight that affects the rotation of the large rotator in all subsequent positions and a large weight is provided around the circumference of the large rotator itself.
(B) A plurality of elastic bodies are attached to a plurality of pivotable attachment devices, and a device of a mechanism that is connected in a circular manner is provided, and the elasticity of this device is a heavy object fixed to the large rotating body described above An apparatus having a mechanism capable of keeping the operating load, the balance state, or the strength ratio of the rotation mainly caused by the weight caused by others within a certain range (hereinafter, this apparatus is referred to as a matching elastic body apparatus). Alternatively, a single elastic body is used to form a device having the same mechanism.
(C) A rotary generator using a coil or magnet, or other type of generator is provided, and a gear of a mechanism for operating the generator by rotating the gear shaft is provided. A mechanism for rotating the gears by being dropped is used. The large rotating body described above is a mechanism that rotates by thermal power, hydraulic power, electric power, or other methods.
With the mechanism as described above, the mechanism is configured to generate electricity by smoothing the rotation of the large rotating body.

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