WO2022254641A1

WO2022254641A1 - Living cost reduction, etc.

Info

Publication number: WO2022254641A1
Application number: PCT/JP2021/021108
Authority: WO
Inventors: 竜也新谷
Original assignee: 竜也新谷
Priority date: 2021-06-02
Filing date: 2021-06-02
Publication date: 2022-12-08

Abstract

This invention is intended to, inter alia, improve things such as the cost of energy, etc.

Description

[Replenishment based on Rule 26 16.08.2021] Living cost reduction, etc.

global environment

Land-based aquaculture

▲A ▼ Sleds, etc. (objects like sleds, skates, etc.) ▲B ▼ Power tires, wheels (iron), etc. ▲C ▼ Cooling rails, etc.

Places where juice was originally contained in a PET bottle, which is covered with a transparent material that allows light to pass through when shielding, or a structure in which PET bottles, etc. (or special ones may be used separately) are connected. In addition, water is pumped from an underground tank installed in a place where the temperature is maintained at about 15 degrees (depending on latitude, etc.) throughout the year, about 5 meters underground (if it is underground in a mountainous area, it will naturally drop due to gravity pressure. If the liquid is inflowed and circulated using the liquid, the space where the vehicle passes will be close to 15°C, and if the flow rate of the liquid is adjusted, the cost of the air conditioner of the vehicle can be saved. To reduce air resistance in a space in which a vehicle, etc., runs, when the pressure is reduced to a near-vacuum state, reinforcing the outer periphery of the space in which the vehicle, etc., passes by installing pressure-resistant reinforced plastic, glass, etc. can also Even when water or the like is circulated by a pump, liquids such as water do not suddenly boil even when exposed to sunlight or the like from the outside, and the pump does not need to be operated frequently, resulting in a low energy cost. When obtaining energy from a solar panel or the like, a solar panel or the like is installed on the roof of this facility, or in an empty space such as the side or lane. In order to cool the solar panel, etc., water, etc., kept at a constant temperature in the above-mentioned underground tank that circulates, is poured over the panel, or a pipe-shaped structure made of a material that allows light to pass through is placed nearby. You can control the temperature of the solar panel by running water of about 15°C from an underground tank, or you can increase the airtightness of the solar panel for waterproofing so that shallow water is accumulated in the panel. It is put in a bucket or the like, and water of about 15°C, which is installed about 5 meters underground, is poured into it, and it is collected in an underground tank or the like. If the positional relationship allows natural underground water to flow naturally, it may be free-flowing, and the temperature of the panel, etc., should be controlled. Using a plastic bottle or the like, for example, a structure is constructed by cutting out the mouth of the bottle and gluing a plurality of rectangular cubes together to put water in an underground tank. A hollow structure filled with water or the like is made using a material such as a PET bottle that allows light or the like to pass through but water or the like does not. Then, a solar panel or other object whose temperature is to be controlled can be placed in the hollow portion. This increases the amount of power generated by installing a similar device in a solar panel or the like installed at home. If the solar panel gets too hot, it will produce less power. Also, in order to efficiently air-condition the space, water of about 15°C in the above-mentioned underground tank is used. Since the temperature around the underground tank varies depending on the depth, it is possible to install multiple tanks at different depths and to mix the water. If necessary, the structure made of PET bottles can be drained and moved. Since the material is light, it can be done manually. can also 15 in the underground tank
A structure with a pipe of about 5 centimeters in length and width (the approximate scale can be freely changed) for water, etc., which is depending on the soil temperature to about ℃, is installed and a passage is installed around it to allow water to flow. The water, etc. of the above-mentioned underground tank is poured into the pipe, and a fan or the like is attached to the end of the pipe to send in wind. When the air moves through the pipe with the force of a fan, it exchanges heat with the surrounding water (for example, thin materials such as plastic bottles conduct heat easily), and in the summer, it is gradually cooled. If the length of the pipe is increased to some extent, the temperature at the outlet of the pipe will be close to the temperature of the water from the underground tank. It's cold in the summer and warm when the air is below 15°C. For example, a structure can be made by connecting PET bottles or the like. A fan such as an electric fan consumes less power, so it saves energy. The tube does not have to be straight and may be curved to provide distance. It is also possible to pass a thinner tube inside the tube so that water or the like circulates there as well, making it easier to exchange heat when a cold hits. To increase the area of contact with the temperature of the water around 15°C and the flowing air by passing a rod made of metal with high thermal conductivity between the pipe and the passage through which the circulating water flows. can also A fan or the like can be installed not only at the inlet of the pipe but also at the other outlet or in the middle to improve the heat exchange efficiency. This device can be installed indoors, but underground 5
It can also be installed in places where the soil temperature is constant, such as on the order of meters. Air is taken in and out with a pipe.
If air is sent into the pipe through a pipe to a depth where the ground temperature around 5 meters underground is about 15°C, similarly in the summer, the air sucked in above the ground will go around the underground and go out from the exit of the pipe again. It is the same regardless of the season even in winter when the temperature is close to 15°C of the ground temperature. Water, etc., flows in all four directions or a specific part of the pipe, but in the case of a two-tiered structure, the lower part does not need to attach the ceiling because water, etc. is maintained by gravity even if the ceiling part is not blocked. There is also a direct contact between water and air, etc., and the heat exchange efficiency increases. If the ground temperature of most installation locations around the pipe is about 15°C, the temperature of the original air or the like approaches 15°C. Compressed air is used when hot water such as hot springs or artificially boiled water is used for air conditioning of each home or facility. First, hot water, etc., is poured into a space made of plastic bottles, etc., and in the above method, heat is exchanged using the underground temperature of about 15 degrees Celsius, and the temperature of the air, etc. is brought closer to 15 degrees Celsius. If you put hot water in place of the temperature, it will be at that temperature, and in order to keep it warm when you send it, put it in a joint that connects a plastic bottle, etc., and compress it into a space surrounded by it ( Or change it depending on the situation such as a little ventilation). The installation location of the above space for blowing hot air is underground or on the ground, but if the ground is very cold, consider the cost of digging underground and use water in a tank of about 5 meters below the ground with a temperature of about 15 degrees. A thermal insulation system may be used. Since underground tanks and the like have depths that change according to the season, it is also possible to prepare a plurality of tanks and mix water and the like.
If necessary, efficiency is improved by covering the outer circumference of the device for sending air made from a PET bottle or the like with a heat insulating material (such as foamed polystyrene, etc., which has a heat insulating effect). Cold air etc. can also be sent. It is also possible to circulate or temporarily store water or the like using the ground temperature of about 5 meters underground through a thin tube near an object such as a solar panel whose efficiency is improved when the temperature is close to a certain level. In addition, after placing it in this state, a device such as a solar panel (including equipment that can be closed if necessary) is connected to a plastic bottle etc. at the outer peripheral part etc. in order to control the temperature etc. by eliminating the influence of the outside air etc. It is installed in a structure that can control the temperature of the inside of the structure, etc. It is also possible to prevent the solar panel or the like from becoming excessively hot. Water circulates or stays still in a structure made by connecting PET bottles, etc., and by adjusting the pump, the flow rate of water, etc. can be changed. Back in the tank, the temperature is controlled by the soil temperature. Multiple underground tanks may be installed depending on the depth. In order to control the temperature of the solar panel or the like, the circulating water or the like can be passed through a finer tube, or such a tube may be installed in the device such as the solar panel in advance. Water from an underground tank or the like is poured into a thin tube made of a material that allows light to pass through, and it is placed around a solar panel or the like for temperature control. Take waterproof measures for pipes, solar panels, etc. to prevent water from entering the electric machine. Instead of using a plastic bottle or the like, it is also possible to make water flow through a thin material specially made from the beginning. For example, the temperature of the solar panel is controlled by applying a thin wall of water with a thickness of about 2 cm to the outer circumference of the solar panel. When the water in the underground tank is raised to a certain height using a pump or the like, the force of gravity flows around the solar panel through pipes and returns to the underground tank. It is also possible to lower the temperature by spraying mist-like water (it does not have to be mist) on top of the solar panel, etc. At this time, the water in the underground tank, etc. is used to collect and circulate the water. can also Structures such as PET bottles are constructed in a shape that divides into multiple layers, such as the function of pouring fertilizer into a space constructed with PET bottles, etc. and collecting it, and the layer that allows water, oxygen, etc. to permeate underground. can also If the upper part is covered with a similar structure to create a sealed state, fertilizer, agricultural chemicals, etc. will not be scattered to the outside. Cost reduction can be achieved by reusing fertilizers and the like. When outside air is taken in, a door can be opened at the top or the like, or a fan can be used to blow in the air, and a door can be made for people to enter. Such a shield can also prevent fertilizers used in agriculture from diffusing outside the shield. In the above-mentioned space constructed using PET bottles, etc., a tunnel-like space is provided so that a person can barely pass through, and a trolley-like object is pulled into it using rails and tires. In hydroponic culture, the solution can be filled inside the space, and if you are cultivating plants, you can put a bucket or the like that can hold water in a size that is prepared according to the growth of the roots and put it on a trolley to fill the space. You can also move it inside. Plants and the like can be placed on a pallet or the like using a rail or the like, so they can be moved to an arbitrary place by laying rails in a sunny place or rolling them on tires. When the plant is hydroponically cultivated, the portion above the root of the plant can be moved by a trolley or the like at the top, so the pulling force can be reduced. Similarly, a space for a car can be created using a plastic bottle or the like and the temperature of the internal space can be controlled using circulating water or the like, and the car can be parked and rested inside. On top of that, it is also possible to grow crops by placing a structure made using a PET bottle or the like for growing crops. Normally, when compressing air industrially, an electric compressor is used, but the energy of gears that move with hydraulic power is used for the power of the compressor, and the rotational energy of a windmill is transmitted by gears, which is used as a power source for the compressor. do. Then, a tank containing compressed air is installed in a place about 5 meters underground where the ground temperature is constant, or the temperature is raised to 15°C by blowing into the water in the tank installed 5 meters underground. get closer. Natural energy such as hydraulic power is used as power for an air compression compressor and stored in cylinders installed underground, etc., so that it can be taken out at any time like a battery and used to move gears. When compressing air with a compressor, etc., it is cooled once in an underground tank, etc., and compressed to adjust the humidity, or the air, etc. is stored underground to lower the humidity. A tank containing compressed air or the like can be placed underground to lower the temperature. Even large-scale tanks can be installed underground without any problems. It is highly efficient if the above mechanism is used to adjust the temperature, humidity, etc. of the compressed air, and the air, etc., flows from the facility to general households, etc., through underground pipes, etc. Instead of storing electricity, it stores it as compressed air or the like (it may be in a gaseous form or in a state like dry ice). It is also possible to install a waterwheel-like thing on the side of a river or the like. If the sea waves were a rias type coast, the tsunami would surge to high places, so such a structure was artificially created to bring the seawater to a place 10 meters higher than near the coastline by the force of the sea waves. Then, it is stored and used as a power source such as power to rotate a hydroelectric turbine that uses gravity to generate electricity or to rotate a compression compressor such as air. To contribute to human life by semipermanently obtaining a large amount of potential energy of seawater by utilizing the energy of sea waves. A method of storing compressed air in a cylinder or the like by such a method and moving the cylinder to a location such as 20 meters underground or leaving the cylinder with a diameter of 20 meters is also conceivable. Then, a tank or the like filled with water or the like installed in the basement or the like is prepared. If a rotating wheel or the like is installed there and compressed air is emitted from below, the wheel will rotate with the energy generated when it floats. The deeper the water tank, the more wheels can be installed, and the buoyancy provides energy for rotating the water wheel and wheels. The rotational energy of the water wheel and wheels can be used to operate the compressor to create compressed air and to operate the generator, which is very efficient. Air (gas), dry ice, etc., compressed to a deep point where water pressure is applied to a vertically long tank filled with liquid water, etc.
HHO, GAS, etc.), etc. are set, and heat, etc. due to electricity or chemical reactions, etc. is added to it, and dry ice is expected by igniting Taisei gas, etc. (separately, a mixture of hydrogen and oxygen is also possible). , and the compressed air similarly generates upward kinetic energy against the water pressure (gravity) and applies it to the water wheel, etc., to turn the water wheel. The energy is recovered and used to power a generator. In order to increase the efficiency when the water wheel rotates, etc., the blades of the water wheel are made movable so that they can be opened and closed. Then, when it is pushed by the gas, it opens and receives the kinetic energy, and it is possible to prevent the feathers of the water wheel from hitting the liquid and reducing the rotation speed as much as possible. A structure in which the wing part opens and closes but does not close completely but opens slightly, or an object that has buoyancy even when completely closed is attached to a part of the wing and opens slightly due to buoyancy in a specific direction is also conceivable. The flow of water or air may be controlled by allowing air or the like to enter there and pushing it out, or by attaching a plate or the like to a specific portion of the tank so that the air can easily gather at the blades of the water wheel of the tank. The shape of the blades is such that if a water wheel with this shape is installed in a tunnel or the like where there is no energy for gases such as air to rise and water pressure is applied, the blades will open where they are pushed by the water flow and close when the pressure of the water flow weakens. become. In hydroelectric power generation such as large-scale dams, there are some that have a drop of 100 meters or hundreds of meters of pipes, but if the propeller for hydroelectric power generation is attached only to the downstream part, the energy of the water flow can be sufficiently recovered and the turbine of the generator can be generated. Since it is not possible to rotate the water, there is a loss, so the drop is about 10 meters, and the water is dispersed into thinner pipe-shaped tunnels and tubes. etc. By doing so, the potential energy of the water flow can be efficiently recovered. In addition, when compressed air is ejected from a deep place with high water pressure, when the water wheel is rotated by the force of the air rising upward, the water wheel is designed to rotate clockwise. If compressed gas or the like is ejected in the area around 1 o'clock, the deceleration of the propeller, water wheel, etc. due to water pressure can be suppressed. Compressed gas or the like is also ejected from the direction of 6 o'clock, etc., so that the force of clockwise rotation always continues, and the energy of compressed air, gas, etc., and the force of buoyancy due to the difference in density, etc., are converted into rotational energy of the water wheel, etc. When the inside of the shaft of a water wheel is made hollow and compressed gas is injected into it, a hole in the shaft is caught in it and the door is opened and gas is injected When the door that blows out comes to a position where it is not caught, it is closed by the force of a spring, etc., or gas is passed through the hollow part in the shaft, and a cap made of metal etc. is placed on the cover around it. When a specific part of the cap is perforated, a structure can be adopted in which gas can be ejected when the gas outlet of the rotating shaft reaches a specific position, and the ejection of compressed gas can be interlocked with the position of the water turbine. It is also possible to control the valve so that the compressed gas is released only when it reaches a specific position. The shaft part that conveys the energy of the water wheel can be stretched horizontally to create a water tank,
There is a method to increase airtightness so that water does not come out of the tank and pass it through to the part where there is no water such as a tank, or a method to change the direction using a gear etc. once in the tank and transmit the rotation to the shaft that extends upward to the upper part of the tank When it reaches a height where it can come into contact with the outside air, the energy can be transmitted to a gear or the like and used as a power source or the like. A number of water wheels can be connected and installed in the vertical direction. Various methods can be considered, such as a method of extending the tank deeply underground and a method of raising it above the ground. It is connected with a belt or the like and supported somewhere in order to transmit the rising energy of air and buoyancy in water to the power (the angle changes depending on the resistance that receives the buoyancy, such as a bicycle chain It is also possible to use a structure such as a plate (although the angle of the plate does not necessarily have to change due to the resistance due to installation costs). In addition, by connecting the energy obtained by the buoyancy by this method with a shaft, it can be used as an upward moving energy to lift up water and the like. It is also possible to divide these by 10 meters or the like, adjust the water pressure, etc., and connect them in the vertical direction. It is also possible to efficiently utilize the ascending energy of the injected air by using a structure in which the air or the like flows from the lower structure to the upper structure again through a pipe or the like. Energy or the like associated with the rise of air or the like in each structure can also be converted into drive energy or the like with a shaft or the like. Water, etc., can be pumped up because the air, etc. of this device rises and water, etc., comes into contact with the stand-by on the ground or the like. It is possible to carry water or the like upward along the rotation by using a similar structural object such as a bicycle chain. By stacking many such devices in the vertical direction, it is possible to efficiently utilize the rising energy of air (or carbon dioxide, etc.) and convert it into energy to control the water pressure. Collect the air in a tank or the like for reuse without releasing the air to the outside. Once compressed air is introduced, it is possible to attach a cover, etc., to the contact surface with the atmosphere, etc., so that there is no leakage to the outside, and, if necessary, install a pipe, etc., to release the compressed air to the atmosphere, etc. can. It is also possible to install a sensor or the like for detecting pressure on the path connecting the compressed air or the like, and install a valve or the like that opens and closes in conjunction with the sensor to optimally control the pressure of each part where the air or the like flows. The valve that opens and closes may be an electronically controlled one or an analog one that opens and closes according to pressure with a spring or the like. The device can be tethered horizontally instead of vertically and can be of smaller size. Of course, it is also possible to attach such a device to a ship or the like and use it as a propulsion force. In order to use energy efficiently, water, etc. is once moved to a high position, such as 60 meters above the ground, by means of the above-mentioned buoyancy, such as a water pump, elevator, vehicle, etc., and from there, the direction of the pipe, etc. is turned downward. When water is dropped, the kinetic energy is used as power to drive propellers for power generation.
Of course, this energy can be used in various ways as power. If such a device were to be installed on board a ship, it could also generate electricity or directly reduce propulsion energy. Even if you don't use pipes, etc., a certain amount will drop at a limited point. It can be built up using the principle of this device. Since the kinetic energy increases in proportion to the square of the moving speed of the object, energy can be obtained efficiently. At a height of about 60M, the kinetic energy is about 625 times higher than the speed of 1M/S. Even 40 L/sec can generate considerable power. Energy is efficiently increased by vertically falling water or the like. Efficiently increase the energy of the movement of matter and use it as power for a generator or the like. (For example, it turns a turbine for hydroelectric power generation.) A baseball with iron in it may be used. When energy is transmitted from a large number of balls, for example, to a turbine for power generation, the balls drop regularly at the upper position. You can also control it. If the ball-like shape is provided with a slight inclination, it can be easily moved by gravity without power. A plurality of pipes into which the balls fall are prepared so that the energy of the balls can be transmitted independently to, for example, a turbine that receives the energy. By slightly shifting the position, the energy of the ball can be efficiently transmitted to the wheel, water wheel, turbine, or the like. In order to maximize the efficiency of the movement of the ball controlled at the upper drop position and the rotation of the lower turbine, etc., the return device, etc., that can be recovered at the upper position is adjusted and controlled mechanically. If the water is at the bottom position, the water, etc. will accumulate in a certain place, and if the bucket or the like that is mechanically moved from there moves upward, the water, etc. will move up. A ball-shaped object also moves to a fixed place by gravity or the like, and if the direction is controlled by a lane or the like, the ball or the like moves upward according to the movement of the machine like a batting machine. Balls, etc. are surrounded by rubber to maintain strength,
It can also be covered with an impact resistant material such as leather. At the time of installation, for example, using natural topography such as mountains and valleys, and using spring water, it is possible to reduce the cost of creating large-scale facilities from scratch. An existing building or the like can be used, or a part of the edge or the like can be remodeled.
When a certain amount of spring water is boiling from near the top of a mountain or the like, the water can be pulled to a specific point using a pipe or the like while maintaining the altitude. If the amount of water is small, it can be pumped up using power or the like, and the water can be carried from the bottom and reused. Even if there is a difference of 50 meters between the top of the mountain and the surrounding lowlands, the height of the mountain is already there, so the height of that part is kept at about 50 meters, so the need for scaffolding and the like may be reduced. It is easy to install pipes etc. in the mountains, etc., where people usually do not enter. A scaffolding made of wood, concrete, or the like can be used to make a stand or the like for supporting a pipe or the like. Hydroelectric power plants such as dams store water that has flowed down from the surrounding mountains, etc., and obtain energy by utilizing the height of the waterway below. High energy can be obtained while keeping costs down. If the low-lying area is dug down and a power generator or the like is placed underground, noise can be avoided and the height difference can be widened. When water, etc., is dropped downward for power generation, etc., by connecting a pipe, etc., that can send compressed air, etc. to the upper part of the pipe, water, etc., can be dropped more quickly, or by using a single pipe instead of a single pipe. The bundled inner pipe has several holes for ventilation, and the compressed air is sent from the high part of the pipe to the inner pipe. You can also make it fall smoothly when it falls. If there is no spring water, it is possible to bring in a certain amount of water or collect rainwater and use it. It is also possible to move the vehicle efficiently by using a structure that slides on the above-mentioned cooled ice, etc., and to move upward after accelerating by using gravitational energy etc. or an engine etc. to some extent. , the energy required for moving water or the like to a high position can be obtained by acceleration due to gravity, so the energy cost for propulsion power can be suppressed. Of course, it is also possible to attach such a device to a ship or the like and use it as a propulsion force. It is possible to save the energy required for cooling by grounding a tube-shaped tunnel there using the providence of nature that the temperature around 5 meters underground in the mainland of Japan is kept around 15 degrees throughout the year. Alternatively, when this structure is grounded on the ground and cooled, it is also possible to cover the outer periphery of the tube with liquid water, etc. If the outer periphery of the tube is made of plastic, glass, or other light-permeable material, the scenery can be seen from inside the vehicle. You can also see It is also possible to run a ship with water etc. in a similar tunnel etc. and seal the inside of the ship, and by making the inside of the tunnel a vacuum, the energy efficiency during movement is increased (anything that can run in the tunnel can be applied. )
. Energy costs and the like can be reduced by adopting a similar structure for cars and the like, even if they are not as large as electric trains and the like. Increase the certainty of automatic driving of cars, etc. By connecting an automobile or the like to a trolley or the like installed on a similar platform, the weight of the automobile or the like is mainly supported by the sleds to reduce rolling resistance. Even on current roads, in order to prevent freezing and reduce the temperature of the road surface in the summer, water, etc. in a tank installed 5 meters underground under the road or passage is piped to the asphalt of the road. By circulating it 10 cm below (reference), the road surface etc. will not freeze or generate excessive heat. It is also possible to increase the cooling efficiency in the summer by allowing circulating water or the like to flow around the sleigh portion through a pipe or the like. Create a futon-sized space (it can be larger or smaller, and the size can be changed) using a plastic bottle or the like, and keep the temperature in the space so that it is cool in the summer and does not freeze in the winter. Water in a tank or the like installed about 5 meters underground is put inside a PET bottle or the like through a pipe, and the PET bottle or the like is connected so that the water circulates and returns to the tank. In order to stop trains in an emergency, a pipe or the like is installed at the bottom of the train running line, and oil or the like (gas, etc., which has been considered clay or the like, may be used) is poured into it. Then, a hole is made in the upper part of the pipe and something like a pile is dropped from the train or the like and hooked there. In places where piles have fallen, it is possible to reduce the speed of trains, etc. while increasing the pressure inside the pipe by coming into contact with a round plate, etc. made just in place such as a pipe to prevent the pressure from escaping, like an air gun. . If multiple pipes are installed and there are multiple piles such as trains, first one pile (such as a rod-shaped object for hooking the vehicle and the outside) is hooked, and then the second and third trains. You can adjust the braking force applied to It is possible to prevent the pipe from breaking due to sudden excessive pressure by opening holes etc. to release the pressure in places of the pipe and when the pressure reaches a certain level, the stopper will come off. By arranging these structures on the roof of a house in a manner similar to cooling solar panels, etc., by connecting plastic bottles, etc., and allowing water, etc., to flow in and accumulate there, the inside of a residential building, etc. You can also control the temperature of For the water, etc., a tank or the like is installed in a place where the ground temperature is about 15 degrees Celsius throughout the year, about 5 meters underground, and the water is circulated. The flow of water, etc. can be stopped for a certain period of time, such as while the temperature changes on the roof. It can also be designed as You can prepare multiple underground tanks and connect them to different depths to adjust the temperature finely. can also flow. In winter, it is possible to prevent snow from accumulating on the roof. Also, by running water over the structure, the outer surface of the structure can be cleaned. The fact that the temperature is maintained at about 15°C all year round at a depth of about 5 meters underground is used, and the fact that the temperature changes according to the underground depth is used. Depth is determined according to the required soil temperature, such as about 5 meters below ground or a slightly shallower depth on mountain slopes, etc., and water is placed in a tank made of PET bottles, etc. It constitutes a structure for managing the temperature of the air, etc. To construct a device capable of controlling the temperature of the air by providing a space through which air can pass inside a PET bottle or the like and allowing the air to pass through the space. Then, the air and the like are connected to a space where plants and the like are grown, which are made of PET bottles and the like and are installed on the ground through pipes and the like made of the PET bottles and the like. Outside air is taken in from a specific intake and circulated to the underground space and the space for growing plants. It is possible to shut off outside air and circulate a special gas or the like, or use an air filter or the like in the outside air intake section to purify the air. A plurality of underground tank parts can be prepared, one at a higher position and the other at a lower position as viewed from the structure for plant cultivation, etc., by utilizing the difference in altitude of the mountain. In this way, it is possible to reduce the cost related to air circulation by naturally generating convection using the temperature difference with the outside air, etc., and if necessary, install a fan that is driven by a motor, etc., and use the air, etc. to grow plants, etc. Pour into space. The plant cultivation space can be designed to be so narrow that it is impossible for a human to stand and pass through, making the most of the space. A pallet on which plants and the like are set can be placed on a trolley and taken in and out of the cultivation space using tires, rails, or the like. Instead of sunlight, it is possible to use LEDs or other elements that convert heat into light (announced by Kyoto University, etc.), or use mirrors or optical fibers to draw sunlight into spaces such as plants. If the heat applied to the conversion element affects plants, etc., a pipe-shaped device or the like can be set between them to circulate water there to cool the plant cultivation space. Since the surroundings are made of plastic bottles, etc., if water with a constant temperature, such as 5 meters underground, is circulated there, it is possible to prevent excessive temperature fluctuations. In a system using underground temperature, the air adjusted by the underground temperature is circulated from the underground space to the space for plant cultivation, etc., and the water stored in about 5 meters underground is also 1
Since it becomes about 5 degrees, this can also be circulated. The plant cultivation space can be made large enough for humans to enter and can be used for purposes other than plant cultivation. The plant cultivation space is separated from the outside world by a structure made of PET bottles, etc. In order to control the temperature, humidity, etc. in it, plants are cultivated by using the underground structure that uses the soil temperature to control the air. It is moved to the space through a pipe or the like, but at that time, it is possible to move only the air, or move the water along with the air and pour the water into the place where the juice of the PET bottle enters. You can also control the temperature of other spaces. In some cases, only water can be circulated, and only air can be circulated. If the space for cultivating plants or the like is designed to be long and narrow so that a person cannot enter, the space can be used effectively, and a space for cultivating a plurality of groups of plants can be superimposed on the upper part or the like. From the plant cultivation space to the work place where people take care of the plants, etc., the plant is set on a trolley on a rail or something like a long and narrow tunnel made of similar PET bottles in the basement or on the ground. Occasionally pull it with an electric towing vehicle or pull it with a winch so that it can be moved. And if the work area is sealed so that the work can be done while being cut off from the outside world, it is possible to prevent the invasion of bacteria from the outside and phenomena such as crossbreeding of seeds. The size of the space for cultivating plants can be changed, so make it large enough for people to enter. can also be done efficiently. Based on these inventions, we will contribute to a society where goods and services can be exchanged in a communicative manner. In order to use invented technology as a basic collateral to build a rational society, a person who agrees with the inventor for the continuation of the service, etc., entrusts the right to operate the service network to the inventor by contract. Get it managed. As an application of the above-mentioned method of dropping water, etc. vertically and using it as power for a generator, etc., instead of water, magnets processed so as to roll are dropped, and coils are installed around the lanes where they fall. Using the lane to generate electricity, etc., and rolling based on the gravitational energy to a certain place, and moving the gears, shafts, etc. with the power using the compressed air shown above. You can also return to the top position. When it reaches the upper position, it can roll on the top of the lane with gravity energy, go downward to the connected lane, and then fall again. A certain amount of space is provided at the top or in the vicinity of the drop point to store the magnets that roll, and they are kept there. It can also be set to advance on rolling rails. This can be done in the same way with the above-mentioned device that drops water or the like vertically and transmits the energy to the blades of the generator below to generate electricity, etc. It is possible to store water, etc. in the pit and drop the stored water, etc., as needed to use it as energy, or to store natural water, etc., or use spring water, etc. It is also possible to use a variety of pumps, such as a water pump, for the power to raise the water or the like to the top.
When connecting PET bottles, etc., to flow temperature-controlled water, etc. from an underground tank, etc., to control the temperature, etc., of the space provided inside, etc., this PET bottle, etc. The space per unit area is increased by forming a multistage structure in a direction or the like.
The space can be used as a plant cultivation space, etc., and the workshop and the workshop (where manual work such as thinning is located below the space) can be connected to the bottom by using a spiral field or the like. To move a plant and a trolley on which it is placed from a high place to a low place by using an elevator or the like. Rails are also drawn on an elevator or the like, and the direction of the rails can be easily changed so that the direction can be freely changed, or the rails can be freely rearranged like a puzzle. Elevators, etc. can go to the end of the cultivation space, and the elevator, etc., can be set up with chairs, etc., and stopped at each floor, where the rails, etc., provided on the elevator and the rails, etc., in the cultivation space can be connected to place plants, etc. on them. It is also possible to move around a chair or the like on which a person sits using a trolley. People can work while sitting. It is also possible to seal the interior by enclosing this tall multi-level structure with vinyl that allows light to pass through. By covering the surroundings with a structure using vinyl, etc., it is possible to easily seal the interior, and by installing multiple airlocked doors at the entrance, it is possible to communicate with the outside world. can be blocked. The inside of a structure made of a PET bottle or the like can be sealed by sealing the inside of the structure to prevent outside air from entering. Elevators and the like can also be installed inside the space of the closed structure. Since the plants inside are isolated from the outside world, the seeds do not mix and insects do not come. When a space is created inside a structure that is made by processing and connecting plastic bottles, etc., and plants, etc. are put in there to grow, the structure is surrounded by vinyl or the like that allows light to pass through in order to block it from the outside world. Then, when a person goes to work near the structure, move a part of the structure, such as a plastic bottle, so that the inside of the space can be reached, and then move it again after the work. Structures (parts, etc.) made by processing plastic bottles, etc., can also be returned to their original state. If the inside of a structure made of plastic bottles, etc. is isolated from the outside atmosphere and the space inside is used for plant cultivation, a trolley or the like is put in to move the plants. It is connected in such a way that it can be operated by using tires, rails, etc. to power a winch or a part of the trolley. In order to efficiently bring in the sunlight into the space, the sunlight is transmitted using daylighting devices (sunflowers, etc.) or optical fibers. Any method or combination of these can be used. (1) Using the gravity difference between water (liquid, etc.) and air (gas, etc.), upward energy is generated in the tank. (2) In principle, a device with an openable/closable spring or the like is attached to the upward energy generated in the tank, and a bicycle chain-like device and a crank-like device are connected in principle to convert it into rotational energy. (3) This device for transmitting rotational energy is installed inside the tank. (Support it with a support so that it does not wobble.) ▲４▼
Water, etc. (liquid, etc.) can be supplied to the tank from the outside using a hose such as a pipe. (5) Compressed air (gas, etc.) is put into the tank, and while the pressure is controlled by a sensor, it is jetted through a pipe so as to hit the blades of the rotary energy transmission device. Instead of compressed air, an industrially produced gas such as hydrogen can also be used to perform this role. (6) Water (liquid, etc.) is dropped downward from the top to the bottom using a pipe or the like. The energy is used as a generator (rotating gears, etc.)
power or as another source of energy. The energy of water or the like can also be used as power for a device for compressing air or the like. This energy can also be used to power electrolysis equipment to produce hydrogen and the like. (7) The water or the like (liquid etc.) that has gone down is stored in a tank or the like, and the gravity difference between the liquid and the gas is converted into rotational energy to bring it up and reuse it.
In order to efficiently produce compressed gas, a cylindrical tube and a device that acts as an efficient stopper that moves and compresses air from top to bottom without leaking is used. This wire-like device is surrounded by a part made of rubber, such as a floating ring, that can be tightly attached to the circumference of the cylinder by air pressure, etc., and when the part of the ring is inflated by air pressure, etc., air is released. You can keep it from leaking. In order to improve slippage, it is also possible to apply lubricating oil or the like by spraying a nozzle or the like extending from the inside of the stopper, etc., around the progressing portion of the portion where the float-like rubber or the like is in close contact. A tank or the like is installed on the device that acts as a plug, and a heavy object such as water is placed in the tank and moved downward by its weight, or for hoisting to move the device that acts as a plug upward. Also install a wire and a winch. The chain is also connected downwards, and in a situation where gas cannot enter or exit through water, etc., it is connected to an external gear, etc., and water, etc. (liquid, etc.) is dropped from above through a pipe, etc., and the energy is used to rotate the gear. It is also possible to pull downward on the device acting as a downward plug. When this device that functions as a plug or the like is moved upward, the air inside the float ring-shaped rubber is released and deflated to release the contact with the cylindrical tube, allowing it to be lifted smoothly or used as a weight. Water, etc., is drained by opening the door or valve of the tank below and transferred to another tank, etc., using a pipe, etc. The water is moved upwards by power that converts the gravitational difference between the liquid and the gas into rotational energy, and is reused by returning it to the upper tank or the like.
Of course, the gas, etc. (the principle of obtaining the rotational force of the device that converts the blades installed inside the tank, etc. into rotational force with a bicycle chain-like device due to the difference in gravity between the gas and the liquid, etc.) (Freon used in air conditioners and its substitutes, HFC, etc., may also be used.) One example is a method of compressing the refrigerant and directing it to the blades, etc. that convert it into rotational energy through a pipe, etc. Compressed refrigerant is passed through the inside of a tank containing liquid such as water through a pipe or the like, and heat is exchanged there. Alternatively, heat can be exchanged with air or the like guided from the outside through another pipe or the like. Then, the pressure of the compressed refrigerant that has released a certain amount of thermal energy is released to obtain rotational energy by adjusting the lower portion of the blades or the like for converting into rotational energy by means of a control valve. As a previous process, heat exchange with air can be performed like a cooler by using the heat of vaporization of the refrigerant, for example, by piping the outside air through a pipe or the like near the pipe containing the refrigerant. When the compression rate of the refrigerant decreases, heat is exchanged with the surroundings and the heat of the surroundings decreases. If there is water (liquid, etc.) in the tank containing the device that converts it into rotational energy, the temperature will drop due to the action of the refrigerant. If this device is installed at a stable depth, water (liquid, etc., which does not easily react with refrigerants, etc., regardless of shape and nature) that has been deprived of heat by heat from the ground temperature It can also be balanced by adding geothermal heat from the surroundings. When the temperature inside the device that extracts rotational energy drops significantly due to heat exchange with the refrigerant, for example, a tank or the like is installed at a point five meters underground where the temperature is kept at around 15 degrees Celsius all year round, and water, etc. (liquid The temperature of the water inside is controlled by geothermal heat (the ground temperature varies depending on the depth, but the outside temperature is below ground). In order to stably take in thermal energy by using the property that it is inversely proportional to the change of The inside of the tank in the underground, cold water, etc. is put into another tank installed underground, etc., and the replaced water is put into a tank installed about 5 meters underground and is geothermally generated. warmed and maintained. You can install a pipe or the like in the tank containing the cold water and put warm outside air in there to raise the temperature of the water in the tank, or you can heat the outside air that has become cold through heat exchange. Since it is used as an air conditioner, it can also be sent to a space on the ground using a pressure fan or the like. If water, etc., whose temperature is maintained by the above-mentioned ground temperature, is circulated around the tank, etc., where there is a device for extracting this rotational energy, using pipes, etc., so as to surround the surroundings, the heat is taken away by the refrigerant. heat is replenished. Refrigerant (gas, etc.) that has flowed to the top of the tank moves through a pipe to a device with a device such as a blade that converts it into the next rotational energy while adjusting the pressure with a control valve and a pressure sensor. The refrigerant is then also recovered through pipes or the like to the original compressor and reused. A tank, etc. containing a device that extracts rotational energy from water (liquid, etc.) that has been heated to the highest possible temperature by a principle similar to a solar water heater that collects sunlight energy with a light concentrator and converts it into thermal energy such as water. A device in which water (liquid, etc.) in the tank is boiled by inserting a refrigerant (carbon dioxide, etc.) whose temperature has risen due to compression into the tank through a pipe, etc. You can also move the wings of Heat can also be obtained from the heat of the sun (sunlight, etc.), the heat of magma, geothermal heat such as hot springs, etc. You can use the heat of the sun to heat the floor water, which is similar to a solar water heater.
It can also be used as a source of power for a device that converts to rotational energy (such as ▲R in Drawing 8). In such a mechanism, when heat energy is directed to such a place as ▲R, sodium is once heated to a high temperature and the energy is transmitted to water passing through the pipe, or sodium is put into the pipe as it is. You can also let it flow. ▲
If you use a pipe or the like in the space containing water (liquid etc.) in the tank like R ▼, the heat will blow the water inside. Materials such as sodium that transmit heat can be collected and reused in tanks through pipes. At this time, it can be moved by a pump or the like that is driven by a motor. The water that has become aerated can also be moved to a tank or the like through a pipe, and then returned to a tank such as ▲R▼ using a pipe. Tanks, etc., should be placed 5m underground
It may be easier to adjust when controlling the temperature of tanks, etc., if you keep it at a place where it is kept at 15 to 17 degrees all year round. Refrigerant can also be used as an energy source like ▲R▼. ▲R▼
A method of guiding and recovering while controlling using a pipe or the like using a pressure sensor or a valve for adjustment, or using a high temperature of the refrigerant It is also possible to pour it into a pipe, etc., and heat the water (liquid, etc.) in it, such as ▲R, to make the water (liquid, etc.) shake and use it to convert it into rotational energy. can. Using the relationship between the state of matter and heat in the three states of matter, create a path that can change the state of the matter with natural energy, etc., and move such as ▲R▼ that converts to rotational energy in it. , you can cool other things (air conditioners, etc.), heat other things (heaters), and boil water with a heat pump. ▲
Rotational energy is obtained from a part like R ▼ and water is pumped up from the lower part to the upper part. It is also possible to make water, etc., move from the bottom to the top in the direction opposite to the gravity. When water, etc. is pushed downward, the kinetic energy rises due to gravity, so that energy can be used as an energy source for a hydraulic power generator, or used as a variety of other energies. When the air conditioner operates as a heater, it becomes difficult to exchange heat with the refrigerant in winter when the outside air is cold. Water, etc., which is stored in a tank, etc., which is set in the basement, etc., which is standing at about ℃, is swelled with a pipe, etc., and is guided. This allows the refrigerant to exchange heat with a higher temperature than the outside air in winter.
It is also possible to set up pipes, etc., through which water flows, etc., around the pipes, etc., through which the refrigerant flows. The temperature in the tank can be adjusted by keeping the water in the tank. Water and the like can be moved by natural height differences and pumps. It is said that a battery with 20-80% remaining battery power is good for the battery life of smartphones and other devices. there is By linking this device with a device such as a smartphone via Bluetooth or a USB cable, data such as the remaining battery level can be read from a storage program, etc., on a smartphone, etc., and linked with the remaining battery level, etc. The start and stop of each operation are controlled automatically. The battery of an electric assist bicycle may not be able to produce enough power in the cold winter, so it is recommended to attach a heat-generating electric anchor around the battery and turn on the heat-generating electric anchor-like switch according to the temperature of the battery. turn on/off. When the remaining power of the battery of the assist bicycle is low, the circuit is set so that this terminal is turned off. When cows, etc. are placed in the space inside the container, which is made by processing PET bottles, etc., as shown in Drawing 1, etc., the methane gas emitted from the cow's burp, etc., is separated and collected at the bottom of the space. If there are cows, etc., the space should be multi-layered and the space should be connected with pipes, etc., and the methane gas accumulated in the upper space etc. should be separated and collected. Since the inside of the space is completely covered, it does not naturally mix with the outside air. Compressed air (gas, etc.) or refrigerant (
Fluorocarbons, etc. with equivalent properties) are passed through pipes, etc., and water, etc. (liquids, etc.) in tanks, etc. (liquids, etc.) If it blows out in a direction, that force can be converted into rotational energy, and it can be used as the power to move the wing of ▲R▼, etc.). For example, refrigerants (CFCs and similar substances) can become hot due to pressure changes, or conversely, can suddenly increase in volume and become colder due to their properties. It can also be used to generate heat while generating electricity, or conversely, to cool things around it. It is also possible to send a substance that is difficult to vaporize, such as sodium, through a pipe or the like to the ▲R▼ to shake the water, etc. in the tank, etc., and convert it into rotational energy. In order to lower the movement of the part where the chain, etc., with a rotating blade, etc., moves from top to bottom, put a pipe, etc., around the chain, etc., which is downward, etc. By passing cold water around the chain through a tank, etc., the swelling around that part will subside and the chain will move smoothly. Of course, a tank, etc., was set up in a place where it was kept at a constant temperature of 15°C throughout the year, five meters underground, and water was stored in the tank, etc. It can also be guided and swelled without mixing with the water inside.
Assuming that water is contained in a tank like ▲R▼, when air is sent into the tank, there are things that pass through the parts such as pipes where air and water come into contact, and things that do not pass depending on the properties and characteristics of the substance. It is also possible to set up a filter or the like that can separate the air from the pipe or the like to the water in a more stable manner. For example, if a filter is placed between pipes, a substance can move from the left to the right of the filter, but the substance on the right cannot move to the left. It is also possible to use a filter that has the ability to pass air through the filter but not water, depending on the nature of the substance that can be produced and the fineness of the filter. A filter or the like can be attached, for example, to the place of {circle over (F)} (FIG. 8).
▲F▼ can be set as much as necessary in a necessary place such as a pipe.

The typhoon control method of the present invention is a typhoon control method that prevents the expansion of typhoon power or changes the course of a typhoon. material), dry ice, and ice, one or more cooling substances are selected, and the selected cooling substances are injected into the typhoon generation area or movement direction area to lower the seawater temperature in the area. It is characterized by preventing the typhoon from expanding its force or changing its course.

According to such a configuration, since the seawater temperature is lowered by using water, which is a component of seawater, and dry ice made of carbon dioxide released into the air, typhoons can be controlled without causing marine pollution. .
It utilizes the fact that when substances come into contact with each other, energy is transmitted and sea water is cooled. In order to cool sea water, a substance with a temperature lower than that is put into the sea water. The material is just an example, and other materials can be used as long as they have similar properties (that is, a material with a temperature difference from the object).

Claims

A typhoon control method for preventing expansion of typhoon force or changing the course of a typhoon,
selecting one or more cooling substances from a group of cooling substances such as water maintained at about 15°C all year round in underground tanks, artificially chilled water, dry ice, and ice;
A typhoon control method, characterized in that the selected cooling substance is injected into a typhoon generation area or moving direction area to lower the seawater temperature in the area, thereby preventing the typhoon from expanding in force or changing its course.