CN115403086B - Water purifier control method and device - Google Patents

Abstract

The invention relates to the technical field of water purifiers, and discloses a water purifier control method and device, aiming at improving the universality and accuracy of water purifier water outlet control, wherein the scheme mainly comprises the following steps: acquiring a water receiving parameter set by a user; detecting the real-time water yield of the water purifier after the water outlet valve of the water purifier is opened each time; if the user sets the water receiving amount, closing a water outlet valve of the water purifier after the real-time water outlet amount reaches the water receiving amount; if the user does not set the water receiving capacity but sets the single maximum water receiving capacity, closing a water outlet valve of the water purifier after the real-time water output reaches the single maximum water receiving capacity; if the user does not set the current water receiving capacity and the single maximum water receiving capacity, but sets the common water receiving capacity, when the real-time water output reaches the common water receiving capacity, the water outlet valve of the water purifier is closed. The invention effectively avoids water resource waste, reduces user operation and improves the universality and accuracy of water outlet control of the water purifier.

Description

Water purifier control method and device

Technical Field

The invention relates to the technical field of water purifiers, in particular to a water purifier control method and device.

Background

The water purifier can effectively filter rust, sand and stone, colloid and adsorb residual chlorine, smell, color, pesticide and other chemical agents in water. Can effectively remove bacteria, germs, toxins, heavy metals and other impurities in the water. The water purification technology is applied to the drinking water field, so that the phenomenon of 'water and soil lack' can quickly become history, and the problem of local diseases caused by exceeding of harmful substances in underground water in many places is effectively solved.

The domestic water purifier is usually through the filtration membrane in the filter core to carry out impurity filtration, therefore the play water pressure of domestic water purifier can not be too big, and the water receiving speed is slower, and the user often can recall to do other things with the container after the water purifier receives water, probably forgets to close the water purifier, and then causes the water waste.

The existing solution is to preset a plurality of fixed water output in the water purifier, for example, 250ml and 500ml, the user selects the fixed water receiving amount according to the actual requirement when receiving water, and the water purifier is automatically closed after the water output reaches the water output selected by the user. The mode has the problems that users forget to set the water receiving amount this time easily to cause water resource waste, and the capacity of a container used by the users is different due to the difference of users using the water purifier, the fixed water receiving amount preset by manufacturers cannot meet the requirements of all users, and the universality is poor. For example, users often use a kettle to collect water, but the fixed water collection amount is only 500ml at maximum, so that the users are required to collect water for many times, and the operation is complicated. In addition, the capacities of different kettles may be different, and even if a large fixed water receiving amount is arranged, a user can hardly receive a proper amount of water at one time. And the user also may not know the capacity of the kettle, and multiple attempts and settings are required to find a proper fixed water receiving amount, so that the operation is complicated and the accuracy is not high.

Disclosure of Invention

The invention aims to provide a water purifier control method and device, which are used for reducing user operation and improving the universality and accuracy of water outlet control of a water purifier, and meanwhile, avoiding water resource waste caused by forgetting to set water outlet.

The technical scheme adopted by the invention for solving the technical problems is as follows:

in a first aspect, there is provided a water purifier control method including the steps of:

acquiring water receiving quantity parameters set by a user, wherein the water receiving quantity parameters comprise: the water receiving capacity, the single maximum water receiving capacity and/or the common water receiving capacity;

detecting the real-time water yield of the water purifier after the water outlet valve of the water purifier is opened each time;

the water outlet valve of the water purifier is controlled according to the water receiving parameter and the real-time water outlet, and the water outlet valve specifically comprises:

if the user sets the water receiving amount, closing a water outlet valve of the water purifier after the real-time water outlet amount reaches the water receiving amount; if the user does not set the water receiving capacity but sets the single maximum water receiving capacity, closing a water outlet valve of the water purifier after the real-time water output reaches the single maximum water receiving capacity; if the user does not set the current water receiving capacity and the single maximum water receiving capacity, but sets the common water receiving capacity, when the real-time water output reaches the common water receiving capacity, the water outlet valve of the water purifier is closed.

Further, the method further comprises:

after the water outlet valve of the water purifier is closed, prompting whether water is continuously discharged to a user, judging whether a continuous water outlet instruction sent by the user is received in a preset time period, if so, opening the water outlet valve of the water purifier, and after the water outlet stopping instruction sent by the user is received, closing the water outlet valve of the water purifier, otherwise, keeping the water outlet valve of the water purifier closed.

Further, the method further comprises:

after receiving a command of stopping water outlet sent by a user and closing a water outlet valve of the water purifier, determining a first accumulated water outlet according to the water outlet of the last time the water outlet valve is opened and the water outlet of the water outlet valve is opened, and prompting the user whether the first accumulated water outlet is set as a common water receiving amount;

and after receiving a first confirmation instruction sent by a user, updating the common water receiving amount to a first accumulated water output amount.

Further, the method further comprises:

after the water outlet valve of the water purifier is closed, prompting whether water is continuously discharged to a user, judging whether a continuous water outlet instruction sent by the user is received within a preset time period, if so, inquiring continuous water outlet to the user, opening the water outlet valve of the water purifier after the continuous water outlet sent by the user is received, and closing the water outlet valve of the water purifier after the real-time water outlet reaches the continuous water outlet, otherwise, keeping the water outlet valve of the water purifier closed.

Further, the method further comprises:

after the real-time water yield reaches the continuous water yield and the water outlet valve of the water purifier is closed, determining a second accumulated water yield according to the water yield of the last opened water outlet valve and the continuous water yield, and prompting a user whether to set the second accumulated water yield as the common water receiving capacity;

and after receiving a second confirmation instruction sent by the user, updating the common water receiving amount to a second accumulated water output amount.

In a second aspect, there is provided a water purifier control device including:

the acquisition unit is used for acquiring the water receiving quantity parameters set by a user, and the water receiving quantity parameters comprise: the water receiving capacity, the single maximum water receiving capacity and/or the common water receiving capacity;

the detection unit is used for detecting the real-time water yield of the water purifier after the water outlet valve of the water purifier is opened each time;

the control unit is used for controlling the water outlet valve of the water purifier according to the water receiving parameter and the real-time water outlet, and specifically comprises the following components:

if the user sets the water receiving amount, closing a water outlet valve of the water purifier after the real-time water outlet amount reaches the water receiving amount; if the user does not set the water receiving capacity but sets the single maximum water receiving capacity, closing a water outlet valve of the water purifier after the real-time water output reaches the single maximum water receiving capacity; if the user does not set the current water receiving capacity and the single maximum water receiving capacity, but sets the common water receiving capacity, when the real-time water output reaches the common water receiving capacity, the water outlet valve of the water purifier is closed.

Further, the control unit is further configured to:

after the water outlet valve of the water purifier is closed, prompting whether water is continuously discharged to a user, judging whether a continuous water outlet instruction sent by the user is received in a preset time period, if so, opening the water outlet valve of the water purifier, and after the water outlet stopping instruction sent by the user is received, closing the water outlet valve of the water purifier, otherwise, keeping the water outlet valve of the water purifier closed.

Further, the control unit is further configured to:

after receiving a command of stopping water outlet sent by a user and closing a water outlet valve of the water purifier, determining a first accumulated water outlet according to the water outlet of the last time the water outlet valve is opened and the water outlet of the water outlet valve is opened, and prompting the user whether the first accumulated water outlet is set as a common water receiving amount;

and after receiving a first confirmation instruction sent by a user, updating the common water receiving amount to a first accumulated water output amount.

Further, the control unit is further configured to:

after the water outlet valve of the water purifier is closed, prompting whether water is continuously discharged to a user, judging whether a continuous water outlet instruction sent by the user is received within a preset time period, if so, inquiring continuous water outlet to the user, opening the water outlet valve of the water purifier after the continuous water outlet sent by the user is received, and closing the water outlet valve of the water purifier after the real-time water outlet reaches the continuous water outlet, otherwise, keeping the water outlet valve of the water purifier closed.

Further, the control unit is further configured to:

after the real-time water yield reaches the continuous water yield and the water outlet valve of the water purifier is closed, determining a second accumulated water yield according to the water yield of the last opened water outlet valve and the continuous water yield, and prompting a user whether to set the second accumulated water yield as the common water receiving capacity;

and after receiving a second confirmation instruction sent by the user, updating the common water receiving amount to a second accumulated water output amount.

The beneficial effects of the invention are as follows: according to the water purifier control method and device, a user can set one or more water receiving parameters, and water output of the water purifier is controlled according to the set water receiving parameters and the real-time water output, wherein the common water receiving amount can be set according to the last actual water output of the user. The invention not only avoids the waste of water resources caused by forgetting to set the water yield of the user, but also can quickly set the proper common water receiving amount, reduces the operation of the user, improves the accuracy of water outlet control of the water purifier and improves the user experience.

Drawings

FIG. 1 is a schematic flow chart of a water purifier control method according to an embodiment of the invention;

FIG. 2 is a flow chart of another method for controlling a water purifier according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a water purifier control device according to an embodiment of the present invention.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

The invention provides a water purifier control method and a device, and the main technical scheme comprises the following steps: acquiring water receiving quantity parameters set by a user, wherein the water receiving quantity parameters comprise: the water receiving capacity, the single maximum water receiving capacity and/or the common water receiving capacity; detecting the real-time water yield of the water purifier after the water outlet valve of the water purifier is opened each time; the water outlet valve of the water purifier is controlled according to the water receiving parameter and the real-time water outlet, and the water outlet valve specifically comprises: if the user sets the water receiving amount, closing a water outlet valve of the water purifier after the real-time water outlet amount reaches the water receiving amount; if the user does not set the water receiving capacity but sets the single maximum water receiving capacity, closing a water outlet valve of the water purifier after the real-time water output reaches the single maximum water receiving capacity; if the user does not set the current water receiving capacity and the single maximum water receiving capacity, but sets the common water receiving capacity, when the real-time water output reaches the common water receiving capacity, the water outlet valve of the water purifier is closed.

It will be appreciated that it is difficult for a user to receive an appropriate amount of water by controlling the water purifier in a fixed water receiving manner due to the different capacities of the containers commonly used by the user. And because the difference of user's life habit, the user can often use same container to connect water in water purifier department, if adopt and all set up the mode control water purifier water outlet of this water receiving amount at every turn, then complex operation and user's possible user forget easily to set up this water receiving amount, leads to causing the water wasting when forgetting to close the water purifier. If the water purifier is controlled to discharge water in a manner of setting a single maximum water receiving amount, a user may receive water using a different container, resulting in difficulty in receiving an appropriate amount of water.

In order to solve the problems, the invention sets various water receiving parameters, namely the current water receiving amount, the single maximum water receiving amount and the common water receiving amount, and controls the water outlet of the water purifier according to the detected real-time water delivery amount of the water purifier. Specifically, when the user needs to receive water, the water receiving amount, the single maximum water receiving amount and/or the common water receiving amount can be selected according to actual requirements, if the user sets the water receiving amount, the water purifier outlet is controlled according to the water receiving amount no matter whether the user sets the single maximum water receiving amount and the common water receiving amount, if the user does not set the water receiving amount, but sets the single maximum water receiving amount, the water purifier outlet is controlled according to the single maximum water receiving amount no matter whether the user sets the common water receiving amount, and if the user does not set the water receiving amount and the single maximum water receiving amount, but sets the common water receiving amount, the water purifier outlet is controlled according to the common water receiving amount. The water receiving capacity is set by the user, and can be updated according to different use habits of the user. Therefore, the water waste caused by that the user forgets to set the water receiving amount and forgets to turn off the water purifier can be avoided, and the operation of the user is reduced; and the common water receiving amount can be set according to the detected actual water output, so that the problem that the user does not know the capacity of the container and is difficult to set the accurate water output is avoided, the control accuracy and the control universality of the water purifier are further improved, and the user experience is also improved.

Examples

The water purifier control method according to the embodiment of the invention, as shown in fig. 1, comprises the following steps:

step 1, acquiring water receiving quantity parameters set by a user, wherein the water receiving quantity parameters comprise: the water receiving capacity, the single maximum water receiving capacity and/or the common water receiving capacity;

in practical application, when the user uses the water purifier, the water receiving parameter can be selected and set according to the requirement, and the user can set one of the water receiving parameters and can set a plurality of water receiving parameters. For example, the user may set the single maximum water receiving capacity or the common water receiving capacity in advance, set the current water receiving capacity when receiving water this time, or set the common water receiving capacity after completing water receiving this time.

Step 2, detecting the real-time water yield of the water purifier after the water outlet valve of the water purifier is opened each time;

in this embodiment, a flowmeter may be disposed in the water outlet channel of the water purifier to detect the real-time water output. Specifically, after receiving the water outlet instruction sent by the user, the control unit of the water purifier opens the water outlet valve of the water purifier, and simultaneously controls the flowmeter to start working, acquires the real-time water outlet quantity of the water outlet channel through the flowmeter, and after closing the water outlet valve of the water purifier, controls the flowmeter to stop working, counts the water outlet quantity of the water outlet valve which is opened this time, and the control unit can acquire and record the water outlet quantity of the water outlet valve which is opened each time.

And 3, controlling a water outlet valve of the water purifier according to the water receiving parameter and the real-time water outlet, wherein the water outlet valve specifically comprises:

if the user sets the water receiving amount, closing a water outlet valve of the water purifier after the real-time water outlet amount reaches the water receiving amount; if the user does not set the water receiving capacity but sets the single maximum water receiving capacity, closing a water outlet valve of the water purifier after the real-time water output reaches the single maximum water receiving capacity; if the user does not set the current water receiving capacity and the single maximum water receiving capacity, but sets the common water receiving capacity, when the real-time water output reaches the common water receiving capacity, the water outlet valve of the water purifier is closed.

It can be understood that when the user uses the container with little difference in capacity to receive water, the water receiving amount can be set, and when the user uses the container with little difference in capacity to receive water, the single maximum water receiving amount can be set, and the common water receiving amount can also be set.

In this embodiment, as shown in fig. 2, the priorities of the current water receiving capacity, the single maximum water receiving capacity and the common water receiving capacity decrease in sequence, and the control unit of the water purifier controls the water outlet of the water purifier according to the water outlet parameters set by the user. Specifically, if the user sets the water receiving amount, the water purifier is controlled to discharge according to the water receiving amount no matter whether the user sets the single maximum water receiving amount and the common water receiving amount, if the user does not set the water receiving amount but sets the single maximum water receiving amount, the water purifier is controlled to discharge according to the single maximum water receiving amount no matter whether the user sets the common water receiving amount, and if the user does not set the water receiving amount and the single maximum water receiving amount but sets the common water receiving amount, the water purifier is controlled to discharge according to the common water receiving amount.

To avoid that the user does not receive an amount of water, the present embodiment further comprises:

and 4, after the water outlet valve of the water purifier is closed, prompting whether water is continuously discharged to a user, judging whether a continuous water outlet instruction sent by the user is received within a preset time period, if so, opening the water outlet valve of the water purifier, and after the water outlet stopping instruction sent by the user is received, closing the water outlet valve of the water purifier, otherwise, keeping the water outlet valve of the water purifier closed.

Specifically, after the water outlet valve of the water purifier is closed, whether water is continuously discharged or not can be prompted to a user through interaction units such as a loudspeaker and a touch screen of the water purifier, if the control unit receives a continuous water outlet instruction sent by the user in a preset time period, the water outlet valve is opened again to discharge water until the water outlet stopping instruction sent by the user is received. This can avoid that the user does not receive a proper amount of water. The preset time may be set according to requirements, for example, 5 seconds.

In order to facilitate the user to set the water receiving amount, this embodiment further includes:

step 5, after receiving a command of stopping water outlet sent by a user and closing a water outlet valve of the water purifier, determining a first accumulated water outlet according to the water outlet of the last time the water outlet valve is opened and the water outlet of the current time the water outlet valve is opened, and prompting the user whether the first accumulated water outlet is set as a common water receiving amount; and after receiving a first confirmation instruction sent by a user, updating the common water receiving amount to a first accumulated water output amount.

Specifically, after the user continues to receive water, the current set water yield parameter is indicated to be different from the user demand, at this time, the control unit of the water purifier inquires whether the user sets the water yield as the common water receiving amount according to the first accumulated water yield of the twice water output counted by the flowmeter, if the user confirms, the common water receiving amount is updated, and when the user receives water next time, the common water receiving amount is the first accumulated water yield of the current water receiving amount, so that the efficiency of setting the common water receiving amount can be improved, the user operation is reduced, and the accuracy of the common water receiving amount is improved.

In step 4 of the embodiment, after receiving the continuous water outlet instruction sent by the user, the user may also be queried for the continuous water outlet, after receiving the continuous water outlet sent by the user, the water outlet valve of the water purifier is opened, and after the real-time water outlet reaches the continuous water outlet, the water outlet valve of the water purifier is closed, otherwise, the water outlet valve of the water purifier is kept closed.

Specifically, the continuous water outlet can be inquired to the user through the interaction units such as the loudspeaker and the touch screen of the water purifier, if the control unit receives the continuous water outlet sent by the user, the water outlet valve is opened again to carry out water outlet until the real-time water outlet reaches the continuous water outlet. So can avoid forgetting the water resource waste that manual shut-off water purifier caused.

Based on the above scheme, the embodiment can also determine the second accumulated water outlet according to the water outlet of the last opening of the water outlet valve and the continuous water outlet after the real-time water outlet reaches the continuous water outlet and the water outlet valve of the water purifier is closed, and prompt the user whether to set the second accumulated water outlet as the common water receiving amount; and after receiving a second confirmation instruction sent by the user, updating the common water receiving amount to a second accumulated water output amount.

Specifically, after the user continues to receive water, the current set water yield parameter is indicated to be different from the user demand, at this time, the control unit of the water purifier inquires whether the user sets the water yield as the common water receiving amount according to the second accumulated water yield of the twice water output counted by the flowmeter, if the user confirms, the common water receiving amount is updated, and when the user receives water next time, the common water receiving amount is the second accumulated water yield of the current water receiving amount, so that the efficiency of setting the common water receiving amount can be improved, the user operation is reduced, and the accuracy of the common water receiving amount is improved.

In summary, in this embodiment, by setting various water receiving parameters, that is, the current water receiving amount, the single maximum water receiving amount and the common water receiving amount, the water outlet of the water purifier is controlled according to the detected real-time water delivery amount of the water purifier. The water resource waste caused by that the user forgets to set the water receiving amount and forgets to close the water purifier is avoided, and the user operation is reduced; and the common water receiving amount can be set according to the detected actual water output, so that the problem that the user does not know the capacity of the container and is difficult to set the accurate water output is avoided, the control accuracy and the control universality of the water purifier are further improved, and the user experience is also improved.

Based on the above technical solution, this embodiment further provides a water purifier control device, as shown in fig. 3, including:

the acquisition unit is used for acquiring the water receiving quantity parameters set by a user, and the water receiving quantity parameters comprise: the water receiving capacity, the single maximum water receiving capacity and/or the common water receiving capacity;

the detection unit is used for detecting the real-time water yield of the water purifier after the water outlet valve of the water purifier is opened each time;

the control unit is used for controlling the water outlet valve of the water purifier according to the water receiving parameter and the real-time water outlet, and specifically comprises the following components:

if the user sets the water receiving amount, closing a water outlet valve of the water purifier after the real-time water outlet amount reaches the water receiving amount; if the user does not set the water receiving capacity but sets the single maximum water receiving capacity, closing a water outlet valve of the water purifier after the real-time water output reaches the single maximum water receiving capacity; if the user does not set the current water receiving capacity and the single maximum water receiving capacity, but sets the common water receiving capacity, when the real-time water output reaches the common water receiving capacity, the water outlet valve of the water purifier is closed.

It will be understood that, since the water purifier control device according to the embodiment of the present invention is a device based on the method for implementing the water purifier control method according to the embodiment, for the device disclosed in the embodiment, since it corresponds to the method disclosed in the embodiment, the description is simpler, and the relevant points will be referred to the part of the description of the method.

Claims (6)

1. The control method of the water purifier is characterized by comprising the following steps:

acquiring water receiving quantity parameters set by a user, wherein the water receiving quantity parameters comprise: the water receiving capacity, the single maximum water receiving capacity and/or the common water receiving capacity;

detecting the real-time water yield of the water purifier after the water outlet valve of the water purifier is opened each time;

the water outlet valve of the water purifier is controlled according to the water receiving parameter and the real-time water outlet, and the water outlet valve specifically comprises:

if the user sets the water receiving amount, closing a water outlet valve of the water purifier after the real-time water outlet amount reaches the water receiving amount; if the user does not set the water receiving capacity but sets the single maximum water receiving capacity, closing a water outlet valve of the water purifier after the real-time water output reaches the single maximum water receiving capacity; if the user does not set the current water receiving capacity and the single maximum water receiving capacity, but sets the common water receiving capacity, closing a water outlet valve of the water purifier after the real-time water outlet capacity reaches the common water receiving capacity;

after the water outlet valve of the water purifier is closed, prompting whether water is continuously discharged to a user, judging whether a continuous water outlet instruction sent by the user is received within a preset time period, if so, opening the water outlet valve of the water purifier, and after the water outlet stopping instruction sent by the user is received, closing the water outlet valve of the water purifier, otherwise, keeping the water outlet valve of the water purifier closed;

after receiving a command of stopping water outlet sent by a user and closing a water outlet valve of the water purifier, determining a first accumulated water outlet according to the water outlet of the last time the water outlet valve is opened and the water outlet of the water outlet valve is opened, and prompting the user whether the first accumulated water outlet is set as a common water receiving amount;

and after receiving a first confirmation instruction sent by a user, updating the common water receiving amount to a first accumulated water output amount.

2. A water purifier control method, the method comprising:

acquiring water receiving quantity parameters set by a user, wherein the water receiving quantity parameters comprise: the water receiving capacity, the single maximum water receiving capacity and/or the common water receiving capacity;

detecting the real-time water yield of the water purifier after the water outlet valve of the water purifier is opened each time;

the water outlet valve of the water purifier is controlled according to the water receiving parameter and the real-time water outlet, and the water outlet valve specifically comprises:

if the user sets the water receiving amount, closing a water outlet valve of the water purifier after the real-time water outlet amount reaches the water receiving amount; if the user does not set the water receiving capacity but sets the single maximum water receiving capacity, closing a water outlet valve of the water purifier after the real-time water output reaches the single maximum water receiving capacity; if the user does not set the current water receiving capacity and the single maximum water receiving capacity, but sets the common water receiving capacity, closing a water outlet valve of the water purifier after the real-time water outlet capacity reaches the common water receiving capacity;

after the water outlet valve of the water purifier is closed, prompting whether water is continuously discharged to a user, judging whether a continuous water outlet instruction sent by the user is received within a preset time period, if so, inquiring continuous water outlet to the user, opening the water outlet valve of the water purifier after the continuous water outlet sent by the user is received, and closing the water outlet valve of the water purifier after the real-time water outlet reaches the continuous water outlet, otherwise, keeping the water outlet valve of the water purifier closed.

3. The water purifier control method as recited in claim 2, wherein the method further comprises:

after the real-time water yield reaches the continuous water yield and the water outlet valve of the water purifier is closed, determining a second accumulated water yield according to the water yield of the last opened water outlet valve and the continuous water yield, and prompting a user whether to set the second accumulated water yield as the common water receiving capacity;

and after receiving a second confirmation instruction sent by the user, updating the common water receiving amount to a second accumulated water output amount.

4. The water purifier controlling means, characterized by, include:

the acquisition unit is used for acquiring the water receiving quantity parameters set by a user, and the water receiving quantity parameters comprise: the water receiving capacity, the single maximum water receiving capacity and/or the common water receiving capacity;

the detection unit is used for detecting the real-time water yield of the water purifier after the water outlet valve of the water purifier is opened each time;

the control unit is used for controlling the water outlet valve of the water purifier according to the water receiving parameter and the real-time water outlet, and specifically comprises the following components:

if the user sets the water receiving amount, closing a water outlet valve of the water purifier after the real-time water outlet amount reaches the water receiving amount; if the user does not set the water receiving capacity but sets the single maximum water receiving capacity, closing a water outlet valve of the water purifier after the real-time water output reaches the single maximum water receiving capacity; if the user does not set the current water receiving capacity and the single maximum water receiving capacity, but sets the common water receiving capacity, closing a water outlet valve of the water purifier after the real-time water outlet capacity reaches the common water receiving capacity;

the control unit is further configured to:

after the water outlet valve of the water purifier is closed, prompting whether water is continuously discharged to a user, judging whether a continuous water outlet instruction sent by the user is received within a preset time period, if so, opening the water outlet valve of the water purifier, and after the water outlet stopping instruction sent by the user is received, closing the water outlet valve of the water purifier, otherwise, keeping the water outlet valve of the water purifier closed;

the control unit is further configured to:

after receiving a command of stopping water outlet sent by a user and closing a water outlet valve of the water purifier, determining a first accumulated water outlet according to the water outlet of the last time the water outlet valve is opened and the water outlet of the water outlet valve is opened, and prompting the user whether the first accumulated water outlet is set as a common water receiving amount;

and after receiving a first confirmation instruction sent by a user, updating the common water receiving amount to a first accumulated water output amount.

5. The water purifier controlling means, characterized by, include:

the acquisition unit is used for acquiring the water receiving quantity parameters set by a user, and the water receiving quantity parameters comprise: the water receiving capacity, the single maximum water receiving capacity and/or the common water receiving capacity;

the detection unit is used for detecting the real-time water yield of the water purifier after the water outlet valve of the water purifier is opened each time;

the control unit is used for controlling the water outlet valve of the water purifier according to the water receiving parameter and the real-time water outlet, and specifically comprises the following components:

if the user sets the water receiving amount, closing a water outlet valve of the water purifier after the real-time water outlet amount reaches the water receiving amount; if the user does not set the water receiving capacity but sets the single maximum water receiving capacity, closing a water outlet valve of the water purifier after the real-time water output reaches the single maximum water receiving capacity; if the user does not set the current water receiving capacity and the single maximum water receiving capacity, but sets the common water receiving capacity, closing a water outlet valve of the water purifier after the real-time water outlet capacity reaches the common water receiving capacity;

the control unit is further configured to:

after the water outlet valve of the water purifier is closed, prompting whether water is continuously discharged to a user, judging whether a continuous water outlet instruction sent by the user is received within a preset time period, if so, inquiring continuous water outlet to the user, opening the water outlet valve of the water purifier after the continuous water outlet sent by the user is received, and closing the water outlet valve of the water purifier after the real-time water outlet reaches the continuous water outlet, otherwise, keeping the water outlet valve of the water purifier closed.

6. The water purifier control device of claim 5, wherein the control unit is further configured to:

after the real-time water yield reaches the continuous water yield and the water outlet valve of the water purifier is closed, determining a second accumulated water yield according to the water yield of the last opened water outlet valve and the continuous water yield, and prompting a user whether to set the second accumulated water yield as the common water receiving capacity;

and after receiving a second confirmation instruction sent by the user, updating the common water receiving amount to a second accumulated water output amount.