JPH04359666A - Energy saving power generating system - Google Patents

Abstract

PURPOSE:To provide a energy saving power generating system which can generate power without requiring large amount of energy. CONSTITUTION:An energy save power generating system 10 comprises a first rotary gear 12A, a second rotary gear 12B, a third rotary gear 12C, a fourth rotary gear 12D, a first small rotary gear 32A, and a second small rotary gear 32B. A first drive shaft 28A is secured, at one end 28a and the other end 28b thereof, to a first generator 30A and the rotary shaft 31A of a second generator 30B, respectively. A well known starter motor 36 and a first externally driven motor 38A are juxtaposed in the intermediate part of the drive shaft 34A.

Description

[Detailed description of the invention]

0001

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power generation device, and more particularly to an energy-saving power generation device that can save energy during power generation work.

0002

2. Description of the Related Art Conventionally, in order to operate a power generating device to generate electricity, a large amount of energy is continuously supplied to the power generating device to operate the power generating device. Therefore, there is a problem in that a large amount of energy is always required to operate the power generation device.

0003

[Problems to be Solved by the Invention] The present invention has been made in view of the above facts, and provides an energy-saving power generation device that can operate a generator without requiring a large amount of energy. It is to provide.

0004

[Means for Solving the Problems] The invention as claimed in claim 1 provides a first rotating body that is provided with a weight inside and can rotate at high speed when a rotational force is applied in the rotational direction, and a first rotating body that rotates integrally with the first rotating body. a first drive shaft, a first generator provided corresponding to the first drive shaft and having a rotating shaft connected to the first drive shaft; In addition, a second rotating body that can rotate at high speed, a second drive shaft that rotates integrally with the second rotating body, and a rotating shaft provided corresponding to the second drive shaft and connected to the second drive shaft. Second
a generator, a third rotating body that is provided with a weight inside and can rotate at high speed when a rotational force is applied in the rotational direction; a third drive shaft that rotates integrally with the third rotating body;
The third rotary shaft is provided corresponding to the drive shaft.
A third generator connected to the drive shaft, a fourth rotating body that has a weight inside and can rotate at high speed when a rotational force is applied in the rotational direction, and a fourth drive that rotates integrally with the fourth rotating body. a fourth generator that is provided corresponding to the fourth drive shaft and whose rotating shaft is connected to the fourth drive shaft; and a fourth generator that generates electricity by rotation of the first rotating body or the second rotating body; a first additional drive motor that applies rotational force to the rotary body or the fourth rotary body; and a first other drive motor that generates electricity by rotation of the third rotary body or the fourth rotary body and applies rotational force to the first rotary body or the second rotary body. A second additional driving motor is provided.

[0005]

[Operation] In the energy-saving power generation device according to the present invention, when the first rotating body is rotated, the first rotating body rotates at high speed due to the rotational movement of the weight body provided inside the first rotating body. Therefore, the second rotating body that is interlocked with the first rotating body also rotates at a high speed. The first and second generators are operated by the high speed rotation of these first and second rotating bodies. Further, the first other drive motor is activated by the high speed rotation of the first rotary body or the second rotary body, and rotates the third rotary body and the fourth rotary body, thereby operating the third generator and the fourth generator. . The rotation of the third rotary body or the fourth rotary body causes a second other driving motor to operate, thereby rotating the first rotary body and the second rotary body. Therefore,
In the energy-saving power generation device according to the present invention, power can be generated using only the energy needed to rotate the first rotating body once.

[0006]

[First Embodiment] FIGS. 1 to 3 show a first embodiment of an energy-saving power generation device (10) according to the present invention. FIG. 2 shows a first rotating gear (
12A) is shown. This first rotating gear (12A)
is formed into a disk shape, and its outer circumferential surface has meshing teeth (
14) is formed, and a shaft through hole (16) is formed in the axial direction at the axial center of the first rotating gear (12A). This shaft through hole (16) has a bearing (
18) is attached. The first rotating gear (12
A) has a disc-shaped cavity (20) formed inside it;
Three weight bodies (2
2), (24), and (26) are fixed. Pyramid (2
The inclination angles A1 and A2 of 2), (24), and (26) are each set to 35 degrees (note that the inclination angle A1
, A2 is not limited to 30 degrees as long as it is 5 degrees or more and 89 degrees or less. ). In addition, the cone bodies (22), (24),
The total weight of (26) is preferably set between 60% and 120% of the weight of the first rotating gear (12A) (
In this embodiment, the total weight of the weight bodies (22), (24), and (26) is set to 60% of the weight of the rotating gear (12A). ). The shaft through hole (16) is shown in FIG.
The first drive shaft (28A) is inserted as shown in FIG. Therefore, as the first rotating gear (12A) rotates, the first drive shaft (28A)
It also rotates. Further, one end (28a) and the other end (28a) of the first drive shaft (28A)
8b), a first generator (30A) and a second generator (30B) each using a known generator are provided in correspondence with each other. 1st drive shaft (28A)
One end (28a) and the other end (28b) of the first generator (30A) and the second generator (30A) shown in FIG.
B) is connected and fixed to the rotating shaft (31A). Therefore, when the first rotating gear (12A) rotates and the first drive shaft (28A) rotates, the armatures (31B) of the first generator (30A) and the second generator (30B) rotate and generate electricity. It has become. As shown in FIG. 1, supports (33) each having a bearing are provided at both ends of the first drive shaft (28A) to support the first drive shaft (28A). As shown in FIG. 1, a second rotating gear (12B) having the same configuration rotates in conjunction with the first rotating gear (12A) via a first small rotating gear (32A). That is, the meshing teeth (14) of the first rotating gear (12A) are connected to the first small rotating gear (12A).
32A) meshing teeth (14) and the first small rotation gear (32A)
) meshing teeth (14) mesh with meshing teeth (14) of the second rotating gear (12B), respectively. As shown in FIG. 3, the first small rotating gear (32A) has the same structure as the first rotating gear (12A) and the second rotating gear (12B), but the diameter dimension is smaller than that of the first rotating gear (12A). ), the size is set smaller than that of the second rotating gear (12B). Said first
The drive shaft (28A) of the first rotating gear (12A) and the drive shaft (28B) of the second rotating gear (12B) are inserted into the shaft through hole (16) of the small rotating gear (32A).
) One end of the shorter drive shaft (34A) is inserted. A starting motor (36) made of a known motor and a first other drive motor (38A) made of a known motor are installed in the middle of the drive shaft (34A).
are arranged side by side. The drive shaft (34) is connected to the starting motor (36) and the first other drive motor (3).
8A) is connected and fixed to the rotating shaft (not shown). Therefore, when the first small rotation gear (32A) rotates and the drive shaft (34A) rotates, the starting motor (36
) and the first other drive motor (38A) rotate, and the starting motor (36) and the first other drive motor (38A) rotate.
) is driven. As shown in FIG. 1, the first other drive motor (38A) is opposed to the second other drive motor (38A).
38B) and a cord (39A), and can drive a second other drive motor (38B). A support body (
33) is provided to support the drive shaft (34). On the other hand, as shown in FIG.
12A), a fourth rotating gear (12D) facing the second rotating gear (12B), and a second small rotating gear opposing the first small rotating gear (32A). Rotating gears (32B) are respectively provided. In addition, the third
The rotary gear (12C) and the fourth rotary gear (12D) have the same shape and structure as the first rotary gear (12A) and the second rotary gear (12B), so a description thereof will be omitted. Further, since the second small rotation gear (32B) has the same shape and structure as the first small rotation gear (32A), a description thereof will be omitted. Also, a third drive shaft (28C) of the third rotating gear (12C) has the same configuration as the first drive shaft (28A).
) corresponds to the fifth generator (30E) and the sixth generator (30E).
0F), and a seventh generator (30G) and an eighth generator (30H) are respectively disposed corresponding to the fourth drive shaft (28D). In addition, the second small rotation gear (32B)
The drive shaft (34B) also has the same configuration as the first small rotation gear (32A) and a second other drive motor (38B).
), but no starting motor is provided. The second other drive motor (38B) is connected to the cord (
39B) and the first other drive motor (38A).
It is connected to the.

Next, the operation of the first embodiment will be explained. First, to start the energy-saving power generation device (10), the starting motor (40) is turned on and the starting motor (36) is started. This rotation of the starter motor (36) causes the drive shaft (34A) of the first small rotation gear (32A) to rotate. Said first small rotation gear (32A)
When it rotates, the weight bodies (22) and (2
4), (26) also rotate, and the cones (22), (24), (
26) due to the movement of gravity, the first small rotating gear (
32A) is given a biasing force and rotates at high speed (approximately 20° per minute).
0 rotations to approximately 3000 rotations). Therefore, since the drive shaft (34A) of the first small rotation gear (32A) rotates at high speed, the first rotation gear (12A) and the second rotation gear (12B) that mesh with the first small rotation gear (32A) )
rotates. Like the first small rotation gear (32A), these first rotation gear (12A) and second rotation gear (12B) also rotate at high speed due to gravity movement caused by the movement of the weight bodies (22), (24), and (26). Therefore, the first rotating gear (12A),
Drive shaft (28B) of second rotating gear (12B)
The rotation of the 3rd generator (30C) and the 4th generator (30C)
D) operates to generate electricity. Note that the first rotating gear (
Since the first small rotation gear (32A) is interposed between the first rotation gear (12A) and the second rotation gear (12B), the first rotation gear (12A) and the second rotation gear (12B) move in the same direction. It is designed to rotate. On the other hand, the starting motor (36
), the first other drive motor (38A) is also driven, and the second other drive motor (38A) is driven through the cord (39A).
38B) starts. As a result, the second small rotation gear (
32B) rotates at high speed, and the rotation of the second small rotation gear (32B) causes the third rotation gear (12C) and fourth rotation gear (12D), which are meshed with the second small rotation gear (32B), to rotate at high speed. . As a result, the fifth generator (30E),
The sixth generator (30F), the seventh generator (30G), and the eighth generator (30H) operate to generate electricity, respectively. Moreover,
The code (
39B) to the first counterpart generator motor (38A).
), the first small rotation gear (32A) continues to rotate even if the starter motor (36) does not operate continuously, so the first generator (30A) and the second generator (30B) ), 3rd generator (30C), 4th generator (30C), 3rd generator (30C), 4th generator (30C)
D) continues to operate. Therefore, in this energy-saving power generation device (10), the first small rotation gear (32A
) can generate electricity by rotating it. In this embodiment, when the energy-saving power generation device (10) is started for the first time, the first small rotation gear (32A) is rotated via the starting motor (36). The gear (32A) may also be rotated. In this embodiment, the first drive shaft (28A) is equipped with a first generator (30A) and a second generator (30B), and the second drive shaft (28C) is equipped with a third generator (30C) and a second generator (30B). 4 generators (30D),
The third drive shaft (28D) is connected to the fifth generator (30
E) and the sixth generator (30F) were connected to the fourth drive shaft (28D), and the seventh generator (30G) and the eighth generator (30H) were connected to the fourth drive shaft (28D), but the present invention is not limited to this. A generator or more than two generators may be coupled to the drive shaft.

FIG. 5 shows a second embodiment of the energy-saving power generation device (10) according to the present invention. This embodiment differs from the first embodiment in that the first rotating gear (12A) and the second
The rotating gear (12B), the third rotating gear (12C), and the fourth rotating gear (12D) are configured to directly mesh with each other. Further, the first drive shaft (28A) has a first other drive motor (38A), and the second drive shaft (28C) has a second other drive motor (38B).
are provided correspondingly. In addition, other configurations,
Since the operation is the same as that of the first embodiment, the explanation will be omitted. Furthermore, in the second embodiment, since the first small rotation gear (32A) and the second small rotation gear (32B) are not required, it is possible to reduce the number of parts and make the energy-saving power generation device (10) more compact. It has the advantage of

Note that the first rotating gear (12A) of the embodiment,
A second rotating gear (12B), a third rotating gear (12C), a fourth rotating gear (12D), and a first small rotating gear (32A),
The second small rotation gear (32B) was made of aluminum,
It goes without saying that the material is not limited to this, and may be made of other suitable materials such as non-ferrous metals, metals, synthetic resins, etc. In addition, in the embodiment, meshing teeth (14) are provided on the outer peripheral surfaces of the first rotating gear (12A), the second rotating gear (12B), the third rotating gear (12C), and the fourth rotating gear (12D) so that they mesh with each other. Although the rotational force is transmitted by meshing the teeth (14), the present invention is not limited to this, and it goes without saying that the rotational force may be transmitted by, for example, a chain or the like. In addition, in the example, the first rotating gear (12A) and the third
The rotating gear (12C) is connected to the second rotating gear (12B) and the fourth rotating gear (12B).
Although the rotating gears (12D) are provided facing each other, the present invention is not limited to this, and the first rotating gear (12A),
The second rotating gear (12B), the third rotating gear (12C), and the fourth rotating gear (12D) may be arranged in parallel.

0010

As explained above, in the energy-saving power generation device according to the present invention, once the energy-saving power generation device is started, power generation work can be performed with a small amount of energy, so that power generation work can be performed without requiring a large amount of energy. It has the extremely excellent effect of being able to perform

[Brief explanation of drawings]

FIG. 1 is a schematic plan view of an energy-saving power generation device according to a first embodiment of the present invention.

FIG. 2 is a cross-sectional view of a rotating gear constituting the energy-saving power generation device of the first embodiment of the present invention.

FIG. 3 is a sectional view of a small rotating gear that constitutes the energy-saving power generation device of the first embodiment of the present invention.

FIG. 4 is a schematic cross-sectional view of a known motor used in the energy-saving power generation device of the first embodiment of the present invention.

FIG. 5 is a schematic plan view of an energy-saving power generation device according to a second embodiment of the present invention.

[Explanation of symbols]

(10) Energy-saving power generation device (12A)
First rotating gear (12B) Second rotating gear (12C) Third rotating gear (12D) Fourth rotating gear (22) Weight body (24) Weight body (26) Weight body

Claims (1)

[Claims] Claims: 1. A first rotating body that is provided with a weight inside and can rotate at high speed when a rotational force is applied in the rotational direction;
A first drive shaft that rotates integrally with the rotating body, a first generator that is provided corresponding to the first drive shaft and whose rotating shaft is connected to the first drive shaft, and a weight body that is provided inside and rotates. a second rotating body that can rotate at high speed when a rotational force is applied in a direction; a second drive shaft that rotates integrally with the second rotating body; and a rotating shaft provided corresponding to the second drive shaft that is connected to the second drive. A second generator connected to the shaft, a third rotating body that is provided with a weight inside and can rotate at high speed when a rotational force is applied in the rotational direction, and a third drive shaft that rotates integrally with the third rotating body. A third generator is provided corresponding to the third drive shaft and has a rotating shaft connected to the third drive shaft, and a weight body is provided inside and can rotate at high speed by applying rotational force in the rotation direction. a fourth rotating body, a fourth drive shaft that rotates integrally with the fourth rotating body, and a fourth generator provided corresponding to the fourth drive shaft and having a rotating shaft connected to the fourth drive shaft. , a first other driving motor that generates electricity by rotation of the first rotary body or the second rotary body and applies rotational force to the third rotary body or the fourth rotary body; and the third rotary body or the fourth rotary body. An energy-saving power generation device characterized by comprising: a second additional drive motor that generates electricity through the rotation of the rotary body and applies rotational force to the first rotary body or the second rotary body.