CN111616655A - Self-optimization method for washing mode of dish washing machine - Google Patents

Abstract

The invention relates to a self-optimization method of a washing mode of a dishwasher, which is characterized by comprising the following steps: after the dish washer finishes the intelligent cleaning mode every time, the cleaning effect is judged, and then the water level, the water temperature and the cleaning time in the intelligent cleaning parameters are adjusted in sequence. Compared with the prior art, the invention has the advantages that: self-optimization can be performed according to the feedback condition of the use effect of the user.

Description

Self-optimization method for washing mode of dish washing machine

Technical Field

The invention relates to a self-optimization method of a washing mode of a dishwasher.

Background

Dishwashers have been used by an increasing number of households as a convenient dish washing tool. With the development of intelligent technology, dishwashers with intelligent functions are successively on the market. The dishwashers can be in communication connection with user terminal equipment such as a smart phone and a tablet personal computer, and a user can operate the user terminal equipment to check a large number of official preset intelligent cleaning modes provided by dishwasher manufacturers on line, wherein the intelligent cleaning modes comprise a plurality of cleaning parameters such as cleaning water temperature, cleaning water consumption, cleaning time and detergent consumption … …. Of course, most dish washing machines can also have a washing mode set by a manufacturer in advance, and as long as a user selects a required washing mode, the dish washing machines can carry out washing work on articles such as dishes in the dish washing machines by calling washing parameters in the washing mode, adding dish washing powder and water for washing required by the washing parameters.

However, no matter the washing mode pre-stored in the dishwasher or the washing mode set by the user, once the washing mode is set, all the washing parameters in the washing mode are always fixed and cannot be optimized by the user according to the actual use condition of the user so as to adapt to different areas or not meet the requirements of the user.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a self-optimizing method for a dishwasher washing mode, which can perform self-optimization according to the feedback situation of the user's use effect.

The technical scheme adopted by the invention for solving the technical problems is as follows: a self-optimization method of a dishwasher cleaning mode is suitable for a dishwasher integrated with a wireless communication module capable of being connected to a network, an intelligent cleaning mode is arranged in the dishwasher, intelligent cleaning parameters are corresponding to the intelligent cleaning mode, and the intelligent cleaning parameters comprise water temperature, water quantity and cleaning time

Step 1, judging whether the dish-washing machine completes an intelligent washing mode, if so, entering step 2, and if not, returning to the step 1;

step 2, judging whether the cleaning effect is qualified, if so, subtracting 0.5L from the water level in the intelligent cleaning parameter, waiting for the next start of the intelligent cleaning mode, then returning to the step 1, if not, adding 0.5L to the water level in the intelligent cleaning parameter, and then entering the step 3;

step 3, reducing the water temperature in the intelligent cleaning parameters by 1 ℃, waiting for the start of the next intelligent cleaning mode, and then entering step 4;

step 4, judging whether the dishwasher completes an intelligent cleaning mode, if so, entering step 5, and if not, returning to step 4;

step 5, judging whether the cleaning effect is qualified, if so, returning to the step 3; if not, heating the water in the intelligent cleaning parameters to 1 ℃, and entering the step 6;

6, subtracting 30S from the cleaning time in the intelligent cleaning parameters, waiting for the next start of the intelligent cleaning mode, and then entering the step 7;

step 7, judging whether the dishwasher completes an intelligent cleaning mode, if so, entering step 8, and if not, returning to step 7;

step 8, judging whether the cleaning effect is qualified, if so, returning to the step 6; if not, adding 30S to the cleaning time in the intelligent cleaning parameters; then entering step 9;

and 9, taking the intelligent cleaning mode as the optimal cleaning mode.

As an improvement, the method also comprises the steps of obtaining the water fee required by unit water consumption and the electricity fee required by unit electricity consumption, and in the step 8, before entering the step 9, the method also comprises the following steps:

step 8-1, recording the sum of water cost and electricity cost consumed in the cleaning mode, and entering step 8-2;

step 8-2, subtracting 30S from the cleaning time in the intelligent cleaning parameters, waiting for the next start of the intelligent cleaning mode, and then entering step 8-3;

8-3, under the condition that the sum of the water fee and the electricity fee in the intelligent cleaning mode is not changed with the sum of the water fee and the electricity fee in the intelligent cleaning mode at the last time, if the water temperature in the intelligent cleaning parameters is not higher than the maximum value of the preset water temperature, heating the water temperature in the intelligent cleaning parameters by 1 ℃, and entering the step 8-4; if the water temperature in the intelligent cleaning parameters is higher than the preset maximum water temperature value and the water level in the intelligent cleaning parameters is not higher than the preset maximum water level value, adding 0.5L to the water level in the intelligent cleaning parameters, and entering the step 8-4; if the water level in the intelligent cleaning parameters is higher than the maximum value of the preset water level, directly entering the step 8-4;

step 8-4, judging whether the cleaning effect is qualified, if so, returning to the step 8-2; if not, adjusting the corresponding intelligent cleaning parameters in the intelligent cleaning mode back to the corresponding intelligent cleaning parameters in the last intelligent cleaning mode, and then entering step 9.

As a modification, the steps 2, 5 and 8 are obtained through a turbidity sensor or/and manual feedback of a user.

Improve again, dish washer carries out once at every turn intelligent cleaning mode, all uploads the cleaning performance to high in the clouds server through wireless communication module, and high in the clouds server is through operation step 1 ~ 9, reachs best cleaning mode, then gives dish washer with this best cleaning mode propelling movement.

Compared with the prior art, the invention has the advantages that: self-optimization can be performed according to the feedback condition of the use effect of the user.

Drawings

FIG. 1 is a flow chart of a method for self-optimizing a washing mode of a dishwasher according to an embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

Example one

The self-optimization method of the washing mode of the dish washing machine shown in figure 1 is suitable for the dish washing machine integrated with the wireless communication module capable of being accessed to the network, the dish washing machine is internally provided with an intelligent washing mode, intelligent washing parameters are correspondingly arranged in the intelligent washing mode, the intelligent washing parameters comprise water temperature, water quantity and washing time, and the self-optimization method comprises the following steps

Step 1, judging whether the dish-washing machine completes an intelligent washing mode, if so, entering step 2, and if not, returning to the step 1;

step 2, judging whether the cleaning effect is qualified, if so, subtracting 0.5L from the water level in the intelligent cleaning parameter, waiting for the next start of the intelligent cleaning mode, then returning to the step 1, if not, adding 0.5L to the water level in the intelligent cleaning parameter, and then entering the step 3;

step 3, reducing the water temperature in the intelligent cleaning parameters by 1 ℃, waiting for the start of the next intelligent cleaning mode, and then entering step 4;

step 4, judging whether the dishwasher completes an intelligent cleaning mode, if so, entering step 5, and if not, returning to step 4;

step 5, judging whether the cleaning effect is qualified, if so, returning to the step 3; if not, heating the water in the intelligent cleaning parameters to 1 ℃, and entering the step 6;

6, subtracting 30S from the cleaning time in the intelligent cleaning parameters, waiting for the next start of the intelligent cleaning mode, and then entering the step 7;

step 7, judging whether the dishwasher completes an intelligent cleaning mode, if so, entering step 8, and if not, returning to step 7;

step 8, judging whether the cleaning effect is qualified, if so, returning to the step 6; if not, adding 30S to the cleaning time in the intelligent cleaning parameters; then entering step 9;

and 9, taking the intelligent cleaning mode as the optimal cleaning mode.

In the step 2, the step 5 and the step 8, whether the cleaning effect is qualified or not is obtained through a turbidity sensor or/and manual feedback of a user.

The dish washer carries out once intelligent washing mode at every turn, all uploads the cleaning performance to the high in the clouds server through wireless communication module, and the high in the clouds server is through operation step 1 ~ 9, reachs best washing mode, then gives the dish washer with this best washing mode propelling movement. Therefore, every time all the terminals of the dish washing machine are washed, the optimization foundation can be taken, and the optimization efficiency is greatly improved.

Example two

Different from the first embodiment, the method also comprises the steps of obtaining the water fee required by unit water consumption and the electric fee required by unit electricity consumption, and the self-optimization method of the washing mode of the dishwasher comprises the following steps:

step 1, judging whether the dish-washing machine completes an intelligent washing mode, if so, entering step 2, and if not, returning to the step 1;

step 2, judging whether the cleaning effect is qualified, if so, subtracting 0.5L from the water level in the intelligent cleaning parameter, waiting for the next start of the intelligent cleaning mode, then returning to the step 1, if not, adding 0.5L to the water level in the intelligent cleaning parameter, and then entering the step 3;

step 3, reducing the water temperature in the intelligent cleaning parameters by 1 ℃, waiting for the start of the next intelligent cleaning mode, and then entering step 4;

step 4, judging whether the dishwasher completes an intelligent cleaning mode, if so, entering step 5, and if not, returning to step 4;

step 5, judging whether the cleaning effect is qualified, if so, returning to the step 3; if not, heating the water in the intelligent cleaning parameters to 1 ℃, and entering the step 6;

6, subtracting 30S from the cleaning time in the intelligent cleaning parameters, waiting for the next start of the intelligent cleaning mode, and then entering the step 7;

step 7, judging whether the dishwasher completes an intelligent cleaning mode, if so, entering step 8, and if not, returning to step 7;

step 8, judging whether the cleaning effect is qualified, if so, returning to the step 6; if not, adding 30S to the cleaning time in the intelligent cleaning parameters, and entering the step 8-1;

step 8-1, recording the sum of water cost and electricity cost consumed in the cleaning mode, and entering step 8-2;

step 8-2, subtracting 30S from the cleaning time in the intelligent cleaning parameters, waiting for the next start of the intelligent cleaning mode, and then entering step 8-3;

8-3, under the condition that the sum of the water fee and the electricity fee in the intelligent cleaning mode is not changed with the sum of the water fee and the electricity fee in the intelligent cleaning mode at the last time, if the water temperature in the intelligent cleaning parameters is not higher than the maximum value of the preset water temperature, heating the water temperature in the intelligent cleaning parameters by 1 ℃, and entering the step 8-4; if the water temperature in the intelligent cleaning parameters is higher than the preset maximum water temperature value and the water level in the intelligent cleaning parameters is not higher than the preset maximum water level value, adding 0.5L to the water level in the intelligent cleaning parameters, and entering the step 8-4; if the water level in the intelligent cleaning parameters is higher than the maximum value of the preset water level, directly entering the step 8-4;

step 8-4, judging whether the cleaning effect is qualified, if so, returning to the step 8-2; if not, adjusting the corresponding intelligent cleaning parameters in the intelligent cleaning mode back to the corresponding intelligent cleaning parameters in the last intelligent cleaning mode, and then entering step 9;

and 9, taking the intelligent cleaning mode as the optimal cleaning mode.

Claims (4)

1. The utility model provides a dish washer washs self-optimization method of mode, is applicable to the dish washer that integrates the wireless communication module that can access to the network, is equipped with intelligent washing mode in the dish washer, and it has intelligent washing parameter to correspond under this intelligent washing mode, and intelligent washing parameter includes temperature of water, water yield and washing time, its characterized in that includes following step:

step 1, judging whether the dish-washing machine completes an intelligent washing mode, if so, entering step 2, and if not, returning to the step 1;

step 2, judging whether the cleaning effect is qualified, if so, subtracting 0.5L from the water level in the intelligent cleaning parameter, waiting for the next start of the intelligent cleaning mode, then returning to the step 1, if not, adding 0.5L to the water level in the intelligent cleaning parameter, and then entering the step 3;

step 3, reducing the water temperature in the intelligent cleaning parameters by 1 ℃, waiting for the start of the next intelligent cleaning mode, and then entering step 4;

step 4, judging whether the dishwasher completes an intelligent cleaning mode, if so, entering step 5, and if not, returning to step 4;

step 5, judging whether the cleaning effect is qualified, if so, returning to the step 3; if not, heating the water in the intelligent cleaning parameters to 1 ℃, and entering the step 6;

6, subtracting 30S from the cleaning time in the intelligent cleaning parameters, waiting for the next start of the intelligent cleaning mode, and then entering the step 7;

step 7, judging whether the dishwasher completes an intelligent cleaning mode, if so, entering step 8, and if not, returning to step 7;

step 8, judging whether the cleaning effect is qualified, if so, returning to the step 6; if not, adding 30S to the cleaning time in the intelligent cleaning parameters; then entering step 9;

and 9, taking the intelligent cleaning mode as the optimal cleaning mode.

2. The self-optimizing method of dishwasher washing mode of claim 1, characterized in that: the method also comprises the following steps of obtaining the water fee required by unit water consumption and the electricity fee required by unit electricity consumption, and in the step 8, before entering the step 9, the method also comprises the following steps:

step 8-1, recording the sum of water cost and electricity cost consumed in the cleaning mode, and entering step 8-2;

step 8-2, subtracting 30S from the cleaning time in the intelligent cleaning parameters, waiting for the next start of the intelligent cleaning mode, and then entering step 8-3;

8-3, under the condition that the sum of the water fee and the electricity fee in the intelligent cleaning mode is not changed with the sum of the water fee and the electricity fee in the intelligent cleaning mode at the last time, if the water temperature in the intelligent cleaning parameters is not higher than the maximum value of the preset water temperature, heating the water temperature in the intelligent cleaning parameters by 1 ℃, and entering the step 8-4; if the water temperature in the intelligent cleaning parameters is higher than the preset maximum water temperature value and the water level in the intelligent cleaning parameters is not higher than the preset maximum water level value, adding 0.5L to the water level in the intelligent cleaning parameters, and entering the step 8-4; if the water level in the intelligent cleaning parameters is higher than the maximum value of the preset water level, directly entering the step 8-4;

step 8-4, judging whether the cleaning effect is qualified, if so, returning to the step 8-2; if not, adjusting the corresponding intelligent cleaning parameters in the intelligent cleaning mode back to the corresponding intelligent cleaning parameters in the last intelligent cleaning mode, and then entering step 9.

3. The self-optimizing method of dishwasher washing mode of claim 1, characterized in that: and in the step 2, the step 5 and the step 8, the results are obtained through a turbidity sensor or/and manual feedback of a user.

4. A method of self-optimization of the washing pattern of a dishwasher according to claim 1, 2 or 3, characterized in that: the dish washer carries out once intelligent washing mode at every turn, all uploads the cleaning performance to the high in the clouds server through wireless communication module, and the high in the clouds server is through operation step 1 ~ 9, reachs best washing mode, then gives the dish washer with this best washing mode propelling movement.

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