CN201861434U - Full-automatic water dispenser - Google Patents

Abstract

The utility model relates to a full-automatic water dispenser consisting of a power supply circuit, a heating container, a heating circuit and a control circuit, wherein the power supply circuit adopts 220V and 50Hz alternating current of a municipal power transmission network; the heating container is provided with a water inlet and a water outlet which are respectively provided with a switch, wherein the water outlet is arranged at the bottom of the heating container which is also internally provided with a high water level electrode, a low water level electrode and a signal source electrode; the control circuit comprises a voltage-reducing and rectifying circuit, a sampling and sampling hold circuit, a voltage comparison circuit, an executive circuit and the like; and the control circuit generates control signals by signals of the electrodes on the heating container, thus controlling the functions of cold water entering and dry burning prevention, the function that the heating circuit is electrified to heat the water when cold water is full, the function without the need of repeated heating when the water temperature reaches set temperature and the function of starting.

Description

Full-automatic water drinking machine

Technical field

The utility model relates to the water dispenser technical field, the full-automatic water drinking machine that especially relates to a kind of not only anti-dry combustion method but also avoid water to be repeated to heat.

Background technology

Water dispenser is current widely used drinking water treatment equipment, and water dispenser of the prior art does not only possess the function that adds hot water, also may possess the function that purifies water, to provide water quality better drinking water.

But the following weak point of water dispenser ubiquity of the prior art:

1, in the drinking machine heating tank, water is heated when feeder current enters when failing once to use up or while using repeatedly, not only wastes energy, and the more important thing is that drinking water forms " thousand boiling water " that is commonly called as owing to heating repeatedly, comprise many undesirable substances, can produce harm to human body after drinking.

2, delivery port is arranged on the top of drinking machine heating tank, and the cold water jacking that the hot water palpus enters by the bottom could be flowed out and use.Therefore the hot water that flows out has mixed a part of cold running water that is not heated sterilization in fact, and the water that the hot water mouth emits is actually " mixing water of cold running water, heat/thermal purification water ".

3, in many water dispensers anti-dry burning device is not set, dry combustion method accident on fire easily takes place.

In recent years, fast-selling " directly drinking machine " (claiming drinking water apparatus with no heat bag again), solved " thousand boiling water " problem of heating repeatedly more up hill and dale in market.Its operation principle is: establish one high-power (for example more than the 2KW) heater, to the cold water heating of this heater of flowing through, but such straight drink machine shortcoming is: the coolant-temperature gage that begins to flow out is low, and hot water effluent's speed afterwards is too slow, waits for that the time of hot water outflow is oversize; Simultaneously, its shortcoming that also exists is: power is big, easily causes family's electric wire g-load heating, complex structure, problems such as cost height, nonreactive dry combustion method function.

Summary of the invention

Technical problem to be solved in the utility model is exactly at above-mentioned the deficiencies in the prior art, and provides a kind of both anti-dry combustion method to avoid the full-automatic water drinking machine that heats repeatedly.

The utility model provides a kind of full-automatic water drinking machine, by power circuit, and heating container, heater circuit and control circuit are formed, and heating container is provided with water inlet and delivery port, and has switch respectively, in heating container, also be provided with high water level, three electrodes of low water level and signal source; Control circuit produces control signal by being arranged on the signal of the described electrode on the heating container, thereby controls the corresponding function of described water dispenser; When the water level in the described heating container was lower than low water level electrode, control signal control water inlet added in heating is irritated without this water dispenser heating or treated water; When the water level in the described heating container was higher than high water level electrode, control signal control water inlet stopped to add water, and controls described heater circuit the water in the described heating container is heated; When the water in the described heating container reached predefined temperature, control circuit was controlled described heater circuit and is stopped heating.

The delivery port of described heating container is arranged on the bottom of heating container, is provided with entering water electromagnetic valve at its water inlet, and whether entering water electromagnetic valve is controlled to adding water in the heating container.

Control circuit is provided with sampling and sampling hold circuit, voltage comparator circuit, executive circuit, sample circuit obtains sampled signal from described electrode, and sampled signal is sent to voltage comparator circuit, voltage comparator circuit produces control signal according to the voltage comparative result, by executive circuit this water dispenser is controlled.

The technical scheme that the utility model solves the problems of the technologies described above is:

1, adopt common water dispenser simple in structure, the advantage that cost is low, continuation is adopted the parts such as " smart seat " water route of such water dispenser and is not changed.Heating tank (claiming hot courage again) continues to adopt, but does following change: cooling water inlet adds an entering water electromagnetic valve, and hot water outlet is moved to hot jar bottom by the top of heat jar; On the heat jar, add high water level, low water level, three electrodes of signal source.

2, set up a control box that control system is housed.The principle of the function of the control system in this box and realization function is:

It is sensed signal sources that 2-1 adopts the 50HZ alternating current of municipal power transmission network.

The 2-2 detection signal is by in interlock circuit and the signal source electrode input heat jar.

2-3 is the on-off switch of the water in the heat jar as signal source, and when water logging there was not related electrode, signal source and this electrode were connected; Otherwise when related electrode surfaced, signal source just disconnected with this electrode.

2-4 is different with conventional step-down, rectification circuit, step-down rectifying circuit in the utility model, conventional step-down, rectification, voltage stabilizing had both been born, for providing galvanic current, subsequent conditioning circuit presses, bear step-down again and 50HZ is provided AC signal, for signal electrode provides test signal to personal safety.

The 2-5 native system is provided with sampling and sampling hold circuit, voltage comparator circuit, executive circuit.When high water level electrode surfaced, voltage comparator circuit was sent low level, and executive circuit is then connected 220V power supply and entering water electromagnetic valve, and the heat jar begins water inlet.When water level arrives high water level, executive circuit is ordered entering water electromagnetic valve to stop into water on the one hand and is ordered electrothermal tube energising heating, orders low water level electrode to enter in the system on the other hand again.Low water level electrode enters system and detachment system two states.This two states is controlled by executive circuit.

2-6 is the same with common water dispenser, and the utility model is provided with a temperature controller to reset certainly only on heat jar shell.Electrothermal tube is received a mandate to switch on and is heated, when water temperature arrives design temperature (for example 95 ℃ time), the temperature controller tripping, the electrothermal tube outage, executive circuit is then ordered the hot water electromagnetic valve to switch on and is put hot water, and heating power supply is disconnected, temperature controller has just lost the heating control, no matter it connects still and disconnects afterwards, and electrothermal tube can not heat once more, and this has just been avoided being heated into repeatedly the problem of " thousand boiling water ".

2-7 is after the hot water that has heated in the heat jar flows out fully, and when low water level electrode surfaced, system resetted, and was returned to the low water level electrode detachment system, the original state of entering water electromagnetic valve energising water inlet.

2-8 the utility model also allows not establish the hot water electromagnetic valve, establishes ordinary faucet and puts hot water and change.When using ordinary faucet instead and putting hot water, rule of the present utility model is: the hot water that had burnt once in the heat jar does not drain, and cold water neither advances in system, also energising heating for the second time.When adopting the hot water electromagnetic valve to put hot water, rule of the present utility model is: water temperature does not reach design temperature, and the hot water valve refusal discharges water, and hot water does not drain, electrothermal tube refusal secondary energising heating, and water intaking valve is refused into cold water.

The further technical measures of 2-9 the utility model are, with the duty and the indication of double as power supply of water inlet, heating, three indicator lamp indication mechanisms of hot water.Behind the power connection, at any time, a lamp is always arranged and must only have a lamp bright.When system intake, the water inlet lamp was bright, and other two go out; Corresponding with it, when the electrothermal tube energising of system was heated, only heating lamp was bright; When the water temperature in the heat jar arrived design temperature, only the hot water lamp was bright, and three lamps go out entirely, show that power supply access failure or power switch disconnect.

2-10 the utility model more further technical measures be: system is provided with the interchange balancing circuitry, and the electric current that flows in the water is an alternating current, can guarantee the electrode non-scaling, and galvano-cautery does not take place, and then guarantees that the water dispenser long-term stability moves reliably.

2-11 the utility model further technical measures is: sample circuit of the present utility model is provided with the threshold resistance of high class value, and can guarantee can both operate as normal when water dispenser uses light water or GB17323-1998 bottled purified water for drinking.In the time of can guaranteeing that also heat jar connects or do not connect protection ground wire (being the E line in the municipal electrical network) and exchanges L line, the N line transposition of input, but also operate as normal all of system.

Rule of the present utility model is: the first, and water is canful not, then water inlet automatically; Begin the energising heating during water canful, promptly anti-dry combustion method function; The second, the hot water that has burnt does not drain, and the function of burning is repeatedly promptly exempted from refusal energising heating once more; The 3rd, hot water does not drain, and cold water is refused into, guarantees that the hot water or cold water does not mix.

Description of drawings:

Fig. 1 is the control system circuit theory diagrams of the utility model first embodiment;

Fig. 2 is structure and the wiring schematic diagram of the utility model first embodiment;

Fig. 3 is a current waveform figure in the water;

Fig. 4 is structure and the wiring schematic diagram of the utility model first embodiment;

Fig. 5 is the control system circuit theory diagrams of the utility model first embodiment.

The specific embodiment

Below in conjunction with accompanying drawing the utility model is described in detail.But be to be understood that the explanation does not here constitute the restriction to the utility model protection domain.

Control principle such as Fig. 1 of the utility model first embodiment, structure and wiring are as shown in Figure 2.

In Fig. 1, R ₁//C ₁, R ₂//C ₂Form AC220V dual-port symmetry decompression network.Why the utility model adopts this symmetrical decompression network, is to consider that water dispenser is all household appliances of usefulness of huge numbers of families, and the L of AC220V end, N termination go into to be can not to require the user to connect L end or N end in accordance with regulations at random.After adopting above-mentioned dual-port symmetry decompression network, no matter which root connects L end or N end to two of AC220V input lines, and the utility model all can pass through above network, for late-class circuit provides operating voltage to personal safety, simultaneously, also for adopting circuit that safe AC signal is provided.

D ₁-D ₄Form the power supply bridge rectifier, R ₁₅, C ₃, C ₄Form power supply voltage stabilizing and filter circuit, their actings in conjunction provide the galvanic current source for the back utmost point.The back will be told about, and power rectifier circuit still is the important composition unit of test circuit, bear the channeling of linking up test signal.

High water level electrode 102, low water level electrode 103, signal source electrode 106, R ₉, D ₆, C ₅, C ₆Signal sampling and holding circuit have been formed.When the water level in the heat jars 100 arrives high water level G and AC200V and is negative half period, signal code I ₁Be sampled and logical: N → R by following path flow ₂//C ₂→ R ₀→ signal source electrode 106 → water → high water level electrode 102 → R ₉→ D ₆→ C ₅//C ₆(sampling keeps) → R ₇→ R ₈→ wiring board ground ⊥ → D ₄→ R ₁//C ₁→ K switch → L

Signal code I ₁At R ₈Two ends produce the needed voltage V of control ₃(for simplifying, K switch has been ignored in the narration of back).

Because D ₆Unidirectional on state characteristic, when the positive half cycle of AC220V, I ₁=0, but because C ₅//C ₆Effect, sampled signal still is held or remembers, V ₃Exist.

If do not take other measure, so, the electric current that circulates in the water is a DC current, and signal source electrode 106 will be by galvano-cautery, and high water level electrode 102, low water level electrode 103 are with fouling, and system will be difficult to long-term stability and work reliably.Be head it off, the utility model is provided with " interchange balancing circuitry ".

Described interchange balancing circuitry is by exchanging balance diode D ₇, the threshold resistance R ₉And relevant electrode is formed.At I ₁Between=0 interchange positive half period, the D that flows through shown in Figure 1 ₇Interchange balanced balanced current I ₂Logical by following path flow:

I ₁With I ₂Though circulation path slightly different, the threshold resistance R ₉Be high resistance measurement, in the utility model, be the microampere order electric current, their value is mainly by the threshold resistance R ₉Decision, so I ₁, I ₂Numerical approximation equates that direction is opposite, as if being lumped together, they are drawn on the same number axis, and then be 50HZ simple sinusoidal alternating current shown in Figure 3.Therefore, the electric current that flows in the water of heat jar is the 50HZ simple sinusoidal alternating current, and related electrode does not produce galvano-cautery or non-scaling.

If L end, the N of the interchange input port of Fig. 1 are held exchange,, can draw I with above-mentioned same methods analyst ₁, I ₂Numerical approximation equates that the conclusion that direction is opposite is still set up.But this moment, I ₁Become and exchange positive half cycle circulation, I ₂Change into and exchange the negative half period circulation.Therefore, when the interchange input port of water dispenser L end, when the N end exchanges, the utility model still can produce control voltage V ₃

When heat of the present utility model jars 100 was connected with the earth, according to the mode of connection of municipal power transmission network, the shell that is equivalent to heat jar was held with interchange N by the earth and has been connected.Under this state, as shown in Figure 1, as can be known: N → R ₂//C ₂→ R ₀The electric current of → signal source electrode 106 → water → heat jar this paths of 100 → the earth E → N is zero, and signal source electrode 106 has been lost the ability of transmitted test signal, is equal to not exist.The task of transmitted test signal is born by the shell of heat jar 100.In the case, when exchanging negative half period, D ₇End I ₂=0, I then ₁Logical by following path flow:

N → the earth → heat jar 100 shells → water → high water level electrode 102 → R ₉→ D ₆→ R ₇→ R ₈→ wiring board ground ⊥ → D ₄→ R ₁//C ₁→ L.

When exchanging positive half cycle, D ₆End I ₁=0, I ₂Circulate by following path:

Because I ₁Be the electric current of microampere order, when it flows through interlock circuit, can not disturb the normal function of these circuit.

Because I ₁, I ₂Numerical value mainly by the threshold resistance R ₉Decision, so under the situation of aforementioned hot jar 100 ground connection, I ₁, I ₂The size approximately equal, the conclusion that direction is opposite is still set up, control voltage V ₃Still can produce.

When the outer shell joint the earth of heat jar 100, when L, the N end of interchange input port shown in Figure 1 exchanges,

The alternating current circulation that has one and control signal to have nothing to do on this path.As long as selected suitable R ₀Resistance, this one alternating current just can not produce control action of the present utility model and disturb, just as I ₂Flow can to interlock circuit produce disturb the same.At this moment, signal source electrode 106 does not corrode, non-scaling, but it has lost the function of transmitted test signal.This function changes by heat jar 100 shells to be born.

In these cases, signal code I ₁Circulate by following path: N → the earth → heat jar 100 shells → water → high water level electrode 102 → R ₉→ D ₆→ R ₇→ R ₈→ wiring board ground ⊥ → D ₃→ R ₂//C ₂→ L.

Exchange balanced balanced current I ₂Then by the circulation of following path:

I ₁, I ₂Numerical approximation equates that direction is opposite.

So far, we can draw two conclusions: the first, after water dispenser arrives the user, can run into following four kinds of situations: though 1, heat jar 100 shells are connected with the E line of core electric power plug, but user's socket does not connect the E line, and instant heating jar shell does not connect the earth, and the user exchanges L, N line by shown in Figure 1 connecing; 2, a heat jar shell does not connect the earth, and the wiring of user's socket and L shown in Figure 1, N line just in time exchange; 3, the heat jar earthing of casing, the L of user's socket, N line are consistent with Fig. 1; 4, the heat jar earthing of casing, the L of user's socket, N line and Fig. 1 are not inconsistent, and just in time exchange.At above four kinds of situations, done analysis, under these four kinds of situations, the utility model all can produce the needed control voltage of automatic control V ₃

The second, to sum up to analyze as can be known, the water in the heat jar 100 has played the on-off action of connecting test signal, has only water logging to be less than related electrode, signal code I ₁Just can produce or circulate.

Voltage comparator ic ₁, triode V ₁, relay J ₁, J ₃, J ₄And the attached device mutual group of these parts has become the executive circuit of native system.

Described voltage comparator ic ₁Port 2 meet comparative voltage V ₂, port 3 meets signal voltage V ₃Work as V ₃＞V ₂The time, its port one output high level; Otherwise, work as V ₃＜V ₂The time, the output low level of port one.

Described relay J ₁K is arranged ₁, K ₂Two groups of contacts.First group of contact K ₁Be used to control the state of low water level electrode 103, work as K ₁Normally opened contact when closed, low water level electrode 103 enters system; Otherwise, work as K ₁Normally opened contact when closed, low water level electrode 103 logs off.Second group of contact K ₂Be used for control relay J ₃Line bag power supply.Work as K ₂During disconnection, J ₃Line bag dead electricity, its normally-closed contact K _O3With K ₃Connect entering water electromagnetic valve DF ₁Must establish by cable and open, thermotropism jar 100 injects cold water; Work as K ₂During connection, J ₃Line Bao Dedian, its normally opened contact K ₃₃With K ₃Connect electrothermal tube R _LThe energising heating; Simultaneously, normally-closed contact K _O3With K ₃Disconnect, the magnetic valve dead electricity is closed, and cold water stops to inject the heat jar.

When electrothermal tube energising heating, voltage V shown in Figure 1 ₄Be zero, relay J ₄Line Bao Wudian, its normally-closed contact K ₀₄With K ₄Be on-state.

When the water temperature in the heat jar rose to design temperature, the contact of temperature controller 101 disconnected, voltage V ₄Rise sharply to high level, voltage is near AC220V, relay J ₄Line Bao Dedian, its normally opened contact K ₄₄With K ₄Connect, the hot water electromagnetic valve must establish by cable to open and put hot water.

Relay J ₃, J ₄Line bag voltage both can adopt alternating current 220V, also can adopt as shown in Figure 1 through the RC network step-down, the DC voltage of rectifier bridge rectification.Native system preferentially adopts a kind of scheme in back.

This control system divides three steps to finish Automatic Control to water dispenser:

One, advance cold water, the anti-dry step:

Power switch K closure, system starts working.If the water level in the heat jar is lower than high water level G, then signal code I ₁=0, control voltage V ₃=0, voltage comparator ic ₁Output low level, V ₁End J ₁Line bag no current, K ₁, K ₂Be in the state of disconnection, relay J ₃Line Bao Wudian, normally-closed contact K _O3With K ₃Connect entering water electromagnetic valve DF ₁Must establish by cable and open, cold water injects the heat jar.At this moment, electrothermal tube is because K ₃₃With K ₃Be in the state of disconnection, thereby do not have electricity, the function of anti-dry combustion method is achieved.

As long as water level does not reach high water level G, system keeps K always ₃With K _O3Connect entering water electromagnetic valve DF ₁The energising water inlet, electrothermal tube R _LThere is not the original state that electricity does not heat.

Two, cold water is full, electrothermal tube energising heating steps:

Along with the continuous injection of cold water, heat jar 100 is filled water gradually, and promptly water level arrives high water level G gradually, at this moment, and signal code I ₁, exchange balanced balanced current I ₂Go into circulation V ₃＞V ₂Condition maturity, voltage comparator ic ₁The output high level.V ₁Conducting, J ₁Line Bao Dedian, K ₁Closure, low water level electrode 103 enters system, K ₂Also closed, J ₃Line Bao Dedian, K ₃With K _O3Disconnect entering water electromagnetic valve DF ₁Close because of dead electricity, water inlet stops, K ₃With K ₃₃Connect electrothermal tube R _LBegin the energising heating.

Three, water temperature arrives design temperature, exempts to burn repeatedly the function on step:

Because electrothermal tube R _LEnergising adds, and water temperature raises gradually, when arriving design temperature, and temperature controller 101 trippings, electrothermal tube R _LStop heating, voltage V ₄Rise sharply near AC220V relay J ₄Line Bao Dedian, its normally opened contact K ₄With K _O4Disconnect, with K ₄₄Connect, hot water begins to emit.

In conjunction with Fig. 2, water dispenser is emitted hot water automatic, manual two kinds of forms:

1, automatic form: K ₄With K ₄₄After the connection, hot water electromagnetic valve DF ₂Energising is opened, and hot water is progressively emitted.In this stage, owing to flow through magnetic valve and flow through J ₄The electric current of line bag is a milliampere level electric current.Therefore at electrothermal tube R _LThe power of last generation and pressure drop can be ignored.

Along with the carrying out that discharges water, the water level in the heat jar descends gradually because low water level electrode 102 has entered system this moment, even so water level reduce to below the high water level G because low water level electrode 102 has been linked up signal circuit, therefore, I ₁Circulation, V ₃＞V ₂Condition still keep, system still keeps entering water electromagnetic valve to close, electrothermal tube R _LStop heated condition, system exempts to burn repeatedly, prevents that the function of emitting cold and hot mixing water also is achieved.

When hot water drains, when promptly water level was lower than low water level D, system resetted, and entering water electromagnetic valve must be established Qi Jinshui by cable again.

2, manual form: replace hot water electromagnetic valve DF with tap shown in Figure 2 109 ₂Put hot water.System's control procedure in the case is:

1. temperature controller 101 tripping when water temperature arrives design temperature, electrothermal tube stops heating, J ₄Line Bao Dedian, K ₄With K ₄₄Connect, the hot water indicating device starts.Described hot water indicating device can be a light, and promptly lamp can be a sound, and for example buzzer also can be that sound, light are indicated simultaneously.The utility model preferentially adopts the lamp indication.

2. the user is if in time drain hot water, and the control procedure of system is as good as with the control procedure that automatic form discharges water.

3. the user is as if untimely putting hot water, even hot water is cooled to room temperature gradually, temperature controller 101 is closed again, and system also refuses to heat once more, and hot water indicator lamp LED ₃Still bright.In the case, the user then only needs by button AN, i.e. a J if wish that energising is heated up water once more ₄Reset the electrothermal tube heating of switching on once more.If do not establish button AN, the user only need be closed the primary power source K switch, also can realize the step that water is reheated.

The structure of present embodiment and mode of connection be as shown in Figure 2: temperature controller 101 is equipped with in the side of heat jars 100, and high water level electrode 102 is equipped with at the top, low water level electrode 103.The appearance of these two electrodes all is surrounded by insulating barrier 104, and the top of heat jar 100 also is provided with the cold water water inlet and the dual-purpose interface 105 of ventilating, and interface 105 is connected with threeway 110, threeway 110 1 arms and entering water electromagnetic valve DF ₁Join, the other end of entering water electromagnetic valve is connected with the bucket of water dispenser.Another arm of threeway 110 is connected with permeability cell.Signal source electrode 106 is equipped with in the bottom of heat jar 100, and the appearance of described signal source electrode also is surrounded by insulating barrier 104, and its top height C is lower than low water level electrode D, electrothermal tube R _LBe contained in the bottom of heat jars 100, the bottom of heat jars 100 also is provided with hot water outlet 108, this hot water outlet 108 or with hot water electromagnetic valve DF ₂Be connected, or be connected with tap 109.

Control system shown in Figure 1 is housed in the control box 200, and control box 200 is connected with each function element by lead.Power switch K, button AN, water inlet indicator lamp LED ₁, burner on light LED ₂, hot water indicator lamp LED ₃Can be installed on the panel or side plate of water dispenser by requirement attractive in appearance, not shown among Fig. 2.

Described control box 200 also can be a printed substrate that has interface unit.

The control system of the utility model second embodiment as shown in Figure 5, structure and mode of connection are as shown in Figure 4.

The operation principle of present embodiment is identical with first embodiment with control procedure, and different has following several respects:

1, temperature controller 101 changes into and is used to control IGCT V _S1Break-make, V _S1Be connected on the heating major loop.The purpose of doing such change is: avoid the big inadequately shortcoming of temperature controller load capacity, use the bidirectional thyristor that allows the band high power load instead, replace the position of former temperature controller.After doing such change, electrothermal tube R _LPower can increase to more than the 3KW, heating up water of water dispenser speeds up like this, the amount that goes out hot water also increases greatly.Therefore, first embodiment suits to use in family, and second embodiment is suitable to be used in public.

Described by R ₁₆, C ₁₃, temperature controller 101, bilateral diode V _D1, bidirectional thyristor V _S1The thyristor control circuit of forming is typical thyristor control circuit (or claiming solid-state relay), is not described herein.It will be understood by those skilled in the art that the common relay of contact, contactless solid-state relay can exchange in this control system, and this is conspicuous.

2, consider that the water consumption of second embodiment may be bigger, therefore, as shown in Figure 4, on the sidewall of heat jars 100, be provided with the water inlet 111 that singly advances cold water, be provided with at the top and singly be used to the ventilation mouth 105 of taking a breath.

3, high water level electrode 102 changes horizontal placement shown in Figure 4 into, and purpose is the length that increases the insulating barrier 104 of this high water level electrode 102, strengthens the insulating properties of this electrode.

The insulating barrier of high water level electrode 102 shown in Figure 4 can be straight, also can be that appearance has bulge loop.Control system shown in Figure 5 is housed in the control box 300, and is connected with each function element by lead.

Claims (3)

1. full-automatic water drinking machine, by power circuit, heating container, heater circuit and control circuit are formed, and it is characterized in that:

Described power circuit is the 220V of municipal power transmission network, the 50HZ alternating current;

Described heating container is provided with water inlet and delivery port, and has switch respectively, and wherein delivery port is arranged on the heating container bottom, also is provided with high water level in described heating container, three electrodes of low water level and signal source;

Described control circuit is sampled and sampling hold circuit by step-down and rectification circuit, voltage comparator circuit, and executive circuit is formed.

2. full-automatic water drinking machine as claimed in claim 1 is characterized in that:

The hot water of water dispenser is emitted to have automatically and manual two kinds of forms.

3. full-automatic water drinking machine as claimed in claim 1 is characterized in that:

The duty and the indication of double as power supply of water inlet, heating, three indicator lamp indication mechanisms of hot water are set on the water dispenser fuselage; Behind the power connection, at any time, there is and only have a lamp bright.

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