IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0830158
(2010-07-02)
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등록번호 |
US-8398733
(2013-03-19)
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발명자
/ 주소 |
|
출원인 / 주소 |
- Ser-Manukyan Family Holdings
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
5 인용 특허 :
2 |
초록
▼
A split type potable water extractor from ambient air and water dispenser is invented, comprising separate water generating block located outside a water use area and water dispensing block located inside a water use area. The water generator block cycles refrigerant through a condenser and an evapo
A split type potable water extractor from ambient air and water dispenser is invented, comprising separate water generating block located outside a water use area and water dispensing block located inside a water use area. The water generator block cycles refrigerant through a condenser and an evaporator to create condensation by heat exchange with ambient air circulated by an intake airflow system. The condensate water is collected and purified in a cascade of bactericidal loop to remove impurities. The purified water is pumped to a dispensing apparatus that can be installed in the home or other area of water use separate from the water generating block. If any one of the functional parts or units of water generator is disabled the water generator immediately stops operating to deliver water to the tank of the dispensing apparatus.
대표청구항
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1. A potable water extractor system, comprising: an air mixing chamber, said air mixing chamber having a door connected to a servomechanism for controlling the opening and closing of said door to regulate the condition in said air mixing chamber;an evaporator located in said air mixing chamber;a fir
1. A potable water extractor system, comprising: an air mixing chamber, said air mixing chamber having a door connected to a servomechanism for controlling the opening and closing of said door to regulate the condition in said air mixing chamber;an evaporator located in said air mixing chamber;a first refrigerant separator, to which refrigerant flows from said evaporator;a compressor, to which said refrigerant flows from said first refrigerant separator; anda condenser, to which said refrigerant flows from said compressor, and from which said refrigerant flows back to said evaporator;wherein said refrigerant is cycled through said air mixing chamber to effect heat exchange with air circulated in said air mixing chamber such as to produce condensate, said condensate collected as water, said water processed by a water purification system, and the resulting purified water is piped to a water dispensing block for usage. 2. The potable water extractor system of claim 1, further comprising: an oil separator located in said air mixing chamber;wherein said refrigerant flows through said oil separator after said refrigerant flows from said compressor and before said refrigerant flows to said condenser. 3. The potable water extractor system of claim 2, further comprising: an economizer located in said air mixing chamber;wherein said refrigerant flows through said economizer after said refrigerant flows from said condenser and before said refrigerant flows to said evaporator. 4. The potable water extractor system of claim 3, wherein the evaporator is a stainless steel plate and tube type evaporator. 5. The potable water extractor system of claim 4, further comprising: a receptor tray mounted under said evaporator for collecting said condensate from said evaporator;a collecting tank capable of amassing said condensate collected in said receptor tray;wherein the inside of said collecting tank is covered by silver coating. 6. The potable water extractor system of claim 2, wherein the evaporator is a stainless steel plate and tube type evaporator. 7. The potable water extractor system of claim 6, further comprising: a receptor tray mounted under said evaporator for collecting said condensate from said evaporator;a collecting tank capable of amassing said condensate collected in said receptor tray;wherein the inside of said collecting tank is covered by silver coating. 8. The potable water extractor system of claim 3, further comprising: a receptor tray mounted under said evaporator for collecting said condensate from said evaporator;a collecting tank capable of amassing said condensate collected in said receptor tray;wherein the inside of said collecting tank is covered by silver coating. 9. The potable water extractor system of claim 1, further comprising: an economizer that intercepts said refrigerant flow between said condenser and said evaporator. 10. The potable water extractor system of claim 9, wherein the evaporator is a stainless steel plate and tube type evaporator. 11. The potable water extractor system of claim 10, further comprising: a receptor tray mounted under said evaporator for collecting said condensate from said evaporator;a collecting tank capable of amassing said condensate collected in said receptor tray;wherein the inside of said collecting tank is covered by silver coating. 12. The potable water extractor system, comprising: an air mixing chamber, said air mixing chamber having a door connected to a servomechanism for controlling the opening and closing of said door to regulate the condition in said air mixing chamber;said air mixing chamber having an opening equipped with an air filter capable of preventing penetration of impurities into said air mixing chamber;an evaporator located in said air mixing chamber;a compressor, to which said refrigerant flows from said evaporator;a refrigerant separator connected to said evaporator and said compressor; anda condenser, to which said refrigerant flows from said compressor, and from which said refrigerant flows back to said evaporator;a receptor tray mounted under said evaporator for collecting said condensate from said evaporator;wherein said refrigerant is cycled through said air mixing chamber to effect heat exchange with air circulated in said air mixing chamber, said heat exchange capable of producing condensate, said condensate collected as water, said water processed by a water purification system, and the resulting purified water is piped to said water dispensing block for usage. 13. The potable water extractor system of claim 12, further comprising: an oil separator located in said air mixing chamber;wherein said refrigerant flows through said oil separator after said refrigerant flows from said compressor and before said refrigerant flows to said condenser. 14. The potable water extractor system of claim 13, further comprising: an economizer located in said air mixing chamber;wherein said refrigerant flows through said economizer after said refrigerant flows from said condenser and before said refrigerant flows to said evaporator. 15. The potable water extractor system of claim 14, wherein the evaporator is a stainless steel plate and tube type evaporator. 16. The potable water extractor system of claim 15, further comprising: a receptor tray mounted under said evaporator for collecting said condensate from said evaporator;a collecting tank capable of amassing said condensate collected in said receptor tray;wherein the inside of said collecting tank is covered by silver coating. 17. A method for extracting water from ambient air and dispensing for usage, the steps comprising: circulating a refrigerant through a refrigerant system comprising a condenser and an evaporator, said condenser contained in an air mixing chamber; wherein said liquid refrigerant is circulated through a liquid refrigerant separator in said refrigerant system and said liquid refrigerant is sub cooled after it is exhausted from said condenser;circulating air through said air mixing chamber, wherein the circulation of said air is regulated by a system comprising a hermetic housing enclosure having an inlet port in a front side of said housing, an outlet port in a rear side of said housing, at least one opening regulated by a mechanical door in a side of said housing, and a fan;causing heat exchange between said refrigerant system and said air circulated in said air mixing chamber to produce condensate;collecting said condensate;purifying said condensate through a purification system;dispensing said purified water for usage. 18. The method for extracting water of claim 17, further comprising: superheating said refrigerant after it is exhausted from said evaporator. 19. A potable water extractor system, comprising: a first system for condensing and purifying said water, said first system having a condensing system and a purification system;said condensing system comprising: an air mixing chamber, said air mixing chamber having a door connected to a servomechanism for controlling the opening and closing of said door to regulate the condition in said air mixing chamber;an evaporator located in said air mixing chamber;a first refrigerant separator, to which refrigerant flows from said evaporator;a compressor, to which said refrigerant flows from said first refrigerant separator; anda condenser, to which said refrigerant flows from said compressor, and from which said refrigerant flows back to said evaporator;wherein said refrigerant is cycled through said air mixing chamber to effect heat exchange with air circulated in said air mixing chamber such as to produce condensate, said condensate collected as water in a first water tank;said purification system comprising:a plurality of water filters; a pump, said pump connected to said first water tank for circulating water in said water tank through said plurality of water filters until said water is purified to a predetermined level, said circulation being regulated by a solenoid valve; anda second system for dispensing said water, said second system comprising: a second water tank, said second water tank connected to said first water tank by a water supply pipe;a UV-transparent tube mounted in connection with said second water tank for providing gravity flow of water to a hot water tank and a cold water tank, said hot and cold water tanks are equipped with taps for dispensing said water. 20. A potable water extractor system, comprising: a first system for condensing said water, said first system having a condensation system comprising: an air mixing chamber, said air mixing chamber having a door connected to a servomechanism for controlling he opening and closing of said door to regulate the condition in said air mixing chamber;an evaporator located in said air mixing chamber;a first refrigerant separator, to which refrigerant flows from said evaporator;a compressor, to which said refrigerant flows from said first refrigerant separator; anda condenser, to which said refrigerant flows from said compressor, and from which said refrigerant flows back to said evaporator;wherein said refrigerant is cycled through said air mixing chamber to effect heat exchange with air circulated in said air mixing chamber such as to produce condensate, said condensate collected as water in a first water tank;a second system for purifying and dispensing said water, said second system having a purification system comprising: a plurality of water filters; a pump, said pump connected to said first water tank for circulating water in said water tank through said plurality of water filters until said water is purified to a predetermined level, said circulation being regulated by a solenoid valve; andsaid second system having a dispensing system comprising: a second water tank, said second water tank connected to said first water tank by a water supply pipe;a UV-transparent tube mounted in connection with said second water tank for providing gravity flow of water to a hot water tank and a cold water tank, said hot and cold water tanks are equipped with taps for dispensing said water.
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