CN108387003A - A kind of intelligence boiling water control system - Google Patents

Abstract

A kind of intelligence boiling water control system, 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 level-one heat exchanging pipe and two level heat exchanging pipe, 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 level-one heat exchanging pipe and two level heat exchanging pipe and heating tube with this, three kinds of water temperatures are exported for life requirement, have the advantages that green energy resource, intelligent control, the convenient and efficient and energy recycle.

Description

A kind of intelligence boiling water control system

Technical field

The present invention relates to domestic water control technology field more particularly to a kind of intelligent boiling water control systems.

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 control system, to solve above-mentioned background technology In disadvantage.

Technical problem solved by the invention is realized using following technical scheme：

A kind of intelligence boiling water control system, including it is mounted with the intelligent terminal of APP, microcontroller, internal layer water tank, outer layer storage Water tank, heating tube, digital voltage regulator, three position four-way electromagnetic valve, water outlet, third 2/2-way normally closed solenoid valve, level-one heat are handed over Change pipeline, two level heat exchanging pipe, the second 2/2-way normally closed solenoid valve, the first 2/2-way normally closed solenoid valve, solar energy collection Hot device and tap water water intake end, wherein tap water water intake end by pipeline respectively with the second 2/2-way normally closed solenoid valve, first The P mouths of 2/2-way normally closed solenoid valve connect, the arrival end of the A mouth and solar thermal collector of the first 2/2-way normally closed solenoid valve Connection, solar thermal collector outlet end are connect with the entrance of internal layer water tank, outlet and the two-bit triplet electromagnetism of internal layer water tank The P of valve₁Mouth connection；The A mouths of second 2/2-way normally closed solenoid valve are connect with the entrance of outer layer water tank, and outer layer water tank goes out The P of mouth and two-bit triplet solenoid valve₂Mouth connection；Internal layer water tank is arranged in outer layer water tank, and level-one heat exchanging pipe is placed in Internal layer water tank periphery, two level heat exchanging pipe are placed in level-one heat exchanging pipe periphery；The A mouths of two-bit triplet solenoid valve and heating The entrance of pipe connects, and the outlet of heating tube and the B mouths of three position four-way electromagnetic valve connect, T mouths and the water outlet of three position four-way electromagnetic valve End connection, the P mouths of three position four-way electromagnetic valve and the arrival end of level-one heat exchanging pipe, the P of third 2/2-way normally closed solenoid valve Mouth connection, the A mouths of third 2/2-way normally closed solenoid valve are connect with the arrival end of two level heat exchanging pipe, and two level heat-exchange tube The outlet end of road and level-one heat exchanging pipe is connect with the A of three position four-way electromagnetic valve mouths respectively, and digital tune is provided in heating tube Depressor；It is provided with the first temperature sensor and the second liquid level sensor in outer layer water tank, second is provided in internal layer water tank Temperature sensor and the first liquid level sensor；Simultaneously intelligent terminal, the first temperature sensor, second temperature sensor, two three Three-way electromagnetic valve, three position four-way electromagnetic valve, digital voltage regulator, third 2/2-way normally closed solenoid valve, the first liquid level sensor, second Liquid level sensor, the second 2/2-way normally closed solenoid valve, the first 2/2-way normally closed solenoid valve are connect with microcontroller respectively；

And third 2/2-way normally closed solenoid valve, the second 2/2-way normally closed solenoid valve and the normally closed electromagnetism of the first 2/2-way Valve is normally off, two-bit triplet solenoid valve under normal conditions, the P of two-bit triplet solenoid valve₁Mouth is connect with A mouthfuls, 3-position 4-way electromagnetism Valve normality Median Function is that tetra- ports A, B, P, T are mutually closed, and internal layer water tank does not connect mutually independently of each other with outer layer water tank It is logical；System initialization is then carried out, microcontroller the first 2/2-way normally closed solenoid valve of control obtains electric to connect the first 2/2-way The P mouths of normally closed solenoid valve with A mouthful, tap water enter solar thermal collector heat after is delivered to internal layer water tank, internal layer water tank Interior water enters that heating tube is spare through two-bit triplet solenoid valve, when the water in internal layer water tank reaches upper limit set value, monolithic Machine controls the first 2/2-way normally closed solenoid valve dead electricity to disconnect P mouths of the first 2/2-way normally closed solenoid valve and A mouthfuls, together with this When, microcontroller controls the second 2/2-way normally closed solenoid valve and obtains electric P mouths and A with the second 2/2-way normally closed solenoid valve of connection Mouthful, tap water enters outer layer water tank, and when the water in outer layer water tank reaches upper limit set value, microcontroller controls the second two Two logical normally closed solenoid valve dead electricity are to disconnect the P mouths of the second 2/2-way normally closed solenoid valve and A mouthful, system initialization completion at this time, Water in internal layer water tank is in atural beat swap status with the water in outer layer water tank, and three kinds of water quality of output are for different lifes Demand living, specific rate-determining steps are as follows：

1, life warm water is obtained

When sending out life warm water signal by intelligent terminal, signal that microcontroller is sent out according to the instruction of intelligent terminal Instruction control three position four-way electromagnetic valve left end electromagnet obtain it is electric with connect three position four-way electromagnetic valve B mouths and T mouthfuls, internal layer water tank Interior water is exported by water outlet for using through two-bit triplet solenoid valve, heating tube and three position four-way electromagnetic valve；

2, high temperature drinking water is obtained

When sending out high temperature by intelligent terminal and drinking water signal, microcontroller is according to the instruction of intelligent terminal, acquisition first Internal layer water storage the temperature inside the box number of temperature data and second temperature sensor detection in the outer layer water tank of temperature sensor detection According to if the water temperature in internal layer water tank is higher than the water temperature in outer layer water tank, two-bit triplet solenoid valve is in power failure state, interior Water in layer water tank is flowed into through two-bit triplet solenoid valve in heating tube, if the water temperature in outer layer water tank is higher than internal layer water tank Interior water temperature, then microcontroller control two-bit triplet solenoid valve be in electricity condition to connect the P of two-bit triplet solenoid valve₂Mouth and A Mouthful, so that the water in outer layer water tank is flowed into heating tube through two-bit triplet solenoid valve, digital voltage regulator is passed through by microcontroller at this time It is exported after the water to fluidized state that control heating tube heating flows into heating tube, while microcontroller control three position four-way electromagnetic valve is left End electromagnet obtains electric to connect B mouths of three position four-way electromagnetic valve and T mouthful, makes the high temperature drinking water of the interior output of heating tube through three four Three-way electromagnetic valve is exported by water outlet for using；

3, direct drinking is obtained

When intelligent terminal sends out direct drinking signal, microcontroller acquires the first temperature sensing according to the instruction of intelligent terminal Temperature data in the internal layer water tank that temperature data and second temperature sensor detect in the outer layer water tank of device detection, if internal layer Water temperature in water tank is higher than the water temperature in outer layer water tank, then two-bit triplet solenoid valve is in power failure state, internal layer water tank Interior water is flowed into through two-bit triplet solenoid valve in heating tube, if the water temperature in outer layer water tank is higher than the water in internal layer water tank Temperature, then microcontroller control two-bit triplet solenoid valve be in electricity condition to connect the P of two-bit triplet solenoid valve₂Mouthful with A mouthful, make outside Water in layer water tank is flowed into through two-bit triplet solenoid valve in heating tube, is controlled heat by digital voltage regulator by microcontroller at this time It is exported after the water to fluidized state that pipe heating flows into heating tube, while microcontroller controls three position four-way electromagnetic valve right end electromagnet Obtain electric so that the B mouths of three position four-way electromagnetic valve are connected with P mouthfuls, A mouthfuls with T mouthfuls；When the first temperature sensor detects outer layer water tank When interior water temperature is less than pre-set value, third 2/2-way normally closed solenoid valve is in power failure state, the high-temperature water exported in heating tube It is directly inputted into level-one heat exchanging pipe after P mouthfuls of output by the B mouths input of three position four-way electromagnetic valve, level-one heat exchanging pipe It after carrying out heat exchange with the water in outer layer water tank, then is inputted by the A mouths of three position four-way electromagnetic valve and is exported through T mouthfuls, by water outlet Output is for using；When water temperature is higher than pre-set value in the first temperature sensor detection outer layer water tank, microcontroller controls third 2/2-way normally closed solenoid valve be in electricity condition with connect third 2/2-way normally closed solenoid valve P mouths and A mouthfuls, in heating tube By the B mouths input of three position four-way electromagnetic valve after P mouthfuls of output, a part inputs in level-one heat exchanging pipe the high-temperature water of output, Another part inputs after the shunting of third 2/2-way normally closed solenoid valve in two level heat exchanging pipe, two level heat exchanging pipe and one After water in grade heat exchanging pipe carries out heat exchange with the water in outer layer water tank simultaneously, then by the A mouths of three position four-way electromagnetic valve Input is exported through T mouthfuls, is exported by water outlet for using.

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 connect with microcontroller, and microcontroller is according to the first temperature sensor and second temperature The water temperature signal feedback of sensor detection, adjusts the heating voltage of heating tube by digital voltage regulator in real time, to ensure with most The water for flowing into heating tube is heated to boiling temperature by low 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 utilizes the solar thermal collector combination level-one heat-exchange tube mounted on Campus buildingss object top layer Road, two level heat exchanging pipe, the ectonexine water tank of telescoping structure and microcontroller and intelligent terminal, output three kinds of water temperatures for Different life requirements, has the following advantages that：

(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；

(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 level-one heat exchanging pipe and the cooling of two level heat exchanging pipe, is made simultaneously Water temperature in outer layer water tank increases, and then the extra energy transmission of internal layer water tank boiling water is effectively carried to outer layer water tank The efficiency that high-energy utilizes；

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 a kind of intelligent boiling water control system of Fig. 1, including it is mounted with the intelligent terminal 1 of APP, the 2, first temperature of microcontroller Spend sensor 3, second temperature sensor 4, internal layer water tank 5, outer layer water tank 6, two-bit triplet solenoid valve 7, heating tube 8, number Word pressure 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 are normal Close 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 originally Water water intake end 21 is separately connected the second 2/2-way normally closed solenoid valve 18 and the first 2/2-way normally closed solenoid valve 19 by pipeline P mouths, the first 2/2-way normally closed solenoid valve 19 A mouths connection solar thermal collector 20 arrival end, solar thermal collector 20 It itself adopts and is connected serially, 20 outlet end of solar thermal collector connects the entrance of water purifier 17, and the outlet of water purifier 17 connects Meet the entrance of internal layer 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 is normal Close the entrance of the A mouths connection outer layer water tank 6 of solenoid valve 18, the P of the outlet connection two-bit triplet solenoid valve 7 of outer layer water tank 6₂ Mouthful；The entrance of the A mouths connection heating tube 8 of two-bit triplet solenoid valve 7, the B of the outlet connection three position four-way electromagnetic valve 10 of heating tube 8 Mouthful, the T mouths of three position four-way electromagnetic valve 10 connect water outlet 11, and the P mouths of three position four-way electromagnetic valve 10 connect level-one heat exchanging pipe 16 arrival end, meanwhile, the P mouths of the P mouths connection third 2/2-way normally closed solenoid valve 12 of three position four-way electromagnetic valve 10, third two The arrival end of the A mouths connection two level heat exchanging pipe 15 of two logical normally closed solenoid valves 12 of position, two level heat exchanging pipe 15 and level-one heat The outlet end for exchanging pipeline 16 is separately connected the A mouths of three position four-way electromagnetic valve 10；Internal layer water tank 5 is set to outer layer water tank 6 Interior, level-one heat exchanging pipe 16 is placed in outer layer water tank 6 and spiral is set to the periphery of internal layer water tank 5, two level heat exchange Pipeline 15 is placed in outer layer water tank 6 and spiral is set to the periphery of level-one heat exchanging pipe 16；It is provided in outer layer water tank 6 First temperature sensor 3 and the second liquid level sensor 14 are provided with second temperature sensor 4 and the first liquid in internal layer water tank 5 Level sensor 13 is provided with digital voltage regulator 9 in heating tube 8；Intelligent terminal 1, the first temperature sensor 3, second temperature sensing Device 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, One liquid level sensor 13, the second liquid level sensor 14, the second 2/2-way normally closed solenoid valve 18, the normally closed electromagnetism of the first 2/2-way Valve 19 is connect with microcontroller 2 respectively；

And third 2/2-way normally closed solenoid valve 12, the second 2/2-way normally closed solenoid valve 18 and the first 2/2-way are 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 is connect with A mouthfuls, three 10 normality Median Function of four way solenoid valve is that tetra- ports A, B, P, T are mutually closed, internal layer water tank 5 and 6 phase of outer layer water tank It is mutually independent mutually to disconnect；System initialization is then carried out, the first 2/2-way normally closed solenoid valve 19 of control of microcontroller 2 obtains electric to connect P mouths of logical first 2/2-way normally closed solenoid valve 19 and A mouthfuls, tap water is delivered to water purification after entering the heating of solar thermal collector 20 Device 17 is delivered to internal layer water tank 5 after being handled by water purifier 17, and the water in internal layer water tank 5 enters through two-bit triplet solenoid valve 7 Heating tube 8 is spare, and when the water in internal layer water tank 5 reaches upper limit set value, microcontroller 2 controls the normally closed electricity of the first 2/2-way 19 dead electricity of magnet valve is to disconnect the P mouths and A mouthfuls, at the same time, second liang of the control of microcontroller 2 of the first 2/2-way normally closed solenoid valve 19 Two logical normally closed solenoid valves 18 of position obtain the electric P mouths with the second 2/2-way normally closed solenoid valve 18 of connection and A mouthfuls, and 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 the second 2/2-way normally closed solenoid valve 18 dead electricity with disconnect the second 2/2-way normally closed solenoid valve 18 P mouths and A mouthful, at this time system initialization completion, internal layer water tank 5 Interior water and the water in outer layer water tank 6 are in atural beat swap status, exportable three kinds of water quality for different life requirements, 1, the life warm water without high-temperature heating, 2, the high temperature drinking water after high-temperature heating, 3, cool down place again after high-temperature heating The direct drinking (direct drinking temperature is at 30~50 DEG C) of reason, specific rate-determining steps are 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.

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, microcontroller 2 is believed according to the first temperature sensor 3 and the water temperature that second temperature sensor 4 detects Number feedback, in real time by digital voltage regulator 9 adjust heating tube 8 heating voltage, to ensure with minimum electric energy loss will flow The water for entering heating tube 8 is heated to boiling temperature；When the water level of the first liquid level sensor 13 detection internal layer water tank 5 is pre- less than lower limit When setting value, the first 2/2-way normally closed solenoid valve 19 of control of microcontroller 2 obtains electric to connect the first 2/2-way normally closed solenoid valve 19 P mouths and A mouthful, tap water enter solar thermal collector 20 and the heating in solar thermal collector 20 are pushed to lay in water through only Internal layer water tank 5 is delivered to after the processing of hydrophone 17 to compensate, when the water level of internal layer water tank 5 reaches upper limit pre-set value again 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, stop 5 water of supplement internal layer water tank, so on circulate；When the second liquid level sensor 14 detection outer layer water tank 6 Water level be less than lower limit pre-set value when, microcontroller 2 control the second 2/2-way normally closed solenoid valve 18 it is electric with connect second liang Position two logical normally closed solenoid valves 18 P mouths with A mouthfuls, tap water enters outer layer water tank 6 and compensates, when the water of outer layer water tank 6 When position reaches upper limit pre-set value again, microcontroller 2 controls 18 dead electricity of the second 2/2-way normally closed solenoid valve to disconnect second liang P mouths of two logical normally closed solenoid valves 18 of position and A mouthful, stopping supplements 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 (8)

1. a kind of intelligence boiling water control system, including it is mounted with intelligent terminal, microcontroller, internal layer water tank, the outer layer water storage of APP Case, heating tube, digital voltage regulator, three position four-way electromagnetic valve, water outlet, third 2/2-way normally closed solenoid valve, level-one heat exchange Pipeline, two level heat exchanging pipe, the second 2/2-way normally closed solenoid valve, the first 2/2-way normally closed solenoid valve, solar energy heating Device and tap water water intake end, which is characterized in that tap water water intake end by pipeline respectively with the second 2/2-way normally closed solenoid valve, The P mouths of first 2/2-way normally closed solenoid valve connect, the A mouths of the first 2/2-way normally closed solenoid valve and entering for solar thermal collector The connection of mouth end, solar thermal collector outlet end are connect with the entrance of internal layer water tank, the outlet of internal layer water tank and two-bit triplet The P of solenoid valve₁Mouth connection；The A mouths of second 2/2-way normally closed solenoid valve are connect with the entrance of outer layer water tank, outer layer water tank Outlet and two-bit triplet solenoid valve P₂Mouth connection；Internal layer water tank is arranged in outer layer water tank, level-one heat exchanging pipe It is placed in internal layer water tank periphery, two level heat exchanging pipe is placed in level-one heat exchanging pipe periphery；The A mouths of two-bit triplet solenoid valve with The entrance of heating tube connects, and the outlet of heating tube and B mouths of three position four-way electromagnetic valve connect, the T mouths of three position four-way electromagnetic valve and Water outlet connects, the P mouths of three position four-way electromagnetic valve and the arrival end of level-one heat exchanging pipe, third 2/2-way normally closed solenoid valve The connection of P mouths, A mouths of third 2/2-way normally closed solenoid valve connect with the arrival end of two level heat exchanging pipe, and the friendship of two level heat The outlet end for changing pipeline and level-one heat exchanging pipe is connect with the A of three position four-way electromagnetic valve mouths respectively, and number is provided in heating tube Word pressure regulator；It is provided with the first temperature sensor and the second liquid level sensor in outer layer water tank, is provided in internal layer water tank Second temperature sensor and the first liquid level sensor；Intelligent terminal, the first temperature sensor, second temperature sensor, two simultaneously Position-3-way solenoid valve, three position four-way electromagnetic valve, digital voltage regulator, third 2/2-way normally closed solenoid valve, the first liquid level sensor, Second liquid level sensor, the second 2/2-way normally closed solenoid valve, the first 2/2-way normally closed solenoid valve are connect with microcontroller respectively；

And third 2/2-way normally closed solenoid valve, the second 2/2-way normally closed solenoid valve and the first 2/2-way normally closed solenoid valve are Normally off, two-bit triplet solenoid valve under normal conditions, the P of two-bit triplet solenoid valve₁Mouth is connect with A mouthfuls, and three position four-way electromagnetic valve is normal State Median Function is that tetra- ports A, B, P, T are mutually closed, and internal layer water tank is mutually disconnected independently of each other with outer layer water tank；And After carry out system initialization, microcontroller control the first 2/2-way normally closed solenoid valve obtain it is electric to connect the normally closed electricity of the first 2/2-way The P mouths of magnet valve with A mouthful, tap water enter solar thermal collector heat after is delivered to internal layer water tank, the water in internal layer water tank Enter that heating tube is spare through two-bit triplet solenoid valve, when the water in internal layer water tank reaches upper limit set value, microcontroller control First 2/2-way normally closed solenoid valve dead electricity is to disconnect the P mouths and A mouthfuls, at the same time, list of the first 2/2-way normally closed solenoid valve Piece machine controls the second 2/2-way normally closed solenoid valve and obtains the electric P mouths with the second 2/2-way normally closed solenoid valve of connection and A mouthfuls, originally Water enters outer layer water tank, and when the water in outer layer water tank reaches upper limit set value, it is normal that microcontroller controls the second 2/2-way Solenoid valve dead electricity is closed to disconnect the P mouths of the second 2/2-way normally closed solenoid valve and A mouthful, system initialization is completed at this time, and internal layer stores up Water in water tank is in atural beat swap status with the water in outer layer water tank, and three kinds of water quality of output need for different lives It asks, specific rate-determining steps are as follows：

1, life warm water is obtained

When sending out life warm water signal by intelligent terminal, signal instruction that microcontroller is sent out according to the instruction of intelligent terminal Control three position four-way electromagnetic valve left end electromagnet obtain it is electric with connect three position four-way electromagnetic valve B mouths and T mouthfuls, in internal layer water tank Water is exported by water outlet for using through two-bit triplet solenoid valve, heating tube and three position four-way electromagnetic valve；

2, high temperature drinking water is obtained

When sending out high temperature by intelligent terminal and drinking water signal, microcontroller acquires the first temperature according to the instruction of intelligent terminal Temperature data in the internal layer water tank that temperature data and second temperature sensor detect in the outer layer water tank of sensor detection, if Water temperature in internal layer water tank is higher than the water temperature in outer layer water tank, then two-bit triplet solenoid valve is in power failure state, internal layer storage Water in water tank is flowed into through two-bit triplet solenoid valve in heating tube, if the water temperature in outer layer water tank is higher than in internal layer water tank Water temperature, then microcontroller control two-bit triplet solenoid valve be in electricity condition to connect the P of two-bit triplet solenoid valve₂Mouthful with A mouthfuls, make Water in outer layer water tank is flowed into through two-bit triplet solenoid valve in heating tube, is added at this time by digital voltage regulator control by microcontroller It is exported after the water to fluidized state that heat pipes heat flows into heating tube, while microcontroller controls three position four-way electromagnetic valve left end electromagnetism Iron obtains electric to connect the B mouths of three position four-way electromagnetic valve and T mouthful, makes the high temperature drinking water of output in heating tube through 3-position 4-way electromagnetism Valve is exported by water outlet for using；

3, direct drinking is obtained

When intelligent terminal sends out direct drinking signal, microcontroller is according to the instruction of intelligent terminal, acquisition the first temperature sensor inspection Temperature data in the internal layer water tank that temperature data and second temperature sensor detect in the outer layer water tank of survey, if internal layer water storage Water temperature in case is higher than the water temperature in outer layer water tank, then two-bit triplet solenoid valve is in power failure state, in internal layer water tank Water is flowed into through two-bit triplet solenoid valve in heating tube, if the water temperature in outer layer water tank is higher than the water temperature in internal layer water tank, Microcontroller control two-bit triplet solenoid valve be in electricity condition to connect the P of two-bit triplet solenoid valve₂Mouthful with A mouthfuls, so that outer layer is stored up Water in water tank is flowed into through two-bit triplet solenoid valve in heating tube, and controlling heating tube by digital voltage regulator by microcontroller at this time adds Hot-fluid exports after entering the water to fluidized state in heating tube, at the same microcontroller control three position four-way electromagnetic valve right end electromagnet obtain it is electric So that the B mouths of three position four-way electromagnetic valve are connected with P mouthfuls, A mouthfuls with T mouthfuls；When water in the first temperature sensor detection outer layer water tank When temperature is less than pre-set value, third 2/2-way normally closed solenoid valve is in power failure state, and the high-temperature water exported in heating tube is by three Position four-way solenoid valve B mouths input through P mouthful output after is directly inputted into level-one heat exchanging pipe, level-one heat exchanging pipe with outside It after water in layer water tank carries out heat exchange, then is inputted by the A mouths of three position four-way electromagnetic valve and is exported through T mouthfuls, exported by water outlet For using；When water temperature is higher than pre-set value in the first temperature sensor detection outer layer water tank, microcontroller controls third two Two logical normally closed solenoid valves be in electricity condition to connect P mouths of third 2/2-way normally closed solenoid valve and A mouthful, heating tube is interior to be exported High-temperature water by three position four-way electromagnetic valve B mouths input through P mouthful output after, a part input level-one heat exchanging pipe in, it is another After the shunting of third 2/2-way normally closed solenoid valve in input two level heat exchanging pipe, two level heat exchanging pipe and level-one are hot for part After exchanging the water in pipeline while carrying out heat exchange with the water in outer layer water tank, then by the A mouths input of three position four-way electromagnetic valve It exports through T mouthfuls, is exported by water outlet for using.

2. a kind of intelligent boiling water control system according to claim 1, which is characterized in that solar thermal collector is that series connection connects It connects.

3. a kind of intelligent boiling water control system according to claim 1, which is characterized in that in solar thermal collector outlet end It is provided with water purifier between the entrance of internal layer water tank.

4. a kind of intelligent boiling water control system according to claim 1, which is characterized in that level-one heat exchanging pipe is helically Shape is placed in the periphery of internal layer water tank, and two level heat exchanging pipe is placed in the periphery of level-one heat exchanging pipe in the shape of a spiral.

5. a kind of intelligent boiling water control system according to claim 1, which is characterized in that level-one heat exchanging pipe and two level Multiple fins are respectively arranged on heat exchanging pipe, and fin is helical baffles three-dimensional rib fin.

6. a kind of intelligent boiling water control system according to claim 1, which is characterized in that heating tube, which is internally provided with, to be used for The electrode of heating, and heat outer tube layer inlet and be made of pure silicon dioxide crystal, centre is provided with plated film, and heating outer tube layer goes out It is provided with silver-coated electrode coating at mouthful.

7. a kind of intelligent boiling water control system according to claim 1, which is characterized in that internal layer water tank and outer layer water storage Case is that thermal insulation material is made.

8. a kind of intelligent boiling water control system according to claim 1, which is characterized in that internal layer water tank and outer layer water storage Case is telescoping structure.