JPH06280736A - Reduction energy device - Google Patents

Abstract

PURPOSE:To provide given clean and safe movement energy by joining together and separating buoyancy and gravity, generated based on a reduction, a circulation, and a relative ideal from each other. CONSTITUTION:A buoyancy part 10 to containing a sinkable buoyant object 12 in water 11 is disposed to an upper part along the direction of gravity, and a gravity part 20 to contain an elevatable gravity cylinder 22 linked to the buoyant object 12 through a link means 23 is disposed to a lower part. When water 21 having relatively approximately the same weight as that of the gravity cylinder 22 is fed, the gravity cylinder 22 is released from a holding means 27 and lowered and dropped as buoyancy is accumulated at the buoyant object 12. During a no-load in which water 21 is drained after lowering, the buoyant object is raised and returned by means of the buoyant object 12, elevation operation held by the holding means 27 is repeated to generate reciprocating movement energy.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention is directed to a predetermined amount of energy based on the principles of reduction, circulation and relative movement by vertically moving a buoyant body placed in a buoyancy zone and a gravity cylinder placed in a gravity zone. The present invention relates to a reduction energy device that can generate.

[0002]

2. Description of the Related Art Conventionally, wind force caused by natural phenomena in heaven,
Various energy sources such as electric power and other power plants using hydropower, sunlight, etc., power equipment by internal combustion engine using explosion / combustion of fossil fuels, nuclear power generation facilities using nuclear energy by nuclear fission reaction, etc. Is getting
All of these eventually utilize the energy accumulated and converted in nature as heat and kinetic energy.

[0003]

However, the conventional use of this kind of energy is to simply convert what is accumulated by changing the form in the natural world, and to generate new energy. is not. Not only that, but because they destroy nature and pollute the environment, their long-term and permanent use poses a risk of endangering the habitat of humans and various other organisms. .

Therefore, the present invention was created in view of the existing circumstances as described above, and nothing is reduced or polluted by the theory of reduction, circulation, or eternity established based on the idea of relatives. Since it is possible to obtain clean and safe energy, buoyant force due to the vertical movement of the buoyant body placed in the buoyancy zone and the gravity cylinder placed in the gravitational zone, the combination of gravity and the separation It secured a new reduction energy device as a power source for generating kinetic energy.

[0005]

In order to achieve the above-mentioned object, in the present invention, the buoyancy portion 10 and the gravity portion 20 are arranged above and below in the direction of gravity, and the buoyancy within the buoyancy portion 10 is increased. The body 12 and the gravity cylinder 22 in the gravity unit 20 are connected to each other, and the buoyancy generated in the buoyancy body 12 itself and the heavy load (2) supplied to or discharged from the gravity cylinder 22.
It is characterized in that reciprocal kinetic energy along the direction of gravity can be obtained by combining and separating with gravity in 1).

Further, specifically, the frame 1 which is formed long along the direction of gravity and the buoyant body 12 which is filled with water 11 and which is capable of sinking are accommodated and arranged above the frame 1. The buoyant body 10 is connected to the buoyant body 12 and drops due to the weight formed by the supplied water 21. The buoyancy of the buoyant body 12 is reduced when the water 21 is drained and is not loaded. A gravity cylinder 22 that rises and returns in accordance with the above is housed so as to be able to move up and down, and the gravity cylinder 20 provided at the bottom of the frame 1 is provided.

The gravity cylinder 22 under no load can be constructed so as to be floated and held in a neutral state in which there is no gravity, as the buoyancy generated in the buoyancy body 12 itself is substantially the same.

The gravity unit 20 is supported in the frame 1 so as to be able to move up and down, is connected to the buoyant body 12 via a connecting unit 23, and has a substantially cylindrical gravity with an upper opening opened and closed by an opening / closing valve 36. Cylinder 22, holding means 27 that holds this gravity cylinder 22 in a raised position and releases the holding state by the weight of water 21 that is supplied and loaded, and water supply means 31 that supplies water 21 into gravity cylinder 22.
And a drainage means 32 for opening the on-off valve 36 at the bottom of the gravity cylinder 22 and draining the water 21 contained therein when the water 21 drops down due to the load formed by the supplied water 21. You can

Further, the holding force of the holding means 27 is such that when the water 21 is supplied in an amount equal to or more than the total weight of the gravity cylinder 22 including the weight of the gravity cylinder 22, that is, the on-off valve 36 itself, The holding state with the gravity cylinder 22 can be released.

The lifting stroke of the gravity cylinder 22 is
The bottom of the gravity cylinder 22 is opened, and the position of the drainage means 32 for draining the water 21 can be adjusted.

[0011]

In the reduction energy device according to the present invention, the weight of the entire gravity cylinder 22 in the gravity section 20 in the unloaded state and the buoyancy generated in the buoyant body 12 in the buoyancy section 10 are the gravity direction. In addition, the latter also acts in the negative, and the state of mutual equilibrium causes the two 22 and 12 to face each other and be held as if they were floatably held in a neutral state of zero gravity. Here, the load supply of the water 21, which is a heavy load, to the gravity cylinder 22 increases the weight of the gravity cylinder 22 and simultaneously causes the buoyant body 12 to move to the water 1.
The buoyancy is generated by sinking in 1.

The water supply means 31 in the gravity section 20 supplies the water 21 into the gravity cylinder 22 in the raised position held by the holding means 27, and applies a predetermined weight to the entire gravity cylinder 22. When this weight load becomes larger than the holding force of the holding means 27, the holding state is released and the gravity cylinder 22 is dropped. The weight load at this time is additionally generated as buoyancy in the buoyancy body 12, and it is as if the applied gravity moved to buoyancy.

Further, the gravity cylinder 2 of the water 21 having a weight substantially equal to or more than the total weight of the gravity cylinder 22.
The supply to 2 releases the holding state of the gravity cylinder 22 of the holding means 27, lowers the gravity cylinder 22 after the release, and further sinks the buoyant body 12 via the connecting means 23.

That is, the falling of the gravity cylinder 22 is based on the gravity along the vertical direction. At this time,
The gravity unit 20 generates positive gravity energy having a predetermined stroke associated with the fall of the gravity cylinder 22. At the same time, the means 2 connected to this gravity cylinder 22
Buoyancy body 12 in buoyancy unit 10 connected via 3
Is settled in the buoyancy portion 10, and buoyancy energy is accumulated in this.

When the gravity cylinder 22 descends and reaches the position of the drainage means 32, the drainage means 32 moves to the gravity cylinder 2.
(2) The bottom opening / closing valve 36 is opened to drain the water 21 inside, and the gravity cylinder 22 is put into an unloaded state. The gravity cylinder 22 in an unloaded state is lifted by the buoyancy of the buoyancy body 12 in the buoyancy unit 10 connected to the gravity cylinder 22 via the connecting means 23, and has a predetermined stroke associated with the buoyancy. Generates positive buoyancy energy.

At this time, the position adjustment of the drainage means 32 changes the ascending / descending stroke of the gravity cylinder 22, and the setting of the drainage means 32 to a low position is the stroke by which the buoyancy body 12 sinks in the buoyancy portion 10. The accompanying buoyancy is also increased and the amount of generated energy is increased.

The buoyant force of the buoyant body 12 raises the gravity cylinder 22 to reach the holding means 27 and holds it, and returns it to the original position before the descending and dropping so as to stand by for the next operation.

[0018]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. In the drawings, reference numeral 1 is a frame formed long along the vertical gravity direction. A buoyant portion 10 having a water tank structure that constitutes a buoyancy zone and a gravity portion 20 that constitutes a gravitational zone are sectioned and arranged in upper and lower portions, respectively.

The frame 1 itself is formed, for example, in a tubular shape, or is obtained by combining and constructing steel materials so that the outer shape is substantially circular, rectangular, etc., and inside thereof, in the figure, the frame 1 Buoyancy part 10 on top of the frame 1
Gravity parts 20 are arranged and housed in the lower part of each.

The buoyancy unit 10 is composed of a water tank filled with water 11. Inside the buoyancy unit 10, the weight of the gravity cylinder 22 in the unloaded state described later, that is, the gravity cylinder 22 including the on-off valve 36, is described. A buoyant body 12 set to have substantially the same buoyancy is accommodated in a sinkable manner. The buoyancy body 12 itself is formed in a bottomed cylindrical shape with an open upper part as shown in the figure, or is formed in a hollow float structure, and the buoyancy generated in itself is the same as that of the gravity cylinder 22 itself in an unloaded state. It is designed to be almost relative to the weight. That is, as shown in FIG. 4, the buoyancy body 12 integrated vertically and the gravity cylinder 22 in the unloaded state are connected to the buoyancy of the former 12 by the connecting means 23 described below which penetrates the bottom of the buoyancy unit 10. Since the latter 22 itself is almost in balance with the gravity, it is set as if it were floatingly held in a neutral state of zero gravity. Reference numeral 13 in the figure is a buoyancy guide that holds the buoyancy body 12 that projects above the water surface of the buoyancy unit 10. The buoyancy body 12 projects above the water tank by the buoyancy of the buoyancy body 12 itself.
Is held in a slidable state.

The water 11 in the buoyancy portion 10 is replaced by another liquid having a specific gravity larger than that of the water 11 so as to give a sufficient buoyancy to the buoyancy body 12 settled therein. It is also possible to do so.

The gravity unit 20 is connected to the buoyant body 12 and accommodates a gravity cylinder 22 that can descend and fall due to the weight formed by the supplied water 21 so as to be lifted and lowered. That is, it is supported by a guide column 24 formed in the frame 1 so as to be able to move up and down, and is connected to the buoyancy body 12 via a connecting means 23, and the bottom portion of the open / close valve 3
Inside the gravity cylinder 22, a gravity cylinder 22 having a substantially cylindrical shape with an upper opening that is opened and closed by 6, holding means 27 that holds the gravity cylinder 22 in a raised position and releases the holding state by the weight of the water 21 that is loaded. A water supply means 31 for supplying water 21 to the inside, and a drainage means 32 for opening the bottom of the gravity cylinder 22 and draining the water 21 contained therein when the weight 21 is dropped due to the load formed by the supplied water 21. Equipped with.

The gravity cylinder 22 itself descends and falls due to the weight of the water 21 contained therein, and the weight applied at this time causes the buoyancy body 12 to be connected through the connecting means 23.
It is also settled in the buoyancy unit 10. Therefore, the capacity of the gravity cylinder 22 corresponds to the capacity of the water 21 which is sufficient to settle the buoyancy body 12. The bottom of the gravity cylinder 22 is openable and closable by an on-off valve 36, and the inner surface of the bottom is above the on-off valve 36 itself when it is forcedly pushed into the gravity cylinder 22 by the load of an external force from the bottom of the bottom. In order to prevent water from leaking when the on-off valve 36 quickly closes the bottom opening after drainage, the bottom opening after drainage is formed in a weight-like shape whose diameter gradually decreases as it reaches the bottom. The on-off valve 36 itself is formed, for example, in a substantially conical shape so as to slide downward in the gravity cylinder 22 by its own weight to close the bottom opening.

Further, the connecting means 23 is formed in the shape of a rod which is slidably inserted in a watertight manner at the bottom of the water tank in the buoyancy section 10 arranged on the upper part of the frame 1, and the buoyancy body 1
2 is connected between the bottom and the top of the gravity cylinder 22. Even if the connecting means 23 itself slides through the bottom portion of the buoyancy portion 10, the liquid 11 in the buoyancy portion 10 still has the buoyancy portion 1.
Of course, it does not leak to the outside below 0.

The guide column 24 is a column member fixedly arranged on the inner surface of the center of the frame 1 and formed with a slit-shaped guide groove 25 along the vertical direction. A guide pin 26 protruding from the outer side surface is slidably fitted.

As shown in the figure, the holding means 27 is supported by the magnetic attraction action of permanent magnets having mutually different polarities fixed to the upper opening of the gravity cylinder 22 and the upper inner surface of the guide column 24. It is a thing. The magnetizing action by the permanent magnets exerts a suction raising force when the gravity cylinder 22 that rises again after falling and reaches the vicinity of the raising stop position, and can be used as an auxiliary raising force when the raising action is insufficient. The holding structure by the holding means 27 is not limited to this. The holding force of the gravity cylinder 22 by the holding means 27 itself is such that when the gravity cylinder 22 in the unloaded state is in the raised position, the opening / closing valve 36
When the weight of the water 21 supplied to the inside exerts a holding action sufficient to sufficiently support the entire gravity cylinder 22 including the water, and the weight of the water 21 supplied to the inside of the gravity cylinder 22 including the on-off valve 36 is approximately the same or more. The holding state is released, the gravity cylinder 22 is dropped and dropped, and then the gravity cylinder 22 is firmly held when the weight is released and the weight is raised.

The water supply means 31 has its supply port located above the upper opening of the gravity cylinder 22 so as to constantly supply the water 21 for weight load to the gravity cylinder 22. As the water 21, the water drained from the gravity cylinder 22 can be reused, and the power generated by the energy obtained by the lifting and lowering of the buoyant body 12 and the gravity cylinder 22 is stored in the battery 41, whereby the water 21 is stored. The operating pumping pump 42 allows the water supply means 31 to supply again into the gravity cylinder 22 via the pipe 43 connected to the tank 37 provided at the bottom of the frame 1.

In the illustrated example, the drainage means 32 has a pipe-like push-up erected on the bottom of the frame 1 with its upper end located above the bottom of the gravity cylinder 22 at the lowest position of the gravity cylinder 22 that descends and falls. A guide rod 35, which is formed of a pillar and projects below the on-off valve 36 that opens and closes the bottom opening of the gravity cylinder 22, is inserted. Then, when the gravity cylinder 22 descends and falls due to the weight of the water 21 supplied into the gravity cylinder 22, the opening / closing valve 36 pushes up and abuts against the upper end of the pillar-shaped drainage means 32, so that the downward fall is restricted. Along with this, it is forcibly pushed up into the gravity cylinder 22 to open the bottom of the gravity cylinder 22. When the water 21 in the gravity cylinder 22 is drained by the opening, the gravity cylinder 22 rises due to the buoyancy generated in the buoyancy body 12, and the bottom of the gravity cylinder 22 opens and closes the opening / closing valve 3.
The bottom of the gravity cylinder 22 is closed by lifting 6 up.

In the figure, reference numeral 33 is a gravity cylinder 2 in which the repulsive force is accumulated when the outer surface of the bottom of the gravity cylinder 22 that has fallen and has fallen is abutted and starts to rise when gravity is released.
The repulsion spring is configured to apply an ascending force due to the repulsive force with respect to 2, and is formed and arranged in a coil shape on the lower portion of the inner surface of the guide column 24. This repulsion spring 33
By virtue of the above-mentioned permanent magnet engaging means 27, it is possible to supplement the insufficient rising restoring force when the reciprocal kinetic energy obtained by the buoyant body 12 and the gravity cylinder 22 is reduced by resistance or the like.

In the illustrated embodiment, the buoyant portion 10 is arranged on the upper portion of the frame 1 and the gravity portion 20 is arranged on the lower portion, but these buoyant portion 10 and the gravity portion 20 are vertically arranged. It is also possible to arrange them in the opposite way.

Next, an example of use of the device of the present invention will be described. As shown in FIG. 1, in the gravity section 20, a predetermined water 21 is supplied into the gravity cylinder 22 by the water supply means 31 and the gravity cylinder 22 is supplied. When the inside reaches a predetermined weight, the holding state by the holding means 27 is released and the gravity cylinder 22 descends and falls (see FIG. 2). This descending fall is based on gravity along the vertical direction, and at this time, drop energy is generated, and this fall due to gravity causes the buoyant body 12 connected to the gravity cylinder 22 via the connecting means 23 to move. The buoyancy unit 10 is accelerated and lowered, and buoyancy is accumulated in the buoyancy body 12 itself, and the buoyancy unit 10 is settled.

Then, as shown in FIG. 3, when the gravity cylinder 22 descends near the bottom of the frame 1, the bottom of the gravity cylinder 22 is opened by the operation of the drainage means 32, and the water 21 in the gravity cylinder 22 is drained. When drained, the gravity cylinder 22 is in an unloaded state in which there is no gravity, so the gravity cylinder 22 rises due to the buoyancy accumulated in the buoyancy body 12 itself. When ascending, the gravity cylinder 22 is held by the holding means 27, and the falling of the water is started by the supply of the water 21 in excess of the relative weight of the gravity cylinder 22, which is higher than the neutral position of zero gravity. Raising energy is generated to reach the position.

When the gravitational cylinder 22 is lifted and returned as the buoyant body 12 is lifted, the engaging cylinder 27 holds the gravity cylinder 22 in the original position again and waits for the next operation (see FIG. 1). As described above, the energy obtained by the device of the present invention includes the buoyancy generated by the buoyant body 12 in the buoyancy unit 10 and the gravity cylinder 22 in the gravity unit 20.
The reciprocating motion having a predetermined stroke (see L in FIG. 3) is generated by combining and separating the gravity of the water 21 supplied to the reciprocating motion, and the reciprocating motion is obtained. That is, the gravity cylinder 22 moves up and down due to the supply of the water 21 having a relative weight.
The reducing action of the buoyant body 12 for returning 2 to the original position and the supply of the circulating water 21 are associated with each other to obtain reciprocal kinetic energy.

[0034]

The present invention is configured as described above,
For this reason, by combining and separating buoyancy and gravity along the vertical direction by the theory of eternity established based on the principles of reduction, circulation, and relatives, nothing is reduced, and it is clean and safe without pollution. You can get energy. That is, the buoyancy body 12 arranged in the buoyancy unit 10 which is a buoyancy zone
And a gravitational cylinder 22 arranged in the gravitational zone 20, which is a gravitational zone, serve as a power source for generating a predetermined reciprocating kinetic energy by the buoyant force due to the up-and-down operation along the vertical direction, the union of gravity, and the separation.

According to the present invention, in the buoyant portion 10 and the gravitational portion 20 which are vertically arranged along the direction of gravity, the buoyant body 12 and the gravitational portion 20 which generate buoyancy in the buoyant portion 10 are provided. The gravity cylinder 22 that obtains gravity by supplying the water 21 is connected and integrated with each other through the connecting means 23, and the buoyancy generated in the buoyancy body 12 itself and the water 21 supplied or discharged into the gravity cylinder 22 are similar to those. This is because the reciprocating kinetic energy along the direction of gravity can be obtained by combining and separating with gravity by the heavy load.

The weight of the gravity cylinder 22 in the gravity section 20 is formed to be approximately the same as the buoyancy generated in the buoyancy body 12 itself in the buoyancy section 10 when the load is not applied.
Further, the holding force from the holding means 27 is released by the weight equal to or more than the weight of the gravity cylinder 22 and the gravity cylinder 22 drops, so that the water 21 is supplied into the gravity cylinder 22 and the weight load state is reached. When the water 21 is drained by the drainage means 32 after being dropped and dropped by, the gravity cylinder 22 can be raised and returned to the original position, and the lifting operation is repeated repeatedly.

Since the gravity cylinder 22 has a substantially cylindrical shape with an upper opening, it is easy to supply the water 21, which is a heavy load, by the water supply means 31, and the drainage means 32 is
Since the gravity cylinder 22 that has been dropped due to the weight formed by the load of the supplied water 21 opens the bottom,
The water 21 stored inside can be drained very quickly, and the gravity cylinder 22 can be smoothly returned to the ascended state under no load.

In addition, the drainage means 32 for draining the water 21 loaded into the gravity cylinder 22 of the gravity section 20.
By setting the set position and the sinking depth of the buoyancy body 12 in the buoyancy unit 10, the ascending / descending stroke of the buoyancy body 12 can be adjusted, and the speed adjustment control by the supply amount of the water 21 by the water supply means 31 is also possible. Furthermore, it is possible to adjust the falling speed by the gravity cylinder 22 depending on the size of the buoyancy body 12, and thus, by changing the stroke and adjusting the speed, it is possible to obtain free reciprocal kinetic energy. It has versatility.

The holding means 27 causes the gravity cylinder 22 to rise again due to the release of the load even if the weight held in the gravity cylinder 22 releases the holding state that was supporting the gravity cylinder 22 and drops it. Gravity cylinder 2 when in the raised position because it can be held securely
Supply and storage of the water 21 into the inside of 2 and smooth release of the gravity cylinder 22 at the time of heavy load are also performed.

Moreover, the gravity cylinder 22 is the frame 1
Since it is guided up and down in the inside, the up and down movement is smooth,
Further, since there is no great resistance to the buoyancy body 12 settling and buoyancy rising in the buoyancy unit 10, there is little loss of kinetic energy obtained, and a large difference between the theoretically obtained energy and the actually obtained energy. There is no such thing. Not only that, the energy gained by expanding the equipment is infinite, and there is no risk of natural destruction or environmental pollution, so it is extremely clean and efficient as a power source, and its effective use is for humanity. It can give a great deal of profit.

[Brief description of drawings]

FIG. 1 is a front sectional view before operation.

FIG. 2 is a front cross-sectional view when water is supplied into a gravity cylinder connected to a buoyant body and descends.

FIG. 3 is a front cross-sectional view when water in a gravity cylinder is drained and rises due to buoyancy generated in a buoyancy body.

FIG. 4 is a front sectional view when the buoyancy of a buoyancy body and the gravity of a gravity cylinder are in a neutral state.

[Explanation of Codes] L Stroke 1 Frame 10 Buoyancy Part 11 Water 12 Buoyancy Body 13 Buoyancy Guide 20 Gravity Part 21 Water 22 Gravity Cylinder 23 Connecting Means 24 Guide Pillar 25 Guide Groove 26 Guide Pin 27 Holding Means 31 Water Supply Means 32 Drainage Means 33 Repulsion spring 35 Guide rod 36 Open / close valve 37 Tank 41 Battery 42 Pumping pump 43 Pipe

[Procedure amendment]

[Submission date] May 12, 1993

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] 0029

[Correction method] Change

[Correction content]

In the figure, reference numeral 33 is a gravity cylinder 2 in which the repulsive force is accumulated when the outer surface of the bottom of the gravity cylinder 22 that has fallen and has fallen is abutted and starts to rise when gravity is released.
The repulsion spring is configured to apply an ascending force due to the repulsive force with respect to 2, and is formed and arranged in a coil shape on the lower portion of the inner surface of the guide column 24. This repulsion spring 33
By virtue of the above-mentioned permanent magnet engaging means 27, it is possible to supplement the insufficient rising restoring force when the reciprocal kinetic energy obtained by the buoyant body 12 and the gravity cylinder 22 is reduced by resistance or the like. Although not shown, a stretchable spring may be provided between the upper part of the gravity cylinder 22 and the holding means 27, and the elastic force repelled and accumulated when the gravity cylinder 22 falls is restored. Similarly, due to the contraction and rise action, the gravity cylinder 22 can be easily returned to the original position.

Claims (6)

[Claims] 1. A buoyancy unit and a gravity unit are arranged above and below along a direction of gravity, and a buoyancy body in the buoyancy unit and a gravity cylinder in the gravity unit are connected to each other, and buoyancy generated in the buoyancy body itself and gravity. A reduction energy device characterized in that reciprocating kinetic energy along the direction of gravity is obtained by combining with and separating from gravity by a heavy load supplied or discharged into the cylinder. 2. A frame, which is elongated along the direction of gravity, and a buoyant body which is filled with water and which can sink, and which is connected to the buoyant section disposed above the frame and the buoyant body. The gravity cylinder that descends and falls due to the load formed by the supplied water and rises and returns due to the buoyancy of the buoyant body when there is no load after drainage of water accompanying the descending A reduction energy device comprising: a gravity unit disposed at a lower portion. 3. The reduction energy device according to claim 1, wherein the weight of the gravity cylinder when no load is applied is approximately the same as the buoyancy generated in the buoyancy body itself. 4. A gravity cylinder, which is supported in a frame so as to be able to move up and down, is connected to a buoyant body via a connecting means, and has a substantially cylindrical gravity cylinder having an upper opening whose bottom is opened and closed by an on-off valve. Holding means for holding this gravity cylinder in the raised position and releasing the holding state by the weight of the water loaded and supplied, water supply means for supplying water into the gravity cylinder, and weight formed by the supplied water. The reduction energy device according to any one of claims 1 to 3, further comprising: a drainage unit that opens the bottom of the gravity cylinder and drains the water stored inside when it falls down. 5. The holding force of the holding means is such that the holding state with the gravity cylinder is released when water of a weight approximately equal to or more than that of the gravity cylinder is supplied. The reduction energy device according to any one of 1. 6. The stroke of the gravity cylinder can be adjusted depending on the position of the drainage means.
The reduction energy device described.