KR20230148287A - Buoyancy-Gravity Generator - Google Patents

Abstract

Using a compressor inside the structure, kinetic energy is generated by floating the air cylinder with the buoyancy of the air. After reaching the highest point, the air is removed, the weight is increased with a weight, and the structure descends by gravity to generate gravitational energy. This energy is converted into electrical energy. It is a buoyancy gravity generator that changes.

Description

Buoyancy-Gravity Generator}

The present invention is a technology related to renewable energy, and more specifically, a technology related to a method of generating power by buoyancy and gravity.

Buoyancy power generation uses the change in potential energy of a floating object to generate power. However, these facilities have very different wave heights, are only possible in the sea, lakes or rivers, are located far away, are prone to losses, have difficulties and limitations in installation, and are difficult for the general public to access as easily as solar power generation.

The present invention is intended to solve the above-described conventional problems, and generates power by building buoyant power generation anywhere, like thermal power generation, rather than in a specific location, and making it easily accessible to the general public, like solar power generation, to improve the quantitative and geographic availability of new and renewable energy. , seeks to solve environmental problems.

After writing the claim, write it down

It causes a decrease in thermal power plants due to carbon neutrality, solves the problems of current renewable energy, and ensures that there is no disruption in the supply and demand of electricity by expanding it in quantity.

Figure 1: Cross-sectional view of buoyancy gravity power generation.
Figure 2: This is an example of the air tank (102).

Install the structure 101 and install the compressor, air tank 102, weight 203, gear 103, and pulley 106 connected to the air tank 102. At this time, the structure 101 must be manufactured to withstand the load of water, and the air tank 102 may tip over if force is concentrated to one side, so a groove 108 for preventing separation and bearings is made in the structure 101 and the air tank 102 is Install the breakaway prevention restraint and bearing (109). After filling the structure 101 with water 107, air is added to the docked air tank 102 using a compressor, and when ready, the dock is released to generate upward kinetic energy that rises due to buoyancy. At this time, the weight 203 is reduced in weight using a string 105 and a pulley 106 and is separately connected to the gear 103 connected to the generator to apply a load to the gear itself and lift it together. This is to reduce the burden on the compressor, minimize the electrical energy consumed, and achieve maximum effectiveness. The buoyancy energy generated in this way is transmitted to the gear 103 through the chain 104 and converted into rotational kinetic energy to turn the generator. Afterwards, when it reaches the high point, it docks again to remove the air and release the gear 103 connected to the weight 102 to prepare the air tank and the weight to fall freely together. Afterwards, the gravitational energy generated by the lowering of the weight 203 and the air tank 102 is transferred again to the gear 103 connected to the generator through the chain 104 and converted into rotational kinetic energy to generate power. At this time, unlike when ascending, the gear 103 is reversed and filler is laid on the bottom of the structure 101 to prevent the air tank from being damaged. Afterwards, inject air through the compressor again and repeat the above actions.

101: Structure 102: Reservoir 103: Gear 104: Chain to transmit buoyancy 105: Line to lift the weight 106: Pulley to distribute the weight when lifting the weight 107: Water 108: Prevention of deviation from the moving range of the receptacle and bearing Groove 109: Breakaway prevention restraint and bearing attached to the air tank 201: Water passage to reduce water resistance when buoyancy rises 202: Air outlet used to remove air before descending 203: Weight attached to the air tank

Claims (4)

Structures for containing water (101),
Air tank (102) to increase buoyancy.
A weight (203) that increases the weight when descending, like an air tank.
A chain (104) that transmits the force of buoyancy and the force of gravity.
Pulley (106) that distributes the weight of the counterweight when rising.
A gear (103) that connects the received power to the generator and lifts the weight (203).
A line (105) connecting the weight (203) and the gear (103).
A latch required when docking at the upper and lower parts of the structure (101).
Buoyancy gravity generator including In paragraph 1
The air tank (102) is largely divided into an air injection part and a weight (203).
The air inlet is an empty space that traps air, like the upside-down shape of a cup.
The air injection part includes a water passage (201) to reduce water resistance,
An air outlet (202) to remove air,
A sensor that can automatically adjust the air outlet (202),
There is a breakaway prevention and bearing (109).
The weight 203 is connected to the gear 103 using a string 105 and a pulley 106.
When ascending, you receive buoyancy with the weight halved.
When descending, release the gear (103) and descend with the combined weight of the air injection unit and weight.
Gain gravitational energy. In paragraph 1
In the structure 101
A docking part for docking the air tank at the upper and lower parts,
A sensor that signals that there is an air tank 102 in each of the upper and lower parts,
Air inlet for injecting air into the air tank,
Filling material to prevent shock when descending,
There is a groove (109) for preventing the air tank from coming off and for bearings.
It depends. In paragraph 1
Gear 103 is
When rising, connect the weight (203) with a line (105)
Reduce the burden of the weight 203 for buoyancy
Connected to the chain 104 to transmit kinetic energy
Converts buoyancy energy into rotational kinetic energy to generate power.
When descending, the gear 103 caught on the weight is released.
Return the weight that was halved on the pulley to its original weight.
Switch the gear 103 in the reverse direction and connect it to the chain 104 to transmit kinetic energy.
It generates power by converting gravitational energy into rotational kinetic energy.