CN211355025U - Intelligent water drinking device - Google Patents

Abstract

The utility model provides an intelligence watering device, include: a water storage device comprising a water container and a heating unit, the heating unit being configured to heat water in the water container to boiling, the water storage device being further configured to cool water in the water container that is heated to boiling by the heating unit; the water outlet channel is provided with a water inlet and at least one water outlet, the water inlet is communicated to the water containing container, and water in the water containing container is discharged from the at least one water outlet through the water outlet channel; and the temperature adjusting unit is arranged on the water outlet channel and is used for adjusting the temperature of the water flowing through the water outlet channel so as to obtain water with a preset temperature from the at least one water outlet.

Description

Intelligent water drinking device

Technical Field

The utility model relates to a watering device technical field, in particular to intelligence watering device.

Background

Water is a source of life, and anyone can not drink water. The drinking amount is exquisite, and the daily drinking amount of an adult is 1000-1500 milliliters under normal conditions. It should be noted that the drinking amount should be different from time to time: on one hand, for example, people with high and strong bodies need to drink a little more water everyday; when the temperature is higher, people have more sweat and should drink more water. When feeling thirst with the desire to drink water, water loss in the body has reached 2%, and thirst itself is actually a manifestation of severe water shortage in the body, which is one of the fatal habits causing a "sub-healthy" state. At the same time, the less attention is paid to drinking, the lower the desire to drink water, and the more water deficient a person becomes. Furthermore, some diseases, such as fever, chronic inflammation, constipation, and diabetes patients, should increase their drinking water amount appropriately. On the other hand, after water is absorbed, blood becomes thin, the blood volume is increased, the burden of the heart is increased, and therefore the water intake of the heart failure patient needs to be controlled; the kidney is burdened with the task of draining water on the shoulder, and if the drinking water is excessive, the kidney can also increase the burden, so that the patient with kidney diseases such as renal failure can not drink excessive water, especially can not drink a large amount of water at one time, and the doctor is recommended to determine the drinking amount and drink water regularly and quantitatively preferably under the guidance of the doctor.

Water after the conventional water dispenser is heated and boiled can be stored in the water tank, when the temperature control device monitors that the water temperature is reduced, the heating device can be started again to heat, so that nitrite is easily generated in the process of repeatedly heating the water to the boiling point, and the nitrite can cause great damage after entering a human body. This process also increases the chances of bacterial growth as cold water is replenished after the hot water has been removed. The temperature of drinking water is very exquisite. The tremendous abundance of social substances, people need water of various temperatures, such as: the temperature required for making Tieguanyin tea, green tea, coffee, milk powder and water drunk in the morning is different. However, people need to obtain boiled water, the boiled water and the cooled boiled water are needed to be obtained after the water is boiled and cooled, and the water with other temperatures is needed to be obtained to neutralize the boiled water and the cooled boiled water, which is very inconvenient.

The existing water dispenser can discharge internal drinking water in an unlimited amount in the actual use process, the phenomena of overflowing and flowing out of water and the like can also occur in the water discharging process, the flowing-out water resources are generally directly poured out to cause waste of water resources, and the use cost of the water dispenser is also increased. In addition, the hot water heated in the water dispenser can be repeatedly heated after not being discharged for a period of time, so that the waste of power resources is caused, the energy is not saved, the environment is protected, and certain limitation exists in the use. The traditional water dispenser is basically provided with a hot water switch and a cold water switch which respectively control hot water outlet and cold water outlet, when a user needs to drink water, the user either directly uses a water cup to receive the hot water and places the water for a period of time to wait for the water temperature to be naturally cooled to a proper temperature so that the user can drink the water, and the time is long; or the hot water and the cold water are respectively mixed to proper temperature by people so as to be drunk as soon as possible, but the mixed cold water is not heated, boiled and disinfected, thereby bringing health risks. The water temperature is not well controlled and may be cold or hot. Therefore, the user experience is poor due to the fact that the water dispenser cannot intelligently control the outlet water temperature.

Therefore, people add an instant heater in the water dispenser to achieve the purpose of controlling the temperature of the outlet water, but the instant heater directly heats the water which is not heated, boiled and disinfected in the water tank, and the water temperature required by people for directly drinking or brewing tea leaves and milk powder does not reach the boiling point, namely, the instant heater directly drinks the water which is not heated, boiled and disinfected only by heating the water to a certain required temperature, so that the water treated by the instant heater cannot reach the healthy drinking standard.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a controllable temperature of delivery and water yield, and satisfy healthy drinking standard's intelligent watering device.

The utility model provides an intelligence watering device, include: a water storage device comprising a water container and a heating unit, the heating unit being configured to heat water in the water container to boiling, the water storage device being further configured to cool water in the water container that is heated to boiling by the heating unit; the water outlet channel is provided with a water inlet and at least one water outlet, the water inlet is communicated to the water containing container, and water in the water containing container is discharged from the at least one water outlet through the water outlet channel; and the temperature adjusting unit is arranged on the water outlet channel and is used for adjusting the temperature of the water flowing through the water outlet channel so as to obtain water with a preset temperature from the at least one water outlet.

In one embodiment, the water storage device is configured to cool water in the water container, which is heated to boiling by the heating unit, to cool water.

In one embodiment, the water storage device comprises an active cooling device, and the active cooling device is used for accelerating cooling of water boiled in the water container.

In one embodiment, the active cooling device is a fan.

In an embodiment, the temperature adjusting unit includes an instant heating module, and the instant heating module is used for instantly heating the water flowing through the water outlet channel to a preset heating temperature.

In an embodiment, the temperature adjusting unit further includes an instant cooling module, and the instant cooling module is configured to instantly cool the water flowing through the water outlet channel to a preset cooling temperature.

In an embodiment, the intelligent water drinking device comprises an instant heating module and an instant cooling module, the water outlet channel comprises a first circulation channel, a second circulation channel, and a cold water branch channel and a hot water branch channel which are respectively connected between the first circulation channel and the second circulation channel, the water inlet is arranged at the end of the first circulation channel, the water outlet is arranged at the tail end of the second circulation channel, the instant heating module is arranged on the hot water branch channel, and the instant cooling module is arranged on the cold water branch channel.

In an embodiment, the intelligent water dispenser device includes an instant heating module and an instant cooling module, the water outlet channel includes a first circulation channel, and a cold water branch channel and a hot water branch channel branched from the first circulation channel, the instant heating module is disposed on the hot water branch channel, the instant cooling module is disposed on the cold water branch channel, the water inlet is disposed at an end of the first circulation channel, the water outlet includes a hot water port and a cold water port, the hot water port is disposed at a terminal of the hot water branch channel, and the cold water port is disposed at a terminal of the cold water branch channel.

In one embodiment, the intelligent water drinking device comprises a water source, and the water source is communicated with the water container through a water inlet channel so as to replenish water to the water container.

In one embodiment, the intelligent drinking device comprises a drainage device comprising a waste water bucket and a drainage channel connected between the waste water bucket and the water container.

In one embodiment, the at least one water outlet comprises a plurality of water outlets located at mutually distant positions.

In one embodiment, the outlet water temperatures of the plurality of water outlets are different.

In one embodiment, the intelligent water dispenser comprises a water outlet control unit, and the water outlet control unit is used for controlling the water outlet of the water outlet.

In one embodiment, the water source is municipal tap water as well as bottled water or direct drinking water.

To sum up, the utility model provides an intelligence watering device, this intelligence watering device utilize water storage device earlier to boil water, cools down the water of boiling, for example through the cooling of initiative heat sink, perhaps natural cooling, can cool down to cool boiled water. When water needs to be discharged, the temperature of the cold boiled water is adjusted to a preset temperature through the temperature adjusting unit, for example, the cold boiled water is instantly heated by the instant heating module to obtain hot water at a required temperature, and the cold boiled water is instantly cooled by the instant cooling module to obtain cold water at a required temperature. Therefore, through the utility model discloses a water after intelligence watering device handles is through boiling and the water after other disinfection and isolation handles, accords with healthy drinking standard, and the temperature still can be regulated and control, brings fabulous product experience for the user. In addition, the drainage device can discharge the waste water which is repeatedly heated or has long time in the water container into the waste water barrel for secondary recycling, or discharge the waste water regularly. A water source, such as municipal tap water and bottled or direct drinking water, is provided to replenish the water-holding container with water.

Drawings

Fig. 1 is a schematic structural view of an intelligent drinking device according to an embodiment of the present invention.

Fig. 2 is a schematic structural view of an intelligent water dispenser according to another embodiment of the present invention.

Fig. 3 is a schematic structural view of an intelligent water dispenser according to another embodiment of the present invention.

Fig. 4 is a flow chart of an embodiment of the drinking water treatment method of the present invention.

Fig. 5 is a flow chart of a drinking water treatment method according to another embodiment of the present invention.

Detailed Description

Before the embodiments are described in detail, it is to be understood that the invention is not limited in its application to the details of construction and the arrangements of components set forth in the following description or illustrated in the drawings. The utility model discloses can be the embodiment that other modes realized. Also, it is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting. The use of "including," "comprising," "having," and the like, herein is meant to encompass the items listed thereafter and equivalents thereof as well as additional items. In particular, when "a certain element" is described, the present invention is not limited to the number of the element being one, and may include a plurality of the elements.

As shown in fig. 1-3, the utility model provides an intelligent water drinking device 10, this intelligent water drinking device 10 includes water source 12, inhalant canal 14, water storage device, exhalant canal 16, temperature regulation unit 18, control center and drainage device. The water source 12 is, for example, municipal tap water and barreled water or direct drinking water, and is used for replenishing the water storage device. The water storage device includes a water container 20 and a heating unit 22, the water inlet channel 14 is, for example, a pipe, and has one end connected to the water source 12 and the other end connected to the water container 20, the water in the water source 12 can flow into the water container 20 through the water inlet channel 14, and the heating unit 22 is configured to heat the water in the water container 20 to boiling. The water storage device is further configured to cool the water in the water container 20 heated to boiling by the heating unit 22, for example, to cool the boiling water to a predetermined temperature, and then, for example, to cool the boiling water.

The water outlet channel 16 has a water inlet and at least one water outlet 24, the water inlet is connected to the water container 20, and the water in the water container 20 is discharged from the at least one water outlet 24 through the water outlet channel 16. The temperature adjusting unit 18 is disposed on the water outlet channel 16 for adjusting the temperature of the water flowing through the water outlet channel 16 to obtain water at a predetermined temperature from the at least one water outlet 24. So combine temperature regulation unit 18 and water storage device together for the water that carries out the secondary heating through temperature regulation unit 18 is the water after water storage device boils the heating and cools down, accords with healthy drinking standard, and the temperature still can set for the regulation and control according to specific demand, and the user can be relieved directly to drink or be used for infusing milk powder, coffee etc..

In the illustrated embodiment, the water container 20 is, for example, a kettle 20, and the heating unit 22 is a U-shaped heating tube 22, and the U-shaped heating tube 22 is disposed at the bottom of the kettle 20. The water storage device further comprises a base 26, and the base 26 is connected with an external power supply through a line to supply power to the intelligent water drinking device 10. When the kettle 20 is placed on the base 26, the plugging plug at the bottom of the kettle 20 is pushed open, the interior of the kettle 20 is communicated with the water inlet channel 14 and the water outlet channel 16 through the connecting pipeline at the bottom of the kettle 20 and the connecting pipeline of the base 26, the heating unit 22 is electrically connected with the base 26, and water inlet, heating, water outlet and other actions can be carried out at the moment; when the kettle 20 is removed from the base 26, the plug at the bottom of the kettle 20 is reset and plugs the connecting pipe of the kettle 20 to prevent water from leaking.

The bottom circuit of the kettle and the connection structure with the base are designed as conventional designs of the existing electric heating kettle, and are not described herein too much.

In some embodiments, a micro-switch may be provided between the kettle 20 and the base 26, which may sense and transmit a signal to the control center when the kettle 20 is placed on or removed from the base 26.

In some embodiments, a control panel may be disposed on the kettle 20, and a plurality of buttons, push buttons, etc. are disposed on the control panel for controlling and adjusting the intelligent water dispenser 10, such as a switch button, a temperature adjustment button, or a knob. Display interfaces, such as a temperature display interface and a liquid level display interface, can also be arranged to display the water temperature and the liquid level height in real time.

In the embodiment shown in fig. 1-3, the intelligent watering device 10 further comprises a drain comprising a waste water tank 28 and a drain channel 30 connected between the waste water tank 28 and the kettle 20. When the water in the kettle 20 is too long in standing time or does not meet the healthy drinking standard and needs to be discharged, the water can be discharged into the waste water barrel through the water discharge channel 30 for secondary recycling, the utilization rate is improved, and the water resource is saved. In some embodiments, automatic draining may also be provided, for example, a preset time point (e.g., two morning hours) or a preset time period is set, and when the preset time point or the preset time period is reached, the intelligent watering device 10 controls the automatic draining of the water in the kettle 20 into the waste water bucket 28.

The control center may be mounted on the kettle 20 and include a circuit board for controlling the inflow, outflow, and drainage of water.

More specifically, the intelligent water drinking device 10 comprises a water inlet pump 32, a water outlet pump 34 and a water outlet pump 36 electrically connected to the circuit board, wherein the water inlet pump 32 is disposed on the water inlet channel 14 and used for driving the water in the water source 12 to be transported to the kettle 20; the water outlet pump 34 is arranged on the water outlet channel 16 and used for driving water in the kettle 20 to be conveyed to the water outlet 24 and then discharged; a drain pump 36 is provided on the drain passage 30 for driving the water in the kettle 20 to be transported into the waste water tub 28. The drive may be set to an automatic mode, a manual mode, or both of the automatic and manual modes. In this embodiment, the intake pump 32, the outlet pump 34, and the drain pump 36 are all set to be controllable in both automatic and manual modes. For example, a control panel is provided with a water inlet key, a water outlet key and a water drainage key with corresponding functions, and a circuit board is provided with a water inlet driving module, a water outlet driving module and a water drainage driving module with corresponding functions.

In the illustrated embodiment, the intelligent drinking device 10 includes a high water level probe 38, a low water level probe 40, a temperature sensing probe 42, a water output control unit, a UV sterilization module 44, and a dechlorination module electrically connected to a circuit board, to which the heating unit 22 is also electrically connected. Wherein, the high water level probe 38 is arranged at the high position of the kettle 20, and the low water level probe 40 is arranged at the low position of the kettle 20, and is used for detecting the liquid level height in the kettle 20 in real time. When the probe monitors that the liquid level in the kettle 20 is lower than a preset lower water level limit, a water shortage signal is transmitted to the control center, the control center controls the water inlet driving module to trigger, and the water inlet driving module drives the water inlet pump 32 to work to feed water into the kettle 20; when the probe monitors that the liquid level in the kettle 20 is higher than a preset upper water level limit, a water full signal is transmitted to the control center, and the water inlet driving module drives the water inlet pump 32 to stop working, so that the water inlet action is stopped. The design can realize the automatic water supply function of the intelligent water drinking device 10, and ensure that water is always supplied in the kettle 20.

The temperature sensing probe 42 can be disposed in the kettle 20 for monitoring the temperature of the water in the kettle 20 in real time and reflecting the temperature information to the temperature display interface in real time.

The water storage device can cool the boiled water in the kettle 20 in various ways, for example, the boiled water in the kettle 20 can be cooled passively by natural cooling, for example, to cool boiled water. In this embodiment, in order to rapidly cool the boiled water in the kettle 20, the water storage device further includes an active cooling device 46, and the active cooling device 46 is electrically connected to the circuit board. The active cooling device 46 is preferably implemented as a fan 46, and the fan 46 is disposed on the sidewall of the kettle 20 for accelerating cooling of water boiled in the kettle 20, such as cooling to cool boiled water.

It should be noted that, in the above embodiments, the water storage device cools the boiled water in the kettle 20 to cool water, and in other embodiments, the water storage device may also cool the boiled water in the kettle 20 to a certain set temperature.

The water output control unit is used for controlling the water output in the kettle 20, and specifically, the water output control unit comprises a flow meter 48, and the flow meter 48 is arranged on the water output channel 16 for monitoring the water output. For example, when the user needs 200ml of water, the control panel may set the water output to 200ml, and when the water is output, the water output control unit controls the water output pump 34 to operate to transport the water in the kettle 20 to the water outlet 24, the flow meter 48 monitors the water output, and when the water reaches 200ml, the water output pump 34 stops operating to stop outputting the water.

The UV sterilization module is used to perform UV sterilization on the water in the kettle 20. The dechlorination module is used for dechlorinating water in the kettle 20. The ultraviolet sterilization and dechlorination actions can be set to be in an automatic mode, a manual mode or an automatic and manual mode. For example, the water in the kettle 20 is automatically supplied with water and then automatically boiled, and after boiling, the ultraviolet sterilization and dechlorination actions are automatically performed.

In some embodiments, the intelligent drinking device 10 further includes a wireless module and a voice broadcast module electrically connected to the circuit board, the wireless module is, for example, a wifi module, the wifi module is connected to an intelligent terminal, for example, a mobile phone signal, the APP corresponding to the intelligent drinking device 10 is installed on the mobile phone, and the mobile phone APP can be used to remotely control the intelligent drinking device 10 to perform corresponding actions. A loudspeaker is arranged on the kettle 20 and electrically connected with the circuit board, and the voice broadcasting module controls the loudspeaker to broadcast voice in real time.

In the illustrated embodiment, the water flow detector 51 is disposed on the water inlet channel 14, and when water needs to be introduced into the kettle 20 and the water flow detector 51 does not detect water flow, i.e., the water source 12 is empty or insufficient, the water source needs to be replenished or changed, so as to implement the water-free detection function.

In the illustrated embodiment, the water storage device 10 is connected by a four-way pipe 50. The four-way pipe 50 has four ports including a first port, a second port, a third port and a fourth port, wherein the first port is communicated with the base 26, the second port is communicated with the end of the water inlet passage 14, the third port is communicated with the water inlet of the water outlet passage 16, and the fourth port is communicated with the end of the drainage passage 30. Each channel is implemented as a pipe.

The temperature adjusting unit 18 includes an instant heating module 52 and an instant cooling module 54, wherein the instant heating module 52 is used for instantly heating the water flowing through the water outlet channel 16 to a preset heating temperature; the cooling module 54 is used for instantly cooling the water flowing through the water outlet channel 16 to a predetermined cooling temperature.

In the embodiment shown in fig. 1, the outlet channel 16 is provided with only one line and thus only one outlet opening 24, the temperature regulation being effected in the temperature regulating unit 18.

In the embodiment shown in fig. 2, the water outlet channel 16 includes a first flow channel 56, and a cold water branch channel 58 and a hot water branch channel 60 formed by branching from the first flow channel 56, and the water inlet is disposed at one end of the first flow channel 56. An electromagnetic shunt valve 62 is disposed at the channel branch to divide the water flow into two paths, i.e., the cold block 54 is disposed on the cold water branch channel 58, and the hot block 52 is disposed on the hot water branch channel 60. When hot water is required, the electromagnetic shunt valve 62 diverts water flow to the hot water branch passage 60, and when cold water is required, the electromagnetic shunt valve 62 diverts water flow to the cold water branch passage 58. Two water outlets may be provided, including a hot water port 64 and a cold water port 66, the hot water port 64 being provided at the end of the hot water branch passage 60, and the cold water port 66 being provided at the end of the cold water branch passage 58.

In the embodiment shown in fig. 3, the water outlet passage 16 includes a first circulation passage 68, a second circulation passage 70, and a cold water branch passage 72 and a hot water branch passage 74 connected between the first circulation passage 68 and the second circulation passage 70, respectively, and only one water outlet 24 is provided and is provided at the end of the second circulation passage 70. An electromagnetic shunt valve 62 is provided at the branch of the first flow path 68 to divide the water flow into two paths, i.e., the hot module 52 is provided on the hot water branch path 74, and the cold module 54 is provided on the cold water branch path 72. When hot water is needed, the electromagnetic shunt valve 62 shunts water flow to the hot water branch channel 74 for heating, and the water flows to the water outlet 24 through the second flow channel 70 for discharging after being heated; when cold water is needed, the electromagnetic shunt valve 62 shunts the water flow to the cold water branch passage 72 for cooling, and the water flows to the water outlet 24 through the second flow passage 70 after being cooled and is discharged.

The utility model discloses an intelligence watering device 10 has multiple application scene, can place in a certain position as the water dispenser, for example the sitting room, and the room water dispenser department of arriving is got when needing the water receiving. The water storage device can be fixed in a kitchen as a drinking water collecting and distributing system, for example, in a household, and in this case, the at least one water outlet may be provided in a plurality, and the plurality of water outlets are located away from each other. A water outlet can be arranged nearby in the kitchen to meet the requirement of water for the kitchen; another water outlet is arranged and connected to the living room to meet the requirement of using water in the living room, such as making tea or coffee; and a plurality of water outlets are arranged and connected to each bedroom to meet the requirement of water consumption of the bedroom, wherein the baby room can independently set a water outlet temperature to meet the water temperature of the milk powder. The water outlet temperature of each water outlet can be set to be the same or different according to requirements.

Referring to fig. 1-5, the present invention further provides a drinking water treatment method, which includes: obtaining boiled water, the boiled water being contained in a water container 20; cooling the boiled water; and discharging water through the outlet channel 16, the outlet channel 16 having an inlet in fluid communication with the water container 20 and at least one outlet 24, the water in the water container 20 being discharged through the outlet channel 16 from the at least one outlet 24, wherein the temperature of the water flowing through the outlet channel 16 is adjusted such that the water discharged from the at least one outlet 24 has a predetermined temperature.

The boiled water is heated to be boiled by a heating unit 22, and the water contained in the water container 20 is heated to be boiled. The cooling of the boiled water is achieved in a variety of ways, and an active cooling device 46 can be used to actively cool the boiled water, or passively cool the boiled water in a natural cooling manner. The temperature reduction is, for example, to reduce the temperature of boiled water to cool boiled water.

Preferably, a water source 12 is provided, the water source 12 is, for example, municipal tap water and barreled or direct drinking water, the water source 12 is communicated with the water container 20 through a water inlet passage 14, and the drinking water treatment method further includes replenishing the water container 20 with the water source 12.

Preferably, the drinking water treatment method further comprises discharging the water in the water container 20 to a waste water bucket 28 using a water discharge passage 30.

To sum up, the utility model provides an intelligence watering device, this intelligence watering device utilize water storage device earlier to boil water, cools down the water of boiling, for example through the cooling of initiative heat sink, perhaps natural cooling, can cool down to cool boiled water. When water needs to be discharged, the temperature of the cold boiled water is adjusted to a preset temperature through the temperature adjusting unit, for example, the cold boiled water is instantly heated by the instant heating module to obtain hot water at a required temperature, and the cold boiled water is instantly cooled by the instant cooling module to obtain cold water at a required temperature. Therefore, through the utility model discloses a water after intelligence watering device handles is through boiling and the water after other disinfection and isolation handles, accords with healthy drinking standard, and the temperature still can be regulated and control, brings fabulous product experience for the user. In addition, the drainage device can discharge the waste water which is repeatedly heated or has long time in the water container into the waste water barrel for secondary recycling, or discharge the waste water regularly. A water source, such as municipal tap water and bottled or direct drinking water, is provided to replenish the water-holding container with water.

The concepts described herein may be embodied in other forms without departing from the spirit or characteristics thereof. The particular embodiments disclosed should be considered illustrative rather than limiting. The scope of the invention is, therefore, indicated by the appended claims rather than by the foregoing description. Any changes which come within the meaning and range of equivalency of the claims are to be embraced within their scope.

Claims (10)

1. The utility model provides an intelligence watering device which characterized in that includes:

a water storage device comprising a water container and a heating unit, the heating unit being configured to heat water in the water container to boiling, the water storage device being further configured to cool water in the water container that is heated to boiling by the heating unit;

the water outlet channel is provided with a water inlet and at least one water outlet, the water inlet is communicated to the water containing container, and water in the water containing container is discharged from the at least one water outlet through the water outlet channel; and

the temperature adjusting unit is arranged on the water outlet channel and used for adjusting the temperature of the water flowing through the water outlet channel so as to obtain water with a preset temperature from the at least one water outlet.

2. The intelligent watering device of claim 1 wherein the water storage device is configured to cool water in the water vessel that is heated to boiling by the heating unit to cool water.

3. The intelligent water dispenser of any one of claims 1-2, wherein the water storage device comprises an active cooling device for accelerating cooling of water boiled in the water container; the active cooling device is a fan.

4. The intelligent water dispenser of claim 1, wherein the temperature regulating unit comprises an instant heating module for instantly heating the water flowing through the water outlet channel to a preset heating temperature; the temperature adjusting unit further comprises an instant cooling module, and the instant cooling module is used for instantly cooling water flowing through the water outlet channel to a preset cooling temperature.

5. The intelligent water dispenser of claim 1, wherein the intelligent water dispenser comprises an instant heating module and an instant cooling module, the water outlet channel comprises a first circulation channel, a second circulation channel, and a cold water branch channel and a hot water branch channel respectively connected between the first circulation channel and the second circulation channel, the water inlet is arranged at the end of the first circulation channel, the water outlet is arranged at the end of the second circulation channel, the instant heating module is arranged on the hot water branch channel, and the instant cooling module is arranged on the cold water branch channel.

6. The intelligent water dispenser of claim 1, wherein the intelligent water dispenser comprises an instant heating module and an instant cooling module, the water outlet channel comprises a first circulation channel and a cold water branch channel and a hot water branch channel formed by branching from the first circulation channel, the instant heating module is arranged on the hot water branch channel, the instant cooling module is arranged on the cold water branch channel, the water inlet is arranged at the end of the first circulation channel, the water outlet comprises a hot water port and a cold water port, the hot water port is arranged at the end of the hot water branch channel, and the cold water port is arranged at the end of the cold water branch channel.

7. The intelligent water dispenser of claim 1, wherein the intelligent water dispenser comprises a water source, the water source is communicated with the water container through a water inlet channel to replenish the water container, and the water source is municipal tap water and barreled water or direct drinking water; the intelligent water drinking device comprises a drainage device, wherein the drainage device comprises a waste water barrel and a drainage channel connected between the waste water barrel and the water container.

8. The intelligent watering device of claim 1 wherein the at least one water outlet comprises a plurality of water outlets positioned remotely from one another.

9. The intelligent water dispenser of claim 8, wherein the water outlets are at different temperatures.

10. The intelligent water dispenser of claim 1, comprising a water output control unit for controlling the water output of the water outlet.

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