CN108386993A - Intelligent boiling water device - Google Patents
Intelligent boiling water device Download PDFInfo
- Publication number
- CN108386993A CN108386993A CN201810172739.9A CN201810172739A CN108386993A CN 108386993 A CN108386993 A CN 108386993A CN 201810172739 A CN201810172739 A CN 201810172739A CN 108386993 A CN108386993 A CN 108386993A
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- Prior art keywords
- water tank
- solenoid valve
- normally closed
- layer water
- mouths
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H1/00—Water heaters, e.g. boilers, continuous-flow heaters or water-storage heaters
- F24H1/18—Water-storage heaters
- F24H1/185—Water-storage heaters using electric energy supply
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H9/00—Details
- F24H9/18—Arrangement or mounting of grates or heating means
- F24H9/1809—Arrangement or mounting of grates or heating means for water heaters
- F24H9/1818—Arrangement or mounting of electric heating means
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H9/00—Details
- F24H9/20—Arrangement or mounting of control or safety devices
- F24H9/2007—Arrangement or mounting of control or safety devices for water heaters
- F24H9/2014—Arrangement or mounting of control or safety devices for water heaters using electrical energy supply
- F24H9/2021—Storage heaters
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/40—Solar thermal energy, e.g. solar towers
Abstract
Intelligent boiling water device, wherein, tap water water intake end is connect with the P mouths of the second 2/2-way normally closed solenoid valve, the first 2/2-way normally closed solenoid valve, the A mouths of first 2/2-way normally closed solenoid valve are connect with the arrival end of solar thermal collector, solar thermal collector outlet end is connect with the entrance of internal layer water tank, the P of the outlet and two-bit triplet solenoid valve of internal layer water tank1Mouth connection;The A mouths of second 2/2-way normally closed solenoid valve are connect with the entrance of outer layer water tank, the P of the outlet and two-bit triplet solenoid valve of outer layer water tank2Mouth connection;And the periphery of internal layer water tank is provided with heat-exchange system, the break-make that two-bit triplet solenoid valve, three position four-way electromagnetic valve and third 2/2-way normally closed solenoid valve are controlled by microcontroller controls heat-exchange system and heating tube with this, three kinds of water temperatures are exported for different life requirements, have the advantages that green energy resource, intelligent control, the convenient and efficient and energy recycle, it has excellent performance, water-saving result is notable, has a extensive future.
Description
Technical field
The present invention relates to drinking device technical field more particularly to a kind of intelligent boiling water devices.
Background technology
Popularity rate of the boiler in China is high, and according to statistics, the hot water of campus about 90% is drunk directly from boiling water
Device, meanwhile, the power consumption of boiler also occupies larger proportion in school's energy consumption.Boiler currently on the market mainly has boiling
Formula, instant heating type and step-by-step movement, water boiler are to store cold-hot water separating in box house, but it is existing " thousand boiling water " easily occur
As, stepping water boiler successively moisturizing is gradually heated, instant heating type boiler plug and play, do not use not power consumption, but power compared with
Greatly.Wherein, instant heating type boiler is the most extensive in campus is applied, but it has a single function, and can only provide boiling water, in turn result in energy
Amount waste.
At the same time, building top layer possesses good illumination condition, especially campus student apartment and books in campus
Shop top layer possesses wide space, is usually in idle, and summer strong sunlight directly radiates top layer, seriously affects student and lives
The comfort level of place, therefore how to efficiently use in the built-in wide space of object top layer of building in campus with sufficient luminous energy, and then meet and learn
Raw demand of domestic water, realization is energy-saving to have become technical problem urgently to be resolved hurrily.
Invention content
Technical problem solved by the invention is to provide a kind of intelligent boiling water device, to solve in above-mentioned background technology
Disadvantage.
Technical problem solved by the invention is realized using following technical scheme:
Intelligent boiling water device, including be mounted with the intelligent terminal of APP, microcontroller, internal layer water tank, outer layer water tank, add
Heat pipe, digital voltage regulator, three position four-way electromagnetic valve, water outlet, third 2/2-way normally closed solenoid valve, heat-exchange system, second
2/2-way normally closed solenoid valve, the first 2/2-way normally closed solenoid valve, solar thermal collector and tap water water intake end, wherein from
Water water intake end is connected with the P mouths of the second 2/2-way normally closed solenoid valve, the first 2/2-way normally closed solenoid valve respectively by pipeline
Connect, the A mouths of the first 2/2-way normally closed solenoid valve are connect with the arrival end of solar thermal collector, solar thermal collector outlet end with
The entrance of internal layer water tank connects, the P of the outlet and two-bit triplet solenoid valve of internal layer water tank1Mouth connection;Second 2/2-way
The A mouths of normally closed solenoid valve are connect with the entrance of outer layer water tank, the P of the outlet and two-bit triplet solenoid valve of outer layer water tank2Mouthful
Connection;Heat-exchange system includes level-one heat exchanging pipe and two level heat exchanging pipe, and internal layer water tank is arranged in outer layer water tank
Interior, level-one heat exchanging pipe is placed in internal layer water tank periphery, and two level heat exchanging pipe is placed in level-one heat exchanging pipe periphery;Two
The A mouths of three-way magnetic valve are connect with the entrance of heating tube, and the outlet of heating tube and the B mouths of three position four-way electromagnetic valve connect, three
The T mouths of four way solenoid valve are connect with water outlet, arrival end with level-one heat exchanging pipe of the P mouths of three position four-way electromagnetic valve, third
The P mouths of 2/2-way normally closed solenoid valve connect, the entrance of the A mouth and two level heat exchanging pipe of third 2/2-way normally closed solenoid valve
End connection, and the outlet end of two level heat exchanging pipe and level-one heat exchanging pipe is connect with the A of three position four-way electromagnetic valve mouths respectively;
It is provided with the first temperature sensor and the second liquid level sensor in outer layer water tank, second temperature biography is provided in internal layer water tank
Sensor and the first liquid level sensor;Intelligent terminal, the first temperature sensor, second temperature sensor, two-bit triplet electromagnetism simultaneously
Valve, three position four-way electromagnetic valve, third 2/2-way normally closed solenoid valve, the first liquid level sensor, the second liquid level sensor, second liang
Two logical normally closed solenoid valves of position, the first 2/2-way normally closed solenoid valve are connect with microcontroller respectively.
In the present invention, solar thermal collector is to be connected in series with.
In the present invention, it is provided with water purifier between solar thermal collector outlet end and the entrance of internal layer water tank.
In the present invention, level-one heat exchanging pipe is placed in the periphery of internal layer water tank, two level heat exchanging pipe in the shape of a spiral
It is placed in the periphery of level-one heat exchanging pipe in the shape of a spiral.
In the present invention, multiple fins, and fin are respectively arranged on level-one heat exchanging pipe and two level heat exchanging pipe
For helical baffles three-dimensional rib fin, spiral stream guidance keeps the velocity flow profile of water uniform, to eliminate the air-teturning mixed phenomenon of water flowing, in turn
Reduce fluid flowing dead zone, fluid make in helical flow path it is nonopiate stream, efficient hardening heat transfer efficiency.
In the present invention, heating tube is internally provided with electrode for heating, and heats outer tube layer inlet by pure dioxy
SiClx crystal is made, and centre is provided with plated film, and heating outer tube layer exit is provided with silver-coated electrode coating.
In the present invention, digital voltage regulator is provided in heating tube, and digital voltage regulator is connect with microcontroller, microcontroller root
It is fed back according to the water temperature signal of the first temperature sensor and second temperature sensor detection, is adjusted heat by digital voltage regulator in real time
The heating voltage of pipe, to ensure that the water for flowing into heating tube is heated to boiling temperature with minimum electric energy loss.
In the present invention, internal layer water tank is that thermal insulation material is made with outer layer water tank.
In the present invention, internal layer water tank and outer layer water tank are telescoping structure.
Advantageous effect:The present invention utilize mounted on Campus buildingss object top layer solar thermal collector combination heat-exchange system,
The ectonexine water tank and intelligent terminal of telescoping structure, three kinds of water temperatures of output have the following advantages that for life requirement:
(1) water temperature is promoted to 50~60 DEG C by green energy resource using solar thermal collector, effectively reduces heating water to boiling
Energy needed for water also reduces the pollution to environment to energy saving cost;
(2) intelligent control, according to water temperature needed for user, Intelligent Single-Chip Based adjusts heating tube power, to improve to greatest extent
Efficiency;
(3) convenient and efficient, user only needs to be discharged by intelligent terminal APP inputs with coolant-temperature gage and water consumption, together
When using intelligent terminal APP as platform, break administration of energy conservation participate in bottleneck, reconstruct administration of energy conservation channel, to improve the energy saving ginseng of the public
With degree;
(4) energy recycles, and boiling water is direct drinking by heat-exchange system cooling, while making the water temperature liter in outer layer water tank
Height, and then the extra energy transmission of internal layer water tank boiling water is effectively improved into the efficiency of energy utilization to outer layer water tank;
It has excellent performance, water-saving result is notable, has a extensive future.
Description of the drawings
Fig. 1 is the structural schematic diagram of presently preferred embodiments of the present invention.
Specific implementation mode
In order to make the technical means, the creative features, the aims and the efficiencies achieved by the present invention be easy to understand, tie below
Conjunction is specifically illustrating, and the present invention is further explained.
Referring to the intelligent boiling water device of Fig. 1, including it is mounted with the intelligent terminal 1, microcontroller 2, the first temperature sensor of APP
3, second temperature sensor 4, internal layer water tank 5, outer layer water tank 6, two-bit triplet solenoid valve 7, heating tube 8, digital voltage regulator
9, three position four-way electromagnetic valve 10, water outlet 11, third 2/2-way normally closed solenoid valve 12, the first liquid level sensor 13, the second liquid
Level sensor 14, two level heat exchanging pipe 15, level-one heat exchanging pipe 16, water purifier 17, the second 2/2-way normally closed solenoid valve
18, the first 2/2-way normally closed solenoid valve 19, solar thermal collector 20 and tap water water intake end 21, wherein tap water water intake end
21 are separately connected the P mouths of the second 2/2-way normally closed solenoid valve 18 and the first 2/2-way normally closed solenoid valve 19 by pipeline, the
The arrival end of the A mouths connection solar thermal collector 20 of one or two two logical normally closed solenoid valve 19, solar thermal collector 20 itself use
Series system connects, and 20 outlet end of solar thermal collector connects the entrance of water purifier 17, the outlet connection internal layer storage of water purifier 17
The entrance of water tank 5, the P of the outlet connection two-bit triplet solenoid valve 7 of internal layer water tank 51Mouthful;Second 2/2-way normally closed solenoid valve
The entrance of 18 A mouths connection outer layer water tank 6, the P of the outlet connection two-bit triplet solenoid valve 7 of outer layer water tank 62Mouthful;Two
The entrance of the A mouths connection heating tube 8 of three-way magnetic valve 7, the B mouths of the outlet connection three position four-way electromagnetic valve 10 of heating tube 8, three
The T mouths of four way solenoid valve 10 connect water outlet 11, the entrance of the P mouths connection level-one heat exchanging pipe 16 of three position four-way electromagnetic valve 10
End, meanwhile, the P mouths of three position four-way electromagnetic valve 10 connect the P mouths of third 2/2-way normally closed solenoid valve 12, and third 2/2-way is normal
Close the arrival end of the A mouths connection two level heat exchanging pipe 15 of solenoid valve 12, two level heat exchanging pipe 15 and level-one heat exchanging pipe
16 outlet end is separately connected the A mouths of three position four-way electromagnetic valve 10;Internal layer water tank 5 is set in outer layer water tank 6, level-one heat
Exchange pipeline 16 is placed in outer layer water tank 6 and spiral is set to the periphery of internal layer water tank 5, and two level heat exchanging pipe 15 is placed in
In outer layer water tank 6 and spiral is set to the periphery of level-one heat exchanging pipe 16;The first temperature biography is provided in outer layer water tank 6
Sensor 3 and the second liquid level sensor 14 are provided with second temperature sensor 4 and the first liquid level sensor 13 in internal layer water tank 5,
Digital voltage regulator 9 is provided in heating tube 8;Intelligent terminal 1, the first temperature sensor 3, second temperature sensor 4, two-bit triplet
Solenoid valve 7, digital voltage regulator 9, three position four-way electromagnetic valve 10, third 2/2-way normally closed solenoid valve 12, the first liquid level sensor
13, the second liquid level sensor 14, the second 2/2-way normally closed solenoid valve 18, the first 2/2-way normally closed solenoid valve 19 respectively with list
Piece machine 2 connects.
In the present embodiment, heating tube 8 is internally provided with electrode for heating, and 8 outer layer inlet of heating tube is by pure
Silica crystals are made, and centre is provided with plated film, and 8 outer layer exit of heating tube is provided with silver-coated electrode coating.
In the present embodiment, third 2/2-way normally closed solenoid valve 12, the second 2/2-way normally closed solenoid valve 18 and first
2/2-way normally closed solenoid valve 19 be normally off, two-bit triplet solenoid valve 7 under normal conditions, the P of two-bit triplet solenoid valve 71Mouth and A
Mouthful connection, 10 normality Median Function of three position four-way electromagnetic valve is that tetra- ports A, B, P, T are mutually closed, internal layer water tank 5 with it is outer
Layer water tank 6 is mutually disconnected independently of each other;System initialization is carried out after intelligent boiling water device installs, microcontroller 2 controls
First 2/2-way normally closed solenoid valve 19 it is electric with connect the first 2/2-way normally closed solenoid valve 19 P mouths and A mouthfuls, tap water into
Enter after solar thermal collector 20 heats and be delivered to water purifier 17, internal layer water tank 5, internal layer storage are delivered to after being handled by water purifier 17
Water in water tank 5 is spare into heating tube 8 through two-bit triplet solenoid valve 7, when the water in internal layer water tank 5 reaches upper limit set value
When, microcontroller 2 controls 19 dead electricity of the first 2/2-way normally closed solenoid valve to disconnect the P mouths of the first 2/2-way normally closed solenoid valve 19
With A mouthfuls, at the same time, microcontroller 2 control the second 2/2-way normally closed solenoid valve 18 it is electric with connect the second 2/2-way it is normally closed
The P mouths of solenoid valve 18 and A mouthfuls, tap water enters outer layer water tank 6, when the water in outer layer water tank 6 reaches upper limit set value,
Microcontroller 2 controls 18 dead electricity of the second 2/2-way normally closed solenoid valve to disconnect the P mouths and A of the second 2/2-way normally closed solenoid valve 18
Mouthful, system initialization is completed at this time, and the water in internal layer water tank 5 is in atural beat swap status with the water in outer layer water tank 6,
Exportable three kinds of water quality is for different life requirements, and 1, the life warm water without high-temperature heating, 2, after high-temperature heating
High temperature drinking water, 3, the direct drinking (direct drinking temperature is at 30~50 DEG C) of the processing that cools down again after high-temperature heating, specific control step
It is rapid as follows:
1, life warm water is obtained
When sending out life warm water signal by intelligent terminal 1, microcontroller 2 is sent out according to the instruction of intelligent terminal 1
Signal instruction control 10 left end electromagnet of three position four-way electromagnetic valve obtain it is electric with connect three position four-way electromagnetic valve 10 B mouths and T mouthfuls, it is interior
Water in layer water tank 5 is supplied to make with three position four-way electromagnetic valve 10 through two-bit triplet solenoid valve 7, heating tube 8 by the output of water outlet 11
With;
2, high temperature drinking water is obtained
When sending out high temperature by intelligent terminal 1 and drinking water signal, microcontroller 2 is according to the instruction of intelligent terminal 1, acquisition the
In the internal layer water tank 5 that temperature data and second temperature sensor 4 detect in the outer layer water tank 6 of one temperature sensor 3 detection
Temperature data, if the water temperature in internal layer water tank 5, higher than the water temperature in outer layer water tank 6, two-bit triplet solenoid valve 7, which is in, to be lost
Electricity condition, the water in internal layer water tank 5 is flowed into through two-bit triplet solenoid valve 7 in heating tube 8, if the water temperature in outer layer water tank 6
Higher than the water temperature in internal layer water tank 5, then microcontroller 2 control two-bit triplet solenoid valve 7 in electricity condition to connect two three
The P of three-way electromagnetic valve 72Mouthful and A mouthful, make water in outer layer water tank 6 through in the inflow heating tube 8 of two-bit triplet solenoid valve 7, at this time by
Microcontroller 2 exports after controlling the water to fluidized state that the heating of heating tube 8 flows into heating tube 8 by digital voltage regulator 9, while single
Piece machine 2 control 10 left end electromagnet of three position four-way electromagnetic valve obtain it is electric with connect three position four-way electromagnetic valve 10 B mouths and T mouthfuls, make add
The high temperature drinking water exported in heat pipe 8 is exported by water outlet 11 for using through three position four-way electromagnetic valve 10;
3, direct drinking is obtained
When intelligent terminal 1 sends out direct drinking signal, microcontroller 2 is according to the instruction of intelligent terminal 1, acquisition the first temperature biography
Temperature data in the internal layer water tank 5 that temperature data and second temperature sensor 4 detect in the outer layer water tank 6 that sensor 3 detects,
If the water temperature in internal layer water tank 5 is higher than the water temperature in outer layer water tank 6, two-bit triplet solenoid valve 7 is in power failure state, interior
Water in layer water tank 5 is flowed into through two-bit triplet solenoid valve 7 in heating tube 8, if the water temperature in outer layer water tank 6 is stored up higher than internal layer
Water temperature in water tank 5, then microcontroller 2 control two-bit triplet solenoid valve 7 in electricity condition to connect two-bit triplet solenoid valve 7
P2Mouthful and A mouthful, make water in outer layer water tank 6 through in the inflow heating tube 8 of two-bit triplet solenoid valve 7, being passed through at this time by microcontroller 2
Digital voltage regulator 9 exports after controlling the water to fluidized state that the heating of heating tube 8 flows into heating tube 8, while the control of microcontroller 2 three
10 right end electromagnet of position four-way solenoid valve obtains electric so that the B mouths of three position four-way electromagnetic valve 10 are connected with P mouthfuls, A mouthfuls with T mouthfuls;When
When water temperature is less than pre-set value in one temperature sensor 3 detection outer layer water tank 6, third 2/2-way normally closed solenoid valve 12 is in
Power failure state, the interior high-temperature water exported of heating tube 8 are directly inputted by the B mouths input of three position four-way electromagnetic valve 10 after P mouthfuls of output
To level-one heat exchanging pipe 16, after level-one heat exchanging pipe 16 carries out heat exchange with the water in outer layer water tank 6, then by three
The A mouths input of four way solenoid valve 10 is exported through T mouthfuls, is exported by water outlet 11 for using;When the first temperature sensor 3 detects outer layer
When water temperature is higher than pre-set value in water tank 6, microcontroller 2 control third 2/2-way normally closed solenoid valve 12 in electricity condition with
Connect third 2/2-way normally closed solenoid valve 12 P mouths and A mouthful, the high-temperature water of the interior output of heating tube 8 is by three position four-way electromagnetic valve
10 B mouths input is after P mouthfuls of output, and in part input level-one heat exchanging pipe 16, another part is normal through third 2/2-way
It closes after solenoid valve 12 shunts in input two level heat exchanging pipe 15, in two level heat exchanging pipe 15 and level-one heat exchanging pipe 16
High-temperature water simultaneously in outer layer water tank 6 water carry out heat exchange after, then by three position four-way electromagnetic valve 10 A mouths input through T mouthfuls
Output is exported by water outlet 11 for using;
Microcontroller 2 is fed back according to the first temperature sensor 3 and the water temperature signal that second temperature sensor 4 detects, logical in real time
The heating voltage that digital voltage regulator 9 adjusts heating tube 8 is crossed, to ensure that the water of heating tube 8 will be flowed into minimum electric energy loss
It is heated to boiling temperature;When the water level of the first liquid level sensor 13 detection internal layer water tank 5 is less than lower limit pre-set value, monolithic
Machine 2 controls the first 2/2-way normally closed solenoid valve 19 and obtains the electric P mouths with the first 2/2-way normally closed solenoid valve 19 of connection and A mouthfuls,
Tap water enters solar thermal collector 20 and the heating in solar thermal collector 20 is pushed to lay in water after the processing of water purifier 17
It is delivered to internal layer water tank 5 to compensate, when the water level of internal layer water tank 5 reaches upper limit pre-set value again, microcontroller 2 is controlled
Make 19 dead electricity of the first 2/2-way normally closed solenoid valve with disconnect the first 2/2-way normally closed solenoid valve 19 P mouths and A mouthful, stop benefit
5 water of internal layer water tank is filled, so on circulate;Under the water level of the second liquid level sensor 14 detection outer layer water tank 6 is less than
When limiting pre-set value, the second 2/2-way normally closed solenoid valve 18 of control of microcontroller 2 obtains electric to connect the normally closed electricity of the second 2/2-way
The P mouths of magnet valve 18 and A mouthfuls, tap water enters outer layer water tank 6 and compensates, on the water level of outer layer water tank 6 reaches again
When limiting pre-set value, microcontroller 2 controls 18 dead electricity of the second 2/2-way normally closed solenoid valve to disconnect the normally closed electricity of the second 2/2-way
The P mouths of magnet valve 18 and A mouthful stop supplementing 6 water of outer layer water tank, so on circulate.
The above shows and describes the basic principles and main features of the present invention and the advantages of the present invention.The technology of the industry
Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and the above embodiments and description only describe this
The principle of invention, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these changes
Change and improvement all fall within the protetion scope of the claimed invention.The claimed scope of the invention by appended claims and its
Equivalent thereof.
Claims (9)
1. intelligent boiling water device, including be mounted with the intelligent terminal of APP, microcontroller, internal layer water tank, outer layer water tank, heat
Pipe, digital voltage regulator, three position four-way electromagnetic valve, water outlet, third 2/2-way normally closed solenoid valve, heat-exchange system, second liang
Two logical normally closed solenoid valves of position, the first 2/2-way normally closed solenoid valve, solar thermal collector and tap water water intake end, feature exist
In, tap water water intake end is connect with the P mouths of the second 2/2-way normally closed solenoid valve, the first 2/2-way normally closed solenoid valve respectively,
The A mouths of first 2/2-way normally closed solenoid valve are connect with the arrival end of solar thermal collector, solar thermal collector outlet end with it is interior
The entrance connection of layer water tank, the P of the outlet and two-bit triplet solenoid valve of internal layer water tank1Mouth connection;Second 2/2-way is normal
The A mouths for closing solenoid valve are connect with the entrance of outer layer water tank, the P of the outlet and two-bit triplet solenoid valve of outer layer water tank2Mouth is even
It connects;Heat-exchange system includes level-one heat exchanging pipe and two level heat exchanging pipe, and internal layer water tank is arranged in outer layer water tank,
Level-one heat exchanging pipe is placed in internal layer water tank periphery, and two level heat exchanging pipe is placed in level-one heat exchanging pipe periphery;Two three
The A mouths of three-way electromagnetic valve are connect with the entrance of heating tube, and the outlet of heating tube and the B mouths of three position four-way electromagnetic valve connect, three four
The T mouths of three-way electromagnetic valve are connect with water outlet, arrival end with level-one heat exchanging pipe of the P mouths of three position four-way electromagnetic valve, third two
The P mouths connection of two logical normally closed solenoid valves of position, the arrival end of the A mouth and two level heat exchanging pipe of third 2/2-way normally closed solenoid valve
Connection, and the outlet end of two level heat exchanging pipe and level-one heat exchanging pipe is connect with the A of three position four-way electromagnetic valve mouths respectively;Outside
It is provided with the first temperature sensor and the second liquid level sensor in layer water tank, second temperature sensing is provided in internal layer water tank
Device and the first liquid level sensor;Simultaneously intelligent terminal, the first temperature sensor, second temperature sensor, two-bit triplet solenoid valve,
Three position four-way electromagnetic valve, third 2/2-way normally closed solenoid valve, the first liquid level sensor, the second liquid level sensor, the second two
Two logical normally closed solenoid valves, the first 2/2-way normally closed solenoid valve are connect with microcontroller respectively.
2. intelligence boiling water device according to claim 1, which is characterized in that solar thermal collector is to be connected in series with.
3. intelligence boiling water device according to claim 1, which is characterized in that stored up in solar thermal collector outlet end and internal layer
It is provided with water purifier between the entrance of water tank.
4. intelligence boiling water device according to claim 1, which is characterized in that in level-one heat exchanging pipe is placed in the shape of a spiral
The periphery of layer water tank, two level heat exchanging pipe are placed in the periphery of level-one heat exchanging pipe in the shape of a spiral.
5. intelligence boiling water device according to claim 1, which is characterized in that level-one heat exchanging pipe and two level heat-exchange tube
Multiple fins are respectively arranged on road, and fin is helical baffles three-dimensional rib fin.
6. intelligence boiling water device according to claim 1, which is characterized in that heating tube is internally provided with electricity for heating
Pole, and heat outer tube layer inlet and be made of pure silicon dioxide crystal, centre is provided with plated film, the setting of heating outer tube layer exit
There is silver-coated electrode coating.
7. intelligence boiling water device according to claim 1, which is characterized in that digital voltage regulator is provided in heating tube, and
Digital voltage regulator is connect with microcontroller.
8. intelligence boiling water device according to claim 1, which is characterized in that internal layer water tank is to protect with outer layer water tank
Adiabator is made.
9. intelligence boiling water device according to claim 1, which is characterized in that internal layer water tank is sleeve with outer layer water tank
Formula structure.
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CN108386993B CN108386993B (en) | 2021-03-23 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108344168A (en) * | 2018-03-01 | 2018-07-31 | 桂林理工大学 | The intelligent boiling water device of control function is recycled with boiling water thermal energy |
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