JP2022164111A - Method for creating life efficiently - Google Patents

Abstract

To provide an energy conversion device capable of efficiently converting primary energy into secondary energy to generate the secondary energy.SOLUTION: An energy conversion device 1 includes: a liquid tank 11 in which a liquid 10 is stored; a plurality of gas receiving parts 12 which are provided in a vertical direction within the liquid tank 11 and may rotate or move vertically; a nozzle 13 which jets a compressed gas from a position below the gas receiving part 12 located at a lower part within the liquid tank 11; a gas cylinder 14 which stores the compressed gas as a primary energy source to send out the compressed gas to the nozzle 13; output means 3 which outputs kinetic energy, which is generated in the gas receiving parts 12 by buoyancy generated by the gas receiving parts 12 receiving the compressed gas jetted from the nozzle 13 and rotates or moves upward, to the outside of the liquid tank 11 as secondary energy; and a recovery device 4 which returns a gas from the liquid tank 11 to the gas cylinder 14.SELECTED DRAWING: Figure 1

Description

The present invention relates to an energy conversion device that converts primary energy into secondary energy.

A gasoline engine, for example, is known as an energy conversion device.

However, the conventional devices of this type emit carbon dioxide and are expensive to produce gasoline.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems and to provide an energy conversion device capable of efficiently generating and converting primary energy into secondary energy.

An energy conversion device according to an aspect of the present invention comprises a liquid tank in which liquid is stored, a plurality of gas receivers provided in the liquid tank in the vertical direction and capable of rotating or vertically moving, and a nozzle for ejecting compressed gas from below the gas receiving portion located at the bottom; a gas cylinder storing the compressed gas as a primary energy source and delivering the compressed gas to the nozzle; output means for outputting kinetic energy of rotation or upward movement generated in the gas receiving portion by buoyancy generated by receiving the compressed gas ejected from the nozzle to the outside of the liquid tank as secondary energy; and a recovery device for returning the gas to the gas cylinder.

According to such a configuration, compressed gas as a primary energy source is ejected into the liquid tank in which the liquid is stored, the movement energy due to the generated buoyancy is converted into secondary energy, and the gas is collected from the liquid tank into the gas cylinder. Since it is reused, energy can be efficiently generated and converted.

Further, a vehicle body moving device according to an aspect of the present invention includes a vehicle body, sleds for ice gliding provided on the front, back, left and right of the lower surface of the vehicle body, and liquid sleds provided on a road surface for guiding the sled on ice gliding. and a rail on which an ice surface is formed by freezing, and a driving device for running the vehicle body.

According to such a configuration, it is possible to perform inertial motion by gliding on ice with little resistance, and it is possible to improve the energy efficiency of running.

Further, an energy utilization device according to an aspect of the present invention is an energy utilization device that utilizes the energy of groundwater at a constant temperature, and is buried in a predetermined underground from which groundwater at a predetermined constant temperature can be obtained, and stores the groundwater at a predetermined constant temperature. an underground tank, a structure formed by connecting a plurality of hollow tubes formed of a light-transmitting material to form a cavity therein, and constant temperature groundwater stored in the underground tank. A pipe and a circulating pump for circulating through a hollow tube of a structure, and a fan for blowing air from one end side to the other end side of the cavity formed by the structure, wherein the cavity is , an air conditioning space or an energy exchange equipment installation space.

According to such a configuration, the energy of constant temperature groundwater can be effectively used.

Further, an energy utilization device according to another aspect of the present invention is an energy utilization device that utilizes constant-temperature underground energy, wherein the energy is reciprocated between the underground at a predetermined constant temperature and a predetermined depth and the surface of the earth. and a fan for sending surface-side air into the hollow pipe, the air being sent to the hollow pipe by the fan and cooled or heated at the predetermined depth underground is air-conditioned on the surface side. It is characterized by being used for

According to such a configuration, the energy of constant temperature groundwater can be effectively used.

Further, an energy utilization device according to still another aspect of the present invention is an energy utilization device that utilizes sunlight energy, wherein a plurality of hollow tubes made of a light-transmissive material are connected to communicate with each other, thereby a pipe and a circulation pump for circulating water or hot water in the hollow tube of the structure; and the cavity formed by the structure has one opening through the other and a fan for blowing air toward the opening, wherein the structure is installed in a place where it can receive sunlight, and seawater is passed through the bottom surface of the cavity in plan view, and the fan blows air to the upper surface of the seawater. It is characterized by passing through and promoting evaporation of seawater to obtain salt.

According to such a configuration, sunlight energy can be effectively used.

Further, an energy utilization device according to still another aspect of the present invention is an energy utilization device that utilizes compressed air for air conditioning, comprising an air compression compressor powered by natural energy, and air compressed by the air compression compressor. and a tank buried underground for storing the temperature-controlled compressed air stored in the tank is delivered to the air-conditioned space through a pipe.

According to such a configuration, natural energy can be effectively used, and energy can be stored in the form of compressed air.

In addition, an energy utilization device according to still another aspect of the present invention is an energy utilization device that generates power using natural energy, and is installed on a coast, and is installed on a coast, where seawater reaches a position higher than the sea surface due to the force of sea waves. A wall structure that simulates a ria coastline that acts to rise, a tank that introduces and stores the rising seawater by the wall structure, and power generation using the potential energy of the seawater stored in the tank. and a hydraulic power generator or an air compression compressor.

According to such a configuration, the kinetic energy of seawater can be effectively used.

The block diagram of the energy conversion apparatus which concerns on one Embodiment of this invention. (a) is a perspective view of an open state of a gas receiving portion constituting the same device, and (b) is a perspective view of a closed state of the same gas receiving portion. The block diagram of the energy conversion apparatus which concerns on another embodiment of this invention. The block diagram of the energy conversion apparatus which concerns on another embodiment of this invention. The block diagram of the energy conversion apparatus which concerns on another embodiment of this invention. The block diagram of the energy conversion apparatus which concerns on another embodiment of this invention. BRIEF DESCRIPTION OF THE DRAWINGS The block diagram of the compressed gas generator which concerns on one Embodiment which comprises the energy conversion apparatus of this invention is shown, (a) shows the operation|movement in a compression process, (b) shows an inhalation process. The block diagram of another compressed gas generator used for the energy conversion apparatus of this invention. The block diagram of the energy conversion apparatus which concerns on another embodiment of this invention. The figure explaining the circulation process of the working gas in the energy conversion apparatus which concerns on one Embodiment of this invention. The block diagram of the energy conversion apparatus which concerns on another embodiment of this invention. 1(a) is a front view showing a sled running state of a vehicle body moving device according to an embodiment of the present invention, and FIG. 1(b) is a diagram showing a wheel running state of the vehicle body moving device. (a) and (b) are side views of a vehicle body moving device according to another embodiment of the present invention. (a) is a front view of a braking device according to one embodiment of the vehicle body moving device, and (b) is a side view of the same braking device. The block diagram of the energy utilization apparatus which concerns on one Embodiment of this invention. The perspective view which shows the utilization example of the same apparatus. FIG. 2 is a configuration diagram showing another configuration example of the device; The block diagram of the energy utilization apparatus which concerns on another embodiment of this invention. The block diagram of the energy utilization apparatus which concerns on another embodiment of this invention. The block diagram of the energy utilization apparatus which concerns on another embodiment of this invention. (a) is a side view which shows the structure of the energy utilization apparatus which concerns on another embodiment of this invention, (b) is a top view of the same apparatus. A device that uses geothermal heat. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc.

(Energy conversion device)
Hereinafter, an energy conversion device according to one embodiment of the present invention will be described with reference to the drawings. As shown in FIG. 1 , the energy conversion device 1 includes a liquid tank 11 , a gas receiver 12 , a nozzle 13 , a gas cylinder 14 , an output means 3 and a recovery device 4 . This energy conversion device 1 ejects compressed gas as a primary energy source into a liquid tank 11 in which liquid 10 is stored, and converts the resulting movement energy due to buoyancy into secondary energy that can be output from the liquid tank 11. is.

The liquid tank 11 is a sealable tank and normally used in a sealed state. A liquid 10 is stored in the liquid tank 11 . Water is preferably used as the liquid 10, but any liquid can be used without being limited to water. The size of the liquid tank 1 is, for example, 2 to 3 m, but is not limited to this. A power mechanism 31 is installed inside the liquid tank 11 to generate rotational motion using the buoyancy of the liquid 10 . The power mechanism 31 includes a vertically long belt 31a arranged in a ring shape, two upper and lower gears 31b on which the belt 31a is hung, and a gear 31b that rotates as the belt 31a moves. The upper gear 31b is buried in the liquid 10 in FIG. 1, but the upper part thereof may protrude above the liquid surface, for example, nearly the upper half of the gear 31b may protrude above the liquid surface. . The amount to be discharged may be appropriately determined depending on the balance between the effectiveness of the buoyancy of the gas in the gas receiving portion 12 and the resistance to the rotation of the gear 31b, for example, the resistance of the liquid 10 to the gas receiving portion 12.

A plurality of gas receivers 12 are provided in the liquid tank 11 in the vertical direction by distributing them in a ring shape on the belt 31a. The gas receiver 12 is vertically movable in conjunction with the movement of the belt 31a, performs rotational movement at the upper and lower positions, and performs circular motion between the upper and lower sides as a whole. In the embodiment shown in FIG. 1, belt 31a and gear 31b rotate rightward or clockwise.

The nozzle 13 ejects the compressed gas from below the gas receiver 12 positioned below in the liquid tank 11 . The compressed gas is captured by the gas receiver 12 and gives the gas receiver 12 buoyancy. The gas receiving part 12 receives a buoyant force from the liquid 10, but when it moves upward, it receives a larger buoyant force than when it moves downward by receiving the compressed gas ejected from the nozzle 13. . Although only one nozzle 13 is illustrated in FIG. 1, the number is not limited to one and may be plural. For example, like an upward shower nozzle, by distributing a plurality of openings of the nozzle 13 over the entire downward opening of the gas receiving section 12, gas may be discharged into the gas receiving section 12 from a wide area.

As shown in FIGS. 2(a) and 2(b), the gas receiver 12 is configured with movable wings 12a that can be freely opened and closed, and is opened when receiving the compressed gas ejected from the nozzle 13 to generate buoyancy. It is in a closed state when it does not receive compressed gas and does not generate buoyancy from the gas. With this structure, the gas receiving portion 12 and the belt 31a are circulated more efficiently.

The gas cylinder 14 stores compressed gas as a primary energy source and delivers the compressed gas to the nozzle 13 . The gas cylinder 14 ejects compressed gas from the nozzle 13 via a valve 14a whose opening/closing is controlled. The valve 14a is controlled to open only when the gas receiver 12 reaches a predetermined position. As a result, the compressed gas is efficiently captured by the gas receiving portion 12, thereby suppressing the consumption of the compressed gas. buoyancy can be used effectively.

The gas cylinder 14 is connected to a compressed gas generator 5 that generates compressed gas. Compressed gas generator 5 is, for example, a general compressor that converts mechanical energy into energy possessed by the gas, which is a fluid, by pumping the gas by rotating motion of an impeller or rotor or reciprocating motion of a piston. good. Compressed gas generator 5 is operated by power from power source 50 . Natural energy such as wind power, geothermal power, hydraulic power, tidal power, and wave power is preferably used for the power source 50 in order to suppress the generation of greenhouse gases.

The compressed gas generated by the compressed gas generator 5 is a gas whose pressure is increased so that the gas can be supplied from the nozzle 13 to the gas receiver 12 against the water pressure of the liquid 10 in the tank 11 . The gas supplied to the gas receiving portion 12 is supplied to give the gas receiving portion 12 buoyancy due to the liquid 10 .

The output means 3 is means for outputting the kinetic energy of upward movement due to buoyancy generated in the gas receiving portion 12 to the outside of the liquid tank 11 as secondary energy. In this embodiment of FIG. 1, the output means 3 includes a power mechanism 31 that converts kinetic energy due to buoyancy into rotational energy of the rotating shaft 31c of the gear 31b, and an electric energy that converts the rotational energy of the rotating shaft 31c into secondary energy. and a power generator 32 that converts to

The recovery device 4 is a device that returns the gas from the liquid tank 11 to the gas cylinder 14 . A space above the liquid tank 11 serves as a gas chamber 15 in which gas stays. The recovery device 4 sends the gas remaining in the gas chamber 15 to the gas cylinder 14 via the compressed gas generator 5 . The gas in the gas chamber 15 is the gas created from the nozzle 13, the vapor of the liquid 10, and the like.

The recovery device 4 includes a three-way valve 41 , a sub-pump 40 and a valve 42 along the pipeline from the gas chamber 15 to the compressed gas generator 5 . The three-way valve 41 and the valve 42 are flow control and closing valves that are controlled to open and close. It is desirable that this r be a multi-function valve having the function of a check valve. The three-way valve 41 has the function of a valve that releases gas in order to lower the pressure inside the gas chamber 15 . The sub-pump 40 functions as a buffer that supplements the volume of the gas chamber 15 .

Further, when the compressed gas generator 5 has the functions of the three-way valve 41, the sub-pump 40, and the valve 42, the recovery device 4 is composed only of a pipe connecting the gas chamber 15 and the compressed gas generator 5. good too.

Next, the operation of the energy conversion device 1 will be described. The working gas or compressed gas of the device is described as being air, but is not limited to air. Also, the description will be made assuming that the liquid 10 is water. Water is injected into the liquid tank 11 in which the power mechanism 31 is installed, the piping such as the gas cylinder 14 is connected to the nozzle 13, the piping of the recovery device 4 is connected to the gas chamber 15, and the compressed gas generator 5 is operated. to prepare the compressed gas. While adjusting the gas pressure in the gas chamber 15 with the three-way valve 41, the compressed gas is delivered to the nozzle 13 while adjusting the valve 14a.

The gas constituting the compressed gas emitted from the upward opening of the nozzle 13 is captured by the gas receiving portion 12 opened at the bottom of the upwardly moving belt 31a and replaces the water in the upper space of the gas receiving portion 12. - 特許庁Then, since the buoyant force based on the gas is applied to the gas receiving portion 12, a difference is generated in the forces acting on the left and right belts 31a based on the buoyant force of the liquid 10, and the belts 31a gradually start to rotate clockwise. When the gas is received by the gas receiving part 12 which moves one after another over the nozzle 13, the circular movement of the belt 31a becomes a steady state.

In the steady state of the circular movement of the belt 31a, the gas is released from the gas receiver 12 rotating together with the belt 31a in contact with the upper gear 31b. After releasing the gas, the gas receiver 12 moves downward while the openable and closable movable wings 12a are closed. When the gas receiver 12 rotates together with the belt 31a in contact with the gear 31b on the lower side and comes above the nozzle 13, the openable and closable movable wings 12a are opened to receive the gas from the nozzle 13.

The circulating belt 31a converts the kinetic energy from the gas receiver 12, which rises due to buoyancy, into rotational kinetic energy of the gear 31b. The rotation of the gear 31b rotates the rotating shaft 31c, and the rotational energy becomes electrical energy generated by the power generation device 31 and taken out to the outside. Of course, you can also use this energy to directly move gears and turn the ship's propeller.

Here, the relationship between the three pressures P1, PW and P2 will be explained. The pressure P1 is the pressure of the compressed gas delivered from the gas cylinder 14 . The pressure PW is the water pressure determined by the depth of the liquid 10 . The pressure P2 is the gas pressure in the gas chamber 15 . These pressures have the following relationship when the energy conversion device 1 is operating in a steady state. This formula indicates the conditions under which the gas from the gas cylinder 14 can enter the liquid 10 through the nozzle 13 .
P2 + PW < P1
However, when the gas is released into the liquid, the diameter of the release pipe is made extremely small to create microbubbles, or by installing multiple pipes through which the gas passes, the space is weighted by water even at extremely low pressure. can move gas to Alternatively, if the water pressure in the tank is only the pressure at which liquid butane flows from the tip of the pipe and the butane becomes gas, it will vaporize efficiently.

The compressed gas generator 5 compresses the gas to obtain the required pressure P1 to a high pressure at least equal to or higher than the water pressure PW. The recovery device 4 controls the opening and closing of the three-way valve 41 to adjust the gas pressure P2 in the gas chamber 15 so that the above equation is satisfied.

In this energy conversion device 1, the compressed gas circulates inside the device while undergoing pressure fluctuations as the working gas. The energy conversion device 1 forms a closed circulation circuit for the working gas in a steady state. Components such as various valves, pressure sensors, tanks, etc. may be appropriately incorporated into the energy conversion device 1 in order to regulate the pressure of the working gas.

According to such an energy conversion device 1, compressed gas as a primary energy source is ejected into the liquid tank 11 in which the liquid 10 is stored. The gas can be collected in the gas cylinder 14 and reused. Therefore, energy can be efficiently generated and converted. When a special gas is used instead of air or the like as the working gas, ie, the compressed gas, the gas can be recovered and reused. Moreover, since the gas in the gas chamber 15 is not released to the atmosphere, for example, the pressure P2 of the gas in the gas chamber 15, that is, the pressure energy of the gas can be reused.

Another embodiment will now be described with reference to FIG. The energy conversion device 1 of this embodiment includes a transmission mechanism 30 that mechanically extracts the rotational energy of the gear 31b to the outside instead of the power generation device 32 in the embodiment of FIG. In this example, the liquid tank 11 is installed underground, but it is not limited to being installed underground, and may be grounded semi-underground or on the ground. The same applies to the energy conversion device 1 of FIG.

The transmission mechanism 30 includes a coupler 3a such as a gear that engages with a gear 31b on the lower side of the power mechanism 31 to receive the rotational energy thereof, a shaft 3b, a coupler 3c, a shaft 3d that are sequentially coupled to the coupler 3a, It has a coupler 3e and also a shaft 3f.

The lateral shaft 3b is led out of the liquid tank 11 through a communication opening 11w provided in the side wall of the liquid tank 11 located on the side of the lower gear 31b. A water seal tank 11A is provided outside the liquid tank 11 so as to surround the coupler 3c and the vertical shaft 3d. The water seal tank 11A has a communication opening 11w communicating with the inside of the liquid tank 11 and an upper opening 11k opening upward. The water seal tank 11A contains a liquid 10, the liquid surface of which is open to atmospheric pressure through an upper opening 11k. The vertical relationship between the liquid level of the liquid 10 in the liquid tank 11 and the liquid level of the liquid 10 in the water seal tank 11A is different from each other when the pressure P2 of the gas in the gas chamber 15 is not atmospheric pressure. .

Since the output mechanism 30 of the output means 3 in this energy conversion device 1 uses a water sealing structure, mechanical energy can be extracted to the outside of the energy conversion device 1 without using a strict sealing structure. The water sealing structure can be similarly applied to the upper gear 31b.

The transmission device 30 converts the energy generated in the liquid tank 11 into mechanical energy and outputs it to the outside of the energy conversion device 1 via these couplers 3a, 3c, 3e and shafts 3b, 3d, 3f. It is taken out and transmitted to an external operating device 33 .

The operation device 33 is a water pump, and is configured with a plurality of buckets 33d on a chain 33c hung on upper and lower sprockets 33a and 33b. The rotational energy extracted to the outside of the energy conversion device 1 is transmitted as rotational energy to the upper sprocket 33a via the shaft 3f.

According to this energy conversion device 1, the energy based on the pressure of the compressed gas can be converted into mechanical energy and output. .

Next, with reference to FIGS. 4, 5, and 6, examples of combinations when using a plurality of liquid tanks 11 will be described. A plurality of liquid tanks 11 may be provided in parallel or in series with respect to the gas cylinder 14 . The energy conversion device 1 shown in FIG. 4 shows an example in which three liquid tanks 11 having the same structure are installed in parallel with respect to the gas cylinder 14 . Compressed gas is delivered to the nozzle 13 of each liquid tank 11 via a valve 14 . Also, the gas in the gas chamber 15 of each liquid tank 11 is collected in the sub-cylinder 40 via the three-way valve 41 . The liquid tanks 11 arranged in parallel are not limited to having the same structure, but may have different structures, and the number is not limited to three.

The energy conversion device 1 shown in FIG. 5 shows an example in which three liquid tanks 11 having the same structure are installed in series with respect to the gas cylinder 14 . Each liquid tank 11 is arranged at the same horizontal level. Compressed gas is delivered to the first liquid tank 11 from the side near the gas cylinder 14 to the nozzle 13 through the valve 14a. Gas is delivered from the gas chamber 15 of the first liquid tank 11 to the nozzle 13 of the second liquid tank 11 via the three-way valve 41 . Gas is sent from the gas chamber 15 of the second liquid tank 11 to the nozzle 13 of the third liquid tank 11 via the three-way valve 41 . Then, gas is recovered from the gas chamber 15 of the third liquid tank 11 into the sub cylinder 40 .

The valve 14a and the three three-way valves 41 are used to mutually adjust the pressures corresponding to the pressures P1, PW and P2 in the three liquid tanks 11 described above. The liquid tanks 11 arranged in series are not limited to having the same structure, but may have different structures, and the number is not limited to three.

The energy conversion device 1 shown in FIG. 6 shows an example in which two liquid tanks 11 having the same structure are installed in series one above the other with respect to the gas cylinder 14 . Gas from the gas chamber 15 of the lower liquid tank 11 is delivered to the nozzle 13 of the upper liquid tank 11 via the three-way valve 41 . The piping for guiding the gas is routed up to the upper level of the upper liquid tank 11 and then pulled back to the bottom of the liquid tank 11 and connected to the nozzle 13 . This piping structure is for preventing the liquid 10 in the upper liquid tank from flowing into the lower liquid tank 11 through the gas piping.

Further, the upper and lower liquid tanks 11 are communicated with each other by a water sealing tank 11A. In this embodiment, a configuration is realized in which mechanical energy is extracted from the upper and lower liquid tanks 11 via the water seal tank 11A and the transmission mechanism 30 that are common to each other. Further, the upper and lower liquid tanks 11 are not limited to communicating with each other through the water seal tank 11A, and the upper and lower liquid tanks 11 may be independent of each other. For example, the combination of the liquid tank 11, the water seal tank 11A, and the transmission mechanism 30 shown in FIG. 3 may be vertically arranged in series. and a transmission mechanism 30 .

Next, an example of the compressed gas generator 5 will be described with reference to FIGS. 7(a) and 7(b). This compressed gas generator 5 generates compressed gas by pressurizing gas using a pressurizing piston 52 provided in a cylinder 51 . The pressurizing piston 52 includes a piston body 52a and a sealing member 52b made of a floating ring-shaped O-ring capable of adjusting the internal pressure.

A pipe for creating compressed gas is open-connected to the lower side wall of the cylinder 51 . The pipe is connected to the gas cylinder 14 via a three-way valve 51a. A lower portion of the cylinder 51 communicates with a water seal tank 11A provided outside the side wall of the cylinder 51 by a water seal structure. A chain is locked to the lower surface of the pressurizing piston 52, and the chain passes through the water seal structure and is fixed to a hoist 53 positioned above the water seal tank 11A so that it can be hoisted and rewound. there is

In the pressurizing step, as shown in FIG. 7A, the inner pressure of the float-shaped sealing member 52b is increased to form a slidable sealing structure between the pressurizing piston 52 and the inner wall of the cylinder 51. As shown in FIG. Next, the pressurizing piston 52 is moved downward by the hoist 53 to compress the gas inside the cylinder 51 and deliver the compressed gas to the gas cylinder 14 .

In the intake stroke, as shown in FIG. 7B, the inner pressure of the seal member 52b in the shape of a float is weakened to form a structure in which a gap is formed between the pressurizing piston 52 and the inner wall of the cylinder 51. As shown in FIG. Next, the winder 53 is loosened, the pressure piston 52 is lifted upward, and gas is drawn into the cylinder 51 .

The mechanism and energy for pressing down the pressurizing piston 52 to compress the gas are not limited to those using the hoisting machine 53, and various methods can be used. For example, in place of the water sealing structure and the hoisting machine 53, a configuration may be adopted in which oil pressure or water pressure is applied to the upper surface of the pressurizing piston 52. The intake process can be easily performed by lowering the internal pressure of the float-shaped sealing member 52b whose internal pressure can be adjusted.

Next, another example of the compressed gas generator 5 will be described with reference to FIG. The compressed gas generator 5 heats the solid dry ice with the combustion heat of the mixed gas containing hydrogen and oxygen to generate a gas, expands the volume, and generates the compressed gas. The generated compressed gas is sent out of the gas cylinder 14 . In general, the working gas may be any gas that produces buoyancy when delivered from nozzle 13 . For example, from the gas chamber 15 to the gas cylinder 14, it may be in a liquid or solid state instead of a gas. After the recovery device 4, dry ice or a working gas that is liquefied and converted into a solid or liquid can be used. For example, a substance that is compressed into a liquefied gas may be used as the working gas.

Next, another example of the energy conversion device 1 will be described with reference to FIG. In this energy conversion device 1, the compressed gas generator 5 generates the compressed gas by passing the gas pipe through the heat exchanger 54 and heating the gas. It is the same as the conversion device 1 . On the upstream side of the heat exchanger 54, that is, on the sub-cylinder 40 side, there is a valve 42 having a check valve function. In addition, a three-way valve 51a for adjusting the gas pressure and the like is provided on the downstream side of the heat exchanger 54, that is, on the side of the gas cylinder 14, if necessary.

In this compressed gas generator 5, a heat medium 54a that reaches a high temperature is enclosed in a housing of a heat exchanger 54. As shown in FIG. A pipe that guides the working gas that circulates in the energy conversion device 1 to operate the energy conversion device 1, that is, the gas that becomes the compressed gas is surrounded by the heat medium 54a in the heat exchanger 54. As shown in FIG. By receiving heat from the heat medium 54a, the working gas inside the pipe is converted into a high-pressure gas and becomes a compressed gas. The working gas does not always need to be gas during circulation in the energy conversion device 1, and may be in a liquid or solid state. When collectively including a working gas in a state different from gas, it is called a working gas material.

The heat exchanger 54 may be, for example, in the form of a solar water heater, filled with metallic sodium as a heat medium 54a having a high boiling point. The heat exchanger 54 may heat the heat medium 54a using natural energy. Natural energy may be, for example, solar energy, geothermal heat (magma heat, etc.), hot spring heat, or the like.

In addition, depending on the combination with the liquid 10 in the liquid tank 11, the substance that becomes the working gas may be selected according to the operating conditions of the energy conversion device 1, such as various pressures P1, PW, and P2, the temperature conditions of the liquid 10, and the operating time. may be arbitrarily selected and used according to the physical properties of For example, a refrigerant such as Freon may be used as the working gas. Further, as the liquid 10, other than water, ammonia water or the like may be used.

Next, with reference to FIG. 10, a working gas circulation process in one embodiment of the energy conversion device 1 will be schematically described. In the energy conversion device 1 of the present embodiment, the working gas is made into a high-pressure gas by the compressed gas generator 5, sent to the device body 11R of the energy conversion device via the gas cylinder 14, and recovered from the device body 11R to the sub cylinder 40. and returns to the compressed gas generator 5. The apparatus main body 11R is a general term for the liquid tank 11 and its internal structure as a whole, and is a component for outputting secondary energy to the outside of the liquid tank 11 after converting the primary energy of the compressed gas into kinetic energy. including.

The compressed gas generator 5 of this embodiment includes a compressor 16 , a heat exchanger 17 and a vaporizer 18 . Here, explanation will be given assuming that the operating gas is Freon, which is used as a refrigerant in refrigerators and the like. Such a working gas can be used as a heat source when heated to a high temperature, and can be used as a resting material when cooled by expanding to produce heat of vaporization. It can also be used as a gas that gives buoyancy to the gas receiving portion 12 in the conversion device 1 .

Compressor 16 uses, for example, electrical energy to compress the working gas into a high-temperature, high-pressure state. The heat exchanger 17 releases the heat of the working gas therein to heat liquids and gases such as water, air, and the like. The heated liquid or gas is led to another place and used for heating such as air conditioning.

The vaporizer 18 expands the working gas through an expansion valve or the like to further lower the temperature. The low-temperature operating gas can absorb heat from its surroundings, and its heat absorption ability is used in constructing a cooling system. After passing through the heat exchanger 17 and the evaporator 18, the working gas becomes compressed gas whose pressure is appropriately adjusted, and is sent to the apparatus main body 11R through the gas cylinder 14 to be converted into energy.

According to such a circulation process, in the compressor 16, surplus energy is supplied to the working gas in advance, and in the following heat exchanger 17 and the vaporizer 18, the surplus energy is used to perform heating and cooling, respectively. , then energy conversion using buoyancy can be performed. In an environment where surplus energy can be input, a system that is unified as a whole can be constructed.

Next, another embodiment of the energy conversion device 1 will be described with reference to FIG. The energy conversion device 1 of this embodiment is obtained by replacing the power mechanism 31 in the energy conversion device 1 of FIG. 1 with a power mechanism 31A having a water wheel aspect. The power mechanism 31A has a plurality of gas receivers 12 provided around the outer periphery of a rotating body that rotates about one axis. The gas receiver 12 has the structure shown in FIGS. 2(a) and 2(b).

In this embodiment, two power mechanisms 31A that rotate clockwise are installed in the liquid tank 11 . A valve 14a and a nozzle 13 are set for each power mechanism 31A. Rotational energy of the power mechanism 31A is converted into electrical energy by the power generator 32 .

(Vehicle moving device)
Next, a vehicle body moving device according to an embodiment of the present invention will be described with reference to the drawings. As shown in FIGS. 12(a) and 12(b), the vehicle body moving device 2 includes a vehicle body 21, sleds 22 for gliding on ice provided on the front, back, left and right of the lower surface of the vehicle body 21, and the sleds 22 provided on the road surface 20. A pair of left and right rails 23 on which an ice surface 2a is formed by freezing a liquid for guiding the skiing on ice, and a driving device for running the vehicle body 21 are provided.

The rail 23 includes a housing 23a fixed to the road surface 20 and having a concave cross-section formed with a groove in the longitudinal direction, and a refrigerant pipe 23b arranged inside the groove and passing a refrigerant. . Water is put into the groove of the housing 23a and cooled by the refrigerant pipe 23b to form the ice 2b. The surface of the ice 2b becomes the ice surface 2a when the sled 22 is gliding on the ice. The rail 23 may be provided with a cover to prevent rain from entering when the sled 22 is not skating on the ice, and may be provided with a drain hole for discharging water existing on the ice surface 2a. good. The cover and the housing 23a of the rail 23 are cooled by circulating underground tank water through pipes.

Adjacent to the outer surface of rail 23, guide wheels 21a are provided. The guide wheels 21 a guide the vehicle body 21 so as to run along the rails 23 . Such guiding devices may be provided between the sled 22 and the rails 23 . For example, the structure in the rails 23 may wrap around the sled 22 to prevent the sled 22 from deviating from the rail 23 .

The driving device is wheels 24 powered by an engine or motor mounted on the vehicle body 21 . The wheels 24 are configured to move up and down with respect to the vehicle body 21. When not driven, the wheels 24 are moved upward away from the road surface 20, and the vehicle body 21 sleds on the ice surface 2a by means of the sleds 22 (FIG. 12). Moreover, the wheels 24 are brought into contact with the road surface 20 during driving to cause the vehicle body 21 to travel on wheels (FIG. 13).

Two wheels 24 may be arranged in the longitudinal direction between the front and rear sleds 22, as shown in FIG. 13(a), or one wheel may be arranged in the longitudinal direction, as shown in FIG. good. The arrangement and number of wheels 24 can be arbitrarily set according to the respective roles of sledding and wheel traveling. For example, when the sled 22 is grounded on the ice surface 2a and the vehicle is driven by the wheels 24, the weight of the vehicle body 21 is supported by the sled 22, so the wheels 24 only need to be driven to run, and the whole is one wheel. It would be nice if there was Moreover, when the weight of the vehicle body 21 is supported by the wheels 24, at least three wheels 24 are required to support the vehicle at three points.

The vehicle body moving device 2 may be an embodiment in which a driving device having no wheels 24 is used to move the vehicle body 21 . For example, a jet propulsion device or a propeller propulsion device mounted on the vehicle body 21 may be used as the drive device. A linear motor may also be used as the driving device. In this case, the line that forms the magnetic field of the linear motor may be covered with an ice surface by freezing the liquid. Further, a driving device may be formed by combining a linear motor and wheels 24 that obtain a driving force from an engine or a motor mounted on the vehicle body 21 .

A braking device according to an embodiment of the vehicle body moving device 2 will be described with reference to FIGS. The vehicle body 21 that is sliding on the rail 23 on the ice using the sled 22 absorbs the kinetic energy by the braking device and is decelerated or stopped. The body moving device 2 can be provided with any braking device. The braking device 25 of the present embodiment absorbs kinetic energy by movement resistance of fluid. The braking device 25 is an application of a device commonly called a shock absorber or damper.

The braking device 25 is provided along the rail 23, and includes, for example, a cylinder 25a filled with liquid, a piston 25b that moves relative to the cylinder 25a to move the liquid inside, and a locking device provided on the piston 25b. and an engaging portion 21b provided at the lower portion of the vehicle body 21 and engaged with the engaging portion 26c. The cylinder 25a and the piston 25b have a structure and function as a shock absorber. Also, the sets of the cylinder 25a and the piston 25b are arranged along the rail 23 at predetermined intervals. The set of cylinder 25a and piston 25b may be arranged at predetermined intervals along the entire line of rail 23, or may be arranged at predetermined intervals within a predetermined range.

The engaging portion 21b is vertically movable. During braking, the engaging portion 21b is lowered from the running vehicle body 21 to be engaged with the engaging portion 26c, and pushes the engaging portion 26c in the running direction (leftward in the drawing). . As a result, the piston 25b is pushed leftward and moved, and the kinetic energy is converted into thermal energy by the viscous resistance of the oil, and the vehicle body 21 is decelerated.

The braking device 25 has a plurality of safety valves 25d for releasing pressure in the cylinder 25a to prevent breakage. These safety valves 25d are set to function in stages according to pressure stages. When the vehicle body 21 cannot be stopped within the movable range of the piston 25, the locking between the locking portion 26c and the engaging portion 21b is automatically released, and the cylinder 25a and the piston 25b at the next stage in the traveling direction are locked. The engaging portion 21b is locked to the locking portion 26c in the set, and the braking operation is performed by the set. The setting and positioning of the braking device 25 is carried out according to the prescribed rules for driving speed and braking distance.

(energy utilization device)
Next, with reference to FIG. 15, an energy utilization device 6 according to one embodiment of the present invention will be described. The energy utilization device 6 is a device that utilizes the energy of constant temperature groundwater. The energy utilization device 6 includes an underground tank T, a structure 60, a pipe 62 and a circulation pump P3, and a fan 63.

The underground tank T is buried in a predetermined underground from which constant-temperature groundwater can be obtained, and stores the constant-temperature groundwater. The underground tank T is arranged, for example, near the groundwater layer L containing constant temperature groundwater, together with the pump P1, and stores the groundwater pumped by the pump P1. The groundwater is pumped up from the underground tank T to the ground by the pump P2.

The structure 60 internally has a cavity 61 formed by interconnecting and connecting a plurality of hollow tubes 6a made of a light-transmitting material. The cavity 61 is used as an air-conditioning space or an energy exchange equipment installation space. The structure 60 may, for example, be above ground when used in the presence of sunlight and below ground otherwise. In the case of underground, it becomes easy to use under a predetermined constant temperature. The structure 60 is used as a closed space by sealing both ends with walls formed by connecting the hollow tubes 6a. The structure 60 may be used as an open space with both ends partially open.

The pipe 62 and the circulation pump P3 are used to circulate the constant-temperature groundwater stored in the underground tank T and pumped up by the pump p2 to the hollow tube 6a of the structure 60 . A necessary amount of groundwater is stored in the auxiliary tank T1, circulated through the hollow tube 6a, and then returned to the underground tank T. Due to the circulation in the hollow tube 6a, the inside of the hollow portion 61 is kept at a constant temperature. Fan 63 creates a flow of air in closed cavity 61 formed by structure 60 . This air blowing eliminates stagnation of the air in the hollow portion 61 . The structure 60 is provided with external piping from one end to the other end thereof to form a closed air passage, and a fan 63 is used to generate unidirectional air flow within the structure 60. good too.

The cavity 61 is preferably used as an installation space for the solar panel 64, as shown in FIG. The solar panel 64 is an energy exchange device that converts solar energy into electrical energy. The solar panel 64 is located in a cavity 61 whose four surfaces are maintained at the groundwater temperature, and is ventilated by a fan 63, so that the panel surface can be maintained at a low temperature and power generation efficiency can be maintained. It should be noted that the structure 60 can have an appropriate shape that can optimize and efficiently control the temperature of the contents in accordance with the shape of the hollow portion 61 and the contents stored therein. For example, in the case of the solar panel 64 shown in FIG. 16, a closed cavity surrounded by wall surfaces formed of hollow tubes 6a close to the outer peripheral surface including the front and back surfaces of the panel so that the panel can be accommodated in the minimum space. 61 or a partially open, unsealed cavity 61 .

Next, an application example of the energy utilization device 6 will be described with reference to FIG. This energy utilization device 6 has a plurality of (three in the illustrated example) underground tanks T and a mixer 6mx for mixing groundwater from each tank. The underground tanks T are individually buried at a plurality of depths underground so as to obtain groundwater having temperatures t1, t2, and t3 different from each other. The mixer 6mx mixes groundwater with different temperatures t1, t2, and t3 obtained from the plurality of underground tanks T to deliver constant temperature groundwater adjusted to a predetermined temperature t0 regardless of the season. do. Even if the temperature of each groundwater fluctuates seasonally, it is possible to maintain a predetermined temperature by changing the mixing ratio in consideration of the temperature difference between the groundwaters.

Next, an energy utilization device 6A according to another embodiment of the present invention will be described with reference to FIG. The energy utilization device 6A is a device that utilizes constant-temperature underground energy. and a fan 66 that blows in air. The air that is sent to the hollow pipe 65 by the fan 66 and is cooled or heated by exchanging heat by releasing or absorbing heat at a predetermined depth underground can be used for air conditioning on the ground surface side. In order to facilitate heat exchange underground, the pipes may be provided with multiple fins or branched pipes to increase the surface area of the pipes at the heat exchange location.
Although it varies depending on the latitude, in Honshu, Japan, the soil temperature is maintained at about 15 degrees Celsius throughout the year at a depth of 5 meters. It is also possible to use a pipe or the like to move the heat, which is cold in the summer and warm in the winter, to a target location on the ground or the like, and then flow it through a structure constructed by connecting PET bottles, for example. If a space is provided in the space around the route along which the liquid or the like flows, the temperature of the air or the like there will be close to the temperature of the liquid or the like flowing around. The path of the space can be elongated so that heat exchange is as efficient as possible. (Figure R1)

Next, with reference to FIG. 19, an energy utilization device 6B according to still another embodiment of the present invention will be described. The energy utilization device 6B is a device that utilizes sunlight energy, and is a structure 60 formed by forming a hollow portion 61 inside by communicating and connecting a plurality of hollow tubes 6a made of a light transmissive material. Then, air is blown from one opening to the other opening of the hollow portion 61 formed by the pipe 62 and the circulation pump P3 for circulating water or hot water in the hollow tube 6a of the structure and the structure 60. A fan 63 is provided.

The structure 60 is installed in a place where it can receive sunlight, and the seawater 9 is passed through the bottom surface side of the hollow portion 61 in plan view, and the wind by the fan 63 is passed over the upper surface of the seawater 9 . Thereby, evaporation of the seawater 9 is accelerated, and salt can be obtained.

Next, with reference to FIG. 20, an energy utilization device 6C according to still another embodiment of the present invention will be described. The energy utilization device 6C is an energy utilization device 6C that uses compressed air for air conditioning, and includes an air compression compressor 68 powered by natural energy and an underground tank that stores the air compressed by the air compression compressor 68. and Ta. In this example, since sunlight is used as natural energy, a solar panel 64 is provided.

Compressed air stored in the tank Ta and temperature-controlled to a predetermined temperature can be sent to the air-conditioned space 67 through a pipe for use.

Next, with reference to FIG. 21, an energy utilization device 7 according to still another embodiment of the present invention will be described. The energy utilization device 7 is an energy utilization device 7 that generates electricity by using natural energy, and is simulated as a rias type coast installed on the coast where seawater rises to a position higher than the sea surface by the force of sea waves. a wall structure 71, a tank 72 that introduces and stores seawater 70 that rises up through the wall structure 71, a hydroelectric generator 74 that generates electricity using the potential energy of the seawater 70 stored in the tank 72, It has

The course of the seawater waves hitting the coast is narrowed by the wall structure 71 formed like a funnel, and the seawater 70 runs up the slope, and the seawater 70 flows into the tank 72 . When the seawater in the tank 72 begins to flow toward the hydroelectric generator 74 by means of the pipes 73a and 73b and the pump 73, the downstream flow is continued without the pump.

By providing an air compression compressor in place of the hydroelectric generator 74, instead of generating electricity, the potential energy can be used to generate compressed air and store it in a tank, so that the potential energy can be stored as pressure energy.

A substance such as dry ice that evaporates due to a change in pressure is placed in an airtight container, and a fluid liquid is put in it, and the gas that comes from the difference in specific gravity moves upward if it is on the ground. Energy is used to move feathers or the like set in an airtight container or the like. Feathers convert energy into rotational energy, and the energy is taken out through gears and shafts and used as power. It uses a change in the state of matter. Vaporized dry ice (which is just one example and can be of any similar nature) is re-introduced through a closed tank or the like into another similar tank. The internal pressure can also be adjusted by providing an opening/closing valve or the like in a part of the closed tank. Multiple sealed tanks can be connected. However, if the connection is too high, dry ice, etc. may not be vaporized because the pressure does not decrease. Vaporized dry ice or the like is finally recovered from the end of the tank through a pipe or the like. Such substances are pressurized again and sent to the first tank as a substance in the form of dry ice, vaporized state, or liquid state. In this process, the solid state has a smaller volume per unit mass, so it is easier to feed into a closed tank. A pressurization device is installed to turn the dry ice (vaporized) into a solid or liquid again. This is hermetically sealed so that work can be done without releasing gas such as dry ice to the outside. Therefore, the dry ice cannot escape to the outside (into the atmosphere, etc.). By connecting such devices and assembling such devices, energy can be obtained. In order to send dry ice etc. in solid or liquid form, it is easy to understand the image of sending dry ice etc. like a bicycle air pump. This is just an example. If you want to inflate a bicycle with an air pump, connect the tire to the air pump, fill the air pump with dry ice (solid, liquid, gas) in a sealed state, then send it into the tire and out of the tire. Another image of recirculating dry ice (gas, etc.) to the air pump. In practice, when the dry ice (gas, etc.) to be recirculated is returned to the air pump, it is temporarily pooled in a sealed state with a pressurization device, etc., and then gradually introduced into the air pump (the part corresponding to the closed container) while adjusting the pressure. Return. A sensor or the like for measuring the pressure at that time can be installed as necessary. If dry ice, etc., is in a solid or liquid state under pressure, it will not spread suddenly even if it is exposed to the atmosphere. .


When a light object (gas, etc.) and a heavier object (liquid, etc.) are placed in a certain place, movement of the object in a specific direction occurs due to the difference in mass.
It is also possible to extract that energy and use it as an energy source to operate another machine or the like.
Take the light stuff (eg carbon dioxide as gas) and the heavy stuff (eg water) and place them in a closed tank. Water is put in the tank in advance through a pipe from the outside. The pipe has an opening and closing function, and when the faucet is closed, the water in the tank can be prevented from leaking to the outside. Dry ice (solid carbon dioxide) is then transferred from another pipe into the closed tank from a space separate from the tank that is designed to be hermetically sealed without coming into contact with the outside air. Inside the tank, the pressure drops and vaporizes, where the gas moves to the upper part of the tank.
The gas moved to the top moves through a pipe to a second tank of similar construction. Then move inside the tank again and go to the top. There is a pipe in the top of the tank, etc., and carbon dioxide is guided to a certain place through it. Then, by connecting the pipe to a compression machine, the sent carbon dioxide is turned into a solid or liquid again. So you can also feed from the very first tank filler as you like.
Of course, it is also possible to install an opening and closing port for measuring and adjusting the pressure inside the tank and various monitoring devices and monitor it with a personal computer or the like.
If three closed tanks are prepared, solid carbon dioxide (injected as dry ice, liquid carbon dioxide, or gaseous state) is injected into the inlet of the first tank. can be selected), and the vaporized carbon dioxide can be recovered from the third tank and returned to the injection port of the first tank by repressurizing it.
As a point, for example, when dry ice (anything with similar properties) evaporates and moves in water, it is generated when it is received and extracted as energy, and the energy obtained is used. The energy that converts carbon dioxide from a gas into a solid or even if it is not solidified but puts a certain pressure on it and returns it to the tank does not include the energy that comes from gravity, so there is a difference for that amount.
A similar effect occurs even when gravity is artificially generated.


Various substances appearing in this document do not particularly affect the operating principle as long as similar effects can be obtained in terms of properties.

The present invention is not limited to the above configuration, and various modifications are possible. For example, it is possible to adopt a configuration in which the configurations of the respective embodiments described above are combined with each other.

The following is a citation from the basic application on which the priority is based.
It replaces the wheels of a train with a sled, etc., by carrying an object, such as a thing. and
Instead of a track, a width that allows a sled or the like to pass is provided, and water or the like is placed in that portion to cool and ice using electricity or the like to reduce friction and reduce energy loss as much as possible. It is used for acceleration and deceleration by contacting wheels, etc. between rails. In order to reduce the resistance when the vehicle speeds up, the wheels can be retracted into the vehicle body using electricity so as not to come into contact with the ground. The sledding part slides on the frozen road surface, etc., but has a rail structure with a protruding shape so as not to derail sideways. The sled may be fitted with tires or the like that come into contact with the side of the rail in order to reduce the impact on the curve.
Design the route so that it descends little by little and use gravity energy as acceleration force. Although it is possible to design a route with no difference in elevation, the cost of construction is calculated and even if it is an uphill route, friction is reduced by sleds, so inertial energy can be used as an energy source to move objects to high ground. be able to. Even on a slight downward slope, the resistance of the contact portion of the vehicle body, etc., is extremely low, so the vehicle, etc., can be rapidly accelerated even if only a small amount of energy is given from the contacting tires, etc. The same thing can be said even when it is not in contact with the ground such as a linear motor car. In addition, air resistance is prevented by making the inside of the tunnel, such as a tube surrounding the vehicle, as vacuum as possible. When you arrive at a station, open the hatch attached to the vehicle and provide a passageway to the outside, or install a door that opens and closes up and down, such as a partition hatch in the tunnel, and partially inflate the section such as the station. Therefore, a method for allowing passengers to enter and exit the vehicle is conceivable. A hollow hole is provided at the end of the lane so that rainwater, etc., that enters the structure on the lane, which is cooled and kept at a temperature with low resistance, can quickly escape. It should be constructed on the passageway so that rainwater, etc., can flow out. A roof is attached to the upper part to prevent rainwater, etc., and to have a structure that can shield everything around it. Areas where juice is originally contained in a PET bottle, such as a structure that is covered with a transparent material that allows light to pass through when shielding, or a structure that connects a PET bottle (or a dedicated one). Water is pumped from an underground tank installed in a place where the temperature is maintained at about 15 degrees throughout the year, about 5 meters below the ground. If the liquid is made to flow in and circulate using the , the space through which a car or the like passes will be close to 15°C, and if the flow rate of the liquid is adjusted, the cost of the air conditioner 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 there, or you can increase the confidentiality of the solar panel by making it waterproof so that the panel is filled with shallow water. 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 will increase the amount of power generated by installing a similar device on the solar panels 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.
In the underground tank, install a pipe about 5 cm in length and width (the approximate scale can be freely changed) for water, etc., which is heated to about 15°C by the ground temperature, and set up a passage around it to allow water to flow. The water in the above-mentioned underground tank is poured into the structure, and a fan or the like is attached to the end of the pipe to blow air. 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. Although this device can be installed indoors, it can also be installed at a constant temperature of about 5 meters underground. 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.
PET bottles or the like are connected to form a certain rectangular space, and PET bottles or the like are connected to make a structure or the like in the space. Then, as described above, it is made possible to pour liquids, etc., and things to be dried or moistened are put in the places where air was sent in the above. At this time, it is possible to pack tightly so as not to delay the air, etc., or it is possible to have a gap to some extent so that warm air, etc. can flow through it. For example, when evaporating sea water to extract salt, etc.
A space containing seawater, a space for hot air to flow above it, a board-like passage (which may be slightly inclined) made using a PET bottle, etc. is made under it, and a space for water to flow is made above it. It is also possible to enclose the outer periphery with a plastic bottle or the like and pressurize the entire inside with a compressor or the like. Evaporation of sea water is accelerated by the power of sunlight or by running hot water, and further accelerated by sending warm air or the like. When the humidity rises, the pressure inside the chamber pressurized by the compressor is returned to normal pressure, and cold water from an underground tank or the like flows through the pipe. When the humidity drops and the temperature in the vicinity cools down, water droplets that come out of the air all at once flow down the installed plate and move to the lowest position. By adopting such a structure, the speed at which seawater etc. evaporate is increased. If necessary, the outer periphery constructed with a PET bottle or the like is covered with a transparent film or plastic so that it can withstand pressure. A filter or the like for countermeasures against salt damage can be installed at a place such as a fan or the like for taking in or discharging outside air when the air inside the apparatus is discharged to the outside. Salt damage is caused by fine particles generated when waves break and carried by the wind. Place a hatch in a ventilated area so that it can withstand pressurization inside. By making this device out of a transparent material such as a PET bottle, the power of sunlight can be transmitted efficiently. A black material (a black sheet, etc.) is spread on the bottom of the device or the like to further efficiently utilize energy such as sunlight. This device can be installed in a space such as a solar panel where sunlight is required to obtain salt while preventing the temperature of the solar panel from rising. For the lower part, a pedestal or the like is made from a transparent material such as a plastic bottle according to the installation angle of the solar panel, and the angle of the device is adjusted.

To prevent the fish or the like from colliding with a wall or the like of the space in which the fish or the like is filled with water or the like by accelerating it in a nearly vertical direction by making the space have a loop-like structure when breeding the fish or the like. Create a space using a PET bottle, etc., and put water, etc. in it. The upper part may also be covered with a material such as a plastic bottle. Then, a pump is used to suck out the water or the like in it and apply pressure to blow it out, or send compressed air or the like in one direction to give rotation to the water or the like in a certain direction. The width of the loop-shaped structure where the fish is swimming should be about 50 to 100 cm (just a guideline).

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 with a constant soil temperature about 5 meters underground, or the water is blown into the water in the tank installed at 5 meters underground to raise the temperature to 15 ° C. approaching. 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 power to turn the turbine of hydroelectric power generation using gravity to generate electricity and to turn the 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. Compressed air (gas), dry ice, etc. and Omasa Gas (Oomasa Gas, HHO, GAS, etc.) are set at a deep point where water pressure is applied to a vertically long tank filled with liquid water, etc. Then add heat from electricity and chemical reactions, etc., and ignite Taisei gas (a mixture of hydrogen and oxygen is also possible), and the heat causes dry ice to expand, and compressed air is also generated. Similarly, by generating upward kinetic energy against water pressure (gravity) and allocating it to the water wheel, etc., the water wheel is turned. 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. The wing part opens and closes, but it is not closed completely, but it is slightly open so that air enters and spreads out. . 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 transmits the energy of the water wheel, etc., can be stretched horizontally as it is to increase airtightness so that water does not flow out of the water tank. It is also possible to change the direction and transmit the rotation to the upwardly extending shaft, and when the upper part of the tank reaches a height where it can contact the outside air, the energy can be transmitted to the gear or the like to be used as a power source. 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 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. A motor or the like for contacting the road surface or the like to transmit power may be incorporated in the truck or the like, or the power of the engine or motor of the automobile may be incorporated into the truck or the like while the automobile or the like is on the truck or the like. There are various methods, such as connecting the vehicle to a power unit such as a truck, or providing the truck with a device for transmitting the rotational force of the wheels of an automobile to the road surface, etc., when necessary. Also, even if you don't use an existing vehicle, if you are a four-wheeled vehicle, you can attach two additional wheels to the center of the vehicle body in advance so that part does not contact the ground during normal driving. By adopting a structure that makes contact with the ground if the air pressure is changed, the four wheels can be used to ride on a cart or the like, and the remaining two wheels, etc. (rubber or iron wheels, etc.) A method of contacting parts, etc., as necessary, or giving a truck a function of a hydraulic jack so that after an automobile or the like rides on the truck, the vehicle on the truck can be raised and lowered by hydraulic pressure, etc. It is possible to change the height so as not to contact the ground or the like. A motor or the like that obtains the driving force during running can be installed on this bogie, and a part of the bogie can be powered to pull or push and connect with other bogies like a train, or a powered bogie can be used. It is also possible to reduce the installation cost by appropriately arranging them. It is also possible to monitor the movements of the carts (units) with sensors and install cameras, etc. around the cooling lanes so that the carts can be automatically controlled unattended. Solar panels, etc. are installed near the space where these cooling lanes, etc. are installed, and the power from there is led from the metal parts of the lanes, etc. to the motors of the trucks, etc. Alternatively, contactless power transmission or the like may be used. By attaching a device to the side of the tire of an automobile, etc., the rotation of the tire can be prevented from being installed on the road surface installed on the truck or the upper part of the cooling rail, etc., where there is no ice, etc. It can also be a wheel of a car) and convert the energy of the car's engine, motor, etc. into running energy, etc., or rotate the engine etc. on the spot without changing the position of the car passing during the vehicle inspection to turn the tires. In some cases, there are multiple methods of attaching a roller part device, etc., to a truck, etc., and connecting it to a wheel, etc. with a mechanism that can change the rotational energy of the roller part so that the wheels of the truck do not contact the road surface. exist. In order to prevent freezing of the road surface that transmits the driving energy, water, etc., which is about 15 degrees Celsius due to geothermal heat accumulated 5 meters underground, is led to the vicinity of the road surface through pipes to prevent this and prevent water from freezing. It is collected in the tank part again by the motor pump and it is made possible to circulate. For emergency stop, etc., piles, etc. are installed at the rear part of the truck, etc., and if necessary, they can be lowered to the road surface, etc. to quickly stop the truck. Even in the case of obtaining energy in the direction of travel with technology such as linear motor cars, the magnetic field part of the railway track of the linear motor car is partly cooled and covered with ice etc. If you attach something that can reduce resistance at times, it is efficient because you can save the power to float vertically by electric power and concentrate most of the electric energy etc. on the energy in the direction of movement. By adjusting the direction of the levitation energy and the energy that accelerates in the traveling direction of the maglev train, the levitation energy is minimized in order to save electrical energy as much as possible. Adjust the balance to be efficient. Even if it does not actually float, it can run with reduced resistance because it warps and the like. A linear motor car may be equipped with a sled and the above power wheels. To eliminate loss due to wind and reduce noise by making the inside of a tunnel close to a vacuum state. You may install the energy transmission part which uses magnetic force in a linear motor car, and the device of a sled separately. In order to cool the part where the sled part is in contact, the heat absorption plate of the freezer is elongated and installed there, or a special heat absorption device is used, or a large compressor or the like and underground water at a constant temperature are used. Efficient temperature control is considered. Exhaust heat from compressors, etc., may be used secondary to run the Stirling engine, etc. By installing the compressor in a space where water, etc. drawn from 5 meters underground is circulated using pipes, etc., it can be used as a countermeasure for exhaust heat. 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 centimeters below the road surface, etc., it prevents freezing and excessive heat generation. 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. Water is pumped using a motor, etc., installed in the ground of a high mountain, or a large underground tank linked to a large-scale facility such as a water purification plant. can be used for pumping, etc. Cooling rails (lanes) or the like are covered with a closed structure or the like, and the underground tank water at about 15°C is circulated there to reduce the cost of cooling or the like. Cooling rails, lanes, etc. are closed by electric motors, especially in the summer, so that heat is not exchanged as much as possible. leave it to When freezing a liquid such as water in a cooling lane, etc., compressed air (carbon dioxide) or gas can be sent through a pipe or the like passed through the inside of the liquid or ice to cool it with the heat of vaporization. . It is also possible to cool the cooling rail (of course, it is also possible to make the substance on the running rail ice) by circulating a cold substance (liquid, etc.) through a path such as a pipe.
Liquids used for heat insulation and cooling can be circulated between tanks installed underground. Energy costs for controlling the temperature of the cooling lane can be saved by flowing liquids etc. through the upper cover portion as well. It is also possible to circulate a liquid or the like at an appropriate temperature around the cooling lane.

It replaces the wheels of a train with a sled, etc., by carrying an object, such as a thing. and
Instead of a track, a width that allows a sled or the like to pass is provided, and water or the like is placed in that portion to cool and ice using electricity or the like to reduce friction and reduce energy loss as much as possible. It is used for acceleration and deceleration by contacting wheels, etc. between rails. In order to reduce the resistance when the vehicle speeds up, the wheels can be retracted into the vehicle body using electricity so as not to come into contact with the ground. The sledding part has a rail structure with a protruding shape so that it slides on the frozen road surface, etc., but does not derail sideways. The sled may be fitted with tires or the like that come into contact with the side of the rail in order to reduce the impact on the curve.
Design the route so that it descends little by little and use gravity energy as acceleration force. Although it is possible to design a route with no difference in height, it is possible to calculate the cost of construction and reduce friction with sleds even if it is an uphill route, so inertial energy can be used as an energy source to move objects to high ground. be able to. Even on a slight downward slope, the resistance of the contact portion of the vehicle body, etc., is extremely low, so the vehicle, etc., can be accelerated steadily even if only a small amount of energy is given from the contacting tires, etc. The same thing can be said even when it is not in contact with the ground such as a linear motor car. In addition, air resistance is prevented by making the inside of the tunnel, such as a tube surrounding the vehicle, as vacuum as possible. When you arrive at a stop, open the hatch attached to the vehicle and provide a passageway to the outside, or install a door that opens and closes, such as a partition hatch in the tunnel, and partially inflate the section such as the stop. Therefore, a method for allowing passengers to enter and exit the vehicle is conceivable.
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. A motor or the like for contacting the road surface or the like to transmit power may be incorporated in the truck or the like, or the power of the engine or motor of the automobile may be incorporated into the truck or the like while the automobile or the like is on the truck or the like. There are various methods, such as connecting the vehicle to a power unit such as a truck, or providing the truck with a device for transmitting the rotational force of the wheels of an automobile to the road surface, etc., when necessary. Also, even if you don't use an existing vehicle, if you have a four-wheeled vehicle, you can attach about two wheels to the center of the vehicle body in advance, and that part will not contact the ground during normal driving. By adopting a contact structure, the four wheels can be used to ride on a truck, etc., and the remaining two wheels, etc. can be brought into contact with the ground using hydraulic pressure, etc., or the truck can be equipped with a hydraulic jack function. After the car or the like runs on the truck, the car on the truck can be raised and lowered by hydraulic pressure or the like to change the height of the car's tires or the like so as to prevent contact with the ground or the like. By attaching a device to the side of the tire of an automobile, etc., the rotation of the tire can be prevented from being installed on the road surface installed on a trolley, etc. Connected to the tire, etc., the energy of the automobile engine, motor, etc. There is a method of converting the energy into running energy, etc., and a device such as a roller part that rotates according to the rotation of the tires by rotating the engine etc. on the spot without changing the position of the vehicle passing during the vehicle inspection is attached to the truck. There are multiple methods of connecting the rotational energy of the roller portion to wheels with a mechanism that can be changed so that the wheels of the trolley do not contact the road surface. In order to prevent freezing of the road surface that transmits the driving energy, water, etc., which is about 15 degrees Celsius due to geothermal heat accumulated 5 meters underground, is led to the vicinity of the road surface through pipes to prevent this and prevent water from freezing. It is collected in the tank part again by the motor pump and it is made possible to circulate. For emergency stop, etc., piles, etc. are installed at the rear part of the truck, etc., and if necessary, they can be lowered to the road surface, etc. to quickly stop the truck. Even in the case of obtaining lateral energy with technology such as linear motor cars, it is enough to cool a part of the magnetic field part of the linear motor car track and cover it with ice etc. and attach a sled. This is efficient because it saves the vertical floating force by the electric force and concentrates most of the electric energy on the horizontal energy. To save electric energy and the like as much as possible by adjusting the direction of magnetic force energy applied to levitation energy and energy to accelerate in the traveling direction of a linear motor car. A linear motor car may be equipped with a sled and the above power wheels. To eliminate loss due to wind and reduce noise by making the inside of a tunnel close to a vacuum state. You may install the energy transmission part which uses magnetic force in a linear motor car, and the device of a sled separately. In order to cool the part where the sled part is in contact, the heat absorption plate of the freezer is elongated and installed there, or a special heat absorption device is used, or a large compressor or the like and underground water at a constant temperature are used. Efficient temperature control is considered. Exhaust heat from compressors, etc., may be used secondarily to power Stirling engines, etc. By installing the compressor in a space where water, etc. drawn from 5 meters underground is circulated using pipes, etc., it can be used as a countermeasure for exhaust heat. 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 is circulated below the road or passage using a pipe or the like. This prevents the road surface from freezing or generating excessive heat. It is also possible to increase the cooling efficiency in the summer by allowing circulating water or the like to flow through a pipe or the like also around the sled portion. 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. Water is pumped using a motor, etc., installed in the ground of a high mountain, or a large underground tank linked to a large-scale facility such as a water purification plant. can be used for pumping, etc.


To easily and conveniently move an electric bicycle or the like as a means of transportation to a storage place or the like at a destination by providing a place or the like where the electric bicycle or the like can be parked and stored near a station or the like. For example, an electric bicycle or the like can be unlocked mechanically in a parking storage area. Lock the wheels, etc. of the electric bicycle, etc., and leave it in a parking space, etc., and the person who wants to use the electric bicycle, etc., launches an application such as a smartphone that has been registered in advance, agrees to the terms of use, and starts using the bicycle, etc. When clicked, the interlocking locking device is automatically unlocked and can be used. An electric bicycle or the like is equipped with a device for wirelessly notifying the location, so that the administrator of the electric bicycle or the like can grasp the location when necessary. The smartphone used by the user of the electric bicycle, etc., and the device that can ascertain the location of the bicycle, etc., are linked wirelessly during use, and when the device is separated from a certain distance, the device attached to the bicycle can be used. Equipped with an alarm function, etc. that notifies users and administrators by e-mail, etc. Also, the position of a bicycle or the like can be automatically recorded and saved using the device. In the event that the distance between the bicycle, etc. and the smartphone, etc. of the user, etc., occurs, safety will be ensured by, for example, stopping the current in the motor if the bicycle is an electric bicycle. In the case of a slightly simplified device, when unlocking a bicycle that is connected to a parking space, the identity is confirmed by checking the password set by the user in advance in the phone, the caller number, name, etc., and Internet etc. , the administrator remotely activates the unlocking device, or communicates with the user a password that is valid for a certain period of time using a mobile phone, etc. There is also a method to unlock by pressing and entering. When locking the parking storage area, the identity is verified by entering a password or the like for unlocking. Personal identification methods using fingerprint authentication, face authentication, eyeball authentication, etc. from software such as dedicated smartphones, etc., or using videophone functions such as smartphones, etc. to confirm the identity of the person by face, speaking style, etc., and administrators, etc. can remotely lock There is also a method to cancel the . If the lock device for the parking space and the key for the electric bicycle are separate, it is possible that the lock for the parking space will be locked and the key for the bicycle itself will remain as it is. set it to off by default. Use a computer to set a password using RSA encryption technology, etc., send it to the lock device, transmit the unlock code by mobile phone, etc., and create a program that automatically recognizes the password linked to the time of day etc. It is installed independently, and the administrator informs the user of the password, which changes randomly every time, via mobile phone or e-mail. The terms and conditions are established so that the user is responsible for the management and use of the bicycle, etc., from the time the application for use is made until the bicycle is put into a locked state and properly returned to a storage location. When the lock device is unlocked or locked, it notifies the administrator and the user of the signal through a server or the like. A camera with a motion detection sensor and a light communication device are installed in the parking storage area to record and notify the manager. In the case of an electric bicycle, etc., the key that locks the tire and the energization of the electrical system are linked. It is possible to select whether a plurality of locking devices, a locking device for the parking storage area and a locking device for the bicycle body, are installed or all of them are mounted on the bicycle or the like. To enable a manager or the like to safely unlock or lock a parking place while confirming the state of a parking storage place by a videophone function, a live camera, etc., when all are installed on the bicycle body. In the case of multiple bicycles, when the lock device of the parking storage area is released when the lock is released, the key of the main body of the bicycle, etc., battery, etc. can be taken out, and when locking, return the key of the main body of the bicycle, etc. It is possible to mechanically confirm that the battery of the electric bicycle has been charged, etc. If the administrator confirms with a signal, etc., the locking device of the parking storage area can be locked. If the key battery, etc. of the main body of the bicycle or the like cannot be removed when locked, the safety will be enhanced. Even in the case where the devices are collectively installed in the main body of an electric bicycle, etc., the state of the electric bicycle, the key, the battery, etc. can be similarly checked and managed remotely by a manager or the like by attaching a communication function. By providing a card key using magnetism and allowing a user to authenticate it with a machine or the like installed in a parking storage place, it can be used as a means of personal identification, and can also be used in combination with the above means. The fee can be automatically withdrawn from the bank by linking it with a card key or smartphone. If you attach a rainproof roof or the like to an electric bicycle or the like, you can comfortably use it even in the rain. To provide a space through which a person can pass by connecting PET bottle-like materials or the like, and to adjust the internal temperature when moving through the space. Connect substances such as PET bottles, prepare a liquid (such as water) that has little temperature change throughout the year, and pump it inside with an electric pump, etc. It can be used for internal air conditioning when the outside temperature is high or low. The groundwater temperature varies throughout the year depending on the depth, but it is also utilized to the maximum extent for air conditioning. Assuming that the natural outside temperature is about 5°C, if the structure is sufficiently shielded, the internal air temperature will approximate to 15°C as the water flows, so I would like to keep it at about 22°C. At times, the air temperature can be maintained with about 7°C more energy, which is more efficient than raising it from 5°C. The same is true when lowering. If there is hot water such as a hot spring, it will be more efficient when raising the temperature of air conditioning or the like. A special material or the like can be used for a PET bottle-shaped object or the like if it satisfies the intended use. The installation location can be selected depending on the application, such as above ground, underground and semi-underground. A plurality of underground tanks and the like can be installed depending on the temperature and the like. A plastic bottle or the like is connected to flow water. For that purpose, it is fixed with adhesive tape or the like and the inside is hollowed out. The purpose of the structure is to construct a barrier between the liquid and the outside air to maintain temperature. Objects such as PET bottle-like plastics can be made transparent, so that light can be blocked but an open space can be created. If the size of the space is increased by changing the size of the space with the same structure, it is possible to put hot water inside or create other leisure facilities, etc., to build a space that is integrated with nature. Spacious hot springs can be constructed without worrying about rain or wind. The temperature inside the space and the temperature of liquids such as flowing water are controlled by sensors, etc., and the flow rate of an electric pump, etc. is automatically changed to keep the energy cost just right. When the apparatus is installed in a mountainous area, it is possible to effectively utilize the combustion heat of wood or the like by using nearby wood or the like. Water stored in an underground tank or the like is poured into a structure made of a PET bottle or the like and returned to the underground tank. Use an electric pump or the like to move water, etc. Water, etc., is reused by circulating in underground tanks and structures such as PET bottles. You can put fish in the above leisure facilities, etc. and enjoy fishing. To provide a space through which a person can pass by connecting PET bottle-like materials or the like, and to adjust the internal temperature when moving through the space. Connect substances such as PET bottles, prepare a liquid (such as water) that has little temperature change throughout the year, and pump it inside with an electric pump, etc. It can be used for internal air conditioning when the outside temperature is high or low. The groundwater temperature varies throughout the year depending on the depth, but it is also utilized to the maximum extent for air conditioning. Assuming that the natural outside temperature is about 5°C, if the structure is sufficiently shielded, the internal air temperature will approximate to 15°C as the water flows, so I would like to keep it at about 22°C. At times, the air temperature can be maintained with about 7°C more energy, which is more efficient than raising it from 5°C. The same is true when lowering. If there is hot water such as a hot spring, it will be more efficient when raising the temperature of air conditioning or the like. A special material or the like can be used for a PET bottle-shaped object or the like if it satisfies the intended use. The installation location can be selected depending on the application, such as above ground, underground and semi-underground. A plurality of underground tanks and the like can be installed depending on the temperature and the like. A plastic bottle or the like is connected to flow water. For that purpose, it is fixed with adhesive tape or the like and the inside is hollowed out. The purpose of the structure is to construct a barrier between the liquid and the outside air to maintain temperature. When fish are reared in a space in which the temperature is controlled by a structure made using such a plastic bottle, etc., liquid is further put into the space, and when the speed of the fish is fast, the shape should be streamlined as much as possible and the circle should be large. Equivalent to drawing If the width in the moving direction is set to 50 centimeters according to the size of the fish, etc., it is safe because it does not hit from the front. In addition, by providing a height difference in such a structure and moving the liquid, etc. from a low position to a high point with an electric pump, etc., and generating a water flow in a certain direction inside the space containing the liquid, etc. that is in contact with the fish, etc. to prevent It is also possible to stop the flow of water when necessary. Plants, etc. are grown inside the structure by flowing and circulating liquids, such as water, etc., using underground heat, etc., in a space constructed using substances such as PET bottles, etc. is installed and grown and moved to the workshop where the plants are cared for, etc., in a state where the outside world and air circulation are limited and controlled using rails, wheels, etc. to prevent pollen crossbreeding and comply with the Seed and Seedling Law. do. We constructed a space cut off from the outside world using plastic bottles, etc., and connected it with a hatch to a space where plants, etc. were raised, and confirmed that people could enter there and create a clean space. After that, the connecting hatch is opened and the plants and the like in the internal space are taken care of directly by humans or mechanically by using a remote camera or the like and a magic hand or the like. It is possible to remotely check the plants, etc., brought to the workshop using rails, etc., using a camera, etc., and to automatically perform work such as thinning out the plants, etc., by means of installed machines through AI learning. . Liquids, etc. that circulate in a space constructed with substances such as PET bottles and use the temperature of liquids in underground tanks to heat and cool the space, and to further cool and heat the interior of the space. Of course, it is possible to artificially heat (using equipment such as an oil boiler) and cool (equipment such as a refrigerator with liquid nitrogen), but it is also possible to warm using the heat of the sun and build a solar heat storage water heater with PET bottles etc. It is possible to use an object that has been cleaned, and it also saves utility costs. The efficiency of heat retention can be improved by concentrating sunlight or the like around an object made of a plastic bottle or the like, protecting the surroundings with airtight material such as aluminum, and inserting a heat insulating material. A structure constructed using materials such as PET bottles can be provided with an appropriate amount of space inside, and plants can be put in and grown there. If the water is carried by a pipe connected from an underground tank, it will convey the underground temperature to the inside of the space. A PET bottle or the like isolates and shields the space between the temperature medium such as water and the space. In the case where liquids using underground temperature are not flowed into plastic bottles, etc., the interior of the space can be artificially controlled by air conditioners, boilers, etc. Energy costs can be reduced when the temperature is adjusted to When a space is provided inside an object made of plastic bottles, etc., the lower space is placed inside the upper space when there are several levels of space, and the sunlight, etc. is sufficiently received by the object. If it is not possible to reach it, it can be a method of transmitting sunlight, etc. that has been concentrated in an appropriate position to the necessary place with an optical fiber, or a different place such as the side of a structure made of PET bottles using a mirror or the like. However, by placing a reflective device (mirror, etc.) in a place where light is likely to hit, the light is refracted and led from a place where light is likely to hit to a place where it is difficult to hit. Objects such as PET bottle-like plastics can be made transparent, so that light can be blocked but an open space can be created. If you change the size of the space by changing the size of the space with the same structure etc.
You can build a space that integrates with nature by putting in etc. and creating other leisure facilities. Spacious hot springs can be constructed without worrying about rain or wind. The temperature inside the space and the temperature of liquids such as flowing water are controlled by sensors, etc., and the flow rate of an electric pump, etc. is automatically changed to keep the energy cost just right. When the apparatus is installed in a mountainous area, it is possible to effectively utilize the combustion heat of wood or the like by using nearby wood or the like. In this way, we produce market-competitive agricultural products, etc. by reducing costs as much as possible, and based on them, we give them to poor young people free of charge, or provide certain services in return. Issue a certificate like a coupon. We will be able to significantly reduce the cost related to production and services, and we will build a concept like a coupon based on it as a patent right. Coupons can also be regarded as conceptual entities. Assuming that person A is the owner of an agricultural production site, etc., and also owns restaurants and recreational facilities, etc., it is like a community that manages usage fees with such coupons, etc., and can use them as usage fees for daily service industries, etc. Recruit traders who exercise the group and participate. Negotiate so that this coupon can be used for restaurants and recreational facilities that are managed by people other than Mr. A. Restaurants and recreational facilities can cook and sell agricultural produce for a fee. Recreational facilities, etc. can be used even if the labor cost is considerably high, if the content of providing such a contracted service is included in this coupon. In addition to recreational facilities, we will strive to make it possible to use this coupon if it is usually treated with money such as yen as a consideration such as service industry. If Mr. A is a business owner and receives compensation for services in yen as usual, income will be generated, and the government will collect it and distribute it to the poor as welfare. ) By covering that role with Mr. A and other people participating in such a system, we can realize the basics of human beings, such as the meaning of receiving services, and reduce the administrative taxes associated with such work. can. Securing basic food for human life and making it possible to live on that basis. Assuming that Mr. A manages this system, farmers and service providers will join this system, but producers such as farmers will only be able to obtain money with relatively low relative value in the market. It is possible to get out of it, and the service provider can also feel the social significance of this coupon system. Build a stable society by constructing a system of income redistribution. In addition, since this coupon is based on arbitrary intentions, it is free to participate or not, so if Mr. A also wants to participate, he can freely choose whether or not to allow participation. etc. can also be determined. Mr. A can decide whether to allow the coupon to be exchanged for cash. It is also possible to make it so that it can only be exchanged through Mr. A. It is the free will of Mr. A whether or not Mr. A converts it into cash. It is also possible to decide to exchange coupons with different contents through Mr. A. Mr. A also has the right to exchange coupons and issue new coupons freely. A coupon is a concept. Coupons can be paper-based or electronic. By digitizing the data, encrypting it with PGP encryption, etc., and centrally managing the data in a database, Mr. A can grasp the connections between goods, coupons, and services. Mr. A freely decides whether or not to disclose this data to the outside. Since it consists of a relationship of trust, it prevents interference by a third party and ensures stability. When coupons are replaced with virtual currency, it is possible to predetermine the value of the currency, such as the amount of strawberries that can be eaten per coupon. It is also possible to stipulate in the contract that virtual currency exchange can only be done through Mr. A. In order to cool, heat, and maintain the temperature of the inside of an object such as a house, put water in a tank installed underground, etc., and let it flow over the roof of the house, etc. to cool, heat, maintain the temperature, etc. of the inside of the object, etc. do. The ground temperature of about 5 meters underground depends on the latitude, but in Honshu, Japan, it is maintained at around 15 degrees Celsius all year round. If it is from a high point, use water pressure to guide water to the roof etc. with a pipe etc. and let it flow moderately. The drained water is collected using rain gutters and put into the tank again. The inside of the tank or the like can be partitioned so that the returned water does not mix with the water in the tank until it cools to some extent. By adjusting the height of the threshold inside the tank, it is possible to adjust how much water will overflow next to it. A plurality of tanks may be prepared, and water returning may be stored in a different tank from the time when it left for a certain period of time, and may be installed so that when that tank is full, it flows into the original tank. If the capacity of the tank is large or the amount of water to be flowed is small, a partition may not be necessary. It is also possible to adjust the amount of water to flow by adjusting the output of the pump. Similarly, by running water on the road, it is possible to cool the road in the summer and to melt the snow and prevent freezing in the winter. The amount of water to be flowed is programmed in advance using temperature data such as weather forecasts, etc., and the output of water pumps etc. is controlled based on the actual temperature. If you are using mountain spring water, well water, etc. (Spring water source, well water, etc. has a stable water temperature throughout the year), you may not need a tank. A valve or the like is installed on the leading pipe, etc., and a device that can control the diameter of this is attached, or a faucet type is controlled by a computer, etc. to control the amount of opening and closing, etc., to control the amount of water, etc. The tank does not necessarily need to be installed underground, but if water whose temperature is controlled using the ground temperature is used, the temperature inside the house can be controlled with a smaller amount of water, etc., and costs such as electricity costs for pumps, etc., can be reduced. . Freezing can be prevented by making the tank long and thin and deepening it to a depth of 5 meters or more in the ground and increasing the volume of the deep point and circulating it with a motor or the like. It is also possible to install tanks underground and above ground and connect them to mix at the best ratio of temperature conditions. Since the temperature varies depending on the depth of the underground, efficiency is improved by installing a plurality of tanks at different depths of the ground and connecting and mixing the water with pipes or the like to the roof of the house or the like. When running water on the roof of a house or the like, calculate the temperature and heat of vaporization of the water and run the efficient amount of water. If water is led to the highest point such as the roof of a house or the like with a pipe, the water will flow down the roof or the like due to gravity. A pipe may be used to guide the water so that it flows not only to the roof of the house but also to the sides (for example, it is possible to direct water to the upper part of the window with a pipe so that the water flows along the side of the window). ). If the diameter of the roof is 5 meters, water will flow over the entire surface of the roof if the pipes on the roof are also about 5 meters. There are holes in the pipe at appropriate intervals (not necessarily 5 cm, such as 5 cm intervals), and the water comes out from there. Utilizing the fact that the ground temperature of about 5 meters underground is about 15°C in winter, it is circulated by pulling pipes under the flooring of houses, on the sides, ceilings, etc., and collected in tanks in the basement, etc. for reuse. do. If hot spring water is used, even higher temperature liquid (hot water) can be poured. In order to reduce the risk of lawsuits, etc. being filed against the patent by others, when the patent is obtained, the entire process necessary for the patent is described in detail from start to finish in the patent application. If a person can acquire a patent and uses the patent in a way that reproduces what is written in the patent, there is a possibility that a third party will file a lawsuit for infringement of the right and it will be necessary to pay damages. Minimize the risk of such incidents occurring. Describe all manufacturing processes, materials, construction methods, technical processes, etc. for patents. All phenomena, etc. in the procedures, materials, and processes when carrying out the patent are described in the claims as characters. There is a mechanism for anyone to file an objection, etc. against the patent anonymously for six months after the patent is approved. In that sense, they are the people involved who know the content earlier than the general public. People who can see the documents related to the patent at the Patent Office know the contents of the patent even before the patent is published, so if such a person investigates from a long time ago, it may be unilaterally advantageous. Communicate your opinion to the relevant organizations and ask them to change the rules. To provide a space through which a person can pass by connecting PET bottle-like materials or the like, and to adjust the internal temperature when moving through the space. Connect substances such as PET bottles, prepare a liquid (such as water) that has little temperature change throughout the year, and pump it inside with an electric pump, etc. It can be used for internal air conditioning when the outside temperature is high or low. The groundwater temperature varies throughout the year depending on the depth, but it is also utilized to the maximum extent for air conditioning. Assuming that the natural outside temperature is about 5°C, if the structure is sufficiently shielded, the internal air temperature will approximate to 15°C as the water flows, so I would like to keep it at about 22°C. At times, the air temperature can be maintained with about 7°C more energy, which is more efficient than raising it from 5°C. The same is true when lowering. If there is hot water such as a hot spring, it will be more efficient when raising the temperature of air conditioning or the like. A special material or the like can be used for a PET bottle-shaped object or the like if it satisfies the intended use. The installation location can be selected depending on the application, such as above ground, underground and semi-underground. A plurality of underground tanks and the like can be installed depending on the temperature and the like. A plastic bottle or the like is connected to flow water. For that purpose, it is fixed with adhesive tape or the like and the inside is hollowed out. The purpose of the structure is to construct a barrier between the liquid and the outside air to maintain temperature. When fish are reared in a space in which the temperature is controlled by a structure made using such a plastic bottle, etc., liquid is further put into the space, and when the speed of the fish is fast, the shape should be streamlined as much as possible and the circle should be large. Equivalent to drawing If the width in the moving direction is set to 50 centimeters according to the size of the fish, etc., it is safe because it does not hit from the front. In addition, by providing a height difference in such a structure and moving the liquid, etc. from a low position to a high point with an electric pump, etc., and generating a water flow in a certain direction inside the space containing the liquid, etc. that is in contact with the fish, etc. to prevent It is also possible to stop the flow of water when necessary. Plants, etc. are grown inside the structure by flowing and circulating liquids, such as water, etc., using underground heat, etc., in a space constructed using substances such as PET bottles, etc. is installed and grown and moved to the workshop where the plants are cared for, etc., in a state where the outside world and air circulation are limited and controlled using rails, wheels, etc. to prevent pollen crossbreeding and comply with the Seed and Seedling Law. do. We constructed a space cut off from the outside world using plastic bottles, etc., and connected it with a hatch to a space where plants, etc. were raised, and confirmed that people could enter there and create a clean space. After that, the connecting hatch is opened and the plants and the like in the internal space are taken care of directly by humans or mechanically by using a remote camera or the like and a magic hand or the like. It is possible to remotely check the plants, etc., brought to the workshop using rails, etc., using a camera, etc., and to automatically perform work such as thinning out the plants, etc., by means of installed machines through AI learning. . Liquids, etc. that circulate in a space constructed with substances such as PET bottles and use the temperature of liquids in underground tanks to heat and cool the space, and to further cool and heat the interior of the space. Of course, it is possible to artificially heat (using equipment such as an oil boiler) and cool (equipment such as a refrigerator with liquid nitrogen), but it is also possible to warm using the heat of the sun and build a solar heat storage water heater with PET bottles etc. It is possible to use an object that has been cleaned, and it also saves utility costs. The efficiency of heat retention can be improved by concentrating sunlight or the like around an object made of a plastic bottle or the like, protecting the surroundings with airtight material such as aluminum, and inserting a heat insulating material. Appropriate internal space for structures constructed using materials such as PET bottles
However, in the case of PET bottles, etc., liquid such as water is circulated inside and the water is transported from an underground tank by a pipe connected to the underground. It will transmit the temperature to the interior of the space. A PET bottle or the like isolates and shields the space between the temperature medium such as water and the space. In the case where liquids using underground temperature are not flowed into plastic bottles, etc., the interior of the space can be artificially controlled by air conditioners, boilers, etc. Energy costs can be reduced when the temperature is adjusted to When a space is provided inside an object made of plastic bottles, etc., the lower space is placed inside the upper space when there are several levels of space, and the sunlight, etc. is sufficiently received by the object. If it is not possible to reach it, it can be a method of transmitting sunlight, etc. that has been concentrated in an appropriate position to the necessary place with an optical fiber, or a different place such as the side of a structure made of PET bottles using a mirror or the like. However, by placing a reflective device (mirror, etc.) in a place where light is likely to hit, the light is refracted and led from a place where light is likely to hit to a place where it is difficult to hit. Objects such as PET bottle-like plastics can be made transparent, so that light can be blocked but an open space can be created. If the size of the space is increased by changing the size of the space with the same structure, it is possible to put hot water inside or create other leisure facilities, etc., to build a space that is integrated with nature. Spacious hot springs can be constructed without worrying about rain or wind. The temperature inside the space and the temperature of liquids such as flowing water are controlled by sensors, etc., and the flow rate of an electric pump, etc. is automatically changed to keep the energy cost just right. When installed in a mountainous area, using nearby wood to heat the water around the space, or to heat the inside of the space, effectively utilize the combustion heat of wood, etc., exhaust gas, etc. can. Plants are grown in structures constructed using materials such as PET bottles. Since people do not need to enter the space inside the structure, the plants placed on the pallet are pulled there using wheels and rails, or connected like a train by the power of a motor and brought into the space. The same is true when taking it out. About 5 meters below ground with a pipe outside the structure (It is also possible to change the depth according to the temperature and mix water etc. in tanks with different depths.It is also possible to heat the water itself using a heater) The water drawn from the tank by a motor pump or the like is sprinkled on the outside of the structure. If the outer structure of the structure is constructed so that there is a step, etc., liquid water, coolant, etc., will flow to the highest point of the structure, instead of dropping down at once, liquids with different temperatures will be maintained around it. can. The structure can thus be cooled or heated. It is also possible to install a pipe for water conveyance or the like at an appropriate place in the structure and to return the water or the like from there to an underground tank. If it is constructed with PET bottles, etc., it is possible to move the water, etc. inside the PET bottles, etc. that are connected vertically or horizontally as desired by making holes in the sides of the PET bottles, etc. when connecting the PET bottles, etc. can be done. Structures made of PET bottles, etc., can be filled with water and circulated between tanks, etc., using the power of a motor pump, etc. Antifreeze suitable for normal use (transparent is better for normal use, colored is also acceptable in some cases), water, glass, marbles, plastic resin, etc. that allows light to pass through (in some cases, colored is better You can also put a light shielding cover on the outside. is collected and refluxed to control the temperature inside the structure. By doing so, there are cases where the installation cost and strength of the structure can be improved. The structure such as a PET bottle is not limited to PET bottles, and it is of course possible to use special materials. It can be used to separate an internal space constructed with a PET bottle or the like from the outside air. To provide a space through which a person can pass by connecting PET bottle-like materials or the like, and to adjust the internal temperature when moving through the space. Connect substances such as PET bottles, prepare a liquid (such as water) that has little temperature change throughout the year, and pump it inside with an electric pump, etc. It can be used for internal air conditioning when the outside temperature is high or low. The groundwater temperature varies throughout the year depending on the depth, but it is also utilized to the maximum extent for air conditioning. Assuming that the natural outside temperature is about 5°C, if the structure is sufficiently shielded, the internal air temperature will approximate to 15°C as the water flows, so I would like to keep it at about 22°C. At times, the air temperature can be maintained with about 7°C more energy, which is more efficient than raising it from 5°C. The same is true when lowering. If there is hot water such as a hot spring, it will be more efficient when raising the temperature of air conditioning or the like. A special material or the like can be used for a PET bottle-shaped object or the like if it satisfies the intended use. The installation location can be selected depending on the application, such as above ground, underground and semi-underground. A plurality of underground tanks and the like can be installed depending on the temperature and the like. A plastic bottle or the like is connected to flow water. For that purpose, it is fixed with adhesive tape or the like and the inside is hollowed out. The purpose of the structure is to construct a barrier between the liquid and the outside air to maintain temperature. When fish are reared in a space in which the temperature is controlled by a structure made using such a plastic bottle, etc., liquid is further put into the space, and when the speed of the fish is fast, the shape should be streamlined as much as possible and the circle should be large. Equivalent to drawing If the width in the moving direction is set to 50 centimeters according to the size of the fish, etc., it is safe because it does not hit from the front. In addition, by providing a height difference in such a structure and moving the liquid, etc. from a low position to a high point with an electric pump, etc., and generating a water flow in a certain direction inside the space containing the liquid, etc. that is in contact with the fish, etc. to prevent It is also possible to stop the flow of water when necessary. Plants, etc. are grown inside the structure by flowing and circulating liquids, such as water, etc., using underground heat, etc., in a space constructed using substances such as PET bottles, etc. is installed and grown and moved to the workshop where the plants are cared for, etc., in a state where the outside world and air circulation are limited and controlled using rails, wheels, etc. to prevent pollen crossbreeding and comply with the Seed and Seedling Law. do. We constructed a space cut off from the outside world using plastic bottles, etc., and connected it with a hatch to a space where plants, etc. were raised, and confirmed that people could enter there and create a clean space. After that, the connecting hatch is opened and the plants and the like in the internal space are taken care of directly by humans or mechanically by using a remote camera or the like and a magic hand or the like. It is possible to remotely check the plants, etc., brought to the workshop using rails, etc., using a camera, etc., and to automatically perform work such as thinning out the plants, etc., by means of installed machines through AI learning. . Liquids, etc. that circulate in a space constructed with substances such as PET bottles and use the temperature of liquids in underground tanks to heat and cool the space, and to further cool and heat the interior of the space. Of course, it is possible to artificially heat (using equipment such as an oil boiler) and cool (equipment such as a refrigerator with liquid nitrogen), but it is also possible to warm using the heat of the sun and build a solar heat storage water heater with PET bottles etc. It is possible to use an object that has been cleaned, and it also saves utility costs. The efficiency of heat retention can be improved by concentrating sunlight or the like around an object made of a plastic bottle or the like, protecting the surroundings with airtight material such as aluminum, and inserting a heat insulating material. A structure constructed using materials such as PET bottles can be provided with an appropriate amount of space inside, and plants can be put in and grown there. If the water is carried by a pipe connected from an underground tank, it will convey the underground temperature to the inside of the space. A PET bottle or the like isolates and shields the space between the temperature medium such as water and the space. In the case where liquids using underground temperature are not flowed into plastic bottles, etc., the interior of the space can be artificially controlled by air conditioners, boilers, etc. Energy costs can be reduced when the temperature is adjusted to When a space is provided inside an object made of plastic bottles, etc., the lower space is placed inside the upper space when there are several levels of space, and the sunlight, etc. is sufficiently received by the object. If it is not possible to reach it, it can be a method of transmitting sunlight, etc. that has been concentrated in an appropriate position to the necessary place with an optical fiber, or a different place such as the side of a structure made of PET bottles using a mirror or the like. However, by placing a reflective device (mirror, etc.) in a place where light is likely to hit, the light is refracted and led from a place where light is likely to hit to a place where it is difficult to hit. Objects such as PET bottle-like plastics can be made transparent, so that light can be blocked but an open space can be created. If the size of the space is increased by changing the size of the space with the same structure, it is possible to put hot water inside or create other leisure facilities, etc., to build a space that is integrated with nature. Spacious hot springs can be constructed without worrying about rain or wind. The temperature inside the space and the temperature of liquids such as flowing water are controlled by sensors, etc., and the flow rate of an electric pump, etc. is automatically changed to keep the energy cost just right. When installed in a mountainous area, using nearby wood to heat the water around the space, or to heat the inside of the space, effectively utilize the combustion heat of wood, etc., exhaust gas, etc. can. Plants are grown in structures constructed using materials such as PET bottles. Since people do not need to enter the space inside the structure, the plants placed on the pallet are pulled there using wheels and rails, or connected like a train by the power of a motor and brought into the space. The same is true when taking it out. About 5 meters below ground with a pipe outside the structure (It is also possible to change the depth according to the temperature and mix water etc. in tanks with different depths.It is also possible to heat the water itself using a heater) The water drawn from the tank by a motor pump or the like is sprinkled on the outside of the structure. If the outer structure of the structure is constructed so that there is a step, etc., liquid water, coolant, etc., will flow to the highest point of the structure, instead of dropping down at once, liquids with different temperatures will be maintained around it. can. The structure can thus be cooled or heated. It is also possible to install a pipe for water conveyance or the like at an appropriate place in the structure and to return the water or the like from there to an underground tank. If it is constructed with PET bottles, etc., it is possible to move the water, etc. inside the PET bottles, etc. that are connected vertically or horizontally as desired by making holes in the sides of the PET bottles, etc. when connecting the PET bottles, etc. can be done. Structures made of PET bottles, etc., can be filled with water and circulated between tanks, etc., using the power of a motor pump, etc. Antifreeze suitable for normal use (transparent is better for normal use, colored is also acceptable in some cases), water, glass, marbles, plastic resin, etc. that allows light to pass through (in some cases, colored is better You can also put a light shielding cover on the outside. is collected and refluxed to control the temperature inside the structure. By doing so, there are cases where the installation cost and strength of the structure can be improved. The structure such as a PET bottle is not limited to PET bottles, and it is of course possible to use special materials. It can be used to separate an internal space constructed with a PET bottle or the like from the outside air. When creating a multi-purpose space inside a structure using PET bottles, etc.
When a liquid poured from a part moves due to gravity, etc., a gap is provided between structures such as PET bottles, and a step such as a rim is provided at the end of a structure constructed with PET bottles. is provided to control the movement of the liquid, etc., and increase the efficiency of transferring the temperature of the liquid to the space built inside. Natural spring water, hot spring water, river water, etc. are put into multiple or single tanks installed underground at high altitudes, and the water is pulled by pipes, etc., to plastic bottle structures, etc., located slightly at low altitudes by gravity. It will be eco-friendly (theoretically, only natural energy is possible) by almost eliminating the electricity bill, etc. To reduce the risk of a fish colliding with an obstacle by streamlining a space part of a structure in which a fish swims by putting a liquid or the like in a space constructed with a PET bottle or the like to make the fish swim. It is also possible to form a large loop as a whole and generate water pressure or the like using a pump, fan, or the like to generate a water flow or the like inside the space or the like. By constructing a large circle and creating a space with a structure that is gently curved, it is possible to prevent fish and the like from contacting walls and the like. If the width of the space when the fish swims is about 50 cm (just a guideline, depending on the size of the fish, etc.), it is possible to prevent the fish from colliding with the side. The space for heat control using groundwater and the space for adjusting the temperature while using it can be made by placing the liquid for temperature control inside by devising the layout of the structure using PET bottles. You can put plants around it or build a space where people can enter, and you can freely choose the arrangement. A structure made of PET bottles, etc., with a space of a size for each purpose inside, is attached to a water tank set at a certain temperature, and the temperature of the liquid filled in the water tank rises. It is possible to influence the space provided in an object constructed with a plastic bottle or the like and adjust the temperature of the space. The space can be hermetically sealed, and air can be put in or taken out through a filter or the like.


Areas where juice is originally contained in a PET bottle, such as a structure that is covered with a transparent material that allows light to pass through when shielding, or a structure that connects a PET bottle (or a dedicated one). In addition, water is pumped from an underground tank installed in a place that is kept 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 In the underground tank, install a pipe about 5 cm in length and width (the approximate scale can be freely changed) for water, etc., which is heated to about 15°C by the ground temperature, and set up a passage around it to allow water to flow. The water in the above-mentioned underground tank is poured into the structure, and a fan or the like is attached to the end of the pipe to blow air. 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. Although this device can be installed indoors, it can also be installed at a constant temperature of about 5 meters underground. 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 inside 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, etc. can be installed.
The buoyancy becomes the energy that rotates 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. Compressed air (gas), dry ice, etc. and Omasa Gas (Oomasa Gas, HHO, GAS, etc.) are set at a deep point where water pressure is applied to a vertically long tank filled with liquid water, etc. Then add heat from electricity and chemical reactions, etc., and ignite Taisei gas (a mixture of hydrogen and oxygen is also possible), and the heat causes dry ice to expand, and compressed air is also generated. Similarly, by generating upward kinetic energy against water pressure (gravity) and allocating it to the water wheel, etc., the water wheel is turned. 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 transmits the energy of the water wheel, etc., can be stretched horizontally as it is to increase airtightness so that water does not flow out of the water tank. It is also possible to change the direction and transmit the rotation to the upwardly extending shaft, and when the upper part of the tank reaches a height where it can contact the outside air, the energy can be transmitted to the gear or the like to be used as a power source. 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/s can generate a considerable amount of electricity. 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. In order to maintain the strength of the ball, etc., the circumference can be covered with an impact-resistant material such as rubber or 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 trains. 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 summer, water is put in a tank installed 5 meters underground at the bottom of the road or aisle, etc. By circulating it 10 cm below (reference), the road surface etc. will not freeze or generate excessive heat. Circulating water, etc., can also flow around the sled with a pipe, etc.
In this way, the cooling efficiency and the like can be improved in summer. 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. Utilizing the fact that the temperature is maintained at about 15°C all year round at a depth of about 5 meters, and the fact that the temperature changes according to the depth of the ground. 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 plant cultivation space, etc., and the water stored in the underground about 5 meters is also circulated because it is about 15 degrees. You can let 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 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. There is a device R surrounded by a circle shown in the drawing as a concept including at least the following functions "1" to "7" and other functions partially or wholly or partially. "1" The gravity difference between water (liquid, liquid metal, liquid mercury, etc. can of course be used) and air (gas, etc.) is used to generate upward energy in the tank. 2. In principle, the upward energy generated in the tank is connected to a device with a spring that can be opened and closed and a bicycle chain and crank to convert it into rotational energy. "3" This device for rotational energy transmission is installed inside the tank. (Support it with a support so that it does not wobble.) "4" Water, etc. (liquid, etc.) can be put into the tank from the outside using a hose, etc., 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 poured down from the top to the bottom using a pipe or the like. The energy is used to power a generator (turning gears, etc.) or as another energy source. 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" Water that went down
Etc. (liquid, etc.) is stored in a tank or the like, and the difference in gravity between the liquid and gas is converted into rotational energy, which is used to move it upward and reuse it. Of course, a liquid metal, mercury, or the like can also be used as the liquid such as water to be dropped. It is also possible to eliminate air resistance by sealing the entire device with a strong wall or the like to create a vacuum state. 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 reused by taking the motive power that converts the gravity difference between the liquid and the gas into rotational energy and returning it to the tank above. In order to eliminate air resistance, it is possible to reduce the pressure of the pipe through which the liquid, water, etc., liquid metal, etc. falls, or to create a vacuum state. For that reason, if there is a device that uses the power of the pipe through which the liquid flows, for example, to the turbine of the power generation device to generate power, etc., the strength is maintained in a vacuum state or a reduced pressure state. It can also be covered with some material, such as steel, in which the movement of liquids, etc., or the device, for example a generator, can be maintained in its vacuum or reduced pressure. Create a structure that is isolated from the outside like a submarine, first put piping equipment and power generation equipment in it, then install a pipe that can ventilate the only outside, and then air from there, such as a compressor. By siphoning out a submarine-like structure for humans and internal equipment, a vacuum or reduced pressure is created. 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 substitute 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 directly with 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 maintained at around 15 degrees Celsius all year round, and water (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 energy of the sun (sunlight, etc.), the heat of magma, or the heat of geothermal heat, such as hot springs that naturally flow out. In a device that uses the heat of the sun to boil bath water, such as a solar water heater, you can put water or a substance with a high boiling point (foot point) such as sodium instead of water and heat it to a high temperature. , can also be powered by a device that converts it into rotational energy (such as the circled R in drawing 8). In this way, when heat energy is directed to a device such as R surrounded by a circle, sodium is heated to a high temperature and the energy is transmitted to water passing through the pipe, or sodium (a substance with a high boiling point) ) can also be moved by passing it through a pipe or the like. High-temperature sodium (substance with a high boiling point) is guided (transferred) using a pipe to a space containing water (liquid, etc.) in a tank of a device such as R surrounded by 〇, and the heat is transferred. The surrounding water (such as a liquid) boils. Substances such as sodium that conduct heat can be collected in a tank or the like through a pipe and reused. At this time, it can be moved by a pump or the like driven by a motor or the like. Vaporized water (liquid, etc.) can also be transferred to a tank or the like through a pipe, and can be returned to a tank in a device such as R surrounded by a circle using a pipe or the like. It may be easier to adjust the temperature of the tank, etc., if it is installed in a place where the temperature is maintained at around 15 to 17°C throughout the year, such as 5 meters underground. It is also possible to use the refrigerant as the energy of the device, such as the circled R. High-temperature refrigerant gas is used as it is, and water, etc. (liquid, etc.) is contained in a device such as R surrounded by a circle. A method of heating and recovering, or using a high temperature refrigerant to flow it through a pipe or the like, giving heat to water etc. (liquid etc.) in the device like R surrounded by ○ etc.) can be boiled and used to transform (generate) into rotational energy. Using the relationship between the state of matter and heat in the three states of matter, we created a path that can change the state of matter with natural energy, etc., and for that reason, a device that converts it into rotational energy. You can also operate various devices, cool other things (air conditioners, etc.), warm other things (heaters), and boil water with a heat pump. Rotational (driving) energy is obtained from a device such as R surrounded by a circle, and water is pumped up from the bottom to the top (rotational energy moves a belt, etc., and a bucket, etc. attached to it It is also possible to move water, etc. (liquid, etc.) from the bottom to the top in a form that defies gravity, in the opposite direction to gravity. can. When water is dropped downward, the kinetic energy rises due to gravity, so that energy can be used as an energy source for a hydroelectric generator or as various other energies. When the air conditioner operates as a heater, it becomes difficult to exchange heat with the refrigerant in the middle of winter when the outside air is cold. Liquids (water, etc.) stored in tanks installed in the basement, etc., which are maintained at about 1000 rpm, are circulated through pipes, etc. This allows the refrigerant to exchange heat with a higher temperature than the outside air in the cold 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 You can link your smartphone or other device with this device using a Bluetooth (registered trademark) or USB cable, and read data such as the remaining battery level from a smartphone program, etc., and link it with the remaining battery level, etc. The start and stop of the train that was made will be performed 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 (such as Freon, etc. with equivalent properties) can be passed through a pipe, etc. If there is water (liquid, etc.) in the tank, etc. (even if there is no substance such as liquid, etc., if a high-pressure scum is blown out in a certain direction, the force will be reduced.) Rotational energy Frogs such as ▲R▼
When it is sent to a place where it is to be moved and converted into rotational energy, for example, a refrigerant (such as Freon or a similar substance) may become hot due to pressure changes due to its properties, or conversely, the volume may suddenly increase. You can use the principle of a cooler that makes you feel colder and a heater, for example, to generate electricity while providing a heat source, or conversely, to cool things around you. 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. Characters surrounded by ▲ and ▼ appearing in ▲F▼ mean that they are surrounded by 〇. In this case, it means F surrounded by 〇. The same goes for others. Heat can also be obtained from the heat of the sun (sunlight, etc.), the heat of magma, geothermal heat such as hot springs, etc. Water can be used in a solar water heater that uses the heat of the sun to heat the floor water. can also 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. When high-temperature sodium, etc. is introduced into a space containing water, etc. (liquid, etc.) in a tank such as ▲R, a pipe is used, and the water, etc. inside is blown away by the heat. 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. It may be easier to adjust the temperature of the tank, etc., if it is kept at a place where the temperature is maintained at 15°C to 17°C throughout the year, such as 5m underground. Refrigerant can also be used as an energy source like ▲R▼. The high-pressure refrigerant is used as a gas, and it is sent and collected while controlling it using a pressure sensor and a valve for adjustment with a pipe, etc., to a place where water (liquid, etc.) is contained, such as ▲R. or by using the high temperature of the refrigerant to flow it through a pipe, etc., and heat the water (liquid, etc.) in the pipe, such as ▲R, to make the water (liquid, etc.) swell. They can also be converted into rotational energy. 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., flow from the bottom to the top in the direction opposite to 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. Outside air can be introduced through a ventilation valve or a pipe with an air filter. As explained in Figures 10 and 11, the functions of parts such as bicycle cranks, gears, etc. and chains that transmit the rotation thereof (belts, etc. may be used if they have equivalent functions). The structure is such that when the chain and the bucket are connected to each other, the bucket and the like move together when the chain moves. Assuming that the height difference between the high part and the low part of such a structure is about 60 meters, when you come to the vicinity of that high place, you can slightly touch the place where the bucket passes, tilt the bucket, and the water, mercury, etc. Also install a tank or the like that can drop and store a substance that has fluidity. When a rotational force is applied to gears such as a crank of this device by using an electric motor, a water wheel, or other power, the device rotates. A tank for storing water, etc., mercury, etc. (liquid substances are highly fluid) is prepared at the bottom of such a device, and a bucket, etc. passes through it, so that the water, etc., mercury, etc. or move water, etc., mercury, etc. (anything with fluidity and high specific gravity) with a pipe, etc. somewhere on this rotating passage, and remove water, etc., mercury, etc. To replenish a bucket or the like in such a manner that water or the like coming out of a faucet is put into the bucket. It is possible to construct a structure in which water or liquid mercury or the like is dropped from a tank or the like in the upper portion downward using a pipe or the like and received by a bucket or the like. Downward kinetic energy is applied to the bucket or the like, and the kinetic energy is given by gravity depending on the falling distance. The drop distance from the tank at the top can be changed by changing the distance to the bucket or the like that receives it. If this rotation is about 2 or 2 meters per second and 60 buckets etc. are attached at almost equal intervals, and if this chain exercise is about 132 meters, the buckets etc. will fill the upper tank with liquid such as water every second. It will be calculated to put mercury etc. Assuming that liquid mercury such as water is put into the bucket or the like by the lower part or the replenishing device so that the volume of the bucket becomes about 40 liters, 40 liters of water or mercury moves to the upper tank every second. Assuming that 10 liters per second is dropped from the upper tank into a bucket or the like and the bucket or the like catches it and the distance from the upper tank to the bucket or the like is 15 meters, the calculated kinetic energy is 2250 joules. Then, roughly speaking, a downward force is applied to the chain or the like. Even if the output of the drive motor, etc., that rotates this device is first reduced, the output of the drive motor, etc., is gradually reduced by transmitting downward kinetic energy such as water or liquid mercury to the chain in this way. This rotating device can move even if Kinetic energy is 1/2 x mass x velocity squared, so if the velocity increases 10 times, the kinetic energy will increase 100 times. The amount of liquid mercury, etc. such as water dropped from the upper tank, etc. of this device to the lower bucket, etc., can be adjusted by a valve, and the circumference of the device itself can be freely changed, so that the water, etc., can be drained and then put into the upper tank. You can vary these values to optimize them for your purposes in order to move them as efficiently as possible. In the process of assembling liquid mercury such as water from a lower tank into a bucket or the like, the path of the bucket or the like can be designed to minimize the resistance so as to be as efficient as possible. Then, liquid mercury such as water in the upper tank can be dropped 60 meters below using a pipe or the like, and the energy can be applied to a water wheel or the like to transmit energy and drive a generator. By enclosing the outside of this device with a shield and sucking out the air inside with a suction device, the inside can be placed in a vacuum or low-pressure state to eliminate or reduce the air resistance when water, liquid mercury, etc., falls. can. Such a device serves to transfer gravitational energy to rotational energy through water or liquid mercury. Of course, in the upper tank, it is also possible to move water or liquid mercury using the energy of a water pump or a water wheel that rotates by receiving the flow of a river or the like, as in the conventional case. In order to drop liquid mercury, such as water (or iron balls, etc.) from the upper tank at even intervals while controlling the time, Shishiodoshi, made of bamboo etc. seen in Japanese gardens, is made of metal etc. It is also possible to increase the strength of the construction) by installing the on-off valve c1 between the upper tank and the total amount of 10 liters accumulated, and by modifying the water wheel to reduce the weight to a certain amount. You can also set up a device that performs a certain action. If a certain load is applied to the water wheel, the rotation speed can be controlled. Devices can be constructed that operate more efficiently than with conventional power plants. The device as shown in FIGS. 11, 12 is an adaptation of the device appearing in FIGS. 4, 6, etc. FIG. of the force applied to substances with different mass per volume
By using the difference as a power source and using it as an energy source for moving a gear or the like, the energy is converted into rotational energy or the like and used as another power source or the like. Even if such a device is installed in a zero-gravity space (for example, space), if the pedestal part rotates, it will rotate because the tank containing liquid, dry ice, gas, etc. is fixed. gives the mass of the liquid etc. in a certain direction. By doing so, in principle, this device can generate energy such as rotational energy in the same way as under gravity. In addition, temperature changes inside and outside the tank can be adjusted by enclosing the tank with a substance such as liquid for heat retention and temperature control. Then, it is possible to generate electricity by arranging magnets, coils, etc. around the rotating pedestal or the like using the principle of power generation of a motor or the like. A tank contains a liquid (water, mercury, a gas sent through a pipe, or something that has a lower specific gravity and fluidity than dry ice, etc.) and a solid substance (dry ice, etc., or an agitation chamber) that evaporates due to the pressure difference. For example, dry ice evaporates into carbon dioxide and moves in a certain direction in the liquid, so that energy can be used. A plurality of tanks can be connected, and carbon dioxide (gas) or the like can be pressurized again at a certain point to turn it into dry ice or onto a liquid. Then, it can be made to flow into (move) the tank again using a pipe or the like. At this time, if necessary, pressure is applied from the outside to push the substance into the tank.In the case of pushing in solid substances, if necessary, connect the tank with a certain space that can be shielded from the outside and power. can be used to physically push in. Even in the case of a liquid, it is possible to put the liquid in a certain space, cut it off from the outside, and push it in with a pressure pump or the like. For example, if you use water as a liquid in the tank and put dry ice in it, the dry ice turns into gaseous carbon dioxide in the tank, and after passing it through several tanks, you can use only one tank, but pipes etc. It can be recovered and pressurized again to make dry ice or liquid state. Then put it back into the filling port of the first tank. Then the action will be repeated. As shown in Fig. 4, by arranging wooden materials exactly like the three great pyramids in Egypt and by freely providing spaces between them, we can create spaces that are useful for living such as valleys in mountainous areas. can also be set to This will create a large flat area on top of it. Creates a large usable space. Preserving wood that has absorbed carbon dioxide also serves as a countermeasure against global warming. However, the drawings of these invention examples are only examples, and they can be freely combined depending on the purpose such as size and size.



To easily and conveniently move an electric bicycle or the like as a means of transportation to a storage place or the like at a destination by providing a place or the like where the electric bicycle or the like can be parked and stored near a station or the like. For example, an electric bicycle or the like can be unlocked mechanically in a parking storage area. Lock the wheels, etc. of the electric bicycle, etc., and leave it in a parking space, etc., and the person who wants to use the electric bicycle, etc., launches an application such as a smartphone that has been registered in advance, agrees to the terms of use, and starts using the bicycle, etc. When clicked, the interlocking locking device is automatically unlocked and can be used. An electric bicycle or the like is equipped with a device for wirelessly notifying the location, so that the administrator of the electric bicycle or the like can grasp the location when necessary. The smartphone used by the user of the electric bicycle, etc., and the device that can ascertain the location of the bicycle, etc., are linked wirelessly during use, and when the device is separated from a certain distance, the device attached to the bicycle can be used. Equipped with an alarm function, etc. that notifies users and administrators by e-mail, etc. Also, the position of a bicycle or the like can be automatically recorded and saved using the device. In the event that the distance between the bicycle, etc. and the smartphone, etc. of the user, etc., occurs, safety will be ensured by, for example, stopping the current in the motor if the bicycle is an electric bicycle. In the case of a slightly simplified device, when unlocking a bicycle that is connected to a parking space, the identity is confirmed by checking the password set by the user in advance in the phone, the caller number, name, etc., and Internet etc. , the administrator remotely activates the unlocking device, or communicates with the user a password that is valid for a certain period of time using a mobile phone, etc. There is also a method to unlock by pressing and entering. When locking the parking storage area, the identity is verified by entering a password or the like for unlocking. Personal identification methods using fingerprint authentication, face authentication, eyeball authentication, etc. from software such as dedicated smartphones, etc., or using videophone functions such as smartphones, etc. to confirm the identity of the person by face, speaking style, etc., and administrators, etc. can remotely lock There is also a method to cancel the . If the lock device for the parking space and the key for the electric bicycle are separate, it is possible that the lock for the parking space will be locked and the key for the bicycle itself will remain as it is. set it to off by default. Use a computer to set a password using RSA encryption technology, etc., send it to the lock device, transmit the unlock code by mobile phone, etc., and create a program that automatically recognizes the password linked to the time of day etc. It is installed independently, and the administrator informs the user of the password, which changes randomly every time, via mobile phone or e-mail. The terms and conditions are established so that the user is responsible for the management and use of the bicycle, etc., from the time the application for use is made until the bicycle is put into a locked state and properly returned to a storage location. When the lock device is unlocked or locked, it notifies the administrator and the user of the signal through a server or the like. A camera with a motion detection sensor and a light communication device are installed in the parking storage area to record and notify the manager. In the case of an electric bicycle, etc., the key that locks the tire and the energization of the electrical system are linked. It is possible to select whether a plurality of locking devices, a locking device for the parking storage area and a locking device for the bicycle body, are installed or all of them are mounted on the bicycle or the like. To enable a manager or the like to safely unlock or lock a parking place while confirming the state of a parking storage place by a videophone function, a live camera, etc., when all are installed on the bicycle body. In the case of multiple bicycles, when the lock device of the parking storage area is released when the lock is released, the key of the main body of the bicycle, etc., battery, etc. can be taken out, and when locking, return the key of the main body of the bicycle, etc. It is possible to mechanically confirm that the battery of the electric bicycle has been charged, etc. If the administrator confirms with a signal, etc., the locking device of the parking storage area can be locked. If the key battery, etc. of the main body of the bicycle or the like cannot be removed when locked, the safety will be enhanced. Even in the case where the devices are collectively installed in the main body of an electric bicycle, etc., the state of the electric bicycle, the key, the battery, etc. can be similarly confirmed and managed remotely by a manager or the like by attaching a communication function. By providing a card key using magnetism and allowing the user to authenticate it with a machine or the like installed in a parking storage place, it can be used as means for personal identification, and can also be used in combination with the above means. The fee can be automatically withdrawn from the bank by linking it with a card key or smartphone. If you attach a rainproof roof or the like to an electric bicycle or the like, you can comfortably use it even in the rain.

To provide a space through which a person can pass by connecting PET bottle-like materials or the like, and to adjust the internal temperature when moving through the space. Connect substances such as PET bottles, prepare a liquid (such as water) that has little temperature change throughout the year, and pump it inside with an electric pump, etc. It can be used for internal air conditioning when the outside temperature is high or low. The groundwater temperature varies throughout the year depending on the depth, but it is also utilized to the maximum extent for air conditioning. Assuming that the natural outside temperature is about 5°C, if the structure is sufficiently shielded, the internal air temperature will approximate to 15°C as the water flows, so I would like to keep it at about 22°C. At times, the air temperature can be maintained with about 7°C more energy, which is more efficient than raising it from 5°C. The same is true when lowering. If there is hot water such as a hot spring, it will be more efficient when raising the temperature of air conditioning or the like. A special material or the like can be used for a PET bottle-shaped object or the like if it satisfies the intended use. The installation location can be selected depending on the application, such as above ground, underground and semi-underground. A plurality of underground tanks and the like can be installed depending on the temperature and the like. A plastic bottle or the like is connected to flow water. For that purpose, it is fixed with adhesive tape or the like and the inside is hollowed out. The purpose of the structure is to construct a barrier between the liquid and the outside air to maintain temperature. Objects such as PET bottle-like plastics can be made transparent, so that light can be blocked but an open space can be created. If the size of the space is increased by changing the size of the space with the same structure, it is possible to put hot water inside or create other leisure facilities, etc., to build a space that is integrated with nature. Spacious hot springs can be constructed without worrying about rain or wind. The temperature inside the space and the temperature of liquids such as flowing water are controlled by sensors, etc., and the flow rate of an electric pump, etc. is automatically changed to keep the energy cost just right. When the apparatus is installed in a mountainous area, it is possible to effectively utilize the combustion heat of wood or the like by using nearby wood or the like. Water stored in an underground tank or the like is poured into a structure made of a PET bottle or the like and returned to the underground tank. Use an electric pump or the like to move water, etc. Water, etc., is reused by circulating in underground tanks and structures such as PET bottles. You can put fish in the above leisure facilities, etc. and enjoy fishing.

To provide a space through which a person can pass by connecting PET bottle-like materials or the like, and to adjust the internal temperature when moving through the space. Connect substances such as PET bottles, prepare a liquid (such as water) that has little temperature change throughout the year, and pump it inside with an electric pump, etc. It can be used for internal air conditioning when the outside temperature is high or low. The groundwater temperature varies throughout the year depending on the depth, but it is also utilized to the maximum extent for air conditioning. Assuming that the natural outside temperature is about 5°C, if the structure is sufficiently shielded, the internal air temperature will approximate to 15°C as the water flows, so I would like to keep it at about 22°C. At times, the air temperature can be maintained with about 7°C more energy, which is more efficient than raising it from 5°C. The same is true when lowering. If there is hot water such as a hot spring, it will be more efficient when raising the temperature of air conditioning or the like. A special material or the like can be used for a PET bottle-shaped object or the like if it satisfies the intended use. The installation location can be selected depending on the application, such as above ground, underground and semi-underground. A plurality of underground tanks and the like can be installed depending on the temperature and the like. A plastic bottle or the like is connected to flow water. For that purpose, it is fixed with adhesive tape or the like and the inside is hollowed out. The purpose of the structure is to construct a barrier between the liquid and the outside air to maintain temperature. When fish are reared in a space in which the temperature is controlled by a structure made using such a plastic bottle, etc., liquid is further put into the space, and when the speed of the fish is fast, the shape should be streamlined as much as possible and the circle should be large. Equivalent to drawing If the width in the moving direction is set to 50 centimeters according to the size of the fish, etc., it is safe because it does not hit from the front. In addition, by providing a height difference in such a structure and moving the liquid, etc. from a low position to a high point with an electric pump, etc., and generating a water flow in a certain direction inside the space containing the liquid, etc. that is in contact with the fish, etc. to prevent It is also possible to stop the flow of water when necessary. Plants, etc. are grown inside the structure by flowing and circulating liquids, such as water, etc., using underground heat, etc., in a space constructed using substances such as PET bottles, etc. is installed and grown and moved to the workshop where the plants are cared for, etc., in a state where the outside world and air circulation are limited and controlled using rails, wheels, etc. to prevent pollen crossbreeding and comply with the Seed and Seedling Law. do. We constructed a space cut off from the outside world using plastic bottles, etc., and connected it with a hatch to a space where plants, etc. were raised, and confirmed that people could enter there and create a clean space. After that, the connecting hatch is opened and the plants and the like in the internal space are taken care of directly by humans or mechanically by using a remote camera or the like and a magic hand or the like. It is possible to remotely check the plants, etc., brought to the workshop using rails, etc., using a camera, etc., and to automatically perform work such as thinning out the plants, etc., by means of installed machines through AI learning. . Liquids, etc. that circulate in a space constructed with substances such as PET bottles and use the temperature of liquids in underground tanks to heat and cool the space, and to further cool and heat the interior of the space. Of course, it is possible to artificially heat (using equipment such as an oil boiler) and cool (equipment such as a refrigerator with liquid nitrogen), but it is also possible to warm using the heat of the sun and build a solar heat storage water heater with PET bottles etc. It is possible to use an object that has been cleaned, and it also saves utility costs. The efficiency of heat retention can be improved by concentrating sunlight or the like around an object made of a plastic bottle or the like, protecting the surroundings with airtight material such as aluminum, and inserting a heat insulating material. A structure constructed using materials such as PET bottles can be provided with an appropriate amount of space inside, and plants can be put in and grown there. If the water is carried by a pipe connected from an underground tank, it will convey the underground temperature to the inside of the space. A PET bottle or the like isolates and shields the space between the temperature medium such as water and the space. In the case where liquids using underground temperature are not flowed into plastic bottles, etc., the interior of the space can be artificially controlled by air conditioners, boilers, etc. Energy costs can be reduced when the temperature is adjusted to When a space is provided inside an object made of plastic bottles, etc., the lower space is placed inside the upper space when there are several levels of space, and the sunlight, etc. is sufficiently received by the object. If it is not possible to reach it, it can be a method of transmitting sunlight, etc. that has been concentrated in an appropriate position to the necessary place with an optical fiber, or a different place such as the side of a structure made of PET bottles using a mirror or the like. However, by placing a reflective device (mirror, etc.) in a place where light is likely to hit, the light is refracted and led from a place where light is likely to hit to a place where it is difficult to hit. Objects such as PET bottle-like plastics can be made transparent, so that light can be blocked but an open space can be created. If the size of the space is increased by changing the size of the space with the same structure, it is possible to put hot water inside or create other leisure facilities, etc., to build a space that is integrated with nature. Spacious hot springs can be constructed without worrying about rain or wind. The temperature inside the space and the temperature of liquids such as flowing water are controlled by sensors, etc., and the flow rate of an electric pump, etc. is automatically changed to keep the energy cost just right. When the apparatus is installed in a mountainous area, it is possible to effectively utilize the combustion heat of wood or the like by using nearby wood or the like. In this way, we produce market-competitive agricultural products, etc. by reducing costs as much as possible, and based on them, we give them to poor young people free of charge, or provide certain services in return. Issue a certificate like a coupon. We will be able to significantly reduce the cost related to production and services, and we will build a concept like a coupon based on it as a patent right. Coupons can also be regarded as conceptual entities. Assuming that person A is the owner of an agricultural production site, etc., and also owns restaurants and recreational facilities, etc., it is like a community that manages usage fees with such coupons, etc., and can use them as usage fees for daily service industries, etc. Recruit traders who exercise the group and participate. Negotiate so that this coupon can be used for restaurants and recreational facilities that are managed by people other than Mr. A. Restaurants and recreational facilities can cook and sell agricultural produce for a fee. Recreational facilities, etc. can be used even if the labor cost is considerably high, if the content of providing such a contracted service is included in this coupon. In addition to recreational facilities, we will strive to make it possible to use this coupon if it is usually treated with money such as yen as a consideration such as service industry. If Mr. A is a business owner and receives compensation for services in yen as usual, income will be generated, and the government will collect it and distribute it to the poor as welfare. ) By covering that role with Mr. A and other people participating in such a system, we can realize the basics of human beings, such as the meaning of receiving services, and reduce the administrative taxes associated with such work. can. Securing basic food for human life and making it possible to live on that basis. Assuming that Mr. A manages this system, farmers and service providers will join this system, but producers such as farmers will only be able to obtain money with relatively low relative value in the market. It is possible to get out of it, and the service provider can also feel the social significance of this coupon system. Build a stable society by constructing a system of income redistribution. In addition, since this coupon is based on arbitrary intentions, it is free to participate or not, so if Mr. A also wants to participate, he can freely choose whether or not to allow participation. etc. can also be determined. Mr. A can decide whether to allow the coupon to be exchanged for cash. It is also possible to make it so that it can only be exchanged through Mr. A. It is the free will of Mr. A whether or not Mr. A converts it into cash. It is also possible to decide to exchange coupons with different contents through Mr. A. Mr. A also has the right to exchange coupons and issue new coupons freely. A coupon is a concept. Coupons can be paper-based or electronic. By digitizing the data, encrypting it with PGP encryption, etc., and centrally managing the data in a database, Mr. A can grasp the connections between goods, coupons, and services. Mr. A freely decides whether or not to disclose this data to the outside. Since it consists of a relationship of trust, it prevents interference by a third party and ensures stability. When coupons are replaced with virtual currency, it is possible to predetermine the value of the currency, such as the amount of strawberries that can be eaten per coupon. It is also possible to stipulate in the contract that virtual currency exchange can only be done through Mr. A.


In order to cool, heat, and maintain the temperature of the inside of an object such as a house, put water in a tank installed underground, etc., and let it flow over the roof of the house, etc. to cool, heat, maintain the temperature, etc. of the inside of the object, etc. do. The ground temperature of about 5 meters underground depends on the latitude, but in Honshu, Japan, it is maintained at around 15 degrees Celsius all year round. If it is from a high point, use water pressure to guide water to the roof etc. with a pipe etc. and let it flow moderately. The drained water is collected using rain gutters and put into the tank again. The inside of the tank or the like can be partitioned so that the returned water does not mix with the water in the tank until it cools to some extent. By adjusting the height of the threshold inside the tank, it is possible to adjust how much water will overflow next to it. A plurality of tanks may be prepared, and water returning may be stored in a different tank from the time when it left for a certain period of time, and may be installed so that when that tank is full, it flows into the original tank. If the capacity of the tank is large or the amount of water to be flowed is small, a partition may not be necessary. It is also possible to adjust the amount of water to flow by adjusting the output of the pump. Similarly, by running water on the road, it is possible to cool the road in the summer and to melt the snow and prevent freezing in the winter. The amount of water to be flowed is programmed in advance using temperature data such as weather forecasts, etc., and the output of water pumps etc. is controlled based on the actual temperature. If you are using mountain spring water, well water, etc. (Spring water source, well water, etc. has a stable water temperature throughout the year), you may not need a tank. A valve or the like is installed on the leading pipe, etc., and a device that can control the diameter of this is attached, or a faucet type is controlled by a computer, etc. to control the amount of opening and closing, etc., to control the amount of water, etc. The tank does not necessarily need to be installed underground, but if water whose temperature is controlled using the ground temperature is used, the temperature inside the house can be controlled with a smaller amount of water, etc., and costs such as electricity costs for pumps, etc., can be reduced. . Freezing can be prevented by making the tank long and thin and deepening it to a depth of 5 meters or more in the ground and increasing the volume of the deep point and circulating it with a motor or the like. It is also possible to install tanks underground and above ground and connect them to mix at the best ratio of temperature conditions. Since the temperature varies depending on the depth of the underground, efficiency is improved by installing a plurality of tanks at different depths of the ground and connecting and mixing the water with pipes or the like to the roof of the house or the like. When running water on the roof of a house or the like, calculate the temperature and heat of vaporization of the water and run the efficient amount of water. If water is led to the highest point such as the roof of a house or the like with a pipe, the water will flow down the roof or the like due to gravity. A pipe may be used to guide the water so that it flows not only to the roof of the house but also to the sides (for example, it is possible to direct water to the upper part of the window with a pipe so that the water flows along the side of the window). ). If the diameter of the roof is 5 meters, water will flow over the entire surface of the roof if the pipes on the roof are also about 5 meters. There are holes in the pipe at appropriate intervals (not necessarily 5 cm, such as 5 cm intervals), and the water comes out from there. Utilizing the fact that the ground temperature of about 5 meters underground is about 15°C in winter, it is circulated by pulling pipes under the flooring of houses, on the sides, ceilings, etc., and collected in tanks in the basement, etc. for reuse. do. If hot spring water is used, even higher temperature liquid (hot water) can be poured. In order to reduce the risk of lawsuits, etc. being filed against the patent by others, when the patent is obtained, the entire process necessary for the patent is described in detail from start to finish in the patent application. If a person can acquire a patent and uses the patent in a way that reproduces what is written in the patent, there is a possibility that a third party will file a lawsuit for infringement of the right and it will be necessary to pay damages. Minimize the risk of such incidents occurring. Describe all manufacturing processes, materials, construction methods, technical processes, etc. for patents. All phenomena, etc. in the procedures, materials, and processes when carrying out the patent are described in the claims as characters. There is a mechanism for anyone to file an objection, etc. against the patent anonymously for six months after the patent is approved. In that sense, they are the people involved who know the content earlier than the general public. People who can see the documents related to the patent at the Patent Office know the contents of the patent even before the patent is published, so if such a person investigates from a long time ago, it may be unilaterally advantageous. Communicate your opinion to the relevant organizations and ask them to change the rules.

To provide a space through which a person can pass by connecting PET bottle-like materials or the like, and to adjust the internal temperature when moving through the space. Connect substances such as PET bottles, prepare a liquid (such as water) that has little temperature change throughout the year, and pump it inside with an electric pump, etc. It can be used for internal air conditioning when the outside temperature is high or low. The groundwater temperature varies throughout the year depending on the depth, but it is also utilized to the maximum extent for air conditioning. Assuming that the natural outside temperature is about 5°C, if the structure is sufficiently shielded, the internal air temperature will approximate to 15°C as the water flows, so I would like to keep it at about 22°C. At times, the air temperature can be maintained with about 7°C more energy, which is more efficient than raising it from 5°C. The same is true when lowering. If there is hot water such as a hot spring, it will be more efficient when raising the temperature of air conditioning or the like. A special material or the like can be used for a PET bottle-shaped object or the like if it satisfies the intended use. The installation location can be selected depending on the application, such as above ground, underground and semi-underground. A plurality of underground tanks and the like can be installed depending on the temperature and the like. A plastic bottle or the like is connected to flow water. For that purpose, it is fixed with adhesive tape or the like and the inside is hollowed out. The purpose of the structure is to construct a barrier between the liquid and the outside air to maintain temperature. When fish are reared in a space in which the temperature is controlled by a structure made using such a plastic bottle, etc., liquid is further put into the space, and when the speed of the fish is fast, the shape should be streamlined as much as possible and the circle should be large. Equivalent to drawing If the width in the moving direction is set to 50 centimeters according to the size of the fish, etc., it is safe because it does not hit from the front. In addition, by providing a height difference in such a structure and moving the liquid, etc. from a low position to a high point with an electric pump, etc., and generating a water flow in a certain direction inside the space containing the liquid, etc. that is in contact with the fish, etc. to prevent It is also possible to stop the flow of water when necessary. Plants, etc. are grown inside the structure by flowing and circulating liquids, such as water, etc., using underground heat, etc., in a space constructed using substances such as PET bottles, etc. is installed and grown and moved to the workshop where the plants are cared for, etc., in a state where the outside world and air circulation are limited and controlled using rails, wheels, etc. to prevent pollen crossbreeding and comply with the Seed and Seedling Law. do. We constructed a space cut off from the outside world using plastic bottles, etc., and connected it with a hatch to a space where plants, etc. were raised, and confirmed that people could enter there and create a clean space. After that, the connecting hatch is opened and the plants and the like in the internal space are taken care of directly by humans or mechanically by using a remote camera or the like and a magic hand or the like. It is possible to remotely check the plants, etc., brought to the workshop using rails, etc., using a camera, etc., and to automatically perform work such as thinning out the plants, etc., by means of installed machines through AI learning. . Liquids, etc. that circulate in a space constructed with substances such as PET bottles and use the temperature of liquids in underground tanks to heat and cool the space, and to further cool and heat the interior of the space. Of course, it is possible to artificially heat (using equipment such as an oil boiler) and cool (equipment such as a refrigerator with liquid nitrogen), but it is also possible to warm using the heat of the sun and build a solar heat storage water heater with PET bottles etc. It is possible to use an object that has been cleaned, and it also saves utility costs. The efficiency of heat retention can be improved by concentrating sunlight or the like around an object made of a plastic bottle or the like, protecting the surroundings with airtight material such as aluminum, and inserting a heat insulating material. A structure constructed using materials such as PET bottles can be provided with an appropriate amount of space inside, and plants can be put in and grown there. If the water is carried by a pipe connected from an underground tank, it will convey the underground temperature to the inside of the space. A PET bottle or the like isolates and shields the space between the temperature medium such as water and the space. In the case where liquids using underground temperature are not flowed into plastic bottles, etc., the interior of the space can be artificially controlled by air conditioners, boilers, etc. Energy costs can be reduced when the temperature is adjusted to When a space is provided inside an object made of plastic bottles, etc., the lower space is placed inside the upper space when there are several levels of space, and the sunlight, etc. is sufficiently received by the object. If it is not possible to reach it, it can be a method of transmitting sunlight, etc. that has been concentrated in an appropriate position to the necessary place with an optical fiber, or a different place such as the side of a structure made of PET bottles using a mirror or the like. However, by placing a reflective device (mirror, etc.) in a place where light is likely to hit, the light is refracted and led from a place where light is likely to hit to a place where it is difficult to hit. Objects such as PET bottle-like plastics can be made transparent, so that light can be blocked but an open space can be created. If the size of the space is increased by changing the size of the space with the same structure, it is possible to put hot water inside or create other leisure facilities, etc., to build a space that is integrated with nature. Spacious hot springs can be constructed without worrying about rain or wind. The temperature inside the space and the temperature of liquids such as flowing water are controlled by sensors, etc., and the flow rate of an electric pump, etc. is automatically changed to keep the energy cost just right. When installed in a mountainous area, using nearby wood to heat the water around the space, or to heat the inside of the space, effectively utilize the combustion heat of wood, etc., exhaust gas, etc. can. Plants are grown in structures constructed using materials such as PET bottles. Since people do not need to enter the space inside the structure, the plants placed on the pallet are pulled there using wheels and rails, or connected like a train by the power of a motor and brought into the space. The same is true when taking it out. About 5 meters below ground with a pipe outside the structure (It is also possible to change the depth according to the temperature and mix water etc. in tanks with different depths.It is also possible to heat the water itself using a heater) The water drawn from the tank by a motor pump or the like is sprinkled on the outside of the structure. If the outer structure of the structure is constructed so that there is a step, etc., liquid water, coolant, etc., will flow to the highest point of the structure, instead of dropping down at once, liquids with different temperatures will be maintained around it. can. The structure can thus be cooled or heated. It is also possible to install a pipe for water conveyance or the like at an appropriate place in the structure and to return the water or the like from there to an underground tank. If it is constructed with PET bottles, etc., it is possible to move the water, etc. inside the PET bottles, etc. that are connected vertically or horizontally as desired by making holes in the sides of the PET bottles, etc. when connecting the PET bottles, etc. can be done. Structures made of PET bottles, etc., can be filled with water and circulated between tanks, etc., using the power of a motor pump, etc. Antifreeze suitable for normal use (transparent is better for normal use, colored is also acceptable in some cases), water, glass, marbles, plastic resin, etc. that allows light to pass through (in some cases, colored is better You can also put a light shielding cover on the outside. is collected and refluxed to control the temperature inside the structure. By doing so, there are cases where the installation cost and strength of the structure can be improved. The structure such as a PET bottle is not limited to a PET bottle, and a special material can be used as a matter of course. It can be used to separate an internal space constructed with a PET bottle or the like from the outside air.


To provide a space through which a person can pass by connecting PET bottle-like materials or the like, and to adjust the internal temperature when moving through the space. Connect substances such as PET bottles, prepare a liquid (such as water) that has little temperature change throughout the year, and pump it inside with an electric pump, etc. It can be used for internal air conditioning when the outside temperature is high or low. The groundwater temperature varies throughout the year depending on the depth, but it is also utilized to the maximum extent for air conditioning. Assuming that the natural outside temperature is about 5°C, if the structure is sufficiently shielded, the internal air temperature will approximate to 15°C as the water flows, so I would like to keep it at about 22°C. At times, the air temperature can be maintained with about 7°C more energy, which is more efficient than raising it from 5°C. The same is true when lowering. If there is hot water such as a hot spring, it will be more efficient when raising the temperature of air conditioning or the like. A special material or the like can be used for a PET bottle-shaped object or the like if it satisfies the intended use. The installation location can be selected depending on the application, such as above ground, underground and semi-underground. A plurality of underground tanks and the like can be installed depending on the temperature and the like. A plastic bottle or the like is connected to flow water. For that purpose, it is fixed with adhesive tape or the like and the inside is hollowed out. The purpose of the structure is to construct a barrier between the liquid and the outside air to maintain temperature. When fish are reared in a space in which the temperature is controlled by a structure made using such a plastic bottle, etc., liquid is further put into the space, and when the speed of the fish is fast, the shape should be streamlined as much as possible and the circle should be large. Equivalent to drawing If the width in the moving direction is set to 50 centimeters according to the size of the fish, etc., it is safe because it does not hit from the front. In addition, by providing a height difference in such a structure and moving the liquid, etc. from a low position to a high point with an electric pump, etc., and generating a water flow in a certain direction inside the space containing the liquid, etc. that is in contact with the fish, etc. to prevent It is also possible to stop the flow of water when necessary. Plants, etc. are grown inside the structure by flowing and circulating liquids, such as water, etc., using underground heat, etc., in a space constructed using substances such as PET bottles, etc. is installed and grown and moved to the workshop where the plants are cared for, etc., in a state where the outside world and air circulation are limited and controlled using rails, wheels, etc. to prevent pollen crossbreeding and comply with the Seed and Seedling Law. do. We constructed a space cut off from the outside world using plastic bottles, etc., and connected it with a hatch to a space where plants, etc. were raised, and confirmed that people could enter there and create a clean space. After that, the connecting hatch is opened and the plants and the like in the internal space are taken care of directly by humans or mechanically by using a remote camera or the like and a magic hand or the like. It is possible to remotely check the plants, etc., brought to the workshop using rails, etc., using a camera, etc., and to automatically perform work such as thinning out the plants, etc., by means of installed machines through AI learning. . Liquids, etc. that circulate in a space constructed with substances such as PET bottles and use the temperature of liquids in underground tanks to heat and cool the space, and to further cool and heat the interior of the space. Of course, it is possible to artificially heat (using equipment such as an oil boiler) and cool (equipment such as a refrigerator with liquid nitrogen), but it is also possible to warm using the heat of the sun and build a solar heat storage water heater with PET bottles etc. It is possible to use an object that has been cleaned, and it also saves utility costs. The efficiency of heat retention can be improved by concentrating sunlight or the like around an object made of a plastic bottle or the like, protecting the surroundings with airtight material such as aluminum, and inserting a heat insulating material. A structure constructed using materials such as PET bottles can be provided with an appropriate amount of space inside, and plants can be put in and grown there. If the water is carried by a pipe connected from an underground tank, it will convey the underground temperature to the inside of the space. A PET bottle or the like isolates and shields the space between the temperature medium such as water and the space. In the case where liquids using underground temperature are not flowed into plastic bottles, etc., the interior of the space can be artificially controlled by air conditioners, boilers, etc. Energy costs can be reduced when the temperature is adjusted to When a space is provided inside an object made of plastic bottles, etc., the lower space is placed inside the upper space when there are several levels of space, and the sunlight, etc. is sufficiently received by the object. If it is not possible to reach it, it can be a method of transmitting sunlight, etc. that has been concentrated in an appropriate position to the necessary place with an optical fiber, or a different place such as the side of a structure made of PET bottles using a mirror or the like. However, by placing a reflective device (mirror, etc.) in a place where light is likely to hit, the light is refracted and led from a place where light is likely to hit to a place where it is difficult to hit. Objects such as PET bottle-like plastics can be made transparent, so that light can be blocked but an open space can be created. If the size of the space is increased by changing the size of the space with the same structure, it is possible to put hot water inside or create other leisure facilities, etc., to build a space that is integrated with nature. Spacious hot springs can be constructed without worrying about rain or wind. The temperature inside the space and the temperature of liquids such as flowing water are controlled by sensors, etc., and the flow rate of an electric pump, etc. is automatically changed to keep the energy cost just right. When installed in a mountainous area, using nearby wood to heat the water around the space, or to heat the inside of the space, effectively utilize the combustion heat of wood, etc., exhaust gas, etc. can. Plants are grown in structures constructed using materials such as PET bottles. Since people do not need to enter the space inside the structure, the plants placed on the pallet are pulled there using wheels and rails, or connected like a train by the power of a motor and brought into the space. The same is true when taking it out. About 5 meters below ground with a pipe outside the structure (It is also possible to change the depth according to the temperature and mix water etc. in tanks with different depths.It is also possible to heat the water itself using a heater) The water drawn from the tank by a motor pump or the like is sprinkled on the outside of the structure. If the outer structure of the structure is constructed so that there is a step, etc., liquid water, coolant, etc., will flow to the highest point of the structure, instead of dropping down at once, liquids with different temperatures will be maintained around it. can. The structure can thus be cooled or heated. It is also possible to install a pipe for water conveyance or the like at an appropriate place in the structure and to return the water or the like from there to an underground tank. If it is constructed with PET bottles, etc., it is possible to move the water, etc. inside the PET bottles, etc. that are connected vertically or horizontally as desired by making holes in the sides of the PET bottles, etc. when connecting the PET bottles, etc. can be done. Structures made of PET bottles, etc., can be filled with water and circulated between tanks, etc., using the power of a motor pump, etc. Antifreeze suitable for normal use (transparent is better for normal use, colored is also acceptable in some cases), water, glass, marbles, plastic resin, etc. that allows light to pass through (in some cases, colored is better You can also put a light shielding cover on the outside. is collected and refluxed to control the temperature inside the structure. By doing so, there are cases where the installation cost and strength of the structure can be improved. The structure such as a PET bottle is not limited to PET bottles, and it is of course possible to use special materials. It can be used to separate an internal space constructed with a PET bottle or the like from the outside air. When creating a multi-purpose space inside a structure using PET bottles, etc., when liquids poured from the top move due to gravity, etc. A step such as a rim is provided at the edge of the constructed structure to control the movement of the liquid, etc., and increase the efficiency of transferring the temperature of the liquid to the space constructed inside. Natural spring water, hot spring water, river water, etc. are put into multiple or single tanks installed underground at high altitudes, and the water is pulled by pipes, etc., to plastic bottle structures, etc., located slightly at low altitudes by gravity. It will be eco-friendly (theoretically, only natural energy is possible) by almost eliminating the electricity bill, etc. To reduce the risk of a fish colliding with an obstacle by streamlining a space part of a structure in which a fish swims by putting a liquid or the like in a space constructed with a PET bottle or the like to make the fish swim. It is also possible to form a large loop as a whole and generate water pressure or the like using a pump, fan, or the like to generate a water flow or the like inside the space or the like. By constructing a large circle and creating a space with a structure that is gently curved, it is possible to prevent fish and the like from contacting walls and the like. If the width of the space when the fish swims is about 50 cm (just a guideline, depending on the size of the fish, etc.), it is possible to prevent the fish from colliding with the side. The space for heat control using groundwater and the space for adjusting the temperature while using it can be made by placing the liquid for temperature control inside by devising the layout of the structure using PET bottles. You can put plants around it or build a space where people can enter, and you can freely choose the arrangement. A structure made of PET bottles, etc., with a space of a size for each purpose inside, is attached to a water tank set at a certain temperature, and the temperature of the liquid filled in the water tank rises. It is possible to influence the space provided in an object constructed with a plastic bottle or the like and adjust the temperature of the space. The space can be hermetically sealed, and air can be put in or taken out through a filter or the like.


SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems, and to provide a device that utilizes constant temperature water (liquid, a substance that mediates heat) that can utilize the benefits of nature without being affected by the weather. . In order to achieve the above object, a device for using constant temperature water (which may be a liquid, a substance that mediates heat, or a substance such as coolant) according to the present invention is a device for using constant temperature water, comprising: An underground tank that is buried underground to maintain a constant underground temperature and stores water at a constant temperature, and a plurality of hollow tubes made of a light-transmitting material are connected to create a hollow space inside. a pipe and a circulation pump for circulating constant temperature water stored in the underground tank to the hollow tube of the structure; A constant temperature water utilization apparatus, comprising: a fan for blowing air toward the other end, wherein the cavity is an air conditioning space or an energy exchange equipment installation space. According to such a configuration, constant temperature water or the like can be effectively used. Further, a constant-temperature water utilization apparatus according to another aspect of the present invention is a constant-temperature water utilization apparatus that utilizes constant-temperature water, and is buried in a predetermined underground where a predetermined constant-temperature underground temperature is maintained. an underground tank for storing water; a conduit for guiding the constant temperature water stored in the underground tank to the vicinity of the conduit; and a plurality of pipes buried at a predetermined depth from the road surface. Using geothermal heat, tanks installed underground (can be installed at multiple points with different depths) are used to liquefy the geothermal heat (using water, etc.) and use it to guide it to the destination. Used to control the temperature of a place, etc. According to such a configuration, constant temperature water can be effectively used. Further, a constant-temperature water utilization apparatus according to another aspect of the present invention is a constant-temperature water utilization apparatus that utilizes constant-temperature water, and is buried in a predetermined underground where a predetermined constant-temperature underground temperature is maintained. an underground tank for storing water; a wall formed by interconnecting a plurality of hollow tubes and connecting them in a plane; a structure formed by forming a cavity inside using the wall; A constant-temperature water utilization apparatus comprising: a pipe and a circulation pump for circulating constant-temperature water stored in an underground tank through a hollow tube of the structure, wherein the hollow portion is used as an air-conditioned space. According to such a configuration, constant temperature water can be effectively used. A trolley according to an aspect of the present invention is a trolley that transports an automobile by running on a rail on which an ice surface of a frozen liquid is formed, the trolley main body supporting the weight of the transported automobile; a plurality of sleds provided on the lower surface of the truck body for gliding on the ice surface; a driving device for traveling and moving the truck body; a position information acquisition means for acquiring position information of the truck body along the rail; a control device that controls the driving device based on the position information obtained by the position information obtaining means, and causes the carriage main body to travel to a target transportation location. According to such a configuration, the vehicle can be transported in an energy-efficient manner by inertial motion due to gliding on ice with little resistance, and the driver of the transported vehicle can rest during transportation. (Constant-Temperature Water Utilization Apparatus) Hereinafter, a constant-temperature water utilization apparatus according to an embodiment of the present invention will be described with reference to the drawings. Next, with reference to FIG. 1, a constant temperature water utilization device 6 according to one embodiment of the present invention will be described. The constant temperature water utilization device 6 is a device that utilizes constant temperature water. The constant temperature water utilization device 6 includes an underground tank T, a structure 60, a pipe 62 and a circulation pump P3, and a fan 63. The underground tank T is buried in a predetermined underground space in which a predetermined constant underground temperature is maintained and stores constant temperature water. The underground space is, for example, a constant temperature environment of about 15°C throughout the year at a depth of 5 meters underground in Japan, so the constant temperature characteristic of such an underground space can be used as a blessing of nature. The temperature of the underground space is a constant temperature space with various temperature ranges according to the surrounding environment where the underground space is located, such as a warm water containing layer such as a hot spring and a ground water layer of melted snow. By selecting such an underground space and installing the underground tank T, it is possible to store and use the constant temperature water of a predetermined temperature. In the present invention, the name of water in the constant-temperature "water" stored and used in the underground tank T is a general term for water, etc., and is used as a name that includes any other liquid that can be substituted for water. It is The constant temperature "water" stored in the underground tank T and used may be, for example, a refrigerant in an air conditioner, a fluid for heat exchange, oil, or the like. The underground tank T is placed in a constant temperature underground space at a predetermined temperature, for example near an underground water layer containing constant temperature groundwater at a predetermined temperature. When the underground tank T is installed at a predetermined position, it is filled with water to a predetermined full tank amount. The water stored in the underground tank T may be groundwater at the location where the tank is installed, or tap water, for example, may be injected from the ground. By injecting into the underground tank T water having a temperature close to the original temperature of the underground space in which the underground tank T is installed, constant temperature water can be used at an early stage. The water stored in the underground tank T is pumped up from the underground tank T to the ground by the water pump P2. After being used as constant temperature water, the water stored in the underground tank T is transferred to the underground space, returned to constant temperature water underground, returned to the underground tank T, and reused as constant temperature water. be. The structure 60 internally has a cavity 61 formed by interconnecting and connecting a plurality of hollow tubes 6a made of a light-transmitting material. The cavity 61 is used as an air-conditioning space or an energy exchange equipment installation space. The structure 60 may, for example, be above ground when used in the presence of sunlight and below ground otherwise. In the case of underground, it becomes easy to use under a predetermined constant temperature. The structure 60 is used as a closed space by sealing both ends with walls formed by connecting the hollow tubes 6a. The structure 60 may be used as an open space with both ends partially open. The pipe 62 and the circulation pump P3 are used to circulate through the hollow tube 6a of the structure 60 constant temperature water stored in the underground tank T and pumped up by the water pump P2. Due to the circulation of water in the hollow tube 6a, the internal temperature of the hollow portion 61 is kept constant. A required amount of constant-temperature water is stored in the auxiliary tank T1, circulated through the hollow tube 6a, and then returned to the underground tank T. The constant temperature water utilization device 6 is provided with a recovery device for returning the water taken out from the underground tank T and used to the underground tank T. - 特許庁The recovery device includes a pipe 69 connecting the structure 60 and the underground tank T, a recovery tank Ts attached to the underground tank T, and the like. The water that is used and collected has a temperature different from the temperature of the underground space where the underground tank T is installed. Therefore, the recovery tank Ts is used to restore the temperature of the recovered water to the temperature in the underground space, that is, the constant temperature. In this embodiment, the recovery tank Ts is installed side by side with the underground tank T, but they may be separated from each other and connected with a pipe. In addition, the recovery tank Ts may include a heat exchanger configured so that the recovered water inside can quickly return to the temperature in the underground space. In addition, when the amount and temperature of the recovered water, that is, the amount of heat, is small compared to the amount of heat of the constant temperature water in the underground tank T and can be ignored, the temperature fluctuation can be ignored, so the recovered water can be directly transferred to the underground tank. It may be collected in constant temperature T water and mixed. The configuration of the pipe 62 for circulating and using the water in the underground tank T, the circulation pump P3, the auxiliary tank T1, etc. is an example, and is not limited to the illustrated configuration. You may provide equipment etc. as needed. Also, the auxiliary tank T1 may not be provided, and may be provided as necessary. Fan 63 creates a flow of air in closed cavity 61 formed by structure 60 . This air blowing eliminates stagnation of the air in the hollow portion 61 . The heat generated in the cavity 61 is blown by the fan 63 and carried to the wall surface of the hollow tube 6a to be absorbed. The structure 60 is provided with an external pipe from one end to the other end to form a closed air passage, and the blowing of the fan 63 produces a unidirectional circulating air flow within the structure 60. You can let it run. The hollow portion 61 is preferably used as an installation space for the solar panel 64, as shown in FIG. The solar panel 64 is an energy exchange device that converts solar energy into electrical energy. The solar panel 64 is located in a cavity 61 whose four surfaces are maintained at groundwater temperature, and is blown by a fan 63, so that the panel surface can be maintained at an appropriate temperature and power generation efficiency can be maintained. The target for which the appropriate temperature is maintained by such a mechanism is not limited to solar panels, but can be applied to any object. The structure 60 can have an appropriate shape that can optimize and efficiently control the temperature of the contents according to the shape of the cavity 61 and the contents that are contained therein. For example, in the case of the solar panel 64 in FIG. 2, the wall surface formed by the hollow tube 6a close to the outer peripheral surface including the front and back surfaces of the panel so that the panel can be accommodated in the minimum space. The hollow portion 61 may be a closed hollow portion 61, or may be an unsealed hollow portion 61 that is not completely sealed but partially open. Next, an application example of the constant temperature water utilization device 6 will be described with reference to FIG. This constant temperature water utilization device 6 has a plurality of (three in the illustrated example) underground tanks T and a mixer 6mx for mixing water of known temperature from each tank. The underground tanks T are individually buried in a plurality of underground depths or in underground spaces with different underground environments so as to store constant-temperature water having different temperatures t1, t2, and t3. The mixer 6mx mixes constant-temperature water with different temperatures t1, t2, and t3 obtained from the plurality of underground tanks T to produce constant-temperature water adjusted to a predetermined temperature t0 regardless of the season. to send out. This embodiment assumes a case where the temperature of water in each underground tank is constant in the short term, but seasonally fluctuates in the long term throughout the year. According to this embodiment, even if the temperature of each stored water fluctuates seasonally, a predetermined temperature can be maintained by changing the mixing ratio in consideration of the temperature difference of the water stored in T of each underground tank. . (Other Embodiments of Constant Temperature Water Utilization Apparatus) The apparatus of this embodiment is a constant temperature water utilization apparatus that utilizes constant temperature water in the same manner as the above embodiments, and maintains a predetermined constant temperature underground temperature. An underground tank T, which is buried underground and stores constant temperature water, is used. In addition to the underground tank T, the constant temperature water utilization apparatus of the present embodiment includes a conduit for guiding the constant temperature water stored in the underground tank T to the vicinity of the conduit, and a pipe connected to the conduit. and a plurality of pipes buried at a predetermined depth from the road surface for maintaining the temperature of the guide surface at a predetermined temperature with water. According to this embodiment, the underground tank T is installed 5 meters below the road or in the vicinity of the road or passage in order to prevent freezing and reduce the temperature of the road surface in summer even on the current road, and the underground tank T is installed. The constant temperature water, etc. is transferred using a pipe, etc., and the constant temperature water, etc. is circulated 10 cm below the asphalt of the road so that the road surface does not freeze or generate excessive heat. can be (Further Other Embodiments) A device of still another embodiment is a constant-temperature water utilization device that utilizes constant-temperature water as in each of the above-described embodiments, and is a constant-temperature water utilization device that maintains a predetermined constant-temperature underground temperature. It uses an underground tank T that is buried underground and stores constant temperature water. In addition to the underground tank T, the constant temperature water utilization equipment of this embodiment has a wall body formed by interconnecting a plurality of hollow tubes and connecting them in a planar shape, and a hollow portion is formed inside using the wall body. and a pipe and a circulation pump for circulating constant-temperature water stored in an underground tank to hollow tubes of the structure, and the hollow portion is used as an air-conditioned space. In this device, a pipe, a recovery pump, a recovery tank, and a bucket for sending out the water in the underground tank T and recovering it after use
Lubes, other controls, etc. may be provided. The hollow tube may or may not be transparent, and a part of the wall of the hollow portion may be made transparent to provide a light window. According to this embodiment, a futon-sized space (the size of the space may be changed, or it may be larger or smaller) is created as an air-conditioned space, and it is cool in the summer and does not freeze in the winter. Temperature can be kept in space. In addition, if water is pumped up using a motor, etc., installed in the ground of a high mountain, or in a large underground tank linked to a large-scale facility such as a water purification plant, the temperature is close to 15°C even in the summer, and if it is sent to each household, it will be water supply. Constant temperature water in the underground tank T can be used only by pressure. (Dolly that Moves with a Sled) Next, a dolly according to an embodiment of the present invention will be described with reference to the drawings. As shown in FIGS. 4 and 5, the truck 8 is a truck for transporting an automobile 90 by traveling on a pair of left and right rails 23 on which the ice surface 2a of the frozen liquid is formed. The trolley 8 includes a trolley body 80 that supports the weight of the transported automobile 90, a plurality of sleds 81 that are provided on the bottom surface of the trolley body 80 and slide on the ice surface, and a driving device (traveling wheels) that moves the trolley body 80. 85). In this embodiment, the carriage 8 further includes a transport sled 84 on which the rear wheels 9b of the automobile 90 are mounted to glide on the ice surface 2a. Since the truck body 80 shares the weight of the automobile 90 with the rail 23, the front wheel 9a on the side not mounted on the transport sled 84 is mounted. Which of the front wheels 9 a and the rear wheels 9 b is to be placed on the bogie body 80 can be arbitrarily selected according to the characteristics of the automobile 90 . The trolley 8 further includes position information acquisition means 82 for acquiring position information of the trolley body 80 along the rail 23, and the drive device is controlled based on the position information obtained by the position information acquisition means 82. to a destination of destination. The carriage 8 is provided with a braking device for controlling travel. A pair of left and right rails 23 are rails for guiding a sled 81 for gliding on ice, and the ice surface 2a is formed by freezing a liquid. The rail 23 includes a housing fixed to the road surface 20 having a concave cross-section formed with a groove in the longitudinal direction, and a refrigerant pipe arranged inside the groove for passing a refrigerant. Water is placed in the grooves of the housing and cooled by refrigerant tubes to form ice. The surface of the ice becomes the ice surface 2a when the sled 81 runs on the ice. The rail 23 may be provided with a cover to prevent rain from entering when the sled 81 is not skating on the ice, and may be provided with a drain hole for discharging water existing on the ice surface 2a. good. It is desirable that the enclosure of the cover and rails 23, for example, has a configuration for circulating underground tank water through pipes to improve cooling efficiency. A guide wheel adjacent to the outer surface of the rail 23 may be provided on the lower portion of the carriage body 80 . The guide wheels guide the carriage body 80 so that the carriage 8 runs along the rails 23 . Such guiding devices may be provided between the sled 81 and the rails 23 . For example, the structure on the rail 23 may wrap around the sled 81 so that the sled 81 does not deviate from the rail 23 . The driving device is traveling wheels 85 powered by an engine or a motor mounted on the bogie body 80 . The traveling wheels 85 are configured to move up and down with respect to the carriage body 80, and are moved upward away from the road surface 20 when not driven. When moving upward, the carriage body 80 sleds on the ice surface 2a by means of the sled 81. - 特許庁In addition, the running wheels 85 are in contact with the road surface 20 during driving to cause the carriage body 80 to travel. The running wheels 85 are also used as a braking device. The trolley 8 may be an embodiment in which the trolley main body 80 is moved by using a driving device that does not have the traveling wheels 85 . For example, a jet propulsion device or a propeller propulsion device may be mounted on the carriage body 80 and used as the drive device. A linear motor may also be used as the driving device. In this case, the line that forms the magnetic field of the linear motor may be covered with an ice surface by freezing the liquid. Further, a driving device may be formed by combining a linear motor and a traveling wheel 85 that obtains a driving force from an engine or a motor mounted on the carriage body 80 . The position information acquisition means 82 is configured using a sensor that acquires position information by successively detecting position display plates and markers provided along the rail 23, or acquires position information using a GPS function. It is good also as a structure which carries out, and it is good also as a structure which combined these. The braking device may be configured as a braking device for a vehicle that runs on ordinary tires, in which the traveling wheels 85 constituting the driving device are installed on the road surface 20 and braked. The braking device may be a braking device that does not use the traveling wheels 85 and that brakes by interacting with the rails 23 . For example, the device may have a configuration in which a brake plate provided on the side wall of the rail 23 is sandwiched between brake shoes provided on the lower portion of the carriage body 80 . Alternatively, the electromagnetic interaction between the coils arranged along the rails 23 and the coils arranged in the lower portion of the carriage body 80 may be used for non-contact braking. Further, as a device for braking without direct interaction with the rails 23, a wind plate may be arranged on the bogie body 80 and the wind pressure applied when the wind plate is spread may be used for braking. The control device 83 controls traveling of the carriage body 80 using the braking device as described above, and based on the position information obtained by the position information acquisition means 82, causes the carriage body 80 to travel to the target transportation location. Based on the positional information obtained by the positional information acquiring means 82, the control device 83 selects an appropriate route and controls travel even when the rail 23 branches. According to the truck 8 of such an embodiment, the driver of the automobile can entrust the transportation of the automobile to the truck 8, and can take a rest or do something other than driving during the transportation. The trolley 8 of the present invention is not limited to the configuration including the transportation sled 84 described above, and may be configured such that the entire automobile 90 is placed on the trolley main body 80 . Further, the drive device is not limited to one that uses the traveling wheels 85, and may be configured to use a rocket propulsion device, a propeller propulsion device, or a jet propulsion device. (Bogie According to Another Embodiment) Next, a carriage 8 according to another embodiment will be described with reference to FIG. The trolley 8 of the present embodiment has an automobile 90 mounted entirely on a trolley main body 80 and is configured to travel by the driving force of the automobile 90. Other points are the same as the trolley 8 of the above embodiment. The drive device for the truck 8 of this embodiment includes a rotation transmission device 86 that receives the rotational force of the drive wheels (front wheels 9a in this example) of the automobile 90 mounted on the truck main body 80 and transmits it to the running wheels 85. there is The rotation transmission device 86 includes a rotatable roller that supports from below the front wheel 9 a that is driven and rotated by the automobile engine, and a transmission mechanism that transmits the rotational energy of the roller to the running wheels 85 . According to the carriage 8 of such an embodiment, even without a motor or an engine for driving the traveling wheels 85, the carriage 8 can be driven by the power of the vehicle 90 to be conveyed. The driver of the car can move along with the car 90 by letting the carriage 8 travel. (Appendix) (Movement: sleigh, trolley) Using the laws of nature that the temperature around 5 meters underground in the mainland of Japan is maintained at around 15 degrees throughout the year, if a tube-shaped tunnel is grounded there, the energy required for cooling will be reduced. You can save. Alternatively, when this structure is installed on the ground and cooled, it is 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. A motor or the like for contacting the road surface or the like to transmit power may be incorporated in the truck or the like, or the power of the engine or motor of the automobile may be incorporated into the truck or the like while the automobile or the like is on the truck or the like. There are various methods, such as connecting the vehicle to a power unit such as a truck, or providing the truck with a device for transmitting the rotational force of the wheels of an automobile to the road surface, etc., when necessary. Also, even if you don't use an existing car, if you are a four-wheeled vehicle, you can attach about two wheels to the center of the car body in advance so that part does not contact the ground during normal driving. By adopting a structure that makes contact with the ground if the air pressure is changed, the four wheels can be used to ride on a cart or the like, and the remaining two wheels, etc. (rubber or iron wheels, etc.) A method of contacting parts, etc., as necessary, or giving a truck a function of a hydraulic jack so that after an automobile or the like rides on the truck, the vehicle on the truck can be raised and lowered by hydraulic pressure, etc. It is possible to change the height so as not to contact the ground or the like. A motor or the like that obtains the driving force during running can be installed on this bogie, and a part of the bogie can be powered to pull or push and connect with other bogies like a train, or a powered bogie can be used. It is also possible to reduce the installation cost by appropriately arranging them. It is also possible to monitor the movements of the carts (units) with sensors and install cameras, etc. around the cooling lanes so that the carts can be automatically controlled unattended. Solar panels, etc. are installed near the space where these cooling lanes, etc. are installed, and the power from there is led from the metal parts of the lanes, etc. to the motors of the trucks, etc. Alternatively, contactless power transmission or the like may be used. By attaching a device to the side of the tire of an automobile, etc., the rotation of the tire can be prevented from being installed on the road surface installed on the truck or the upper part of the cooling rail, etc., where there is no ice, etc. (It may be a wheel of a car) and convert the energy of the automobile engine, motor, etc. into running energy, etc. There is a method of attaching a device, etc. of a roller part that rotates accordingly to a truck, etc., and connecting it to a wheel, etc. with a mechanism that can change the rotational energy of the roller part so that the wheels of the truck do not contact the road surface. Multiple exist. In order to prevent freezing of the road surface that transmits driving energy, water, etc., which is about 15 degrees Celsius due to geothermal heat accumulated 5 meters underground, is led to the vicinity of the road surface with a pipe to prevent this. is collected by the motor pump and stored in the tank section so that it can be circulated. For emergency stop, etc., piles, etc. are installed at the rear part of the truck, etc., and if necessary, they can be lowered to the road surface, etc. to quickly stop the truck. Even in the case of obtaining energy in the direction of travel with technology such as linear motor cars, the magnetic field part of the railway track of the linear motor car is partly cooled and covered with ice etc. If you attach something that can reduce resistance at times, it is efficient because you can save the power to float vertically by electric power and concentrate most of the electric energy etc. on the energy in the direction of movement. By adjusting the direction of the levitation energy and the energy that accelerates in the traveling direction of the maglev train, the levitation energy is minimized in order to save electrical energy as much as possible. Adjust the balance to be efficient. Even if it does not actually float, it can run with reduced resistance because it warps and the like. From the point of view of riding comfort, it is also possible to sprinkle a small amount of water or the like on a frozen object. A linear motor car may be equipped with a sled and the above power wheels. The inside of the tunnel can be kept in a near-vacuum state to eliminate wind loss and reduce noise. You may install the energy transmission part which uses magnetic force in a linear motor car, and the device of a sled separately. Attach wings to the upper part of the vehicle and lift
By obtaining force and controlling air resistance, the friction with the frozen lane can be reduced and adjusted to reduce the frictional force applied to the vehicle against the cooling lane. You can also push down on the It is also possible to insert the sled into the cooling lane so that the sled or the like does not derail from the cooling lane so that the cooling lane is shaped like a fastener so that the sled or the like does not come off. By changing the direction of the wing and adjusting the balance of lift force on the left and right, it is possible to make it easier to turn when making a curve. The flaps can also be adjusted to increase air resistance when decelerating. In case of an emergency stop, the parachute can be pulled out of the vehicle. To prevent the parachute from getting entangled, the device with the parachute can be detached from the rear of the vehicle and moved along the lane while obtaining the effect of the parachute. You can park safely. The parachute device is connected by wires through the device that moves on the cooling lane, and the device and the vehicle are also connected by wires. Various energy sources for moving goods such as vehicles are conceivable, such as wheel drives, jet engines, etc., and propellers attached to the side or rear of the vehicle. After accelerating considerably, it flies in the direction of travel toward the sky, and from there it glides, or uses rockets, such as jet engines, etc. attached to the mobile body as power, or the lift of the wings, etc. to move at high speed, or launch artificial satellites, etc. It can also be put into orbit while saving fuel. There is a method such as sufficiently accelerating with a cooling rail and ejecting upward, then separating only the satellite etc. (separating by the pressure of compressed gas etc.) and further accelerating using a jet engine etc. A jet engine or the like or a rocket or the like may be used from the beginning and accelerated on the cooling rail. In order to cool the part where the sled part is in contact, the heat absorption plate of the freezer is elongated and installed there, or a special heat absorption device is used, or a large compressor or the like and underground water at a constant temperature are used. Efficient temperature control is considered. Exhaust heat from compressors, etc., may be used secondary to run the Stirling engine, etc. The compressor draws water from 5 meters underground and circulates it around the compressor using pipes, etc., and heat exchange is performed at the necessary place, so that it can be used as a countermeasure for exhaust heat. In order to cool the water, etc. in the cooling lane, a pipe is installed near it, and gas, etc. without humidity is put in there. Then, cold air such as dry ice can be flowed using a fan or the like, or a tank filled with carbon dioxide in a state of low pressure can be used to suck in the outlet of a pipe. After recovering the carbon dioxide at the end, it is possible to save the storage space for the carbon dioxide and the like by using another pipe or the like to flow the cooling gas in the opposite direction in the same way. Fans can also be installed in the middle of pipes, etc., as required. Carbon dioxide collected through the pipe can be reused as dry ice or the like. It is also possible to obtain carbon dioxide gas by heating dry ice in a vacuum state and introduce it into a pipe or the like. When sending it to a pipe, etc., compress it to increase the speed. 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. Water is pumped using a motor, etc., installed in the ground of a high mountain, or a large underground tank linked to a large-scale facility such as a water purification plant. can be used for pumping, etc. The cost of the cooling tower can be reduced by circulating underground tank water at a temperature of about 15°C, etc., by attaching a copper or the like with a closed structure to the top of the cooling rail (lane) or the like. Cooling rails, lanes, etc. are closed by electric motors, especially in the summer, so that heat is not exchanged as much as possible. leave it to (Appendix) (Movement: sledding) In order to stop trains in an emergency, install pipes, etc., under the train track, and pour oil, etc. (gases, etc. that have been considered viscosity etc. may be used) there. 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. In order to reduce the air resistance of the train, the train door is flipped up and the vehicle height is lowered by getting on and off from there. When the pressure of pipes containing liquids and gases such as bends used for brakes exceeds a certain level, they will come off (or mechanically remove the plug (remotely remove liquids, gases, etc. inside the pipe) A device that can open and close a door etc. provided for passage) or a hole etc. is provided in another pipe to connect a pipe etc. that allows liquids and gases to pass through and transmit pressure to the next section etc. If pressure is applied by connecting a plug for decompression in a compartment with a plate, etc., or a separate dedicated hole in the adjacent compartment, liquids, gases, etc. will move to that compartment. Normally, the pipe contains liquid, gas, etc. in a moderate proportion, and it is possible to prevent a sudden shock from being given to the vehicle, etc. Also, if necessary, the pipe It is also possible to prepare a dedicated device (hydraulic pump, etc.) that can send liquids, gases, etc. to the piles, so that oil, liquids, solids, etc. can be quickly sent to the required section when needed. In order to reduce the impact on the vehicle when connecting the vehicle and the pressure pipe, a shock absorber such as a spring or a hydraulic shock absorber is installed between the vehicle and something like a pile (hooking structure). It is also possible to install a shock absorber etc. When freezing a liquid such as water in the cooling lane, a gas such as carbon dioxide is filled in a pipe etc. and compressed or blown there. It is also possible to pressurize and send vaporized dry ice such as , and collect it at the end of the pipe to make it dry ice again or to a very low temperature before it solidifies and separate it. (Additional note) (Movement: sled) When sliding a vehicle, etc. using a cooling rail, etc., the wheels, etc., that transmit power are reliable. It is also possible to coat the lanes with a rough material, cover the wheels with rubber, etc., or use rubber tires, etc. In addition, superconducting magnets, magnets, etc. are installed on the sides and underside of the vehicle. It is also possible to generate electricity by installing coils etc. on the side or center of the lane.It is also possible to install magnets etc. on the side of the lane such as coils on the vehicle side.Battery is mounted on the vehicle and the drive motor is operated. It can be moved and charged with the generated electricity.Also, it can be balanced with the side by using electromagnetic force like a linear motor car. It is also possible to operate a motor car as a set and use the power generated by a vehicle using a cooling lane to drive a linear motor car. (Additional note) (Underground tank) 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 made of a material that allows light to pass through. A pipe-shaped structure is installed nearby and an underground tank, etc. (main island of Japan, which is kept almost constant all year round at a depth of 5 m. Since the temperature changes depending on the well, etc., the depth can be changed by changing the depth. The same effect can be obtained.) You can control the temperature of the solar panel by running water of about 15 ° C from the It is put on and water of about 15°C, which is installed about 5 meters underground, is poured and collected in an underground tank or the like. At this time, in order to keep an object such as a solar panel (no particular restrictions, other substances or objects are also possible) at an appropriate temperature, place pipes etc. around the object to keep the temperature can manage. At this time, it is not always necessary to blow air with a fan, and to control the heat around objects and substances that you want to keep at an appropriate temperature, use water (liquid, coolant, etc.) as a medium to control the heat. Utilizing the constant temperature property of the underground, it is used by moving it with a pipe or the like. In order to keep the target object (solar panel, etc.) at an appropriate temperature, liquids, water, etc., coolants that match the dimensions of the target object (solar panel, etc.) in advance so that it flows accurately around the target object (solar panel, etc.) While retaining the heat, it moves through the pipe and is collected in a tank installed 5 meters underground, where the temperature is lower than the outside temperature in summer and warmer in winter due to the ground temperature. You can build a system to make the most of it. 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 will increase the amount of power generated by installing a similar device on the solar panels 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. (Additional notes) Even on current roads, in order to prevent freezing and reduce the temperature of the road surface in the summer, water, etc. in tanks installed 5 meters underground is installed at the bottom of roads and passages, etc., using pipes, etc. By circulating it 10 centimeters below the asphalt on the road, the road surface 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. Water is pumped using a motor, etc., installed in the ground of a high mountain, or a large underground tank linked to a large-scale facility such as a water purification plant. can be used for pumping, etc. Cooling rails (lanes) or the like are covered with a closed structure or the like, and the underground tank water of about 15°C is circulated there to reduce the cost of the cooling tower. Cooling rails, lanes, etc. are closed by electric motors, especially in the summer, so that heat is not exchanged as much as possible. leave it to an object, such as an object
Replace the wheels of trains, etc. with sleds, etc. Then, instead of the railroad tracks, a width that is just right for a sled or the like to pass through is placed, and water or the like is placed in that portion, and electricity or the like is used to cool it to ice, etc. to reduce friction and reduce energy loss as much as possible. . It is used for acceleration and deceleration by contacting wheels, etc. between rails. In order to reduce the resistance when the vehicle speeds up, the wheels can be retracted into the vehicle body using electricity or the like so that they do not come into contact with the ground. The sledding part slides on the frozen road surface, etc., but has a rail structure with a protruding shape so that it does not derail sideways. Tires or the like that come in contact with the side of the rail may be attached to the sled or the like in order to reduce the impact or the like at a curve or the like. Design the route so that it descends little by little and use gravity energy as acceleration force. Although it is possible to design a route with no difference in elevation, the cost of construction is calculated and even if it is an uphill route, friction is reduced by sleds, so inertial energy can be used as an energy source to move objects to high ground. be able to. Even on a slight downward slope, the resistance of the contact portion of the vehicle body, etc., is extremely low, so the vehicle, etc., can be rapidly accelerated even if only a small amount of energy is given from the contacting tires, etc. The same thing can be said even when it is not in contact with the ground such as a linear motor car. In addition, air resistance is prevented by making the inside of the tunnel, such as a tube surrounding the vehicle, as vacuum as possible. When you arrive at a station, open the hatch attached to the vehicle and provide a passageway to the outside, or install a door that opens and closes up and down, such as a partition hatch in the tunnel, and partially inflate the section such as the station. Therefore, a method for allowing passengers to enter and exit the vehicle is conceivable. If rain enters the cooled road surface, make a hole or the like to escape from the side or attach a rain cover. 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. A motor or the like for contacting the road surface or the like to transmit power may be incorporated in the truck or the like, or the power of the engine or motor of the automobile may be incorporated into the truck or the like while the automobile or the like is on the truck or the like. There are various methods, such as connecting the vehicle to a power unit such as a truck, or providing the truck with a device for transmitting the rotational force of the wheels of an automobile to the road surface, etc., when necessary. Also, even if you don't use an existing vehicle, if you have a four-wheeled vehicle, you can attach about two wheels to the center of the vehicle body in advance, and that part will not contact the ground during normal driving. By adopting a contact structure, the four wheels can be used to ride on a truck, etc., and the remaining two wheels, etc. can be brought into contact with the ground using hydraulic pressure, etc., or the truck can be equipped with a hydraulic jack function. After the car or the like runs on the truck, the car on the truck can be raised and lowered by hydraulic pressure or the like to change the height of the car's tires or the like so as to prevent contact with the ground or the like. By attaching a device to the side of the tire of an automobile, etc., the rotation of the tire can be prevented from being installed on the road surface installed on a trolley, etc. Connected to the tire, etc., the energy of the automobile engine, motor, etc. There is a method of converting the energy into running energy, etc., and a device such as a roller part that rotates according to the rotation of the tires by rotating the engine etc. on the spot without changing the position of the vehicle passing during the vehicle inspection is attached to the truck. There are multiple methods of connecting the rotational energy of the roller portion to wheels with a mechanism that can be changed so that the wheels of the trolley do not contact the road surface. In order to prevent freezing of the road surface that transmits the driving energy, the water, etc., which is about 15 degrees Celsius due to the geothermal heat accumulated 5 meters underground, is led to the vicinity of the road surface through pipes to prevent this and prevent the water from freezing. It is collected in the tank part again by the motor pump and it is made possible to circulate. For emergency stop, etc., piles, etc. are installed at the rear part of the truck, etc., and if necessary, they can be lowered to the road surface, etc. to quickly stop the truck. Even in the case of obtaining lateral energy with technology such as linear motor cars, it is enough to cool a part of the magnetic field part of the linear motor car track and cover it with ice etc. and attach a sled. This is efficient because it saves the vertical floating force by the electric force and concentrates most of the electric energy on the horizontal energy. To save electric energy and the like as much as possible by adjusting the direction of magnetic force energy applied to levitation energy and energy to accelerate in the traveling direction of a linear motor car. A linear motor car may be equipped with a sled and the above power wheels. To eliminate loss due to wind and reduce noise by making the inside of a tunnel close to a vacuum state. You may install the energy transmission part which uses magnetic force in a linear motor car, and the device of a sled separately. In order to cool the part where the sled part is in contact, the heat absorption plate of the freezer is elongated and installed there, or a special heat absorption device is used, or a large compressor or the like and underground water at a constant temperature are used. Efficient temperature control is considered. Exhaust heat from compressors, etc., may be used secondary to run the Stirling engine, etc. By installing the compressor in a space where water, etc. drawn from 5 meters underground is circulated using pipes, etc., it can be used as a countermeasure for exhaust heat. 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 is circulated below the road or passage using a pipe or the like. This prevents the road surface from freezing or generating 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. If water is pumped up using a motor, etc., installed in the ground of a high mountain, or in a large underground tank linked to a large-scale facility such as a water purification plant, the water pressure can be reduced by sending cold water to each household with a temperature of close to 15°C even in summer. The cost can be reduced by circulating the water, and a roof or cover can be installed at a position higher than the vehicle height to protect it from rain and sun. It can be opened and closed automatically by a motor or the like when a vehicle is passing. It replaces the wheels of a train with a sled, etc., by carrying an object, such as a thing. Then, instead of the railroad tracks, a width that is just right for a sled or the like to pass through is placed, and water or the like is placed in that portion, and electricity or the like is used to cool it to ice, etc. to reduce friction and reduce energy loss as much as possible. . It is used for acceleration and deceleration by contacting wheels, etc. between rails. In order to reduce the resistance when the vehicle speeds up, the wheels can be retracted into the vehicle body using electricity or the like so that they do not come into contact with the ground. The sledding part slides on the frozen road surface, etc., but has a rail structure with a protruding shape so as not to derail sideways. The sled may be fitted with tires or the like that come in contact with the side of the rail in order to reduce the impact on the curve or the like. Design the route so that it descends little by little and use gravity energy as acceleration force. Although it is possible to design a route with no difference in elevation, the cost of construction is calculated and even if it is an uphill route, friction is reduced by sleds, so inertial energy can be used as an energy source to move objects to high ground. be able to. Even on a slight downward slope, the resistance of the contact portion of the vehicle body, etc., is extremely low, so the vehicle, etc., can be rapidly accelerated even if only a small amount of energy is given from the contacting tires, etc. The same thing can be said even when it is not in contact with the ground such as a linear motor car. In addition, air resistance is prevented by making the inside of the tunnel, such as a tube surrounding the vehicle, as vacuum as possible. When you arrive at a station, open the hatch attached to the vehicle and provide a passageway to the outside, or install a door that opens and closes up and down, such as a partition hatch in the tunnel, and partially inflate the section such as the station. Therefore, a method for allowing passengers to enter and exit the vehicle is conceivable. A hollow hole is provided at the end of the lane so that rainwater, etc., that enters the structure on the lane, which is cooled and kept at a temperature with low resistance, can quickly escape. should be constructed on the aisle so that rainwater, etc., can flow out. A roof should be attached to the upper part to prevent rainwater and have a structure that can shield everything around it. When shielding, it is covered with a transparent material that allows light to pass through, strong plastic, or a structure that connects PET bottles, etc., where water, etc. was originally contained in PET bottles, and water, etc. Inflow from an underground tank installed in a place where the temperature is maintained at around 15 degrees throughout the year using a pump, etc. If this is done, the space where cars and the like pass will be close to 15°C, and if the flow rate of the liquid is adjusted, the cost of the air conditioner 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 there, or you can increase the confidentiality of the solar panel by making it waterproof so that the panel is filled with shallow water. 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 will increase the amount of power generated by installing a similar device on the solar panels 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. In the underground tank, install a pipe about 5 cm in length and width (the approximate scale can be freely changed) for water, etc., which is heated to about 15°C by the ground temperature, and set up a passage around it to allow water to flow. The water in the above-mentioned underground tank is allowed to flow through the structure, and a fan or the like is attached to the end of the pipe to blow air. When the air, etc. moves through the pipe with the force of a fan, etc., it exchanges heat with the surrounding water, etc.
If it is summer, it will gradually cool down. 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. Although this device can be installed indoors, it can also be installed at a constant temperature of about 5 meters underground. 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. 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 with a constant soil temperature about 5 meters underground, or the water is blown into the water in the tank installed at 5 meters underground to raise the temperature to 15 ° C. close to the day 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. Even large-scale tanks can be installed underground without any problems. Efficiency is high if the temperature of the compressed air is adjusted using the above mechanism 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 (which can be in 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 power to turn the turbine of hydroelectric power generation using gravity to generate electricity and to turn the 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. This can be said to be a semi-permanent free energy that utilizes the gravity of the earth. Compressed air (gas), dry ice, etc. and Taisei gas (Oomasa gas, HHO, GAS, etc.) are set at a deep point where water pressure is applied to a vertical tank filled with liquid water etc. Then add heat from electricity and chemical reactions, etc., and ignite Taisei gas (a mixture of hydrogen and oxygen is also possible), and the heat causes dry ice to expand, and compressed air is also generated. Similarly, by generating upward kinetic energy against water pressure (gravity) and allocating it to the water wheel, etc., the water wheel is turned. 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. The wing part opens and closes, but it is not closed completely, but it is slightly open so that air enters and spreads out. . 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 the water cannot be rotated and loss occurs, the drop is about 10 meters, and it is dispersed in thinner pipe-shaped tunnels and tubes. 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 transmits the energy of the water wheel, etc., can be stretched horizontally as it is to increase airtightness so that water does not flow out of the water tank. It is also possible to change the direction and transmit the rotation to the upwardly extending shaft, and when the upper part of the tank reaches a height where it can contact the outside air, the energy can be transmitted to the gear or the like to be used as a power source. 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 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. A motor or the like for contacting the road surface or the like to transmit power may be incorporated in the truck or the like, or the power of the engine or motor of the automobile may be incorporated into the truck or the like while the automobile or the like is on the truck or the like. There are various methods, such as connecting the vehicle to a power unit such as a truck, or providing the truck with a device for transmitting the rotational force of the wheels of an automobile to the road surface, etc., when necessary. Also, even if you don't use an existing vehicle, if you are a four-wheeled vehicle, you can attach two additional wheels to the center of the vehicle body in advance so that part does not contact the ground during normal driving. By using a structure that makes contact with the ground, such as by changing the four-wheel part, use the four-wheel part to ride on the truck, etc., and use the remaining two wheels, etc., to contact the ground as needed. To prevent contact with the ground or the like by changing the height of tires, etc., of the automobile by making it possible to raise and lower the vehicle on the truck by means of hydraulic pressure, etc. after the automobile, etc., rides on the truck by giving the function of a jack. be able to. A motor or the like that obtains the driving force during running can be installed on this bogie, and a part of the bogie can be powered to pull or push and connect with other bogies like a train, or a powered bogie can be used. It is also possible to reduce the installation cost by appropriately arranging them. Solar panels, etc. are installed near the space where these cooling lanes, etc. are installed, and the power from there is led from the metal parts of the lanes, etc. to the motors of the trucks, etc. Alternatively, contactless power transmission or the like may be used. By attaching a device to the side of the tire of an automobile, etc., the rotation of the tire can be prevented from being installed on the road surface installed on a trolley, etc. Connected to the tire, etc., the energy of the automobile engine, motor, etc. There is a method of converting the energy into running energy, etc., and a device such as a roller part that rotates according to the rotation of the tires by rotating the engine etc. on the spot without changing the position of the vehicle passing during the vehicle inspection is attached to the truck. There are several methods of connecting the rotational energy of the roller portion to wheels with a mechanism that can be changed so that the wheels of the trolley do not contact the road surface. In order to prevent freezing of the road surface that transmits driving energy, water, etc., which is about 15 degrees Celsius due to geothermal heat accumulated 5 meters underground, is piped to the vicinity of the road surface to prevent this and prevent water from freezing. It is collected in the tank part again by the motor pump and it is made possible to circulate. In order to make an emergency stop, etc., piles, etc., are installed at the rear part of the truck, etc., and if necessary, they can be brought down to the road surface, etc., so that the truck can be stopped quickly. Even in the case of obtaining energy in the direction of travel with technology such as linear motor cars, the magnetic field part of the railway of the linear motor car is partly cooled and covered with ice etc. and moved by sledding If you attach something that can reduce resistance at times, it is efficient because you can save the power to float vertically by electric power and concentrate most of the electric energy etc. on the energy in the direction of travel. By adjusting the direction of the levitation energy and the energy that accelerates in the traveling direction of the maglev train, the levitation energy is minimized in order to save electrical energy as much as possible. Adjust the balance to be efficient. Even if it does not actually float, it can run with reduced resistance because it warps and the like. A linear motor car may be equipped with a sled and the above power wheels. To eliminate loss due to wind and reduce noise by making the inside of a tunnel close to a vacuum state. You may install the energy transmission part and sled device which use the magnetic force in a linear motor car separately. In order to cool the part where the sled part is in contact, the heat absorption of the freezer
Efficient temperature control can be conceived, such as installing a thin plate or the like, using a dedicated heat absorption device, or using a large compressor or the like and underground water at a constant temperature. Exhaust heat from compressors, etc., may be used secondarily to power Stirling engines, etc. By installing the compressor in a space where water, etc. drawn from 5 meters underground is circulated using pipes, etc., it can be used as a countermeasure for exhaust heat. 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 centimeters below the road surface, etc., it prevents freezing and excessive heat generation. It is also possible to increase the cooling efficiency in the summer by allowing circulating water or the like to flow through a pipe or the like also around the sled portion. 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. Water is pumped using a motor, etc., installed in the ground of a high mountain, or a large underground tank linked to a large-scale facility such as a water purification plant. can be used for pumping, etc. Cooling rails (lanes) or the like are covered with a closed structure or the like, and the underground tank water at about 15°C is circulated there to reduce the cost of cooling or the like. Cooling rails, lanes, etc. are closed by electric motors, especially in the summer, so that heat is not exchanged as much as possible. leave it to When a liquid such as water in a cooling lane or the like is iced, compressed air or gas can be sent through a pipe or the like passing through the inside of the liquid or ice to cool the liquid or the ice with the heat of vaporization.



Conventionally, there has been known a pellet stove equipped with a fuel supply device capable of automatically supplying solid fuel by finely pulverizing raw materials for fuel of non-uniform shape, solidifying them into a substantially uniform shape, and forming them into pellets. (For example, refer to Patent Document 1: Japanese Unexamined Patent Publication No. 2008-224075). In addition, conventionally, rock wool cubes are arranged at predetermined intervals on the upper part of the rock wool slab, nutrient solution is supplied to the plant to be cultivated for each rock wool cube, and the nutrient solution is supplied from the side of the rock wool slab on the lower stage of the rock wool cube. A plant-growing apparatus configured to recover and reuse waste liquid such as liquid is known (see, for example, Patent Document 2: Japanese Unexamined Patent Application Publication No. 05-211823). In addition, conventional aquatic organism breeding apparatus is constructed so that water flow is applied to a loop water tank forming a closed circuit to make the water flow in a loop, and the fish swim in the opposite direction of the water flow, thereby improving the quality of the fish flesh. is known (see, for example, Patent Document 3: Japanese Patent Application Laid-Open No. 01-243933). Also, conventionally, there is a cooking pot in which a water tank is attached to the lid and water supply means for supplying water from the water tank into the pot is provided so that water can be supplied into the pot without opening the lid during cooking. (See, for example, Patent Document 4: Japanese Utility Model Publication No. 58-032730). In addition, conventionally, there is known a wood cutting device equipped with a circular saw or a chain saw in which a cutting edge is provided on the outer circumference of the rotating plate or the loop outer circumference of the loop-shaped chain (for example, Patent Document 5: JP 2019-188489, Patent document 6: Japanese Patent Laid-Open No. 2000-254901). Conventionally, when creating land in a valley space, the valley space is reclaimed with earth and sand, and various structures are built on the top surface of the reclaimed land, or it is used as farmland or open space. In addition, there is known a three-dimensional land reclamation structure for the purpose of creating a natural environment area on the surface of the earth by raising the human living environment and leveling the land without destroying the natural environment (for example, , Patent Document 7: Japanese Unexamined Patent Publication No. 2003-193688). In addition, conventionally, a typhoon control method is known in which a cover that prevents the generation of water vapor from the sea surface is stretched so as to cover the sea surface, thereby preventing the occurrence of a typhoon due to the evaporation of sea water ( For example, refer to Patent Document 8: Japanese Patent Application Laid-Open No. 03-180609). However, in the fuel supply device as disclosed in JP-A-2008-224075, which is described above, a screw conveyor, a coil conveyor, or the like is used by using power, and the power for operating the conveyor is is necessary. SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems and to provide a fuel supply device capable of supplying solid fuel without requiring power. In order to achieve the above object, the fuel supply device of the present invention is a fuel supply device for introducing solid fuel of a predetermined shape into a combustion chamber, the fuel supply device being disposed at a height higher than the combustion chamber, and supplying the solid fuel in a predetermined shape. a fuel storage that can store more than the quantity; a fuel conduit that guides the solid fuel stored in the fuel storage to the combustion chamber; wherein the fuel conduit has a structure that allows the solid fuel to move to the combustion chamber by its own weight, and the solid fuel has a shape that allows it to roll and move along the fuel conduit. do. According to such a configuration, since the solid fuel has a shape that allows the solid fuel to roll along the fuel conduit, it is possible to supply the solid fuel without requiring power simply by operating the stopper. In addition, in the plant growing apparatus as disclosed in the above-mentioned Patent Document 2: Japanese Patent Application Laid-Open No. 05-211823, since the waste liquid is collected from the side surface of the long rock wool slab, a large area of plant land can be used. To form a slab, many long rockwool slabs must be laid side by side, limiting the efficiency of land use. SUMMARY OF THE INVENTION The present invention is intended to solve the above problems, and provides a plant-growing apparatus capable of constructing a large-area cropland similar to a field for open-field cultivation, and capable of recovering and utilizing the fertilizer that has not been absorbed by the plants. With the goal. In order to achieve the above object, the plant growing apparatus of the present invention includes a container structure having a bottom wall and a side wall to prevent liquid leakage, and a large number of flow paths arranged at the bottom of the container structure. a filter layer that permeates liquid downward through a filter layer; a soil layer that is disposed above the filter layer and holds plants for growing; and a recovery device for collecting the permeated liquid after permeation and recovering the fertilizer contained in the liquid for reuse. According to such a configuration, the liquid that seeps from the soil layer to the filtration layer is permeated to the bottom of the filtration layer and collected. can be constructed, and the manure content can be efficiently recovered and utilized. In addition, in the aquatic organism breeding apparatus as disclosed in the above-mentioned Patent Document 3: Japanese Patent Application Laid-Open No. 01-243933, the loop water tank has a large cross-section, and since the flow of water is rectified over the entire cross-section, must be provided in the loop water tank. Since the fish cannot pass through the rectifying device, the fish cannot circulate in the loop aquarium, and stays in only a part of the loop aquarium to migrate. For this reason, the entire apparatus becomes large, and a large site is required. SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems and to provide an aquatic organism breeding apparatus capable of suppressing the expansion of the space occupied by the apparatus and improving the utilization rate of the space. In order to achieve the above object, an aquatic organisms growing apparatus of the present invention is an aquatic organisms growing apparatus used for raising aquatic organisms, which is a loop-shaped loop water tank for storing living environment water in which the aquatic organisms live. and a water flow generating device for generating a water flow in the living environment water contained in the loop water tank, and generation or disappearance of relative velocity between the food holder attached with the food to be given to the aquatic organisms and the living environment water. and a speed adjusting device for allowing the loop water tank to move, and the loop water tank is configured to have a width narrowly limited so that a plurality of the aquatic organisms cannot move in parallel. According to such a configuration, since the width of the loop water tank is narrowed according to the width of the aquatic organisms, the cross section of the loop water tank can be narrowed, and the space occupied by the water tank can be narrowed. In addition, by limiting the movement space of the aquatic organisms in the left-right direction, the energy consumption of the aquatic organisms to be raised can be suppressed, and the cultivation can be promoted. In addition, in the cooking pot as shown in the above-mentioned Patent Document 4: Japanese Utility Model No. 58-032730, the water supplied from the water tank flows directly into the inner space of the pot from one point in the upper center of the pot. Since it is dripped and concentrated in one place, it cannot be uniformly supplied to the food to be cooked distributed inside the pan. SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems and to provide a cooking pot capable of supplying cooking liquid to the objects to be cooked distributed in the pot without unevenness in location. In order to achieve the above object, the cooking pot of the present invention includes a pot body, a lid, and a liquid tank disposed on the top of the lid and containing a cooking liquid to be supplied to the pot body. In the cooking pot, the liquid tank has an adjustment structure for adjusting the amount of the liquid supplied to the pot body, and the lid has a structure that adjusts the liquid supplied from the liquid tank to the circumference of the lid. and supply it to the inner peripheral portion of the pot body, and the pot body has a pot groove structure that guides the liquid supplied to the inner peripheral portion to the central portion of the pot body. It is characterized by According to such a configuration, the liquid for cooking can be supplied to the inner peripheral portion of the pot body by the lid groove structure and guided to the central portion of the pot body by the pot groove structure, so that it is not unevenly distributed. Liquid for cooking can be supplied to the pot body. In addition, in the wood cutting device as disclosed in the above-mentioned Patent Document 5: Japanese Patent Application Laid-Open No. 2019-188489 and Patent Document 6: Japanese Patent Application Laid-Open No. 2000-254901, basically, the movement of the cutting blade mechanically As it cuts timber, it generates mechanical vibrations and noise. In addition, in such a mechanical device, since the cutting edge portion and the drive portion are arranged close to each other, only a person who can support the weight of the device can use it when the cutting work is carried out by hand. SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems, and to provide a wood cutting apparatus that does not generate mechanical vibration or noise and that can be used even by people with weak strength. In order to achieve the above object, the wood cutting apparatus of the present invention is a wood cutting apparatus for cutting wood by carbonizing it with a flame, which contains a nozzle for ejecting the flame and a raw material gas that becomes the flame in a pressurized state. and an ejection adjusting device for guiding the raw material gas from the cylinder to the nozzle and adjusting the ejection amount and the ejection speed of the raw material gas. According to this structure, since the wood is carbonized and cut, there is no mechanical vibration or noise. . In addition, land development by conventional land reclamation does not consider the use of the landfill space itself. In addition, in the land development structure as disclosed in the above-mentioned Patent Document 7: Japanese Patent Application Laid-Open No. 2003-193688, a three-dimensional land is created on the surface of land having a desired size. It is assumed that there is a flat area of the desired size. The present invention is intended to solve the above problems, and has a space useful for human activities in the reclaimed space, and is created by reclaiming in a method that is effective for global environmental conservation. The purpose is to provide a land development structure that In order to achieve the above objects, the land preparation structure of the present invention is a land preparation structure in which a flat land is created in a reclamation space surrounded by slopes on at least two opposite sides, wherein the reclamation space is formed of wood. It is characterized by having a space useful for human activity, including a living space or a space for installing urban infrastructure, inside surrounded by the wood blocks. According to such a configuration, since the wood that has absorbed and accumulated carbon dioxide in the global environment is used for landfilling with the carbon dioxide accumulated inside, it is possible to suppress an increase in greenhouse gases. can contribute to global environmental conservation. In addition, the combined structure of wood blocks can form a space useful for human activity in the landfill space, enabling effective use of space and land development. Further, in the typhoon control method disclosed in the above-mentioned Patent Document 8: Japanese Patent Application Laid-Open No. 03-180609, a cover made of a vinyl chloride resin sheet or the like is put between floating bodies floating on the sea surface to prevent evaporation. There is, and it means throwing man-made objects into the sea with marine pollution. SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems and to provide a typhoon control method capable of controlling a typhoon without causing marine pollution. In order to achieve the above objects, the typhoon control method of the present invention is a typhoon control method for preventing the typhoon from expanding its force or changing the course of the typhoon, wherein water is maintained at about 15°C all year round in an underground tank. , artificially chilled water, dry ice, and ice, and the selected cooling substance is injected into the typhoon generation region or movement direction region, and It is characterized by preventing the expansion of typhoon power or changing the course by lowering the seawater temperature in the typhoon. According to such a configuration, water, which is a component of seawater, and dry ice composed of carbon dioxide released into the air are used to lower the seawater temperature, so typhoons can be controlled without causing marine pollution. (Fuel Supply Device) Hereinafter, a fuel supply device according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4. FIG. FIG. 1 shows a configuration example of a fuel supply device 1, FIG. 2 shows a fuel supply device having a spiral fuel conduit, and FIG. 3(a) shows spherical solid fuel and a fuel conduit. ) shows a wheel-shaped solid fuel and a fuel conduit, FIG. 3(c) shows a solid fuel with a rotating shaft and a fuel conduit, and FIG. 4 shows the external shape of the solid fuel. The fuel supply device 1 is a device that puts a solid fuel 10 having a predetermined shape into a combustion chamber 11, which is a combustion place. The fuel supply device 1 is arranged at a higher place than the combustion chamber 11 , and includes a fuel storage 12 capable of storing a predetermined amount or more of solid fuel 10 , and a fuel guide for guiding the solid fuel 10 stored in the fuel storage 12 to the combustion chamber 11 . A passage 13 and a stopper 14 for adjusting and stopping the injection amount of the solid fuel 10 into the combustion chamber 11 are provided. The solid fuel 10 has a shape such as a spherical shape, a wheel shape, or a shape having a rotating shaft.
, it has a shape that allows it to roll or slide along the fuel conduit 13 and move under its own weight. The fuel conduit 13 has a configuration that allows the solid fuel 10 to move to the combustion chamber 11 under its own weight according to the shape of each solid fuel 10 . The solid fuel 10 is, for example, a combustible material such as wood or charcoal that has been processed into the size of a golf pole. The solid fuel 10 is made by scraping a fuel such as wood or charcoal into a rolling sphere, compressing it or crushing it into a spherical shape. The solid fuel 10 can also be obtained by putting the raw material into a spherical mold or the like (having a shape like a broken ball with a hollow inside) and pressing. The fuel conduit 13 may be pipe-shaped, gutter-shaped, groove-shaped, or slide-shaped. It is sufficient that the solid fuel 10 has a shape that allows the solid fuel 10 to roll or slide along the fuel conduit 13 and move under its own weight. The fuel conduit 13 may have an inclined structure that speeds up or slows down the movement speed of the solid fuel 10 that moves under its own weight. The fuel supply state can be known by configuring the fuel conduit 13 so that the solid fuel 10 on the conduit can be seen with a window, a groove shape with an open top, or made of a transparent material. Such a fuel conduit 13 can have the function of interior furnishings together with the solid fuel 10 inside it and its movement. The surface of the solid fuel 10 may be decorated with a colorful coating layer 10a in order to enhance its function as an indoor furnishing item. The solid fuel 10 may have a coating layer 10a for preventing moisture, promoting combustion, or imparting aesthetics, and a moisture-proof material or combustion promoting material may be kneaded into the solid fuel 10 . The solid fuel 10 may have a hole through which air passes to prevent moisture, promote drying, promote combustion, and the like. The stopper 14 is a device that can stop or allow the solid fuel 10 to pass in the middle of the fuel conduit 13 (e.g., it is electrically raised and lowered), and controls the movement of the fuel to the combustion chamber 11 and the like. is. At least one stopper 14 should be provided so as to block the fuel conduit 13, but it is preferable to provide a plurality of stoppers 14. As shown in FIG. In the embodiment of FIG. 1, five stoppers 14 are provided. If there is one stopper 14 , it is preferably provided at the outlet of the bunker 12 , which is the connection from the bunker 12 to the fuel conduit 13 , for example. According to such a configuration, since the solid fuel 10 has a shape that allows it to roll along the fuel conduit 13, the solid fuel 10 can be moved into the combustion chamber 11 simply by operating the stopper 14 without requiring power. can supply. (Plant Growing Apparatus) Hereinafter, a plant growing apparatus according to an embodiment of the present invention will be described with reference to FIG. The plant-growing device 2 includes a container structure 20 having side walls 20a and a bottom wall 20b to prevent leakage of liquid, a filter layer 21 arranged at the bottom of the container structure 20, and a filter layer 21 arranged above the filter layer 21. , a soil layer 22 that holds plants 24 for growth, and a collection device 23 that collects liquid that seeps below the filter layer 21 . The liquid is, for example, water that is sprayed from above the plants 24, and is water in which fertilizer components applied to the plants 24 are dissolved. The filter layer 21 has a large number of flow paths, and allows liquid that seeps from the soil layer 22 to the filter layer 21 to permeate downward. For the filter layer 21, for example, a porous material such as natural or artificial pumice stone, or an aggregate of such porous materials, such as rock wool, a natural or artificial material having a network structure such as nonwoven fabric, or the like can be used. . The filter layer 21 may be configured by laying a large number of PET bottle-like blocks. The liquid moves to the lower part of the filter layer 21 through a number of channels, which are the gaps between the blocks. The recovery device 23 includes a pipe 23a, a pump 23b, and a processing device 23c. The pipe 23a is connected to a processing device 23c via a pump 23b. By operating the pump 23b, the liquid that has moved to the lower part of the filter layer 21 is collected in the processing unit 23c through the pipe 23a. The recovery device 23 allows the liquid that seeps from the soil layer 22 to the filter layer 21 to permeate below the filter layer 21, collects the permeated liquid, and recovers it in the processing device 23c. The processing device 23c of the recovery device 23 performs processing for reusing the fertilizer contained in the recovered liquid. The recovery device 23 may comprise various structures below the filter layer 21 for liquid recovery. For example, a structure may be provided in which conduits with a large number of holes are laid under the filter layer 21 and connected to the pipes 23a. Further, a groove may be provided in the bottom wall 20b so that the liquid flows toward the pipe 23a. Between the filter layer 21 and the bottom wall 20b, a space 21a may be provided in which liquid accumulates and flows. The bottom wall 20b may be sloped so that the liquid flows toward the pipe 23a. Moreover, the processing device 23c may be installed below the filtration layer 21 and the bottom wall 20b so that the liquid can be recovered without using the pump 23b. The container structure 20 may form a growing space whose top is open, closed, or openable. The cultivating space with an open top is similar to an open field, and can easily form a large-area cultivated land, which can be used, for example, as a paddy field for rice cultivation. According to such a configuration, the liquid that seeps from the soil layer 22 to the filter layer 23 is permeated to the lower side of the filter layer 23 and collected. It is possible to construct a cropland of an area and, moreover, to efficiently recover and utilize the manure. (Aquatic life growing device) Hereinafter, an aquatic life growing device according to an embodiment of the present invention will be described with reference to FIGS. 6 to 9. FIG. The aquatic organisms targeted by this device are animals that migrate toward water currents, and will be explained using fish as an example. As shown in FIGS. 6 and 7, the aquatic organisms nurturing apparatus 3 includes a loop-shaped loop water tank 30 for storing living environment water 3b in which aquatic organisms 3a live, a water flow generator 31, and food to be given to the aquatic organisms 3a. and a speed adjusting device 33 that generates or eliminates the relative speed between the bait holder 32 attached with and the living environment water 3b. When the aquatic organism 3a is a saltwater fish, the living environment water 3b is seawater. In this embodiment, the loop water tank 30 is grounded underground. In the underground space, the underground water temperature becomes a predetermined constant temperature, so that the water temperature control of the loop water tank 30 is facilitated. The water flow generating device 31 generates a water flow in the living environment water 3 b contained in the loop water tank 30 in a direction along the shape of the loop water tank 30 . In this embodiment, the water flow generator 31 includes a pump 21a, a water suction pipe 31b connected to the pump 31a, and a water transmission pipe 31c. The water suction pipe 31b sucks water from the loop water tank 30, and the water supply pipe 31c supplies water to the loop water tank 30, thereby generating a water flow in the loop water tank 30 due to the momentum of the water absorption and water supply. The water flow in the loop water tank 30 may be generated by blowing compressed air into the loop water tank 30 . The water flow generator 31 can slow down, speed up, or reverse the water flow. The loop aquarium 30 has a narrow width so that a plurality of aquatic organisms 3a cannot move in parallel. In the case of large fish, the width of the area where the fish, which is the aquatic organism 3a, is swimming is, for example, about 50 cm to 100 cm. The loop water tank 30 is configured so that the aquatic organisms 3a can circulate. The aquatic organisms 3a are raised in the loop water tank 30 in a posture of swimming against the current. The aquatic organisms 3a eat food from the food holders 32 while they are circling. The speed adjustment device 33 can move the bait holder 32 in the direction of the water flow or in the direction opposite to the water flow, and can change the relative speed between the bait holder 32 and the living environment water 3b. Such change in relative speed can also be performed by the water flow generator 31 . The aquatic life growing apparatus 3 adjusts the feeding method for the aquatic life 3a by means of the speed adjusting device 33, thereby reducing the energy consumed by the aquatic life 3a for feeding, for example. FIG. 8 shows a configuration for transferring aquatic organisms 3a between two tanks 30A, 30B. A communicating water tank 30C and a moving wall 34 are provided between the loop water tank 30 (30A) and another water tank 30B that stores the living environment water 3b. By opening the moving wall 34, the two water tanks communicate with each other via the communication water tank 30C. The moving wall 34 opens in a direction in which the aquatic creatures 3a can move naturally. In other words, the water flow in the three water tanks 30A, 30B, and 30C is controlled so that the aquatic organisms 3a can move smoothly in a mode in which a car running on a certain highway diverges from the highway and merges with another highway. is connected. The moving wall 34 operates in conjunction with the water flow generator 31 and is configured to smoothly connect the water flow and transfer the medium creatures 3a between the two water tanks 30A and 30B. FIGS. 9(a) and 9(b) show how the aquatic organisms 3a are transferred between the loop water tank 30 (30A) and another water tank 30B containing the living environment water 3b. The loop water tank 30 (30A) has a higher water surface level than the other water tanks 30B. A discharge valve 35 separates the two water tanks. By opening the discharge valve 35, the aquatic organisms 3a can be moved together with the water flow overflowing from the loop water tank 30 (30A) to the other water tank 30B. According to such a configuration, since the width of the loop water tank 30 is narrowed according to the width of the aquatic organisms 3a, the cross section of the loop water tank 30 can be narrowed to narrow the space occupied by the water tank. Further, by restricting the movement space of the aquatic organisms 3a in the horizontal direction, the energy consumption of the aquatic organisms 3a to be raised can be suppressed and the cultivation can be promoted. (Cooking Pot) Hereinafter, a cooking pot according to an embodiment of the present invention will be described with reference to FIGS. 10 to 13. FIG. The cooking pot 4 includes a pot body 40 , a lid 41 , and a liquid tank 42 arranged on the top of the lid 41 and containing a cooking liquid 4 a to be supplied to the pot body 40 . The liquid tank 42 is fixed to the upper portion of the lid 41 via a heat insulating material 44 . The cooking pot 4 is suitably used, for example, to crack an egg into the pot, cover it, and heat it to make a fried egg. The lid 41 has a lid groove structure 41 a that guides the liquid 4 a supplied from the liquid tank 42 to the periphery of the lid 41 and supplies it to the inner peripheral portion of the pot body 40 . The lid body 41 has a dome-shaped outer shape with a raised center, and six lid groove structures 41a are provided by the roof of the dome. Each lid groove structure 41 a is a groove formed from the center of the lower portion of the liquid tank 42 to near the periphery of the lid 41 . The liquid 4a flowing out from the lower part of the liquid tank 42 flows down along the groove, spreads from the end of the groove, and enters the pot body 40 from the peripheral edge of the lid 41.例文帳に追加The number of grooves of the lid groove structure 41a is not limited to six, and may be more or less than six. The pot body 40 has six pot groove structures 40a for guiding the liquid 4a supplied to the inner peripheral portion thereof to the central portion of the pot body 40. As shown in FIG. The number of grooves of the pot groove structure 40a is not limited to six, and may be more or less than six, like the lid groove structure 41a. The inner surface of the pot body 40 other than the peripheral portion may be substantially flat, although the flow of the liquid 4a toward the center becomes better as the surface becomes lower toward the center. The depth of the pot groove structure 40a may be made deeper toward the central portion of the pot body 40. - 特許庁In addition, a depression may be provided in the central portion of the pan body 40 to serve as a place for the liquid 4a to accumulate. The liquid tank 42 has a cylindrical container 42a and a container lid 42b as a structure for containing the liquid 4a. Further, the liquid tank 42 has an adjusting structure 43 for adjusting the amount of liquid 4a supplied to the pot body 40 . The adjustment structure 43 has an on-off valve 43a provided at the center of the lower portion of the container 42a, and a valve operating portion 43b provided at the center of the container lid 42b. The on-off valve 43a has a valve that closes a plurality of discharge holes provided in the bottom surface of the container 42a from below, and a spring that presses the valve against the discharge holes to close them. The on-off valve 43a is normally closed. The valve operation part 43b has a vertically movable shaft extending from the upper center of the container lid 42b to just above the center of the on-off valve 43a. The axle is held by a spring in the upper end position of travel. When the operator lightly presses the upper portion of the valve operating portion 43b with a hand, the shaft moves the on-off valve 43a downward to open the discharge hole, and when the operator releases the hand, the discharge hole closes. When the on-off valve 43a is opened, the liquid 4a in the liquid tank 42 is supplied to the lid groove structure 41a, and the liquid 4a flows down along the lid groove structure 41a.
, are supplied to the inside of the pot body 40 . In the adjustment structure 43 described above, the valve operation portion 43b may be fixed in a state of being pushed into a predetermined position in arbitrary steps. In the fixed state, the supply of the liquid 4a can be continued under the supply amount according to the state in which the valve operation portion 43b is pushed. According to such a configuration, the cooking liquid 4a can be supplied to the inner peripheral portion of the pot body 40 by the lid groove structure 41a and guided to the central portion of the pot body 40 by the pot groove structure 40a. The liquid for cooking can be supplied to the pot body 40 without bias. (Wood Cutting Apparatus) Hereinafter, a wood cutting apparatus according to an embodiment of the present invention will be described with reference to FIGS. 13 to 17. FIG. The wood cutting device 5 is a device that carbonizes and cuts the wood 59 with a flame 5a. The wood cutting device 5 includes a nozzle 50 for ejecting a flame 5a, a cylinder 51 for containing a pressurized raw material gas that will become the flame 5a, the raw material gas is introduced from the cylinder 51 to the nozzle 50, and the ejection amount and ejection amount of the raw material gas are determined. and a jet regulator 52 for adjusting speed. The nozzle 50 can be used as a single nozzle 50, or can be arranged and fixed on an arc using an assembly jig 53 to integrate a plurality of nozzles 50 (three in the embodiments of FIGS. 15 and 16). It can also be used with a configuration that Such a plurality of nozzles 50 that are arranged on an arc and integrated are preferably used when cutting a cylindrical piece of wood 59 along a cutting line 59C along its outer circumference. Further, the integrated nozzle 50 can perform cutting easily and with high positional accuracy by using a relative movement device that relatively moves the nozzle 50 and the wood 59 along the cutting line 59C set in the wood 59 . The relative movement device includes an arc-shaped rail 54 and a moving table 55 that moves the plurality of nozzles 50 integrated by the assembly jig 53 along the arc-shaped rail 54 . When cutting, the cutting operator can proceed with the cutting work only by fixing the rail 54 to the wood 59 and moving the movable table 55 along the rail 54 . The movement of the moving table 55 may be automatically performed. The wood cutting device 5 may be provided with a cooling nozzle 50W for spraying a cooling fluid on both sides of a cutting line 59C set in the wood 59, and used together with the nozzle 50 during cutting. The wood cutting device 5 may also include a cooling nozzle 50W that sprays a cooling fluid onto the carbonized surface of the wood 59 after cutting. By cooling the cut surface using the cooling nozzle 50W, it is possible to prevent carbonization of the cut portion due to residual heat. With such a configuration, since the wood 59 is carbonized and cut, there is no mechanical vibration or noise. But easy to use. (Land Development Structure) Hereinafter, a land development structure according to an embodiment of the present invention will be described with reference to FIG. The land preparation structure 6 is a structure in which a flat land is prepared in a reclamation space 60 surrounded by slopes on at least two opposite sides. The reclaimed space 60 is reclaimed by stacking wood blocks made of wood, and has a usable space 61 useful for human activities, including a living space or a space for installing urban infrastructure, inside surrounded by the wood blocks. . The upper part of land preparation structure 6 can be utilized as flat land 62 . According to such a configuration, since the wood that has absorbed and accumulated carbon dioxide in the global environment is used for landfilling with the carbon dioxide accumulated inside, it is possible to suppress an increase in greenhouse gases. can contribute to global environmental conservation. In addition, the use space 61 useful for human activities can be formed in the landfill space 60 by the combination structure of the wood blocks, and the effective use of the space and land development can be achieved. (Typhoon Control Method) Hereinafter, a typhoon control method according to an embodiment of the present invention will be described. This typhoon control method is a method of preventing the expansion of typhoon power or changing the course of a typhoon. One or more cooling substances are selected from the group of cooling substances, and the selected cooling substances are injected into the typhoon generation area or movement direction area to lower the seawater temperature in the area, thereby preventing the expansion of the typhoon force or This is a method of changing course. According to such a configuration, since the seawater temperature is lowered by using dry ice composed of water, which is a component of seawater, and carbon dioxide released into the air, typhoons can be controlled without causing marine pollution. (Appendix 1: Fuel supply device) (C: Effective use of wood, etc.) It is made by scraping fuel such as wood or charcoal into a rolling sphere, compressing it, crushing it, and reprocessing it into a sphere. When processing fuel, the necessary materials are placed in a spherical mold (a work that can be done to return the mold to a spherical shape by inserting the workpiece into something with a hollow inside that looks like a ball split). can also be done by pressing In order to prevent the fuel, etc. from absorbing moisture or deteriorating, it is also possible to insert a hole through which air passes through the inside of the fuel, to mix moisture absorbent, antiseptic, deodorant, etc., or to coat the outside. And it is possible to easily move a fixed number to the burning place by rolling by gravity or the like, and it is also effective as an interior. It is also possible to heat a certain space using the heat of a combustion device, for example, create a certain space inside with a structure that combines PET bottles etc. You can also heat a liquid, etc. with heat and circulate it in a structure made of a plastic bottle, etc. You can also control the temperature of For example, combustible materials such as wood and charcoal processed into golf poles are placed in a container higher than the combustion area, and the combustion area is connected with a pipe, etc., so that rolling objects can be stopped or passed. It is also possible to control the movement of fuel to the combustion chamber or the like by attaching a device (for example, a stopper that can be electrically raised and lowered). By automating the time and effort of putting firewood, the energy of the forest can be used efficiently. If the cart rolls to the combustion space using gravity or the like and moves automatically, refueling and the like become easy and usability is good. It can be handled with a single switch like a conventional air conditioner, and you don't have to refuel so frequently, so you can save time and effort. There is also an interior element by making it spiral and passing through a loop-shaped gap when the fuel rolls. After the fuel is processed into a spherical shape, the surface of the fuel is slippery and can be easily stored. It should be coated with plastic, etc. (a naturally-derived raw material that does not easily emit harmful gases when burned). For safety, a stopper or the like is attached to the fuel supply passage to block the flow. A device for measuring the concentration of carbon monoxide in the space is also installed and interlocked with it to automatically activate the stopper in an emergency to enhance safety. A seismometer can also be attached to automatically operate a stopper or the like. In order to maintain airtightness so as not to touch the outside air as much as possible between the place where the fuel is stored and the route where the fuel passes, etc. Isolate the outside air from the fuel, etc. It is also possible to open the stopper or the like when it passes through, but otherwise close it so that the outside air does not enter. (Appendix 2: Plant growth device) (P: Reuse of fertilizer, new form of agriculture, etc.) A space created by connecting PET bottles, etc. Arrange them side by side in an area of 20 meters in length and 10 meters in width, and do the same for the ceiling part. This makes it possible to reuse the scattered manure and the like without escaping into the ground. If you sprinkle water on top of the soil, it will seep into the soil and the fertilizer will get on the bottom of the PET bottle. It becomes cool, and it is drawn out from the end part of a connected PET bottle or the like, stored in an underground tank, and reused or processed to make fertilizer or the like from there. PET bottles, etc. are stacked on top of each other at the bottom, or filled with water at first to increase the strength, and the water, etc. in the PET bottles, etc. in the part that receives the fertilizer, etc. in the lower part is removed to some extent after adding soil, etc. You can also say. Considering the impact on the ecosystem, the bottom part of the structure made of PET bottles, etc. It is also possible to circulate water, etc., oxygen, etc. in places such as places), and by making a hole in the lower part of a structure such as a plastic bottle that is suitable for that place, it will penetrate into the soil. 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. It is also possible to prevent the diffusion of fertilizers used for agriculture or the like to the outside from the shielding material by using such a shielding material. (Appendix 3: Aquatic organisms breeding device) (T: Raising fishes) When breeding fishes, etc., the space is made into a loop-shaped structure, and the direction close to the vertical direction to the wall of the space where the fishes, etc. are filled with water, etc. Accelerate to avoid collision. Create a space using a plastic bottle or the like as described above and put water in it. The upper part may also be covered with a material such as a plastic bottle. Then, a pump is used to suck out the water or the like in it and pressurize it to blow it out, or send compressed air or the like in one direction to give the water or the like rotation in a certain direction. The width of the loop-shaped structure where the fish is swimming should be about 50 to 100 cm (just a guideline). The water flow can also be stopped. A buoyant object with bait (it can float by buoyancy or move the bottom part) is rotated like the hands of a clock, and its movement is controlled by the actions of fish, etc., chasing it. You can make the water flow clockwise or counterclockwise, and you can freely change the direction of the bait movement. If the flow of water and the bait are the same and the speed of the bait is slightly increased, the fish can eat the bait with a little movement. If you move the bait in the opposite direction to the water flow or if you put the bait in and out of the water, the fish will concentrate on it and stay in almost the same place for a long time. The above method is particularly applicable to fish and the like that cannot breathe without movement. It can also be used to control the movement of fish etc. together with water flow and bait by setting up a net etc. in a place where there is water etc. and where there are fish etc. If you use power to move the bait attached to the resting place of the space where the fish, etc. It can be moved in a circular motion (for example, by applying power to stick food etc.), or it can be moved straight depending on the shape of the water tank or the like. In addition, it is possible to move a wall or the like that automatically moves to a space where fishes are reared, etc., from a tank in which light fishes, etc. are circularly wrapped, to a space of another tank. Then, in order to return the fish, etc. from that space to the circular loop-shaped tank, etc., the above-mentioned door or the like is installed, and the water flow is introduced from the circular loop into the isolated space where there is no water flow, and the pressure creates another exit. There is a method of returning to a circular loop tank from etc., and making the wall around the tank with no water flow higher than that of the circular loop and incorporating water etc. into it by pumping and allowing the fish to rise to the trading area for a while. By automatically moving the etc. to guide the fish and using the water channel etc. designed to flow toward the circular loop through the door of the tank etc. A fish or the like rides on the water current and moves toward the circular loop. (Appendix 4: Cooking pot) (Fried eggs: equal efficiency) To prevent the white part from burning when frying fried eggs, etc.
, to add function to cookware, etc. A space is provided in the upper part of the lid, etc., to put water, etc., and it is moderately dropped from the hole around the lid. The size of the hole should be adjustable with screws or the like. Make a line in the bottom part of the frying pan so that the water that falls to the bottom will flow there. It is also possible to make it easier to move to the middle by making the middle yolk and inserting 12 lines like clock hands and making the slope deep in the middle. When you want to concentrate the heat on the egg yolk instead of the flame on the stove, the center of the gas outlet of the stove is the most gas, and the surrounding area has little or no gas. Prepare a shape. Switch the gas pipe etc. with a lever or the like so that it can be divided into normal, where most of the heat goes to the middle, and where the heat goes only to the middle. (Additional Note 5: Wood Cutting Apparatus) (A: Cutting Wood, etc.) When cutting wood, etc., HHO gas, Oomasa gas, etc. are used to cut at high speed in order to increase efficiency. Apply gas or the like locally at high speed. After cutting, cool completely by pouring water nearby. A nozzle for ejecting water or the like may be provided at the gas ejection port or the like so that the water or the like ejected from the nozzle does not heat the surroundings more than necessary. The shape of the nozzle can be elongated to apply water only to a small area. In order to increase the efficiency, it is also possible to cut the gas or the like in a short period of time by making a plurality of ejections. You can make a circle and set it around a tree, or you can cut about 70% of the tree in a shape like a crescent moon. In order to eliminate the need for people to support the chainsaw, etc., a strong rod-like object that can be fixed to a tree, etc. Fixed, etc. Then, hydraulic pressure or the like is applied between the part supporting the rotary blade of the chain saw or the like and the rod or the like fixing the tree or the like to the chain saw body so that the chain saw blade can be pressed in a certain direction. can be done. The parts that support the application of hydraulic pressure can be changed as needed to improve efficiency. (Additional Note 6: Land development structure) (I: Carbon dioxide fixation, etc., living space, etc.) Create a space where humans can live by using materials such as wood that store carbon dioxide and the like. Since wood etc. fix carbon dioxide in the atmosphere, it can be used as a building material for space without burning it. This wood or the like is used to fill a space where water is accumulated in a large dam or the like like a building block, or to create a space or the like in which a human being can be active. Like the three great pyramids of Egypt, wooden pillars and the like can be built tightly to provide an appropriate amount of space inside. (It is possible to create a space larger than New York's Central Park. Airplane runways can also be created there.) If places such as dams in the mountains are utilized in this way, a vast space can be obtained. To prevent wood from rotting, it can be coated with a material such as a PET bottle that does not allow water to pass between it and the ground. If a large dam like the Kurobe Dam is replaced with a space where people can live using this kind of technology, people about the size of a single city can live there, so the purchase price of timber can also be adjusted to match freight costs. can. Dam water can be put in by providing a space in the lower part of such an elliptical body, by providing a space in the upper part of the structure or around the inside, etc., or by creating a small dam at the end of the dam. can also In addition, it is possible to create a space in the upper part of such a structure using a plastic bottle, etc., and use it to control the room temperature inside, and by shielding it from the outside air, the lower part It can prevent the temperature from becoming excessively hot due to the heat of the sun, and from being cooled by the atmosphere in the winter. In order to prevent deterioration of lumber and the like, it is also possible to properly arrange chemicals, materials, etc. for moisture proofing and corrosion. Urban functions can be concentrated in a structure with a height of 50 meters or 100 meters (the scale can be freely selected), a vast space can be created in a place with clean air, and carbon dioxide etc. can be stored semi-permanently. You can also If the carbon dioxide emitted by mankind is stored in this way, new and clean housing and work spaces can be developed, and both the climate change problem and the energy problem can be solved. Even against earthquakes, etc., the surroundings are in contact with the mountain surface, etc., making it a much stronger structure and almost no risk of collapse. As for housework, the air is controlled by pipes from the outside, so there is no risk of the fire spreading by shutting off the air. By appropriately circulating water, etc., in an underground tank, etc., it can be used for air conditioning as well as for fire extinguishing. It is a structure in which wood etc. are combined like stones of a pyramid, and a space is provided inside, and materials such as PET bottles are used in the internal space, etc. to circulate water etc. from an underground tank. It can be used to control the temperature inside and around the space. Of course, lumber and the like can also be lumbered and assembled into a cube. For reinforcement, we also use pillar bonding techniques that do not use nails, etc., which can be combined with steel frames, etc. By creating a large flat space in the upper part, etc., it is possible to create a free space for sports and recreation. It is possible to store timber etc. on a large land (no need to saw lumber) and construct a space where humans can live. The Antarctic and the Arctic, for example, have large lands and are less likely to rot in terms of climate. (It can be stored for a long time by taking it with you. You don't have to use lumber, etc.) Therefore, before or after the occurrence of a typhoon or hurricane, large tankers carry water that is maintained at around 15 degrees Celsius all year round in underground tanks or artificially cooled water to the target point and discharge it. do. Then, by lowering the sea surface temperature, etc., it prevents typhoons and hurricanes from developing, prevents the expansion of their power, and changes the course of typhoons and hurricanes. Multiple large tankers are dispatched and released in large quantities at the same point, or many in a long straight line or circle. You can use dry ice instead of water or use ice. It is also possible to prepare ice and dry ice onboard ships and facilities and store them in tankers equipped with refrigeration equipment, or to install equipment for refrigeration, cold storage, dry ice production and storage, etc. in large transportation means such as tankers. For ice and dry ice, for example, if a block of 10 cubic meters is sliced horizontally into 10 equal parts, and these blocks are successively fed from a tanker or the like, even 300,000 tons of ice can cover a considerable area. It can prevent a large amount of hot water from being absorbed by the eye of a typhoon or hurricane over it. By adjusting the ballast of the transport ship on the left and right, ice and other objects can be slid on the slope and dropped overboard, or lifted with a hydraulic jack and tilted to slide overboard speedily. can work. In order to shorten the time it takes for transport ships to arrive at their destinations, etc., prepare in advance a large facility on the sea that can manufacture and store special floating ice, dry ice, etc. From there, typhoons and hurricanes When this starts to occur, it is possible to transport ice, dry ice, etc. to the desired location using a transport ship or the like. A tugboat-like ship can be used to adjust the position of ice on the sea, and a hovercraft can be used to carry ice to the destination at high speed. You can also secure the surroundings with ropes etc. to keep ice and dry ice together at sea. It is also possible to inform the surroundings of the presence of ice or the like by using GPS or the like. As the typhoon progresses, you can continue to adjust the ice by pulling it to the eye of the typhoon using the power of the ship. You can also set it. In transportation means such as a tanker, it is also possible to put a cooling agent or the like between the outer wall of the hull and a storage place for ice or the like to enable efficient cold insulation and storage. The principle of using ice, dry ice, cold water, etc. can also be used to deal with general rainfall fronts and rainfall phenomena.



It replaces the wheels of a train with a sled, etc., by carrying an object, such as a thing. Then, instead of the railroad tracks, a width that is just right for a sled or the like to pass through is placed, and water or the like is placed in that portion, and electricity or the like is used to cool it to ice, etc. to reduce friction and reduce energy loss as much as possible. . It is used for acceleration and deceleration by contacting wheels, etc. between rails. In order to reduce the resistance of the wheels and the like when speeding up, it is possible to adopt a structure in which electricity or the like is used so that the wheels and the like do not come into contact with the outside, etc., and can be retracted into the vehicle body. The sledding part slides on the frozen road surface, etc., but has a rail structure with a protruding shape so as not to derail sideways. Tires or the like that come in contact with the side of the rail may be attached to the sled or the like in order to reduce the impact or the like at a curve or the like, or a bank angle or the like may be added to the rail body. It is also possible to attach another wheel etc. to the car body etc. like a course at the place of the mini 4WD and respond with it at the time of the curve. In consideration of air resistance, etc., it is normally stored inside the vehicle and installed on the side wall of the vehicle, etc., with tires attached to struts, etc., that can be deployed instantaneously by gas pressure or spring force when necessary in an emergency. It is also possible to make it easier to turn corners by contacting walls, etc. Install a suitable wing that is parallel to the side wall etc. at a certain position from the side of the vehicle (Considering the structure that it is always exposed, air resistance etc. When it is not necessary, it can be stored in the floor, side, etc. of the vehicle.) If you run in a manner that keeps a slight distance from it and the side wall, there will be a ground effect due to air resistance. This creates a repulsive force on the left and right walls, which can counteract the outward force applied to the vehicle, allowing the vehicle to turn a curve in a stable manner. Design the route so that it descends little by little and use gravity energy as acceleration force. Although it is possible to design a route with no difference in elevation, the cost of construction is calculated and even if it is an uphill route, friction is reduced by sleds, so inertial energy can be used as an energy source to move objects to high ground. be able to. Even on a slight downward slope, the resistance of the contact portion of the vehicle body, etc., is extremely low, so the vehicle, etc., can be rapidly accelerated even if only a small amount of energy is given from the contacting tires, etc. The same thing can be said even when it is not in contact with the ground such as a linear motor car. In addition, air resistance is prevented by making the inside of the tunnel, such as a tube surrounding the vehicle, as vacuum as possible. When you arrive at a station, open the hatch attached to the vehicle and provide a passageway to the outside, or install a door that opens and closes up and down, such as a partition hatch in the tunnel, and partially inflate the section such as the station. Therefore, a method for allowing passengers to enter and exit the vehicle is conceivable. A hollow hole is provided at the end of the lane so that if rainwater or the like enters the structure on the lane, which is cooled and kept at a temperature with low resistance, ice, etc. at the contact point can quickly escape. It should be constructed on the passageway so that rainwater, etc., can flow out. In order to maintain the temperature of the lane in a cooled and frozen state, the temperature of the tank installed about 5 meters underground is used to circulate it around the lane using a pipe made of a plastic bottle or the like. It can also reduce the energy used to manage the temperature. In order to freeze the water in the cooling lane, the liquefied carbon dioxide or the like can be flowed through a pipe or the like in the vicinity of the cooling lane to cool the water. A roof is attached to the upper part to prevent rainwater, etc., and to have a structure that can shield everything around it. 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 In the underground tank, install a pipe about 5 cm in length and width (the approximate scale can be freely changed) for water, etc., which is heated to about 15°C by the ground temperature, and set up a passage around it to allow water to flow. The water in the above-mentioned underground tank is poured into the structure, and a fan or the like is attached to the end of the pipe to blow air. 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. Although this device can be installed indoors, it can also be installed at a constant temperature of about 5 meters underground. 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. PET bottles or the like are connected to form a certain rectangular space, and PET bottles or the like are connected to make a structure or the like in the space. Then, as described above, it is made possible to pour liquids, etc., and things to be dried or moistened are put in the places where air was sent in the above. At this time, it is possible to pack tightly so as not to delay the air, etc., or it is possible to have a gap to some extent so that hot air, etc. can flow through it. For example, when evaporating sea water to take out salt, etc. Space for sea water, space for warm air to flow above, plate-shaped passage made using PET bottles etc. under it (may be slightly slanted) Create a space where water can flow. It is also possible to enclose the outer periphery with a plastic bottle or the like and pressurize the entire inside with a compressor or the like. Evaporation of sea water is accelerated by the power of sunlight or by running hot water, and further accelerated by sending warm air or the like. When the humidity rises, the pressure inside the chamber pressurized by the compressor is returned to normal pressure, and cold water from an underground tank or the like flows through the pipe. When the humidity drops and the temperature in the vicinity cools down, water droplets that come out of the air all at once flow down the installed plate and move to the lowest position. By adopting such a structure, the speed at which seawater etc. evaporate is increased. If necessary, the outer periphery constructed with a PET bottle or the like is covered with a transparent film or plastic so that it can withstand pressure. A filter or the like for countermeasures against salt damage can be installed at a place such as a fan or the like for taking in or discharging outside air when the air inside the apparatus is discharged to the outside. Salt damage is caused by fine particles generated when waves break and carried by the wind. Place a hatch in a ventilated area so that it can withstand pressurization inside. By making this device out of a transparent material such as a PET bottle, the power of sunlight can be transmitted efficiently. A black material (a black sheet, etc.) is spread on the bottom of the device or the like to further efficiently utilize energy such as sunlight. This device can be installed in a space such as a solar panel where sunlight is required to obtain salt while preventing the temperature of the solar panel from rising. For the lower part, a pedestal or the like is made from a transparent material such as a plastic bottle according to the installation angle of the solar panel, and the angle of the device is adjusted. Water or the like can also be used, for example, to clean dirt or the like from the top of such structures. And if you install a filter etc. that collects dust etc. when it reaches a specific point together with water etc., you can reduce the trouble of cleaning etc.
. 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 A space created by connecting PET bottles, etc. (non-PET bottles or exclusive ones are acceptable) For example, PET bottles are lined up in an area of 20 meters in length and 10 meters in width, and they are lined up in a row on the ceiling. In the same way, fill the space between the parts with soil, etc. to make a rice-growing area. This makes it possible to reuse the scattered manure and the like without escaping into the ground. If you sprinkle water on top of the soil, it will seep into the soil and the fertilizer will reach the bottom of the PET bottle, so make a few holes to some extent and put it inside the PET bottle from there. It becomes cool, and it is drawn out from the end part of a connected PET bottle or the like, stored in an underground tank, and reused or processed to make fertilizer or the like from there. PET bottles, etc. are stacked on top of each other at the bottom, or filled with water at first to increase the strength, and the water, etc. in the PET bottles, etc. in the part that receives the fertilizer, etc. in the lower part is removed to some extent after adding soil, etc. You can also say. Considering the impact on the ecosystem, the bottom part of the structure made of PET bottles, etc. It is also possible to circulate water, etc., oxygen, etc. in places such as places), and by making a hole in the lower part of a structure such as a plastic bottle that is passed therethrough, it will permeate into the soil. 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. For example, if a creek or the like around a house is made of concrete, there may be little or no water in the dry season. The ground can be effectively used by burying the above structures made of plastic bottles or the like in such places so that water or the like can flow between them. When river water is managed by the national government or municipalities, it is often the case that concrete gutters are made, but if this is done, ground space will be wasted if there is almost no water flowing. Also, if the boundary line of the land is a river, originally the river is narrow and only a large amount of water passes for a short period of time, but the land is occupied fixedly throughout the year and is unfairly occupied by the landowner. There is a possibility that it may lead to a situation such as In addition, it lacks rationality in the design of gutters, etc., where water or the like does not normally flow, but the width is excessively large, or the gutters are made shallow. When making a gutter with a width of 1.5 meters and a depth of 50 centimeters, if the width is 50 centimeters and a depth of 1.5 meters, the ground part can be effectively used as much as 1 meter. It can be said that the land that can be originally used by the landowner becomes close to the area that the original landowner has. Although the river does not exist as a land category in the registry, it is an existence that the administrator is set, so there are many cases where it is not necessary to pass the current situation. If a river, which is normally only 10 centimeters wide, has a gutter with a width of 1.5 meters, the land owner becomes aware of the problem and cancels the right to use the original land. It is also possible to use this subterranean water supply system to store water. 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. Also, it is possible to construct a structure made of such a plastic bottle or the like, provide a shield from the outside, and insert a bed or the like in which a person can sleep. In the case of the elderly, etc., it is possible to attach a device to take a shower on the spot, or to construct a toilet, etc. in the shielded space. It is also possible to clean the shielded interior by filling it with water or the like on a regular basis, or to remove harmful substances contained in the air through an air filter on a daily basis. If installed in a hospital, etc., the air space in the hospital can be cleaned from ammonia and the like. This is particularly effective when a large number of people who cannot move due to their physical condition are gathered and when they cannot take a shower or the like by walking on their own. If a shower facility or the like is added to a space shielded with a PET bottle or the like, a shower or the like can be done there, cleaning the space and saving the trouble of moving to the bathroom. It is also possible to collect futons and the like during a shower or the like and change them into new ones. In short, to avoid situations where the ammonia concentration is likely to rise, shield that part with a plastic bottle or the like like the inside of a spacecraft. You can attach fitness equipment to this device, or you can attach a body washing device that I have patented. It is also possible to attach wheels to the device so that it can be moved. It is also possible to connect the operation space and the sleeping space in a manner shielded from the outside by a space made of a PET bottle or the like. Since ammonia is a substance that causes such an odor even in a very small amount, it should be considered that its influence on the ecology and the like is enormous, and it is socially important to take this into consideration. It is also possible to use coffee grounds or the like as a filter to remove ammonia and the like from the inside of the space. To prevent the fish or the like from colliding with a wall or the like of a space in which the fish or the like is filled with water or the like by accelerating it in a nearly vertical direction by forming a loop-shaped structure in the space when breeding the fish or the like. Create a space using a PET bottle or the like and put water in it. The upper part may also be covered with a material such as a plastic bottle. Then, a pump is used to suck out the water or the like in it and pressurize it to blow it out, or send compressed air or the like in one direction to give the water or the like rotation in a certain direction. The width of the loop-shaped structure where the fish is swimming should be about 50 to 100 cm (just a guideline). The water flow can also be stopped. A buoyant object with bait (it can float by buoyancy or move the bottom part) is rotated like the hands of a clock, and its movement is controlled by the actions of fish, etc., chasing it. You can make the water flow clockwise or counterclockwise, and you can freely change the direction of the bait movement. If the flow of water and the bait are the same and the speed of the bait is slightly increased, the fish can eat the bait with a little movement. If you move the bait in the opposite direction to the water flow or if you put the bait in and out of the water, the fish will concentrate on it and stay in almost the same place for a long time. The above method is particularly applicable to fish and the like that cannot breathe without movement. It can also be used to control the movement of fish etc. together with water flow and bait by setting up a net etc. in a place where there is water etc. and where there are fish etc. If you use power to move the bait attached to any place in the space where the fish, etc. It can be moved in a circular motion, or it can be moved straight depending on the shape of the water tank. It is also possible to use an automatically moving wall or the like in a space for breeding fish or the like to move the fish or the like from a circularly looped tank to another tank. Then, in order to return the fish, etc. from that space to the circular loop-shaped tank, etc., the above-mentioned door or the like is installed, and the water flow is introduced from the circular loop into the isolated space where there is no water flow, and the pressure creates another exit. There is a way to return the fish to the circular loop tank from the bait, or to make the wall around the tank with no water flow higher than that of the circular loop and add water etc. to it with a pump etc. so that the fish can rise to a slightly higher place. By automatically moving the etc. to guide the fish, and using the water channel etc. designed to flow toward the circular loop through the door of the tank etc. A fish or the like rides on the water current and moves toward the circular loop. 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. Compressed air, etc. (in gaseous form or in a form such as dry ice) instead of storing electricity
stored as 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. Compressed air (gas), dry ice, etc. and Taisei gas (Oomasa gas, HHO, GAS, etc.) are set at a deep point where water pressure is applied to a vertical tank filled with liquid water etc. Then add heat from electricity and chemical reactions, etc., and ignite Taisei gas (a mixture of hydrogen and oxygen is also possible), and the heat causes dry ice to expand, and compressed air is also generated. Similarly, by generating upward kinetic energy against water pressure (gravity) and allocating it to the water wheel, etc., the water wheel is turned. 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 transmits the energy of the water wheel, etc., can be stretched horizontally as it is to increase airtightness so that water does not flow out of the water tank. It is also possible to change the direction and transmit the rotation to the upwardly extending shaft, and when the upper part of the tank reaches a height where it can contact the outside air, the energy can be transmitted to the gear or the like to be used as a power source. 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. In order to maintain the strength of the ball, etc., the circumference can be covered with an impact-resistant material such as rubber or 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. A structure that bundles multiple narrow pipes, and the inside pipe is bundled with a number of holes for ventilation. 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 efficiently move the vehicle by using a structure that slides on the above-mentioned cooled ice, etc., and rails, etc., so as to move upward after accelerating to some extent using gravitational energy, etc. , the energy required for moving water or the like to a higher position can be obtained by acceleration due to gravity, so the energy cost for propulsion power can be reduced. Of course, it is also possible to attach such a device to a ship or the like and use it as a propulsion force. The temperature around 5 meters below ground in mainland Japan is maintained at around 15 degrees throughout the year, and if a tube-shaped tunnel is grounded there, the energy required for cooling can be saved. Alternatively, when cooling this structure by grounding it on the ground, the outer circumference of the tube
It is also possible to have a structure in which the tube is covered with liquid water or the like, and 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. 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. A motor or the like for contacting the road surface or the like to transmit power may be incorporated in the truck or the like, or the power of the engine or motor of the automobile may be incorporated into the truck or the like while the automobile or the like is on the truck or the like. There are various methods, such as connecting the vehicle to a power unit such as a truck, or providing the truck with a device for transmitting the rotational force of the wheels of an automobile to the road surface, etc., when necessary. Also, even if you don't use an existing car, if you are a four-wheeled vehicle, you can attach about two wheels to the center of the car body in advance so that part does not contact the ground during normal driving. By adopting a structure that makes contact with the ground if the air pressure is changed, the four wheels can be used to ride on a cart or the like, and the remaining two wheels, etc. (rubber or iron wheels, etc.) A method of contacting parts, etc., as necessary, or giving a truck a function of a hydraulic jack so that after an automobile or the like rides on the truck, the vehicle on the truck can be raised and lowered by hydraulic pressure, etc. It is possible to change the height so as not to contact the ground or the like. A motor or the like that obtains the driving force during running can be installed on this bogie, and a part of the bogie can be powered to pull or push and connect with other bogies like a train, or a powered bogie can be used. It is also possible to reduce the installation cost by appropriately arranging them. It is also possible to monitor the movements of the carts (units) with sensors and install cameras, etc. around the cooling lanes so that the carts can be automatically controlled unattended. Solar panels, etc. are installed near the space where these cooling lanes, etc. are installed, and the power from there is led from the metal parts of the lanes, etc. to the motors of the trucks, etc. Alternatively, contactless power transmission or the like may be used. By attaching a device to the side of the tire of an automobile, etc., the rotation of the tire can be prevented from being installed on the road surface installed on the truck or the upper part of the cooling rail, etc., where there is no ice, etc. (It may be a wheel of a car) and convert the energy of the automobile engine, motor, etc. into running energy, etc. There is a method of attaching a device, etc. of a roller part that rotates accordingly to a truck, etc., and connecting it to a wheel, etc. with a mechanism that can change the rotational energy of the roller part so that the wheels of the truck do not contact the road surface. Multiple exist. In order to prevent freezing of the road surface that transmits the driving energy, the water, etc., which is about 15 degrees Celsius due to the geothermal heat accumulated 5 meters underground, is led to the vicinity of the road surface through pipes to prevent this and prevent the water from freezing. It is collected in the tank part again by the motor pump and it is made possible to circulate. For emergency stop, etc., piles, etc. are installed at the rear part of the truck, etc., and if necessary, they can be lowered to the road surface, etc. to quickly stop the truck. Even in the case of obtaining energy in the direction of travel with technology such as linear motor cars, the magnetic field part of the railway track of the linear motor car is partly cooled and covered with ice etc. If you attach something that can reduce resistance at times, it is efficient because you can save the power to float vertically by electric power and concentrate most of the electric energy etc. on the energy in the direction of movement. By adjusting the direction of the levitation energy and the energy that accelerates in the traveling direction of the maglev train, the levitation energy is minimized in order to save electrical energy as much as possible. Adjust the balance to be efficient. Even if it does not actually float, it can run with reduced resistance because it warps and the like. From the point of view of riding comfort, it is also possible to slightly sprinkle water on the frozen person's surface. A linear motor car may be equipped with a sled and the above power wheels. The inside of the tunnel can be kept in a near-vacuum state to eliminate wind loss and reduce noise. You may install the energy transmission part which uses magnetic force in a linear motor car, and the device of a sled separately. Wings are attached to the upper part of the vehicle to obtain lift and control air resistance, and reduce or adjust the friction with the frozen lane to reduce the frictional force applied to the vehicle against the cooling lane. It can also reduce or conversely push the vehicle down towards the cooling lane. It is also possible to insert the sled into the cooling lane so that the sled or the like does not derail from the cooling lane so that the cooling lane is shaped like a fastener so that the sled or the like does not come off. By changing the direction of the wing and adjusting the balance of lift force on the left and right, it is possible to make it easier to turn when making a curve. The flaps can also be adjusted to increase air resistance when decelerating. In case of an emergency stop, the parachute can be pulled out of the vehicle. To prevent the parachute from getting entangled, the device with the parachute can be detached from the rear of the vehicle and moved along the lane while obtaining the effect of the parachute. You can park safely. The parachute device is connected by wires through the device that moves on the cooling lane, and the device and the vehicle are also connected by wires. There are various possible sources of energy for moving such a vehicle, such as wheel drive, a jet engine, and a propeller attached to the side or rear of the vehicle. After accelerating considerably, it flies in the direction of travel toward the sky, and from there it glides, or uses rockets, such as jet engines, etc. attached to the mobile body as power, or the lift of the wings, etc. to move at high speed, or launch artificial satellites, etc. It can also be put into orbit while saving fuel. There is a method such as sufficiently accelerating with a cooling rail and ejecting upward, then separating only the satellite etc. (separating by the pressure of compressed gas etc.) and further accelerating using a jet engine etc. A jet engine or the like or a rocket or the like may be used from the beginning and accelerated on the cooling rail. In order to cool the part where the sled part is in contact, the heat absorption plate of the freezer is elongated and installed there, or a special heat absorption device is used, or a large compressor or the like and underground water at a constant temperature are used. Efficient temperature control is considered. Exhaust heat from compressors, etc., may be used secondary to run the Stirling engine, etc. The compressor draws water from 5 meters underground and circulates it around the compressor using pipes, etc., and heat exchange is performed at the necessary place, so that it can be used as a countermeasure for exhaust heat. In order to cool the water, etc. in the cooling lane, a pipe is installed near it, and gas, etc. without humidity is put in there. Cold air such as dry ice can be blown using a fan or the like, or a tank filled with low-pressure carbon dioxide can be used to suck it into the outlet of a pipe. After recovering the carbon dioxide at the end, it is possible to save the storage space for the carbon dioxide and the like by using another pipe or the like to flow the cooling gas in the opposite direction in the same way. Fans can also be installed in the middle of pipes, etc., as required. Carbon dioxide collected through the pipe can be reused as dry ice or the like. It is also possible to obtain carbon dioxide gas by heating dry ice in a vacuum state and introduce it into a pipe or the like. When sending it to a pipe, etc., compress it to increase the speed. 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. Water is pumped using a motor, etc., installed in the ground of a high mountain, or a large underground tank linked to a large-scale facility such as a water purification plant. can be used for pumping, etc. Cooling rails (lanes) or the like are covered with a closed structure or the like, and the underground tank water of about 15°C is circulated there to reduce the cost of the cooling tower. Cooling rails, lanes, etc. are closed by electric motors, especially in the summer, so that heat is not exchanged as much as possible. leave it to To add a function to cooking utensils, etc., in order to prevent the white part from burning when frying fried eggs, etc. A space is provided in the upper part of the lid, etc., to put water, etc., and it is moderately dropped from the hole around the lid. The size of the hole should be adjustable with screws or the like. Make a line in the bottom part of the frying pan so that the water that falls to the bottom will flow there. It is also possible to make it easy to move to the center by making the yolk in the center and inserting 12 lines like the hands of a clock so that the slope is deep in the center. When you want to concentrate the heat on the egg yolk instead of the flame on the stove, the center of the gas outlet of the stove is the most gas, and the surrounding area has little or no gas. Prepare a shape. Switch the gas pipe etc. with a lever or the like so that it can be divided into normal, where most of the heat goes to the middle, and where the heat goes only to the middle. In order to increase efficiency when cutting wood, etc., HHO gas, Oomasa gas, etc. are used to cut at high speed. Apply gas or the like locally at high speed. After cutting, cool completely by pouring water nearby. A nozzle for ejecting water or the like may be provided at the gas ejection port or the like so that the water or the like ejected from the nozzle does not heat the surroundings more than necessary. The shape of the nozzle can be elongated to apply water only to a small area. In order to increase the efficiency, it is also possible to cut the gas or the like in a short period of time by making a plurality of ejections. You can make a circle and set it around a tree, or you can cut about 70% of the tree in a shape like a crescent moon. In order to eliminate the need for people to support the chainsaw, etc., a strong rod-like object that can be fixed to a tree, etc. Fixed, etc. Then, hydraulic pressure or the like is applied between the part supporting the rotary blade of the chain saw or the like and the rod or the like fixing the tree or the like to the chain saw body so that the chain saw blade can be pressed in a certain direction. can be done. The parts that support the application of hydraulic pressure can be changed as needed to improve efficiency. 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 due to the sudden release of the plug when the pressure reaches a certain level. In order to reduce the air resistance of the train, the train door is flipped up and the vehicle height is lowered by getting on and off from there.
. When the pressure of a pipe containing a liquid such as oil or gas used for brakes reaches a certain level, it can be removed (or a structure that mechanically removes the plug (remotely remove the liquid, gas, etc. inside the pipe) A device that can open and close a door etc. provided for passage) or a hole etc. is provided in another pipe to connect a pipe etc. that allows liquids and gases to pass through and transmit pressure to the next section etc. If pressure is applied by connecting a plug for decompression in a compartment with a plate, etc., or a separate dedicated hole in the adjacent compartment, liquids, gases, etc. will move to that compartment. It is possible to prevent a sudden shock from being given to the vehicle, etc., since there is a moderate proportion of liquid, gas, etc. in the pipe at normal times. It is also possible to prepare a dedicated device (hydraulic pump, etc.) that can send liquids, gases, etc. into the pipe, so that oil, liquids, solids, etc. can be quickly sent to the required section when needed. Something like a pile, such as a spring or hydraulic shock absorber, between the vehicle and something like a pile (hooking structure) to mitigate the impact on the vehicle when connecting the vehicle and the pressure pipe. When freezing a liquid such as water in the cooling lane, a gas such as carbon dioxide is filled in a pipe or the like and compressed or blown there. It is also possible to pressurize and send in vaporized dry ice, etc. Then collect it at the end of the pipe and make it into dry ice again. When using materials such as PET bottles to plant cedar seedlings on mountains, etc., spread them on the ground around them and the cedar trees will grow. It can also serve as a role to protect from plants that become barriers when growing.At that time, it is possible to process a plastic bottle or the like into a state similar to a single board and fix it with stakes (wooden etc.). By making the necessary number of holes in the hole, it is possible to pass water, etc. through the hole to the soil, etc. By using a material such as a plastic bottle that changes naturally, you can save the trouble later. Even if it is not a PET bottle, a dedicated vinyl sheet or the like may be used as long as it can be installed around the plant in order to prevent the surrounding plants from becoming an obstacle to the growth of seedlings such as cedar. However, the costs are different. When fixing a water bottle, etc., it is possible to attach it to the ground as closely as possible, but it is also possible to dare to create a space between it and the ground, so the surrounding plants can be stretched out a little, and there is a plate-shaped object such as a plastic bottle. Adjustments can also be made by adjusting the amount of space. For example, when transporting wood etc. (it does not have to be wood separately, or it may be a special material) from a mountain forest that slopes downward from the forest road, connect a PET bottle etc. to carry water etc. It is also possible to construct a structure, such as a pipe, which can withstand pressure, etc., and which does not leak, and put wood, etc. in it. It is possible to insert wood into a net and connect them, or you can put a large net from the entrance to the end of the pipe and put it in only the necessary parts, and then tie the holes after inserting the wood. You can also close it by pressing Then, water is poured into the pipe, and buoyancy is used to pull the lumber, etc., inside from above with a winch or human power. After transporting lumber, etc., the water can be returned to the tank with a pump or the like, and the pump can be used to give buoyancy to the lumber, etc. Use spring water in mountainous areas. Or you can store rainwater in a tank. Of course, when moving wood or the like in the downhill direction, the pipe structure is used to move the wood or the like with less energy using buoyancy or the like. You can use buoyancy when pulling even on a flat place, and if you connect pipes on slopes from the top of the mountain, you can use the water pressure from the top to move wood more efficiently. Water can be stored in a tank or the like (wood can also be stored together with water, etc. It is like a standby place for transport means using pipes, etc.) and can be reused. It is also possible to divide the tank or the like using a net or the like so that the water or the like can be easily reused. It is made by scraping fuel such as wood or charcoal into a rolling sphere, compressing or crushing it and reprocessing it into a sphere. When processing fuel, the necessary materials are placed in a spherical mold (a work that can be done to return the mold to a spherical shape by inserting the workpiece into something with a hollow inside that looks like a ball split). can also be done by pressing In order to prevent the fuel, etc. from absorbing moisture or deteriorating, it is also possible to insert a hole through which air passes through the inside of the fuel, to mix moisture absorbent, antiseptic, deodorant, etc., or to coat the outside. And it is possible to easily move a fixed number to the burning place by rolling by gravity or the like, and it is also effective as an interior. It is also possible to heat a certain space using the heat of a combustion device, for example, create a certain space inside with a structure that combines PET bottles etc. You can also heat a liquid, etc. with heat and circulate it in a structure made of a plastic bottle, etc. You can also control the temperature of For example, put combustible materials such as wood or charcoal processed into golf balls in a container higher than the combustion area, and connect that to the combustion area with a pipe or the like so that rolling objects can be stopped or passed. It is also possible to control the movement of fuel to the combustion chamber or the like by attaching a device (for example, a stopper that can be electrically raised and lowered). By automating the time and effort of putting firewood, the energy of the forest can be used efficiently. If the fuel rolls using gravity or the like and automatically moves to save space, refueling etc. becomes easy and usability is good. It can be handled with a single switch like a conventional air conditioner, and you don't have to refuel so frequently, so you can save time and effort. There is also an interior element by making it spiral and passing through a loop-shaped gap when the fuel rolls. After the fuel is processed on the sphere, glue is applied to the surface of the sphere to make it slippery or easier to store. It should be coated with plastic, etc. (a naturally-derived raw material that does not easily emit harmful gases when burned). For safety, a stopper or the like is attached to the fuel supply passage to block the flow. A device for measuring the concentration of carbon monoxide in the space is also installed and interlocked with it to automatically activate the stopper in an emergency to enhance safety. A seismometer can also be attached to automatically operate a stopper or the like. In order to maintain airtightness so as not to touch the outside air as much as possible between the place where the fuel is stored and the route where the fuel passes, etc. Isolate the outside air from the fuel, etc. It is also possible to open the stopper or the like when it passes through, but otherwise close it so that the outside air does not enter. In order to secure living space and use it more efficiently, for example, next to a cedar tree (it does not have to be next to a cedar tree), a space with a diameter of 4 meters that a person can fit in is made of wood or concrete. Make something like a small tower by making it using etc. and increasing the height to 20 meters. A space with a height of about 2 meters can secure a space of about 40 square meters. At the end of the space, attach an elevator or the like that is used for people to go up and down. Use a pump or the like to use water whose temperature is adjusted using the temperature of the ground about 5 meters underground, or use the natural elevation (in the case of a mountainous area, the water naturally rises to a high position due to gravity). ) It is useful to make the living space etc. suitable temperature by flowing it in a pipe made of PET bottles etc. (It is also possible to use special materials instead of PET bottles). The pipes are attached as much as possible to effectively control the outside temperature and the temperature of the living space. Installation of pipes is also energy efficient because once water is raised, it will flow downwards. If you set up a room on the top floor that looks like the outer part is made of plastic bottles, you can see the stars at night, and if you take a bath there, you can relax very much. In addition, a structure made of PET bottles, etc. attached to the peripheral part of the roof, which tends to get hot, is kept on the roof part so that the temperature of the water, etc., reaches a certain level by sunlight, and it is used for conventional air conditioning, etc. It is also possible to store it isolated from the circulation path of water or the like and use it for a shower or the like. Since each space is finely divided, it is only necessary to provide auxiliary air conditioning for the necessary parts, which reduces the cost. Each space in each room is decorated with a perfect interior, and people only need to move there by elevator or the like as needed, so the space can be less cluttered. In terms of security, it can be said that the entrance is limited, so it can be said that it will increase accordingly, and from the entrance of the site to the structure made of PET bottles etc. on this tower, we will connect entrances and passages with tunnels etc. Security can be further improved by installing remote surveillance cameras, etc., and multiple tower entrances can be connected in this kind of tunnel-like isolated space (either above ground or underground), and the entrances can have a locking function. It also has the effect of limiting intruders. It is also possible to use water maintained at about 15 degrees Celsius by utilizing the ground temperature of about 5 meters underground in a space constructed so as to create a space inside by connecting PET bottles or the like to grow wasabi or the like. It is also possible to cut off the mouth part of a 2-liter PET bottle for drinking, etc., arrange eight of them, and make one space in the middle. (Because it is transparent, it allows light to pass through. A special material can be used instead of a plastic bottle.) If necessary, insert holes for air intake and pipes for discharging water into the space. Water is also run in spaces where plants can be grown, etc., and the temperature of the water, etc., and the temperature of liquids, etc. flowing in the surrounding PET bottles, etc. are heated or cooled. By doing so, the temperature inside the space can be controlled, and the temperature of the space can be adjusted by blowing air from heating or cooling to the space where such plants and the like are placed. In addition, it is possible to float a smaller PET bottle or the like like a ship by using the water or the like that has been poured into the space where the plant or the like can be placed. It is also possible to move a large number of objects by connecting them with ropes and pulling them, or by attaching propellers to the floating objects. A hydroponic cultivation apparatus, soil, stones, or the like can be put into the object that can float on the water, etc., so that plants or the like can grow. In order to efficiently cultivate wasabi and the like, it is also possible to create a small space for cultivation using a plastic bottle or the like and connect it in the manner described above. An object such as a PET bottle may be laid horizontally, a partition may be provided inside, and a material such as a marble which is transparent and not degraded by water or the like may be placed in the upper portion to form a culture medium for wasabi. The lower part is open so that water, etc. can enter and flow easily. Objects such as marbles may be specially processed so that the inside is hollow. The size of the marble can be selected from a large size to a small size depending on the positional relationship with the wasabi. If you lay a plastic bottle on its side and compare it to a boat, cut a hole in the top so that the wasabi can grow. Don't make more holes than necessary and use it for pest prevention. A number of these boats are connected to make a waterway-like structure made of PET bottles and the like so that the boats float. Spring water or the like is made to flow through the connected PET bottles by utilizing the height difference. At the time of harvesting, care, etc., it is also possible to float and pull the connected boats cultivating wasabi and the like by the buoyancy of water and carry them to the target place so that the work can be done there. It is possible to vertically stack devices that can cultivate wasabi like this, so you can aim to increase the yield. It is also possible to lower the moisture content of the wood by putting wood into it and drying it in the same way that the above-mentioned salt is dried out of the seawater and taken out.
This will increase the efficiency of using wood, etc. as fuel. In order to dry the structure more efficiently, a ventilation hole can be provided in the structure constructed using the PET bottle or the like, and air can be sent from the vent to dry the structure. By attaching a string to the drone to limit its range of movement, lay a rail (lane) at the point where you want to fly, and make it possible to transmit and receive radio waves for identification. to be able to fly above the Ensure accurate flight and safety of drones, etc. in forest areas where GPS cannot reach. To prevent the drone from deviating from a certain lane by grasping the accurate positional relationship with the lane by using radio waves emitted from the drone. Reflected radio waves can be used to calculate the distance, altitude, speed, etc. from the drone's lane. When carrying trees or the like in mountainous areas, use a bicycle or the like that can run completely by motor power instead of human power. Attach training wheels to a fully electric bicycle to prevent it from falling over. Then, a rail or the like is made so that a tire or the like can run there. Like the above drone, sensors can be used to determine the position of the bicycle, etc., and based on that, it can be operated remotely using a computer, etc., and can also be operated automatically. Instead of lanes, the necessary number of terminals, etc. that can transmit information by wireless signals, etc. are arranged between the destination and the moving object reads its own position speed, the inclination angle of the land, etc. based on it and operates the steering wheel. You can also do it while using the information. A dedicated car or the like may be used instead of a fully electric bicycle. A buggy or something with horsepower can carry a lot of luggage. The brake operation can also be performed automatically. On a slope, if it is motor-driven, you can apply force to turn the motor in the burning direction so that you can go down slowly. 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. In order to control the temperature of a space such as a car where people are present, a structure such as a PET bottle or the like is connected to create a structure around which water or the like circulates or stays, and the temperature of the space inside the structure is controlled. It is also possible to prepare water or the like and pour it into a structure made of a plastic bottle or the like, and to further lower the temperature, add ice made in a freezer. Tap water, etc., is put through the elongated tube as described above inside the freezer and frozen. The air in the car is flowed into and discharged from there using a fan or the like, and cold air or the like is sent into the car. It is also possible to put dry ice or the like in a freezer, or put it in a place where water or the like is contained in a structure made of a PET bottle that is hollow inside so that a person can enter. (It is also possible to put only dry ice without putting water etc.) The freezer etc. can be operated by battery or solar power etc. so that it can be driven even if the engine of the car etc. is turned off. A pressure valve, a fan, or the like can be provided to release carbon dioxide or the like into the atmosphere, and the freezer can also be provided with a similar mechanism to release carbon dioxide or the like into the atmosphere. By using this mechanism for transportation trucks, etc., it is also possible to control the temperature inside the vehicle or inside the container. Create a space where humans can live by using materials such as wood that store carbon dioxide and the like. Since wood etc. fix carbon dioxide in the atmosphere, it can be used as a building material for space without burning it. This wood or the like is used to fill a space where water is accumulated in a large dam or the like like a building block, or to create a space or the like in which a human being can be active. Like the three great pyramids of Egypt, wooden pillars and the like can be built tightly to provide an appropriate amount of space inside. (It is possible to create a space larger than New York's Central Park. Airplane runways can also be created there.) If places such as dams in the mountains are utilized in this way, a vast space can be obtained. To prevent wood from rotting, it can be coated with a material such as a PET bottle that does not allow water to pass between it and the ground. If a large dam like the Kurobe Dam is replaced with a space where people can live using this kind of technology, people about the size of a single city can live there, so the purchase price of timber can also be adjusted to match freight costs. can. The water of the dam can be put in by providing a space in the lower part of such a structure, or by providing a space in the upper part of the structure or around the inside, etc., or by making a small dam at the end of the dam. can. In addition, it is possible to create a space in the upper part of such a structure using a plastic bottle, etc., and use it to control the room temperature inside, and by shielding it from the outside air, the lower part It can prevent the temperature from becoming excessively hot due to the heat of the sun, and from being cooled by the atmosphere in the winter. In order to prevent deterioration of lumber and the like, it is also possible to properly arrange chemicals, materials, etc. for moisture proofing and corrosion. Urban functions can be concentrated in a structure with a height of 50 meters or 100 meters (the scale can be freely selected), a vast space can be created in a place with clean air, and carbon dioxide etc. can be stored semi-permanently. You can also If the carbon dioxide emitted by mankind is stored in this way, new and clean housing and work spaces can be developed, and both the climate change problem and the energy problem can be solved. Even against earthquakes, etc., the surroundings are in contact with the mountain surface, etc., making it a much stronger structure and almost no risk of collapse. As for housework, the air is controlled by pipes from the outside, so there is no risk of the fire spreading by shutting off the air. By appropriately circulating water, etc., in an underground tank, etc., it can be used for air conditioning as well as for fire extinguishing. It is a structure in which wood etc. are combined like stones of a pyramid, and a space is provided inside, and materials such as PET bottles are used in the internal space, etc. to circulate water etc. from an underground tank. It can be used to control the temperature inside and around the space. Of course, lumber and the like can also be lumbered and assembled into a cube. For reinforcement, we also use pillar bonding techniques that do not use nails, etc., which can be combined with steel frames, etc. By creating a large flat space in the upper part, etc., it is possible to create a free space for sports and recreation. It is possible to store timber etc. on a large land (no need to saw lumber) and construct a space where humans can live. The Antarctic and the Arctic, for example, have large lands and are less likely to rot in terms of climate. (It can be stored for a long time by taking it with you. You don't have to do lumbering, etc.) Using the fact that it is kept at about 15 degrees Celsius all year round at about 5 meters underground, the temperature changes according to the depth of the ground. take advantage of that. 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 plant cultivation space, etc., and the water stored in the underground about 5 meters is also circulated because it is about 15 degrees. You can let 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 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. In order to deter the occurrence of typhoons and hurricanes and change their course, water and water maintained at around 15 degrees throughout the year in large tankers etc. in underground tanks before and after the occurrence of typhoons and hurricanes Artificially cooled water or the like is carried to a target point and discharged. Then, by lowering the sea surface temperature, etc., it prevents typhoons and hurricanes from developing, prevents the expansion of their power, and changes the course of typhoons and hurricanes. Multiple large tankers are dispatched and released in large quantities at the same point, or many in a long straight line or circle. Using dry ice instead of water or using ice
You can also It is also possible to prepare ice and dry ice onboard ships and facilities and store them in tankers equipped with refrigeration equipment, or to install equipment for refrigeration, cold storage, dry ice production and storage, etc. in large transportation means such as tankers. For ice and dry ice, for example, if a block of 10 cubic meters is sliced horizontally into 10 equal parts, and these blocks are successively fed from a tanker or the like, even 300,000 tons of ice can cover a considerable area. It can prevent a large amount of hot water from being absorbed by the eye of a typhoon or hurricane over it. By adjusting the ballast of the transport ship on the left and right, ice and other objects can be slid on the slope and dropped overboard, or lifted with a hydraulic jack and tilted to slide overboard speedily. can work. In order to shorten the time it takes for transport ships to arrive at their destinations, etc., prepare in advance a large facility on the sea that can manufacture and store special floating ice, dry ice, etc. From there, typhoons and hurricanes When this starts to occur, it is possible to transport ice, dry ice, etc. to the desired location using a transport ship or the like. A tugboat-like ship can be used to adjust the position of ice on the sea, and a hovercraft can be used to carry ice to the destination at high speed. You can also secure the surroundings with ropes etc. to keep ice and dry ice together at sea. It is also possible to inform the surroundings of the presence of ice or the like by using GPS or the like. As the typhoon progresses, you can continue to adjust the ice by pulling it to the eye of the typhoon using the power of the ship. You can also set it. In transportation means such as a tanker, it is also possible to put a cooling agent or the like between the outer wall of the hull and a storage place for ice or the like to enable efficient cold insulation and storage. The principle of using ice, dry ice, cold water, etc. can also be used to deal with general rainfall fronts and rainfall phenomena. In order to ensure that the wheels, etc. that transmit power can reliably grip when sliding vehicles, etc., by using cooling rails, etc., coating the lanes, etc. with a rough material, covering the wheels with rubber, etc., or using rubber tires, etc. can also be used. It is also possible to install superconducting magnets or the like on the side or bottom of the vehicle, or install coils or the like on the side or center of the lane to generate power. It is also possible to install a magnet or the like on the side of the lane such as a coil on the vehicle side. A battery can be installed in the vehicle to drive the drive motor or charge the generated electricity. You can also use electromagnetic force like a linear motor car to balance it with the side. It is also possible to use the generated power to drive a linear motor car. 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., roll to a certain place based on the gravitational energy, and move 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 power. 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. Attach magnets (electromagnets, superconducting magnets, etc.) to the installation surface of moving objects such as cars, their surroundings, installation surfaces and sides of vehicles, etc. Attach coils to the ground, side lanes, etc. You can also generate electricity when you pass. It is also possible to combine magnets, electromagnets, superconducting magnets, etc. on the ground of the coils in cars and the like. It can charge a battery connected to a coil, transmit power, or be used directly on the spot.


It replaces the wheels of a train with a sled, etc., by carrying an object, such as a thing. Then, instead of the railroad tracks, a width that is just right for a sled or the like to pass through is placed, and water or the like is placed in that portion, and electricity or the like is used to cool it to ice, etc. to reduce friction and reduce energy loss as much as possible. . It is used for acceleration and deceleration by contacting wheels, etc. between rails. In order to reduce the resistance of the wheels and the like when speeding up, it is possible to adopt a structure in which electricity or the like is used so that the wheels and the like do not come into contact with the outside, etc., and can be retracted into the vehicle body. The sledding part slides on the frozen road surface, etc., but has a rail structure with a protruding shape so as not to derail sideways. Tires or the like that come in contact with the side of the rail may be attached to the sled or the like in order to reduce the impact or the like at a curve or the like, or a bank angle or the like may be added to the rail body. It is also possible to attach another wheel etc. to the car body etc. like a course at the place of the mini 4WD and respond with it at the time of the curve. In consideration of air resistance, etc., it is normally stored inside the vehicle and installed on the side wall of the vehicle, etc., with tires attached to struts, etc., that can be deployed instantaneously by gas pressure or spring force when necessary in an emergency. It is also possible to make it easier to turn corners by contacting walls, etc. Install a suitable wing that is parallel to the side wall etc. at a certain position from the side of the vehicle (Considering the structure that it is always exposed, air resistance etc. When it is not necessary, it can be stored in the floor, side, etc. of the vehicle.) If you run in a manner that keeps a slight distance from it and the side wall, there will be a ground effect due to air resistance. This creates a repulsive force on the left and right walls, which can counteract the outward force applied to the vehicle, allowing the vehicle to turn a curve in a stable manner. Design the route so that it descends little by little and use gravity energy as acceleration force. Although it is possible to design a route with no difference in elevation, the cost of construction is calculated and even if it is an uphill route, friction is reduced by sleds, so inertial energy can be used as an energy source to move objects to high ground. be able to. Even on a slight downward slope, the resistance of the contact portion of the vehicle body, etc., is extremely low, so the vehicle, etc., can be rapidly accelerated even if only a small amount of energy is given from the contacting tires, etc. The same thing can be said even when it is not in contact with the ground such as a linear motor car. In addition, air resistance is prevented by making the inside of the tunnel, such as a tube surrounding the vehicle, as vacuum as possible. When you arrive at a station, open the hatch attached to the vehicle and provide a passageway to the outside, or install a door that opens and closes up and down, such as a partition hatch in the tunnel, and partially inflate the section such as the station. Therefore, a method for allowing passengers to enter and exit the vehicle is conceivable. A hollow hole is provided at the end of the lane so that if rainwater or the like enters the structure on the lane, which is cooled and kept at a temperature with low resistance, ice, etc. at the contact point can quickly escape. It should be constructed on the passageway so that rainwater, etc., can flow out. In order to maintain the temperature of the lane in a cooled and frozen state, the temperature of the tank installed about 5 meters underground is used to circulate it around the lane using a pipe made of a plastic bottle or the like. It can also reduce the energy used to manage the temperature. In order to freeze the water in the cooling lane, the liquefied carbon dioxide or the like can be flowed through a pipe or the like in the vicinity of the cooling lane to cool the water. A roof is attached to the upper part to prevent rainwater, etc., and to have a structure that can shield everything around it. 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 In the underground tank, install a pipe about 5 cm in length and width (the approximate scale can be freely changed) for water, etc., which is heated to about 15°C by the ground temperature, and set up a passage around it to allow water to flow. The water in the above-mentioned underground tank is poured into the structure, and a fan or the like is attached to the end of the pipe to blow air. 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. Although this device can be installed indoors, it can also be installed at a constant temperature of about 5 meters underground. 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. PET bottles or the like are connected to form a certain rectangular space, and PET bottles or the like are connected to make a structure or the like in the space. Then, as described above, it is made possible to pour liquids, etc., and things to be dried or moistened are put in the places where air was sent in the above. At this time, it is possible to pack tightly so as not to delay the air, etc., or it is possible to have a gap to some extent so that hot air, etc. can flow through it. For example, when evaporating sea water to take out salt, etc. Space for sea water, space for warm air to flow above, plate-shaped passage made using PET bottles etc. under it (may be slightly slanted) Create a space where water can flow. It is also possible to enclose the outer periphery with a plastic bottle or the like and pressurize the entire inside with a compressor or the like. Evaporation of sea water is accelerated by the power of sunlight or by running hot water, and further accelerated by sending warm air or the like. When the humidity rises, the pressure inside the chamber pressurized by the compressor is returned to normal pressure, and cold water from an underground tank or the like flows through the pipe. When the humidity drops and the temperature in the vicinity cools down, water droplets that come out of the air all at once flow down the installed plate and move to the lowest position. By adopting such a structure, the speed at which seawater etc. evaporate is increased. If necessary, the outer periphery constructed with a PET bottle or the like is covered with a transparent film or plastic so that it can withstand pressure. A filter or the like for countermeasures against salt damage can be installed at a place such as a fan or the like for taking in or discharging outside air when the air inside the apparatus is discharged to the outside. Salt damage is caused by fine particles generated when waves break and carried by the wind. Place a hatch in a ventilated area so that it can withstand pressurization inside. By making this device out of a transparent material such as a PET bottle, the power of sunlight can be transmitted efficiently. A black material (a black sheet, etc.) is spread on the bottom of the device or the like to further efficiently utilize energy such as sunlight. This device can be installed in a space such as a solar panel where sunlight is required to obtain salt while preventing the temperature of the solar panel from rising. For the lower part, a pedestal or the like is made from a transparent material such as a plastic bottle according to the installation angle of the solar panel, and the angle of the device is adjusted. Water or the like can also be used, for example, to clean dirt or the like from the top of such structures. And if you install a filter etc. that collects dust etc. when it reaches a specific point together with water etc., you can reduce the trouble of cleaning etc.
. 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 A space created by connecting PET bottles, etc. (non-PET bottles or exclusive ones are acceptable) For example, PET bottles are lined up in an area of 20 meters in length and 10 meters in width, and they are lined up in a row on the ceiling. In the same way, fill the space between the parts with soil, etc. to make a rice-growing area. This makes it possible to reuse the scattered manure and the like without escaping into the ground. If you sprinkle water on top of the soil, it will seep into the soil and the fertilizer will reach the bottom of the PET bottle, so make a few holes to some extent and put it inside the PET bottle from there. It becomes cool, and it is drawn out from the end part of a connected PET bottle or the like, stored in an underground tank, and reused or processed to make fertilizer or the like from there. PET bottles, etc. are stacked on top of each other at the bottom, or filled with water at first to increase the strength, and the water, etc. in the PET bottles, etc. in the part that receives the fertilizer, etc. in the lower part is removed to some extent after adding soil, etc. You can also say. Considering the impact on the ecosystem, the bottom part of the structure made of PET bottles, etc. It is also possible to circulate water, etc., oxygen, etc. in places such as places), and by making a hole in the lower part of a structure such as a plastic bottle that is passed therethrough, it will permeate into the soil. 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. For example, if a creek or the like around a house is made of concrete, there may be little or no water in the dry season. The ground can be effectively used by burying the above structures made of plastic bottles or the like in such places so that water or the like can flow between them. When river water is managed by the national government or municipalities, it is often the case that concrete gutters are made, but if this is done, ground space will be wasted if there is almost no water flowing. Also, if the boundary line of the land is a river, originally the river is narrow and only a large amount of water passes for a short period of time, but the land is occupied fixedly throughout the year and is unfairly occupied by the landowner. There is a possibility that it may lead to a situation such as In addition, it lacks rationality in the design of gutters, etc., where water or the like does not normally flow, but the width is excessively large, or the gutters are made shallow. When making a gutter with a width of 1.5 meters and a depth of 50 centimeters, if the width is 50 centimeters and a depth of 1.5 meters, the ground part can be effectively used as much as 1 meter. It can be said that the land that can be originally used by the landowner becomes close to the area that the original landowner has. Although the river does not exist as a land category in the registry, it is an existence that the administrator is set, so there are many cases where it is not necessary to pass the current situation. If a river, which is normally only 10 centimeters wide, has a gutter with a width of 1.5 meters, the land owner becomes aware of the problem and cancels the right to use the original land. It is also possible to use this subterranean water supply system to store water. 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. Also, it is possible to construct a structure made of such a plastic bottle or the like, provide a shield from the outside, and insert a bed or the like in which a person can sleep. In the case of the elderly, etc., it is possible to attach a device to take a shower on the spot, or to construct a toilet, etc. in the shielded space. It is also possible to clean the shielded interior by filling it with water or the like on a regular basis, or to remove harmful substances contained in the air through an air filter on a daily basis. If installed in a hospital, etc., the air space in the hospital can be cleaned from ammonia and the like. This is particularly effective when a large number of people who cannot move due to their physical condition are gathered and when they cannot take a shower or the like by walking on their own. If a shower facility or the like is added to a space shielded with a PET bottle or the like, a shower or the like can be done there, cleaning the space and saving the trouble of moving to the bathroom. It is also possible to collect futons and the like during a shower or the like and change them into new ones. In short, to avoid situations where the ammonia concentration is likely to rise, shield that part with a plastic bottle or the like like the inside of a spacecraft. You can attach fitness equipment to this device, or you can attach a body washing device that I have patented. It is also possible to attach wheels to the device so that it can be moved. It is also possible to connect the operation space and the sleeping space in a manner shielded from the outside by a space made of a PET bottle or the like. Since ammonia is a substance that causes such an odor even in a very small amount, it should be considered that its influence on the ecology and the like is enormous, and it is socially important to take this into consideration. It is also possible to use coffee grounds or the like as a filter to remove ammonia and the like from the inside of the space. To prevent the fish or the like from colliding with a wall or the like of a space in which the fish or the like is filled with water or the like by accelerating it in a nearly vertical direction by forming a loop-shaped structure in the space when breeding the fish or the like. Create a space using a PET bottle or the like and put water in it. The upper part may also be covered with a material such as a plastic bottle. Then, a pump is used to suck out the water or the like in it and pressurize it to blow it out, or send compressed air or the like in one direction to give the water or the like rotation in a certain direction. The width of the loop-shaped structure where the fish is swimming should be about 50 to 100 cm (just a guideline). The water flow can also be stopped. A buoyant object with bait (it can float by buoyancy or move the bottom part) is rotated like the hands of a clock, and its movement is controlled by the actions of fish, etc., chasing it. You can make the water flow clockwise or counterclockwise, and you can freely change the direction of the bait movement. If the flow of water and the bait are the same and the speed of the bait is slightly increased, the fish can eat the bait with a little movement. If you move the bait in the opposite direction to the water flow or if you put the bait in and out of the water, the fish will concentrate on it and stay in almost the same place for a long time. The above method is particularly applicable to fish and the like that cannot breathe without movement. It can also be used to control the movement of fish etc. together with water flow and bait by setting up a net etc. in a place where there is water etc. and where there are fish etc. If you use power to move the bait attached to any place in the space where the fish, etc. It can be moved in a circular motion, or it can be moved straight depending on the shape of the water tank. It is also possible to use an automatically moving wall or the like in a space for breeding fish or the like to move the fish or the like from a circularly looped tank to another tank. Then, in order to return the fish, etc. from that space to the circular loop-shaped tank, etc., the above-mentioned door or the like is installed, and the water flow is introduced from the circular loop into the isolated space where there is no water flow, and the pressure creates another exit. There is a way to return the fish to the circular loop tank from the bait, or to make the wall around the tank with no water flow higher than that of the circular loop and add water etc. to it with a pump etc. so that the fish can rise to a slightly higher place. By automatically moving the etc. to guide the fish, and using the water channel etc. designed to flow toward the circular loop through the door of the tank etc. A fish or the like rides on the water current and moves toward the circular loop. 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. Compressed air, etc. (in gaseous form or in a form such as dry ice) instead of storing electricity
stored as 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. Compressed air (gas), dry ice, etc. and Taisei gas (Oomasa gas, HHO, GAS, etc.) are set at a deep point where water pressure is applied to a vertical tank filled with liquid water etc. Then add heat from electricity and chemical reactions, etc., and ignite Taisei gas (a mixture of hydrogen and oxygen is also possible), and the heat causes dry ice to expand, and compressed air is also generated. Similarly, by generating upward kinetic energy against water pressure (gravity) and allocating it to the water wheel, etc., the water wheel is turned. 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 transmits the energy of the water wheel, etc., can be stretched horizontally as it is to increase airtightness so that water does not flow out of the water tank. It is also possible to change the direction and transmit the rotation to the upwardly extending shaft, and when the upper part of the tank reaches a height where it can contact the outside air, the energy can be transmitted to the gear or the like to be used as a power source. 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. In order to maintain the strength of the ball, etc., the circumference can be covered with an impact-resistant material such as rubber or 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 efficiently move the vehicle by using a structure that slides on the above-mentioned cooled ice, etc., and rails, etc., so as to move upward after accelerating to some extent using gravitational energy, etc. , the energy required for moving water or the like to a higher position can be obtained by acceleration due to gravity, so the energy cost for propulsion power can be reduced. Of course, it is also possible to attach such a device to a ship or the like and use it as a propulsion force. The temperature around 5 meters below ground in mainland Japan is maintained at around 15 degrees throughout the year, and if a tube-shaped tunnel is grounded there, the energy required for cooling can be saved. Alternatively, when cooling this structure by grounding it on the ground, the outer circumference of the tube
It is also possible to have a structure in which the tube is covered with liquid water or the like, and 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. 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. A motor or the like for contacting the road surface or the like to transmit power may be incorporated in the truck or the like, or the power of the engine or motor of the automobile may be incorporated into the truck or the like while the automobile or the like is on the truck or the like. There are various methods, such as connecting the vehicle to a power unit such as a truck, or providing the truck with a device for transmitting the rotational force of the wheels of an automobile to the road surface, etc., when necessary. Also, even if you don't use an existing car, if you are a four-wheeled vehicle, you can attach about two wheels to the center of the car body in advance so that part does not contact the ground during normal driving. By adopting a structure that makes contact with the ground if the air pressure is changed, the four wheels can be used to ride on a cart or the like, and the remaining two wheels, etc. (rubber or iron wheels, etc.) A method of contacting parts, etc., as necessary, or giving a truck a function of a hydraulic jack so that after an automobile or the like rides on the truck, the vehicle on the truck can be raised and lowered by hydraulic pressure, etc. It is possible to change the height so as not to contact the ground or the like. A motor or the like that obtains the driving force during running can be installed on this bogie, and a part of the bogie can be powered to pull or push and connect with other bogies like a train, or a powered bogie can be used. It is also possible to reduce the installation cost by appropriately arranging them. It is also possible to monitor the movements of the carts (units) with sensors and install cameras, etc. around the cooling lanes so that the carts can be automatically controlled unattended. Solar panels, etc. are installed near the space where these cooling lanes, etc. are installed, and the power from there is led from the metal parts of the lanes, etc. to the motors of the trucks, etc. Alternatively, contactless power transmission or the like may be used. By attaching a device to the side of the tire of an automobile, etc., the rotation of the tire can be prevented from being installed on the road surface installed on the truck or the upper part of the cooling rail, etc., where there is no ice, etc. (It may be a wheel of a car) and convert the energy of the automobile engine, motor, etc. into running energy, etc. There is a method of attaching a device, etc. of a roller part that rotates accordingly to a truck, etc., and connecting it to a wheel, etc. with a mechanism that can change the rotational energy of the roller part so that the wheels of the truck do not contact the road surface. Multiple exist. In order to prevent freezing of the road surface that transmits the driving energy, the water, etc., which is about 15 degrees Celsius due to the geothermal heat accumulated 5 meters underground, is led to the vicinity of the road surface through pipes to prevent this and prevent the water from freezing. It is collected in the tank part again by the motor pump and it is made possible to circulate. For emergency stop, etc., piles, etc. are installed at the rear part of the truck, etc., and if necessary, they can be lowered to the road surface, etc. to quickly stop the truck. Even in the case of obtaining energy in the direction of travel with technology such as linear motor cars, the magnetic field part of the railway track of the linear motor car is partly cooled and covered with ice etc. If you attach something that can reduce resistance at times, it is efficient because you can save the power to float vertically by electric power and concentrate most of the electric energy etc. on the energy in the direction of movement. By adjusting the direction of the levitation energy and the energy that accelerates in the traveling direction of the maglev train, the levitation energy is minimized in order to save electrical energy as much as possible. Adjust the balance to be efficient. Even if it does not actually float, it can run with reduced resistance because it warps and the like. From the point of view of riding comfort, it is also possible to slightly sprinkle water on the frozen person's surface. A linear motor car may be equipped with a sled and the above power wheels. The inside of the tunnel can be kept in a near-vacuum state to eliminate wind loss and reduce noise. You may install the energy transmission part which uses magnetic force in a linear motor car, and the device of a sled separately. Wings are attached to the upper part of the vehicle to obtain lift and control air resistance, and reduce or adjust the friction with the frozen lane to reduce the frictional force applied to the vehicle against the cooling lane. It can also reduce or conversely push the vehicle down towards the cooling lane. It is also possible to insert the sled into the cooling lane so that the sled or the like does not derail from the cooling lane so that the cooling lane is shaped like a fastener so that the sled or the like does not come off. By changing the direction of the wing and adjusting the balance of lift force on the left and right, it is possible to make it easier to turn when making a curve. The flaps can also be adjusted to increase air resistance when decelerating. In case of an emergency stop, the parachute can be pulled out of the vehicle. To prevent the parachute from getting entangled, the device with the parachute can be detached from the rear of the vehicle and moved along the lane while obtaining the effect of the parachute. You can park safely. The parachute device is connected by wires through the device that moves on the cooling lane, and the device and the vehicle are also connected by wires. There are various possible sources of energy for moving such a vehicle, such as wheel drive, a jet engine, and a propeller attached to the side or rear of the vehicle. After accelerating considerably, it flies in the direction of travel toward the sky, and from there it glides, or uses rockets, such as jet engines, etc. attached to the mobile body as power, or the lift of the wings, etc. to move at high speed, or launch artificial satellites, etc. It can also be put into orbit while saving fuel. There is a method such as sufficiently accelerating with a cooling rail and ejecting upward, then separating only the satellite etc. (separating by the pressure of compressed gas etc.) and further accelerating using a jet engine etc. A jet engine or the like or a rocket or the like may be used from the beginning and accelerated on the cooling rail. In order to cool the part where the sled part is in contact, the heat absorption plate of the freezer is elongated and installed there, or a special heat absorption device is used, or a large compressor or the like and underground water at a constant temperature are used. Efficient temperature control is considered. Exhaust heat from compressors, etc., may be used secondary to run the Stirling engine, etc. The compressor draws water from 5 meters underground and circulates it around the compressor using pipes, etc., and heat exchange is performed at the necessary place, so that it can be used as a countermeasure for exhaust heat. In order to cool the water, etc. in the cooling lane, a pipe is installed near it, and gas, etc. without humidity is put in there. Cold air such as dry ice can be blown using a fan or the like, or a tank filled with low-pressure carbon dioxide can be used to suck it into the outlet of a pipe. After recovering the carbon dioxide at the end, it is possible to save the storage space for the carbon dioxide and the like by using another pipe or the like to flow the cooling gas in the opposite direction in the same way. Fans can also be installed in the middle of pipes, etc., as required. Carbon dioxide collected through the pipe can be reused as dry ice or the like. It is also possible to obtain carbon dioxide gas by heating dry ice in a vacuum state and introduce it into a pipe or the like. When sending it to a pipe, etc., compress it to increase the speed. 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. Water is pumped using a motor, etc., installed in the ground of a high mountain, or a large underground tank linked to a large-scale facility such as a water purification plant. can be used for pumping, etc. Cooling rails (lanes) or the like are covered with a closed structure or the like, and the underground tank water of about 15°C is circulated there to reduce the cost of the cooling tower. Cooling rails, lanes, etc. are closed by electric motors, especially in the summer, so that heat is not exchanged as much as possible. leave it to To add a function to cooking utensils, etc., in order to prevent the white part from burning when frying fried eggs, etc. A space is provided in the upper part of the lid, etc., to put water, etc., and it is moderately dropped from the hole around the lid. The size of the hole should be adjustable with screws or the like. Make a line in the bottom part of the frying pan so that the water that falls to the bottom will flow there. It is also possible to make it easy to move to the center by making the yolk in the center and inserting 12 lines like the hands of a clock so that the slope is deep in the center. When you want to concentrate the heat on the egg yolk instead of the flame on the stove, the center of the gas outlet of the stove is the most gas, and the surrounding area has little or no gas. Prepare a shape. Switch the gas pipe etc. with a lever or the like so that it can be divided into normal, where most of the heat goes to the middle, and where the heat goes only to the middle. In order to increase efficiency when cutting wood, etc., HHO gas, Oomasa gas, etc. are used to cut at high speed. Apply gas or the like locally at high speed. After cutting, cool completely by pouring water nearby. A nozzle for ejecting water or the like may be provided at the gas ejection port or the like so that the water or the like ejected from the nozzle does not heat the surroundings more than necessary. The shape of the nozzle can be elongated to apply water only to a small area. In order to increase the efficiency, it is also possible to cut the gas or the like in a short period of time by making a plurality of ejections. You can make a circle and set it around a tree, or you can cut about 70% of the tree in a shape like a crescent moon. In order to eliminate the need for people to support the chainsaw, etc., a strong rod-like object that can be fixed to a tree, etc. Fixed, etc. Then, hydraulic pressure or the like is applied between the part supporting the rotary blade of the chain saw or the like and the rod or the like fixing the tree or the like to the chain saw body so that the chain saw blade can be pressed in a certain direction. can be done. The parts that support the application of hydraulic pressure can be changed as needed to improve efficiency. 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., which is made just barely 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. In order to reduce the air resistance of the train, the train door is of a flip-up type and the vehicle height is lowered by getting on and off from there.
. When the pressure of a pipe containing a liquid such as oil or gas used for brakes reaches a certain level, it can be removed (or a structure that mechanically removes the plug (remotely remove the liquid, gas, etc. inside the pipe) A device that can open and close a door etc. provided for passage) or a hole etc. is provided in another pipe to connect a pipe etc. that allows liquids and gases to pass through and transmit pressure to the next section etc. If pressure is applied by connecting a plug for decompression in a compartment with a plate, etc., or a separate dedicated hole in the adjacent compartment, liquids, gases, etc. will move to that compartment. It is possible to prevent a sudden shock from being given to the vehicle, etc., since there is a moderate proportion of liquid, gas, etc. in the pipe at normal times. It is also possible to prepare a dedicated device (hydraulic pump, etc.) that can send liquids, gases, etc. into the pipe, so that oil, liquids, solids, etc. can be quickly sent to the required section when needed. Something like a pile, such as a spring or hydraulic shock absorber, between the vehicle and something like a pile (hooking structure) to mitigate the impact on the vehicle when connecting the vehicle and the pressure pipe. When freezing a liquid such as water in the cooling lane, a gas such as carbon dioxide is filled in a pipe or the like and compressed or blown there. It is also possible to pressurize and send in vaporized dry ice, etc. Then collect it at the end of the pipe and make it into dry ice again. When using materials such as PET bottles to plant cedar seedlings on mountains, etc., spread them on the ground around them and the cedar trees will grow. It can also serve as a role to protect from plants that become barriers when growing.At that time, it is possible to process a plastic bottle or the like into a state similar to a single board and fix it with stakes (wooden etc.). By making the necessary number of holes in the hole, it is possible to pass water, etc. through the hole to the soil, etc. By using a material such as a plastic bottle that changes naturally, you can save the trouble later. Even if it is not a PET bottle, a dedicated vinyl sheet or the like may be used as long as it can be installed around the plant in order to prevent the surrounding plants from becoming an obstacle to the growth of seedlings such as cedar. However, the costs are different. When fixing a water bottle, etc., it is possible to attach it to the ground as closely as possible, but it is also possible to dare to create a space between it and the ground, so the surrounding plants can be stretched out a little, and there is a plate-shaped object such as a plastic bottle. Adjustments can also be made by adjusting the amount of space. For example, when transporting wood etc. (it does not have to be wood separately, or it may be a special material) from a mountain forest that slopes downward from the forest road, connect a PET bottle etc. to carry water etc. It is also possible to construct a structure, such as a pipe, which can withstand pressure, etc., and which does not leak, and put wood, etc. in it. It is possible to insert wood into a net and connect them, or you can put a large net from the entrance to the end of the pipe and put it in only the necessary parts, and then tie the holes after inserting the wood. You can also close it by pressing Then, water is poured into the pipe, and buoyancy is used to pull the lumber, etc., inside from above with a winch or human power. After transporting lumber, etc., the water can be returned to the tank with a pump or the like, and the pump can be used to give buoyancy to the lumber, etc. Use spring water in mountainous areas. Or you can store rainwater in a tank. Of course, when moving wood or the like in the downhill direction, the pipe structure is used to move the wood or the like with less energy using buoyancy or the like. You can use buoyancy when pulling even on a flat place, and if you connect pipes on slopes from the top of the mountain, you can use the water pressure from the top to move wood more efficiently. Water can be stored in a tank or the like (wood can also be stored together with water, etc. It is like a standby place for transport means using pipes, etc.) and can be reused. It is also possible to divide the tank or the like using a net or the like so that the water or the like can be easily reused. It is made by scraping fuel such as wood or charcoal into a rolling sphere, compressing or crushing it and reprocessing it into a sphere. When processing fuel, the necessary materials are placed in a spherical mold (a work that can be done to return the mold to a spherical shape by inserting the workpiece into something with a hollow inside that looks like a ball split). can also be done by pressing In order to prevent the fuel, etc. from absorbing moisture or deteriorating, it is also possible to insert a hole through which air passes through the inside of the fuel, to mix moisture absorbent, antiseptic, deodorant, etc., or to coat the outside. And it is possible to easily move a fixed number to the burning place by rolling by gravity or the like, and it is also effective as an interior. It is also possible to heat a certain space using the heat of a combustion device, for example, create a certain space inside with a structure that combines PET bottles etc. You can also heat a liquid, etc. with heat and circulate it in a structure made of a plastic bottle, etc. You can also control the temperature of For example, put combustible materials such as wood or charcoal processed into golf balls in a container higher than the combustion area, and connect that to the combustion area with a pipe or the like so that rolling objects can be stopped or passed. It is also possible to control the movement of fuel to the combustion chamber or the like by attaching a device (for example, a stopper that can be electrically raised and lowered). By automating the time and effort of putting firewood, the energy of the forest can be used efficiently. If the fuel rolls using gravity or the like and automatically moves to save space, refueling etc. becomes easy and usability is good. It can be handled with a single switch like a conventional air conditioner, and you don't have to refuel so frequently, so you can save time and effort. There is also an interior element by making it spiral and passing through a loop-shaped gap when the fuel rolls. After the fuel is processed on the sphere, glue is applied to the surface of the sphere to make it slippery or easier to store. It should be coated with plastic, etc. (a naturally-derived raw material that does not easily emit harmful gases when burned). For safety, a stopper or the like is attached to the fuel supply passage to block the flow. A device for measuring the concentration of carbon monoxide in the space is also installed and interlocked with it to automatically activate the stopper in an emergency to enhance safety. A seismometer can also be attached to automatically operate a stopper or the like. In order to maintain airtightness so as not to touch the outside air as much as possible between the place where the fuel is stored and the route where the fuel passes, etc. Isolate the outside air from the fuel, etc. It is also possible to open the stopper or the like when it passes through, but otherwise close it so that the outside air does not enter. In order to secure living space and use it more efficiently, for example, next to a cedar tree (it does not have to be next to a cedar tree), a space with a diameter of 4 meters that a person can fit in is made of wood or concrete. Make something like a small tower by making it using etc. and increasing the height to 20 meters. A space with a height of about 2 meters can secure a space of about 40 square meters. At the end of the space, attach an elevator or the like that is used for people to go up and down. Use a pump or the like to use water whose temperature is adjusted using the temperature of the ground about 5 meters underground, or use the natural elevation (in the case of a mountainous area, the water naturally rises to a high position due to gravity). ) It is useful to make the living space etc. suitable temperature by flowing it in a pipe made of PET bottles etc. (It is also possible to use special materials instead of PET bottles). The pipes are attached as much as possible to effectively control the outside temperature and the temperature of the living space. Installation of pipes is also energy efficient because once water is raised, it will flow downwards. If you set up a room on the top floor that looks like the outer part is made of plastic bottles, you can see the stars at night, and if you take a bath there, you can relax very much. In addition, a structure made of PET bottles, etc. attached to the peripheral part of the roof, which tends to get hot, is kept on the roof part so that the temperature of the water, etc., reaches a certain level by sunlight, and it is used for conventional air conditioning, etc. It is also possible to store it isolated from the circulation path of water or the like and use it for a shower or the like. Since each space is finely divided, it is only necessary to provide auxiliary air conditioning for the necessary parts, which reduces the cost. Each space in each room is decorated with a perfect interior, and people only need to move there by elevator or the like as needed, so the space can be less cluttered. In terms of security, it can be said that the entrance is limited, so it can be said that it will increase accordingly, and from the entrance of the site to the structure made of PET bottles etc. on this tower, we will connect entrances and passages with tunnels etc. Security can be further improved by installing remote surveillance cameras, etc., and multiple tower entrances can be connected in this kind of tunnel-like isolated space (either above ground or underground), and the entrances can have a locking function. It also has the effect of limiting intruders. It is also possible to use water maintained at about 15 degrees Celsius by utilizing the ground temperature of about 5 meters underground in a space constructed so as to create a space inside by connecting PET bottles or the like to grow wasabi or the like. It is also possible to cut off the mouth part of a 2-liter PET bottle for drinking, etc., arrange eight of them, and make one space in the middle. (Because it is transparent, it allows light to pass through. A special material can be used instead of a plastic bottle.) If necessary, insert holes for air intake and pipes for discharging water into the space. Water is also run in spaces where plants can be grown, etc., and the temperature of the water, etc., and the temperature of liquids, etc. flowing in the surrounding PET bottles, etc. are heated or cooled. By doing so, the temperature inside the space can be controlled, and the temperature of the space can be adjusted by blowing air from heating or cooling to the space where such plants and the like are placed. In addition, it is possible to float a smaller PET bottle or the like like a ship by using the water or the like that has been poured into the space where the plant or the like can be placed. It is also possible to move a large number of objects by connecting them with ropes and pulling them, or by attaching propellers to the floating objects. A hydroponic cultivation apparatus, soil, stones, or the like can be put into the object that can float on the water, etc., so that plants or the like can grow. In order to efficiently cultivate wasabi and the like, it is also possible to create a small space for cultivation using a plastic bottle or the like and connect it in the manner described above. An object such as a PET bottle may be laid horizontally, a partition may be provided inside, and a material such as a marble which is transparent and not degraded by water or the like may be placed in the upper portion to form a culture medium for wasabi. The lower part is open so that water, etc. can enter and flow easily. Objects such as marbles may be specially processed so that the inside is hollow. The size of the marble can be selected from a large size to a small size depending on the positional relationship with the wasabi. If you lay a plastic bottle on its side and compare it to a boat, cut a hole in the top so that the wasabi can grow. Don't make more holes than necessary and use it for pest prevention. A number of these boats are connected to make a waterway-like structure made of PET bottles and the like so that the boats float. Spring water or the like is made to flow through the connected PET bottles by utilizing the height difference. At the time of harvesting, care, etc., it is also possible to float and pull the connected boats cultivating wasabi and the like by the buoyancy of water and carry them to the target place so that the work can be done there. It is possible to vertically stack devices that can cultivate wasabi like this, so you can aim to increase the yield. It is also possible to lower the moisture content of the wood by putting wood into it and drying it in the same way that the above-mentioned salt is dried out of the seawater and taken out.
This will increase the efficiency of using wood, etc. as fuel. In order to dry the structure more efficiently, a ventilation hole can be provided in the structure constructed using the PET bottle or the like, and air can be sent from the vent to dry the structure. By attaching a string to the drone to limit its range of movement, lay a rail (lane) at the point where you want to fly, and make it possible to transmit and receive radio waves for identification. to be able to fly above the Ensure accurate flight and safety of drones, etc. in forest areas where GPS cannot reach. To prevent the drone from deviating from a certain lane by grasping the accurate positional relationship with the lane by using radio waves emitted from the drone. Reflected radio waves can be used to calculate the distance, altitude, speed, etc. from the drone's lane. When carrying trees or the like in mountainous areas, use a bicycle or the like that can run completely by motor power instead of human power. Attach training wheels to a fully electric bicycle to prevent it from falling over. Then, a rail or the like is made so that a tire or the like can run there. Like the above drone, sensors can be used to determine the position of the bicycle, etc., and based on that, it can be operated remotely using a computer, etc., and can also be operated automatically. Instead of lanes, the necessary number of terminals, etc. that can transmit information by wireless signals, etc. are arranged between the destination and the moving object reads its own position speed, the inclination angle of the land, etc. based on it and operates the steering wheel. You can also do it while using the information. A dedicated car or the like may be used instead of a fully electric bicycle. A buggy or something with horsepower can carry a lot of luggage. The brake operation can also be performed automatically. On a slope, if it is motor-driven, you can apply force to turn the motor in the burning direction so that you can go down slowly. 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. In order to control the temperature of a space such as a car where people are present, a structure such as a PET bottle or the like is connected to create a structure around which water or the like circulates or stays, and the temperature of the space inside the structure is controlled. It is also possible to prepare water or the like and pour it into a structure made of a plastic bottle or the like, and to further lower the temperature, add ice made in a freezer. Tap water, etc., is put through the elongated tube as described above inside the freezer and frozen. The air in the car is flowed into and discharged from there using a fan or the like, and cold air or the like is sent into the car. It is also possible to put dry ice or the like in a freezer, or put it in a place where water or the like is contained in a structure made of a PET bottle that is hollow inside so that a person can enter. (It is also possible to put only dry ice without putting water etc.) The freezer etc. can be operated by battery or solar power etc. so that it can be driven even if the engine of the car etc. is turned off. A pressure valve, a fan, or the like can be provided to release carbon dioxide or the like into the atmosphere, and the freezer can also be provided with a similar mechanism to release carbon dioxide or the like into the atmosphere. By using this mechanism for transportation trucks, etc., it is also possible to control the temperature inside the vehicle or inside the container. Create a space where humans can live by using materials such as wood that store carbon dioxide and the like. Since wood etc. fix carbon dioxide in the atmosphere, it can be used as a building material for space without burning it. This wood or the like is used to fill a space where water is accumulated in a large dam or the like like a building block, or to create a space or the like in which a human being can be active. Like the three great pyramids of Egypt, wooden pillars and the like can be built tightly to provide an appropriate amount of space inside. (It is possible to create a space larger than New York's Central Park. Airplane runways can also be created there.) If places such as dams in the mountains are utilized in this way, a vast space can be obtained. To prevent wood from rotting, it can be coated with a material such as a PET bottle that does not allow water to pass between it and the ground. If a large dam like the Kurobe Dam is replaced with a space where people can live using this kind of technology, people about the size of a single city can live there, so the purchase price of timber can also be adjusted to match freight costs. can. The water of the dam can be put in by providing a space in the lower part of such a structure, or by providing a space in the upper part of the structure or around the inside, etc., or by making a small dam at the end of the dam. can. In addition, it is possible to create a space in the upper part of such a structure using a plastic bottle, etc., and use it to control the room temperature inside, and by shielding it from the outside air, the lower part It can prevent the temperature from becoming excessively hot due to the heat of the sun, and from being cooled by the atmosphere in the winter. In order to prevent deterioration of lumber and the like, it is also possible to properly arrange chemicals, materials, etc. for moisture proofing and corrosion. Urban functions can be concentrated in a structure with a height of 50 meters or 100 meters (the scale can be freely selected), a vast space can be created in a place with clean air, and carbon dioxide etc. can be stored semi-permanently. You can also If the carbon dioxide emitted by mankind is stored in this way, new and clean housing and work spaces can be developed, and both the climate change problem and the energy problem can be solved. Even against earthquakes, etc., the surroundings are in contact with the mountain surface, etc., making it a much stronger structure and almost no risk of collapse. As for housework, the air is controlled by pipes from the outside, so there is no risk of the fire spreading by shutting off the air. By appropriately circulating water, etc., in an underground tank, etc., it can be used for air conditioning as well as for fire extinguishing. It is a structure in which wood etc. are combined like stones of a pyramid, and a space is provided inside, and materials such as PET bottles are used in the internal space, etc. to circulate water etc. from an underground tank. It can be used to control the temperature inside and around the space. Of course, lumber and the like can also be lumbered and assembled into a cube. For reinforcement, we also use pillar bonding techniques that do not use nails, etc., which can be combined with steel frames, etc. By creating a large flat space in the upper part, etc., it is possible to create a free space for sports and recreation. It is possible to store timber etc. on a large land (no need to saw lumber) and construct a space where humans can live. The Antarctic and the Arctic, for example, have large lands and are less likely to rot in terms of climate. (It can be stored for a long time by taking it with you. You don't have to do lumbering, etc.) Using the fact that it is kept at about 15 degrees Celsius all year round at about 5 meters underground, the temperature changes according to the depth of the ground. take advantage of that. 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 plant cultivation space, etc., and the water stored in the underground about 5 meters is also circulated because it is about 15 degrees. You can let 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. In order to deter the occurrence of typhoons and hurricanes and change their course, water and water maintained at around 15 degrees throughout the year in large tankers etc. in underground tanks before and after the occurrence of typhoons and hurricanes Artificially cooled water or the like is carried to a target point and discharged. Then, by lowering the sea surface temperature, etc., it prevents typhoons and hurricanes from developing, prevents the expansion of their power, and changes the course of typhoons and hurricanes. Multiple large tankers are dispatched and released in large quantities at the same point, or many in a long straight line or circle. Using dry ice instead of water or using ice
You can also It is also possible to prepare ice and dry ice onboard ships and facilities and store them in tankers equipped with refrigeration equipment, or to install equipment for refrigeration, cold storage, dry ice production and storage, etc. in large transportation means such as tankers. For ice and dry ice, for example, if a block of 10 cubic meters is sliced horizontally into 10 equal parts, and these blocks are successively fed from a tanker or the like, even 300,000 tons of ice can cover a considerable area. It can prevent a large amount of hot water from being absorbed by the eye of a typhoon or hurricane over it. By adjusting the ballast of the transport ship on the left and right, ice and other objects can be slid on the slope and dropped overboard, or lifted with a hydraulic jack and tilted to slide overboard speedily. can work. In order to shorten the time it takes for transport ships to arrive at their destinations, etc., prepare in advance a large facility on the sea that can manufacture and store special floating ice, dry ice, etc. From there, typhoons and hurricanes When this starts to occur, it is possible to transport ice, dry ice, etc. to the desired location using a transport ship or the like. A tugboat-like ship can be used to adjust the position of ice on the sea, and a hovercraft can be used to carry ice to the destination at high speed. You can also secure the surroundings with ropes etc. to keep ice and dry ice together at sea. It is also possible to inform the surroundings of the presence of ice or the like by using GPS or the like. As the typhoon progresses, you can continue to adjust the ice by pulling it to the eye of the typhoon using the power of the ship. You can also set it. In transportation means such as a tanker, it is also possible to put a cooling agent or the like between the outer wall of the hull and a storage place for ice or the like to enable efficient cold insulation and storage. The principle of using ice, dry ice, cold water, etc. can also be used to deal with general rainfall fronts and rainfall phenomena. In order to ensure that the wheels, etc. that transmit power can reliably grip when sliding vehicles, etc., by using cooling rails, etc., coating the lanes, etc. with a rough material, covering the wheels with rubber, etc., or using rubber tires, etc. can also be used. It is also possible to install superconducting magnets or the like on the side or bottom of the vehicle, or install coils or the like on the side or center of the lane to generate power. It is also possible to install a magnet or the like on the side of the lane such as a coil on the vehicle side. A battery can be installed in the vehicle to drive the drive motor or charge the generated electricity. You can also use electromagnetic force like a linear motor car to balance it with the side. It is also possible to use the generated power to drive a linear motor car. 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. Attach magnets (electromagnets, superconducting magnets, etc.) to the installation surface of moving objects such as cars, their surroundings, installation surfaces and sides of vehicles, etc. Attach coils to the ground, side lanes, etc. You can also generate electricity when you pass. It is also possible to combine magnets, electromagnets, superconducting magnets, etc. on the ground of the coils in cars and the like. It can charge a battery connected to a coil, transmit power, or be used directly on the spot. The description in the drawings and the like is merely an example, and various applications are possible.


Claim 1
An energy conversion device,
a liquid tank in which liquid is stored;
a plurality of gas receivers provided in the liquid tank in the vertical direction and capable of rotating or moving up and down;
a nozzle for ejecting compressed gas from below the gas receiving portion positioned at the bottom in the liquid tank;
a gas cylinder storing the compressed gas as a primary energy source and delivering the compressed gas to the nozzle;
output means for outputting kinetic energy of rotation or upward movement generated in the gas receiving portion by buoyancy generated by the gas receiving portion receiving the compressed gas ejected from the nozzle as secondary energy to the outside of the liquid tank; ,
and a recovery device for returning gas from the liquid tank to the gas cylinder.
Claim 2
2. The energy conversion device according to claim 1, wherein said gas cylinder is connected to a compressed gas generator that generates compressed gas using natural energy.
Claim 3
The gas cylinder expands the volume of dry ice (butane, etc. can be used as long as it has similar properties. Note that the liquefaction pressure varies depending on the substance) as a gas by the combustion heat of the mixed gas containing hydrogen and oxygen. 3. The energy conversion device according to claim 1, wherein the energy conversion device is connected to a compressed gas generator for generating the compressed gas by allowing the energy conversion device to generate the compressed gas.
Claim 4
The gas receiving part has movable wings that can be freely opened and closed, and is in an open state when it receives the compressed gas ejected from the nozzle and generates buoyancy, and when it does not receive the compressed gas and does not generate buoyancy. 4. The energy conversion device according to any one of claims 1 to 3, characterized in that the is closed.
Claim 5
The gas cylinder ejects compressed gas from the nozzle through a valve that is controlled to open and close, and the valve is controlled to open only when the gas receiver reaches a predetermined position. 5. An energy conversion device as claimed in any one of claims 1 to 4.
Claim 6
3. The output means includes a power mechanism including a belt on which a plurality of the gas receivers are arranged in a ring shape, and a gear on which the belt is hung and which is rotated by the movement of the belt. The energy conversion device according to any one of claims 1 to 5.
Claim 7
a water seal tank having a communication opening that communicates with the inside of the liquid tank and an upper opening that opens upward is provided on the lateral exterior of the liquid tank,
The output means includes a coupler and a shaft for transmitting the rotation of the gear of the power mechanism in a space where the liquid tank and the water seal tank communicate with each other, and using the coupler and the shaft, the 7. The energy conversion device according to claim 6, wherein the rotational energy of said gear is output from an upper opening.
Claim 8
The gas cylinder is a compressed gas generator that generates the compressed gas by passing a gas pipe through a heat exchanger to heat the gas, or a pressurizing device that has a floating ring-shaped O-ring that can adjust the internal pressure as a sealing material. 8. The energy conversion device according to any one of claims 1 to 7, wherein the energy conversion device is connected to a compressed gas generator that generates the compressed gas by pressurizing the gas with a piston.
Claim 9
9. The energy conversion device according to any one of claims 1 to 8, wherein a plurality of said liquid tanks are provided in parallel or in series with respect to said gas cylinder.
Claim 10
A vehicle body moving device,
a vehicle body;
a sled for gliding on ice provided on the front, rear, left, and right of the lower surface of the vehicle body;
a rail provided on the road surface to guide the sledding on ice, the rail having an ice surface formed by freezing a liquid;
and a driving device for moving the vehicle body.
Claim 11
The driving device is a wheel powered by an engine or a motor mounted on the vehicle body,
11. The vehicle body moving apparatus according to claim 10, wherein the wheels are provided so as to be able to move up and down with respect to the vehicle body so as to contact the road surface when driven and separate from the road surface when not driven.
Claim 12
11. The vehicle body moving device according to claim 10, wherein the driving device is a jet propulsion device or a propeller propulsion device mounted on the vehicle body.
Claim 13
The driving device is a linear motor,
11. The apparatus for moving a vehicle body according to claim 10, wherein an ice surface is formed by freezing a liquid so as to cover the surface of the track that forms the magnetic field of the linear motor.
Claim 14
11. The vehicle body moving device according to claim 10, wherein the driving device is a linear motor and wheels that obtain driving force from an engine or motor mounted on the vehicle body.
Claim 15
An energy utilization device that utilizes the energy of constant temperature groundwater,
an underground tank that is buried in a predetermined underground from which groundwater of a predetermined constant temperature can be obtained and stores the constant temperature groundwater;
a structure formed by connecting a plurality of hollow tubes made of a light-transmitting material to form a cavity therein;
a pipe and a circulation pump for circulating the constant temperature groundwater stored in the underground tank to the hollow tube of the structure;
a fan that blows air from one end side to the other end side of the cavity formed by the structure,
An energy utilization device, wherein the cavity is an air-conditioning space or an installation space for energy exchange equipment.
Claim 16
16. The energy utilization device of claim 15, wherein said energy exchange device is a solar panel.
Claim 17
There are a plurality of underground tanks, which are individually buried at a plurality of depths underground, and the groundwater of different temperatures obtained from these plurality of underground tanks is mixed to maintain a predetermined constant temperature regardless of the season. 16. The energy utilization device according to claim 15, wherein the groundwater of .
Claim 18
An energy utilization device that utilizes constant temperature underground energy,
A hollow pipe provided to and back between a predetermined constant temperature underground at a predetermined depth and the surface of the earth;
a fan for sending air on the ground surface side into the hollow pipe,
An energy utilization apparatus characterized in that the air sent into the hollow pipe by the fan and cooled or heated at the predetermined depth underground is used for air conditioning on the ground surface side.
Claim 19
An energy utilization device that utilizes sunlight energy,
a structure formed by connecting a plurality of hollow tubes made of a light-transmitting material to form a cavity therein;
a pipe and a circulation pump for circulating water or hot water in the hollow tube of the structure;
a fan that blows air from one opening toward the other opening in the cavity formed by the structure,
The structure is installed in a place where it can receive sunlight, and the seawater is passed through the bottom surface of the hollow portion in a plan view, and the wind is passed through the upper surface of the seawater by the fan to accelerate the evaporation of the seawater to obtain salt. An energy utilization device characterized by:
Claim 20
An energy utilization device that utilizes compressed air for air conditioning,
an air compression compressor powered by natural energy;
an underground tank for storing the air compressed by the air compression compressor;
An energy utilization device characterized in that compressed air stored in the tank and temperature-controlled is delivered to an air-conditioned space through a pipe.
Claim 21
An energy utilization device that generates power using natural energy,
A wall structure that mimics a ria coastline installed on the coast and acts to make seawater rise to a position higher than the sea surface by the force of sea waves;
a tank that introduces and stores seawater rising from the wall structure;
An energy utilization apparatus comprising: a hydraulic power generator or an air (gas) compression compressor that generates electric power by utilizing the potential energy of seawater stored in the tank.
Claim 22
To prevent the fish or the like from colliding with a wall or the like of a space in which the fish or the like is filled with water or the like by accelerating it in a nearly vertical direction by forming a loop-shaped structure in the space when breeding the fish or the like. Create a space using a PET bottle or the like and put water in it. The upper part may also be covered with a material such as a plastic bottle. Then, a pump is used to suck out the water or the like in it and apply pressure to blow it out, or send compressed air or the like in one direction to give rotation to the water or the like in a certain direction. The width of the loop-shaped structure where the fish is swimming should be about 50 to 100 cm (just a guideline).
Claim 23
A device that moves on cooling rails is used as a trolley, and an automobile or the like is placed on it.
Multiple carts can be connected. As for the trolley, it is possible to attach a trolley that can run on its own or a trolley that only runs in conjunction with it. Even without human operation, the trolley can be automatically driven by computer control and can reach the destination without human intervention.







1 Energy converter
10 liquid
11 liquid tank
11k top opening
11w Communication opening
11A water sealing tank
12 gas receiver
12a movable wings
13 nozzle
14 gas cylinder
14a valve
3 output means
3a, 3c, 3e Coupler
3b, 3d, 3f Shaft
31 power mechanism
31a Belt
31b gear
4 collection device
5 Compressed gas generator
52 pressure piston
52b sealing material
54 heat exchanger
2 Body movement device
2a ice surface
20 Road surface
21 car body
22 Sled
23 rail
24 wheels (driving device)
6, 6A, 6B, 6C, 7 energy utilization equipment
6a hollow tube
60 structures
61 cavity
62 Pipe
63 fan
64 solar panels
65 hollow pipe
66 fan
67 air-conditioned spaces
68 air compression compressor
70 seawater
71 wall structure
72 Tank
74 hydroelectric generator
9 sea water
P3 circulation pump
T underground tank
Ta tank

R1 heat exchange system

The block diagram of the energy conversion apparatus which concerns on one Embodiment of this invention. (a) is a perspective view of an open state of a gas receiving portion constituting the device, and (b) is a perspective view of a closed state of the same gas receiving portion. The block diagram of the energy conversion apparatus which concerns on another embodiment of this invention. The block diagram of the energy conversion apparatus which concerns on another embodiment of this invention. The block diagram of the energy conversion apparatus which concerns on another embodiment of this invention. The block diagram of the energy conversion apparatus which concerns on another embodiment of this invention. BRIEF DESCRIPTION OF THE DRAWINGS The block diagram of the compressed gas generator which concerns on one Embodiment which comprises the energy conversion apparatus of this invention is shown, (a) shows the operation|movement in a compression process, (b) shows an inhalation process. The block diagram of another compressed gas generator used for the energy conversion apparatus of this invention. The block diagram of the energy conversion apparatus which concerns on another embodiment of this invention. FIG. 4 is a diagram for explaining a working gas circulation process in the energy conversion device according to one embodiment of the present invention; The block diagram of the energy conversion apparatus which concerns on another embodiment of this invention. 1(a) is a front view showing a sled running state of a vehicle body moving device according to an embodiment of the present invention, and FIG. 1(b) is a diagram showing a wheel running state of the vehicle body moving device. (a) and (b) are side views of a vehicle body moving device according to another embodiment of the present invention. (a) is a front view of a braking device according to one embodiment of the vehicle body moving device, and (b) is a side view of the same braking device. The block diagram of the energy utilization apparatus which concerns on one Embodiment of this invention. The perspective view which shows the utilization example of the same apparatus. FIG. 2 is a configuration diagram showing another configuration example of the device; The block diagram of the energy utilization apparatus which concerns on another embodiment of this invention. The block diagram of the energy utilization apparatus which concerns on another embodiment of this invention. The block diagram of the energy utilization apparatus which concerns on another embodiment of this invention. (a) is a side view showing the configuration of an energy utilization device according to still another embodiment of the present invention, (b) is a plan view of the same device. A device that utilizes geothermal heat. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc. equipment, etc.

Claims (23)

An energy conversion device,
a liquid tank in which liquid is stored;
a plurality of gas receivers provided in the liquid tank in the vertical direction and capable of rotating or moving up and down;
a nozzle for ejecting compressed gas from below the gas receiving portion positioned at the bottom in the liquid tank;
a gas cylinder storing the compressed gas as a primary energy source and delivering the compressed gas to the nozzle;
output means for outputting kinetic energy of rotation or upward movement generated in the gas receiving portion by buoyancy generated by the gas receiving portion receiving the compressed gas ejected from the nozzle as secondary energy to the outside of the liquid tank; ,
and a recovery device for returning gas from the liquid tank to the gas cylinder. 2. The energy conversion device according to claim 1, wherein said gas cylinder is connected to a compressed gas generator that generates compressed gas using natural energy. The gas cylinder expands the volume of dry ice (butane, etc. can be used as long as it has similar properties. Note that the liquefaction pressure varies depending on the substance) as a gas by the combustion heat of the mixed gas containing hydrogen and oxygen. 3. The energy conversion device according to claim 1, wherein the energy conversion device is connected to a compressed gas generator for generating the compressed gas by allowing the energy conversion device to generate the compressed gas. The gas receiving part has movable wings that can be freely opened and closed, and is in an open state when it receives the compressed gas ejected from the nozzle and generates buoyancy, and when it does not receive the compressed gas and does not generate buoyancy. 4. The energy conversion device according to any one of claims 1 to 3, characterized in that the is closed. The gas cylinder ejects compressed gas from the nozzle through a valve that is controlled to open and close, and the valve is controlled to open only when the gas receiver reaches a predetermined position. 5. An energy conversion device according to any one of claims 1 to 4. 3. The output means includes a power mechanism including a belt on which a plurality of the gas receivers are arranged in a ring shape, and a gear on which the belt is hung and which is rotated by the movement of the belt. The energy conversion device according to any one of claims 1 to 5. a water seal tank having a communication opening that communicates with the inside of the liquid tank and an upper opening that opens upward is provided on the lateral exterior of the liquid tank,
The output means includes a coupler and a shaft for transmitting the rotation of the gear of the power mechanism in a space where the liquid tank and the water seal tank communicate with each other, and using the coupler and the shaft, the 7. The energy conversion device according to claim 6, wherein the rotational energy of said gear is output from an upper opening. The gas cylinder is a compressed gas generator that generates the compressed gas by passing a gas pipe through a heat exchanger to heat the gas, or a pressurizing device that has a floating ring-shaped O-ring that can adjust the internal pressure as a sealing material. 8. The energy conversion device according to any one of claims 1 to 7, wherein the energy conversion device is connected to a compressed gas generator that generates the compressed gas by pressurizing gas with a piston. 9. The energy conversion device according to any one of claims 1 to 8, wherein a plurality of said liquid tanks are provided in parallel or in series with respect to said gas cylinder. A vehicle body moving device,
a vehicle body;
a sled for gliding on ice provided on the front, rear, left, and right of the lower surface of the vehicle body;
a rail provided on the road surface to guide the sledding on ice, the rail having an ice surface formed by freezing a liquid;
and a driving device for moving the vehicle body. The driving device is a wheel powered by an engine or a motor mounted on the vehicle body,
11. The vehicle body moving apparatus according to claim 10, wherein the wheels are provided so as to be vertically movable with respect to the vehicle body so as to contact the road surface when driven and separate from the road surface when not driven. 11. The vehicle body moving device according to claim 10, wherein the driving device is a jet propulsion device or a propeller propulsion device mounted on the vehicle body. The driving device is a linear motor,
11. The apparatus for moving a vehicle body according to claim 10, wherein an ice surface is formed by freezing a liquid so as to cover the surface of the track that forms the magnetic field of the linear motor. 11. The vehicle body moving device according to claim 10, wherein the driving device is a linear motor and wheels that obtain driving force from an engine or motor mounted on the vehicle body. An energy utilization device that utilizes the energy of constant temperature groundwater,
an underground tank that is buried in a predetermined underground from which groundwater of a predetermined constant temperature can be obtained and stores the constant temperature groundwater;
a structure formed by connecting a plurality of hollow tubes made of a light-transmitting material to form a cavity therein;
a pipe and a circulation pump for circulating the constant temperature groundwater stored in the underground tank to the hollow tube of the structure;
a fan that blows air from one end side to the other end side of the cavity formed by the structure,
An energy utilization device, wherein the cavity is an air-conditioning space or an installation space for energy exchange equipment. 16. The energy utilization device of claim 15, wherein said energy exchange device is a solar panel. There are a plurality of underground tanks, which are individually buried at a plurality of depths underground, and the groundwater of different temperatures obtained from these plurality of underground tanks is mixed to maintain a predetermined constant temperature regardless of the season. 16. The energy utilization device according to claim 15, wherein the groundwater of . An energy utilization device that utilizes constant temperature underground energy,
A hollow pipe provided to and back between a predetermined constant temperature underground at a predetermined depth and the surface of the earth;
a fan for sending air on the ground surface side into the hollow pipe,
An energy utilization apparatus characterized in that the air sent into the hollow pipe by the fan and cooled or heated at the predetermined depth underground is used for air conditioning on the ground surface side. An energy utilization device that utilizes sunlight energy,
a structure formed by connecting a plurality of hollow tubes made of a light-transmitting material to form a cavity therein;
a pipe and a circulation pump for circulating water or hot water in the hollow tube of the structure;
a fan that blows air from one opening toward the other opening in the cavity formed by the structure,
The structure is installed in a place where it can receive sunlight, and the seawater is passed through the bottom surface of the hollow portion in a plan view, and the wind is passed through the upper surface of the seawater by the fan to accelerate the evaporation of the seawater to obtain salt. An energy utilization device characterized by: An energy utilization device that utilizes compressed air for air conditioning,
an air compression compressor powered by natural energy;
an underground tank for storing the air compressed by the air compression compressor;
An energy utilization device characterized in that compressed air stored in the tank and temperature-controlled is delivered to an air-conditioned space through a pipe. An energy utilization device that generates power using natural energy,
A wall structure that mimics a ria coastline installed on the coast, and which acts so that the seawater rises to a position higher than the sea surface by the force of the sea waves;
a tank that introduces and stores seawater rising from the wall structure;
An energy utilization apparatus comprising: a hydraulic power generator or an air (gas) compression compressor that generates electric power by utilizing the potential energy of seawater stored in the tank. To prevent the fish or the like from colliding with a wall or the like of a space in which the fish or the like is filled with water or the like by accelerating it in a nearly vertical direction by forming a loop-shaped structure in the space when breeding the fish or the like. Create a space using a PET bottle, etc., and put water, etc. in it. The upper part may also be covered with a material such as a plastic bottle. Then, a pump is used to suck out the water or the like in it and pressurize it to blow it out, or send compressed air or the like in one direction to give the water or the like rotation in a certain direction. The width of the loop-shaped structure where the fish is swimming should be about 50 to 100 cm (just a guideline). A device that moves on cooling rails is used as a trolley, and an automobile or the like is placed on it.
Multiple carts can be connected. As for the trolley, it is possible to attach a trolley that can run on its own or a trolley that only runs in conjunction with it. Even without human operation, the trolley can be automatically driven by computer control and can reach the destination without human intervention.

The energy conversion device 1 includes a liquid tank 11 storing a liquid 10, a plurality of gas receivers 12 provided in the liquid tank 11 in the vertical direction and capable of rotating or moving up and down, and a A nozzle 13 for ejecting compressed gas from below the gas receiving portion 12 located, a gas cylinder 14 for storing the compressed gas as a primary energy source and sending the compressed gas to the nozzle 13, and the gas receiving portion 12 ejecting from the nozzle 13. Output means 3 for outputting the kinetic energy of rotation or upward movement generated in the gas receiver 12 by the buoyancy generated by receiving the compressed gas to the outside of the liquid tank 11 as secondary energy; and a recovery device 4 for returning to

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