CN205697255U - A kind of multi-functional instant drink type warms dual-purpose phase-transition heat-storage energy-saving water boiler - Google Patents

Abstract

The utility model discloses a kind of multi-functional instant drink type and warm dual-purpose phase-transition heat-storage energy-saving water boiler, add hot tank, boiled water storage tank and reservoir including the water mangetizer being interconnected, cylindrical four tubular type stacking spiral coil phase-change heat-exchangers, boiled water；Described phase-change heat-exchanger includes that become a mandarin supervisor, water at low temperature return main, boiled water of water at low temperature becomes a mandarin supervisor and warm water goes out stream supervisor；Purpose be in order to solve common thousand boiling water, water in tradition boiler, hot water is the most boiling hot drinks the problem such as inconvenience and energy waste, it is provided that a kind of personnel for various places can provide hot water and warm water, energy-conserving and environment-protective, convenient health simultaneously；And use many groups signals collecting such as water level, temperature and current probe and warning system, water pump, electromagnetic valve etc. are carried out Based Intelligent Control.This utility model is practical, on the premise of saving the energy, it is achieved the efficient conversion between warm water, provides convenient for users.

Description

A kind of multi-functional instant drink type warms dual-purpose phase-transition heat-storage energy-saving water boiler

Technical field

This utility model belongs to boiler technical field, especially relates to a kind of multi-functional instant drink type and warms dual-purpose phase-transition heat-storage energy-saving water boiler.

Background technology

Boiler in office space, hotel, restaurant, industrial and mining establishment, school, the place such as dining room be widely used, along with people's growing interest to drinking water quality, requirement improves constantly, but traditional boiler is faced with problems at structure, function, the aspect such as energy-conservation, it would be highly desirable to the Novel water boiler of a kind of more efficient energy-saving safe.

At present, having a class electricity consumption to be heated to the boiler of boiling, its electric heater has been predominantly on a constant volume

Make it seethe with excitement in long-pending water tank and to water therein heating, then release through faucet and drink.Although this type of boiler is provided that the drinking water through boiling, but this type of boiler also exists to use in the Dense crowds such as middle and primary schools and easily causes scald, dangerous, and nearly 100 DEG C of water need to be cooled to 40 DEG C of right and lefts drinkable, unnecessary heat scatters and disappears two problems of waste.

Traditional boiler hot-water heating system is made up of heat insulation tank and heating element, and initial start-up has one period of heating waiting time, just can drink after the water in heat insulation tank is heated to consumption temperature.In standby, owing to heat scatters and disappears in heat insulation tank, need cycled on heating, reach heat insulation effect.This most boiled and constantly insulation water is commonly called as " thousand boiling water ", and long-term drink has harmful effect to person health.

The hot water that single hot water boiler provides is the most boiling hot, and it is the most inconvenient on the one hand to drink, i.e. the cooling long period just can drink, and is on the other hand then to use more dangerous, often occurs drinking person filling the accident that the time of falling hot water is burned；And existing water boiling device is mainly with the mixing of boiled water with cold water, reduce the temperature of boiled water, the most so-called " water ", but the hot water that this kind of water boiling device obtains not necessarily can reach sanitary standard, the harmful substances such as the microorganism that contains in cold water, pathogenic bacteria, parasite can mix in warm water for human consumption, long-term drink these through the water of heating disinfection, people do not known from experience generation harm.

Additionally, water vapour can be produced when common boiler is by cool water heating to boiling, therefore substantial amounts of water vapour can be produced when being designed with greatly a steam drain for discharge boiling, the water vapour causing high temperature wastes, and both wasted electric energy but also because of the evaporation of water vapour, the body surface near boiler was caused damage in various degree.

Finally, although common boiler is provided with simple heat-insulation layer, burned boiled water still can the most outwards distribute heat.Some boilers are in order to ensure that the water picked out, the most all close to the temperature of boiled water, has heat insulation function, and its principle is exactly constantly heating, causes the waste of the energy.

Summary of the invention

The purpose of this utility model be in order to solve common thousand boiling water, water in tradition boiler, hot water is the most boiling hot drinks the problem such as inconvenience and energy waste, there is provided a kind of personnel for large, medium and small place can provide hot water and warm water simultaneously, energy-conserving and environment-protective, personnel according to self needing selection boiled water or can i.e. drink warm water, it is achieved convenient and healthy water multi-functional instant drink type warms dual-purpose phase-transition heat-storage energy-saving water boiler.

For solving above-mentioned technical problem, the technical solution adopted in the utility model is: a kind of multi-functional instant drink type warms dual-purpose phase-transition heat-storage energy-saving water boiler, adds hot tank, boiled water storage tank and reservoir including water mangetizer, cylindrical four tubular type stacking spiral coil phase-change heat-exchangers, boiled water；Described phase-change heat-exchanger includes that become a mandarin supervisor, water at low temperature return main, boiled water of water at low temperature becomes a mandarin supervisor and warm water goes out stream supervisor；Described water mangetizer water inlet is connected with inlet channel, this water mangetizer outlet is connected by the pipeline supervisor that becomes a mandarin with the water at low temperature of phase-change heat-exchanger, it is filled with phase-change material inside described phase-change heat-exchanger, described water at low temperature becomes a mandarin to be responsible for and is connected with the first cascade spiral coil of perpendicular setting, this first cascade spiral coil end is connected with water at low temperature return main, described water at low temperature return main and the water at low temperature supervisor that becomes a mandarin be arranged in parallel, and this water at low temperature return main adds hot tank water inlet by pipeline with boiled water and is connected；Described boiled water is opened hot tank outlet and is connected with boiled water storage tank water inlet by pipeline；First outlet of described boiled water storage tank is connected by the pipeline supervisor that becomes a mandarin with the boiled water of phase-change heat-exchanger, the supervisor that becomes a mandarin goes out to flow supervisor with warm water by the second layer coiled coil coil pipe of perpendicular setting and is connected described boiled water, and described warm water goes out stream to be responsible for and be connected with reservoir water inlet by pipeline.

Be provided with water pump on pipeline between described water mangetizer and phase-change heat-exchanger, described water pump with controller for electrically connecting.

Described boiled water is from top to bottom respectively arranged with the first high water level signal probe, temperature signal probe and the first low water level signal probe in adding hot tank, this boiled water is additionally provided with heater in adding hot tank, described boiled water adds and is provided with the first electromagnetic valve on the pipeline between hot tank and boiled water storage tank；Described first high water level signal probe, temperature signal probe, the first low water level signal probe, heater and the first electromagnetic valve are electrically connected with the controller respectively.

From top to bottom be respectively arranged with the second high water level signal probe and the second low water level signal probe in described boiled water storage tank, the boiled water of this boiled water storage tank and phase-change heat-exchanger become a mandarin supervisor between pipeline on be provided with the second electromagnetic valve；Three-hypers water level signal probe, middle water level signal probe and the 3rd low water level signal probe from top to bottom it is respectively arranged with in described reservoir, described warm water goes out to be provided with current probe on the pipeline between stream supervisor and reservoir, and described second high water level signal probe, the second low water level signal probe, three-hypers water level signal probe, middle water level signal probe, the 3rd low water level signal probe, current probe and the second electromagnetic valve are electrically connected with the controller respectively.

The capacity that described boiled water adds hot tank is equal with boiled water storage tank capacity, and described reservoir capacity is that boiled water adds hot tank and the half of boiled water storage tank capacity.

Described water at low temperature becomes a mandarin supervisor, water at low temperature return main and the first cascade spiral coil that is connected with two supervisors constitutes water at low temperature heat exchanging pipe；Described boiled water become a mandarin supervisor, warm water goes out stream supervisor and the second layer coiled coil coil pipe that is connected with two supervisors constitutes high-temperature water heat exchanging pipe.

Described water mangetizer is connected with external water source from the beginning by inlet channel.

Second outlet of described boiled water storage tank is connected with boiled water faucet by pipeline.

Described reservoir outlet is connected with warm water faucet by pipeline.

Described phase-change heat-exchanger, boiled water add hot tank, boiled water storage tank is provided with heat-insulation layer outside reservoir.

Owing to using technique scheme, (1) this utility model uses stand alone type boiled water storage tank, and boiled water storage tank capacity is identical with boiled water heating tankage, the capacity of reservoir is then the half of boiled water storage tank capacity, efficiently solve " thousand boiling water ", hot water that " water " and boiler provide is the most boiling hot drinks the difficult problems such as inconvenience, after magnetic water is heated to boiling in boiled water adds hot tank 3, boiled water flows in boiled water storage tank and stores, it is to avoid boiled water is formed " thousand boiling water " by heating for multiple times；Boiled water storage tank and boiled water add hot tank and independently separate, it is to avoid cold and hot aqueous phase is mixed and forms " water "；Boiled water generates warm water after phase-change heat-exchanger heat exchange, and warm water is directly drunk for personnel in being stored in reservoir 5, solves the most boiling hot problem drinking inconvenience of hot water.(2) many groups signals collecting such as some water levels, temperature and current probe and warning system are used, water pump, electromagnetic valve etc. are carried out Based Intelligent Control, operational water level, temperature and the associating feedback system of current probe, achieve and the signal in whole system is effectively gathered, feeds back and analyzes, realized the accurate of water pump, electromagnetic valve etc. and Based Intelligent Control by controller.(3) using cylindrical four tubular type stacking spiral coil phase-change heat-exchangers, the structure of stacking spiral coil effectively increases the contact area in current and phase-change heat-exchanger between phase-change material so that heat exchange is more fully, efficiently.null(4) heat-insulation layer can use vacuum heat-insulating layer or multilayer insulant layer，Boiled water is heated case、Boiled water storage tank、Reservoir and phase-change heat-exchanger carry out isothermal holding，Common boiler is in order to ensure that the water picked out is the most all close to the temperature of boiled water，There is heat insulation function，Its principle is exactly constantly heating，Cause the waste of the energy，And the boiler mentioned in this utility model uses vacuum heat-insulating layer or insulation material to boiled water storage tank、Reservoir、Phase-change heat-exchangers etc. carry out isothermal holding，In the occasion that densely populated place and boiled water or warm water demand are bigger，Boiled water and warm water in boiler will not be for a long time in the time that memory box stores up，It is less that temperature reduces amplitude，Therefore after this kind of mode is incubated，Boiled water in casing and warm water reach corresponding temperature requirement remaining to after short-term storage，It is achieved thereby that the saving to the energy utilizes.

Accompanying drawing explanation

Below with reference to accompanying drawing and combine example and be specifically described this utility model, advantage of the present utility model and implementation will become apparent from, wherein content shown in accompanying drawing is only used for explanation of the present utility model, and do not constitute the restriction gone up in all senses of the present utility model, in the accompanying drawings:

Fig. 1 is structural representation of the present utility model

Fig. 2 is the structural representation of this utility model phase-change heat-exchanger

In figure:

Detailed description of the invention

As depicted in figs. 1 and 2, a kind of multi-functional instant drink type of this utility model warms dual-purpose phase-transition heat-storage energy-saving water boiler, adds hot tank 3, boiled water storage tank 4 and reservoir 5 including water mangetizer 1, cylindrical four tubular type stacking spiral coil phase-change heat-exchangers 2, boiled water；Described phase-change heat-exchanger 2 includes that become a mandarin supervisor 6, water at low temperature return main 7, boiled water of water at low temperature becomes a mandarin supervisor 8 and warm water goes out to flow supervisor 9；Described water mangetizer 1 water inlet is connected with inlet channel 10, this water mangetizer 1 outlet 6 is connected by the water at low temperature of pipeline with phase-change heat-exchanger 2 supervisor that becomes a mandarin, described phase-change heat-exchanger 2 is internal is filled with phase-change material, the described water at low temperature supervisor that becomes a mandarin 6 is connected with the first cascade spiral coil 11 of perpendicular setting, this first cascade spiral coil 11 end is connected with water at low temperature return main 7, described water at low temperature return main 7 and the water at low temperature supervisor that becomes a mandarin 6 be arranged in parallel, and this water at low temperature return main 7 adds hot tank 3 water inlet by pipeline with boiled water and is connected；Described boiled water is opened hot tank 3 outlet and is connected with boiled water storage tank 4 water inlet by pipeline；First outlet of described boiled water storage tank 48 is connected by the boiled water of pipeline with phase-change heat-exchanger 2 supervisor that becomes a mandarin, the supervisor 8 that becomes a mandarin goes out stream supervisor 9 by the second layer coiled coil coil pipe 12 of perpendicular setting and warm water and is connected described boiled water, and described warm water goes out stream to be responsible for 9 and pass through pipeline and be connected with reservoir 5 water inlet;Be provided with water pump 13 on pipeline between described water mangetizer 1 and phase-change heat-exchanger 2, described water pump 13 with controller 14 for electrically connecting；Described boiled water is from top to bottom respectively arranged with the first high water level signal probe 15, temperature signal probe 16 and the first low water level signal probe 17 in adding hot tank 3, this boiled water is additionally provided with heater 18 in adding hot tank 3, described boiled water adds and is provided with the first electromagnetic valve 19 on the pipeline between hot tank 3 and boiled water storage tank 4；Described first high water level signal probe 15, temperature signal probe the 16, first low water level signal probe 17, heater 18 and the first electromagnetic valve 19 electrically connect with controller 14 respectively；From top to bottom be respectively arranged with the second high water level signal probe 20 and the second low water level signal probe 21 in described boiled water storage tank 4, the boiled water of this boiled water storage tank 4 and phase-change heat-exchanger 2 become a mandarin supervisor 8 between pipeline on be provided with the second electromagnetic valve 22；Three-hypers water level signal probe 23, middle water level signal probe 24 and the 3rd low water level signal probe 25 from top to bottom it is respectively arranged with in described reservoir 5, described warm water goes out to be provided with current probe 26 on the pipeline between stream supervisor 9 and reservoir 5, and described second high water level signal probe the 20, second low water level signal probe 21, three-hypers water level signal probe 23, middle water level signal probe the 24, the 3rd low water level signal probe 25, current probe 26 and the second electromagnetic valve 22 electrically connect with controller 14 respectively；The capacity that described boiled water adds hot tank 3 is equal with boiled water storage tank 4 capacity, and described reservoir 5 capacity is that boiled water adds hot tank 3 and the half of boiled water storage tank 4 capacity；Described water at low temperature becomes a mandarin supervisor 6, water at low temperature return main 7 and the first cascade spiral coil 11 that is connected with two supervisors constitutes water at low temperature heat exchanging pipe；Described boiled water become a mandarin supervisor 8, warm water goes out stream supervisor 9 and the second layer coiled coil coil pipe 12 that is connected with two supervisors constitutes high-temperature water heat exchanging pipe；Described water mangetizer 1 is connected with external water source from the beginning by inlet channel 10；Second outlet of described boiled water storage tank 4 is connected with boiled water faucet by pipeline；Described reservoir 5 outlet is connected with warm water faucet by pipeline；Described phase-change heat-exchanger 2, boiled water add hot tank 3, boiled water storage tank 4 is provided with heat-insulation layer outside reservoir 5.

The work process of this example: external water source from the beginning enters water mangetizer 1 and through magnetization treatment by inlet channel 10, water at low temperature after magnetization enters the water at low temperature in cylindrical four tubular type stacking spiral coil phase-change heat-exchangers 2 under the driving of water pump 13 and becomes a mandarin supervisor 6, the water at low temperature phase-change material in first cascade spiral coil 11 with phase-change heat-exchanger 2 again carries out heat exchange, and water at low temperature converges and flows out phase-change heat-exchanger 2 into water at low temperature return main 7.Water at low temperature is sent to boiled water and adds hot tank 3, when in case, water level peaks, boiled water adds the heater 18 in hot tank 3 to start water at low temperature is heated to boiling temperature, the first electromagnetic valve 19 that now connection boiled water adds on the pipeline between hot tank 3 and boiled water storage tank 4 is opened, and boiled water all flows into boiled water storage tank 4.nullWhen the water level of boiled water storage tank 4 peaks，Connect boiled water storage tank 4 to open under the instruction of controller 14 with the second electromagnetic valve 22 on the pipeline of phase-change heat-exchanger 2，Boiled water inflow boiled water becomes a mandarin and is responsible for 8 and enters phase-change heat-exchanger 2，Phase-change material in second layer coiled coil coil pipe 12 with phase-change heat-exchanger 2 carries out heat exchange again，Melt after phase-change material heat absorption，Boiled water heat release in second layer coiled coil coil pipe 12 also becomes warm water after lowering the temperature，Warm water converges and goes out to flow supervisor 9 into warm water，Warm water current flow into reservoir 5 through water pipe again，Current probe 26 it is provided with on this water pipe，When warm water is once flow through，Controller 14 sends instruction to water pump 13 after accepting this signal，Magnetization water at low temperature in water mangetizer 1 is sent into phase-change heat-exchanger 2 by water pump 13，Water at low temperature carries out heat exchange with the phase-change material in phase-change heat-exchanger 2，The phase-change material melted carries out heat release and again solidifies water at low temperature，Heat up after water at low temperature heat absorption，Finally flow into boiled water and add hot tank 3.

When water-filling and when reaching high water level in boiled water adds hot tank 3, first high water level signal probe 15 transmits signal to controller 14, controller 14 sends instruction by after signal processing, control heater 18 water in case is heated, when the boiling temperature that water temperature reaches locality is the most boiled, temperature signal probe 16 transmits signal to controller 14, and controller 14 sends instruction control heater 18 to be stopped heating, and control the first electromagnetic valve 19 and open, boiled water flows into boiled water storage tank 4.First low water level signal probe 17 also can add the securing member in hot tank 3 as boiled water, when whole system or boiling water heater 3 occur that water level is 0 for a long time in the faults such as leakage cause case, first low water level signal probe 17 sends alarm signal to controller 14, in order to maintenance nurse.

Magnetic water enters water at low temperature after water pump 13 pressurizes and becomes a mandarin supervisor 6, and low temperature magnetic water enters second layer coiled coil coil pipe 12 and carries out heat exchange with the phase-change material in phase-change heat-exchanger 2, after conflux into water at low temperature return main 7.Meanwhile, boiled water becomes a mandarin through boiled water and is responsible for 8 entrance phase-change heat-exchangers 2, phase-change material in second layer coiled coil coil pipe 12 with phase-change heat-exchanger 2 carries out heat exchange again, melt after phase-change material heat absorption, boiled water heat release in second layer coiled coil coil pipe 12 also becomes warm water after lowering the temperature, and warm water converges and goes out to flow supervisor 9 into warm water.In brief: boiled water makes phase-change material absorb heat, and water at low temperature makes phase change material releases heat so that boiled water cooling becomes warm water and enters reservoir 5, and water at low temperature intensification is admitted to boiled water and adds hot tank 3, has reached the purpose of waste heat recovering energy conserving.

First low water level signal probe, the second low water level signal probe and the 3rd low water level signal probe add hot tank 3, boiled water storage tank 4, the low water alarm of reservoir 5 respectively as boiled water, and in case, water level is to send alarm signal when 0 for a long time.

In phase-change heat-exchanger 2 water at low temperature become a mandarin supervisor 6, water at low temperature return main 7 and with two supervisor UNICOMs first cascade spiral coils 11 constitute water at low temperature heat exchanging pipe；Boiled water become a mandarin supervisor 8, warm water go out stream supervisor 9 and with two supervisor UNICOMs second layer coiled coil dish 12 pipes constitute high-temperature water heat exchanging pipe；Phase-change material and relevant stabilizer is filled in space between cylindrical housings to water at low temperature heat exchanging pipe, high-temperature water heat exchanging pipe.

Boiled water adds hot tank 3, boiled water storage tank 4 is outside equipped with heat-insulation layer with reservoir 5, takes vacuum heat-preserving or coated with multiple layer insulation material to be incubated the boiled water in these casings and warm water.

The a set of universities, middle and primary schools' multi-functional instant drink type that teachers and students' day room temperature, boiled water are drunk in the school that supplies of embodiment 1 warms dual-purpose phase-transition heat-storage energy-saving water boiler,

Boiler starts and water cycle process for the first time: after external water source from the beginning enters water mangetizer 1 by inlet channel 10, through water mangetizer 1 magnetization treatment, generates antiscale, anticorrosion, sterilization, the magnetic water of algae removal.Water at low temperature after magnetization enters the water at low temperature in cylindrical four tubular type stacking spiral coil phase-change heat-exchangers 2 under the driving of water pump 13 and becomes a mandarin supervisor 6, water at low temperature carries out heat exchange through first cascade spiral coil 11 with the phase-change material changed in phase-change heat-exchanger 2 again, water at low temperature converges and flows out phase-change heat-exchanger 2 into water at low temperature return main 7, water at low temperature is sent to boiled water and adds hot tank 3, when in case, water level peaks, boiled water adds the heater 18 in hot tank 3 to start water at low temperature is heated to boiling temperature, the first electromagnetic valve 19 that now connection boiled water adds on the pipeline between hot tank 3 and boiled water storage tank 4 is opened, boiled water all flows into boiled water storage tank 4.nullDue to boiled water, to add the capacity of hot tank 3 identical with the capacity of boiled water storage tank 4，When the water level of boiled water storage tank 4 peaks，Connect boiled water storage tank 4 to open under the instruction of controller 14 with the second electromagnetic valve 22 on the pipeline of phase-change heat-exchanger 2，Boiled water inflow boiled water becomes a mandarin and is responsible for 8 and enters phase-change heat-exchanger 2，Phase-change material in second layer coiled coil coil pipe 12 with phase-change heat-exchanger 2 carries out heat exchange again，Melt after phase-change material heat absorption，Boiled water heat release in second layer coiled coil coil pipe 12 also becomes warm water after lowering the temperature，Warm water converges and goes out to flow supervisor 9 into warm water，Warm water current flow into reservoir 5 through pipeline again，Current probe 26 it is provided with on this pipeline，When warm water is once flow through，Controller 14 sends instruction to water pump 13 after accepting this signal，Magnetization water at low temperature in water mangetizer 1 is sent into phase-change heat-exchanger 2 by water pump 13，Water at low temperature carries out heat exchange with the phase-change material in phase-change heat-exchanger 2，The phase-change material melted carries out heat release and again solidifies water at low temperature，Heat up after water at low temperature heat absorption，Finally it is admitted to boiled water and adds hot tank 3，So far a heating and recuperated cycle are completed.And the filled water amount during now boiled water adds hot tank 3 is the half of tank capacity, the moisture storage capacity of boiled water storage tank 4 also reaches the half of casing reserves, and the filled water amount of reservoir 5 reaches full state.

After starting this boiler manually and carrying out for the first time water circulation and heating process, this boiler in the on state, can be under the manipulation of control unit therein, and whether the difference or not for teachers and students in school's temperature, amount of hot water automatically control.The target of energy-conserving and environment-protective is achieved while solving the problems such as " water ", " thousand boiling water " " during drinking water boiling the hottest ".

In occurring the problems such as breakage at boiler inner bin and causing casing during water level abnormality, in casing, this information is just reported to controller 14 by corresponding water-level probe, and controller 14 is made a response and reported to the police.

Above embodiment of the present utility model is described in detail, but described content has been only preferred embodiment of the present utility model, it is impossible to be considered for limiting practical range of the present utility model.All impartial changes made according to this utility model scope and improvement etc., within all should still belonging to this patent covering scope.

Claims (10)

1. a multi-functional instant drink type warms dual-purpose phase-transition heat-storage energy-saving water boiler, it is characterised in that: include that water mangetizer, cylindrical four tubular type stacking spiral coil phase-change heat-exchangers, boiled water add hot tank, boiled water storage tank and reservoir；Described phase-change heat-exchanger includes that become a mandarin supervisor, water at low temperature return main, boiled water of water at low temperature becomes a mandarin supervisor and warm water goes out stream supervisor；Described water mangetizer water inlet is connected with inlet channel, this water mangetizer outlet is connected by the pipeline supervisor that becomes a mandarin with the water at low temperature of phase-change heat-exchanger, it is filled with phase-change material inside described phase-change heat-exchanger, described water at low temperature becomes a mandarin to be responsible for and is connected with the first cascade spiral coil of perpendicular setting, this first cascade spiral coil end is connected with water at low temperature return main, described water at low temperature return main and the water at low temperature supervisor that becomes a mandarin be arranged in parallel, and this water at low temperature return main adds hot tank water inlet by pipeline with boiled water and is connected；Described boiled water is opened hot tank outlet and is connected with boiled water storage tank water inlet by pipeline；First outlet of described boiled water storage tank is connected by the pipeline supervisor that becomes a mandarin with the boiled water of phase-change heat-exchanger, the supervisor that becomes a mandarin goes out to flow supervisor with warm water by the second layer coiled coil coil pipe of perpendicular setting and is connected described boiled water, and described warm water goes out stream to be responsible for and be connected with reservoir water inlet by pipeline.

Multi-functional instant drink type the most according to claim 1 warm dual-purpose phase-transition heat-storage energy-saving water boiler, it is characterised in that: be provided with water pump on the pipeline between described water mangetizer and phase-change heat-exchanger, described water pump with controller for electrically connecting.

Multi-functional instant drink type the most according to claim 1 warms dual-purpose phase-transition heat-storage energy-saving water boiler, it is characterized in that: described boiled water is from top to bottom respectively arranged with the first high water level signal probe, temperature signal probe and the first low water level signal probe in adding hot tank, this boiled water is additionally provided with heater in adding hot tank, described boiled water adds and is provided with the first electromagnetic valve on the pipeline between hot tank and boiled water storage tank；Described first high water level signal probe, temperature signal probe, the first low water level signal probe, heater and the first electromagnetic valve are electrically connected with the controller respectively.

Multi-functional instant drink type the most according to claim 1 warms dual-purpose phase-transition heat-storage energy-saving water boiler, it is characterized in that: in described boiled water storage tank, be from top to bottom respectively arranged with the second high water level signal probe and the second low water level signal probe, the boiled water of this boiled water storage tank and phase-change heat-exchanger become a mandarin supervisor between pipeline on be provided with the second electromagnetic valve；Three-hypers water level signal probe, middle water level signal probe and the 3rd low water level signal probe from top to bottom it is respectively arranged with in described reservoir, described warm water goes out to be provided with current probe on the pipeline between stream supervisor and reservoir, and described second high water level signal probe, the second low water level signal probe, three-hypers water level signal probe, middle water level signal probe, the 3rd low water level signal probe, current probe and the second electromagnetic valve are electrically connected with the controller respectively.

Multi-functional instant drink type the most according to claim 1 warms dual-purpose phase-transition heat-storage energy-saving water boiler, it is characterized in that: the capacity that described boiled water adds hot tank is equal with boiled water storage tank capacity, described reservoir capacity is that boiled water adds hot tank and the half of boiled water storage tank capacity.

Multi-functional instant drink type the most according to claim 1 warms dual-purpose phase-transition heat-storage energy-saving water boiler, it is characterised in that: described water at low temperature becomes a mandarin supervisor, water at low temperature return main and the first cascade spiral coil that is connected with two supervisors constitutes water at low temperature heat exchanging pipe；Described boiled water become a mandarin supervisor, warm water goes out stream supervisor and the second layer coiled coil coil pipe that is connected with two supervisors constitutes high-temperature water heat exchanging pipe.

Multi-functional instant drink type the most according to claim 1 warms dual-purpose phase-transition heat-storage energy-saving water boiler, it is characterised in that: described water mangetizer is connected with external water source from the beginning by inlet channel.

Multi-functional instant drink type the most according to claim 1 warms dual-purpose phase-transition heat-storage energy-saving water boiler, it is characterised in that: the second outlet of described boiled water storage tank is connected with boiled water faucet by pipeline.

Multi-functional instant drink type the most according to claim 1 warms dual-purpose phase-transition heat-storage energy-saving water boiler, it is characterised in that: described reservoir outlet is connected with warm water faucet by pipeline.

Multi-functional instant drink type the most according to claim 1 warms dual-purpose phase-transition heat-storage energy-saving water boiler, it is characterised in that: described phase-change heat-exchanger, boiled water add hot tank, boiled water storage tank is provided with heat-insulation layer outside reservoir.