CN106618198B - Speed heat water purifier system - Google Patents
Speed heat water purifier system Download PDFInfo
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- CN106618198B CN106618198B CN201611086628.3A CN201611086628A CN106618198B CN 106618198 B CN106618198 B CN 106618198B CN 201611086628 A CN201611086628 A CN 201611086628A CN 106618198 B CN106618198 B CN 106618198B
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- water
- thermally conductive
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- heating
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J31/00—Apparatus for making beverages
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J31/00—Apparatus for making beverages
- A47J31/44—Parts or details or accessories of beverage-making apparatus
- A47J31/46—Dispensing spouts, pumps, drain valves or like liquid transporting devices
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J31/00—Apparatus for making beverages
- A47J31/44—Parts or details or accessories of beverage-making apparatus
- A47J31/54—Water boiling vessels in beverage making machines
- A47J31/56—Water boiling vessels in beverage making machines having water-level controls; having temperature controls
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- Engineering & Computer Science (AREA)
- Food Science & Technology (AREA)
- Thermotherapy And Cooling Therapy Devices (AREA)
Abstract
The invention discloses speed heat water purifier systems, it is related to water purifier technical field, the time span of burning can also be continued after boiled by user oneself setting institute's water receiving, can guarantee user institute water receiving all is to burn boiled water, user both can unrestricted choice oneself institute water receiving filtering crystal's degree, user can also unrestricted choice oneself institute water receiving water temperature, including microprocessor, memory and human-computer interaction module, it further include the water intaking part for user's water intaking, the part of heating up water of boiled water input is provided for water intaking part, for part of heating up water provided drainage input worrys water section and for consider water section provide tap water input enter water section, water intaking part is equipped with the water mechanism that can temporarily store the boiled water that part is heated up water of heating up water;The memory, human-computer interaction module, the control terminal for part of fetching water, the control terminal for part of heating up water, control terminal, the control terminal of the control terminal and water mechanism that enter water section of worry water section are connected with the microprocessor respectively.
Description
Technical field
The present invention relates to water purifier technical fields, and in particular to speed heat water purifier system.
Background technique
Current water purifier generally only played drainage, and user can't select the filtering essence of oneself institute's water receiving
Degree.In addition, if user want to drink boiled water must first by the water of filtering it is boiled after can just drink, if want to drink cold water must first handle by user
The water of filtering is boiled cool down after can just drink, user, which drinks water, to be had to wait, and use is very inconvenient.
Summary of the invention
The present invention is to provide a kind of can be set by user oneself in order to solve existing water purifier above shortcomings and connect
Also to continue the time span burnt after water is boiled, can guarantee user institute water receiving all is to burn boiled water, and user both can unrestricted choice
Filtering crystal's degree of oneself institute's water receiving, user can also unrestricted choice oneself institute water receiving water temperature, intelligence degree is high, uses letter
It is single, it drinks water conveniently, the speed heat water purifier system of good reliability.
The above technical problem is solved through the following technical scheme:
Speed heat water purifier system including microprocessor, memory, human-computer interaction module, Cloud Server and is equipped with APP's
Smart phone further includes providing the part of heating up water of boiled water input, for the water intaking part of user's water intaking, for water intaking part to heat up water
Part provided drainage input drainage part and for drainage part provide tap water input enter water section, the Cloud Server
Be connected to the network respectively with microprocessor with smart phone, the water intaking part be equipped with can will heat up water the boiled water heated up water of part temporarily into
The water mechanism of row storage;The memory, the control terminal for part of fetching water, the control terminal for part of heating up water, is considered at human-computer interaction module
The control terminal of the control terminal of water section, the control terminal for entering water section and water mechanism is connected with the microprocessor respectively.
After this programme user can be connect by network with microprocessor by smart phone, user can be by smart phone
In APP be respectively set oneself institute's water receiving it is boiled after also to continue that the time span burnt, oneself institute's water receiving is arranged all is boiled mistake
Water, filtering crystal's degree of oneself institute's water receiving is set and oneself institute's water receiving is set water temperature, and setting data storage to storage
In device.When user goes water intaking, as long as user can recall the data of oneself storage by human-computer interaction module from memory,
Speed heat water purifier system begins to meet the water that user requires to user's output according to the pre-stored data of client after confirmation.This
Scheme can automatically adjust the boiled speed of water according to part of heating up water the speed for sending water to part of heating up water into water section.It can be by user
Also to continue the time span burnt after oneself setting institute's water receiving is boiled, can guarantee user institute water receiving all is to burn boiled water, user
Both can unrestricted choice oneself institute water receiving filtering crystal's degree, user can also unrestricted choice oneself institute water receiving water temperature, intelligent journey
Degree is high, uses simple, convenience of drinking water, good reliability.
Preferably, it is described enter water section to be equipped with can be the controllable water flow conveyer of drainage part input tap water flow velocity
The control terminal of structure, the water flow conveying mechanism is connected with the microprocessor.
The water flow conveying mechanism includes left chamber, right chamber and flushing pipe, in left chamber and is respectively equipped with left pressure water in right chamber
Mechanism and right squeezer structure, are equipped with left cold solenoid valve on the outlet pipe of left chamber, and right cold electromagnetism is equipped on the outlet pipe of right chamber
Valve is respectively equipped with No.1 in the right end of flushing pipe and rinses water inlet and No. two flushing water inlets, the outlet pipe of left chamber and right chamber
Outlet pipe is connected respectively to be rinsed on water inlet and on No. two flushing water inlets in No.1;The left end of flushing pipe from left to right
No.1 flushing water outlet, No. two flushing water outlets and No. three flushings of tap water input can be provided for drainage part by being successively arranged
Water outlet;Control terminal, the control terminal of right squeezer structure, the control terminal of left cold solenoid valve and the right cold electromagnetism of the left squeezer structure
The control terminal of valve is connected with the microprocessor respectively.
Left squeezer structure and right squeezer structure can according to heat up water part the boiled speed of water automatically adjust into water section to
It heats up water and partially send the speed of water, to guarantee the time span that also continue burning after boiled by user oneself setting institute's water receiving, energy
Guaranteeing user institute water receiving all is to burn boiled water.
Preferably, the water-filtering part is arranged with the different drainage mechanism of filtering accuracy, the control terminal of the drainage mechanism
It is connected with the microprocessor.
The drainage mechanism includes upper orifice and No.1 rinses DC tube, upper orifice and No. two punchings that water outlet is connected
Common screen pipe and upper orifice that the mouth of a river is connected and the fine filtering pipe that No. three flushing water outlets are connected are washed out, general
By being equipped with common filter core in chimney filter, fine filter core is equipped in fine filtering pipe.
Filtration core is fitted without in DC tube, water directly without hindrance can be flowed out from DC tube.Flow to the water of DC tube
The impurity of the impurity of fine filter core upper surface and common filter core upper surface can be taken away to discharge, keep fine filter core upper surface clean
It is clean with common filter core upper surface.The different filtration core of filtering accuracy and user is able to satisfy not without the drainage mechanism of filtration core
With needs.
It heats up water respectively preferably, the part of heating up water is equipped with for the water of the different drainage mechanism filtering of filtering accuracy
Mechanism of heating up water, the control terminal of the mechanism of heating up water is connected with the microprocessor.
The mechanism of heating up water includes No.1 insulated heat pipe, No. two insulated heat pipes, No. three insulated heat pipes, No. four insulation
Instlated tubular, No. five insulated heat pipes, No. six insulated heat pipes, No.1 are heated up water pipe, No. two heat up water pipe and No. three pipes of heating up water;DC tube
Lower nozzle be connected on the upper orifice of No.1 insulated heat pipe, the lower nozzle of No.1 insulated heat pipe is connected one
It number heats up water on the upper orifice of pipe, the heat up water lower nozzle of pipe of No.1 is connected on the upper orifice of No. two insulated heat pipes, two
No.1 temperature sensor is equipped in number insulated heat pipe;The lower nozzle of common screen pipe is connected in No. three insulated heat pipes
On upper orifice, the lower nozzle of No. three insulated heat pipes is connected on No. two upper orifices for heating up water pipe, and No. two are heated up water under pipe
Nozzle is connected on the upper orifice of No. four insulated heat pipes, and No. two temperature sensors are equipped in No. four insulated heat pipes;
The lower nozzle of fine filtering pipe is connected on the upper orifice of No. five insulated heat pipes, the lower nozzle pair of No. five insulated heat pipes
It connects and is connected on the upper orifice of No. three pipes of heating up water, the lower nozzle of No. three pipes of heating up water is connected the upper tube in No. six insulated heat pipes
On mouth, No. three temperature sensors are equipped in No. six insulated heat pipes;The No.1 temperature sensor, No. two temperature sensors and
No. three temperature sensors are connected with the microprocessor respectively.
Mechanism of heating up water can will also be continued the time span of burning by user oneself setting institute's water receiving after boiled, can guarantee user institute
Water receiving is all to burn boiled water, high reliablity.
Preferably, the water intaking part is additionally provided with the water intaking mechanism that can export respectively the different boiled water of filtering accuracy,
The control terminal of the water intaking mechanism is connected with the microprocessor.
The water intaking mechanism includes intake pipe and diversion mechanism, and the diversion mechanism includes No.1 aqueduct, No. two diversions
Pipe and No. three aqueducts are respectively equipped with No.1 water intaking hole, No. two water intaking holes and No. three water intaking holes in one end of intake pipe;No.1 is drawn
Water pipe both ends are connected respectively on the lower nozzle of No. two insulated heat pipes and the No.1 of intake pipe is fetched water on hole, No. two diversions
Pipe both ends be connected on the lower nozzle of No. four insulated heat pipes respectively and No. two water intaking holes of intake pipe on, No. three aqueducts
Both ends be connected on the lower nozzle of No. six insulated heat pipes respectively and No. three water intaking holes of intake pipe on;In No.1 aqueduct
Upper end is equipped with No.1 diversion solenoid valve, is equipped with No. two diversion solenoid valves No. two aqueduct upper ends, sets No. three aqueduct upper ends
There are No. three diversion solenoid valves;The control terminal of the No.1 diversion solenoid valve, the control terminal and No. three diversions of No. two diversion solenoid valves
The control terminal of solenoid valve is connected with the microprocessor respectively.
The mechanism that fetches water is easy to use convenient for user's water intaking.
Preferably, the water mechanism includes that No.1 cold water holding tank, No. two cold water holding tanks and No. three cool are opened
The control terminal of water holding tank, the water mechanism is connected with the microprocessor.
The diversion mechanism further includes No.1 siphunculus, No. two siphunculus and No. three siphunculus;Four are equipped in No.1 aqueduct lower end
Number diversion solenoid valve, is equipped with No. five diversion solenoid valves No. two aqueduct lower ends, is equipped with No. six diversions No. three aqueduct lower ends
Solenoid valve;The left port of No.1 siphunculus is connected to the No.1 between No.1 diversion solenoid valve and No. four diversion solenoid valves and draws
On water pipe, the right output port of No.1 siphunculus is connected on the Inlet and outlet water connector of No.1 cold water holding tank, in No.1 siphunculus
It is equipped with No. seven diversion solenoid valves;The left port of No. two siphunculus is connected in No. two diversion solenoid valves and No. five diversion electromagnetism
On No. two aqueducts between valve, the right output port of No. two siphunculus is connected the Inlet and outlet water connector in No. two cold water holding tanks
On, No. eight diversion solenoid valves are equipped on No. two siphunculus;The left port of No. three siphunculus is connected in No. three diversion solenoid valves
On No. three aqueducts between No. six diversion solenoid valves, the right output port of No. three siphunculus is connected in No. three cold water holding tanks
Inlet and outlet water connector on, on No. three siphunculus be equipped with No. nine diversion solenoid valves;In No.1 cold water holding tank, No. two cool open
No.1 cold water water level sensor, No. two cold water level sensors are respectively equipped in water holding tank and in No. three cold water holding tanks
Device and No. three cold water water level sensors;The control terminal of No. four diversion solenoid valves, the control terminal of No. five diversion solenoid valves, six
The control terminal of number diversion solenoid valve, the control terminal of No. seven diversion solenoid valves, the control terminal of No. eight diversion solenoid valves, No. nine diversion electricity
Control terminal, No.1 cold water water level sensor, No. two cold water water level sensors and No. three cold water water level sensors of magnet valve
It is connected with the microprocessor respectively.
This structure of the water mechanism cold water different convenient for user's stored filter precision, the water filtering for getting user
Precision reliability is high.
Preferably, the speed heat water purifier system further includes thermally conductive switching mechanism, the thermally conductive switching mechanism, which can allow, is deposited
Water dispenser structure carries out heat with drainage mechanism and exchanges.
The No.1 cold water holding tank, No. two cold water holding tanks, No. three cold water holding tanks, DC tube, common mistake
Chimney filter and fine filtering pipe are made by heat transfer material;No.1 water storage temperature sensor is equipped in No.1 cold water holding tank,
It is equipped with No. two water storage temperature sensors in No. two cold water holding tanks, No. three water storage temperature are equipped in No. three cold water holding tanks
Spend sensor;The left end of a piece No.1 thermally conductive sheet is thermally conductive to be connected on the outer surface of DC tube, the left end of No. two thermally conductive sheet
On the thermally conductive outer surface for being connected to common screen pipe, the thermally conductive appearance for being connected to fine filtering pipe in the left end of No. three thermally conductive sheets
On face;On the thermally conductive outer surface for being connected to No.1 cold water holding tank of the right end of piece No. four thermally conductive sheets, No. five thermally conductive sheets
The thermally conductive outer surface for being connected to No. two cold water holding tanks of right end on, the right end of No. six thermally conductive sheets is thermally conductive to be connected to No. three
On the outer surface of cold water holding tank;The right end of the No.1 thermally conductive sheet can be thermally conductive with No. four respectively by thermally conductive switching mechanism
The left end of piece, No. five thermally conductive sheets left end and No. six thermally conductive sheets the thermally conductive connection in left end;The equal energy of right end of No. two thermally conductive sheets
It is thermally conductive with the left end of the left end of No. four thermally conductive sheets, the left end of No. five thermally conductive sheets and No. six thermally conductive sheets respectively by thermally conductive switching mechanism
Connection;The right ends of No. three thermally conductive sheets can by thermally conductive switching mechanism respectively with the left end of No. four thermally conductive sheets, No. five it is thermally conductive
The thermally conductive connection in the left end of piece and the left end of No. six thermally conductive sheets;Control terminal, the No.1 water storage temperature sensing of the thermally conductive switching mechanism
Device, No. two water storage temperature sensors and No. three water storage temperature sensors are connect with microprocessor.
Heat in water mechanism can be carried out heat with the cold water in drainage part and exchanged by thermally conductive switching mechanism, can not only
Allow water boiled water fast cooling within the organization, moreover it is possible to the temperature of the cold water allowed in drainage part enter heat up water part before just rise
Height can substantially reduce the energy heated up water, energy-saving good.
Preferably, using the thermally conductive conversion portion of No.1 of thermally conductive switching mechanism by No.1 cold water holding tank and water-strainer
Structure carries out heat exchange.
The thermally conductive conversion portion of No.1 of the thermally conductive switching mechanism includes fixed frame, No.1 air cylinder, No. two air cylinders, three
Number air cylinder, No.1 elastic conducting backing, the heat-insulated pull rod of No.1, No. two heat-insulated pull rods and No. three heat-insulated pull rods;The No.1 is calmed the anger
The control terminal of the control terminal of cylinder, the control terminal of No. two air cylinders and No. three air cylinders is connected with the microprocessor respectively;Described one
The lower end of the lower end of number heat-insulated pull rod, the lower end of No. two heat-insulated pull rods and No. three heat-insulated pull rods is along in No.1 elastic conducting backing
Heart line from left to right successively interval be fixedly connected on the upper surface of No.1 elastic conducting backing, the heat-insulated pull rod of No.1 it is upper
The upper end interval at end, the upper end of No. two heat-insulated pull rods and No. three heat-insulated pull rods is fixedly connected on fixed frame;The No.1 is calmed the anger
The cylinder seat of the cylinder seat of cylinder, the cylinder seat of No. two air cylinders and No. three air cylinders is fixedly connected on fixed frame, and the No.1
The telescopic rod of the telescopic rod of air cylinder, the telescopic rod of No. two air cylinders and No. three air cylinders is arranged downward;In No.1 air cylinder
Telescopic rod lower end be fixedly connected with No.1 heat insulation, the telescopic rod lower end of No. two air cylinders be fixedly connected with No. two it is heat-insulated
Block is fixedly connected with No. three heat insulations in the telescopic rod lower end of No. three air cylinders;The No.1 heat insulation, No. two heat insulations and three
Number heat insulation, which is pressed into contact with the upper surface of No.1 elastic conducting backing, to be connect;The left end of No.1 elastic conducting backing and No.1 are thermally conductive
The thermally conductive connection of the right end of piece;Under control of the microprocessor, it can be incited somebody to action when the telescopic rod of No.1 air cylinder is elongated to setting length
The lower surface of No.1 elastic conducting backing compresses on the thermally conductive thermally conductive joint face of No.1 for being connected to No. four thermally conductive sheet left ends, when one
The telescopic rod of number air cylinder shortens to the lower surface and No. four thermally conductive sheet left sides of setting length Shi Nengrang No.1 elastic conducting backing
The thermally conductive joint face of the No.1 at end separates;It can be by No.1 elastic heat conducting when the telescopic rod of No. two air cylinders is elongated to setting length
The lower surface of piece compresses on the thermally conductive thermally conductive joint face of No.1 for being connected to No. five thermally conductive sheet left ends, when stretching for No. two air cylinders
The No.1 that contracting bar shortens to the lower surface and No. five thermally conductive sheet left ends of setting length Shi Nengrang No.1 elastic conducting backing is thermally conductive
Joint face separates;It can be by the following table face pressure of No.1 elastic conducting backing when the telescopic rod of No. three air cylinders is elongated to setting length
On the tight thermally conductive thermally conductive joint face of No.1 for being connected to No. six thermally conductive sheet left ends, set when the telescopic rod of No. three air cylinders shortens to
The thermally conductive joint face of No.1 of the lower surface and No. six thermally conductive sheet left ends of measured length Shi Nengrang No.1 elastic conducting backing separates.
Hot-cast socket effect is good, energy-saving height, high reliablity.
Preferably, allowing No. two cold water holding tanks and water-strainer using No. two thermally conductive conversion portions of thermally conductive switching mechanism
Structure carries out heat exchange.
No. two thermally conductive conversion portions of the thermally conductive switching mechanism are calmed the anger including No. four air cylinders, No. five air cylinders, No. six
Cylinder, No. two elastic conducting backings, No. four heat-insulated pull rods, No. five heat-insulated pull rods and No. six heat-insulated pull rods;The control of No. four air cylinders
The control terminal at end processed, the control terminal of No. five air cylinders and No. six air cylinders is connected with the microprocessor respectively;Described No. four heat-insulated
The lower end of the lower end of pull rod, the lower end of No. five heat-insulated pull rods and No. six heat-insulated pull rods along No. two elastic conducting backings center line from
Successively interval is fixedly connected on the upper surface of No. two elastic conducting backings from left to right, the upper end of No. four heat-insulated pull rods, No. five
The upper end of heat-insulated pull rod and the upper end interval of No. six heat-insulated pull rods are fixedly connected on fixed frame;The cylinder of No. four air cylinders
The cylinder seat of seat, the cylinder seat of No. five air cylinders and No. six air cylinders is fixedly connected on fixed frame, and No. four air cylinders
Telescopic rod, the telescopic rod of No. five air cylinders and the telescopic rod of No. six air cylinders arrange downward;In the flexible of No. four air cylinders
Bar lower end is fixedly connected with No. four heat insulations, No. five heat insulations is fixedly connected in the telescopic rod lower end of No. five air cylinders, six
The telescopic rod lower end of number air cylinder is fixedly connected with No. six heat insulations;No. four heat insulations, No. five heat insulations and No. six are heat-insulated
Block is pressed into contact with the upper surface of No. two elastic conducting backings and connect;The right side of the left end of No. two elastic conducting backings and No. two thermally conductive sheets
Hold thermally conductive connection;It under control of the microprocessor, can be by No. two bullets when the telescopic rod of No. four air cylinders is elongated to setting length
The lower surface of property thermally conductive sheet compresses on thermally conductive No. two thermally conductive joint faces for being connected to No. four thermally conductive sheet left ends, calms the anger when No. four
The telescopic rod of cylinder shorten to setting length when can allow No. two elastic conducting backings lower surface and No. four thermally conductive sheet left ends two
Number thermally conductive joint face separates;It can will be under No. two elastic conducting backings when the telescopic rod of No. five air cylinders is elongated to setting length
Surface compresses on thermally conductive No. two thermally conductive joint faces for being connected to No. five thermally conductive sheet left ends, when the telescopic rod contracting of No. five air cylinders
The lower surface of No. two elastic conducting backings and No. two thermally conductive joint faces of No. five thermally conductive sheet left ends can be allowed when being short to setting length
It separates;The lower surface of No. two elastic conducting backings can be compressed when the telescopic rod of No. six air cylinders is elongated to setting length thermally conductive
It is connected on No. two thermally conductive joint faces of No. six thermally conductive sheet left ends, when the telescopic rod of No. six air cylinders shortens to setting length
The lower surface of No. bis- elastic conducting backings of Shi Nengrang and No. two thermally conductive joint faces of No. six thermally conductive sheet left ends separate.
Hot-cast socket effect is good, energy-saving height, high reliablity.
Preferably, allowing No. three cold water holding tanks and water-strainer using No. three thermally conductive conversion portions of thermally conductive switching mechanism
Structure carries out heat exchange.
No. three thermally conductive conversion portions of thermally conductive switching mechanism include No. seven air cylinders, No. eight air cylinders, No. nine air cylinders, three
Number elastic conducting backing, No. seven heat-insulated pull rods, No. eight heat-insulated pull rods and No. nine heat-insulated pull rods;The control terminal of No. seven air cylinders,
The control terminal of No. eight air cylinders and the control terminal of No. nine air cylinders are connected with the microprocessor respectively;The heat-insulated pull rod of No.1
The lower end of lower end, the lower end of No. two heat-insulated pull rods and No. three heat-insulated pull rods along No.1 elastic conducting backing center line from left to right
Successively interval is fixedly connected on the upper surface of No.1 elastic conducting backing, the upper end of the heat-insulated pull rod of No.1, No. two heat-insulated drawings
The upper end of bar and the upper end interval of No. three heat-insulated pull rods are fixedly connected on fixed frame;The cylinder seat of the No.1 air cylinder, No. two
The cylinder seat of air cylinder and the cylinder seat of No. three air cylinders are fixedly connected on fixed frame, and the No.1 air cylinder is flexible
The telescopic rod of bar, the telescopic rod of No. two air cylinders and No. three air cylinders is arranged downward;In the telescopic rod lower end of No.1 air cylinder
It is fixedly connected with No.1 heat insulation, No. two heat insulations is fixedly connected in the telescopic rod lower end of No. two air cylinders, calms the anger at No. three
The telescopic rod lower end of cylinder is fixedly connected with No. three heat insulations;The No.1 heat insulation, No. two heat insulations and No. three heat insulations with
The upper surface of No.1 elastic conducting backing is pressed into contact with connection;The left end of No. three elastic conducting backings and the right end of No. three thermally conductive sheets are thermally conductive
Connection;It under control of the microprocessor, can be by No. three elastic heat conductings when the telescopic rod of No. seven air cylinders is elongated to setting length
The lower surface of piece compresses on thermally conductive No. three thermally conductive joint faces for being connected to No. four thermally conductive sheet left ends, when stretching for No. seven air cylinders
Contracting bar can be allowed when shortening to setting length No. three of the lower surface of No. three elastic conducting backings and No. four thermally conductive sheet left ends it is thermally conductive
Joint face separates;It can be by the following table face pressure of No. three elastic conducting backings when the telescopic rod of No. eight air cylinders is elongated to setting length
On tight thermally conductive No. three thermally conductive joint faces for being connected to No. five thermally conductive sheet left ends, set when the telescopic rod of No. eight air cylinders shortens to
The lower surface of No. three elastic conducting backings and No. three thermally conductive joint faces of No. five thermally conductive sheet left ends can be allowed to separate when measured length;
The lower surface of No. three elastic conducting backings can be compressed thermally conductive be connected to when the telescopic rod of No. nine air cylinders is elongated to setting length
On No. three thermally conductive joint faces of No. six thermally conductive sheet left ends, when the telescopic rod of No. nine air cylinders shortens to setting length Shi Nengrang
The lower surface of No. three elastic conducting backings and No. three thermally conductive joint faces of No. six thermally conductive sheet left ends separate.
Hot-cast socket effect is good, energy-saving height, high reliablity.
Preferably, heated up water water stirring mechanism can be stirred by being equipped in mechanism of heating up water.
The specific structure of the water stirring mechanism are as follows: heat up water in No.1 and be equipped with No.1 bracket in pipe, rotated on No.1 bracket
Equipped with No.1 blade;No. two brackets are equipped in No. two pipes of heating up water, rotation is equipped with No. two blades on No. two brackets;It is burnt at No. three
No. three brackets are equipped in water pipe, rotation is equipped with No. three blades on No. three brackets.
Mechanism of heating up water can be stirred the water heated up water in part, allow heat up water part outflow water degree of heating it is uniform, can
By property height.
The present invention can reach following effect:
The present invention can automatically adjust the boiled speed of water according to part of heating up water the speed for sending water to part of heating up water into water section
Degree.The time span that burning can also be continued after boiled by user oneself setting institute's water receiving, can guarantee that user institute water receiving is all boiled
The water crossed, user both can unrestricted choice oneself institute water receiving filtering crystal's degree, user can also unrestricted choice oneself institute water receiving water
Temperature, intelligence degree is high, uses simple, convenience of drinking water, good reliability.
Detailed description of the invention
Fig. 1 is a kind of attachment structure schematic diagram of the embodiment of the present invention.
Fig. 2 is that DC tube of the embodiment of the present invention passes through thermally conductive switching mechanism and No.1 cold water holding tank, No. two cold water
Holding tank and No. three cold water holding tanks carry out heat exchange, and the telescopic rod of No.1 air cylinder shortens to No.1 after setting length
A kind of use state after the lower surface of elastic conducting backing is separated with the thermally conductive joint face of the No.1 of No. four thermally conductive sheet left ends is connect
Structural schematic diagram.
Fig. 3 is that DC tube of the embodiment of the present invention passes through thermally conductive switching mechanism and No.1 cold water holding tank, No. two cold water
Holding tank and No. three cold water holding tanks carry out heat exchange, and the telescopic rod of No.1 air cylinder is elongated to one when setting length
One kind when lower surface of number elastic conducting backing compresses on the thermally conductive thermally conductive joint face of the No.1 for being connected to No. four thermally conductive sheet left ends makes
With state attachment structure schematic diagram.
Fig. 4 is a kind of circuit theory connection structure schematic block diagram of the present embodiment.
Specific embodiment
The present invention will be further described below with reference to the accompanying drawings and embodiments.
Embodiment, speed heat water purifier system is shown referring to figures 1-4, including microprocessor 90, memory 91, man-machine friendship
Mutual module 92, Cloud Server 93 and the smart phone 94 for being equipped with APP, further include for user's water intaking water intaking part 95, be
Water intaking part provides the part 96 of heating up water of boiled water input, provided drainage part 97 and be drainage that drainage inputs for part of heating up water
Offer tap water input in part enters water section 98, and the Cloud Server and smart phone are connected to the network with microprocessor respectively,
The water intaking part is equipped with the water mechanism 99 that can temporarily store the boiled water that part is heated up water of heating up water;The memory, people
Machine interactive module, the water intaking control terminal of part, the control terminal for part of heating up water, the control terminal of drainage part, the control for entering water section
The control terminal of end and water mechanism is connected with the microprocessor respectively.
It further include the reservation module 100 being connected with the microprocessor.
The human-computer interaction module includes the fingerprint reader 101 being connected with the microprocessor respectively and key 102.
103 switch 104 of power supply of part of heating up water is connected in series on a relay 105, the control terminal of relay with it is micro-
Processor is connected.One relay 105 is connected in series on 103 circuit 104 of power supply for part of heating up water,
It is described enter water section to be equipped with can be the controllable water flow conveying mechanism 106 of drainage part input tap water flow velocity, it is described
The control terminal of water flow conveying mechanism is connected with the microprocessor.
The water flow conveying mechanism includes left chamber 42, right chamber 37 and flushing pipe 13, is respectively equipped in left chamber and in right chamber
Left squeezer structure 74 and right squeezer structure 73 are equipped with left cold solenoid valve 9, in the outlet pipe 11 of right chamber on the outlet pipe 10 of left chamber
It is equipped with right cold solenoid valve 12, No.1 is respectively equipped in the right end of flushing pipe and rinses water inlet and No. two flushing water inlets, left chamber
Outlet pipe and the outlet pipe of right chamber be connected rinsed on water inlet and on No. two flushing water inlets in No.1 respectively;It is rinsing
The left end of pipe is successively arranged from left to right can provide water outlet 48, two punchings of No.1 flushing of tap water input for drainage part
Wash out the mouth of a river 6 and No. three flushing water outlets 1;The control terminal of the left squeezer structure, the control terminal of right squeezer structure, left cold electromagnetism
The control terminal of valve and the control terminal of right cold solenoid valve are connected with the microprocessor respectively.
The water-filtering part is arranged with the different drainage mechanism 107 of filtering accuracy, the control terminal and Wei Chu of the drainage mechanism
Reason device is connected.
The drainage mechanism includes that upper orifice and No.1 rinse the DC tube 50 that water outlet is connected, upper orifice and No. two
Common screen pipe 8 and upper orifice that water outlet is connected and the fine filtering pipe 3 that No. three flushing water outlets are connected are rinsed,
It is equipped with common filter core 7 in common screen pipe, fine filter core 2 is equipped in fine filtering pipe.
The part of heating up water is equipped with the machine of heating up water heated up water respectively for the water of the different drainage mechanism filtering of filtering accuracy
The control terminal of structure 108, the mechanism of heating up water is connected with the microprocessor.
The mechanism of heating up water includes the insulated heat pipe 47, four of insulated heat pipe 57, three of No.1 insulated heat pipe 51, two
Number insulated heat pipe 4, six of insulated heat pipe 59, five insulated heat pipe 63, No.1 are heated up water pipe 56, No. two heat up water pipe 49 and three
It number heats up water pipe 5;The lower nozzle of DC tube is connected on the upper orifice of No.1 insulated heat pipe, under No.1 insulated heat pipe
Nozzle is connected on the upper orifice that No.1 heats up water pipe, and the heat up water lower nozzle of pipe of No.1 is connected in No. two insulated heat pipes
Upper orifice on, in No. two insulated heat pipes be equipped with No.1 temperature sensor 109;The lower nozzle of common screen pipe is connected
On the upper orifice of No. three insulated heat pipes, the lower nozzle of No. three insulated heat pipes is connected the upper orifice in No. two pipes of heating up water
On, the lower nozzle of No. two pipes of heating up water is connected on the upper orifice of No. four insulated heat pipes, is set in No. four insulated heat pipes
There are No. two temperature sensors 110;The lower nozzle of fine filtering pipe is connected on the upper orifice of No. five insulated heat pipes, and No. five
The lower nozzle of insulated heat pipe is connected on No. three upper orifices for heating up water pipe, and the lower nozzle of No. three pipes of heating up water is connected
On the upper orifice of No. six insulated heat pipes, No. three temperature sensors 111 are equipped in No. six insulated heat pipes;The No.1 temperature
Sensor, No. two temperature sensors and No. three temperature sensors are connected with the microprocessor respectively.
The water intaking part is additionally provided with the water intaking mechanism 112 that can export respectively the different boiled water of filtering accuracy, described to take
The control terminal of water dispenser structure is connected with the microprocessor.
The water intaking mechanism includes intake pipe 68 and diversion mechanism, and the diversion mechanism includes No.1 aqueduct 60, two
Aqueduct 62 and No. three aqueducts 65 are respectively equipped with No.1 water intaking hole, No. two water intaking holes and No. three water intakings in one end of intake pipe
Hole;No.1 aqueduct both ends are connected on the lower nozzle of No. two insulated heat pipes respectively and the No.1 of intake pipe water intaking hole
On, No. two aqueduct both ends are connected on the lower nozzle of No. four insulated heat pipes respectively and No. two water intaking holes of intake pipe
On, No. three aqueduct both ends are connected on the lower nozzle of No. six insulated heat pipes respectively and No. three water intaking holes of intake pipe
On;It is equipped with No.1 diversion solenoid valve 58 in No.1 aqueduct upper end, is equipped with No. two diversion solenoid valves 61 No. two aqueduct upper ends,
No. three diversion solenoid valves 64 are equipped with No. three aqueduct upper ends;The control terminal of the No.1 diversion solenoid valve, No. two diversion electromagnetism
The control terminal of valve and the control terminal of No. three diversion solenoid valves are connected with the microprocessor respectively.
The water mechanism includes that 20, No. two cold water holding tanks 22 of No.1 cold water holding tank and No. three cold water are temporary
The control terminal of case 21, the water mechanism is connected with the microprocessor.
The diversion mechanism further includes 18, No. two siphunculus 16 of No.1 siphunculus and No. three siphunculus 14;In No.1 aqueduct lower end
Equipped with No. four diversion solenoid valves 66, No. five diversion solenoid valves 67 are equipped with No. two aqueduct lower ends, are set No. three aqueduct lower ends
There are No. six diversion solenoid valves 72;The left port of No.1 siphunculus is connected in No.1 diversion solenoid valve and No. four diversion solenoid valves
Between No.1 aqueduct on, the right output port of No.1 siphunculus is connected the Inlet and outlet water connector in No.1 cold water holding tank
On, No. seven diversion solenoid valves 19 are equipped on No.1 siphunculus;The left port of No. two siphunculus is connected in No. two diversion electromagnetism
On No. two aqueducts between valve and No. five diversion solenoid valves, the right output port of No. two siphunculus is connected temporary in No. two cold water
On the Inlet and outlet water connector of case, No. eight diversion solenoid valves 17 are equipped on No. two siphunculus;The left port of No. three siphunculus is connected to connection
On No. three aqueducts between No. three diversion solenoid valves and No. six diversion solenoid valves, the right output port of No. three siphunculus is connected
On the Inlet and outlet water connector of No. three cold water holding tanks, No. nine diversion solenoid valves 15 are equipped on No. three siphunculus;It is cool in No.1
No.1 cold water level sensor is respectively equipped in boiled water holding tank, in No. two cold water holding tanks and in No. three cold water holding tanks
113, No. two cold water water level sensors 114 of device and No. three cold water water level sensors 115;The control of No. four diversion solenoid valves
End processed, the control terminal of No. five diversion solenoid valves, the control terminal of No. six diversion solenoid valves, the control terminal of No. seven diversion solenoid valves, eight
The control terminal of number diversion solenoid valve, the control terminal of No. nine diversion solenoid valves, No.1 cold water water level sensor, No. two cold water water
Level sensor and No. three cold water water level sensors are connected with the microprocessor respectively.
The speed heat water purifier system further includes thermally conductive switching mechanism 28, the thermally conductive switching mechanism can allow water mechanism with
Drainage mechanism carries out heat exchange.
The No.1 cold water holding tank, No. two cold water holding tanks, No. three cold water holding tanks, DC tube, common mistake
Chimney filter and fine filtering pipe are made by heat transfer material;No.1 water storage temperature sensor is equipped in No.1 cold water holding tank
116, it is equipped with No. two water storage temperature sensors 117 in No. two cold water holding tanks, three are equipped in No. three cold water holding tanks
Number water storage temperature sensor 118;The left end of a piece No.1 thermally conductive sheet 30 is thermally conductive to be connected on the outer surface of DC tube, and one No. two
On the thermally conductive outer surface for being connected to common screen pipe in the left end of thermally conductive sheet 31, the left end of No. three thermally conductive sheets 32 is thermally conductive to be connected to
On the outer surface of fine filtering pipe;The thermally conductive outer surface for being connected to No.1 cold water holding tank of the right end of piece No. four thermally conductive sheets 24
On, on the thermally conductive outer surface for being connected to No. two cold water holding tanks of the right end of No. five thermally conductive sheets 26, No. six thermally conductive sheets
On the thermally conductive outer surface for being connected to No. three cold water holding tanks of 29 right end;The right end of the No.1 thermally conductive sheet can pass through thermally conductive
The switching mechanism thermally conductive connection in left end with the left end of No. four thermally conductive sheets, the left end and No. six thermally conductive sheets of No. five thermally conductive sheets respectively;Institute
Stating the right ends of No. two thermally conductive sheets can be by the thermally conductive switching mechanism left end with the left end of No. four thermally conductive sheets, No. five thermally conductive sheets respectively
With the thermally conductive connection in left end of No. six thermally conductive sheets;The right ends of No. three thermally conductive sheets can by thermally conductive switching mechanism respectively with No. four
The left end of thermally conductive sheet, No. five thermally conductive sheets left end and No. six thermally conductive sheets the thermally conductive connection in left end;The control of the thermally conductive switching mechanism
End, No.1 water storage temperature sensor, No. two water storage temperature sensors and No. three water storage temperature sensors processed connect with microprocessor
It connects.
No.1 cold water holding tank and drainage mechanism is allowed to carry out using the thermally conductive conversion portion 89 of the No.1 of thermally conductive switching mechanism
Heat exchange.
The thermally conductive conversion portion 89 of the No.1 of the thermally conductive switching mechanism includes fixed frame 76, No.1 air cylinder 86, two pressures
82, No. three air cylinders 78 of cylinder, No.1 elastic conducting backing 75,85, No. two heat-insulated pull rods 81 of the heat-insulated pull rod of No.1 and No. three are heat-insulated
Pull rod 77;The control terminal of the control terminal of the No.1 air cylinder, the control terminal of No. two air cylinders and No. three air cylinders respectively with it is micro-
Processor is connected;The lower end edge of the lower end of the heat-insulated pull rod of No.1, the lower end of No. two heat-insulated pull rods and No. three heat-insulated pull rods
No.1 elastic conducting backing center line from left to right successively interval be fixedly connected on the upper surface of No.1 elastic conducting backing, institute
The upper end interval for stating the upper end of the heat-insulated pull rod of No.1, the upper end of No. two heat-insulated pull rods and No. three heat-insulated pull rods is fixedly connected on fixation
On frame;The cylinder seat of the cylinder seat of the No.1 air cylinder, the cylinder seat of No. two air cylinders and No. three air cylinders is fixedly connected in fixation
On frame, and the telescopic rod of the telescopic rod of the telescopic rod of the No.1 air cylinder, No. two air cylinders and No. three air cylinders is downward
Arrangement;It is fixedly connected with No.1 heat insulation 88 in 87 lower end of telescopic rod of No.1 air cylinder, in the telescopic rod 83 of No. two air cylinders
Lower end is fixedly connected with No. two heat insulations 84, is fixedly connected with No. three heat insulations 80 in 79 lower end of telescopic rod of No. three air cylinders;
The No.1 heat insulation, No. two heat insulations and No. three heat insulations, which are pressed into contact with the upper surface of No.1 elastic conducting backing, to be connect;
The left end of No.1 elastic conducting backing and the thermally conductive connection of right end of No.1 thermally conductive sheet;Under control of the microprocessor, when No.1 is calmed the anger
The telescopic rod of cylinder, which can compress the lower surface of No.1 elastic conducting backing when being elongated to setting length, thermally conductive to be connected to described No. four and leads
On the thermally conductive joint face of the No.1 of backing left end, when the telescopic rod of No.1 air cylinder shortens to setting length Shi Nengrang No.1 elastic conducting
The lower surface of backing and the thermally conductive joint face of No.1 of No. four thermally conductive sheet left ends separate;When the telescopic rod of No. two air cylinders is stretched
The lower surface of No.1 elastic conducting backing can be compressed when growing to setting length and thermally conductive be connected to the one of No. five thermally conductive sheet left ends
On number thermally conductive joint face, when the telescopic rod of No. two air cylinders shortens to the lower surface of setting length Shi Nengrang No.1 elastic conducting backing
It is separated with the thermally conductive joint face of No.1 of No. five thermally conductive sheet left ends;When the telescopic rod of No. three air cylinders is elongated to setting length
When the lower surface of No.1 elastic conducting backing can be compressed to the thermally conductive thermally conductive joint face of No.1 for being connected to No. six thermally conductive sheet left ends
On, when the lower surface that the telescopic rod of No. three air cylinders shortens to setting length Shi Nengrang No.1 elastic conducting backing is led with described No. six
The thermally conductive joint face of the No.1 of backing left end separates.
No. two cold water holding tanks and drainage mechanism are allowed to carry out heat using No. two thermally conductive conversion portions of thermally conductive switching mechanism
Amount exchange.
No. two thermally conductive conversion portions of the thermally conductive switching mechanism include 128, No. five air cylinders 129, six of No. four air cylinders
Number 130, No. two elastic conducting backings of air cylinder, No. four heat-insulated pull rods, No. five heat-insulated pull rods and No. six heat-insulated pull rods;No. four pressures
The control terminal of the control terminal of cylinder, the control terminal of No. five air cylinders and No. six air cylinders is connected with the microprocessor respectively;It is described
The lower end of the lower end of No. four heat-insulated pull rods, the lower end of No. five heat-insulated pull rods and No. six heat-insulated pull rods is along No. two elastic conducting backings
Center line from left to right successively interval be fixedly connected on the upper surface of No. two elastic conducting backings, No. four heat-insulated pull rods it is upper
The upper end interval at end, the upper end of No. five heat-insulated pull rods and No. six heat-insulated pull rods is fixedly connected on fixed frame;Described No. four are calmed the anger
The cylinder seat of the cylinder seat of cylinder, the cylinder seat of No. five air cylinders and No. six air cylinders is fixedly connected on fixed frame, and described No. four
The telescopic rod of the telescopic rod of air cylinder, the telescopic rod of No. five air cylinders and No. six air cylinders is arranged downward;In No. four air cylinders
Telescopic rod lower end be fixedly connected with No. four heat insulations, the telescopic rod lower end of No. five air cylinders be fixedly connected with No. five it is heat-insulated
Block is fixedly connected with No. six heat insulations in the telescopic rod lower end of No. six air cylinders;No. four heat insulations, No. five heat insulations and six
Number heat insulation, which is pressed into contact with the upper surface of No. two elastic conducting backings, to be connect;The left end of No. two elastic conducting backings and No. two it is thermally conductive
The thermally conductive connection of the right end of piece;Under control of the microprocessor, it can be incited somebody to action when the telescopic rod of No. four air cylinders is elongated to setting length
The lower surface of No. two elastic conducting backings compresses on thermally conductive No. two thermally conductive joint faces for being connected to No. four thermally conductive sheet left ends, when four
The telescopic rod of number air cylinder can allow the lower surface and No. four thermally conductive sheet left sides of No. two elastic conducting backings when shortening to setting length
No. two thermally conductive joint faces at end separate;It can be by No. two elastic heat conductings when the telescopic rod of No. five air cylinders is elongated to setting length
The lower surface of piece compresses on thermally conductive No. two thermally conductive joint faces for being connected to No. five thermally conductive sheet left ends, when stretching for No. five air cylinders
Contracting bar can be allowed when shortening to setting length No. two of the lower surface of No. two elastic conducting backings and No. five thermally conductive sheet left ends it is thermally conductive
Joint face separates;It can be by the following table face pressure of No. two elastic conducting backings when the telescopic rod of No. six air cylinders is elongated to setting length
On tight thermally conductive No. two thermally conductive joint faces for being connected to No. six thermally conductive sheet left ends, set when the telescopic rod of No. six air cylinders shortens to
The lower surface of No. two elastic conducting backings and No. two thermally conductive joint faces of No. six thermally conductive sheet left ends can be allowed to separate when measured length.
The thermally conductive conversion portion connection structure class of No.1 of the thermally conductive conversion portion structure of No. two of thermally conductive switching mechanism and thermally conductive switching mechanism
Seemingly, it therefore is not drawn into the accompanying drawings.
No. three cold water holding tanks and drainage mechanism are allowed to carry out heat using No. three thermally conductive conversion portions of thermally conductive switching mechanism
Amount exchange.
No. three thermally conductive conversion portions of thermally conductive switching mechanism include No. seven air cylinder 132, nine of air cylinder 131, eight pressures
133, No. three elastic conducting backings of cylinder, No. seven heat-insulated pull rods, No. eight heat-insulated pull rods and No. nine heat-insulated pull rods;No. seven air cylinders
Control terminal, the control terminal of the control terminal of No. eight air cylinders and No. nine air cylinders is connected with the microprocessor respectively;The No.1
The lower end of the lower end of heat-insulated pull rod, the lower end of No. two heat-insulated pull rods and No. three heat-insulated pull rods along No.1 elastic conducting backing center
Successively interval is fixedly connected on the upper surface of No.1 elastic conducting backing line from left to right, the upper end of the heat-insulated pull rod of No.1,
The upper end of No. two heat-insulated pull rods and the upper end interval of No. three heat-insulated pull rods are fixedly connected on fixed frame;The No.1 air cylinder
The cylinder seat of cylinder seat, the cylinder seat of No. two air cylinders and No. three air cylinders is fixedly connected on fixed frame, and the No.1 is calmed the anger
The telescopic rod of the telescopic rod of cylinder, the telescopic rod of No. two air cylinders and No. three air cylinders is arranged downward;In stretching for No.1 air cylinder
Contracting bar lower end is fixedly connected with No.1 heat insulation, is fixedly connected with No. two heat insulations, In in the telescopic rod lower end of No. two air cylinders
The telescopic rod lower end of No. three air cylinders is fixedly connected with No. three heat insulations;The No.1 heat insulation, No. two heat insulations and No. three every
Heat block is pressed into contact with the upper surface of No.1 elastic conducting backing and connect;The left end of No. three elastic conducting backings and No. three thermally conductive sheets
The thermally conductive connection of right end;It under control of the microprocessor, can be by No. three when the telescopic rod of No. seven air cylinders is elongated to setting length
The lower surface of elastic conducting backing compresses on thermally conductive No. three thermally conductive joint faces for being connected to No. four thermally conductive sheet left ends, presses when No. seven
The telescopic rod of cylinder can allow the lower surface and No. four thermally conductive sheet left ends of No. three elastic conducting backings when shortening to setting length
No. three thermally conductive joint faces separate;It can be by No. three elastic conducting backings when the telescopic rod of No. eight air cylinders is elongated to setting length
Lower surface compresses on thermally conductive No. three thermally conductive joint faces for being connected to No. five thermally conductive sheet left ends, when the telescopic rod of No. eight air cylinders
The lower surface of No. three elastic conducting backings and No. three thermally conductive connections of No. five thermally conductive sheet left ends can be allowed when shortening to setting length
Face separates;The lower surface of No. three elastic conducting backings can be compressed and be led when the telescopic rod of No. nine air cylinders is elongated to setting length
It is thermally connected on No. three thermally conductive joint faces of No. six thermally conductive sheet left ends, when the telescopic rod of No. nine air cylinders shortens to setting length
No. three thermally conductive joint faces for spending the lower surface and No. six thermally conductive sheet left ends of No. tri- elastic conducting backings of Shi Nengrang separate.It is thermally conductive
The thermally conductive conversion portion structure of No. three of switching mechanism is similar with the thermally conductive conversion portion connection structure of the No.1 of thermally conductive switching mechanism, therefore
It is not drawn into the accompanying drawings.
In water mechanism be equipped with can allow heat preservation mechanism keep the temperature heat preservation mechanism 119, the control terminal of the heat preservation mechanism with
Microprocessor is connected.
The specific structure of heat preservation mechanism are as follows: be arranged on the outer surface of No.1 cold water holding tank and kept the temperature by a No.1
Cylinder 120 drives the No.1 thermal protection cover 23 that can be slided up and down, and is arranged on the outer surface of No. two cold water holding tanks by one
No. two heat preservation cylinders 121 drive No. two thermal protection covers 25 that can be slided up and down, and are arranged on the outer surface of No. three cold water holding tanks
Have and drives No. three thermal protection covers 27 that can be slided up and down by a No. three heat preservation cylinders 122.
Hydraulic pressure can be entered drainage part by the left squeezer structure and the right squeezer structure.
The left squeezer structure includes No.1 cylinder 45, left water squeezing plate 43 and a left side into solenoid valve 40, and No.1 cylinder is fixed on
On the left inside wall of left chamber, left water squeezing plate is arranged in the right of No.1 cylinder, and the telescopic rod 44 of No.1 cylinder is fixedly connected on left pressure
On the left surface of water plate, the inner wall of left water squeezing plate and left chamber is in sealing contact to be slidably connected, and the inlet opening 41 of left chamber is arranged in left chamber
Right wall on, on the inlet opening that left chamber is arranged in into solenoid valve in the left side, in the left wall of left chamber be equipped with left air inlet 46, left chamber
The water inlet of outlet pipe 10 be arranged in the right wall of left chamber;
The right squeezer structure includes No. two cylinders 34, right water squeezing plate 36 and the right side into solenoid valve 38, and No. two cylinders are fixed on
On the right inner wall of right chamber, right water squeezing plate is arranged in the left of No. two cylinders, and the telescopic rod 35 of No. two cylinders is fixedly connected on right pressure
On the right surface of water plate, the inner wall of right water squeezing plate and right chamber is in sealing contact to be slidably connected, and the inlet opening 39 of right chamber is arranged in right chamber
Left wall on, on the inlet opening that right chamber is arranged in into solenoid valve in the right side, in the right wall of right chamber be equipped with right air inlet 33, right chamber
The water inlet of outlet pipe 11 be arranged in the left wall of right chamber;The control terminal of the No.1 cylinder, the left control terminal into solenoid valve,
The control terminal of No. two cylinders and the right control terminal into solenoid valve are connected with the microprocessor respectively.
The spiral stream guidance mechanism 123 that burnt water can be allowed to be threadingly advanced is equipped in mechanism of heating up water.
The specific structure of the spiral stream guidance mechanism are as follows: heat up water the pipe of pipe on the inner tubal wall that No.1 heats up water pipe along No.1
Internal perisporium is equipped with several No.1 internal tooth rib slots 53 in spiral distribution, thus one between adjacent two No.1s internal tooth rib slot
It number heats up water and to form No.1 internal tooth rib 52 on the inner tubal wall of pipe;Along in No. two pipes for heating up water pipe on the inner tubal wall of No. two pipes of heating up water
Peripheral wall is equipped with several in spiral distribution No. two internal tooth rib slots, so that the No.1 between adjacent two No. two internal tooth rib slots is burnt
No. two internal tooth ribs are formed on the inner tubal wall of water pipe;It is set on the inner tubal wall of No. three pipes of heating up water along the pipe internal perisporium of No. three pipes of heating up water
There are several in spiral distribution No. three internal tooth rib slots, thus No. three pipes of heating up water between adjacent two No. three internal tooth rib slots
No. three internal tooth ribs are formed on inner tubal wall.
Heated up water water stirring mechanism 124 can be stirred by being equipped in mechanism of heating up water.
The specific structure of the water stirring mechanism are as follows: heat up water in No.1 and be equipped with No.1 bracket 55 in pipe, turn on No.1 bracket
It is dynamic to be equipped with No.1 blade 54;No. two brackets are equipped in No. two pipes of heating up water, rotation is equipped with No. two blades on No. two brackets;Three
It number heats up water and to be equipped with No. three brackets in pipe, rotation is equipped with No. three blades on No. three brackets.
It is equipped on intake pipe after capable of being mixed the cold water of heat up water part outflow boiled water and the storage of water mechanism again
The He Wen mechanism 70 of output, the He Wen mechanism include the water intaking solenoid valve 69 being fixed on intake pipe, are fixed in intake pipe
The water intaking temperature sensor 125 for stirring water stick 71 He being arranged in intake pipe driven by stirring hydroelectric machine 127;The human-computer interaction mould
Block includes touch display screen 126;The water intaking control terminal of solenoid valve, touch display screen and water intaking temperature sensor respectively with it is micro-
Processor is connected.
After the present embodiment user can be connect by network with microprocessor by smart phone, user can be by intelligent hand
APP in machine be respectively set oneself institute's water receiving it is boiled after also to continue that the time span burnt, oneself institute's water receiving is arranged all is boiled
The water crossed, the water temperature that filtering crystal's degree of oneself institute's water receiving is set and oneself institute's water receiving is set, and the storage of setting data to depositing
In reservoir.And the information of reservation can also be stored in memory, user fetches water according to reservation information.When user goes water intaking,
As long as user can recall the data of oneself storage, speed heat water purifier system after confirmation by human-computer interaction module from memory
It begins to meet the water that user requires to user's output according to the pre-stored data of client.The present embodiment can be according to part of heating up water
The boiled speed of water is automatically adjusted the speed for sending water to part of heating up water into water section.It is boiled institute's water receiving to be set by user oneself
Also to continue the time span burnt afterwards, can guarantee user institute water receiving all is to burn boiled water, and user both can unrestricted choice oneself institute
Filtering crystal's degree of water receiving, user can also unrestricted choice oneself institute water receiving water temperature, intelligence degree is high, using simple, drinks water
It is convenient, good reliability.
Left squeezer structure and right squeezer structure can according to heat up water part the boiled speed of water automatically adjust into water section to
It heats up water and partially send the speed of water, to guarantee the time span that also continue burning after boiled by user oneself setting institute's water receiving, energy
Guaranteeing user institute water receiving all is to burn boiled water.
Filtration core is fitted without in DC tube, water directly without hindrance can be flowed out from DC tube.Flow to the water of DC tube
The impurity of the impurity of fine filter core upper surface and common filter core upper surface can be taken away to discharge, keep fine filter core upper surface clean
It is clean with common filter core upper surface.The different filtration core of filtering accuracy and user is able to satisfy not without the drainage part of filtration core
With needs.
Heat up water part can by user oneself set institute's water receiving it is boiled after also to continue burn time span, can guarantee user institute
Water receiving is all to burn boiled water, high reliablity.The mechanism that fetches water is easy to use convenient for user's water intaking.
This structure of the water mechanism cold water different convenient for user's stored filter precision, the water filtering for getting user
Precision reliability is high.
Heat in water mechanism can be carried out heat with the cold water in drainage part and exchanged by thermally conductive switching mechanism, can not only
Allow water boiled water fast cooling within the organization, moreover it is possible to the temperature of the cold water allowed in drainage part enter heat up water part before just rise
Height can substantially reduce the energy heated up water, energy-saving good.
Heat up water part hot-cast socket effect it is good, energy-saving height, high reliablity.
No.1 thermal protection cover, No. two thermal protection covers and No. three thermal protection covers can be respectively to No.1 cold water holding tanks, No. two cold water
Holding tank and No. three cold water holding tanks carry out temperature, make No.1 cold water holding tank, No. two cold water holding tanks and three
The temperature of cold water will not be too low in number cold water holding tank, user-friendly.
This structure of left squeezer structure can will also be continued the time span of burning by user oneself setting institute's water receiving after boiled,
Can guarantee user institute water receiving all is to burn boiled water, high reliablity.
No.1 internal tooth rib, No. two internal tooth ribs in spiral distribution and No. three internal tooth ribs in spiral distribution in spiral distribution
No.1 will can be flowed through respectively to heat up water pipe, the water screw advancement in No. two heat up water pipes and No. three pipes of heating up water, and increase water and No.1 is burnt
The tube wall contact area of water pipe, No. two heat up water pipes and No. three pipes of heating up water, heat exchange effect when heating up water is good, and water is easy to boiled.
Part of heating up water can be stirred the water heated up water in part, allow heat up water part outflow water degree of heating it is uniform, can
By property height.
The cold water that the boiled water that He Wen mechanism will heat up water partially out comes out with water mechanism is sufficiently mixed, and is mixed
Suitable user needs the water of mouthfeel temperature, and the water that user can be allowed to drink is both that whole is boiled, also user is allowed to drink water in time.It closes
Warm mechanism can allow user can unrestricted choice oneself institute water receiving water temperature, intelligence degree is high, using simple, drinks water conveniently, reliably
Property is good.
Embodiments of the present invention are described above in conjunction with attached drawing, however, the implementation is not limited to the above embodiments, this field
Those of ordinary skill can be with various changes and modifications may be made within the scope of the appended claims.
Claims (9)
1. speed heat water purifier system, which is characterized in that including microprocessor, memory, human-computer interaction module, Cloud Server and peace
Smart phone equipped with APP further includes providing the portion of heating up water of boiled water input for the water intaking part of user's water intaking, for water intaking part
Point, the drainage part of drainage input was provided for part of heating up water and enters water section, institute for what drainage part provided tap water input
It states Cloud Server and smart phone to be connected to the network with microprocessor respectively, the water intaking part, which is equipped with, can will heat up water what part was heated up water
The water mechanism that boiled water is temporarily stored;The memory, human-computer interaction module, the control terminal for part of fetching water, part of heating up water
Control terminal, the control terminal of drainage part, the control terminal of the control terminal for entering water section and water mechanism respectively with microprocessor phase
Connection;It is described enter water section to be equipped with can be the controllable water flow conveying mechanism of drainage part input tap water flow velocity, the water flow is defeated
The control terminal of mechanism is sent to be connected with the microprocessor;
The water flow conveying mechanism includes left chamber, right chamber and flushing pipe, in left chamber and is respectively equipped with left squeezer structure in right chamber
With right squeezer structure, it is equipped with left cold solenoid valve on the outlet pipe of left chamber, right cold solenoid valve, In are equipped on the outlet pipe of right chamber
The right end of flushing pipe is respectively equipped with No.1 and rinses water inlet and No. two flushing water inlets, the outlet pipe of left chamber and the outlet pipe of right chamber
It is connected and is rinsed on water inlet and on No. two flushing water inlets in No.1 respectively;It is successively set from left to right in the left end of flushing pipe
There is the No.1 that can provide tap water input for drainage part to rinse water outlet, No. two flushing water outlets and No. three flushing water outlets
Mouthful;The control terminal of the left squeezer structure, the control terminal of right squeezer structure, the control terminal of left cold solenoid valve and right cold solenoid valve
Control terminal is connected with the microprocessor respectively.
2. speed heat water purifier system according to claim 1, which is characterized in that the water-filtering part is arranged with filtering accuracy not
Same drainage mechanism, the control terminal of the drainage mechanism are connected with the microprocessor.
3. speed heat water purifier system according to claim 2, which is characterized in that the part of heating up water is equipped with as filtering accuracy
The mechanism of heating up water that the water of different drainage mechanism filterings is heated up water respectively, control terminal and the microprocessor phase of the mechanism of heating up water
Connection.
4. speed heat water purifier system according to claim 3, which is characterized in that the water intaking part is additionally provided with and can will filter
The control terminal of the water intaking mechanism that the different boiled water of precision exports respectively, the water intaking mechanism is connected with the microprocessor.
5. speed heat water purifier system according to claim 4, which is characterized in that the water mechanism includes No.1 cold water
Holding tank, No. two cold water holding tanks and No. three cold water holding tanks, the control terminal of the water mechanism are connected with microprocessor
It connects.
6. speed heat water purifier system according to claim 5, which is characterized in that the speed heat water purifier system further includes leading
Hot-cast socket mechanism, the thermally conductive switching mechanism can allow water mechanism to carry out heat with drainage mechanism and exchange.
7. speed heat water purifier system according to claim 6, which is characterized in that thermally conductive using the No.1 of thermally conductive switching mechanism
Conversion portion carries out heat with drainage mechanism by No.1 cold water holding tank and exchanges.
8. speed heat water purifier system according to claim 6, which is characterized in that thermally conductive using No. two of thermally conductive switching mechanism
Conversion portion allows No. two cold water holding tanks to carry out heat with drainage mechanism and exchanges;Using No. three thermally conductive turn of thermally conductive switching mechanism
Changing part allows No. three cold water holding tanks and drainage mechanism progress heat to exchange.
9. speed heat water purifier system according to claim 3, which is characterized in that be equipped with to stir in mechanism of heating up water and be burnt
The water stirring mechanism of water.
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Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN202829678U (en) * | 2012-09-27 | 2013-03-27 | 广东豪美电器有限公司 | Self-service IC (integrated circuit) card pipeline water purifying machine |
CN103948313A (en) * | 2014-04-11 | 2014-07-30 | 福建金源泉科技发展有限公司 | Intelligent water fountain |
CN104799694A (en) * | 2015-05-21 | 2015-07-29 | 广东碧丽饮水设备有限公司 | Smart sterile multifunctional automatic water dispenser |
CN104950858A (en) * | 2015-06-27 | 2015-09-30 | 广东天际电器股份有限公司 | Intelligent water dispensing system capable of collecting user health information and application of system |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
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US9072404B2 (en) * | 2011-02-26 | 2015-07-07 | Khristian Bombeck | Method for enabling complex order specifications to a hot beverage brewing system |
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2016
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Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN202829678U (en) * | 2012-09-27 | 2013-03-27 | 广东豪美电器有限公司 | Self-service IC (integrated circuit) card pipeline water purifying machine |
CN103948313A (en) * | 2014-04-11 | 2014-07-30 | 福建金源泉科技发展有限公司 | Intelligent water fountain |
CN104799694A (en) * | 2015-05-21 | 2015-07-29 | 广东碧丽饮水设备有限公司 | Smart sterile multifunctional automatic water dispenser |
CN104950858A (en) * | 2015-06-27 | 2015-09-30 | 广东天际电器股份有限公司 | Intelligent water dispensing system capable of collecting user health information and application of system |
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