CN101913722A - Method and device for preparing mineral water - Google Patents
Method and device for preparing mineral water Download PDFInfo
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- CN101913722A CN101913722A CN2010102324666A CN201010232466A CN101913722A CN 101913722 A CN101913722 A CN 101913722A CN 2010102324666 A CN2010102324666 A CN 2010102324666A CN 201010232466 A CN201010232466 A CN 201010232466A CN 101913722 A CN101913722 A CN 101913722A
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Abstract
The invention provides a method and a device for preparing mineral water. The principle comprises the following steps of: filtering impurities, odors and microorganisms from tap water; heating at a controlled temperature and performing electrolytic polarization to obtain alkalescent water; and adding mineral matters into the alkalescent water to finally obtain the mineral water. The device is provided with a central processing unit, a water tank, an upper water level sensor, a four-time filter and a mineral container, wherein the central processing unit intelligently controls the components and makes the mineral matters quickly dissolved in the water by heating. The method and the device have the advantages that: the alkalescent purified water is produced by a simple method and then the mineral matters are added into the alkalescent purified water; the process is simple, the cost is low, the electric energy and water resources are saved; and the mineral water produced by the method and the device has perfect mouthfeel and is very good for the health of drinkers.
Description
[technical field]
The present invention relates to pure water manufacturing process and equipment, relate in particular to the manufacture method and the device of mineral water.
[background technology]
In the prior art, existing a large amount of water purification machine and electrolyzed water machines.
The water purification machine of prior art structure is too simple, the tap water of input is only carried out simple filtering can produce pure water, and its key problem in technology is routine cleaning and renew cartridge more, and with the quality of assurance pure water, its water quality is rich in mineral substances not.
The electrolyzed water machine of prior art obtains the water that contains microelectrolysis matter through electrolysis, commercially available electrolyzed water machine is when work, produce alkaline water and sour water, both water wasting also took, and people often use in life is alkalescent water, are used for drinking or making tea, in the hope of obtaining good mouthfeel, use seldom for sour water, cause the waste of functions of the equipments.
The electrolyzer result of prior art is comparatively complicated, causes equipment cost to increase, and price is also high, and common people are reluctant that buying acquires.
For example No. the 200780016653.7th, Chinese patent application, disclosed by name " electrolytic water generating device and be used for the membranous electrode group of being with of it " comes to this, the equipment of this patent application is comparatively complicated, needs a bigger cavity to hold these parts, and corresponding cost can be not cheap yet.
People expect a kind of apparatus for generating drinking water of weakly alkaline rich in mineral substances in life.
[summary of the invention]
In order to solve the problems of the prior art, the invention provides a kind of manufacture method and device of mineral water.
Principle of the present invention is: after once filtering, the heating of controlled temperature refilters with activated carbon, necessarily obtain alkalescent water, and then mineral substance is joined, finally obtain mineral water, mineral water mouthfeel of the present invention is very good, healthy very useful to drinking person.
The present invention realizes by adopting following technology:
Implement a kind of manufacture method of mineral water, described method comprises step:
A. power supply is connected, carry out initial setting up, make the central processing unit shielding drink water outlet button and sterilization water outlet button, even this moment, the user pressed this two button, central processing unit does not process yet, central processing unit detects and goes up water level sensor then, and whether last water level sensor output is less than signal;
B. central processing unit controls entering water electromagnetic valve conducting then, tap water is incorporated into strainer No. four times from water-in, in described No. four strainers composite filter element is housed, tap water flows through from the particulate filter core from composite filter element earlier, flows through from first activated carbon cartridge then, filters the chlorine taste, flow through second activated carbon cartridge again, filter spuious taste, flow through the nanofiber filter core then, with the microorganism filtering of volume diameter greater than 0.01 micron; The filtered water outlet of No. four strainers connects the filtered water pipeline, and filtered water is injected water pot;
C. described filtered water enters water pot, when last water level sensor detects water pot and expired, the full signal of water is sent to central processing unit, and the central processing unit controls entering water electromagnetic valve is closed;
D. the cooling-water temperature sensor in the water pot detects the water temperature of filtered water, water temperature signal is transferred to central processing unit, central processing unit is converted to the water temperature data with water temperature signal, simultaneously, central processing unit is patrolled and examined operating panel, check the degree that is provided with that adjusting knob and mineral degree adjusting knob are set, calculate the target water temperature data and deposit toward the water temperature target value;
E. central processing unit is patrolled and examined cooling-water temperature sensor, and central processing unit is compared the water temperature target value in water temperature data and the central processing unit then, calculates the conducting level data of electricradiator driver element, exports to the electricradiator driver element;
F. the electricradiator driver element is accepted the conducting level data, and the conducting degree of decision itself determines to be added in the voltage swing at electricradiator two ends; Electricradiator gets the filtered water in the electrically heated water pot;
G. central processing unit is patrolled and examined cooling-water temperature sensor, and when the water temperature data met or exceeded the water temperature target data, central processing unit output conducting level data was a cutoff, and the electricradiator driver element is received this data, turn-offs the voltage that is added in the electricradiator two ends;
H. this moment, central processing unit drove the reaction power supply, to place the water of the reactive tank of water pot to carry out electrolysis, behind electrolysis time T1, weak base water box and sour water box are equipped with water and finish in the reactive tank, the central processing unit output point is revealed the signal of water pilot lamp, and will drink the water outlet button and sterilization water outlet button enables;
I. this moment, central processing unit was according to the adjusting position of mineral degree adjusting knob on the operating panel, calculated the mineral conducting data of mineral heater driver, and these data are temporary;
J. next, drink the water outlet button if there is the user to press on the operating panel, then the signal of tap water magnetic valve is opened out in central processing unit output, uses the tap water solenoid valve conduction; Central processing unit also outputs to the mineral heater driver with mineral conducting data, makes its conducting, and the mineral heater voltage is applied to mineral well heater two ends; Mineral substance in the mineral heater heats mineral container; Water in the weak base water box flows out by drinking water outlet through secondary filter, mineral container;
K. the user unclamps and drinks the water outlet button, and central processing unit detects this and changes, and the signal of tap water magnetic valve is turn-offed out in output, goes out the tap water closed electromagnetic valve; Central processing unit is turn-offed the mineral heater driver simultaneously;
L. this moment, if there is the user to press sterilization water outlet button on the operating panel, then the signal of sterilized water magnetic valve is opened out in central processing unit output, uses the sterilized water solenoid valve conduction; Sterilized water in the sour water box is flowed out by the sterilization water outlet;
M. the user unclamps sterilization water outlet button, and central processing unit detects this and changes, and the signal of sterilized water magnetic valve is turn-offed out in output, goes out the sterilized water closed electromagnetic valve;
N. descend water level sensor to detect water level in weak base water box and the sour water box simultaneously with two probes, as long as one of them probe detects water level and is lower than prescribed value, following water level sensor just has signal output, and this signal is input to central processing unit;
O. get back to steps A.
In the aforesaid method:
The described water temperature signal of step D is after the A/D conversion, becomes the water temperature data.
In the aforesaid method:
The described water temperature target value of step D is the data curing storage zone of depositing in central processing unit with the binary-coded decimal form.
In the aforesaid method:
The described conducting level data of step D is the temporary storage zone of data of depositing in central processing unit with binary code representation.
One water mill is arranged after the water-in.
According to the manufacturing installation that manufactures and designs a kind of mineral water in the aforesaid method, described device comprises:
One central processing unit comprises that data are solidified the storage zone and data are kept in the storage zone,
One water-in connects entering water electromagnetic valve and No. four strainers successively by pipeline;
One water pot, leaching between the mouth of its bottom and No. four strainers by the filtered water pipe connection, one reactive tank also is set in the described water pot, is divided into weak base water box and sour water box in the described reactive tank, the top of described weak base water box and sour water box has weak base water box inlet and sour water box inlet respectively;
Described water pot also connects pressure release valve;
Water level sensor on one, described upward water level sensor is arranged on the top of water pot inner chamber, is higher than weak base water box inlet and sour water box inlet;
Water level sensor once, described water level sensor down has two probes, places the bottom of weak base water box and sour water box respectively;
One electricradiator, described electricradiator is arranged on the bottom of water pot inner chamber;
One cooling-water temperature sensor, described cooling-water temperature sensor is arranged on the bottom of water pot inner chamber;
One secondary filter is by the bottom of pipe connection at weak base water box;
The outlet of described secondary filter is connected with a mineral container by pipeline;
Described mineral outlet of container goes out the water solenoid valve connection by one and drinks water outlet;
One goes out the sterilized water magnetic valve is connected with bottom with the sour water box by going out the sterilized water pipeline, and the described the other end that goes out the sterilized water magnetic valve connects the sterilization water outlet;
Described electricradiator connects AC power by an electricradiator driver element;
On the described mineral container mineral well heater is set, described mineral well heater connects direct supply by the mineral heater driver;
Described central processing unit connect go up water level sensor, down water level sensor, cooling-water temperature sensor, go out the tap water magnetic valve, go out sterilized water magnetic valve entering water electromagnetic valve, electricradiator driver element, reaction power supply, mineral heater driver and operating panel.
Described data curing has the water temperature target data in the storage zone, and described water temperature target data is to deposit with the binary-coded decimal form; Described data have the water temperature data in the temporary storage zone, and described water temperature data are to deposit with the binary-coded decimal form.
Described installation site of going up water level sensor is higher than weak base water box inlet and sour water box inlet; Between the inwall of described reactive tank and water pot, leave the space, be convenient to upwards gush out by the termination next filtered water of stream of filtered water pipeline.
Described operating panel comprises to be drunk water outlet button and sterilization water outlet button, water outlet pilot lamp, adjusting knob and mineral degree adjusting knob is set, and all is connected with central processing unit.
The mineral substance of fine particle is housed in the described mineral container.
One water mill is arranged after the water-in.
The volume of described weak base water box is greater than the sour water box, and ratio is 3~6: 1.
The invention has the beneficial effects as follows: generate weak-alkaline pure water by simple way, and then mineral substance is joined in the weak-alkaline pure water, technology of the present invention is simple, and cost is low, saves electric energy, saves the water source, feels through the mouth of a river of the present invention's output.
[description of drawings]
Fig. 1 is the manufacture method of a kind of mineral water of the present invention and the systematic square frame principle schematic of device;
Fig. 2 is the manufacture method of a kind of mineral water of the present invention and the water temperature data structure synoptic diagram of device;
Fig. 3 is the manufacture method of a kind of mineral water of the present invention and the water temperature target data structure synoptic diagram of device;
Fig. 4 is the cutoff structural representation of the conducting level data of the manufacture method of a kind of mineral water of the present invention and device;
Fig. 5 is the conduction value structural representation of the conducting level data of the manufacture method of a kind of mineral water of the present invention and device;
Fig. 6 is the synoptic diagram of No. four strainers of the manufacture method of a kind of mineral water of the present invention and device;
Fig. 7 is the connection synoptic diagram of the central processing unit of the manufacture method of a kind of mineral water of the present invention and device;
Fig. 8 is the manufacture method of a kind of mineral water of the present invention and the water mill synoptic diagram of device.
[embodiment]
The present invention is further described below in conjunction with description of drawings and embodiment.
As Fig. 1 to most preferred embodiment of the present invention shown in Figure 8:
Implement a kind of manufacture method of mineral water, described method comprises step:
A. power supply is connected, carry out initial setting up, make central processing unit 100 shieldings drink water outlet button 91 and sterilization water outlet button 94, even this moment, the user pressed this two button, central processing unit 100 does not process yet, central processing unit 100 detects and goes up water level sensor 52 then, and whether last water level sensor 52 outputs are less than signal;
B. central processing unit 100 control entering water electromagnetic valves 22 conductings then, tap water is incorporated into strainer 20 No. four times from water-in 1, in described No. four strainers 20 composite filter element 21 is housed, tap water flows through from the particulate filter core 211 from composite filter element 21 earlier, from first activated carbon cartridge 212, flow through then, filter the chlorine taste, flow through second activated carbon cartridge 213 again, filter spuious taste, flow through nanofiber filter core 214 then, with the microorganism filtering of volume diameter, because the volume of bacterium is 0.1 micron, so by filtering greater than 0.01 micron; The filtered water outlet 218 of No. four strainers 20 connects filtered water pipeline 23, and filtered water is injected water pot 50;
C. described filtered water enters water pot 50, when last water level sensor 52 detects water pot 50 and expired, the full signal of water is sent to central processing unit 100, and central processing unit 100 control entering water electromagnetic valves 22 are closed;
D. the cooling-water temperature sensor in the water pot 50 60 detects the water temperature of filtered water, water temperature signal is transferred to central processing unit 100, central processing unit 100 is converted to water temperature data 83 with water temperature signal, simultaneously, central processing unit 100 is patrolled and examined operating panel 90, check the degree that is provided with that adjusting knob 95 and mineral degree adjusting knob 93 are set, calculate the target water temperature data and deposit toward water temperature target value 84;
E. central processing unit 100 is patrolled and examined cooling-water temperature sensor 60, central processing unit 100 is compared the water temperature target value 84 in water temperature data and the central processing unit 100 then, calculate the conducting level data 85 of electricradiator driver element 80, to 80 outputs of electricradiator driver element;
F. electricradiator driver element 80 is accepted conducting level data 85, and the conducting degree of decision itself determines to be added in the voltage swing at electricradiator 51 two ends; The filtered water that electricradiator 51 gets in the electrically heated water pot 50;
G. central processing unit 100 is patrolled and examined cooling-water temperature sensor 60, when the water temperature data meet or exceed the water temperature target data, central processing unit 100 output conducting level data 85 are cutoff, and electricradiator driver element 80 is received this data, turn-offs the voltage that is added in electricradiator 51 two ends;
H. this moment, power supplys 15 were reacted in central processing unit 100 drivings, to place the water of the reactive tank 10 of water pot 50 to carry out electrolysis, behind electrolysis time T1, weak base water box 102 and sour water box 101 is equipped with water and finishes in the reactive tank 10, central processing unit 100 output points are revealed the signal of water pilot lamp 92, and will drink water outlet button 91 and sterilization water outlet button 94 enables;
I. this moment, central processing unit 100 was according to the adjusting position of mineral degree adjusting knob 93 on the operating panel 90, calculated the mineral conducting data 86 of mineral heater driver 40, and these data are temporary;
J. next, drink water outlet button 91 if there is the user to press on the operating panel 90, then the signal of tap water magnetic valve 77 is opened out in central processing unit 100 outputs, uses 77 conductings of tap water magnetic valve; Central processing unit 100 also outputs to mineral heater driver 40 with mineral conducting data 86, makes its conducting, and the mineral heater voltage is applied to mineral well heater 41 two ends; Mineral substance in the mineral well heater 41 heating mineral containers 70; Water in the weak base water box 102 flows out by drinking water outlet 2 through secondary filter 30, mineral container 70;
K. the user unclamps and drinks water outlet button 91, and central processing unit 100 detects this and changes, and the signal of tap water magnetic valve 77 is turn-offed out in output, goes out tap water magnetic valve 77 and closes; Central processing unit 100 is turn-offed mineral heater driver 40 simultaneously;
L. this moment, if there is the user to press sterilization water outlet button 94 on the operating panel 90, then the signal of sterilized water magnetic valve 78 is opened out in central processing unit 100 outputs, uses 78 conductings of sterilized water magnetic valve; Sterilized water in the sour water box 101 is flowed out by sterilization water outlet 3;
M. the user unclamps sterilization water outlet button 94, and central processing unit 100 detects this and changes, and the signal of sterilized water magnetic valve 78 is turn-offed out in output, goes out sterilized water magnetic valve 78 and closes;
N. descend two probes of water level sensor 53 usefulness to detect water level in weak base water box 102 and the sour water box 101 simultaneously, as long as one of them probe detects water level and is lower than prescribed value, following water level sensor 53 just has signal output, and this signal is input to central processing unit 100;
O. get back to steps A.
In the aforesaid method, the described water temperature signal of step D is after A/D conversion, becomes water temperature data 83.
In the aforesaid method, the described water temperature target value 84 of step D is data curing storage zones of depositing in central processing unit 100 with the binary-coded decimal form.
In the aforesaid method, the described conducting level data 85 of step D is temporary storage zones of data of depositing in central processing unit 100 with binary code representation.
Manufacture and design a kind of manufacturing installation of mineral water according to aforesaid method, described device comprises:
One central processing unit 100 comprises that data are solidified the storage zone and data are kept in the storage zone,
One water-in 1 connects entering water electromagnetic valve 22 and No. four strainers 20 successively by pipeline;
One water pot 50, its bottom is connected by filtered water pipeline 23 with leaching between the mouth 218 of No. four strainers 20, state in the described water pot 50 reactive tank 10 is set, be divided into weak base water box 102 and sour water box 101 in the described reactive tank 10, the top of described weak base water box 102 and sour water box 101 has weak base water box inlet 1021 and sour water box inlet 1011 respectively;
Described water pot 50 also connects pressure release valve 29;
Once water level sensor 53, and described water level sensor 53 down has two probes, places the bottom of weak base water box 102 and sour water box 101 respectively;
One electricradiator 51, described electricradiator 51 is arranged on the bottom of water pot 50 inner chambers;
One cooling-water temperature sensor 60, described cooling-water temperature sensor 60 is arranged on the bottom of water pot 50 inner chambers;
One secondary filter 30 is by the bottom of pipe connection at weak base water box 102;
The outlet of described secondary filter 30 is connected with a mineral container 70 by pipeline;
The outlet of described mineral container 70 goes out water solenoid valve 77 connections by one and drinks water outlet 2;
One goes out sterilized water magnetic valve 78 is connected with bottom with sour water box 101 by going out sterilized water pipeline 12, and the described the other end that goes out sterilized water magnetic valve 78 connects sterilization water outlet 3;
Described electricradiator 51 connects AC power by an electricradiator driver element 80;
On the described mineral container 70 mineral well heater 41 is set, described mineral well heater 41 connects direct supply 8 by mineral heater driver 40;
Described central processing unit 100 connect go up water level sensor 52, down water level sensor 53, cooling-water temperature sensor 60, go out tap water magnetic valve 77, go out sterilized water magnetic valve 78, entering water electromagnetic valve 22, electricradiator driver element 80, reaction power supply 15, mineral heater driver 40 and operating panel 90.
Described data curing has water temperature target data 84 in the storage zone, and described water temperature target data 84 is to deposit with the binary-coded decimal form; Described data have water temperature data 83 in the temporary storage zone, and described water temperature data 83 are to deposit with the binary-coded decimal form.
Described installation site of going up water level sensor 52 is higher than weak base water box inlet 1021 and sour water box inlet 1011; Between the inwall of described reactive tank 10 and water pot 50, leave the space, be convenient to upwards gush out by the termination next filtered water of 231 streams of filtered water pipeline 23.
Described operating panel 90 comprises to be drunk water outlet button 91 and sterilization water outlet button 94, water outlet pilot lamp 92, adjusting knob 95 and mineral degree adjusting knob 93 is set, and all is connected with central processing unit 100.
The volume of described weak base water box 102 is greater than sour water box 101, and ratio is 3~6: 1 for good.
As shown in Figure 1, after the water-in 1 water mill 221 is arranged.
Fig. 8 is the embodiment weary of water mill 221, one mill shell, 229 two ends relative fixed, first motor M 1, second motor M 2, the transmission shaft 223 of transmission shaft 222 drives first mill 224, the second motor M 2 of first motor M 1 drives in second mill, 225, two mills many water holes.
In other embodiments, a motor can only be set.
Enter first mill 224 of high speed rotating by the water of water-in 1 through going into water channel 226, arrive mill water space 228, the second mills 225 at the opposite direction high speed rotating, the water in the mill water space 228 is ground water hole, the water outlet 227 of back from second mill 225 and is flowed out.
The principle of water mill is: scientist discovers that water is to exist with a kind of chain molecule formula structure, and this chain molecule structure is long more, and water quality is poor more.So-called fish and biological nonviable stagnant water are exactly because the very long water quality that just causes that chain structure becomes is aging.
Aging in order to solve water quality, finally make a similar Ancient Chinese through a large amount of experiment people and substituted the water mill that mill grinds grain, come high speed rotating mill water with this water mill, the molecule chain structure of stagnant water changes, and is shortened by long, and stagnant water becomes running water.
The present invention has added a water mill in device, through experiment, same machine has been adorned the water that the machine of water mill is produced, and supports 10 goldfish and still survives in 30 days.Do not adorn the machine of water mill, all death in 4 days of foster 10 goldfish of the water of producing is supported all death in 2 days of 10 goldfish with tap water.
As shown in Figure 1, comprised numerous I/O interfaces in the central processing unit 100, for electricradiator driver element 80 and mineral heater driver 40, central processing unit 100 can be used serial data commands, also can use the parallel data order to go to drive, these all belong to prior art, do not do detailed description at this, if parallel command, each data can be at a driving transistors, control its on off state, the conducting degree of the high-power field-effect transistor of regulating and controlling then, thus realize being added in voltage different at electricradiator 51 and mineral well heater 41 two ends.
The mineral substance of fine particle is housed in the described mineral container 70, and one of embodiment is the jade particulate.
The input terminus of described direct supply 8 connects AC power AC220V.
Water temperature target data 84 shown in Figure 3 is binary-coded decimals, is ten's digit 70.
00001000, a left side is low right high, and the 5th is 1.
Conducting level data 85 shown in Figure 5 is 1 entirely, is exactly the data of thorough conducting.
Entering water electromagnetic valve 22 is connected with the inlet tube 217 of particulate filter core 211.
Above content be in conjunction with concrete preferred implementation to further describing that the present invention did, can not assert that concrete enforcement of the present invention is confined to these explanations.For the general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, can also make some simple deduction or replace, all should be considered as belonging to protection scope of the present invention.
Claims (10)
1. the manufacture method of a mineral water has connected water supply pipe and has been connected power supply based on a mineral water producing apparatus, it is characterized in that described method comprises step:
A. power supply is connected, carry out initial setting up, make central processing unit (100) shielding drink water outlet button (91) and sterilization water outlet button (94), even this moment, the user pressed this two button, central processing unit (100) does not process yet, water level sensor (52) in central processing unit (100) detection then, whether last water level sensor (52) output is less than signal;
B. central processing unit (100) control entering water electromagnetic valve (22) conducting then, tap water is incorporated into No. four strainers (20) from water-in (1), composite filter element (21) is housed in described No. four strainers (20), tap water flows through from the particulate filter core (211) from composite filter element (21) earlier, from first activated carbon cartridge (212), flow through then, filter the chlorine taste, flow through second activated carbon cartridge (213) again, filter spuious taste, flow through nanofiber filter core (214) then, with the microorganism filtering of volume diameter greater than 0.01 micron; The filtered water outlet (218) of No. four strainers (20) connects filtered water pipeline (23), and filtered water is injected water pot (50);
C. described filtered water enters water pot (50), when last water level sensor (52) detects water pot (50) and expired, the full signal of water is sent to central processing unit (100), and central processing unit (100) control entering water electromagnetic valve (22) is closed;
D. the cooling-water temperature sensor (60) in the water pot (50) detects the water temperature of filtered water, water temperature signal is transferred to central processing unit (100), central processing unit (100) is converted to water temperature data (83) with water temperature signal, simultaneously, central processing unit (100) is patrolled and examined operating panel (90), check the degree that is provided with that adjusting knob (95) and mineral degree adjusting knob (93) are set, calculate the target water temperature data and deposit toward water temperature target value (84);
E. central processing unit (100) is patrolled and examined cooling-water temperature sensor (60), central processing unit (100) is compared the water temperature target value (84) in water temperature data and the central processing unit (100) then, calculate the conducting level data (85) of electricradiator driver element (80), export to electricradiator driver element (80);
F. electricradiator driver element (80) is accepted conducting level data (85), and the conducting degree of decision itself determines to be added in the voltage swing at electricradiator (51) two ends; Electricradiator (51) gets the filtered water in the electrically heated water pot (50);
G. central processing unit (100) is patrolled and examined cooling-water temperature sensor (60), when the water temperature data meet or exceed the water temperature target data, central processing unit (100) output conducting level data (85) is a cutoff, electricradiator driver element (80) is received this data, turn-offs the voltage that is added in electricradiator (51) two ends;
H. central processing unit this moment (100) drives reaction power supply (15), to place the water of the reactive tank (10) of water pot (50) to carry out electrolysis, behind electrolysis time T1, middle weak base water box (102) of reactive tank (10) and sour water box (101) are equipped with water and finish, central processing unit (100) output point is revealed the signal of water pilot lamp (92), and will drink water outlet button (91) and the sterilization water outlet button (94) enable;
I. central processing unit this moment (100) has gone up the adjusting position of mineral degree adjusting knob (93) according to operating panel (90), calculates the mineral conducting data (86) of mineral heater driver (40), and these data are temporary;
J. next, drink water outlet button (91) if there is the user to press on the operating panel (90), then the signal of tap water magnetic valve (77) is opened out in central processing unit (100) output, uses tap water magnetic valve (77) conducting; Central processing unit (100) also outputs to mineral heater driver (40) with mineral conducting data (86), makes its conducting, and the mineral heater voltage is applied to mineral well heater (41) two ends; Mineral substance in mineral well heater (41) the heating mineral containers (70); Water in the weak base water box (102) flows out by drinking water outlet (2) through secondary filter (30), mineral container (70);
K. the user unclamps and drinks water outlet button (91), and central processing unit (100) detects this variation, and the signal of tap water magnetic valve (77) is turn-offed out in output, goes out tap water magnetic valve (77) and closes; Central processing unit (100) is turn-offed mineral heater drivers (40) simultaneously;
L. this moment, if there is the user to press sterilization water outlet button (94) on the operating panel (90), then the signal of sterilized water magnetic valve (78) is opened out in central processing unit (100) output, uses sterilized water magnetic valve (78) conducting; Sterilized water in the sour water box (101) is flowed out by sterilization water outlet (3);
M. the user unclamps sterilization water outlet button (94), and central processing unit (100) detects this variation, and the signal of sterilized water magnetic valve (78) is turn-offed out in output, goes out sterilized water magnetic valve (78) and closes;
N. descend water level sensor (53) to detect water level in weak base water box (102) and the sour water box (101) simultaneously with two probes, as long as one of them probe detects water level and is lower than prescribed value, following water level sensor (53) just has signal output, and this signal is input to central processing unit (100);
O. get back to steps A.
2. the manufacture method of mineral water according to claim 1 is characterized in that:
The described water temperature signal of step D is after the A/D conversion, becomes water temperature data (83).
3. the manufacture method of mineral water according to claim 1 is characterized in that:
The described water temperature target value of step D (84) is the data curing storage zone of depositing in central processing unit (100) with the binary-coded decimal form;
The described conducting level data of step D (85) is the temporary storage zone of data of depositing in central processing unit (100) with binary code representation.
4. the manufacture method of mineral water according to claim 1 is characterized in that:
Water-in (1) has a water mill (221) afterwards.
5. the manufacturing installation of a mineral water is characterized in that, described device comprises:
One central processing unit (100) comprises that data are solidified the storage zone and data are kept in the storage zone,
One water-in (1) connects entering water electromagnetic valve (22) and No. four strainers (20) successively by pipeline;
One water pot (50), its bottom is connected by filtered water pipeline (23) with leaching between mouthful (218) of No. four strainers (20), one reactive tank (10) also is set in the described water pot (50), be divided into weak base water box (102) and sour water box (101) in the described reactive tank (10), the top of described weak base water box (102) and sour water box (101) has weak base water box inlet (1021) and sour water box inlet (1011) respectively;
Water level sensor on one (52), described upward water level sensor (52) is arranged on the top of water pot (50) inner chamber, is higher than weak base water box inlet (1021) and sour water box inlet (1011);
Water level sensor (53) once, described water level sensor (53) down has two probes, places the bottom of weak base water box (102) and sour water box (101) respectively;
One electricradiator (51), described electricradiator (51) is arranged on the bottom of water pot (50) inner chamber;
One cooling-water temperature sensor (60), described cooling-water temperature sensor (60) is arranged on the bottom of water pot (50) inner chamber;
One secondary filter (30) is by the bottom of pipe connection at weak base water box (102);
The outlet of described secondary filter (30) is connected with a mineral container (70) by pipeline;
The outlet of described mineral container (70) goes out water solenoid valve (77) connection by one and drinks water outlet (2);
One goes out sterilized water magnetic valve (78) is connected with bottom with sour water box (101) by going out sterilized water pipeline (12), and the described the other end that goes out sterilized water magnetic valve (78) connects sterilization water outlet (3);
Described electricradiator (51) connects AC power by an electricradiator driver element (80);
Mineral well heater (41) is set on the described mineral container (70), and described mineral well heater (41) connects direct supply (8) by mineral heater driver (40);
Water level sensor (52) in described central processing unit (100) connection, down water level sensor (53), cooling-water temperature sensor (60), go out tap water magnetic valve (77), go out sterilized water magnetic valve (78), entering water electromagnetic valve (22), electricradiator driver element (80), reaction power supply (15), mineral heater driver (40) and operating panel (90).
6. the manufacturing installation of mineral water according to claim 5 is characterized in that:
Described data curing has water temperature target data (84) in the storage zone, and described water temperature target data (84) is to deposit with the binary-coded decimal form; Described data have water temperature data (83) in the temporary storage zone, and described water temperature data (83) are to deposit with the binary-coded decimal form.
7. the manufacturing installation of mineral water according to claim 5 is characterized in that:
Described installation site of going up water level sensor (52) is higher than weak base water box inlet (1021) and sour water box inlet (1011);
Described water pot (50) is stated and is connected pressure release valve (29);
Between the inwall of described reactive tank (10) and water pot (50), leave the space, be convenient to upwards gush out by termination (231) the next filtered water of stream of filtered water pipeline (23).
8. the manufacturing installation of mineral water according to claim 5 is characterized in that:
Described operating panel (90) comprise drink water outlet button (91) and the sterilization water outlet button (94), water outlet pilot lamp (92), adjusting knob (95) and mineral degree adjusting knob (93) are set, all be connected with central processing unit (100).
9. the manufacturing installation of mineral water according to claim 5 is characterized in that:
Water-in (1) has a water mill (221) afterwards.
10. the manufacturing installation of mineral water according to claim 5 is characterized in that:
The volume of described weak base water box (102) is greater than sour water box (101), and ratio is 3~6: 1.
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| Application Number | Priority Date | Filing Date | Title |
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| CN 201010232466 CN101913722B (en) | 2010-07-20 | 2010-07-20 | Method and device for preparing mineral water |
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| Application Number | Priority Date | Filing Date | Title |
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| CN 201010232466 CN101913722B (en) | 2010-07-20 | 2010-07-20 | Method and device for preparing mineral water |
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| CN101913722B CN101913722B (en) | 2013-02-27 |
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| CN 201010232466 Active CN101913722B (en) | 2010-07-20 | 2010-07-20 | Method and device for preparing mineral water |
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| CN104950092A (en) * | 2014-06-19 | 2015-09-30 | 佛山市云米电器科技有限公司 | Water purifying device and work method thereof |
| CN105152276A (en) * | 2015-08-30 | 2015-12-16 | 罗民雄 | Multifunctional filmless water electrolyzing device capable of draining drinking water and daily consumed water |
| CN106698782A (en) * | 2016-11-07 | 2017-05-24 | 四会市恒星智能科技有限公司 | Intelligent water purifier based on human-machine interaction system |
| CN113044947A (en) * | 2021-01-26 | 2021-06-29 | 杭州万育生物科技有限公司 | Microbial mineral nutrient water and preparation method and application thereof |
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| CN105152276A (en) * | 2015-08-30 | 2015-12-16 | 罗民雄 | Multifunctional filmless water electrolyzing device capable of draining drinking water and daily consumed water |
| CN106698782A (en) * | 2016-11-07 | 2017-05-24 | 四会市恒星智能科技有限公司 | Intelligent water purifier based on human-machine interaction system |
| CN113044947A (en) * | 2021-01-26 | 2021-06-29 | 杭州万育生物科技有限公司 | Microbial mineral nutrient water and preparation method and application thereof |
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| Publication number | Publication date |
|---|---|
| CN101913722B (en) | 2013-02-27 |
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Address after: 523000 Guangdong Province, Dongguan City Zhangmutou Jinhe Industrial Zone No. 3 Jin Wei Lu Patentee after: Guangdong Fuxing Technology Co., Ltd. Address before: 523628 Guangdong Province, Dongguan City Zhangmutou Jinhe Industrial Zone No. 3 Jin Wei Lu Patentee before: Dongguan Zhicheng Kangfuxing Industrial Co., Ltd. |