CN204039374U - For producing the equipment of beer from air - Google Patents

For producing the equipment of beer from air Download PDF

Info

Publication number
CN204039374U
CN204039374U CN201420115634.7U CN201420115634U CN204039374U CN 204039374 U CN204039374 U CN 204039374U CN 201420115634 U CN201420115634 U CN 201420115634U CN 204039374 U CN204039374 U CN 204039374U
Authority
CN
China
Prior art keywords
water
beer
gas
valve
waste water
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.)
Expired - Fee Related
Application number
CN201420115634.7U
Other languages
Chinese (zh)
Inventor
亨利-詹姆士·泰勒曼
韦恩·费雷拉
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.)
EcoloBlue Inc
Original Assignee
EcoloBlue Inc
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 to US201361780173P priority Critical
Priority to US61/780,173 priority
Application filed by EcoloBlue Inc filed Critical EcoloBlue Inc
Application granted granted Critical
Publication of CN204039374U publication Critical patent/CN204039374U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • 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
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A20/00Water conservation; Efficient water supply; Efficient water use
    • 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
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A20/00Water conservation; Efficient water supply; Efficient water use
    • Y02A20/152Water filtration
    • 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
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W10/00Technologies for wastewater treatment
    • Y02W10/30Wastewater or sewage treatment systems using renewable energies
    • Y02W10/37Wastewater or sewage treatment systems using renewable energies using solar energy

Abstract

The application relates to the equipment for producing beer from air.The utility model discloses a kind of system, the water that this system is designed to extract aqueous vapor from air, high purification and preparing extracts and be provided for human consumption extract the optional carbonating of water, to produce beer and to preserve the product of this system.In one embodiment, this device collects water vapor condensation water from the introducing air filtered, and then makes water of condensation stand a series of polishing filter and stands sterilising treatment to produce tap water, being also provided for purifying waste water and CO simultaneously 2the device that gas combines, so that the production of specific beer, preservation and distribution.

Description

For producing the equipment of beer from air
The cross reference of related application
United States Patent (USP) NO.7,861,544, United States Patent (USP) NO.8,302,412 and United States Patent (USP) NO.8,650,892 are incorporated herein each via quoting.
Technical field
The utility model relates to a kind of equipment for producing beer from air.
Background technology
Human consumer is good, pure and safety, economy and the demand in the tap water of environmental protection source has produced the growing bottled market for water of purification for mouthfeel, the water that purification bottled water comprises the water in the Plastic Bottle being packaged in single setting size and is packaged in special Cold Drinking Water machine, wherein special Cold Drinking Water machine needs periodic sale and changes larger bucket.Each in above-mentioned water supply method is all not only inconvenient and relative costs is high, and all can expend valuable confession water resources.In addition, single purification water bottle is usually made of plastics and is seldom recycled, and which results in solid waste in less desirable landfill to refuse landfill.
Usually can not come into one's own and there is no that the source obtaining a kind of water of investing is the moisture in air.Although indoor dehumidification device long-term existence in prior art, wherein the humidity condensed in air is produced the waste water will gone out of use subsequently by moisture trap, but these moisture traps do not make water of condensation be subject to special filtration or other process is suitable for human consumption and/or for human consumption's taste better to make water.
Human consumer is good for mouthfeel, economical and demand that the is drinks beer of environmental protection source has produced growing Beer, the beer that beer comprises the beer in the tank and bottle being packaged in single setting size and is packaged in special beer cold drink machine refrigerated, wherein beer cold drink machine refrigerated needs periodic sale and changes larger barrel of beer.
In addition, many human consumers like bottled or canned beer, and its supply can produce and the identical problem discussed with the purification water bottle (discussing above) of carbonic acid for non-carbonic acid.Beer or the inherent volume of worldwide consume maximum beverages, has exceeded water, but needed a large amount of water to produce beer.
Therefore, desirably create a kind of convenience, economy and the device of environmental protection carry out supply security, mouthfeel is good beer, beer can be supplied by this device self or can by carrying out combining supplying with the yeast of other different types of brewer, Fructus Hordei Germinatus, hops and other material (can comprise other seasonings of such as vanilla or fruit and so on once in a while).
Utility model content
The invention disclosure comprised herein comprises a kind of system, the water that this system is designed to extract aqueous vapor from air, high purification and preparing extracts and extracted water is produced into beer to be provided as human consumption, wherein by beer carbonating to carry out the preservation of beer.In one embodiment, this device collects water vapor condensation water from the introducing air filtered, and then makes water of condensation stand a series of polishing filter and stands sterilising treatment to produce tap water, being also provided for high-quality technique beer brewing and CO simultaneously 2the device that gas combines, to preserve specific technique beer brewing and to distribute.The quality of pressure warning unit instruction beer, the carbonating grade of beer and the dispense pressure of beer, to carry out brewageing of specific beer.
In some alternate embodiment, when low-down humidity and/or low-down envrionment temperature, described environment is unsuitable for (not conductive to) produces very many water of condensation to carry out aquatic product, this device can be directly connected to water source from the beginning, outside, wherein, tap water experiences purification filtering process and the sterilization process of this device, and optional carbonating process is so that production technique beer brewing.
Some steps are had, comprising boiling, ferment, prepare and filtering in brewing process.In resistance to air loss case, need the water of two gallons, water is heated to 80 degrees Celsius, is added to by cereal in water and soaks 20 minutes.Add malt extract to carry out fermenting and to add hops to produce specific taste, keep one hour at low temperatures; The hops processed is put in mixture.Need mixture to be cooled to 25Shi degree of taking the photograph, add two gallons of filtered water produced from air, yeast is dropped into, and makes fermented mixture one week or two weeks.Adding beer sugar or two glasss of boiling water produced from air by needing, beer sugar/aqueous solution being boiled several minutes, then this solution is added in beer.The special process beer brewing produced from air can be obtained like this from beer brewing machine.
The utility model provides a kind of for providing the system of beer, and the purifying drinking water that described beer origin comes from air is produced and is filled with the CO preserved for beer 2gas, described system comprises: shell, and described shell has gas inlet and air vout, coolant compressor, for the mixing vessel of Fructus Hordei Germinatus, hops, sugar so that hermetic fermentation beer, described mixing vessel allows to add the CO being used for beer and preserving 2, for the pressure and temperature meter that beer brewing machine designs, the carbonation of beer and the quality of beer during described pressure and temperature meter indicates the time period of two weeks, the refrigerant control of the Electromagnetically-operating of at least one multichannel, control device, described control device for carrying out monitoring to control the refrigerant control of at least one Electromagnetically-operating described and described other electrical subsystem intrasystem, evaporator unit, wherein, described evaporator unit has fin to maximize and the contact surface area of ambient air and heat trnasfer, wherein, described fin scribbles nontoxic corrosion resistant material or PTFE protective layer, described nontoxic corrosion resistant material meets coating management and control codex alimentarius applicatory, described coating also promotes the quick collection of water of condensation, and wherein, described in described vaporizer can be configured by, the refrigerant control of at least one Electromagnetically-operating receives the refrigeration agent of refrigeration from described coolant compressor pumping, to carry out refrigeration to the air crossing the circulation of described evaporator fin, and wherein, described in described vaporizer can be configured by, the refrigerant control of at least one Electromagnetically-operating receives the refrigeration agent of the heat from described coolant compressor pumping, to defrost to described evaporator fin, antistatic mildew-resistant air filter, wherein, described antistatic mildew-resistant air filter is arranged on the upstream of described evaporator unit, for the condenser device of the refrigeration cycle of described system, fan/blower device, wherein, described fan or blowing plant make ambient air circulate as follows: from described gas inlet through described antistatic mildew-resistant air filter, cross described evaporator unit and described condenser device, then discharge from described air vout, there is the collector arrangement on press polished surface, prefilter, described prefilter is used for removing by the smell of water of condensation with by ammonia, and wherein, described prefilter comprises activated carbon or zeolite, condensed water collecting box, wherein, the described press polished surface of described collector arrangement contributes to water of condensation and flow in described condensed water collecting box under gravity, and wherein, described condensed water collecting box is equipped with level switch, and described level switch and control device make described evaporator unit stop receiving refrigeration refrigeration agent at predetermined high water level settings point place, at least one water pump, particulate filter, described particulate filter is used for the entrance filtering to protect at least one water pump described to particle, water purification filter assembly, described water purification filter assembly is used for bacterium, virus and heavy metal being filtered out and being used for removing the smell not wanting to have, described water purification filter assembly comprises at least one charcoal filter, at least one reverse osmosis filter and at least one zeolite filter, wherein, described reverse osmosis filter has and is less than or equal to 0.0001 μthe hole of m, wherein, described reverse osmosis filter can be backwashed, and makes waste water can be guided to described collector arrangement by the T-valve controlled by waste water ratio csr controller, and wherein, described water pump from described condensed water collecting box pumping water of condensation through described Water warfare assembly, to purify waste water collection box, described collection box of purifying waste water is for collection and purification water, wherein, described collection box of purifying waste water is equipped with level switch, and described level switch and control device make at least one water pump described stop new clarified water pump to deliver in described cleaned water tank at predetermined high water level settings point place, cooling loop, purify waste water described in described cooling loop is arranged in collection box, wherein, described cooling loop can be configured by the refrigeration agent of refrigerant control reception from described coolant compressor pumping of at least one Electromagnetically-operating described, purify waste water described in cooling, and the temperature of purifying waste water described in collection box of purifying waste water wherein, remains in the temperature range of 2-15 DEG C, sterilising plant, described sterilising plant is for biological substance in collection box and the virus of purifying waste water described in killing, described sterilising plant comprises UV-light device and sterilising chamber, and described UV-light device has the effective sterilizing rate of at least 99.99%, uses the wavelength in the scope of 253-255nm, hot well tank, described hot well tank is purified waste water from described cleaned water tank reception by gravitational discharge, wherein, described hot well tank includes an electric heating element, wherein, the water in described hot well tank controls in the scope of 50-98 DEG C by described control device, and wherein, in order to provide hot tap water for user, described hot tap water can be pumped across electric operating valve and output filter by hot water pump and be pumped to public outlet header, public outlet valve, described public outlet valve is arranged on described public outlet header place, and described public outlet valve can be positioned to allow that user obtains heat from described system or the cold output of purifying waste water, at least one CO 2gas cylinder, at least one CO described 2gas cylinder to leave in described shell and is removable, at least one CO described 2gas cylinder is equipped with check valve, valve rod, outlet relief valve and relief valve, gas diffusion chamber, described gas diffusion chamber to leave in described shell and is removable, described gas diffusion chamber is equipped with inlet valve and relief valve, wherein, if the spring pressure set(ting)value of described relief valve is arranged on more than preset value, then described control device will give the alarm, and wherein, described gas diffusion chamber includes purifying waste water of the significant quantity that user determines, described in purify waste water by user obtain from the described public outlet valve for described system purify waste water in described gas be manually filled into predeterminated level and obtain, gas piping, described gas piping is used for connecting at least one CO described communicatively 2gas cylinder and described gas diffusion chamber, and spring-loaded lever, described lever is connected at least one CO described communicatively 2the valve rod of gas cylinder, makes when described lever is depressed, at least one CO described 2the valve rod of gas cylinder opens described outlet relief valve, at least one CO described 2pressurized gas to be discharged in described gas piping by the conduit in described gas diffusion chamber and to be discharged in described gas diffusion chamber by the check valve of gas cylinder, and once described gas diffusion chamber achieves the CO purifying waste water and preserve for beer product 2the saturated content of gas, namely described outlet relief valve is opened, and sends signal to discharge described spring-loaded lever thus to user, to stop at least one CO described 2gas between gas cylinder and described gas diffusion chamber is carried, thus the beer product extracted in carbonating air, user can discharge by described lever the beer produced and carries out taking and obtain described beer product after the fermentation of two weeks.
Above-mentioned utility model content is only intended to the very simple summary that providing package is contained in the utility model disclosure in present patent application.Above-mentioned brief overview is also not intended to the full content enumerating utility model concept disclosed herein.
Accompanying drawing explanation
Fig. 1 depicts the simple skeleton diagram of an embodiment of the refrigeration system extracting water from air, and Fig. 1 shows fluid and flows over main parts.
Fig. 2 shows the diagram of an embodiment of the system extracting water from air, which depict the functional relationship of major parts, wherein major parts make gas and liquid be subject to filter and sterilising treatment with produce purify waste water so that experience by making method production beer process.
Invention disclosure embodiment is depicted as the isometric view of essential inner component by Fig. 3;
Fig. 4 depicts CO 2gas cylinder and gas diffusion chamber, wherein gas diffusion chamber has pressure and temperature meter to say the brewing process of row beer.
Fig. 5 depicts the frontview of an embodiment of invention disclosure, comprising CO 2the position of gas cylinder and gas diffusion chamber.
Fig. 6 depicts stainless steel vessel, and the volume of this stainless steel vessel is 3 gallons (11.4 liters) and has lid.
Embodiment
An embodiment comprises following system: the water that this system is designed to extract aqueous vapor from air, high purification and preparing extracts and provide the optional carbonating of extracted water for human consumption.Device collects water vapor condensation water from the introducing air filtered, and then makes water of condensation stand a series of purification filtering and stands sterilising treatment to produce tap water, also providing simultaneously and will purify waste water and CO 2the device that gas combines, so that distribute the beer brewageed.
Alternatively, when low-down humidity and/or low-down envrionment temperature, described environment is unsuitable for producing very many water of condensation to carry out aquatic product, this device can be directly connected to water source from the beginning, outside, wherein, tap water experiences purification filtering process and the sterilization process of this device, and optional carbonating and its beer technology.
With reference to Fig. 1-5.Some embodiments are combined with the introducing that fan/blower 5 provides the filtrated air 9 of power, filtrated air 9 is directed through evaporator (such as aluminum fin-stock vaporizer) condensing works 4,2, thus water of condensation is drained in collection device 6 under gravity.In one embodiment, collection device 6 is press polished plate-like detachable water receptacle, and wherein, high polish surface is conducive to water of condensation and flow under gravity in bottom water tank 12.The water of condensation collected then is pumped through a series of strainer (such as charcoal filter and/or far infrared strainer mineralization) 16,18, and through reverse osmosis filter 17.Reverse osmosis filter 17 is also connected to waste water ratio csr controller 19, and waste water ratio csr controller 19 allows user to want to make this system produce how much waste water to user to control.Waste water ratio csr controller 19 is connected to electrical connector 6 and wastewater outlet by T-valve 20.
In an embodiment, then the water of filtration experience ultraviolet light sterilization 26,28 and temperature adjustment (cooling 25 or heating 35).Finally, this device provides the selection of producing beer for user, namely guides the CO purifying waste water and preserve beer product A 1 2gas A12, then it can provide for user the beer 31 produced.Some embodiments are also combined with heating unit 34,35,36 and refrigeration plant 1,25,37, thus terminal user can be selected to distribute the water of heating or the water of cooling.Some embodiments provide only the device of water distributing cooling, and in other enforcement dispensing water at ambient temperature.
In certain embodiments, each subsystem of such as heating and cooling system, sterilising system and winterization system and so on is controlled by intelligent single-chip Controlling System.Single-chip Controlling System uses and to decide when actuating ratio such as electromagnetism with the output of water temperature, water level 38 and antifreeze temperature correlation and cool the various control device of valve 37.
In certain embodiments, refrigeration system comprises conventional refrigeration cycle, conventional refrigeration cycle comprises the refrigeration agent being compressed into liquid by compressor 1, the flow of refrigerant compressed thus is through capillary type aluminum fin-stock (or equivalent) condensing agent 2, and evaporate, thus heat is removed from the medium around vaporizer.It should be noted that in certain embodiments, use public compressor to supply refrigeration agent for the spiral coil cooling tube 25 in vaporizer-condenser 4,2 and upper tank 24, this is for the internal space reduced needed for containing component and to economize on resources be all favourable.The control valve of one or more Electromagnetically-operating is used to carry out directs refrigerant.
In an embodiment, condensation water collection system comprises the condenser fan 5 with junctor 6, wherein, fan forces the ambient air of introducing through cold evaporator fin 4, on fin 4, liquid water will condensation and be accumulated on this fin from air, to be then drained under gravity in junctor 6 and to be drained in bottom water tank 12.
In an embodiment, compressor 1 sucks gaseous refrigerant from vaporizer 4 or from cooling loop 25.The refrigeration agent of the heat of compression flows through condenser 2 usually, and flow to slicer (copper strainer) 44 from this condenser 2.Then flow of refrigerant is through electromagnetism cooling valve 37.If the not energising of electromagnetism cooling valve 37, then flow of refrigerant flow to vaporizer 4 through outlet b (see Fig. 1) from outlet b, vaporizer 4 place refrigeration agent be allowed to expand and thus cooling flow through the air of vaporizer 4.If electromagnetism cooling valve 37 is energized, then flow of refrigerant is through outlet c, and flow to cooling loop 25 (being included in upper tank 24) from outlet c, and in cooling loop 25, refrigeration agent is allowed to expand and cools the water in upper tank 24 thus.
In one embodiment, compressor 1 is high efficiency variable speed compressor, and the operation comprising conduction time and speed of this compressor is controlled by inverter controller.Preferably, efficient speed changeable compressor (there is controller) have with the suitable characteristic of the compressor of 6TD075XAA41 model.Due to compressor 1 be maximum power load in system (usually, compressor need system almost 50% energy expenditure, to produce water from air), advantageously, the cyclical operation of minimum compressor when the envrionment conditions of such as temperature and humidity allows.In addition, the use of solar energy is convenient in this use controlling high-efficient compressor 1, makes machine be built up at a distance and have nothing to do with any external power source.In relevant embodiment, system by one or more rated output for the solar panel of rated value at least 300W provides electric power.
In another embodiment, previously mentioned introducing ambient air is avoided vaporizer 4 and is flowed through the condenser 2 of heat, and air absorbs heat from condenser 2.In another embodiment, the refrigeration agent of heat can be pumped in vaporizer 4 by compressor 1, to defrost to evaporator fin 4, by using the frosting temperature in defrost sensor (omitting in the accompanying drawings for clearly object) sensing vaporizer 4.If excessive frost situation occurs, then Electromagnetically-operating control valve 40 is opened, and warm refrigerant is directly drained in vaporizer 4 to defrost to vaporizer 4.
In one embodiment, bottom water tank 12 has the dismountable design being arranged in drawing device, so that easily show that row is clean and keep in repair.In another embodiment, bottom water tank 12 also comprises prefilter 13 (in certain embodiments, prefilter 13 comprises activated carbon or zeolite, to remove the smell of water of condensation and ammonia).In another embodiment, bottom water tank also comprises particulate filter 4, and it protects one or more water pump 15 for helping.
In an embodiment; in order to prevent the secondary pollution of pseudomonas (being caused by the evaporation contacting the brass fin caused because of fin heat with water) and the corrosion of the device 4 that avoids evaporating simultaneously, the surface of vaporizer 4 scribbles nontoxic anticorrosive (following the codex alimentarius that coating is suitable for) or PTFE protective layer.This helps avoid heavy metal and gathers in water, thus improves the security of tap water.In addition, coating promotes the quick collection of water.
In an embodiment, in order to prevent large particulate matter and dust from entering into bottom water tank 12, and device 4 surface from mildewing that simultaneously avoids evaporating, gas inlet is equipped with antistatic mildew-resistant air filter 9,10.Described air filter is arranged in air filter guiding piece 11, thus provides approach easily for clean and replacing.
In an example, the water pump warp let-off is crossed charcoal filter 16, reverse osmosis filter 17 and zeolite filter 18 by water pump 15.Reverse osmosis membrane filter 17 has approximately≤0.0001 μthe hole of m, bacterium, virus and heavy metal to be filtered out, and will not want that the smell had filters out.Water that this filtration contributes to guaranteeing exporting (no matter be foaming water or do not foam water) can meet applicable standard for drinking.Waste water delivery port 19 uses in the back scrubbing of reverse osmosis filter 17.The water of drinkable filtration arrives upper tank 24 and can be cooled in upper tank 24.
In another embodiment, bottom water tank 12 has water level sensor 39.As long as according to predetermined set point, water level sensor 39 detects that water tank 12 is full substantially, then vaporizer 4 by one or more Electromagnetically-operating control valve 40 of operation no longer by refrigeration because more water of condensation to be added to the risk having water tank 12 spill-over in water tank 12.
In an embodiment, each cistern water level sensor 38,39 can adopt the design including two-wire liquid level sensor (having built-in magnetic float), magneticfloat can pass through closed different reed switch at different position detection water levels, to determine the value of water level.
In an embodiment, cooling loop 25 is used to the water temperature in upper tank 24 be controlled, in the scope of 2-15 DEG C, to contribute to bacteria growing inhibiting and breeding like this.Meanwhile, in another embodiment, upper tank 24 is equipped with apparatus for ultraviolet disinfection 26,28 with the sterilizing of auxiliary water, and apparatus for ultraviolet disinfection 26,28 makes the water in upper tank 24 be subject to the effect of UV-light.In one embodiment, ultraviolet sterilizer 26,28 has the effective sterilizing rate of at least 99.99%, uses the wavelength of 254nm.In an embodiment, ultraviolet sterilizer 26 is controlled by single-chip Controlling System, to be undertaken circulating by pump 27 along with the water in upper tank 24 and to be transmitted back to upper tank 24 through sterilising chamber 28 and periodically to open, to perform sterilizing every now and then, and prevent the biofilm development in tubes/conduits road.
In another embodiment, tap water is discharged into delivery valve 31 by electric operating valve 29 by output filter 30 after flowing through sterilising chamber 28.
In an embodiment, in order to hot-water supply, water can be drained into from upper tank 24 by pipeline 33 and to include the hot well tank 34 of an electric heating element.Heat tap water by electric operating valve 36 by water pump 35 pumping, and pass through electric operating valve 29 through output filter 30 delivery valve 31 that arrives.
In one embodiment, another apparatus for ultraviolet disinfection is used for user by the selected output current of delivery valve 31 (that is, heat or water that is cold, foaming or that do not foam).
In an embodiment, upper tank 24 has water level sensor 38.As long as according to predetermined set point, water level sensor 38 detects that upper tank 24 is full substantially, then water pump 15 does not operate, because can make upper tank 24 spill-over like this.
In an embodiment, carbon filter set constructor become make they in a device can easily close to so that change.
In one embodiment, water heating container 34 and support the hot water that check valve 36 and water pump 35 be used to provide in the scope of 50-98 DEG C that is controlled by single-chip controller.
In another embodiment, device adopts water leak detection switch, if the leakage in crust of the device detected, then water leak detection switch is by closure systems.
In an embodiment, user carrys out the operator scheme of control device by digital indicator and Controlling System 42, and Controlling System 42 can adopt button or touch-screen input unit.Described system provides the device of setting operation temperature for user, and this device is for cooling and heating water to be output and defrost cycle.In addition, whether the water that described system provides selection to export for terminal user will be used to produce the device of beer.In addition, indicating meter provides as sent a notice for terminal user: when filter replacement expires/advises, the activation of sterilising treatment, the upper and lower bound of service humidity.Described system also can be programmed with conserve energy and close the key part of such as compressor 1 when low humidity and/or low-temperature condition being detected.Finally, indicating meter also provides failure diagnosis information when system malfunctions.
In another embodiment, device can be connected to water source from the beginning, outside, and it is favourable when atmospheric condition within the period being low temperature and/or low humidity.In this case, external water source can continue to utilize device carry system so as to carry out height filtration, sterilizing, temperature regulate and spread CO for forming carbonated drink 2gas.
In an embodiment, by installing one or more CO 2gas cylinder A12 and gas diffusion chamber A1, CO 2gas mixes to preserve beer product with exported water, one or more CO 2gas cylinder A12 and gas diffusion chamber A1 is connected by gas pipeline A6 at their top place.CO 2gas cylinder A12 is equipped with the check valve A10 and relief valve A11 with valve rod A9.CO 2gas enters gas diffusion chamber A1 by check valve A3 and conduit A2.Gas diffusion chamber A1 is equipped with intake valve A3 and relief valve A5.If it is too high that the spring pressure set(ting)value of reducing valve A5 is set up, then give the alarm.Lever A7 is urged upward by spring A8.If user makes lever, A7 is depressed, then valve rod A9 is urged downwardly, thus releases the gas in gas pipeline A6.From this place, gas stream is through venturi A2 and enter and include in the gas diffusion chamber A1 of water.Finally, eduction valve A4 opens that (user also can realize the CO of the standard in the beer produced in gas diffusion chamber 2the sound of filling is heard during the content of gas), thus signal to user lever A7 is discharged.Thus, in one embodiment, user can pull down gas diffusion chamber A1, diffuser casing is positioned at below outlet valve 31, tap water can be assigned in gas diffusion chamber A1, then gas diffusion chamber A1 is installed back appropriate location, then depress lever A7, until to sound signal to trip lever A7 at relief valve A4 place.In certain embodiments, the output that user can spill at the independent delivery valve acquisition beer at the top place of gas diffusion chamber A1, and obtain the water for generation of beer.In other embodiments, user can make solenoid electric valve (by control panel 42) aim at from the directed output source from valve 31 of gas diffusion chamber A1.
In other embodiments, gas diffusion chamber A1 is configured to directly receive from machine purify waste water, but under a reduced pressure, does not have end user to interfere, and wherein, Electromagnetically-operating control valve allows to purify waste water and enters gas diffusion chamber A1 and directly reach predeterminated level.Described predeterminated level can pass through level switch (detector of magnetic-float type described in this manual such as or pressure transmitter) and detect.Then gas diffusion chamber A1 can be pressurized to has from CO 2the CO of gas cylinder A12 2the predetermined amount of gas.Described predetermined amount of pressurization and then change into the level of carbonating (saturated) of beer product, and can by the pressure transmitter in gas diffusion chamber A1 or water level (expansions) detector is detected and control.Then, the output of machine can provide the foaming water of purification to export by throat A2 and delivery valve 31.
When first time uses, CO 2gas cylinders A12 fastening on valve seat, thus causes not leaking.In addition, gas diffusion chamber A1 once be filled with purifies waste water and CO 2mixture also can keep resistance to air loss, with Leakage prevention by its sealing member.
In an alternative embodiment, the yeast of seasonings and other different types of brewer, Fructus Hordei Germinatus, hops and the combination as other material of other seasonings of such as vanilla or fruit and so on can be included in container once in a while, and except purifying waste water, use gas diffusion chamber A1, thus formation process beer brewing product and its preservation.
Potential obvious modification and remodeling
Those skilled in the art easily can expect a large amount of significantly modification and remodeling of the present utility model, and these all modification and remodeling are all intended to comprise within the scope of the appended claims.

Claims (4)

1., for providing a system for beer, the purifying drinking water that described beer origin comes from air is produced and is filled with the CO preserved for beer 2gas, described system comprises:
Shell, described shell has gas inlet and air vout;
Coolant compressor;
For the mixing vessel of Fructus Hordei Germinatus, hops, sugar so that hermetic fermentation beer, described mixing vessel allows to add the CO being used for beer and preserving 2;
For the pressure and temperature meter that beer brewing machine designs, the carbonation of beer and the quality of beer during described pressure and temperature meter indicates the time period of two weeks;
The refrigerant control of the Electromagnetically-operating of at least one multichannel;
Control device, described control device for carrying out monitoring to control the refrigerant control of at least one Electromagnetically-operating described and described other electrical subsystem intrasystem;
Evaporator unit,
Wherein, described evaporator unit has fin to maximize and the contact surface area of ambient air and heat trnasfer,
Wherein, described fin scribbles nontoxic corrosion resistant material or PTFE protective layer, and described nontoxic corrosion resistant material meets coating management and control codex alimentarius applicatory, and described coating also promotes the quick collection of water of condensation, and
Wherein, described in described vaporizer can be configured by, the refrigerant control of at least one Electromagnetically-operating receives the refrigeration agent of refrigeration from described coolant compressor pumping, to carry out refrigeration to the air crossing the circulation of described evaporator fin, and
Wherein, described in described vaporizer can be configured by, the refrigerant control of at least one Electromagnetically-operating receives the refrigeration agent of the heat from described coolant compressor pumping, to defrost to described evaporator fin;
Antistatic mildew-resistant air filter,
Wherein, described antistatic mildew-resistant air filter is arranged on the upstream of described evaporator unit, for the condenser device of the refrigeration cycle of described system;
Fan/blower device,
Wherein, described fan or blowing plant make ambient air circulate as follows: from described gas inlet through described antistatic mildew-resistant air filter, cross described evaporator unit and described condenser device, then discharge from described air vout;
There is the collector arrangement on press polished surface;
Prefilter, described prefilter is used for removing by the smell of water of condensation with by ammonia,
Wherein, described prefilter comprises activated carbon or zeolite;
Condensed water collecting box,
Wherein, the described press polished surface of described collector arrangement contributes to water of condensation and flow under gravity in described condensed water collecting box, and
Wherein, described condensed water collecting box is equipped with level switch, and described level switch and control device make described evaporator unit stop receiving refrigeration refrigeration agent at predetermined high water level settings point place;
At least one water pump;
Particulate filter, described particulate filter is used for the entrance filtering to protect at least one water pump described to particle;
Water purification filter assembly, described water purification filter assembly is used for bacterium, virus and heavy metal being filtered out and being used for removing the smell not wanting to have, and described water purification filter assembly comprises:
At least one charcoal filter,
At least one reverse osmosis filter,
Wherein, described reverse osmosis filter has the hole being less than or equal to 0.0001 μm, and
Wherein, described reverse osmosis filter can be backwashed, and makes waste water can be guided to described collector arrangement by the T-valve controlled by waste water ratio csr controller,
At least one zeolite filter;
Wherein, described water pump from described condensed water collecting box pumping water of condensation through described Water warfare assembly; To purify waste water collection box, described in purify waste water collection box for collection and purification water,
Wherein, described in collection box of purifying waste water level switch is equipped with, described level switch and control device make at least one water pump described stop new clarified water pump to deliver in described cleaned water tank at predetermined high water level settings point place; Cooling loop, purifies waste water described in described cooling loop is arranged in collection box,
Wherein, described cooling loop can be configured by the refrigerant control reception of at least one Electromagnetically-operating described from the refrigeration agent of described coolant compressor pumping, purifies waste water described in cooling, and
Wherein, the temperature of purifying waste water described in purifying waste water described in collection box remains in the temperature range of 2-15 DEG C;
Sterilising plant, described sterilising plant is for biological substance in collection box and the virus of purifying waste water described in killing, described sterilising plant comprises UV-light device and sterilising chamber, and described UV-light device has the effective sterilizing rate of at least 99.99%, uses the wavelength in the scope of 253-255nm;
Hot well tank, described hot well tank is purified waste water from described cleaned water tank reception by gravitational discharge,
Wherein, described hot well tank includes an electric heating element,
Wherein, the water in described hot well tank controls in the scope of 50-98 DEG C by described control device, and
Wherein, in order to provide hot tap water for user, described hot tap water can be pumped across electric operating valve and output filter by hot water pump and be pumped to public outlet header;
Public outlet valve, described public outlet valve is arranged on described public outlet header place, and described public outlet valve can be positioned to allow that user obtains heat from described system or the cold output of purifying waste water;
At least one CO 2gas cylinder, at least one CO described 2gas cylinder to leave in described shell and is removable, at least one CO described 2gas cylinder is equipped with check valve, valve rod, outlet relief valve and relief valve;
Gas diffusion chamber, described gas diffusion chamber to leave in described shell and is removable, and described gas diffusion chamber is equipped with inlet valve and relief valve,
Wherein, if the spring pressure set(ting)value of described relief valve is arranged on more than preset value, then described control device will give the alarm, and
Wherein, described gas diffusion chamber includes purifying waste water of the significant quantity that user determines, described in purify waste water by user obtain from the described public outlet valve for described system purify waste water in described gas be manually filled into predeterminated level and obtain;
Gas piping, described gas piping is used for connecting at least one CO described communicatively 2gas cylinder and described gas diffusion chamber; And
Spring-loaded lever, described lever is connected at least one CO described communicatively 2the valve rod of gas cylinder, makes when described lever is depressed,
At least one CO described 2the valve rod of gas cylinder opens described outlet relief valve,
At least one CO described 2pressurized gas to be discharged in described gas piping by the conduit in described gas diffusion chamber and to be discharged in described gas diffusion chamber by the check valve of gas cylinder, and
Once described gas diffusion chamber achieves the CO purifying waste water and preserve for beer product 2the saturated content of gas, namely described outlet relief valve is opened, and sends signal to discharge described spring-loaded lever thus to user, to stop at least one CO described 2gas between gas cylinder and described gas diffusion chamber is carried;
Thus the beer product extracted in carbonating air, user can discharge by described lever the beer produced and carries out taking and obtain described beer product after the fermentation of two weeks.
2. system according to claim 1, wherein, described beer can be guided to described public outlet valve by described outlet relief valve.
3. system according to claim 1, wherein:
Described coolant compressor is for can control variable-ratio high-efficient compressor;
Described coolant compressor is controlled by inverter controller;
Work period and the operation of described coolant compressor can be regulated by described inverter controller on airborne control panel by user; And
User can programme to described system and under optimum efficiency, operate described coolant compressor with environmentally condition.
4. system according to claim 4, wherein, the solar panel that described system has the rated output of at least 300W by least one provides electric power.
CN201420115634.7U 2013-03-13 2014-03-13 For producing the equipment of beer from air Expired - Fee Related CN204039374U (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
US201361780173P true 2013-03-13 2013-03-13
US61/780,173 2013-03-13

Publications (1)

Publication Number Publication Date
CN204039374U true CN204039374U (en) 2014-12-24

Family

ID=51499941

Family Applications (2)

Application Number Title Priority Date Filing Date
CN201420115634.7U Expired - Fee Related CN204039374U (en) 2013-03-13 2014-03-13 For producing the equipment of beer from air
CN201410093310.2A Pending CN104046539A (en) 2013-03-13 2014-03-13 Apparatus and method for producing beer from atmosphere

Family Applications After (1)

Application Number Title Priority Date Filing Date
CN201410093310.2A Pending CN104046539A (en) 2013-03-13 2014-03-13 Apparatus and method for producing beer from atmosphere

Country Status (1)

Country Link
CN (2) CN204039374U (en)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104499534A (en) * 2015-01-19 2015-04-08 上海索密科贸有限公司 Intelligent multi-functional bubbly water machine
CN104532905A (en) * 2015-01-19 2015-04-22 上海索密科贸有限公司 Intelligent multifunctional air water extraction machine

Also Published As

Publication number Publication date
CN104046539A (en) 2014-09-17

Similar Documents

Publication Publication Date Title
CN101731714B (en) Apparatus and methods for creating carbonated water from the atmosphere and method for making carbonated drink
US7272947B2 (en) Water producing method and apparatus
US8650892B2 (en) Apparatus and methods for creating purified portable water from the atmosphere
US7886557B2 (en) Water producing method and apparatus with additive control system
US20090077992A1 (en) Water producing method and apparatus
CN100385186C (en) Portable drinking water extracting and distributing device
WO2012009024A1 (en) Versatile environmentally conscious apparatus
EP0597716B1 (en) Device for collecting drinking water from the atmosphere
CN101542220B (en) Multipurpose adiabatic drinking water production apparatus and methods
KR20050031163A (en) Device to make drinking water
KR20040031651A (en) Dual water-generating apparatus
CN204039374U (en) For producing the equipment of beer from air
CN103300721A (en) Reverse osmosis air energy heat pump water dispenser
CN201485898U (en) Condensing water-making device
CN105036432A (en) Multifunctional table-board type water purifier
CN101463616A (en) Atmosphere purification water making machine
KR20050027843A (en) Device to make drinking water
CN201831681U (en) Water dispenser capable of producing water from air
CN207365390U (en) A kind of energy saving double intelligent direct drinking machine/water boiling machines of heat
CN202099156U (en) Multifunctional environment-friendly equipment
CN205933501U (en) Air conversion condensation electromagnetization system
CN201334687Y (en) Air purifying water generator
CN202537175U (en) Reverse osmosis air-source heat pump water dispenser
CN207031035U (en) A kind of efficiently water purifier and cabinet
CN2681650Y (en) Drinking machine extracting water from air

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20141224

Termination date: 20180313