CN110074671A - The carbonization method and carbonizing plant of aqueous solution - Google Patents
The carbonization method and carbonizing plant of aqueous solution Download PDFInfo
- Publication number
- CN110074671A CN110074671A CN201910283949.XA CN201910283949A CN110074671A CN 110074671 A CN110074671 A CN 110074671A CN 201910283949 A CN201910283949 A CN 201910283949A CN 110074671 A CN110074671 A CN 110074671A
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- Prior art keywords
- aqueous solution
- container
- water
- temperature value
- temperature
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Classifications
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J31/00—Apparatus for making beverages
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J31/00—Apparatus for making beverages
- A47J31/44—Parts or details or accessories of beverage-making apparatus
- A47J31/4403—Constructional details
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J31/00—Apparatus for making beverages
- A47J31/44—Parts or details or accessories of beverage-making apparatus
- A47J31/46—Dispensing spouts, pumps, drain valves or like liquid transporting devices
- A47J31/462—Dispensing spouts, pumps, drain valves or like liquid transporting devices with an intermediate liquid storage tank
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J31/00—Apparatus for making beverages
- A47J31/44—Parts or details or accessories of beverage-making apparatus
- A47J31/46—Dispensing spouts, pumps, drain valves or like liquid transporting devices
- A47J31/468—Pumping means
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J31/00—Apparatus for making beverages
- A47J31/44—Parts or details or accessories of beverage-making apparatus
- A47J31/50—Urns with devices for keeping beverages hot or cool
Abstract
The present embodiments relate to beverage dispensers, disclose the carbonization method and carbonizing plant of a kind of aqueous solution.In the present invention, the carbonization method of aqueous solution includes the following steps: to inject aqueous solution into container;After reaching default liquid level by the liquid level of the aqueous solution in injection container, according to the concentration value of current set carbonated water, the carbon dioxide gas with pressure corresponding to the concentration value is injected into aqueous solution;After carbon dioxide gas dissolution in aqueous solution to be implanted, carbonated water is made.Compared with the prior art is existing, so that carbonizing plant volume reduces, and requires to reduce, to reduce cost, while the carbonizing degree of aqueous solution can be allowed controllable, so that the carbonizing plant can be used for household, easily generate the carbonated water for needing concentration.
Description
Technical field
The present embodiments relate to a kind of beverage dispensers, the in particular to carbonization method and carbonizing plant of aqueous solution.
Background technique
Beverage dispenser can be used for manufacturing the drinks such as soda water or fruit juice.Now by taking soda water as an example, since soda water has antioxygen
The effects of changing prevention skin aging, facilitating digestion, can periodically drink in daily life.It, will but in soda water manufacturing process
Aqueous solution carbonization is key step.Specifically, by into container inject certain pressure carbon dioxide gas, then to
Water is injected in container, and carbonated water is made by the atomizing of water.During being somebody's turn to do, to the more demanding of water pump, the pressure of water pump
Power needs the pressure being greater than in container that can just inject water into container.Meanwhile carbon dioxide gas injection aqueous solution being carbonized
When, the major carbonization time, carbonization time was shorter, the carbonic acid water concentration difficulty up to standard of formation in the moment of water filling atomization,
In the technique for manufacturing soda water, concentration is needed to reach, needs high technology standard, condition is harsh.Therefore, it is necessary to biggish containers
It could be used as carbonizing plant with the water pump of high standard, and to generate soda water up to standard, need the technological standards of high request.Cause
The manufacturing equipment cost and process costs of soda water are higher, and occupation area of equipment is big, and soda water can only be as commodity production
It sells, user's purchase is allowed to drink.To which without the image of Buddha to drink drinking water the same by user, soda water is drunk at any time, this brings all to user
It is mostly inconvenient.
Summary of the invention
The carbonization method and carbonizing plant for being designed to provide a kind of aqueous solution of embodiment of the present invention, so that carbonization dress
Volume reduction is set, and requires to reduce, to reduce cost, while the carbonizing degree of aqueous solution can be allowed controllable, so that the carbon
Makeup, which is set, can be used for household, easily generate the carbonated water for needing concentration.
In order to solve the above technical problems, embodiments of the present invention provide a kind of carbonization method of aqueous solution, including such as
Lower step:
Aqueous solution is injected into container;
After reaching default liquid level by the liquid level of the aqueous solution injected in the container, according to current set carbonated water
Concentration value, into aqueous solution inject with the concentration value corresponding to pressure carbon dioxide gas;
After carbon dioxide gas dissolution in aqueous solution to be implanted, carbonated water is made.
In addition, embodiments of the present invention additionally provide a kind of carbonizing plant of aqueous solution, comprising:
Container;
Water supply component, for injecting aqueous solution into the container;
Gas supply assembly, for injecting carbon dioxide gas into the container;
Level sensing module, for detecting the liquid level for the aqueous solution that the water supply component is injected in the container;
Pressure detecting module, for detecting the pressure for the carbon dioxide gas that the gas supply assembly injects in the container
Value;
Main control module, for receive preparation carbonated water instruction, and respectively with the water supply component, the gas supply assembly,
The level sensing module and the pressure detecting module are electrically connected;
The main control module is used for after receiving described instruction, is opened the water supply component and is injected water into the container
Solution;
The main control module is also used to detect that the liquid level of the aqueous solution in the container reaches in the level sensing module
When to default liquid level, opens the gas supply assembly and directly inject carbon dioxide gas into the aqueous solution;
The main control module is also used to detect the carbon dioxide injected in the aqueous solution in the pressure detecting module
The pressure value of gas when pressure value needed for reaching the concentration of current set carbonated water, closes the gas supply assembly.
Embodiment of the present invention in terms of existing technologies, since aqueous solution injects in container in elder generation, is arrived in aqueous solution
Carbon dioxide gas is injected into aqueous solution up to after default liquid level, then through gas supply assembly, from the carbon dioxide gas then injected
Body dissolves in aqueous solution, forms carbonated water, as long as so that volume of a container meets the amount for needing the aqueous solution injected, nothing
It need to know from experience in view of carbon dioxide gas and occupy vessel space, and then reduce volume of a container.And due to directly being infused into aqueous solution
Entering carbon dioxide gas, the resistance in container needed is smaller, so that carbon dioxide gas is easier to enter in aqueous solution, shape
At carbonated water.So that the cost of the device reduces, occupied area is also small, is more suitable for household.Meanwhile it injecting in aqueous solution
When carbon dioxide gas, according to the concentration value of current set carbonated water, into aqueous solution injection with corresponding to the concentration value
Pressure carbon dioxide gas.I.e. in the present embodiment with the carbon dioxide gas in pressure detecting module detection container
Pressure value detects the pressure value of the carbon dioxide gas injected in the aqueous solution in pressure detecting module, reaches current institute
When pressure value needed for the concentration of the carbonated water of setting, main control module closes gas supply assembly, and user demand is met prepared by
Carbonated water.In turn, so that by concentration controllable precise of the carbonizing plant by carbonated water, user's shirtsleeve operation as desired
The carbonated water for needing concentration can be obtained, the carbonizing plant is further allowed to be more suitable for family's use.
In addition, further including following steps after the step of injecting aqueous solution into container:
Freeze to the aqueous solution injected in the container, the temperature value of aqueous solution is controlled into the temperature set by user
Angle value.
In addition, being specifically included in the step of temperature value of aqueous solution is controlled to the temperature value set by user:
The temperature value of aqueous solution in container described in real-time detection, judge the aqueous solution in the container temperature value whether
Equal to temperature value set by user;
Continued to judge after the temperature value of the aqueous solution as described in determining in container is not equal to temperature value set by user
Whether the temperature value of the aqueous solution in the container is higher than temperature value set by user;
After the temperature value of the aqueous solution as described in determining in container is higher than temperature value set by user, reduced refrigeration temperature
Degree;
After temperature value set by the temperature of the aqueous solution in the container is reduced to user, current refrigeration temperature is kept
Degree.
In addition, the step of whether the temperature value for judging the aqueous solution in the container is higher than temperature value set by user
It later, further include following sub-step;
Improved refrigeration after the temperature value of the aqueous solution as described in determining in container is not higher than temperature value set by user
Temperature;
After temperature value set by the temperature of the aqueous solution in the container is increased to user, current refrigeration temperature is kept
Degree.
In addition, further including following steps before the step of injecting aqueous solution into container:
Aqueous solution is pre-chilled.
In addition, the gas supply assembly includes:
Gas source is electrically connected with the main control module;
Air supply pipe is connect with the gas source, and is inserted into inside the container;Distributed pores on the tube wall of the air supply pipe.
Carbon dioxide gas can enter in aqueous solution from distributed pores exudation on tube wall, so that carbon dioxide gas is not limited to
One place releases, and large area can shed from tube wall, come into full contact with aqueous solution, facilitate carbon dioxide gas and enter water
In solution, it is not take up vessel space.
In addition, the air supply pipe is ceramic diaphragm pipe;
Alternatively, the air supply pipe is hollow fiber film tube.It is put so that carbon dioxide gas is not limited to a place
Out, it can shed from large area on the tube wall of ceramic diaphragm pipe, be come into full contact with aqueous solution, facilitate carbon dioxide gas and enter
In aqueous solution, it is not take up vessel space.
In addition, the air supply pipe is equipped with several, and it is connect with the gas source.So that there is more air supply pipes to water
For carbon dioxide gas in solution, so that carbon dioxide gas can be distributed in each region of aqueous solution, so that the area aqueous solution Zhong Ge
Domain can quickly be dissolved into carbon dioxide gas.Meanwhile the speed that carbon dioxide gas enters aqueous solution is also improved, improve work
Make efficiency.
In addition, the water supply component includes:
Water pump is electrically connected with the main control module;
Water supplying pipe is connect with the water pump, for supplying water into the container.
In addition, the water supplying pipe coils the container along the axis direction of the container.
In addition, the carbonizing plant of the aqueous solution further include:
Cooling component freezes to the aqueous solution in the water supplying pipe.
In addition, the cooling component includes:
Cold metal part is stored up, there is the cavity for storing the container and the water supplying pipe;The storage cold metal part and institute
Water supplying pipe is stated to fit closely;
Refrigerator pipes are set in the cavity of the storage cold metal part, and fit closely with the storage cold metal part;Institute
It states in refrigerator pipes for the refrigerant that circulates.
In addition, the refrigerator pipes are fitted closely with the water supplying pipe.
In addition, the storage cold metal part and the container die cast, and the water outlet of the water supplying pipe is along the appearance
The inner wall of device is configured.
In addition, the carbonizing plant of the aqueous solution further include: temperature control module is electrically connected with the main control module, is used for
Detect the temperature of aqueous solution in the container.
In addition, the carbonizing plant of the aqueous solution further include: safety valve, the safety valve may be disposed on the container,
Or setting is closed on the cover board of the container, and when the safety valve is greater than preset pressure for pressure in the container, quilt
Pressure inside the container opens;
The safety valve is used for after being opened by the pressure inside the container, to progress row pressure inside the container.
Detailed description of the invention
One or more embodiments are illustrated by the picture in corresponding attached drawing, these exemplary theorys
The bright restriction not constituted to embodiment, the element in attached drawing with same reference numbers label are expressed as similar element, remove
Non- to have special statement, composition does not limit the figure in attached drawing.
Fig. 1 is the explosive view of the carbonizing plant of aqueous solution in first embodiment of the invention;
Fig. 2 is the carbonization method flow chart of aqueous solution in first embodiment of the invention;
Fig. 3 is the temperature control flow figure of aqueous solution in container in first embodiment of the invention;
Fig. 4 is the explosive view of the carbonizing plant of aqueous solution in second embodiment of the invention;
Fig. 5 is the carbonizing plant partial sectional view of aqueous solution in second embodiment of the invention;
Fig. 6 is the structural schematic diagram of refrigerator pipes and water supplying pipe coiling in invention second embodiment;
Fig. 7 is the circuit module figure of the carbonizing plant of aqueous solution in invention second embodiment.
Specific embodiment
In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with attached drawing to the present invention
Each embodiment be explained in detail.However, it will be understood by those skilled in the art that in each embodiment party of the present invention
In formula, in order to make the reader understand this application better, many technical details are proposed.But even if without these technical details
And various changes and modifications based on the following respective embodiments, the application technical solution claimed also may be implemented.
The first embodiment of the present invention is related to a kind of carbonization methods of aqueous solution, as depicted in figs. 1 and 2, aqueous solution
Carbonization method includes the following steps:
Step 110, aqueous solution is injected into container 9;Specifically, in the present embodiment, as shown in Figure 1, passing through confession
Water assembly injects aqueous solution into the container 9, and the water supplying pipe 3 that level sensing module 5 detects water supply component injects in container 9
The liquid level of aqueous solution, after level sensing module 5 detects the liquid level arrival of aqueous solution, main control module closes water supply component.From
And the aqueous solution injected in container 9 is made to be the aqueous solution of preset capacity.
Step 120, after reaching default liquid level by the liquid level of the aqueous solution in injection container 9, set by current
The concentration value of carbonated water injects the carbon dioxide gas with pressure corresponding to the concentration value into aqueous solution;Specifically, hold
After aqueous solution in device 9 reaches default liquid level, main control module closes the water pump of water supply component, and opens the gas source of gas supply assembly,
The air supply pipe 4 of gas supply assembly injects carbon dioxide gas into container 9, and carbon dioxide gas is allowed to be dissolved into aqueous solution.Pressure
Detection module 6 detects the pressure value of the carbon dioxide gas in gas supply assembly injection container 9, detects in pressure detecting module 6
When pressure value needed for the pressure value of the carbon dioxide gas in injection aqueous solution reaches the concentration of current set carbonated water,
Close gas supply assembly.To allow the injection rate of carbon dioxide gas to meet the requirements.
Step 130, after the carbon dioxide gas dissolution in aqueous solution to be implanted, carbonated water is made.
Through the above it is not difficult to find that since the aqueous solution of preset capacity injects in container 9 in elder generation, reached in aqueous solution
After default liquid level, then pass through gas supply assembly and inject carbon dioxide gas into aqueous solution, from the carbon dioxide gas then injected
Dissolution in aqueous solution, forms carbonated water, as long as so that the volume of container 9 meets the amount for needing the aqueous solution injected, nothing
It need to know from experience in view of carbon dioxide gas and occupy 9 space of container, and then reduce the volume of container 9.And due to directly into aqueous solution
Carbon dioxide gas is injected, the resistance in container 9 needed is smaller, so that carbon dioxide gas is easier to enter aqueous solution
In, form carbonated water.So that the cost of the device reduces, occupied area is also small, is more suitable for household.Meanwhile in aqueous solution
When middle injection carbon dioxide gas, according to the concentration value of current set carbonated water, injection and the concentration value into aqueous solution
The carbon dioxide gas of corresponding pressure.I.e. in the present embodiment with the titanium dioxide in 6 detection container 9 of pressure detecting module
The pressure value of carbon gas detects the pressure value of the carbon dioxide gas in injection aqueous solution in pressure detecting module 6, reaches and work as
When pressure value needed for the concentration of preceding set carbonated water, main control module closes gas supply assembly, and user is met prepared by
The carbonated water of demand.In turn, so that by the carbonizing plant by the concentration controllable precise of carbonated water, user is simple as desired
The carbonated water for needing concentration can be obtained in operation, and the carbonizing plant is further allowed to be more suitable for family's use.
In addition, further including following steps before step 110 injects the aqueous solution of preset capacity into container 9:
Step 140, freeze to aqueous solution.In the present embodiment, it in order to prepare carbonated water, needs aqueous solution system
It is cold, carbon dioxide gas is dissolved into water aqueous solution.Meanwhile the concentration of carbonated water and the temperature of aqueous solution and two
The pressure value ratio of carbon oxide gas is related, therefore during making the carbonated water of suitable concentration, first passes through cooling component pair
Aqueous solution freezes, and obtains the aqueous solution of suitable temperature, thus further according to the carbonated water for needing concentration, it can be seen that the temperature
Under aqueous solution in the injection carbon dioxide gas pressure value, and then the carbonated water of subsequent suitable concentration can be obtained.Specifically
Say, in the present embodiment, as shown in Figure 1, cooling component includes storage cold metal part 1 and refrigerator pipes, storage cold metal part 1 has
For the cavity of accommodating container 9 and water supplying pipe 3, stores up cold metal part 1 and fitted closely with water supplying pipe 3.Refrigerator pipes are set to Chu Lengjin
It in the cavity for belonging to part 1, and is fitted closely with storage cold metal part 1, refrigerant circulates in refrigerator pipes.The water inlet end of refrigerator pipes and
The water inlet end and water outlet of water outlet and water supplying pipe 3 are both exposed to outside storage cold metal part 1.Refrigerant circulates in refrigerator pipes,
Aqueous solution is conveyed by water supplying pipe 3, and is flowed into container 9 by the water outlet of water supplying pipe 3.Refrigerator pipes and storage cold metal part 1
It fits closely, refrigerant circulates in refrigerator pipes, gives cold quantity transmission to storage cold metal part 1 by refrigerator pipes, stores up cold metal part 1
Store cooling capacity.When aqueous solution circulates in water supplying pipe 3, water supplying pipe 3 is fitted closely with storage cold metal part 1 again, stores up cold metal part 1
Cooling capacity is transmitted into feed solution by water supplying pipe 3, realization cools down aqueous solution.
In addition, as shown in figure 3, further including following steps after the step of step 110 injects aqueous solution into container 9:
Step 150, freeze to the aqueous solution in injection container 9, by the control of the temperature value of aqueous solution set by the user
Fixed temperature value.To obtain the carbonated water for needing concentration, need to adjust the temperature of aqueous solution and the pressure value of carbon dioxide gas
Ratio, therefore user first sets suitable temperature value.
In addition, specifically comprising the following steps: in step 150
Step 151, the temperature value of the aqueous solution in real-time detection container 9 judges that the temperature value of the aqueous solution in container 9 is
It is no to be equal to temperature value set by user;
As determine container 9 in aqueous solution temperature value be not equal to temperature value set by user after,
Step 152, continue to judge whether the temperature value of the aqueous solution in container 9 is higher than temperature value set by user;
After being higher than temperature value set by user in the temperature value for determining the aqueous solution in container 9,
Step 153, cryogenic temperature is reduced;
Step 154, after temperature value set by the temperature of the aqueous solution in container 9 is reduced to user, keep current
Cryogenic temperature.
In addition, judging whether the temperature value of the aqueous solution in the container 9 is higher than temperature set by user in step 152
It further include following sub-step after the step of value;
After the temperature value of aqueous solution as described in judgement in container 9 is not higher than temperature value set by user,
Step 155, cryogenic temperature is improved;
Step 156, it after the temperature of the aqueous solution in the container 9 is increased to temperature value set by user, keeps working as
Preceding cryogenic temperature.
In step 150, as judged, the temperature value of the aqueous solution in container 9 is equal to temperature value set by user, keeps
Current cryogenic temperature.
Specifically, temperature control module 14 and master control system are electrically connected, after having aqueous solution in container 9, temperature control module 14
Starting the temperature of aqueous solution in detection container 9, the temperature value for the aqueous solution that temperature control module 14 will test sends main control module to,
Main control module compares the temperature value and temperature value set by user, the temperature that temperature control module 14 detects after comparison
Value is higher than the temperature value of user preset, can be passed through refrigerant in refrigerator pipes always, allows the aqueous solution in container 9 to cool down, directly
The temperature value of aqueous solution is consistent with preset temperature value in container 9.The temperature value that temperature control module 14 detects after comparison is low
In the temperature value of user preset, standby form can be used, the aqueous solution in container 9 is allowed to heat up, until aqueous solution in container 9
Temperature value is consistent with preset temperature value.
Second embodiment of the invention is related to a kind of carbonizing plant of aqueous solution, and the carbonizing plant of the aqueous solution is used for first
The carbonization of aqueous solution in embodiment, as shown in figs. 4 and 7, comprising: container 9, the confession for injecting aqueous solution into container 9
Water assembly, gas supply assembly from carbon dioxide gas to container 9, level sensing module 5,6 and of pressure detecting module for injecting
Main control module, the bottom of container 9 are equipped with the cover board 7 for sealing container 9, and liquid level mouth 10 is offered on cover board 7, pressure port 20, is supplied
Port 30 and feed water inlet 40, level sensing module 5 can be arranged for level probe in liquid level mouth 10, and the syringe needle of level probe enters
In container 9, the liquid level of the aqueous solution in detection water supply component injection container 9.The setting of pressure detecting module 6 is in pressure port 20, inspection
Survey the pressure value of the carbon dioxide gas in gas supply assembly injection container 9.Water supply component enters in container 9 from feed water inlet 40 to appearance
It supplies water in device 9.Gas supply assembly enters in container 9 from air supply opening 30, supplies into container 9.Main control module prepares carbon in reception
The instruction of sour water, and be electrically connected respectively with water supply component, gas supply assembly, level sensing module 5 and pressure detecting module 6.It is main
It controls module upon receipt of the instructions, opens water supply component and inject aqueous solution into container 9.Appearance is detected in level sensing module 5
When the liquid level of aqueous solution in device 9 reaches default liquid level, main control module is then turned on gas supply assembly and directly injects two into aqueous solution
Carbon oxide gas.Then the pressure value that the carbon dioxide gas in injection aqueous solution is detected in pressure detecting module 6, reaches and works as
When pressure value needed for the concentration of preceding set carbonated water, main control module finally closes gas supply assembly.To realize dioxy
Change carbon gas to be injected into aqueous solution, prepares carbonated water.In the present embodiment, pressure detecting module 6 may also be arranged on and hold
On the connected pipeline of device 9, its position is not limited to.
Through the above it is not difficult to find that since the aqueous solution of preset capacity injects in container 9 in elder generation, reached in aqueous solution
After default liquid level, then pass through gas supply assembly and inject carbon dioxide gas into aqueous solution, from the carbon dioxide gas then injected
Dissolution in aqueous solution, forms carbonated water, as long as so that the volume of container 9 meets the amount for needing the aqueous solution injected, nothing
It need to know from experience in view of carbon dioxide gas and occupy 9 space of container, and then reduce the volume of container 9.And due to directly into aqueous solution
Carbon dioxide gas is injected, the resistance in container 9 needed is smaller, so that carbon dioxide gas is easier to enter aqueous solution
In, form carbonated water.So that the cost of the device reduces, occupied area is also small, is more suitable for household.Meanwhile in aqueous solution
When middle injection carbon dioxide gas, according to the concentration value of current set carbonated water, injection and the concentration value into aqueous solution
The carbon dioxide gas of corresponding pressure.I.e. in the present embodiment with the titanium dioxide in 6 detection container 9 of pressure detecting module
The pressure value of carbon gas detects the pressure value of the carbon dioxide gas in injection aqueous solution in pressure detecting module 6, reaches and work as
When pressure value needed for the concentration of preceding set carbonated water, main control module closes gas supply assembly, and user is met prepared by
The carbonated water of demand.In turn, so that by the carbonizing plant by the concentration controllable precise of carbonated water, user is simple as desired
The carbonated water for needing concentration can be obtained in operation, and the carbonizing plant is further allowed to be more suitable for family's use.
Further, as shown in figure 4, gas supply assembly includes: gas source and air supply pipe 4, gas source and main control module are electrically connected,
Air supply pipe 4 is connect with gas source, and is inserted into inside container 9, distributed pores on the tube wall of air supply pipe 4.Specifically, air supply pipe 4 is logical
The air supply opening 30 crossed on cover board 7 inserts into solution, and after the aqueous solution in container 9 reaches default liquid level, air supply pipe 4
It enters in aqueous solution.Carbon dioxide gas can enter in aqueous solution from distributed pores exudation on tube wall, so that dioxy
Change carbon gas and be not limited to a place releasing, large area can shed from tube wall, be come into full contact with aqueous solution, facilitate dioxy
Change carbon gas to enter in aqueous solution, is not take up 9 space of container.
Preferably, air supply pipe 4 is ceramic diaphragm pipe, has Minute pores, carbon dioxide gas on the tube wall of ceramic diaphragm pipe
It can ooze out and be entered in aqueous solution from the tube wall of ceramic diaphragm pipe, be put so that carbon dioxide gas is not limited to a place
Out, it can shed from large area on the tube wall of ceramic diaphragm pipe, be come into full contact with aqueous solution, facilitate carbon dioxide gas and enter
In aqueous solution, it is not take up 9 space of container.Alternatively, air supply pipe 4 is hollow fiber film tube.Likewise, the tube wall of hollow fiber film tube
On have Minute pores, shed, can also be directly shed from duct bottom from tube wall for carbon dioxide gas.It is actually using
In, other pipelines also may be selected, be not limited to aforesaid way.
In addition, air supply pipe 4 is equipped with several, and it is connect with gas source.So that there is more air supply pipes 4 into aqueous solution
For carbon dioxide gas, so that carbon dioxide gas can be distributed in each region of aqueous solution, so that each equal energy in region in aqueous solution
Quickly it is dissolved into carbon dioxide gas.Meanwhile the speed that carbon dioxide gas enters aqueous solution is also improved, improve work effect
Rate.
Further, as shown in figure 4, water supply component includes: water pump and water supplying pipe 3.Water pump and main control module are electrically connected,
Water supplying pipe 3 is connect with water pump, and for supplying water into container 9, water supplying pipe 3 enters container 9 by the feed water inlet 40 on cover board 7
It is interior.Main control module controls water pump and opens, and allows water supplying pipe 3 is interior to enter aqueous solution, aqueous solution can enter in container 9 from air supply pipe 4.
After the aqueous solution in container 9 reaches default liquid level, main control module switches off the pump, and aqueous solution, which stops at, flows into water supplying pipe 3.
It will be further appreciated that as shown in figure 5, water supplying pipe 3 coils container 9 along the axis direction of container 9.At this
In embodiment, the water outlet of water supplying pipe 3 is located at the top of container 9, and water inlet end is facilitated to enter appearance from the water inlet on cover board 7
In device 9, the water inlet end of corresponding water supplying pipe 3 in the bottom of container 9 so that the water supplying pipe 3 that can be coiled on container 9 compared with
It is long.Water supplying pipe 3 so that the carbonizing plant structure space is more compact, allow the carbonizing plant small volume.
Further, the carbonizing plant of aqueous solution further include: cooling component freezes to the aqueous solution in water supplying pipe 3.
Specifically, as shown in figure 5, cooling component includes storage cold metal part 1 and refrigerator pipes 2, Chu Lengjin in actual use
Belonging to part 1 can be aluminum component or silver-colored part.Store up cold metal part 1 have for accommodating container 9 and water supplying pipe 3 cavity, storage cold metal part 1 with
Water supplying pipe 3 fits closely.Refrigerator pipes 2 are set in the cavity of storage cold metal part 1, and are fitted closely with storage cold metal part 1, are freezed
Medium circulates in refrigerator pipes 2.Specifically, the water inlet end and water outlet of the water inlet end of refrigerator pipes 2 and water outlet and water supplying pipe 3
It is both exposed to outside storage cold metal part 1.Refrigerant circulates in refrigerator pipes 2, and aqueous solution is conveyed by water supplying pipe 3, and passes through confession
The water outlet of water pipe 3 is flowed into container 9.Refrigerator pipes 2 are fitted closely with storage cold metal part 1, and refrigerant flows in refrigerator pipes 2
It is logical, cold quantity transmission is given to storage cold metal part 1 by refrigerator pipes 2, and storage cold metal part 1 stores cooling capacity.In aqueous solution in water supplying pipe 3
When circulation, water supplying pipe 3 is fitted closely with storage cold metal part 1 again, and cooling capacity is transferred to water-soluble by storage cold metal part 1 by water supplying pipe 3
Liquid cools down aqueous solution.
In the present embodiment, as shown in Figure 5 and Figure 6, refrigerator pipes 2 also along the axis direction of container 9 to the container 9 into
Row coiling.Refrigerator pipes 2 and water supplying pipe 3 successively can alternately be coiled along the direction of axis, i.e. any one layer of refrigeration pipeline section of refrigerator pipes 2
It is adjacent with 3 sections of one layer of water supplying pipe of water supplying pipe 3.In Fig. 6, refrigerator pipes 2 form multilayer refrigeration pipeline section after coiling, such as freeze pipeline section
21, freeze pipeline section 22, refrigeration pipeline section 23, and water supplying pipe 3 forms multilayer water supply pipeline section after coiling, such as water supply pipeline section 31, water supply pipeline section
32, water supply pipeline section 33, as can be seen from Figure 6, water supply pipeline section 31 is between refrigeration pipeline section 21 and refrigeration pipeline section 22, water supply pipeline section 32
Between refrigeration pipeline section 22 and refrigeration pipeline section 23.To which the aqueous solution in water supplying pipe 3 is while cooling by storage cold metal part 1,
Again due to adjacent with refrigeration pipeline section with every layer of water supply pipeline section, the cooling capacity of refrigerant, further progress in absorbable refrigeration pipeline section
It is cooling, to realize the rapid cooling of aqueous solution, and the refrigeration effect that aqueous solution obtains is more preferable, lower temperature, nothing can be obtained
Assisted refrigeration need to be added again.In actual use, water supply pipeline section and refrigeration pipeline section can have more, and this will not be detailed here.
In addition, as shown in Figure 5 and Figure 6, refrigerator pipes 2 are fitted closely with water supplying pipe 3.To refrigerant in refrigerator pipes 2
Cooling capacity can be transferred to the aqueous solution in water supplying pipe 3 by tube wall, so that aqueous solution is realizing the same of heat exchange by storage cold metal part 1
When, it is also influenced, is further cooled by, so that cold in refrigerant by the cooling capacity that refrigerant in refrigerator pipes 2 generates
Preferably utilization is measured, realizes the further cooling of aqueous solution.
It will be further appreciated that as shown in figure 5, storage cold metal part 1 and 9 die cast of container, store up cold metal part 1 and container
9 come into full contact with, and container 9 also can receive the cooling capacity on storage cold metal part 1, and the inner wall of container 9 is constantly in low-temperature condition.And it supplies
After the water outlet of water pipe 3 is inserted into from the feed water inlet of cover board 7 40, the water outlet of water supplying pipe 3 is configured along the inner wall of container 9,
On the inner wall that aqueous solution can directly reach container 9 after flowing out from water outlet, according to inertia along the inner wall of container 9 when aqueous solution flows
It flowing down, realizes and come into full contact with the inner wall of container 9, inner wall is constantly in low-temperature condition again, and aqueous solution is further cooled down by inner wall,
Temperature reduces.In actual use, the water outlet of water supplying pipe 3 can also be inserted into container 9 from the side wall of container 9, along container 9
Inner wall be configured, this will not be detailed here.
Further, as shown in figs. 4 and 7, the carbonizing plant of aqueous solution further includes temperature control module 14, with main control module electricity
Property connection, the temperature of aqueous solution in detection container 9.It is pre-recorded in order to which the carbonated water for needing concentration is made in actual use
The aqueous solution of preset temperature, with carbon dioxide gas at preset ratio.Wherein, temperature control module 14 is temperature sensor, on cover board 7
Temperature mouth 50 is opened up, temperature sensor is mounted on temperature mouth 50, temperature sensor section enters detection container 9 in container 9
The temperature of interior solution, and send temperature to main control module, the temperature value that temperature sensor detects is received in main control module
When as preset temperature value, i.e. the temperature of aqueous solution is up to standard, can inject the carbon dioxide gas of corresponding pressure.
In addition, as shown in figs. 4 and 7, the carbonizing plant of the aqueous solution further include: safety valve 13, safety valve 13 can be set
It is placed on container 9, when safety valve 13 is greater than preset pressure for the pressure in container 9, is opened by the pressure inside container 9,
Safety valve 13 by the pressure inside container 9 after being opened, to carrying out row pressure inside container 9.Closing also can be set in safety valve 13
On the cover board 7 of container 9, safe mouth 60 is offered on cover board 7, safety valve 13 fills in safe mouth 60.To be opened in safety valve 13,
Container 9 is allowed to communicate with atmosphere, carbon dioxide gas can exclude, to guarantee pressure in container 9 always in safe range.?
No more than after preset pressure, safety valve 13 has and can be automatically closed pressure in container, and container 9 is sealed.
It will be understood by those skilled in the art that the respective embodiments described above are to realize specific embodiments of the present invention,
And in practical applications, can to it, various changes can be made in the form and details, without departing from the spirit and scope of the present invention.
Claims (17)
1. a kind of carbonization method of aqueous solution, characterized by the following steps:
Aqueous solution is injected into container;
After reaching default liquid level by the liquid level of the aqueous solution injected in the container, according to the dense of current set carbonated water
Angle value injects the carbon dioxide gas with pressure corresponding to the concentration value into aqueous solution;
After carbon dioxide gas dissolution in aqueous solution to be implanted, carbonated water is made.
2. the carbonization method of aqueous solution according to claim 1, it is characterised in that: in the step for injecting aqueous solution into container
Further include following steps after rapid:
Freeze to the aqueous solution injected in the container, the temperature value of aqueous solution is controlled into the temperature set by user
Value.
3. the carbonization method of aqueous solution according to claim 2, it is characterised in that: exist by the temperature value control of aqueous solution
In the step of temperature value set by user, specifically comprise the following steps:
The temperature value of aqueous solution in container described in real-time detection, judges whether the temperature value of the aqueous solution in the container is equal to
Temperature value set by user;
Continued described in judgement after the temperature value of the aqueous solution as described in determining in container is not equal to temperature value set by user
Whether the temperature value of the aqueous solution in container is higher than temperature value set by user;
After the temperature value of the aqueous solution as described in determining in container is higher than temperature value set by user, temperature is reduced;
After temperature value set by the temperature of the aqueous solution in the container is reduced to user, current cryogenic temperature is kept.
4. the carbonization method of aqueous solution according to claim 3, it is characterised in that: judging the aqueous solution in the container
Temperature value the step of whether being higher than temperature value set by user after, further include following sub-step;
After the temperature value of the aqueous solution as described in determining in container is not higher than temperature value set by user, refrigeration temperature is improved
Degree;
After temperature value set by the temperature of the aqueous solution in the container is increased to user, current cryogenic temperature is kept.
5. the carbonization method of aqueous solution described in any one of -4 according to claim 1, it is characterised in that: infused into container
Further include following steps before the step of entering aqueous solution:
Aqueous solution is pre-chilled.
6. a kind of carbonizing plant of aqueous solution, it is characterised in that: include:
Container;
Water supply component, for injecting aqueous solution into the container;
Gas supply assembly, for injecting carbon dioxide gas into the container;
Level sensing module, for detecting the liquid level for the aqueous solution that the water supply component is injected in the container;
Pressure detecting module, for detecting the pressure value for the carbon dioxide gas that the gas supply assembly injects in the container;
Main control module, for receiving the instruction of preparation carbonated water, and respectively with the water supply component, gas supply assembly, described
Level sensing module and the pressure detecting module are electrically connected;
The main control module be used for after receiving described instruction, open the water supply component injected into the container it is water-soluble
Liquid;
The main control module is also used to detect that the liquid level of the aqueous solution in the container reaches pre- in the level sensing module
If when liquid level, opening the gas supply assembly and directly injecting carbon dioxide gas into the aqueous solution;
The main control module is also used to detect the carbon dioxide gas injected in the aqueous solution in the pressure detecting module
Pressure value, when pressure value needed for reaching the concentration of current set carbonated water, close the gas supply assembly.
7. the carbonizing plant of aqueous solution according to claim 6, it is characterised in that: the gas supply assembly includes:
Gas source is electrically connected with the main control module;
Air supply pipe is connect with the gas source, and is inserted into inside the container;Distributed pores on the tube wall of the air supply pipe.
8. the carbonizing plant of aqueous solution according to claim 7, it is characterised in that: the air supply pipe is ceramic diaphragm pipe;
Alternatively, the air supply pipe is hollow fiber film tube.
9. the carbonizing plant of aqueous solution according to claim 7, it is characterised in that: the air supply pipe be equipped with several, and
It is connect with the gas source.
10. the carbonizing plant of aqueous solution according to claim 6, it is characterised in that: the water supply component includes:
Water pump is electrically connected with the main control module;
Water supplying pipe is connect with the water pump, for supplying water into the container.
11. the carbonizing plant of aqueous solution according to claim 10, it is characterised in that: the water supplying pipe is along the container
Axis direction coils the container.
12. the carbonizing plant of aqueous solution described in any one of 0 or 11 according to claim 1, it is characterised in that: described water-soluble
The carbonizing plant of liquid further include:
Cooling component freezes to the aqueous solution in the water supplying pipe.
13. the carbonizing plant of aqueous solution according to claim 12, it is characterised in that: the cooling component includes:
Cold metal part is stored up, there is the cavity for storing the container and the water supplying pipe;The storage cold metal part and the confession
Water pipe fits closely;
Refrigerator pipes are set in the cavity of the storage cold metal part, and fit closely with the storage cold metal part;The system
For the refrigerant that circulates in cold pipe.
14. the carbonizing plant of aqueous solution according to claim 13, it is characterised in that: the refrigerator pipes and the water supplying pipe
It fits closely.
15. the carbonizing plant of aqueous solution according to claim 13, it is characterised in that: the storage cold metal part and the appearance
Device die cast, and the water outlet of the water supplying pipe is configured along the inner wall of the container.
16. the carbonizing plant of aqueous solution according to claim 6, it is characterised in that: the carbonizing plant of the aqueous solution is also
Include: temperature control module, is electrically connected with the main control module, for detecting the temperature of aqueous solution in the container.
17. the carbonizing plant of aqueous solution according to claim 6, it is characterised in that: the carbonizing plant of the aqueous solution is also
It include: safety valve, the safety valve may be disposed on the container, or setting is closed on the cover board of the container, the safety
When valve is greater than preset pressure for pressure in the container, opened by the pressure inside the container;
The safety valve is used for after being opened by the pressure inside the container, to progress row pressure inside the container.
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