KR20220138982A - Power generator - Google Patents

Abstract

The present invention relates to a power production apparatus using buoyancy, capable of infinitely producing power by rotating a gear with a force exerted when a ball fully filled with air floats from the depth of water by buoyancy instead of an artificial power source such as a motor, as well as having excellent efficiency by completely solving an operation noise of a motor while infinitely operating the apparatus at a low cost. More specifically, the power production apparatus includes: a water tank (10) in which water is stored; a first gear (20) which is disposed in the bottom of the water tank and installed to be rotatable; a second gear (30) which is disposed on the top of the water tank and installed to be rotatable; a buoyancy sphere (40) which is wound on the first and second gears in a caterpillar form while installed with a part penetrating the water tank to be affected by buoyancy, and rotated by a force of being raised by the buoyancy to rotate the first and second gears; and a main gear (50) which is connected with the first gear through a chain to receive motive power from the first gear.

Description

Power generator using buoyancy

The present invention relates to a device capable of producing power indefinitely, and more particularly, by rotating a gear using the force of an air-buffered ball floating from the depth of the water by buoyancy, rather than an artificial power source such as a motor, the power is infinite. It relates to a power production device using buoyancy, which is extremely efficient because it can be produced as a buoyancy and can operate the device indefinitely at a low cost while completely liberating it from the operation noise of the motor.

In general, a device achieves a predetermined purpose due to an operation method such as a plurality of gears meshing with each other to rotate or push and pull each other. As described above, in order to rotate the gear, a motor or the like solves the problem, and the act of pushing and pulling each other is solved by a cylinder or the like.

As an example of the motor-related technology, Patent Publication No. 10-1259171 "high-efficiency electric motor, high-efficiency electric generator" is disclosed, and the prior art relates to an electric motor or a generator, in which magnetic energy generated from an electromagnet is maximized in electricity. A technology related to a high-efficiency electric motor having a structure that can be converted into torque of the motor or a generator having improved efficiency of converting kinetic energy into electric energy is proposed.

And as an example of the technology related to the cylinder, Korean Patent Publication No. 10-1275517 "Cylinder block and hydraulic equipment including the same" is published. The prior art relates to a cylinder block and hydraulic equipment including the same, which can reduce energy loss and noise by reducing friction between a piston bore and a piston and between a cylinder block and a valve plate and also prevent shortening of life due to wear, The cylinder block rotates while the block sliding surface is in contact with the valve sliding surface, and a plurality of dimples are formed on at least one of the block sliding surface of the cylinder block and the valve sliding surface of the valve plate, and the dimples rotate the cylinder block. It is a technology that is formed to be filled with a fluid that acts as a lubricant to reduce friction between the sliding surface of the block and the sliding surface of the valve.

On the other hand, the motor or cylinder follows an artificial operation method that operates only when a power source called electricity is provided. In general, a power source can be obtained from energy such as hydraulic power, electric power, thermal power, nuclear power, wind power, and the like, and such energy is called renewable energy.

As an example, Laid-Open Patent Publication No. 10-2020-0113633 "renewable energy multi-linked power supply system" is published. The above prior art produces power through renewable energy without external energy supply in an area where power energy resources are not abundant, such as an extreme area, but maintains a constant power charge state of a plurality of independent and multi-linked energy storage devices. and proposes a technology that can supply power in response to the load.

However, since another separate energy is required to obtain the new and renewable energy as described above, an infinite power source cannot be generated, and in particular, since the place for installing the power source generating device is very limited, practicality is low. In addition, even if the device is driven by using renewable energy, the workers suffer a lot of mental and physical stress due to the driving noise, which is a chronic problem of the motor or cylinder.

For this reason, there is an urgent need for a power production device capable of obtaining infinitely a rotating power source regardless of a location, completely deviating from the existing method of acquiring new and renewable energy.

Registered Patent Publication No. 10-1259171 "High-efficiency electric motor, high-efficiency electric generator" Registered Patent Publication No. 10-1275517 "Cylinder block and hydraulic equipment including the same" Laid-Open Patent Publication No. 10-2020-0113633 "Renewable energy multi-linked power supply system"

The present invention was created to more actively solve the above problems, and it is intended to provide a structure and a system that can operate the device indefinitely without burdening the cost of power consumption by replacing the existing motor requiring power energy. .

The configuration of the power production device using the buoyancy proposed in the present invention in order to achieve the above solution is as follows.

The power production device 1 of the present invention includes a water storage tank 10 containing fresh water therein; a first gear 20 disposed at the lower end of the water tank and rotatably installed; and disposed at the upper end of the water tank and rotatable The second gear 30 is installed; and the first gear and the second gear are wound in a caterpillar manner, and as a part is installed through the water tank, the buoyancy force acts, and the turning operation is based on the lifting force by the buoyancy force. It is characterized in that it is composed of a buoyancy sphere 40 made to rotate the first and second gears; and a main gear 50 connected to the first gear by a chain to receive the power of the first gear.

In addition, the water storage tank 10 is characterized in that heavy water (heavy water) is fresh water.

In addition, the water storage tank 10 is characterized in that when fresh water evaporates by the surrounding environment and deviates from the recommended water level, the water depth sensor detects this and automatically replenishes the water.

In addition, the buoyancy sphere 40 includes a cable 41 wound around the first gear 20 and the second gear 30; and a plurality of buoyancy holes 42 threaded to the cable at preset intervals. characterized by being

In addition, the buoyancy ball 40 is made of a plurality of buoyancy balls 42 that are buoyant in the water with an empty space formed therein, and the buoyancy balls 42 are rotatably coupled with the neighboring buoyancy balls. It is characterized in that it is wound around the first gear 20 and the second gear 30 .

In addition, the buoyancy hole 42 is provided with an empty space therein, characterized in that the empty space is filled with argon gas.

According to the present invention having the above-described configuration, the buoyancy ball uses the force to float by buoyancy inside the water tank to rotate the first and second gears to obtain infinite rotational power, so it consumes electric energy as before. There is no need to do it, so it is economically very effective.

In addition, in the present invention, since the power production device replaces the function of the motor, noise generated while the motor is driven can be completely excluded as in the prior art, thereby preventing the mental and physical stress of the worker and leading to a comfortable working environment. there is an effect

1 is a cross-sectional view of a power production device using buoyancy configured according to a preferred embodiment of the present invention.
Figure 2 is a cross-sectional perspective view of the buoyancy ball.
Figure 3 is a perspective view of the buoyancy ball.
4 and 5 are diagrams in use showing that the water in the water storage tank is prevented from leaking to the outside by the buoyancy ball.
Figure 6 is a cross-sectional perspective view of the reinforcement of the buoyancy sphere.
Figure 7 is a perspective view showing another coupling structure of the buoyancy ball.

Hereinafter, with reference to the accompanying drawings, it will be collectively described for the configuration of the present invention, its action and effect.

Advantages and features of the present invention, and a method for achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only this embodiment completes the disclosure of the present invention, and common knowledge in the technical field to which the present invention pertains It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. In addition, like reference numerals refer to like elements throughout the specification.

The present invention relates to a device capable of producing power indefinitely.

Above all, the present invention is not an artificial power source such as a motor, but an air-buffered ball that rotates a gear using the force that rises from the depth of the water by buoyancy. Note that it relates to a power generating device using buoyancy, which is extremely efficient because it can run the device indefinitely at a low cost.

1 is a cross-sectional view of a power generating device using buoyancy configured according to a preferred embodiment of the present invention.

As shown in Figure 1, the power production device of the present invention is a water storage tank 10 in which water is largely stored; and a first gear 20 rotatably installed at the lower end of the water tank; and rotatably installed at the upper end of the water tank The second gear 30; and the buoyancy sphere 40 wound together with the first and second gears and partially installed through the water tank; and the main gear 50 connected to the first gear by a chain and receiving power ); consists of

The water storage tank 10 has a rectangular shape, and a hollow space is provided therein so that predetermined water can be stored therein. For example, the water to be freshly watered into the water storage tank 10 is preferably composed of heavy water, and the heavy water means water having a higher molecular weight than normal water. To explain the heavy water, there are isotopes of 1H (protium H) 2H (deuterium D) 3H (tritium T) in hydrogen, among which 1H (protium H) 2H (deuterium D) is a stable isotope. and 3H (tritium T) is a radioactive isotope that emits radiation. Oxygen has three stable isotopes: 16O, 17O, and 18O. Water composed of 1H and 16O is called hard water, and water composed of other combinations of H and O is called heavy water. Ordinary water contains 99.74% of hard water with a molecular weight of 18. In addition, as heavy water, H218O 0.17%, H217O 0.037%, HD16O 0.032%, HD18O 0.00006%, HD17O 0.00001%, D216O 0.000003%, D218O and D217O each contain 0.000001%. has been This content is almost constant regardless of the origin and location of water, but heavy water is slightly concentrated in the dead sea or deep sea water, and in the living body of some species. Also, since D216O can be obtained from these heavy waters, it is usually called heavy water. Since the electrolysis rate of D2O (deuterium oxide) is one-fifth of that of H2O, when an aqueous solution containing caustic alkali is electrolyzed, heavy water is abundant in the remainder, and pure heavy water can be obtained by using this. Also, an isotope exchange reaction is sometimes used. Heavy water is a colorless and odorless liquid, and its chemical and qualitative properties are almost no different from ordinary water. However, a significant difference can be seen quantitatively. Generally, the reactivity is low, and the solubility of salts is also smaller than that of ordinary water. For living things, when the concentration of heavy water is low, the inhibitory effect on the living body cannot be seen. Since D2O absorbs neutrons, it is used as a neutron moderator or coolant in nuclear reactors.

In addition, the water storage tank 10 of the present invention may be replaced with antifreeze to prevent freezing in winter.

On the other hand, the water storage tank 10 is provided with a predetermined access path 11 that guides the buoyancy sphere 40 through the lower end to enter the fresh water into the inner space. The access road 11 has a cylindrical shape and passes through the lower end of the water tank and is vertically formed at a predetermined height into the inner space of the water tank. For example, if the height of the water storage tank 10 is 100 cm, the height of the access road 11 is preferably about 30 cm. The inner diameter of the access road 11 is configured to correspond one-to-one with the outer diameter of the buoyancy sphere 40 to completely prevent water leakage in the process of mutual operation.

In addition, the access road 11 guides the stable movement path of the buoyancy ball 40 turning from the first gear as it extends downward from the lower end of the water tank 10 to the area where the first gear 20 is located.

A water depth sensor 12 is further provided at the upper end of the water storage tank 10 . The depth sensor 12 is the water depth sensor 12 detects this when the fresh water in the water storage tank 10 is gradually evaporated out of the recommended water level due to the surrounding environment, so that the water is automatically replenished.

The power production apparatus of the present invention obtains rotational power by using the force in which the buoyancy sphere 40 rises by the buoyancy force from the water storage tank 10 . Therefore, the water level of the fresh water in the water storage tank 10 is a very important part because the buoyancy sphere 40 is proportional to the distance and the force receiving the buoyancy force due to the buoyancy through the access road 11. When the water level in the water storage tank 10 is evaporated by the surrounding environment and falls below the recommended water level, the distance to which the buoyancy ball 40 moves and the time to receive the buoyancy force are shortened, so that the power production proposed by the present invention can be smoothly implemented. none. Therefore, the recommended water level of the water storage tank 10 is always detected through the water depth sensor 12, and water is continuously replenished based on this, so that the recommended water level can be maintained at all times.

The first gear 20 is disposed at the lower end of the water tank 10 and is rotatably installed, and along the outer periphery, recesses and protrusions in a range corresponding to the outer diameter of the buoyancy sphere 40 are repeatedly formed to wind the buoyancy sphere. to induce

A chain gear is further installed on the first gear 20 concentrically, and the chain gear is connected to a main gear 50 to be described later by a chain to transmit the rotational power of the first gear to the main gear.

The second gear 30 is disposed on the upper end of the water storage tank 10 to be rotatably installed, and in addition, it is preferable to be disposed on the same vertical line as the first gear 20 . The second gear 30 is also repeatedly formed along the outer periphery with recesses and protrusions in a range corresponding to the outer diameter of the buoyancy sphere 40 to induce winding of the buoyancy sphere, similarly to the first gear 20 .

The buoyancy sphere 40 is wound around the first gear 20 and the second gear 30, respectively, and rotates in an endless orbital manner. On the other hand, a portion of the buoyancy sphere 40 passes through the inner space of the water storage tank 10 via the access road (11). Preferably, it enters the access road 11 in the state wound on the first gear 20, and is wound around the second gear 30 via the heavy water freshened in the water storage tank through the access road. The buoyancy sphere 40 wound around the second gear 30 is again coupled to the first gear 20 by a caterpillar type.

Figure 2 is a cross-sectional perspective view of the buoyancy ball, Figure 3 is a perspective view of the buoyancy ball.

As shown in FIGS. 2 and 3 , the buoyancy sphere 40 vertically penetrates the water storage tank 10 , and a cable 41 wound around the first gear 20 and the second gear 30 , and a preset setting on the cable. It consists of a plurality of buoyancy balls (42) sewn at intervals.

The buoyancy ball 42 and the cable 41 are welded to each other to maintain their respective positions, and as the buoyancy balls are spaced apart from each other by a set distance on the cable, the buoyancy balls are located on the recesses and protrusions of the first and second gears 20 and 30. custom-wound

The buoyancy hole 42 has an empty space therein so that it can easily float on water by buoyancy, and preferably, the buoyancy is improved by filling the empty space with argon gas. Since the argon gas is very light by removing oxygen and nitrogen from the air, it can exhibit a more excellent buoyancy function.

The main gear 50 is a gear provided inside the preset equipment that operates by taking over the rotational power produced by the power production device of the present invention, and is connected to the chain gear provided in the first gear 20 by a chain. power is transmitted

4 and 5 are diagrams in use state showing that the water in the water storage tank is prevented from leaking to the outside by the buoyancy ball.

As shown in FIGS. 4 and 5, the buoyancy sphere 40 enters the inside of the water storage tank via the access road 11 of the water storage tank 10, and buoyancy is generated therefrom and rises vertically. to rotate the first gear and the second gear on which the buoyancy ball is wound. On the other hand, the buoyancy sphere 40 is made in the form of a sphere, and the buoyancy sphere has a shape of '8' when viewed in cross-section because the buoyancy sphere is a shape sewn at a predetermined interval by a cable 41 . As described above, even if the outer diameter of the buoyancy sphere 40 is a one-to-one close correspondence with the inner diameter of the access road 11, for example, the lower end of the upper buoyancy sphere and the upper end of the lower buoyancy sphere at the time when the upper buoyancy sphere leaves the access road, that is, '8 In the concave area of the 'shape, water may leak in the corresponding section because a space spaced apart for a while is exposed between the access road and the buoyancy section.

Therefore, the present invention is configured such that the buoyancy ball acts as a packing for the access road by coating the upper part of the buoyancy sphere with a rubber material within the range where severe friction does not occur between the buoyancy sphere 40 and the access road 11.

As shown in Figure 5, the buoyancy sphere 40 packed with a rubber material is the lower end of the upper buoyancy sphere and the upper end of the lower buoyancy sphere, that is, when water penetrates into the concave area of the '8' character, the lower buoyancy sphere buoyancy The infiltrated water is led up while ascending by the , and discharged back to the inner space of the water storage tank 10 .

6 is a view in which the iron core 43 is vertically configured in the inner space of the buoyancy sphere to reinforce the buoyancy sphere of the present invention.

As shown in FIG. 6 , the buoyancy sphere 40 of the present invention is filled with argon gas, enters the water from the lower end of the water storage tank 10 and moves vertically by the buoyancy force. The buoyancy sphere 40 may be made of a light material such as plastic for easier injury due to buoyancy, and must also have a certain durability because it must withstand water pressure when entering the water.

Accordingly, the buoyancy sphere 40 of the present invention includes an iron core 43 vertically interposed in the inner space to withstand water pressure. The iron core 43 actively prevents the shape of the buoyancy sphere 40 from being changed by water pressure, and serves as a central axis to smoothly implement the caterpillar turning operation of the buoyancy sphere.

7 is a perspective view proposing a structure capable of turning only with a simple buoyancy ball without a cable.

As shown in Figure 7, the buoyancy ball 40 is made of a plurality of buoyancy balls 42 that are buoyant in water with an empty space formed therein, and the buoyancy balls 42 can rotate with the neighboring buoyancy balls. coupled to the first gear 20 and the second gear 30 .

In the present invention having the above configuration, since the buoyancy ball rotates the first and second gears using the force to float by buoyancy inside the water tank to obtain infinite rotational power, it is possible to consume electric energy as before. There is no need and it is very economical. In addition, since the power production device replaces the function of the motor, noise generated while the motor is driven can be completely excluded as in the past, thereby preventing the mental and physical stress of the worker and leading to a pleasant working environment.

Although the present invention described above has been described with reference to an embodiment shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments are possible by those skilled in the art. should be made clear. Accordingly, the true technical protection scope of the present invention should be construed by the appended claims, and all technical ideas within the equivalent scope should be construed as being included in the scope of the present invention.

10. Reservoir
20. 1st gear
30. 2nd gear
40. Buoyancy Ball
50. Main Gear

Claims (8)

A water storage tank 10 containing fresh water therein; A first gear 20 disposed at the bottom of the water tank and rotatably installed; A second gear 30 disposed at the top of the water tank and rotatably installed; And , buoyancy is applied to the first gear and the second gear in a caterpillar way, and a part is installed through the water tank. The sphere 40; and the first gear and the main gear 50 connected by a chain to receive the power of the first gear; Power production apparatus using buoyancy, characterized in that it consists of.
According to claim 1,
The water storage tank 10 is a power production device using buoyancy, characterized in that heavy water (heavy water) is fresh water.
According to claim 1,
The water storage tank 10 is a power production device using buoyancy, characterized in that the antifreeze is freshened to prevent freezing in winter.
According to claim 1,
The water storage tank 10 is a power production device using buoyancy, characterized in that when fresh water evaporates and deviates from the recommended water level by the surrounding environment, the water depth sensor 12 detects this and automatically replenishes the water.
According to claim 1,
The buoyancy sphere 40 is a cable 41 wound around the first gear 20 and the second gear 30; and a plurality of buoyancy holes 42 threaded to the cable at preset intervals. A power production device using buoyancy.
According to claim 1,
The buoyancy sphere 40 is made of a plurality of buoyancy balls 42 that are formed in an empty space therein and are lifted by buoyancy in water,
The buoyancy ball (42) is a power production device using buoyancy, characterized in that it is wound around the first gear (20) and the second gear (30) by being rotatably coupled to each other with the neighboring buoyancy balls.
7. The method of claim 5 or 6,
The buoyancy hole 42 is provided with an empty space therein, and the empty space is a power production device using buoyancy, characterized in that the argon gas is filled.
According to claim 1,
The water storage tank 10 of the present invention further includes a path guide pipe 13 for guiding the path of the buoyancy sphere and guiding the alignment of the positions for each preset position at which the buoyancy sphere 40 turns,
The path guide tube 13 is a power production device using buoyancy, characterized in that each tip is extended and bent outward to guide the position of the buoyancy sphere in vertical intervention.

Images