CN115486704A - Water outlet device and control method thereof - Google Patents

Abstract

The invention provides a water outlet device and a control method thereof, wherein the water outlet device is used for injecting water into a water receiving container in a working environment where the water outlet device is located, and the control method comprises the following steps: acquiring a target effluent water level of the effluent device; and injecting water into the water receiving container according to the target water outlet level so that the water level injected into the water receiving container reaches the target water outlet level. By using the method, the water outlet device can automatically inject water according to the requirements of users, and the intelligent degree of the water outlet device is improved. The user need not to pay attention to the water yield in the water receiving container constantly in the water injection process, has reduced user's work load. The water outlet device can directly inject water into the water receiving container according to the target water outlet level, and the control process is simple.

Description

Water outlet device and control method thereof

Technical Field

The invention relates to the field of household appliance manufacturing, in particular to a water outlet device and a control method thereof.

Background

The water outlet device is used for providing drinking water for users. For example, the water outlet means may fill a user's water receptacle with water.

The partial water outlet device in the prior art can not automatically inject water according to the requirements of users, the intelligent degree is low, the water injection process is often manually controlled by the users, the users need to pay attention to the water quantity in the water receiving container constantly in the water injection process so as to control the water outlet device to stop water outlet in time, and otherwise, the water quantity in the water receiving container is easily overflowed due to overfilling.

Disclosure of Invention

An object of the present invention is to overcome at least one of the technical defects in the prior art, and to provide a water outlet device and a control method thereof.

A further purpose of the invention is to enable the water outlet device to automatically fill water according to the requirements of users, and improve the intelligent degree of the water outlet device.

Another further object of the invention is to improve the reliability of the operation of the water outlet device.

Still another object of the present invention is to simplify the setting process of the target effluent level and improve the user experience.

In particular, according to an aspect of the present invention, there is provided a control method for a water outlet device for filling a water receiving container in a work environment in which the water outlet device is located, the control method comprising: acquiring a target effluent water level of the effluent device; and injecting water into the water receiving container according to the target water outlet level so that the water level injected into the water receiving container reaches the target water outlet level.

Optionally, after the target outlet water level of the outlet device is obtained and before the water container is filled with water according to the target outlet water level, the control method further includes: detecting the height of the water receiving container and the water level inside the water receiving container; judging whether the target effluent water level is less than or equal to the height of the water receiving container and greater than the water level in the water receiving container; and if so, executing the step of filling water to the water receiving container according to the target water outlet level.

Optionally, after judging whether target play water level is less than or equal to the height of water receiving container and is greater than the inside water level of water receiving container, still include: and if the target outlet water level is higher than the height of the water receiving container or not higher than the water level in the water receiving container, sending a prompt signal to remind a user to adjust the target outlet water level.

Optionally, the step of filling water to the water receiving container according to the target outlet water level includes: starting water injection, and detecting the water level in the water receiving container; judging whether the water level in the water receiving container reaches a target water outlet level or not; if yes, stopping water injection.

Optionally, after the water filling is started, the step of filling water to the water receiving container according to the target outlet water level further includes: detecting the height of the water receiving container and judging whether the height of the water receiving container changes or not; if yes, stopping water injection.

Optionally, before starting the water filling, the step of filling water to the water receiving container according to the target outlet water level further includes: and determining that the water receiving container is positioned at a preset water receiving position.

Optionally, the water outlet device has a first water outlet and a second water outlet; the target water outlet level comprises a first target water level of the first water outlet injected into the water receiving container and a second target water level of the second water outlet injected into the water receiving container, and the first target water level is less than the second target water level; and the step of injecting water into the water receiving container according to the target water outlet level comprises the following steps: determining that the water receiving container is positioned below the first water outlet; opening the first water outlet, detecting the water level in the water receiving container, and closing the first water outlet under the condition that the water level in the water receiving container reaches a first target water level; moving the water receiving container to the position below the second water outlet; and opening the second water outlet, detecting the water level in the water receiving container, and closing the second water outlet under the condition that the water level in the water receiving container reaches a second target water level.

According to another aspect of the present invention, there is also provided a water outlet device, including: a processor and a memory, the memory having stored therein a machine executable program, the machine executable program when executed by the processor being for implementing a control method according to any of the above.

Optionally, the water outlet device further comprises: the water level setting module is provided with a plurality of water level setting keys for a user to set a target outlet water level; and each water level setting button is correspondingly provided with a water outlet level.

Optionally, the plurality of water level setting keys are positioned below the water outlet and are sequentially arranged along the vertical direction; and the water outlet device also comprises a detector which is arranged above the water outlet and is used for detecting the height of the water receiving container and the water level in the water receiving container.

According to the water outlet device and the control method thereof, the water outlet device can obtain the target water outlet level set by the target interaction user, and water can be injected into the water receiving container according to the target water outlet level, so that the water level injected into the water receiving container reaches the target water outlet level, the water outlet device can automatically inject water according to the requirements of the user, and the intelligent degree of the water outlet device is improved. The user need not to pay attention to the water yield in the water receiving container constantly in the water injection process, has reduced user's work load. The water outlet device can directly inject water into the water receiving container according to the target water outlet level, and the control process is simple.

Furthermore, the water outlet device and the control method thereof can automatically judge whether the target water outlet level meets the actual water filling requirement of the water receiving container before water is filled, and execute the water filling step under the condition that the target water outlet level meets the actual water filling requirement of the water receiving container, thereby being beneficial to improving the operation reliability of the water outlet device and reducing or avoiding accidents such as water overflow and the like.

Furthermore, according to the water outlet device and the control method thereof, the plurality of water level setting keys of the water outlet device are positioned below the water outlet and are sequentially arranged along the vertical direction, so that a user can easily estimate the target water outlet level suitable for the actual water filling requirement of the current water receiving container according to visual measurement, the setting process of the target water outlet level is simplified, and the user experience is improved.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter, by way of illustration and not limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

FIG. 1 is a schematic block diagram of a water outlet device according to one embodiment of the present invention;

FIG. 2 is a schematic view of a water outlet device according to one embodiment of the present invention;

FIG. 3 is another schematic view of a water exit device according to one embodiment of the present invention;

FIG. 4 is a schematic diagram of a control method of the water output device according to one embodiment of the invention;

FIG. 5 is a control flow diagram of a water output device according to an embodiment of the invention.

Detailed Description

FIG. 1 is a schematic block diagram of a water outlet device 10 according to one embodiment of the present invention. The water outlet device 10 is used for filling water into the water receiving container 20 in the working environment. Herein, "water" is to be understood in a broad sense, and may be, for example, purified water, mineral water, or may be a beverage or coffee. The water outlet device 10 of the present embodiment may be a water purifier, a water dispenser, a beverage dispenser, or a coffee maker, but is not limited thereto.

The water outlet device 10 may generally include a processor 160 and a memory 170, and may further include a housing 110. The processor 160 and the memory 170 may be disposed within the housing 110. The housing 110 may be formed with a water outlet 180 for discharging water. The receptacle 20 may be positioned below the outlet 180 so that water exiting the outlet 180 may be gravity fed into the receptacle 20.

In some optional embodiments, the water outlet device 10 may further include a shutter 140, such as a water valve, disposed at the water outlet 180 for controlling opening and closing to open or close the water outlet 180, so as to control whether the water outlet 180 is discharged. The shutter 140 may be in data connection with a main control board as described below.

Fig. 2 is a schematic view of the water outlet device 10 according to an embodiment of the present invention, and fig. 3 is another schematic view of the water outlet device 10 according to an embodiment of the present invention. For the convenience of illustrating the structure and the working manner of the water outlet device 10, fig. 3 also illustrates the water receiving container 20, but the water outlet device 10 of the present embodiment should not be considered to be limited to the water receiving container 20.

In some embodiments, the water outlet apparatus 10 may further include a water level setting module 120 having a plurality of water level setting buttons for a user to set a target water outlet level. And each water level setting button is correspondingly provided with a water outlet level. That is, the user may select a target outlet water level that meets an actual filling demand of the water receptacle 20 through the water level setting button.

The water level setting keys are positioned below the water outlet 180 and are sequentially arranged along the vertical direction. In this embodiment, a water receiving platform 190 for placing the water receiving container 20 may be formed below the water outlet 180 of the housing 110. A plurality of water level setting buttons may be sequentially arranged between the water receiving stage 190 and the water outlet 180. As shown in fig. 2 and 3, the water level setting button may be marked by a plurality of "horizontal lines" arranged in parallel in the vertical direction, and in other embodiments, the form and the marking method of the water level setting button may be changed, which is not limited specifically herein.

In some optional embodiments, a water level scale mark may be marked at each water level setting key for the user to identify. The number of the water level setting buttons and the height difference between the adjacent water level setting buttons can be arbitrarily set according to the height difference between the water outlet 180 and the water receiving table 190. The number of the water level setting keys can be 5-15, and the height difference between the adjacent water level setting keys can be 1-5 cm. For example, the number of water level setting buttons may be 9, the height difference between adjacent water level setting buttons may be 2cm, and 2cm,4cm,6cm,8cm,10cm,12cm,14cm,16cm and 18cm may be sequentially marked at a plurality of water level setting buttons from bottom to top.

Because a plurality of water level setting keys of the water outlet device 10 are positioned below the water outlet 180 and are arranged in sequence along the vertical direction, a user can easily estimate a target water outlet level suitable for the actual water injection requirement of the current water receiving container 20 according to visual measurement, thereby being beneficial to simplifying the setting process of the target water outlet level and improving the user experience.

The structure of the water level setting button is not particularly limited as long as the selection instruction of the user for the water outlet level can be received. For example, the water level setting key may slide a touch key, which may include a touch panel, a PCB board, and a touch processing chip. The plurality of water level setting keys may be located on the touch panel for a user to touch. The water level setting button can be in data connection with a main control board.

The memory 170 and the processor 160 may form a main control panel of the water outlet device 10. The main control board is connected to the water level setting button and the shutter 140 in a data manner, so as to control the opening and closing of the shutter 140 according to the target outlet water level collected by the water level setting button, so that the water level of the water outlet device 10 injected into the water receiving container 20 reaches the target outlet water level.

The memory 170 stores a machine-executable program 171, and the machine-executable program 171 is executed by the processor 160 to implement the control method of the water outlet device 10 according to any one of the following embodiments. Processor 160 may be a Central Processing Unit (CPU), or a digital processing unit (DSP), or the like. The memory 170 is used to store programs executed by the processor 160. The memory 170 may be any medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer, but is not limited thereto. The memory 170 may also be a combination of various memories. Since the machine executable program 171 implements the processes of the method embodiments described below when executed by the processor 160, and achieves the same technical effects, the descriptions thereof are omitted here for the sake of avoiding redundancy.

Fig. 4 is a schematic diagram of a control method of the water outlet device 10 according to an embodiment of the invention. The control method may generally comprise the steps of:

in step S402, a target outlet water level of the outlet device 10 is obtained. The target effluent water level is set by a user, and the effluent device 10 can acquire setting information of the user, so as to acquire the target effluent water level. The target outlet water level is a water level at which the user desires the water dispenser 10 to fill the water receiving container 20. Here, the water level, i.e., the height of water, is with respect to the horizontal plane on which the upper surface of the water receiving stand 190 is located.

Step S404, filling water into the water receptacle 20 according to the target outlet water level, so that the water level of the water receptacle 20 reaches the target outlet water level. For example, if the target outlet water level set by the user is 8cm, the water outlet device 10 fills the water receiving container 20, and when the water level in the water receiving container 20 reaches 8cm, the water outlet device 10 stops filling.

By using the method, the water outlet device 10 can obtain the target outlet water level set by the target interaction user, and water can be injected into the water receiving container 20 according to the target outlet water level, so that the water level injected into the water receiving container 20 reaches the target outlet water level, the water outlet device 10 can automatically inject water according to the requirement of the user, and the intelligent degree of the water outlet device 10 is improved. The user need not to pay attention to the water yield in the water receiving container 20 constantly in the water injection process, has reduced user's work load. And the water outlet device 10 of the embodiment can directly inject water into the water receiving container according to the target water outlet level, and the control process is simple.

In some optional embodiments, after obtaining the target outlet water level of the outlet device 10 and before filling the water receptacle 20 with water according to the target outlet water level, the control method may further include: and detecting the height of the water receiving container 20 and the water level inside the water receiving container 20, and judging whether the target outlet water level is less than or equal to the height of the water receiving container 20 and greater than the water level inside the water receiving container 20, if so, executing the step of injecting water into the water receiving container 20 according to the target outlet water level.

In this embodiment, the water outlet device 10 may further include a detector 130 disposed above the water outlet 180 for detecting the water level inside the water receptacle 20 and the height of the water receptacle 20. The detector 130 may be disposed right above the water outlet 180 and opposite to the upper surface of the water receiving platform 190. For example, after the main control board obtains the target outlet water level set by the user, the main control board may activate the detector 130 to perform the above detection steps.

For another example, if the water receiving container 20 is a water cup, the height of the water receiving container 20 is the height difference between the plane of the cup opening of the water cup and the plane of the upper surface of the water receiving platform 190, and the water level inside the water receiving container 20 is the height of the water contained inside the water cup, which is relative to the plane of the upper surface of the water receiving platform 190. When the detecting step is performed, the detector 130 may select a plurality of points with the highest positions and the same heights on the water receptacle 20 as detection points of the height of the water receptacle 20, and select a plurality of points with the same height and the same height that continuously change inside the water receptacle 20 as detection points of the water level inside the water receptacle 20.

In some further embodiments, the detector 130 may be an ultrasonic sensor.

By determining whether the target outlet water level is less than or equal to the height of the water receiving container 20 and greater than the water level inside the water receiving container 20, it can be determined whether the target outlet water level is set to meet the actual water filling requirement of the water receiving container 20. For example, if the target outlet water level is 8cm, the height of the water receptacle 20 is 6cm, or the water level inside the water receptacle 20 is 8cm, it indicates that the target outlet water level does not meet the actual water filling requirement of the water receptacle 20, and at this time, if water is directly filled, accidents such as water overflow may occur.

By using the above method, the water outlet device 10 can automatically determine whether the target outlet water level meets the actual water filling requirement of the water receiving container 20 before water is filled, and perform the water filling step when the target outlet water level meets the actual water filling requirement of the water receiving container 20, which is beneficial to improving the operation reliability of the water outlet device 10 and reducing or avoiding accidents such as water overflow.

In some optional embodiments, after determining whether the target effluent water level is less than or equal to the height of the water receptacle 20 and greater than the water level inside the water receptacle 20, the control method may further include: and if the target outlet water level is higher than the height of the water receiving container 20 or not higher than the water level in the water receiving container 20, sending a prompt signal to remind a user to adjust the target outlet water level.

That is, if the target outlet water level set by the user does not meet the actual water filling demand of the water receiving container 20, the water outlet device 10 sends a prompt signal. The prompt signal may be in any form, for example, the water outlet device 10 may further be provided with a prompt 150, and the prompt 150 is connected to the main control board for sending the prompt signal. The indicator 150 may be a buzzer or a display, and the indication signal may be in the form of an audio such as a "tick" or a "rata" generated by the buzzer or a text such as "please reset the target outlet water level" displayed on the display.

With the above method, since the water outlet device 10 can timely remind the user to readjust the target outlet water level, the water filling process of the water outlet device 10 is more humanized.

The step of filling water into the water receiving container 20 according to the target outlet water level includes: and starting water injection, detecting the water level inside the water receiving container 20, judging whether the water level inside the water receiving container 20 reaches the target water outlet level, and if so, stopping water injection. The main control board opens the water outlet 180 by controlling the opening/closing unit 140, so that the water discharge device 10 starts to fill the water receptacle 20. During the filling process, the water level inside the receptacle 20 changes continuously, and the detector 130 may detect the water level inside the receptacle 20 every 10 to 50ms (e.g., 20 ms). When the water level inside the receptacle 20 reaches the target outlet water level, the main control panel closes the outlet 180 by controlling the shutter 140, so that the water outlet device 10 stops filling water.

In some embodiments, after the water filling is started, the step of filling the water receptacle 20 with water according to the target outlet water level may further include: and detecting the height of the water filling container, judging whether the height of the water receiving container 20 changes or not, and stopping water filling if the height of the water receiving container 20 changes. If the height of water receiving container 20 changes, it indicates that the user may have moved water receiving container 20, results in water receiving container 20's position to change, and this then may result in delivery port 180 and water receiving container 20's water inlet not corresponding, if continue the water injection this moment, may lead to the phenomenon of watering.

Because the water outlet device 10 can judge whether the position of the water receiving container 20 changes during water injection, and stop water injection when the position of the water receiving container 20 changes, not only can the water spraying phenomenon be avoided, but also the control mode of the water outlet device 10 can be adjusted according to the behavior of a user, and the flexibility of the water outlet device 10 is improved.

In some optional embodiments, in the water filling process, the user may reset the target outlet water level according to actual requirements. After the water outlet device 10 obtains the target water outlet level reset by the user, water injection may be suspended, and it is determined whether the reset target water outlet level is less than or equal to the height of the water receiving container 20 and greater than the water level inside the water receiving container 20, if so, water injection continues to be performed to the water receiving container 20 according to the reset target water outlet level, and if not, a prompt signal is sent.

In some optional embodiments, before starting the water filling, the step of filling the water receptacle 20 with water according to the target outlet water level may further include: it is determined that the water receiving container 20 is located at the preset water receiving position. The preset water receiving position refers to a designated position on the water receiving platform 190, for example, if the water receiving container 20 is located on the water receiving platform 190 and the opening of the water receiving container 20 faces the water outlet 180, it indicates that the water receiving container 20 is located at the preset water receiving position. In some further embodiments, the step of determining that the water receptacle 20 is located at the preset water receiving position may include: acquiring the outline of the opening of the water receiving container 20, judging whether the projection of the water outlet 180 falls into the outline of the opening, and if so, determining that the water receiving container 20 is located at a preset water receiving position. For example, the water outlet device 10 may use the detector 130 to obtain the contour of the opening of the water receiving container 20, and the bottom of the water receiving table 190 may be provided with a weight sensor for sensing the water receiving container 20. In the case that it is determined that the water receiving container 20 is not located at the preset water receiving position, the water outlet device 10 may send a prompt signal.

With the above method, since the water outlet device 10 can start water filling under the condition that the water receiving container 20 is determined to be located at the preset water receiving position, the reliability of the water filling process can be further improved.

In some alternative embodiments, the number of the water outlets 180 of the water outlet device 10 may be two, for example, the water outlets may be a first water outlet 180 and a second water outlet 180. The target outlet water levels may include a first target water level at which the first outlet 180 is filled into the receptacle 20 and a second target water level at which the second outlet 180 is filled into the receptacle 20, the first target water level being less than the second target water level. That is, a user may set a target water outlet level for each water outlet 180, so that the water outlet device 10 may inject the mixed water from different water outlets 180 into the water receptacle 20 according to the water level set by the user.

At this time, the step of filling water into the water receiving container 20 according to the target outlet water level may include: determining that the receptacle 20 is located below the first water outlet 180, opening the first water outlet 180, detecting the water level inside the receptacle 20, closing the first water outlet 180 when the water level inside the receptacle 20 reaches the first target water level, moving the receptacle 20 to a position below the second water outlet 180, opening the second water outlet 180, detecting the water level inside the receptacle 20, and closing the second water outlet 180 when the water level inside the receptacle 20 reaches the second target water level.

The moving method of the water receiving container 20 can be set according to actual needs. For example, the water receiving stage 190 may be provided as a movable platform driven by a motor, and the water receiving container 20 may be moved to below the second water outlet 180 by driving the motor to move the water receiving stage 190.

For example, the water outlet device 10 may provide boiled water through the first water outlet 180 and cool water through the second water outlet 180, and if a user desires to fill half of the hot water and half of the cool water in the water receptacle 20, the first target water level and the second target water level may be set according to the height of the water receptacle 20, so that the water outlet device 10 supplies water to the water receptacle 20 according to the target water outlet level set by the user.

With the above method, the water outlet device 10 of the present embodiment can automatically "prepare" the mixed water meeting the drinking requirement of the user, which is beneficial to further improving the intelligence level of the water outlet device 10.

Fig. 5 is a control flow chart of the water outlet device 10 according to one embodiment of the invention. The control flow may include the steps of:

step S502, a target outlet water level of the outlet device 10 is obtained.

In step S504, the height of the water receptacle 20 and the water level inside the water receptacle 20 are detected.

In step S506, it is determined whether the target outlet water level is less than or equal to the height of the water receptacle 20 and greater than the water level inside the water receptacle 20, if so, step S508 is performed, and if not, step S522 is performed.

Step S508, it is determined that the water receiving container 20 is located at a preset water receiving position.

Step S510, water injection is started.

In step S512, the water level inside the water receiving container 20 is detected.

Step S514 determines whether the water level inside the water receiving container 20 reaches the target outlet water level, if so, step S520 is executed, and if not, step S516 is executed.

In step S516, the height of the water receptacle 20 is detected.

In step S518, it is determined whether the height of the water receiving container 20 has changed, if so, step S520 is performed, and if not, step S512 is performed.

And step S520, stopping water injection.

In step S522, a prompt signal is sent to remind the user to adjust the target outlet water level.

By using the above method, the water outlet device 10 of the present embodiment can automatically control the water injection process only by arranging one detector 130, one water level setting module 120, and one shutter 140, and has the advantages of simple structure and simple control.

According to the water outlet device 10 and the control method thereof, the water outlet device 10 can obtain the target water outlet level set by the target interaction user, and water can be injected into the water receiving container 20 according to the target water outlet level, so that the water level injected into the water receiving container 20 reaches the target water outlet level, the water can be automatically injected into the water outlet device 10 according to the requirement of the user, and the intelligent degree of the water outlet device 10 is improved. The user need not pay close attention to the water yield in the water receiving container 20 constantly in the water filling process, has reduced user's work load.

Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been illustrated and described in detail herein, many other variations or modifications consistent with the principles of the invention may be directly determined or derived from the disclosure of the present invention without departing from the spirit and scope of the invention. Accordingly, the scope of the invention should be understood and interpreted to cover all such other variations or modifications.

Claims (10)

1. A method of controlling a water outlet device for filling a water receiving container within a work environment in which the device is located, the method comprising:

acquiring a target effluent water level of the effluent device;

and injecting water into the water receiving container according to the target outlet water level, so that the water level injected into the water receiving container reaches the target outlet water level.

2. The control method according to claim 1, wherein after the target outlet water level of the water outlet device is obtained and before the water container is filled with water according to the target outlet water level, the control method further comprises:

detecting the height of the water receiving container and the water level inside the water receiving container;

judging whether the target outlet water level is less than or equal to the height of the water receiving container and greater than the water level in the water receiving container;

and if so, executing the step of injecting water into the water receiving container according to the target water outlet level.

3. The control method according to claim 2, after determining whether the target outlet water level is less than or equal to the height of the water receiving container and greater than the water level inside the water receiving container, further comprising:

and if the target effluent water level is higher than the height of the water receiving container or not higher than the water level in the water receiving container, sending a prompt signal to remind a user to adjust the target effluent water level.

4. The control method according to claim 1,

the step of filling water into the water receiving container according to the target water outlet level comprises the following steps:

starting water injection, and detecting the water level in the water receiving container;

judging whether the water level in the water receiving container reaches the target water outlet level;

if yes, stopping water injection.

5. The control method according to claim 4,

after the water injection is started, the step of injecting water into the water receiving container according to the target outlet water level further comprises the following steps:

detecting the height of the water receiving container and judging whether the height of the water receiving container changes or not;

if yes, stopping water injection.

6. The control method according to claim 4,

before starting water injection, the step of injecting water into the water receiving container according to the target water outlet level further comprises the following steps: and determining that the water receiving container is positioned at a preset water receiving position.

7. The control method according to claim 1, wherein

The water outlet device is provided with a first water outlet and a second water outlet; the target outlet water level comprises a first target water level at which the first water outlet is filled into the water receiving container and a second target water level at which the second water outlet is filled into the water receiving container, and the first target water level is smaller than the second target water level; and is

The step of filling water into the water receiving container according to the target water outlet level comprises the following steps:

determining that the receptacle is below the first outlet;

opening the first water outlet, detecting the water level in the water receiving container, and closing the first water outlet under the condition that the water level in the water receiving container reaches the first target water level;

moving the water receiving container to a position below the second water outlet;

and opening the second water outlet, detecting the water level in the water receiving container, and closing the second water outlet under the condition that the water level in the water receiving container reaches the second target water level.

8. A water outlet device comprising:

a processor and a memory, the memory having stored therein a machine executable program, which when executed by the processor, is for implementing a control method according to any one of claims 1 to 7.

9. The water output device of claim 8, further comprising:

the water level setting module is provided with a plurality of water level setting keys for a user to set a target outlet water level; and each water level setting button is correspondingly provided with a water outlet level.

10. The water output apparatus of claim 9,

the water level setting keys are positioned below the water outlet and are arranged in sequence along the vertical direction; and is

The water outlet device also comprises a detector which is arranged above the water outlet and is used for detecting the height of the water receiving container and the water level inside the water receiving container.

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