WO2020256155A2 - 生活を豊かにする発明 - Google Patents

生活を豊かにする発明 Download PDF

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Publication number
WO2020256155A2
WO2020256155A2 PCT/JP2020/024682 JP2020024682W WO2020256155A2 WO 2020256155 A2 WO2020256155 A2 WO 2020256155A2 JP 2020024682 W JP2020024682 W JP 2020024682W WO 2020256155 A2 WO2020256155 A2 WO 2020256155A2
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WO
WIPO (PCT)
Prior art keywords
gas
energy
tank
water
air
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/JP2020/024682
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English (en)
French (fr)
Japanese (ja)
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WO2020256155A8 (ja
WO2020256155A3 (ja
Inventor
竜也 新谷
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from JP2019127210A external-priority patent/JP2020104834A/ja
Priority claimed from PCT/JP2020/023488 external-priority patent/WO2020255937A1/ja
Priority to CN202080057764.8A priority Critical patent/CN114641609A/zh
Application filed by Individual filed Critical Individual
Priority to JP2021527664A priority patent/JP7629599B2/ja
Priority to US17/619,264 priority patent/US20220356863A1/en
Publication of WO2020256155A2 publication Critical patent/WO2020256155A2/ja
Publication of WO2020256155A3 publication Critical patent/WO2020256155A3/ja
Publication of WO2020256155A8 publication Critical patent/WO2020256155A8/ja
Priority to TW110121773A priority patent/TW202219378A/zh
Anticipated expiration legal-status Critical
Priority to JP2025009499A priority patent/JP2025069223A/ja
Ceased legal-status Critical Current

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03BMACHINES OR ENGINES FOR LIQUIDS
    • F03B17/00Other machines or engines
    • F03B17/02Other machines or engines using hydrostatic thrust
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03BMACHINES OR ENGINES FOR LIQUIDS
    • F03B13/00Adaptations of machines or engines for special use; Combinations of machines or engines with driving or driven apparatus; Power stations or aggregates
    • F03B13/12Adaptations of machines or engines for special use; Combinations of machines or engines with driving or driven apparatus; Power stations or aggregates characterised by using wave or tide energy
    • F03B13/14Adaptations of machines or engines for special use; Combinations of machines or engines with driving or driven apparatus; Power stations or aggregates characterised by using wave or tide energy using wave energy
    • F03B13/141Adaptations of machines or engines for special use; Combinations of machines or engines with driving or driven apparatus; Power stations or aggregates characterised by using wave or tide energy using wave energy with a static energy collector
    • F03B13/144Adaptations of machines or engines for special use; Combinations of machines or engines with driving or driven apparatus; Power stations or aggregates characterised by using wave or tide energy using wave energy with a static energy collector which lifts water above sea level
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03BMACHINES OR ENGINES FOR LIQUIDS
    • F03B17/00Other machines or engines
    • F03B17/06Other machines or engines using liquid flow with predominantly kinetic energy conversion, e.g. of swinging-flap type, "run-of-river", "ultra-low head"
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02SGENERATION OF ELECTRIC POWER BY CONVERSION OF INFRARED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, e.g. USING PHOTOVOLTAIC [PV] MODULES
    • H02S10/00PV power plants; Combinations of PV energy systems with other systems for the generation of electric power
    • H02S10/10PV power plants; Combinations of PV energy systems with other systems for the generation of electric power including a supplementary source of electric power, e.g. hybrid diesel-PV energy systems
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F05INDEXING SCHEMES RELATING TO ENGINES OR PUMPS IN VARIOUS SUBCLASSES OF CLASSES F01-F04
    • F05BINDEXING SCHEME RELATING TO WIND, SPRING, WEIGHT, INERTIA OR LIKE MOTORS, TO MACHINES OR ENGINES FOR LIQUIDS COVERED BY SUBCLASSES F03B, F03D AND F03G
    • F05B2210/00Working fluid
    • F05B2210/40Flow geometry or direction
    • F05B2210/401Flow geometry or direction upwards due to the buoyancy of compressed air
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F05INDEXING SCHEMES RELATING TO ENGINES OR PUMPS IN VARIOUS SUBCLASSES OF CLASSES F01-F04
    • F05BINDEXING SCHEME RELATING TO WIND, SPRING, WEIGHT, INERTIA OR LIKE MOTORS, TO MACHINES OR ENGINES FOR LIQUIDS COVERED BY SUBCLASSES F03B, F03D AND F03G
    • F05B2240/00Components
    • F05B2240/40Use of a multiplicity of similar components
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F5/00Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater
    • F24F5/0046Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater using natural energy, e.g. solar energy, energy from the ground
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/20Hydro energy
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/30Energy from the sea, e.g. using wave energy or salinity gradient

Definitions

  • the present invention relates to an energy conversion device that converts and generates secondary energy based on primary energy.
  • an energy conversion device for example, a gasoline engine is known.
  • the present invention solves the above problems, and an object of the present invention is to provide an energy conversion device capable of efficiently generating and converting secondary energy from primary energy.
  • the energy conversion device includes a liquid tank in which liquid is stored, a plurality of gas receiving portions provided in the liquid tank in the vertical direction and which can be rotated or moved up and down, and the liquid tank.
  • a nozzle that ejects compressed gas from below the gas receiving portion located at the lower portion, a gas cylinder that stores the compressed gas as a primary energy source and sends the compressed gas to the nozzle, and the gas receiving portion
  • An output means that outputs the rotational or upward movement kinetic energy generated in the gas receiving portion by the buoyancy generated by receiving the compressed gas ejected from the nozzle as secondary energy to the outside of the liquid tank, and a gas from the liquid tank.
  • the gas bomb is provided with a recovery device for returning the gas to the gas cylinder.
  • compressed gas as a primary energy source is ejected into the liquid tank in which the liquid is stored, the kinetic energy due to the generated buoyancy is converted into secondary energy, and the gas is recovered from the liquid tank into a gas cylinder. Since it is reused, energy can be efficiently generated and converted.
  • the vehicle body moving device includes a vehicle body, sleds for gliding on ice provided on the front, rear, left and right sides of the lower surface of the vehicle body, and a liquid provided on the road surface to guide the sled on ice. It is characterized in that it is provided with a rail on which an ice surface is formed by freezing and a drive device for traveling the vehicle body.
  • inertial motion can be performed by gliding on ice with less resistance, and the energy efficiency of running can be improved.
  • the energy utilization device is an energy utilization device that utilizes the energy of constant temperature groundwater, and is buried in a predetermined underground where a predetermined constant temperature groundwater can be obtained to store the constant temperature groundwater.
  • the underground tank to be used a structure formed by connecting a plurality of hollow tubes made of a light-transmitting material to form a hollow portion inside, and constant temperature groundwater stored in the underground tank are described above.
  • the cavity is provided with a pipe and a circulation pump that circulate through the hollow tube of the structure, and a fan that blows air from one end side to the other end side of the cavity formed by the structure. It is characterized by being an air conditioning space or an energy exchange equipment installation space.
  • the energy of constant temperature groundwater can be effectively used.
  • the energy utilization device is an energy utilization device that utilizes constant temperature underground energy, and reciprocates between the underground and the ground surface at a predetermined constant temperature and a predetermined depth.
  • a hollow pipe provided and a fan that sends air on the ground surface side to the hollow pipe are provided, and air that is sent to the hollow pipe by the fan and cooled or heated underground at a predetermined depth is air-conditioned on the ground surface side. It is characterized by being used for.
  • the energy of constant temperature groundwater can be effectively used.
  • the energy utilization device is an energy utilization device that utilizes sunlight energy, and is internally formed by communicating and connecting a plurality of hollow tubes made of a light transmitting material.
  • a structure formed by forming a cavity in a structure, a pipe and a circulation pump for flowing water or hot water through a hollow tube of the structure, and the cavity formed by the structure from one opening to another.
  • a fan for blowing air toward the opening is provided, the structure is installed in a place where sunlight can be received, seawater is passed through the bottom surface side of the cavity in a plan view, and the wind from the fan is blown onto the upper surface of the seawater. It is characterized by promoting the evaporation of seawater to obtain salt.
  • the energy utilization device is an energy utilization device that utilizes compressed air for air conditioning, and is an air compression compressor powered by natural energy and air compressed by the air compression compressor. It is provided with a tank buried underground for storing the compressed air, and the temperature-controlled compressed air stored in the tank is sent to an air-conditioned space through a pipe.
  • the energy utilization device is an energy utilization device that generates electricity by using natural energy, and is installed on the coast to a position where seawater is higher than the sea surface by the force of sea waves.
  • a wall structure that imitates a rias coast that acts to rise, a tank that introduces and stores the raised seawater, and the potential energy of the seawater stored in the tank are used to generate electricity. It is characterized by being equipped with a hydroelectric generator or an air compression compressor.
  • 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 the gas receiving portion constituting the device in an open state, and (b) is a perspective view of the gas receiving portion in a closed state.
  • 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 still another Embodiment of this invention.
  • the block diagram of the energy conversion apparatus which concerns on still another Embodiment of this invention The block diagram of the energy conversion apparatus which concerns on still another Embodiment of this invention.
  • 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 in a compression step, (b) shows the operation in a suction step.
  • the block diagram of another compressed gas generator used in the energy conversion apparatus of this invention The block diagram of the energy conversion apparatus which concerns on still another Embodiment of this invention.
  • the block diagram of the energy conversion apparatus which concerns on still another Embodiment of this invention are shown, (a) shows the operation in a compression step, (b) shows the operation in a suction step.
  • the block diagram of another compressed gas generator used in the energy conversion apparatus of this invention The block diagram of the energy conversion apparatus which concerns on still another Embodiment of this invention.
  • the figure explaining the circulation process of the operating 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 still another Embod
  • (A) is a front view showing a sled traveling state of a vehicle body moving device according to an embodiment of the present invention
  • (b) is a diagram showing a wheel traveling state of the vehicle body moving device.
  • (A) and (b) are side views of the vehicle body moving device according to another embodiment of the present invention, respectively.
  • (A) is a front view of the braking device according to the embodiment of the vehicle body moving device, and (b) is a side view of the braking device.
  • the block diagram of the energy utilization apparatus which concerns on one Embodiment of this invention.
  • the perspective view which shows the use example of this apparatus.
  • the block diagram which shows another configuration example of this apparatus.
  • the block diagram of the energy utilization apparatus which concerns on still another Embodiment of this invention.
  • the block diagram of the energy utilization apparatus which concerns on still another Embodiment of this invention The block diagram of the energy utilization apparatus which concerns on still another Embodiment of this invention.
  • (A) is a side view showing the configuration of the energy utilization device according to still another embodiment of the present invention, and (b) is a plan view of the device.
  • the energy conversion device 1 includes a liquid tank 11, a gas receiving unit 12, a nozzle 13, a gas cylinder 14, an output means 3, and a recovery device 4.
  • the energy conversion device 1 is a device that ejects a compressed gas as a primary energy source into the liquid tank 11 in which the liquid 10 is stored, and converts the kinetic energy generated by the buoyancy into the secondary energy that can be output from the liquid tank 11. Is.
  • the liquid tank 11 is a sealable tank and is usually used in a sealed state.
  • the liquid 10 is stored in the liquid tank 11.
  • the size of the liquid tank 1 is, for example, 2 to 3 m, but the size is not limited to this.
  • a power mechanism 31 that generates a rotational motion by using the buoyancy of the liquid 10 is installed inside the liquid tank 11, a power mechanism 31 that generates a rotational motion by using the buoyancy of the liquid 10 is installed inside the liquid tank 11, a power mechanism 31 that generates a rotational motion by using the buoyancy of the liquid 10 is installed inside the liquid tank 11, a power mechanism 31 that generates a rotational motion by using the buoyancy of the liquid 10 is installed inside the liquid tank 11, a power mechanism 31 that generates a rotational motion by using the buoyancy of the liquid 10 is installed inside the liquid tank 11, a power mechanism 31 that generates a rotational motion by using
  • the upper gear 31b is buried in the liquid 10 in FIG. 1, the upper portion thereof may protrude above the liquid surface, for example, the upper half of the gear 31b may protrude from the liquid surface to near the upper half. ..
  • the amount to be released may be appropriately determined depending on the balance between the effectiveness of the buoyancy due to the gas in the gas receiving portion 12 and the resistance to the rotation of the gear 31b, for example, the resistance exerted by the liquid 10 on the gas receiving portion 12.
  • a plurality of gas receiving portions 12 are provided in the liquid tank 11 in the vertical direction by being dispersedly arranged on the belt 31a in a ring shape.
  • the gas receiving portion 12 is movable up and down in conjunction with the movement of the belt 31a, rotates at the up and down positions, and orbits between the top and bottom as a whole.
  • the belt 31a and the gear 31b rotate clockwise, that is, clockwise.
  • the nozzle 13 ejects compressed gas from below the gas receiving portion 12 located at the lower part in the liquid tank 11.
  • the compressed gas is captured by the gas receiving portion 12 and gives buoyancy to the gas receiving portion 12.
  • the gas receiving unit 12 receives the buoyancy from the liquid 10, but when it moves upward, it receives the compressed gas ejected from the nozzle 13, and therefore receives a larger buoyancy than when it moves downward. ..
  • the number of nozzles 13 is not limited to one, and may be a plurality of nozzles 13.
  • gas may be discharged from a wide area into the gas receiving portion 12 by distributing a plurality of openings of the nozzle 13 over the entire surface of the downward opening of the gas receiving portion 12, such as an upward shower nozzle.
  • the gas receiving portion 12 is configured to have movable wings 12a that can be 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 is in a state and does not generate buoyancy from the gas without receiving compressed gas. With this structure, the orbital motion of the gas receiving portion 12 and the belt 31a is performed more efficiently.
  • the gas cylinder 14 stores the compressed gas as a primary energy source and sends the compressed gas to the nozzle 13.
  • the gas cylinder 14 ejects compressed gas from the nozzle 13 via a valve 14a whose opening and closing is controlled.
  • the valve 14a is controlled to open only when the gas receiving portion 12 comes to a predetermined position.
  • the gas cylinder 14 is connected to a compressed gas generator 5 that generates a compressed gas.
  • the compressed gas generator 5 uses, for example, a general compressor that pumps gas by the rotational motion of the impeller or rotor or the reciprocating motion of the piston to convert mechanical energy into the energy of the fluid gas. Good.
  • the compressed gas generator 5 is operated by power from the power source 50.
  • the power source 50 natural energy such as wind power, geothermal power, hydraulic power, tidal force, wave power, etc. is preferably used for suppressing the generation of global warming gas.
  • the compressed gas generated by the compressed gas generator 5 is a gas whose pressure has been increased so that the gas can be supplied from the nozzle 13 to the gas receiving portion 12 against the water pressure of the liquid 10 in the tank 11.
  • the gas supplied to the gas receiving unit 12 is supplied to give the buoyancy of the liquid 10 to the gas receiving unit 12.
  • the output means 3 is a 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.
  • the output means 3 uses a power mechanism 31 that converts kinetic energy due to buoyancy into rotational energy of the rotating shaft 31c of the gear 31b, and electrical energy that converts the rotational energy of the rotating shaft 31c into secondary energy. It is provided with a power generation device 32 that converts the energy into.
  • the recovery device 4 is a device that returns the gas from the liquid tank 11 to the gas cylinder 14.
  • the space above the liquid tank 11 is a gas chamber 15 in which gas stays.
  • the recovery device 4 sends the gas staying in the gas chamber 15 to the gas cylinder 14 via the compressed gas generator 5.
  • the gas in the gas chamber 15 is a gas created from the nozzle 13 and a vapor of the liquid 10.
  • the recovery device 4 includes a three-way valve 41, a sub-pombe 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 valves for adjusting the flow rate and closing the valve, which are controlled to open and close. It is desirable that this is a combined function valve having the function of a check valve.
  • the three-way valve 41 has a function of a valve that releases gas in order to reduce the pressure in the gas chamber 15.
  • the sub-pombe 40 functions as a buffer that assists the capacity of the gas chamber 15.
  • the recovery device 4 is composed of only a pipe connecting the gas chamber 15 and the compressed gas generator 5. May be good.
  • the operating gas of the apparatus that is, the compressed gas
  • air is described as air, but is not limited to air.
  • the liquid 10 will be described assuming that it 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 a compressed gas. While adjusting the gas pressure in the gas chamber 15 with the three-way valve 41, and further adjusting the valve 14a, the compressed gas is sent out to the nozzle 13.
  • the gas constituting the compressed gas coming out of the upward opening of the nozzle 13 is captured by the gas receiving portion 12 opened at the lowermost part of the belt 31a moving upward and replaced with the water in the upper space of the gas receiving portion 12. Then, since the buoyancy based on the gas is applied to the gas receiving portion 12, there is a difference in the force acting on the left and right belts 31a based on the buoyancy of the liquid 10, and the belts 31a gradually start to rotate clockwise. When the gas is received by the gas receiving portion 12 that moves one after another on the nozzle 13, the orbital movement of the belt 31a becomes a steady state.
  • the gas In the steady state of the orbital movement of the belt 31a, the gas is discharged to the information from the gas receiving portion 12 which rotates with the belt 31a in contact with the upper gear 31b.
  • the gas receiving portion 12 that has released the gas moves downward with the movable blade 12a that can be opened and closed closed.
  • the openable and closable movable blade 12a opens to receive the gas from the nozzle 13.
  • the orbiting belt 31a converts the kinetic energy from the gas receiving portion 12 that rises in response to the buoyancy into the rotational kinetic energy of the gear 31b.
  • the rotation of the gear 31b rotates the rotating shaft 31c, and the rotational energy becomes electric energy generated by the power generation device 31 and is taken out to the outside.
  • this energy can be used to directly move gears and turn the screws of the ship.
  • the pressure P1 is the pressure of the compressed gas sent from the gas cylinder 14.
  • the pressure PW is a water pressure determined by the depth of the liquid 10.
  • the pressure P2 is the pressure of the gas in the gas chamber 15.
  • the compressed gas generator 5 compresses the gas in order to obtain the required pressure P1 to a high pressure of at least water pressure PW or higher.
  • 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.
  • the compressed gas circulates in the device while receiving pressure fluctuations as a working gas.
  • the energy conversion device 1 forms a closed circulation circuit for operating gas in a steady state.
  • various parts such as valves, pressure sensors, and tanks may be appropriately incorporated into the energy conversion device 1.
  • a compressed gas as a primary energy source is ejected into the liquid tank 11 in which the liquid 10 is stored, and the kinetic energy due to the generated buoyancy is converted into the secondary energy from the liquid tank 11.
  • the gas can be recovered in the gas cylinder 14 and reused. Therefore, energy can be efficiently generated and converted.
  • a special gas such as air
  • the special gas can be recovered and reused.
  • the pressure P2 of the gas in the gas chamber 15, that is, the pressure energy of the gas can be reused.
  • the energy conversion device 1 of this embodiment is provided with a transmission mechanism 30 that mechanically extracts the rotational energy of the gear 31b to the outside instead of the power generation device 32 of the embodiment of FIG.
  • the liquid tank 11 is installed underground, but it is not limited to being installed underground, and may be grounded semi-underground or above ground. The same applies to the energy conversion device 1 of FIG.
  • the transmission mechanism 30 is 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, and sequentially couples to the coupler 3a, the shaft 3b, the coupler 3c, the shaft 3d, It is provided with a coupler 3e and a shaft 3f.
  • 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, and sequentially couples to the coupler 3a, the shaft 3b, the coupler 3c, the shaft 3d, It is provided with a coupler 3e and a shaft 3f.
  • the lateral shaft 3b is led out to the outside of the liquid tank 11 through a communication opening 11w provided on the side wall of the liquid tank 11 located on the side of the lower gear 31b.
  • a water sealing tank 11A is provided on the lateral outside of the liquid tank 11 so as to surround the coupler 3c and the shaft 3d in the vertical direction.
  • the water-sealed tank 11A has a communication opening 11w that communicates with the inside of the liquid tank 11 and an upper opening 11k that opens upward.
  • the water-sealed tank 11A contains the liquid 10, and the liquid level thereof is opened to atmospheric pressure by the 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-sealed tank 11A becomes different liquid levels when the gas pressure P2 in the gas chamber 15 is not atmospheric pressure. ..
  • the output mechanism 30 of the output means 3 in the energy conversion device 1 uses a water-sealed structure, mechanical energy can be taken out of the energy conversion device 1 without using a strict sealing structure.
  • the water-sealed structure can be similarly applied to the upper gear 31b.
  • the transmission device 30 uses the energy converted and generated in the liquid tank 11 as mechanical energy via the couplers 3a, 3c, 3e and the shafts 3b, 3d, and 3f to the outside of the energy conversion device 1. It is taken out and transmitted to an external operating device 33.
  • the operating device 33 is a water pump, and is configured to include a plurality of buckets 33d on a chain 33c hung on upper and lower sprockets 33a and 33b.
  • the rotational energy taken out of the energy conversion device 1 is transmitted as rotational energy to the upper sprocket 33a via the shaft 3f.
  • the energy based on the pressure of the compressed gas can be converted into mechanical energy and output, so that the mechanical energy can be used as it is as the energy for the mechanical operation of the operating device 33. ..
  • 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 the valve 14. Further, the gas in the gas chamber 15 of each liquid tank 11 is recovered in the sub bomb 40 via the three-way valve 41, respectively.
  • the liquid tanks 11 arranged in parallel are not limited to those having the same structure as each other, may have different structures from each other, 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 the gas cylinder 14. Each liquid tank 11 is arranged at the same horizontal level. From the side close to the gas cylinder 14, compressed gas is sent to the nozzle 13 via the valve 14a to the first liquid tank 11. Gas is sent 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, the gas is collected in the sub-bomb 40 from the gas chamber 15 of the third liquid tank 11.
  • the valve 14a and the three three-way valves 41 are used to adjust the pressures corresponding to the pressures P1, PW, and P2 described above in the three liquid tanks 11 with each other.
  • the liquid tanks 11 arranged in series are not limited to those having the same structure as each other, may have different structures from each other, 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 one above the other in series with respect to the gas cylinder 14.
  • the gas from the gas chamber 15 of the lower liquid tank 11 is sent to the nozzle 13 of the upper liquid tank 11 via the three-way valve 41.
  • the pipe for guiding the gas is piped 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 a structure for preventing the liquid 10 in the upper liquid tank from flowing into the lower liquid tank 11 through the gas pipe.
  • the upper and lower liquid tanks 11 are communicated with each other by the water sealing tank 11A.
  • a configuration is realized in which mechanical energy is taken out from the upper and lower liquid tanks 11 via a water sealing tank 11A and a transmission mechanism 30 which are common to each other.
  • the upper and lower liquid tanks 11 are not limited to being communicated with each other by the water sealing tank 11A, and the upper and lower liquid tanks 11 may be independent of each other.
  • the pair of the liquid tank 11, the water-sealed tank 11A, and the transmission mechanism 30 shown in FIG. 3 may be arranged in series in the upper and lower directions. It is provided with a transmission mechanism 30.
  • the compressed gas generator 5 generates a compressed gas by pressurizing the gas using a pressurized piston 52 provided in the cylinder 51.
  • the pressure piston 52 includes a piston body 52a and a sealing material 52b made of a floating ring-shaped O-ring whose internal pressure can be adjusted.
  • a pipe for creating compressed gas is openly 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.
  • the lower portion of the cylinder 51 communicates with the water sealing tank 11A provided outside the side wall of the cylinder 51 by the water sealing structure.
  • a chain is locked to the lower surface of the pressure piston 52, and the chain is fixed to a hoisting machine 53 located above the water sealing tank 11A through a water sealing structure so as to be hoisted and rewound. There is.
  • the internal pressure of the floating ring-shaped sealing material 52b is increased to form a slidable sealing structure between the pressurizing piston 52 and the inner wall of the cylinder 51.
  • the pressure piston 52 is moved downward by the hoisting machine 53 to compress the gas inside the cylinder 51 and send the compressed gas to the gas cylinder 14.
  • the internal pressure of the floating ring-shaped sealing material 52b is weakened to form a structure having a gap between the pressure piston 52 and the inner wall of the cylinder 51.
  • the hoisting machine 53 is loosened, the pressure piston 52 is pulled upward, and gas is sucked into the cylinder 51.
  • the mechanism and energy for pushing down the pressurizing piston 52 downward to compress the gas are not limited to those using the hoisting machine 53, and various methods can be used.
  • the upper surface of the pressure piston 52 may be configured to apply hydraulic pressure or water pressure.
  • the intake step can be easily performed by lowering the internal pressure of the floating ring-shaped sealing material 52b whose internal pressure can be adjusted.
  • the compressed gas generator 5 heats the solid dry ice with the heat of combustion of a mixed gas containing hydrogen and oxygen to form a gas, thereby expanding the volume to generate the compressed gas.
  • the generated compressed gas is sent out from the gas cylinder 14.
  • the operating gas may be a gas that produces buoyancy when delivered from the nozzle 13.
  • the gas chamber 15 and the gas cylinder 14 it may be in a liquid or solid state instead of a gas.
  • an operating gas that is converted into dry ice or liquefied gas and converted into a solid or liquid can be used.
  • a substance that is compressed into a liquefied gas may be used as the operating gas.
  • the compressed gas generator 5 generates compressed gas by passing a gas pipe through a heat exchanger 54 to heat the gas, and the other energies shown in FIGS. 1 and 3 are generated. It is the same as the conversion device 1.
  • a valve 42 On the upstream side of the heat exchanger 54, that is, on the sub-bomb 40 side, there is a valve 42 having a check valve function.
  • a three-way valve 51a for adjusting the gas pressure and the like is provided as needed.
  • a heat medium 54a that becomes hot is sealed in the housing of the heat exchanger 54.
  • the operating gas that circulates in the energy conversion device 1 and operates the energy conversion device 1, that is, the pipe that guides the gas that becomes the compressed gas, is surrounded by the heat medium 54a in the heat exchanger 54.
  • the operating gas inside the pipe is vaporized at high pressure by receiving heat from the heat medium 54a and becomes a compressed gas.
  • the operating gas does not have to be a gas at all times while circulating in the energy conversion device 1, and may be in a liquid or solid state.
  • an operating gas material When generically including an operating gas in a state different from that of a gas, it is called an operating gas material.
  • the heat exchanger 54 may be, for example, in the embodiment of a solar water heater, in which metallic sodium is sealed 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 for example, solar energy, geothermal heat (heat of magma, etc.), heat of a hot spring, or the like may be used.
  • the substance to be the operating gas depends on the combination with the liquid 10 in the liquid tank 11, and further, the operating conditions of the energy conversion device 1, for example, various pressures P1, PW, P2, the temperature conditions of the liquid 10, and the operation time. It may be arbitrarily selected and used according to the physical property value of.
  • a refrigerant such as chlorofluorocarbon may be used as the operating gas.
  • ammonia water or the like may be used in addition to water.
  • the operation gas circulation process in one embodiment of the energy conversion device 1 will be schematically described.
  • the operating gas is converted into a high-pressure gas by the compressed gas generator 5, sent to the device main body 11R of the energy conversion device via the gas cylinder 14, and recovered from the device main body 11R to the sub cylinder 40. Then, the gas returns to the compressed gas generator 5.
  • the apparatus main body 11R is a general term for the liquid tank 11 and the structure inside the liquid tank 11, and is a component for converting the primary energy of the compressed gas into kinetic energy and then outputting it to the outside of the liquid tank 11 as secondary energy. including.
  • the compressed gas generator 5 of the present embodiment includes a compressor 16, a heat exchanger 17, and a vaporizer 18.
  • chlorofluorocarbons used as a refrigerant in a refrigerator or the like will be described as an operating gas.
  • Such an operating gas can be used as a heat source when it is heated to a high temperature, and can be used as a heat resting material when it expands to generate heat of vaporization and is cooled to a low temperature. It can also be used as a gas that gives buoyancy to the gas receiving portion 12 in the conversion device 1.
  • the compressor 16 uses, for example, electric energy to compress the operating gas into a high temperature and high pressure state.
  • the heat exchanger 17 releases the heat of the operating gas inside the heat exchanger 17 to heat a liquid or gas such as water or air.
  • the heated liquid or gas is guided to another place and used for heating in air conditioning or the like.
  • the vaporizer 18 expands the operating gas through an expansion valve or the like to further lower the temperature.
  • the low-temperature operating gas can take away heat from the surroundings, and its heat absorption capacity is used for the construction of cooling systems and the like.
  • the operating gas that has passed through the heat exchanger 17 and the vaporizer 18 becomes a compressed gas whose pressure is appropriately adjusted, and is sent to the apparatus main body 11R via the gas cylinder 14 to perform energy conversion.
  • the compressor 16 previously inputs surplus energy into the operating gas, and the subsequent heat exchanger 17 and the vaporizer 18 use the surplus energy to heat and cool the operating gas, respectively. After that, energy conversion using buoyancy can be performed. In an environment where surplus energy can be input, a unified system can be constructed as a whole.
  • the power mechanism 31 in the energy conversion device 1 of FIG. 1 is replaced with a power mechanism 31A having an aspect of a water turbine.
  • the power mechanism 31A has a plurality of gas receiving portions 12 provided around the outer periphery of a rotating body that rotates around one axis.
  • the gas receiving portion 12 has the structure shown in FIGS. 2 (a) and 2 (b).
  • two power mechanisms 31A that rotate clockwise are installed in the liquid tank 11. Further, a valve 14a and a nozzle 13 are set for each power mechanism 31A, respectively. The rotational energy of the power mechanism 31A is converted into electrical energy by the power generation device 32.
  • the vehicle body moving device 2 is provided on the vehicle body 21, a sled 22 for gliding on ice provided on the front, rear, left and right sides of the lower surface of the vehicle body 21, and a sled 22 provided on the road surface 20. It is provided with a pair of left and right rails 23 formed by freezing the liquid to form an ice surface 2a, and a driving device for traveling the vehicle body 21 to guide the sliding on the ice.
  • the rail 23 includes a housing 23a having a concave cross section formed with a groove in the longitudinal direction and fixed to the road surface 20, and a refrigerant pipe 23b for passing a refrigerant arranged inside the groove. .. Water is put into the groove of the housing 23a and cooled by the refrigerant pipe 23b to form ice 2b. The surface of the ice 2b becomes the ice surface 2a when the sled 22 slides on the ice.
  • the rail 23 may be provided with a cover that covers the sled 22 to prevent rain or the like from entering the inside when the sled 22 does not slide on ice, or may be provided with a drain hole for draining water existing on the ice surface 2a. Good.
  • the cover and the housing 23a of the rail 23 circulate the underground tank water through a pipe to cool it.
  • a guide wheel 21a is provided in the vicinity of the outer surface of the rail 23.
  • the guide wheel 21a guides the vehicle body 21 so as to travel along the rail 23.
  • Such a guiding device may be provided between the sled 22 and the rail 23.
  • the structure on the rail 23 may be configured to wrap and surround the sled 22 so that the sled 22 does not deviate from the rail 23.
  • the drive device is a wheel 24 powered by an engine or a motor mounted on the vehicle body 21.
  • the wheels 24 are configured to be able to move up and down with respect to the vehicle body 21, and are moved upward so as to be separated from the road surface 20 when not driven, and the vehicle body 21 is sled on the ice surface 2a by the sled 22 (FIG. 12). Further, the wheels 24 come into contact with the road surface 20 during driving to drive the vehicle body 21 on the wheels (FIG. 13).
  • two wheels 24 may be arranged in the front-rear direction between the front and rear sleds 22, or one wheel 24 may be arranged in the front-rear direction as shown in FIG. 13 (b).
  • the arrangement and number of wheels 24 can be arbitrarily set according to the respective roles of sled running and wheel running. For example, when the sled 22 is grounded on the ice surface 2a and is driven by the wheels 24, the weight of the vehicle body 21 is supported by the sled 22, so that the wheels 24 need only be driven to travel, and one wheel as a whole. All you need is. Further, when the weight of the vehicle body 21 is supported by the wheels 24, at least three wheels 24 are required to support the weight at three points.
  • the vehicle body moving device 2 may be an embodiment in which the vehicle body 21 is moved by using a driving device having no wheels 24.
  • a driving device having no wheels 24.
  • a jet propulsion device or a propeller propulsion device may be mounted on the vehicle body 21 and used.
  • a linear motor may be used as a drive device.
  • the line forming the magnetic field of the linear motor may freeze the liquid to form an ice surface so as to cover the surface thereof.
  • the linear motor and the wheels 24 that obtain the driving force by the engine or the motor mounted on the vehicle body 21 may be combined to form a driving device.
  • a braking device according to an embodiment of the vehicle body moving device 2 will be described with reference to FIGS. 14A and 14B.
  • the vehicle body 21 gliding on the rail 23 using the sled 22 absorbs the kinetic energy of the vehicle body 21 by a braking device to decelerate or stop.
  • the vehicle body moving device 2 may be provided with an arbitrary braking device.
  • the braking device 25 of the present embodiment absorbs kinetic energy by the movement resistance of the fluid.
  • the braking device 25 is an application of a device generally called a shock absorber or a damper.
  • the braking device 25 is provided along the rail 23, for example, a cylinder 25a in which a liquid is sealed, a piston 25b that moves relative to the cylinder 25a to move the liquid inside, and a locking provided in the piston 25b.
  • a portion 26c and an engaging portion 21b provided at the lower part of the vehicle body 21 and engaged with the locking portion 26c are provided.
  • the cylinder 25a and the piston 25b have a structure and a function as a shock absorber.
  • the pair of the cylinder 25a and the piston 25b is arranged at predetermined intervals along the rail 23.
  • the pair of the cylinder 25a and the piston 25b may be arranged at a predetermined interval along the entire line of the rail 23, or may be arranged within a predetermined range at a predetermined interval.
  • the engaging portion 21b is movable up and down, and at the time of braking, the engaging portion 21b is lowered from the traveling vehicle body 21 and locked by the locking portion 26c, and pushes the locking portion 26c in the traveling direction (left side in the figure). .. As a result, the piston 25b is pushed to the left and moves, and the kinetic energy is converted and absorbed by the viscous resistance of the oil, and the vehicle body 21 is decelerated.
  • the braking device 25 is provided with a plurality of safety valves 25d for releasing the pressure in the cylinder 25a to prevent destruction.
  • the safety valves 25d are set to function in stages according to the pressure stage. If 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 of the next stage in the traveling direction are automatically released. The engaging portion 21b is locked to the locking portion 26c in the set, and the braking operation by the set is performed.
  • the braking device 25 is set and arranged according to a predetermined rule of traveling speed and braking distance.
  • 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, a circulation pump P3, and a fan 63.
  • the underground tank T is buried in a predetermined underground where a predetermined constant temperature groundwater can be obtained to store the constant temperature groundwater.
  • the underground tank T is arranged together with the pump P1 near the groundwater layer L containing the constant temperature groundwater, and stores the groundwater pumped by the pump P1.
  • the groundwater is pumped from the underground tank T to the ground by the pump P2.
  • the structure 60 has a hollow portion 61 formed by communicating and connecting a plurality of hollow tubes 6a formed of a light transmissive material.
  • the cavity 61 is used as an air conditioning space or an energy exchange device installation space.
  • the structure 60 may be installed on the ground when used in the presence of sunlight, and may be installed underground in other cases. In the ground, it becomes easy to use under a predetermined constant temperature.
  • the structure 60 is used as a closed space by sealing both ends thereof with a wall formed by connecting the hollow tubes 6a.
  • the structure 60 may be used as an open space in which a part of both ends thereof is 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 by the pump p2 to the hollow tube 6a of the structure 60.
  • the necessary amount of groundwater is stored in the auxiliary tank T1 and circulated in the hollow tube 6a, and then returned to the underground tank T. Due to the circulation in the hollow tube 6a, the temperature inside the hollow portion 61 becomes constant.
  • the fan 63 creates a flow of air in the closed cavity 61 formed by the structure 60. This ventilation eliminates the stagnation of air in the cavity 61.
  • the structure 60 is provided with external piping from one end side to the other end side to form a closed wind passage, and a fan 63 is used to generate a unidirectional wind flow in the structure 60. May be good.
  • the cavity 61 is suitably used as an installation space for the solar panel 64.
  • the solar panel 64 is an energy exchange device that converts sunlight energy into electrical energy. Since the solar panel 64 is located in the cavity 61 whose four surfaces are maintained at the temperature of groundwater and is blown by the fan 63, the panel surface can be maintained at a low temperature and the power generation efficiency can be maintained.
  • the structure 60 can have an appropriate shape that can optimize and improve the efficiency of temperature control of the contents according to the contents that contain the shape of the cavity 61. For example, in the case of the solar panel 64 of FIG.
  • a hollow portion surrounded by a wall surface formed by a hollow tube 6a and sealed close to an outer peripheral surface including the front surface and the back surface of the panel so that the panel can be accommodated in the minimum space. It may be 61, or it may be a non-sealed cavity 61 which is partially open.
  • the energy utilization device 6 has a plurality of (three in the illustrated example) underground tanks T and a mixer 6mx for mixing the groundwater from each tank.
  • the underground tanks T are individually buried at a plurality of underground depths so that groundwater having different temperatures t1, t2, and t3 can be obtained.
  • the mixer 6mx delivers constant temperature groundwater adjusted to a predetermined temperature t0 regardless of the season by mixing groundwater having different temperatures t1, t2, t3 obtained from these plurality of underground tanks T. To do. Even if the temperature of each groundwater fluctuates seasonally, it can be maintained at a predetermined temperature by changing the mixing ratio in consideration of the temperature difference between the groundwaters.
  • the energy utilization device 6A is a device that utilizes the constant temperature underground energy, and is a hollow pipe 65 provided reciprocating between the underground and the ground surface at a predetermined constant temperature and a predetermined depth, and the hollow pipe 65 on the ground surface side. It is equipped with a fan 66 that sends in the air of. Air that is sent to the hollow pipe 65 by a fan 66 and is cooled or heated by heat exchange by releasing or absorbing heat in the basement at a predetermined depth can be used for air conditioning on the ground surface side.
  • the surface area of the pipe may be increased by providing a large number of fins in the pipe or forming a large number of branched pipes in the heat exchange place. It varies depending on the latitude, but in Honshu, Japan, taking advantage of the fact that the ground temperature is maintained at about 15 ° C throughout the year at 5 meters underground, for example, a tank is installed near 5 meters underground to store water etc. It is also possible to move a cold temperature in the summer and a warm temperature in the winter to a target place such as the ground using a pipe or the like and let it flow into a structure constructed by connecting PET bottles, for example.
  • the space path can be configured to be as elongated as possible for efficient heat exchange.
  • the energy utilization device 6B is a device that utilizes sunlight energy, and is a structure 60 in which a cavity portion 61 is formed inside by communicating and connecting a plurality of hollow tubes 6a formed of a light transmitting material. Then, air is blown from one opening to the other opening of the pipe 62 and the circulation pump P3 for circulating water or hot water through the hollow tube 6a of the structure and the hollow portion 61 formed by the structure 60. It is equipped with a fan 63.
  • the structure 60 is installed in a place where it can receive sunlight, and seawater 9 is passed through the bottom surface side of the cavity 61 in a plan view, and wind by a fan 63 is passed through the upper surface of the seawater 9. As a result, the evaporation of seawater 9 is promoted and salt can be obtained.
  • the energy utilization device 6C is an energy utilization device 6C that uses compressed air for air conditioning, and is a tank buried underground that stores an air compression compressor 68 powered by natural energy and air compressed by the air compression compressor 68. It is equipped with Ta. In this example, since sunlight is used as natural energy, a solar panel 64 is provided.
  • Compressed air stored in tank Ta and temperature-controlled to a predetermined temperature can be sent out to the air-conditioning space 67 through a pipe for use.
  • 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 that is installed on the coast and acts so that seawater rises to a position higher than the sea surface by the force of sea waves.
  • the wave of seawater that hits the coast is narrowed by the wall structure 71 formed like a funnel, runs up the slope, and the seawater 70 flows into the tank 72.
  • the seawater in the tank 72 starts to flow toward the hydroelectric generator 74 by the pipes 73a and 73b and the pump 73, the flow to the downstream is continued without the pump.
  • the potential energy can be stored as pressure energy.
  • the present invention is not limited to the above configuration and can be modified in various ways.
  • the configurations of the above-described embodiments can be combined with each other.
  • the following is a quote from the basic application that is the basis of priority.
  • a sled or the like is used to replace the wheels of a train or the like with an object that carries an object such as an object. Then, instead of a railroad track, provide a width that allows a sled to pass through, place water, etc. in that part, cool it by using electricity, etc., and freeze it to reduce friction and reduce energy loss as much as possible. .. It is used when accelerating or decelerating by bringing wheels etc. into contact with the parts between the rails.
  • the wheels and the like can be pulled into the vehicle body by using electricity or the like so as not to come into contact with the ground or the like.
  • the sled part has a rail structure, etc. that has a protruding shape so that it slides on a frozen road surface but does not derail sideways.
  • Tires or the like that are in contact with the side surface of the rail may be mounted on the sled in order to reduce impact or the like on a curve or the like. Design the route so that it descends little by little, and use gravitational energy to accelerate it.
  • a hollow hole party is provided at the end of the lane so that rainwater, etc. can quickly escape into the structure on the lane that has been cooled and the liquid at the contact part is kept at a temperature with low resistance.
  • the structure on the passage allows rainwater to flow out.
  • a roof should be attached to the top to prevent rainwater and shield everything around it.
  • the space through which a car or the like passes can be approached to 15 ° C. by inflowing and circulating the liquid, and the cost of the air conditioner can be saved by adjusting the flow rate of the liquid.
  • the temperature of the solar panel can be controlled by flowing water of about 15 ° C from an underground tank, etc., or the solar panel can be made waterproof to improve airtightness, and shallow water is collected in the panel. It is attached to a tub, etc., and water at about 15 ° C, which is installed about 5 meters underground, is poured there and collected in an underground tank, etc. If the positional relationship is such that the natural groundwater flows naturally, it may be flushed and the temperature of the panel is controlled. Using a PET bottle or the like, for example, the drinking spout is cut out and a plurality of rectangular cubes are glued together to construct a structure in which water in an underground tank is put.
  • a structure containing water or the like is created with a hollow inside. Then, a solar panel or the like whose temperature is to be controlled can be put in the hollow part or the like. This will increase the amount of power generation by installing a similar device for solar panels installed in homes. If the temperature of the solar panel becomes too high, the amount of power generated will decrease.
  • water or the like of about 15 degrees in the underground tank is used. Since the ground temperature around the underground tank differs depending on the depth, it is possible to install multiple tanks at different depths and mix the water and the like.
  • a pipe of about 5 cm in length and width (the standard scale can be changed freely) is installed in the underground tank, and a passage is installed around it to allow water to flow.
  • the above-mentioned underground tank water or the like is provided there, and a fan or the like is attached to the end of the pipe to send the wind.
  • air or the like moves in the pipe by the force of a fan or the like, it exchanges heat with the surrounding water or the like (for example, if it is a thin material such as a PET bottle, heat is easily conducted) and is gradually cooled in the summer. If the length of the pipe is increased to some extent, the temperature from the outlet of the pipe becomes close to the temperature of water or the like from the underground tank.
  • a structure can be made by connecting PET bottles and the like. Fans such as electric fans consume less power, which saves energy.
  • the tube does not have to be straight and may be curved for distance. It is also possible to make it easier to exchange heat when a cold or the like hits by passing water or the like through a thinner pipe through the pipe. To increase the area of contact with the temperature of water, etc. around 15 ° C and the flowing air by passing it between the passage and the pipe through which water, etc., which circulates a rod of metal, etc. with high thermal conductivity is flowing. You can also.
  • a fan or the like can be attached not only to the entrance of the pipe but also to the other outlet or in the middle to improve heat exchange efficiency.
  • This device can be installed indoors, but it can also be installed at a constant ground 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 at a depth of about 15 ° C around 5 meters underground, the temperature will be the same when the air sucked above the ground goes around the underground and exits from the pipe outlet in the summer. It is the same regardless of the season even in winter when the ground temperature is close to 15 ° C. Water etc.
  • the above space for blowing warm air etc. is installed underground or above ground, but considering the cost of digging underground such as when the ground is very cold, use water from a tank of about 15 degrees underground and about 5 meters underground. You may use the heat insulation system. Since the underground tank or the like has a depth that varies depending on the time according to the depth, it is possible to prepare a plurality of tanks and mix water or the like. If necessary, the outer circumference of the device that sends air, etc.
  • a heat insulating material such as styrofoam that has a heat insulating effect
  • a space such as a certain rectangle is created by connecting PET bottles and the like, and a structure and the like are made by connecting PET bottles and the like in the space.
  • a liquid or the like is allowed to flow in, and in the above case, a substance to be dried or a substance to be moistened is put in a place where air is being sent. At this time, the air or the like can be tightly packed so as not to be delayed, or there is a certain gap so that warm air or the like can flow there.
  • seawater when seawater is evaporated to take out salt, etc., a space filled with seawater, a space above which warm air can flow, etc.
  • a plate-shaped passage made using PET bottles, etc. (may be slightly inclined) Create a space on which water can flow.
  • the outer circumference can be surrounded by a PET bottle or the like, and the entire inside can be pressurized with a compressor or the like.
  • the evaporation of seawater is accelerated and warm air is sent to accelerate it.
  • the inside pressurized by the compressor is returned to the normal atmospheric pressure and cold water from the underground tank etc. is poured into the pipe.
  • this device By making this device out of transparent materials such as PET bottles, the power of sunlight can be transmitted efficiently.
  • a black material black sheet, etc.
  • a black material is laid on the bottom of the device to make more efficient use of energy such as sunlight.
  • adjust the angle of the device by making a pedestal etc. from a transparent material such as a PET bottle according to the installation angle of the solar panel.
  • the space shall have a loop-like structure so that the fish, etc. will not collide with the wall, etc. of the space containing water, etc. by accelerating in a direction close to the vertical direction.
  • the upper part may also be made of a material such as a PET bottle.
  • a pump is used to suck out the water or the like in it and apply pressure to eject it, or to 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 are swimming should be about 50 cm to 100 cm (as a guide only).
  • an electric compressor etc. is used, but it is used as the power of the compressor by using the energy of gears that move by hydraulic power for the power of the compressor or by transmitting the rotational energy of the wind turbine with gears. To do.
  • a tank that stores compressed air is installed in a place with a constant ground temperature of about 5 meters underground, or it is blown into water in a tank installed 5 meters underground to raise the temperature to 15 ° C. I'm afraid.
  • natural energy such as hydraulic power as the power of an air compression compressor and storing it in a cylinder installed underground, etc., it can be taken out at any time like a battery and used to move gears.
  • the humidity is adjusted by compressing what has been cooled in an underground tank or the like, or the air or the like is stored underground to lower the humidity. It is also possible to lower the temperature of a tank containing compressed air, etc. underground.
  • a method of storing compressed air in a cylinder or the like by such a method and moving the cylinder to a place such as 20 meters underground or deferring the cylinder with a diameter of 20 meters is also conceivable.
  • Daisei gas a mixture of hydrogen and oxygen may be used separately
  • the heat causes dry ice to be expected and expands, and compressed air also
  • an upward kinetic energy is generated with respect to water pressure (gravity), and this is applied to a water wheel or the like to rotate the water wheel or the like. It recovers that energy and runs a generator.
  • the wings of the water turbine will be movable and can be opened and closed. Then, when it is pushed by a gas, it opens and receives the kinetic energy, and it is possible to prevent the wing of the water wheel from hitting the liquid and acting as a resistance to reduce the rotation speed as much as possible.
  • the wings open and close, but they are not completely closed and are slightly open so that air etc. can enter and spread out, or a plate etc. may be attached so that the air in the wings of the water turbine of the tank can easily collect. ..
  • the shape of the wings is such that if a water wheel of this shape is installed in a tunnel or the like where there is no energy for the gas such as air to rise and water pressure is applied, the wings will open where it is pushed by the water flow and close when the pressure of the water flow weakens. Will be.
  • Some hydroelectric power plants such as large-scale dams have a head of 100 meters or pipes of hundreds of meters, but if the propeller for hydroelectric power generation is attached to the downstream part, the energy of the water flow can be sufficiently recovered and the turbine of the generator can be used. Since it is not possible to turn the turbine and a loss occurs, the head is about 10 meters, and it is distributed in a thinner pipe-shaped tunnel and tube, and even in the section where there was only a water flow until now, a water wheel or a propeller for hydroelectric power generation Etc. are installed. By doing so, the potential energy of the water stream can be efficiently recovered.
  • the water wheel and tank are designed by devising and rotating clockwise.
  • compressed gas or the like is ejected to a portion around 1 o'clock, deceleration of the propeller, water turbine, etc. due to water pressure can be suppressed. Since the compressed gas or the like is ejected from the direction of 6 o'clock or the like, the force of rotating clockwise is always continuously changed, and the energy of the compressed air and the gas and the buoyancy force due to the difference in density are converted into the rotational energy of the water wheel and the like.
  • the shaft part that transmits energy such as a water wheel can be extended sideways as it is to increase the airtightness so that water does not come out from the water tank or tank, and it can be passed through to the part where there is no water such as the tank.
  • the energy can also be transmitted to the gear or the like to be used as a power source or the like.
  • a number of water turbines can be connected and installed in the vertical direction. There are various ways to extend the tank deep underground and to raise it above ground.
  • the energy required for cooling can be saved by grounding a tubular tunnel there using the natural providence that the temperature around 5 meters underground in the mainland of Japan is maintained at about 15 degrees throughout the year.
  • this structure is grounded on the ground and cooled, it is possible to cover the outer circumference of the tube with liquid water, etc., and if the outer circumference of the tube is made of plastic, glass, etc. that allows light to pass through, the scenery can be seen from inside the vehicle. You can also see it.
  • Energy costs can be reduced by adopting the same structure for cars, etc., even if they are not large ones such as trains. Increase the certainty of automatic driving of cars.
  • a car or the like By connecting a car or the like to a trolley or the like installed on the same platform, the weight of the car or the like is mainly received by a sled to reduce rolling resistance.
  • a motor or the like for transmitting power by contacting the road surface or the like may be incorporated in the trolley or the like, or the tire, engine or motor of the automobile or the like with the power of the motor as the trolley or the like.
  • wheels, etc. are used hydraulically, etc.
  • the method of contacting parts, etc. as necessary, and the function of a hydraulic jack on the dolly are provided so that the car, etc. on the dolly can be raised and lowered by hydraulic power, etc. It is possible to change the height so that it does not come into contact with the ground or the like. It is also possible to install a motor etc. to obtain the driving force during running on this trolley, and a part of the trolley can be powered and pulled or pushed to connect with other trolleys like a train or to connect a powered trolley. It is also possible to reduce the installation cost by arranging it appropriately.
  • a solar panel or the like is installed near the space where such a cooling lane or the like is installed, and the electric power from the solar panel or the like is guided from the metal part of the lane to the motor of the trolley or the like, or the lane and the electric receiving part of the trolley come into direct contact with each other. It is also possible to use non-contact power transmission or the like so that it is not necessary.
  • Tires, etc. made of iron that can be installed on the side surface of tires of automobiles, etc.
  • the levitation energy when the linear motor car is running and the energy that accelerates in the direction of travel are applied.
  • the levitation energy is small and the power consumption and speed during movement are maximized. Adjust for an efficient balance. Even if it is not actually floating, it can run with reduced resistance because it has a warp.
  • a sled and the above power wheels may be attached to the linear motor car. Make the inside of the tunnel close to a vacuum state to eliminate loss due to wind and reduce noise.
  • An energy transfer part using magnetic force in a linear motor car and a sled device may be installed separately.
  • the heat absorbing plate of the freezer is elongated and installed there, or a dedicated heat absorbing device is used, or a large compressor or water with a constant temperature underground is used. Efficient temperature control is conceivable. It is conceivable that the exhaust heat of the compressor or the like is secondarily used to operate the Stirling engine or the like.
  • the compressor By installing the compressor in a space where water drawn from 5 meters underground circulates around it using pipes, etc., it can be used as a measure against heat exhaust. Even on the current road, asphalt of the road using pipes etc. to put water etc. in a tank installed 5 meters underground etc.
  • a cover such as a closed structure is attached to the upper part of the cooling rail (lane), etc., and water of about 15 degrees of underground tank water is circulated there to reduce the cost of the cooling tower.
  • the upper cover of the cooling rails, lanes, etc. is closed by electric power, etc., especially in summer so that the heat is not as favorable as possible, but when the vehicle is passing, it can be automatically opened and closed by a motor, etc. Leave it to.
  • compressed air (carbon dioxide) or gas can be sent to a pipe or the like that has passed through the liquid or the inside of ice to cool it with heat of vaporization.
  • a sled or the like is used to replace the wheels of a train or the like with an object that carries an object such as an object. Then, instead of a railroad track, provide a width that allows a sled to pass through, place water, etc. in that part, cool it by using electricity, etc., and freeze it to reduce friction and reduce energy loss as much as possible. .. It is used when accelerating or decelerating by bringing wheels etc. into contact with the parts between the rails.
  • the wheels and the like can be pulled into the vehicle body by using electricity or the like so as not to come into contact with the ground or the like.
  • the sled part has a rail structure or the like that slides on a frozen road surface or the like but has a protruding shape so as not to derail sideways.
  • Tires or the like that are in contact with the side surface of the rail may be mounted on the sled in order to reduce impact or the like on a curve or the like. Design the route so that it descends little by little, and use gravitational energy to accelerate it.
  • the energy required for cooling can be saved by grounding a tubular tunnel there using the natural providence that the temperature around 5 meters underground in the mainland of Japan is maintained at about 15 degrees throughout the year.
  • this structure is grounded on the ground and cooled, it is possible to cover the outer circumference of the tube with liquid water, etc., and if the outer circumference of the tube is made of plastic, glass, etc. that allows light to pass through, the scenery can be seen from inside the vehicle. You can also see it.
  • a motor or the like for transmitting power by contacting the road surface or the like may be incorporated in the trolley or the like, or the tire, engine or motor of the automobile or the like with the power of the motor as the trolley or the like.
  • There are various methods such as connecting to a power unit of a trolley or the like, or providing the trolley or the like with a device for transmitting the rotational force of a wheel of an automobile or the like to the road surface or the like as needed.
  • a device for transmitting the rotational force of a wheel of an automobile or the like to the road surface or the like as needed.
  • the four-wheel part is used to ride on the trolley, etc., and the remaining two wheels, etc. are brought into contact with the ground as needed using hydraulic pressure, etc., and the trolley is provided with the function of a hydraulic jack. It is possible to change the height of the tires of the automobile and prevent it from coming into contact with the ground or the like by making it possible to raise and lower the vehicle on the trolley by flood control or the like after the automobile or the like gets on. It is possible to attach a device to the side surface of a tire of an automobile or the like so that its rotation is not installed on the road surface installed on a trolley or the like. Attach a device such as a roller part to the dolly etc.
  • An energy transfer part using magnetic force in a linear motor car and a sled device may be installed separately.
  • the heat absorbing plate of the freezer is elongated and installed there, or a dedicated heat absorbing device is used, or a large compressor or water with a constant temperature underground is used. Efficient temperature control is conceivable. It is conceivable that the exhaust heat of the compressor or the like is secondarily used to operate the Stirling engine or the like.
  • the compressor By installing the compressor in a space where water drawn from 5 meters underground circulates around it using pipes, etc., it can be used as a measure against heat exhaust. Even on the current road, water etc. put in a tank installed 5 meters underground at the bottom of the road or passage etc.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Other Liquid Machine Or Engine Such As Wave Power Use (AREA)
  • Jet Pumps And Other Pumps (AREA)
  • Greenhouses (AREA)
  • Farming Of Fish And Shellfish (AREA)
PCT/JP2020/024682 2019-06-15 2020-06-23 生活を豊かにする発明 Ceased WO2020256155A2 (ja)

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US17/619,264 US20220356863A1 (en) 2019-06-15 2020-06-23 Energy conversion device
JP2021527664A JP7629599B2 (ja) 2019-06-15 2020-06-23 生活を豊かにする発明
CN202080057764.8A CN114641609A (zh) 2019-06-23 2020-06-23 丰富生活的发明
TW110121773A TW202219378A (zh) 2020-06-15 2021-06-15 豐富生活的發明
JP2025009499A JP2025069223A (ja) 2019-06-15 2025-01-22 生活を豊かにする発明

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JP2019124035 2019-06-15
JP2019-124035 2019-06-15
JP2019-127210 2019-06-19
JP2019127210A JP2020104834A (ja) 2018-12-25 2019-06-19 生活コスト削減等。
JP2019-128808 2019-06-23
JP2019128808 2019-06-23
JP2019208293 2019-10-23
JP2019-208293 2019-10-23
JP2019-233537 2019-12-07
JP2019233537 2019-12-07
JPPCT/JP2020/023488 2020-06-15
PCT/JP2020/023488 WO2020255937A1 (ja) 2019-06-15 2020-06-15 エネルギー変換装置

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JP2022106307A (ja) * 2021-01-07 2022-07-20 竜也 新谷 生活を快適にしてゆく方法
JP2022121339A (ja) * 2021-02-08 2022-08-19 直男 久保田 浮力で位置エネルギーを得た発電機を運動エネルギーに変えて発電する
JP2023115870A (ja) * 2022-02-08 2023-08-21 竜也 新谷 生活が効率的になるようにする方法
WO2023218460A1 (en) * 2022-05-11 2023-11-16 Bitton Natan El Bubble-based electricity generating system

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WO2023218460A1 (en) * 2022-05-11 2023-11-16 Bitton Natan El Bubble-based electricity generating system

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WO2020256155A3 (ja) 2021-02-18

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