CN113564867A - Method for controlling rinsing times and final dewatering time length by weighing parameters - Google Patents

Abstract

The invention discloses a method for controlling rinsing times and final dewatering time length by weighing parameters, and relates to the technical field of intelligent washing machines. The invention comprises the following steps: firstly, carrying out eccentricity detection, weighing and judging dry cloth in the washing machine, and controlling rinsing times according to different weighing ranges; then judging that the load is easy to absorb water, and finally confirming the dehydration time. The invention judges the quantity of clothes in the barrel and whether the clothes are easy to absorb water or not by using dry cloth weighing and wet cloth weighing, thereby controlling the rinsing times and the final dehydration time, reducing the water and electricity and time used in the whole procedure on the basis of not influencing the cleaning efficiency and the water content, saving energy and protecting environment, and improving the performance of the washing machine.

Description

Method for controlling rinsing times and final dewatering time length by weighing parameters

Technical Field

The invention belongs to the technical field of intelligent washing machines, and particularly relates to a method for controlling rinsing times and final dewatering time length by weighing parameters.

Background

Currently on the market, the control schemes for the number of rinses and the final dewatering time are as follows: the control scheme is the default times and duration in the program, and the program cannot be judged by the user when the user selects the program. The user can only manually adjust the number of washing times and the final dehydrating time.

With the continuous development of science and technology, people's life is continuously improved, and the requirements on the intelligence and the performance of the washing machine are also continuously improved. For the above, we can find out that the rinsing times and the final dehydration rotating speed maintaining time of the washing machine can not be judged automatically in the washing process. The method and the device for obtaining the water-feeding time before weighing of the pulsator washing machine have the application number of 201710799786.1, and the clothes made of the first material are put into an inner drum of the pulsator washing machine; water is fed into the inner drum according to the standard material clothing water inlet time t 0; after the water inlet time t0, supplementing water into the inner cylinder and recording the water supplementing time delta t for obtaining a target nominal weight value; and determining the weighted forward water inlet time of the pulsator washing machine as t0+ Deltat in the first material mode. According to the technical scheme, water is supplied into the inner barrel after water is supplied into the inner barrel according to the reference material clothes water inlet time t0, the water supply time delta t for obtaining the target nominal weight value is recorded, the accurate water inlet time before weighing can be obtained, the weighing is accurate, the washing effect is improved, and water and energy are saved.

However, most users can directly default the program operation at the present stage without adjusting the program, which results in that the rinsing times and the final dewatering time of a small amount of clothes and clothes which are not easy to absorb water are default in the program, and undoubtedly wastes a large amount of water and electricity and time. In order to reduce unnecessary waste, the weighing value can be used for judging the quantity of clothes in the barrel and judging whether the clothes are clothes which are easy to absorb water or not, so that the rinsing times and the final dewatering time length can be adjusted, and water, electricity and time are saved in the washing and dewatering process of the clothes which are small in load and difficult to absorb water on the basis of not influencing the washing and water content. On one hand, better user experience is provided for users, and on the other hand, the product performance is improved.

Disclosure of Invention

The invention aims to provide a control method for controlling rinsing times and final dewatering time by weighing parameters, which judges the quantity of clothes in a barrel and whether the clothes are easy to absorb water or not by using dry cloth weighing and wet cloth weighing so as to control the rinsing times and the final dewatering time, and solves the problems of insufficient intellectualization, easy water, electricity and time waste of the existing washing machine.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a method for controlling rinsing times and final dewatering time length by weighing parameters, which comprises the following steps:

step S1: a user starts the washing machine and puts clothes to be washed into the inner cylinder;

step S2: adjusting the clothes to be washed in the inner cylinder, and carrying out eccentric detection;

if UB is less than or equal to K, executing step S3;

if UB > K, go to step S4;

step S3: dry cloth weighing value IB_{Dry matter}Determine whether IB is present_{Dry matter}＜A；

If yes, go to step S5;

if not, the clothes shaking-up procedure is ended;

step S4: judging whether n is less than or equal to n0 or not when the judgment times n is n + 1;

if yes, go to step S2;

if not, the clothes shaking-up procedure is ended;

step S5: determining whether B is less than IB_{Dry matter}＜C；

If yes, go to step S6;

if not, go to step S8;

step S6: judging that a small amount of clothes are in the barrel, starting washing to enter a dehydration stage when the rinsing frequency U is 1;

step S7: eccentric and weighing detection to obtain wet cloth weighing IB_WetDetermine whether IB is present_Wet≤G；

If yes, determining the load which is difficult to absorb water, and setting the dehydration time as t 1;

if not, determining the load which is easy to absorb water, setting the dewatering time as t2, and executing step S12;

step S8: determining whether B is less than IB _{Dry matter}1＜C；

If yes, go to step S9;

if not, go to step S11;

step S9: judging that the middle amount of clothes are in the barrel, starting washing to enter a dehydration stage when the rinsing frequency U is 2;

step S10: carrying out eccentricity and weighing detection to obtain wet cloth weighing IB _Wet1, determination of IB _Wet1≤G1；

If so, judging the load which is difficult to absorb water, and setting the final dehydration time as t 3;

if not, determining that the load final dehydration time length which is easier to absorb water is t4, and executing step S12;

step S11: judging that a large amount of clothes are in the barrel, wherein the rinsing frequency U is 3, starting washing and entering a dehydration stage, and setting the final dehydration time length as t 5;

step S12: and ending the running of the washing machine program.

Preferably, in step S2, an eccentricity sensor is used to detect eccentricity of the inner cylinder of the washing machine; the eccentric sensor is arranged at the bottom of the inner cylinder of the washing machine; the UB is an eccentricity value acquired by an eccentricity value sensor; the K is 90 rpm.

Preferably, in the step S7, when IB > G, the final dehydration duration is set to t 2; when IB is less than or equal to G, the final dehydration time length is set to t 1; wherein, the calculation formula of G is as follows:

G＝3/2*IB_{dry matter}And t1 < t 2.

Preferably, in the step S10, when IB > G1, the final dehydration duration is set to t 4; when IB is less than or equal to G1, the final dehydration time length is set to t 3; wherein, the calculation formula of G1 is:

G1＝3/2*IB _{dry matter}1; t3 < t4 and A > D > C > B.

The invention has the following beneficial effects:

(1) the invention judges the quantity of clothes in the barrel and whether the clothes are easy to absorb water or not by using dry cloth weighing and wet cloth weighing, thereby controlling the rinsing times and the final dehydration time, reducing the water and electricity and time used in the whole procedure on the basis of not influencing the cleaning efficiency and the water content, saving energy and protecting environment, and improving the performance of the washing machine;

(2) the invention judges the amount of the clothes in the barrel and whether the clothes are easy to absorb water or not through the weighing value, so that the rinsing times and the final dehydration time length can be adjusted, and the water, electricity and time saving on the elution program of the clothes which are little in load and difficult to absorb water can be finished on the basis of not influencing the cleaning and the water content, thereby on one hand, the invention provides better user experience for users and on the other hand, the performance of the washing machine is improved.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a step diagram of a method for controlling the number of rinsing times and the final dewatering time by using a weighing parameter according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention is a method for controlling the number of rinsing cycles and the final dewatering time according to a weighing parameter, comprising the following steps:

step S1: a user starts the washing machine and puts clothes to be washed into the inner cylinder;

step S2: adjusting the clothes to be washed in the inner cylinder, and carrying out eccentric detection;

if UB is less than or equal to K, executing step S3;

if UB > K, go to step S4;

through repeated tests, the K value is 251 most suitable;

step S3: dry cloth weighing value IB_{Dry matter}Determine whether IB is present_{Dry matter}＜A；

If yes, go to step S5;

if not, the clothes shaking-up procedure is ended;

step S4: judging whether n is less than or equal to n0 or not when the judgment times n is n + 1;

if yes, go to step S2;

if not, the clothes shaking-up procedure is ended;

step S5: determining whether B is less than IB_{Dry matter}＜C；

If yes, go to step S6;

if not, go to step S8;

step S6: judging that a small amount of clothes are in the barrel, starting washing to enter a dehydration stage when the rinsing frequency U is 1;

step S7: eccentric and weighing detection to obtain wet cloth weighing IB_WetDetermine whether IB is present_Wet≤G；

If yes, determining the load which is difficult to absorb water, and setting the dehydration time as t 1;

if not, determining the load which is easy to absorb water, setting the dewatering time as t2, and executing step S12;

step S8: determining whether B is less than IB _{Dry matter}1＜C；

If yes, go to step S9;

if not, go to step S11;

step S9: judging that the middle amount of clothes are in the barrel, starting washing to enter a dehydration stage when the rinsing frequency U is 2;

step S10: eccentric and weighing detectionMeasuring to obtain wet cloth weighing IB _Wet1, determination of IB _Wet1≤G1；

If so, judging the load which is difficult to absorb water, and setting the final dehydration time as t 3;

if not, determining that the load final dehydration time length which is easier to absorb water is t4, and executing step S12;

step S11: judging that a large amount of clothes are in the barrel, wherein the rinsing frequency U is 3, starting washing and entering a dehydration stage, and setting the final dehydration time length as t 5;

step S12: and ending the running of the washing machine program.

Preferably, in step S2, the eccentricity sensor is used for detecting the eccentricity of the inner cylinder of the washing machine; the eccentric sensor is arranged at the bottom of the inner cylinder of the washing machine; UB is an eccentricity value acquired by an eccentricity value sensor; k is 90 rpm.

Preferably, in step S7, when IB > G, the final dehydration duration is set to t 2; when IB is less than or equal to G, the final dehydration time length is set to t 1; wherein, the calculation formula of G is as follows:

G＝3/2*IB_{dry matter}And t1 < t 2.

Preferably, in step S10, when IB > G1, the final dehydration time period is set to t 4; when IB is less than or equal to G1, the final dehydration time length is set to t 3; wherein, the calculation formula of G1 is:

G1＝3/2*IB _{dry matter}1; t3 < t4 and A > D > C > B.

Through multiple experiments, the value of t1 is 3min-4min, and t2 is t1+1 min; the t3 is assigned to 4min-5min, and t4 is t3+1 min; t5 is assigned a value of 7 min. (t denotes that time should be expressed as an integer in this patent).

One specific application of this embodiment is:

when the intelligent washing machine is used, clothes to be washed are placed in an inner cylinder of the washing machine, the clothes are slightly tidied and flatly laid in the inner cylinder of the washing machine, and eccentricity detection is set at 90rpm, so that the inner cylinder of the washing machine is in a balanced state during dehydration, namely the clothes in the washing machine are in an eccentric state; after the clothes are adjusted again, the eccentricity detection UB is greater than 90rpm, the judgment number n is equal to n +1, and the judgment number n is greater than n0, the clothes shaking-up procedure is ended.

And when UB is less than or equal to 90rpm, carrying out dry cloth weighing judgment:

when IB_{Dry matter}If < A, if B < IB_{Dry matter}If the IB is less than or equal to G, the dehydration time is set to t1 after washing and rinsing are started for 1 time of rinsing times when the IB is less than or equal to C; otherwise, the final dehydration time is t 2;

if C is less than IB_{Dry matter}When the number of times of rinsing is less than D, the number of times of rinsing is 2, after washing and rinsing are started, if IB is less than or equal to G1, the dehydration time is set to be t 3; otherwise, the final dehydration time is t 4; otherwise, the number of times of rinsing is 3, and after washing and rinsing are started, the final dewatering time is t 5.

It should be noted that, in the above system embodiment, each included unit is only divided according to functional logic, but is not limited to the above division as long as the corresponding function can be implemented; in addition, specific names of the functional units are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the present invention.

In addition, it is understood by those skilled in the art that all or part of the steps in the method for implementing the embodiments described above may be implemented by a program instructing associated hardware, and the corresponding program may be stored in a computer-readable storage medium.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (4)

1. A method for controlling rinsing times and final dewatering time length by weighing parameters is characterized by comprising the following steps:

step S1: a user starts the washing machine and puts clothes to be washed into the inner cylinder;

step S2: adjusting the clothes to be washed in the inner cylinder, and carrying out eccentric detection;

if UB is less than or equal to K, executing step S3;

if UB > K, go to step S4;

step S3: dry cloth weighing value IB_{Dry matter}Determine whether IB is present_{Dry matter}＜A；

If yes, go to step S5;

if not, the clothes shaking-up procedure is ended;

step S4: judging whether n is less than or equal to n0 or not when the judgment times n is n + 1;

if yes, go to step S2;

if not, the clothes shaking-up procedure is ended;

step S5: determining whether B is less than IB_{Dry matter}＜C；

If yes, go to step S6;

if not, go to step S8;

step S6: judging that a small amount of clothes are in the barrel, starting washing to enter a dehydration stage when the rinsing frequency U is 1;

step S7: eccentric and weighing detection to obtain wet cloth weighing IB_WetDetermine whether IB is present_Wet≤G；

If yes, determining the load which is difficult to absorb water, and setting the dehydration time as t 1;

if not, determining the load which is easy to absorb water, setting the dewatering time as t2, and executing step S12;

step S8: determining whether B is less than IB_{Dry matter}1＜C；

If yes, go to step S9;

if not, go to step S11;

step S9: judging that the middle amount of clothes are in the barrel, starting washing to enter a dehydration stage when the rinsing frequency U is 2;

step S10: carrying out eccentricity and weighing detection to obtain wet cloth weighing IB_Wet1, determination of IB_Wet1≤G1；

If so, judging the load which is difficult to absorb water, and setting the final dehydration time as t 3;

if not, determining that the load final dehydration time length which is easier to absorb water is t4, and executing step S12; step S11: judging that a large amount of clothes are in the barrel, wherein the rinsing frequency U is 3, starting washing and entering a dehydration stage, and setting the final dehydration time length as t 5;

step S12: and ending the running of the washing machine program.

2. The method for controlling the number of rinsing cycles and the final dehydration time period according to claim 1, wherein in step S2, the eccentricity of the inner tub of the washing machine is detected by an eccentricity sensor; the eccentric sensor is arranged at the bottom of the inner cylinder of the washing machine; the UB is an eccentricity value acquired by an eccentricity value sensor; the K is 90 rpm.

3. The method for controlling the number of rinsing cycles and the final dehydrating period according to claim 1, wherein in step S7, when IB > G, the final dehydrating period is set to t 2; when IB is less than or equal to G, the final dehydration time length is set to t 1; wherein, the calculation formula of G is as follows:

G＝3/2*IB_{dry matter}And t1 < t 2.

4. The method for controlling the number of rinsing cycles and the final dehydrating period according to claim 1, wherein in step S10, when IB > G1, the final dehydrating period is set to t 4; when IB is less than or equal to G1, the final dehydration time length is set to t 3; wherein, the calculation formula of G1 is:

G1＝3/2*IB_{dry matter}1; t3 < t4 and A > D > C > B.

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