CN111455631A

CN111455631A - Putting control method for washing machine

Info

Publication number: CN111455631A
Application number: CN201910059870.9A
Authority: CN
Inventors: 吕佩师; 关喆; 魏新; 胡玉鹏
Original assignee: Qingdao Haier Washing Machine Co Ltd; Qingdao Haier Co Ltd
Current assignee: Qingdao Haier Washing Machine Co Ltd; Qingdao Haier Co Ltd
Priority date: 2019-01-22
Filing date: 2019-01-22
Publication date: 2020-07-28

Abstract

The invention belongs to the technical field of washing machines, and aims to solve the problem that the existing washing machine cannot meet the washing requirements of users in various aspects by adopting a combined putting mode of a detergent and a softener or adding washing-assistant components into the detergent. To this end, the present invention provides a putting control method for a washing machine, the washing machine including a washing tub, the putting control method including: putting detergent into the washing barrel; putting a softener into the washing barrel; and putting a builder into the washing barrel. The invention enables the washing machine to pointedly treat special stains on clothes, can meet the washing requirements of users in various aspects, provides more operability and flexibility for putting the washing machine, improves the washing effect of the clothes, and further improves the user experience.

Description

Putting control method for washing machine

Technical Field

The invention belongs to the technical field of washing machines, and particularly provides a putting control method for a washing machine.

Background

A washing machine is a machine for washing laundry by a mechanical action, and common washing machines include a pulsator washing machine, a drum washing machine, an agitator washing machine, and the like.

In the prior art, in order to improve the washing effect of clothes, a detergent or washing powder is generally added to clean the clothes, in addition, a softener is also added to make the clothes softer and more fluffy, however, aiming at some special stains or special requirements of users, the traditional washing mode cannot meet the washing requirements of users, for example, the clothes have oil stains, sugar stains and/or chocolate stains, and the like, for example, the users need to perform lint removal treatment on the clothes, or perform bleaching treatment on the clothes, or perform sterilization treatment on the clothes, the washing requirements of the users cannot be met obviously by the combined treatment mode of the detergent and the softener alone, and the washing cost of the users can be improved by taking the clothes to a special laundry for washing. In addition, in the prior art, a washing assistant component is added into a detergent, and then special treatment of clothes is realized through the washing assistant component, but the adding mode has great limitation, because some washing assistant components are insoluble in a washing liquid, so that the washing assistant component cannot be added into the washing liquid, the real functions of the washing assistant components cannot be exerted, and even if the washing assistant component can be dissolved in the washing liquid, the washing assistant component can still influence the activity of the washing liquid, so that the functions of the washing assistant component cannot be fully exerted, and the washing effect of the detergent on the clothes is reduced.

Therefore, there is a need in the art for a new dosing control method for a washing machine to solve the above-mentioned problems.

Disclosure of Invention

In order to solve the problems in the prior art, namely to solve the problem that the existing washing machine adopts a combined putting mode of detergent and softener or washing assistant components are added into the detergent, which can not meet the washing requirements of users in various aspects, the invention provides a putting control method for the washing machine, wherein the washing machine comprises a washing barrel, and the putting control method comprises the following steps: putting detergent into the washing barrel; putting a softener into the washing barrel; and putting a builder into the washing barrel.

In a preferred embodiment of the above-described dosing control method, the step of "dosing detergent into the washing tub", the step of "dosing softener into the washing tub", and the step of "dosing builder into the washing tub" are performed simultaneously.

In a preferred embodiment of the above-described dosing control method, the step of "dosing detergent into the washing tub", the step of "dosing softener into the washing tub", and the step of "dosing builder into the washing tub" are sequentially performed in a predetermined order.

In a preferred embodiment of the above dispensing control method, the step of "dispensing detergent into the washing tub" specifically includes: putting a predetermined amount of detergent into the washing barrel at one time; the step of putting the softener into the washing barrel specifically comprises the following steps: putting a preset amount of softener into the washing barrel at one time; the step of putting the builder into the washing tub specifically includes: a predetermined amount of builder is dosed into the washing tub at once.

In a preferred embodiment of the above dispensing control method, before, simultaneously with, or after the detergent, the softener, and the builder are dispensed into the washing tub, the control method further includes: water is injected into the washing tub.

In the preferable technical scheme of the above putting control method, the step of "filling water into the washing tub" specifically includes: a predetermined amount of water is injected into the washing tub at one time.

In the preferable technical scheme of the above putting control method, the step of "filling water into the washing tub" specifically includes: a predetermined amount of water is injected into the washing tub in a stepwise manner several times.

In a preferred embodiment of the above dispensing control method, the step of "dispensing detergent into the washing tub" specifically includes: dispensing a predetermined amount of detergent into the washing tub in a stepwise manner; the step of putting the softener into the washing barrel specifically comprises the following steps: throwing a predetermined amount of softener into the washing barrel for multiple times in a segmented mode; the step of putting the builder into the washing tub specifically includes: predetermined amounts of builder are dosed into the washing tub in a stepwise manner.

In a preferred embodiment of the above dispensing control method, before, simultaneously with, or after each dispensing of the detergent, the softener, and the builder into the washing tub, the control method further comprises: water is injected into the washing tub.

In a preferred embodiment of the above method of controlling the dosage, the builder is cellulase.

In a preferred embodiment of the above dosing control method, the builder is an antifoaming agent.

In a preferred embodiment of the above dosing control method, the builder is a protease.

In a preferred embodiment of the above dosing control method, the builder is lipase.

In a preferred embodiment of the above dosing control method, the builder is amylase.

In a preferred embodiment of the above method of controlling the dosage, the builder is mannanase.

In a preferred embodiment of the above dosing control method, the builder is a bleaching agent.

In a preferred embodiment of the above method of controlling administration, the builder is a bacteriostatic agent.

In a preferred embodiment of the above dispensing control method, the builder is a perfume.

In a preferred embodiment of the above dispensing control method, the builder is a color fixative.

The technical scheme includes that the washing machine adopts a combined washing mode of a detergent, a softener and a builder, can treat special stains on clothes in a targeted manner, and can meet various washing requirements of a user, for example, when the stains are stubborn stains on the collar, a proper amount of protease can be added at a proper time on the basis of putting the detergent and the softener, so that the stubborn stains on the collar can be removed; when the stains are greasy dirt, a proper amount of lipase can be added at a proper time on the basis of putting a detergent and a softener, so that the greasy dirt on the clothes can be removed; when the stains are starch stains, a proper amount of amylase can be added at a proper time on the basis of putting detergent and softener, so that sauce stains and porridge stains on clothes are removed; when the stains are chocolate stains, a proper amount of mannase can be added at a proper time on the basis of putting detergent and softener, so that the chocolate stains on the clothes are removed; for example, when a user needs to remove the hair balls from the clothes, a proper amount of cellulase can be added at a proper time on the basis of putting detergent and softener; when a user needs to bleach the clothes, a proper amount of bleaching agent can be added at a proper time on the basis of putting detergent and softener; when a user needs to sterilize the clothes, a proper amount of bactericide can be added at a proper time on the basis of putting the detergent and the softener; when a user needs to carry out bacteriostatic treatment on clothes, a proper amount of bacteriostatic agent can be added at a proper time on the basis of putting the detergent and the softener; when a user needs to carry out lasting fragrance retaining treatment on clothes, a proper amount of essence microcapsules can be added at a proper time on the basis of putting detergent and softener; when the user needs to carry out color protection treatment on clothes, a proper amount of color protection agent can be added at a proper time on the basis of putting detergent and softener. In addition, compared with the mode of directly adding the washing assistant component into the detergent, the feeding mode of the invention has obvious advantages that firstly, most of the washing assistant can be dissolved in water, so that the use of the washing assistant in a washing barrel is not limited, and the feeding time of the washing assistant can be flexibly selected, namely, the washing assistant, the softener and the washing assistant can be fed when the mutual activity of the washing agent, the softener and the washing assistant is not influenced, or the washing assistant can play the maximum function, for example, the washing assistant is an enzyme preparation which can be influenced by a surfactant in the detergent to reduce the activity, so that in order to maintain the activity of the enzyme, the enzyme preparation for maintaining the activity of the enzyme is added into the detergent in the prior art, and the technical scheme of the invention can realize that the enzyme preparation is singly fed at proper time, so that the addition of the stabilizer can be omitted. Through such setting, can exert the effect of detergent, softener and builder three to the at utmost, for the input of washing machine provides more maneuverability and flexibility, improve the washing effect to the clothing, satisfy user's many-sided washing requirement, promote user experience, practiced thrift the cost again, can also protect the environment.

Scheme 1: a dosing control method for a washing machine comprising a washing tub, characterized in that it comprises:

putting detergent into the washing barrel;

putting a softener into the washing barrel;

and putting a builder into the washing barrel.

Scheme 2: the input control method according to claim 1, wherein the step of "inputting detergent into the washing tub", the step of "inputting softener into the washing tub", and the step of "inputting builder into the washing tub" are performed simultaneously.

Scheme 3: the input control method according to claim 1, wherein the step of "inputting detergent into the washing tub", the step of "inputting softener into the washing tub", and the step of "inputting builder into the washing tub" are performed in this order.

Scheme 4: the putting control method according to claim 1, wherein the step of "putting detergent into the washing tub" specifically includes:

putting a predetermined amount of detergent into the washing barrel at one time;

the step of putting the softener into the washing barrel specifically comprises the following steps:

putting a preset amount of softener into the washing barrel at one time;

the step of "putting a builder into the washing tub" specifically includes:

a predetermined amount of builder is dosed into the washing tub at a time.

Scheme 5: the dosing control method according to claim 4, characterized in that before, at the same time as, or after the dosing of the detergent, softener and builder into the washing tub, the control method further comprises:

and injecting water into the washing barrel.

Scheme 6: the putting control method according to claim 5, wherein the step of "filling water into the washing tub" specifically includes:

a predetermined amount of water is injected into the washing tub at one time.

Scheme 7: the putting control method according to claim 5, wherein the step of "filling water into the washing tub" specifically includes:

injecting a predetermined amount of water into the washing tub in a stepwise manner a plurality of times.

Scheme 8: the putting control method according to claim 1, wherein the step of "putting detergent into the washing tub" specifically includes:

dispensing a predetermined amount of detergent into the washing tub in a stepwise manner;

a preset amount of softener is added into the washing barrel for multiple times in a segmented mode;

the step of "putting a builder into the washing tub" specifically includes:

a predetermined amount of builder is dosed into the washing tub in a stepwise manner.

Scheme 9: the dosing control method according to claim 8, wherein before, at the same time, or after each dosing of detergent, softener, and builder into the washing tub, the control method further comprises:

and injecting water into the washing barrel.

Scheme 10: the dosing control method according to any one of claims 1 to 9, wherein the builder is cellulase.

Scheme 11: the dosing control method according to any one of claims 1 to 9, characterized in that the builder is an antifoaming agent.

Scheme 12: the dosing control method according to any one of claims 1 to 9, wherein the builder is a protease.

Scheme 13: the dosing control method according to any one of claims 1 to 9, wherein the builder is a lipase.

Scheme 14: the dosing control method according to any one of claims 1 to 9, characterized in that the builder is amylase.

Scheme 15: the dosing control method according to any one of claims 1 to 9, wherein the builder is mannanase.

Scheme 16: the dosing control method according to any one of claims 1 to 9, characterized in that the builder is a bleaching agent.

Scheme 17: the dispensing control method according to any one of claims 1 to 9, characterized in that the builder is a bacteriostatic agent.

Scheme 18: the dosing control method according to any one of claims 1 to 9, characterized in that the builder is a perfume.

Scheme 19: the dispensing control method according to any one of claims 1 to 9, characterized in that the builder is a color fixative.

Drawings

Fig. 1 is a flowchart of a laundry machine putting control method of the present invention.

Detailed Description

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention.

Based on the problem that the existing washing machine indicated by the background technology cannot meet the washing requirements of users in various aspects by adopting a combined putting mode of detergent and softener or adding washing-assisting components into the detergent, the invention provides a putting control method for the washing machine, aiming at enabling the washing machine to treat special stains on clothes in a targeted manner, meeting the washing requirements of users in various aspects, providing more operability and flexibility for putting the washing machine, improving the washing effect on the clothes and further improving the user experience.

Specifically, the washing machine of the present invention comprises a box body and a feeding device disposed on the box body, wherein the feeding device comprises a detergent feeding cavity, a softener feeding cavity and a detergent builder feeding cavity, wherein the feeding device can be a manual feeding device or an automatic feeding device, if the feeding device is an automatic feeding device, a detergent storage cavity, a softener storage cavity and a detergent builder storage cavity can be disposed in the box body, then the detergent feeding cavity is directly communicated with the detergent storage cavity or is communicated with the detergent storage cavity through a connecting mechanism (for example, a detergent connecting pipe, etc.), the softener feeding cavity is directly communicated with the softener storage cavity or is communicated with the softener storage cavity through a connecting mechanism (for example, a softener connecting pipe, etc.), the detergent feeding cavity is directly communicated with the detergent storage cavity or is communicated with the detergent storage cavity through a connecting mechanism (for example, a detergent connecting pipe, etc.), and a technician in the field can flexibly set the specific structure of the feeding device in practical application, as long as the detergent, the softener and the builder can be put into the washing barrel respectively. As shown in fig. 1, the launch control method of the present invention includes: putting detergent into the washing barrel; putting a softener into the washing barrel; and putting a builder into the washing barrel. Wherein, the steps of putting detergent into the washing barrel, putting softener into the washing barrel and putting builder into the washing barrel can be simultaneously carried out; of course, the steps of "putting detergent into the washing tub", the steps of "putting softener into the washing tub", and the steps of "putting builder into the washing tub" may be set to be performed in this order. In practical applications, a person skilled in the art can flexibly set the execution sequence of the step of "putting detergent into the washing tub", the step of "putting softener into the washing tub", and the step of "putting builder into the washing tub" according to specific washing parameters, the action and type of the builder, and the activity ranges of the detergent, the softener, and the builder, as long as the execution sequence can meet the washing requirements of users and can exert the actions of the detergent, the softener, and the builder to the maximum extent.

In a possible embodiment, the step of "putting detergent into the washing tub" comprises in particular: putting a predetermined amount of detergent into the washing barrel at one time; the step of putting the softener into the washing barrel specifically comprises the following steps: putting a preset amount of softener into the washing barrel at one time; the step of putting the builder into the washing tub specifically includes: a predetermined amount of builder is dosed into the washing tub at once. With such an arrangement, when a user washes clothes by using the washing machine, the detergent, the softener and the builder are all put in the washing machine at one time, that is, the washing machine calculates or sets the putting amount of the detergent, the putting amount of the softener and the putting amount of the builder in advance, and then puts the detergent, the softener and the builder in the washing tub according to the putting amounts. In this case, water may be injected into the washing tub before, simultaneously with, or after the detergent, the softener, and the builder are put into the washing tub. The water injection manner may be to inject a predetermined amount of water into the washing tub at one time, or to inject a predetermined amount of water into the washing tub in a stepwise manner in several times. In practical application, after the washing machine is fed with the detergent, the softener and the builder, water can be injected for multiple times, namely, some water is injected into the washing barrel at intervals, for example, water can be injected for three times, the concentrations of the detergent, the softener and the builder are very high after the water is injected for the first time, so that the washing effect is improved, and then the water is added for two times for washing, so that the unique advantage of automatically feeding the washing machine can be fully exerted. Of course, the builder can also be added in the rinse stage, for example, when the builder is an antifoaming agent, the amount of foam in the rinse stage can be reduced to avoid a large amount of foam.

In another possible embodiment, the step of "putting detergent into the washing tub" specifically comprises: dispensing a predetermined amount of detergent into the washing tub in a stepwise manner; the step of putting the softener into the washing barrel specifically comprises the following steps: throwing a predetermined amount of softener into the washing barrel for multiple times in a segmented mode; the step of putting the builder into the washing tub specifically includes: predetermined amounts of builder are dosed into the washing tub in a stepwise manner. Through the arrangement, when a user washes clothes by using the washing machine, the detergent, the softener and the builder are put in the washing machine for multiple times, namely, the washing machine calculates or sets the putting amount of the detergent, the putting amount of the softener and the putting amount of the builder in each time in advance, and then puts the detergent, the softener and the builder in the washing barrel according to the putting amount in each time. For example, water is injected in the washing stage in different times, and a certain amount of detergent, softener and builder is added in each water injection, or a certain amount of detergent, softener and builder is added in each water injection. In a possible case, taking three times of water injection as an example, 50% of detergent, 50% of softener and 50% of builder are added for the first time of water injection, 30% of detergent, 30% of softener and 30% of builder are added for the second time of water injection, and 20% of detergent, 20% of softener and 20% of builder are added for the third time of water injection. Of course, the above-mentioned dosage amounts of the detergent, the softener and the builder are only exemplary, and those skilled in the art can flexibly set the dosage amounts of the detergent, the softener and the builder in practical applications as long as the sectional dosage of the detergent, the softener and the builder can be realized.

The technical solution of the present invention is further illustrated below with different builders, respectively.

In a possible situation, the builder is cellulase, and when the clothes are washed, on the basis of adding the detergent and the softener, the cellulase can be added to treat the hair balls and the floating hairs on the clothes, so that the whiteness of the clothes is reduced, the chromaticity of the clothes is improved, the clothes can be fluffy, the detergent can remove dirt on the clothes more easily, and the washing effect is improved.

In another possible case, the builder is an antifoaming agent, and as described above, the antifoaming agent may be added to remove foam when the laundry is rinsed, and specifically, the torque value of the motor of the washing machine may be detected and the amount of the antifoaming agent added may be determined based on the torque value when the laundry is rinsed, or an amount of the antifoaming agent may be added, and the torque value of the motor may be detected after a certain period of time, and then it may be determined whether or not the antifoaming agent needs to be added based on the torque value.

In another possible case, the builder is protease, when the clothes are washed, the stubborn stains on the collar can be treated by adding the protease on the basis of adding the detergent and the softener, and in addition, as the detergent, the softener and the protease can be respectively added and directly added into the washing barrel, compared with the adding mode of adding the protease into the detergent, the method can avoid the protease from influencing the activity of the detergent and the softener, thereby playing the best role of the detergent, the softener and the protease.

In yet another possible case, the builder is a lipase, and when the laundry is washed, the lipase is added to the laundry to treat the greasy dirt on the laundry, so as to sufficiently remove the greasy dirt on the laundry, based on the addition of the detergent and the softener.

In yet another possible case, the builder is an amylase, and when the laundry is washed, the amylase is added on the basis of the detergent and the softener to treat the starch stains on the laundry, so that the sauce stains and porridge stains on the laundry are sufficiently removed.

In yet another possible scenario, the builder is mannanase, which is added to treat the chocolate stains on the laundry to substantially remove the chocolate stains from the laundry, when the laundry is washed, based on the addition of detergent and softener.

In yet another possible scenario, the builder is a bleaching agent (e.g., sodium percarbonate, sodium perborate, tetraacetylethylenediamine, etc.), which may be added to bleach laundry in addition to detergents and softeners when the laundry is washed.

In yet another possible case, the builder is a bacteriostatic agent (e.g. 4, 4' dichloro-2-hydroxy diphenyl ether, etc.), that is, a detergent is put into the detergent putting cavity, a softener is put into the softener putting cavity, a bacteriostatic agent is put into the builder putting cavity, and when clothes are washed, the bacteriostatic treatment can be performed on the clothes by adding the bacteriostatic agent on the basis of the detergent and the softener.

In another possible case, the builder is essence (e.g., essence microcapsules, etc.), that is, the detergent is put into the detergent putting cavity, the softener is put into the softener putting cavity, the essence is put into the builder putting cavity, and when the clothes are washed, the antibacterial agent is added to the clothes to leave fragrance on the clothes on the basis of the detergent and the softener.

In yet another possible case, the builder is a color fixative, such as a color fixative or anti-cross-color fixative (e.g., polyvinylpyrrolidone, etc.), which can be added to the laundry upon washing the laundry, in addition to the detergent and softener.

In the invention, the washing machine can meet the personalized customization requirements of users by the feeding control method, and by taking a builder as essence, the user can purchase favorite essence and add the essence at the final stage of rinsing.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.

Claims

1. A dosing control method for a washing machine comprising a washing tub, characterized in that it comprises:

putting detergent into the washing barrel;

putting a softener into the washing barrel;

and putting a builder into the washing barrel.

2. The putting control method according to claim 1, wherein the steps of "putting detergent into the washing tub", putting softener into the washing tub "and" putting builder into the washing tub "are performed simultaneously.

3. The putting control method according to claim 1, wherein the steps of "putting detergent into the washing tub", putting softener into the washing tub "and" putting builder into the washing tub "are sequentially performed in a predetermined order.

4. The dispensing control method according to claim 1, wherein the step of "dispensing detergent into the washing tub" specifically comprises:

putting a preset amount of softener into the washing barrel at one time;

the step of "putting a builder into the washing tub" specifically includes:

a predetermined amount of builder is dosed into the washing tub at a time.

5. The dosing control method according to claim 4, wherein before, at the same time, or after the dosing of the detergent, the softener, and the builder into the washing tub, the control method further comprises:

and injecting water into the washing barrel.

6. The dispensing control method according to claim 5, wherein the step of "filling the washing tub with water" specifically comprises:

a predetermined amount of water is injected into the washing tub at one time.

7. The dispensing control method according to claim 5, wherein the step of "filling the washing tub with water" specifically comprises:

8. The dispensing control method according to claim 1, wherein the step of "dispensing detergent into the washing tub" specifically comprises:

the step of "putting a builder into the washing tub" specifically includes:

9. The dosing control method according to claim 8, wherein before, at the same time, or after each dosing of detergent, softener, and builder into the washing tub, the control method further comprises:

and injecting water into the washing barrel.

10. The dosing control method according to any one of claims 1 to 9, wherein the builder is cellulase.