CN117144628A - Washing control method for preventing abrasion of washing machine and washing machine - Google Patents

Abstract

The invention discloses a washing control method for preventing abrasion of a washing machine and the washing machine, wherein the washing control method comprises the steps of acquiring the touch state of clothes in the washing machine and a cylinder wall and/or a pulsator in the washing process; when the clothes touch state is that the clothes touch the cylinder wall and/or the pulsator, the washing machine is controlled to reduce the intensity of washing water flow. According to the invention, the touch state of clothes in the washing machine is detected in the washing process, and when the touch state of the clothes on the drum wall and/or the pulsator is detected, the washing machine is immediately controlled to reduce the intensity of washing water flow, so that the abrasion to the clothes is reduced, and the washing ratio of the washing machine is improved.

Description

Washing control method for preventing abrasion of washing machine and washing machine

Technical Field

The invention belongs to the field of washing machines, and particularly relates to a washing control method for preventing abrasion of a washing machine and the washing machine.

Background

Currently, washing machines are largely classified into pulsator type, agitator type, and drum type washing machines. The pulsator type washing machine performs a washing operation by rotating a pulsator at the center of a washing tub in a left-right direction. The pulsator type washing machine performs a washing operation by using a frictional force between a water current and laundry by rotating a rotation fin at the center of a washing tub in a left-right direction. The drum type washing machine performs a washing operation by rotating a drum to beat laundry.

The washing mode of the pulsator washing machine in the prior art is to turn the washing articles to move through special water flow formed by rotation of a pulsator or simultaneous rotation of the pulsator and an inner barrel, and apply acting force to the washing articles in the turning process, so that the washing articles are rubbed and decontaminated through self friction and friction with the pulsator and the inner barrel wall, and the washing is repeatedly carried out to achieve the aim of cleaning. However, during the washing process, the washing water flow state is single and the water flow of the periodical forward and reverse rotation causes great wear to the laundry, consumer complains about the laundry extremely seriously, and at the same time, the washing water consumption is large and the washing ratio is not high. The present invention has been made in view of this.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and aims to provide a washing control method for preventing abrasion of a washing machine, which reduces the water flow intensity of washing water, reduces the abrasion to the clothes, improves the washing ratio and improves the user experience when the clothes touch the cylinder wall and/or the pulsator.

Another object of the present invention is to provide a washing machine.

In order to solve the technical problems, the invention adopts the basic conception of the technical scheme that: a washing control method for preventing abrasion of a washing machine comprises the following steps:

in the washing process, acquiring the touching state of clothes in the washing machine and the drum wall and/or the pulsator;

when the clothes touch state is that the clothes touch the cylinder wall and/or the pulsator, the washing machine is controlled to reduce the intensity of washing water flow.

According to the invention, in the washing process, the clothes touch state in the washing machine is obtained through the sensing device, and when the clothes touch state is that the clothes touch the cylinder wall and/or the pulsator, the washing machine is controlled to reduce the intensity of washing water flow; the clothes are circularly and alternately cleaned by adopting different water flow intensities, so that the time for friction of the clothes is reduced, the wear of the clothes is reduced, and the cleaning ratio is improved.

In the washing process, acquiring a clothes touch state and a washing water flow gear in the washing machine, wherein the washing water flow comprises a plurality of gears with different water flow intensities;

further, when the laundry touch state is that the laundry touches the drum wall and/or the pulsator, the gear of the washing water flow of the washing machine is lowered by one gear.

The gear of the washing water flow comprises: a soft water flow gear, a strong water flow gear and a hand rubbing water flow gear, wherein the water flow intensity of the strong water flow gear is greater than that of the hand rubbing water flow gear and greater than that of the soft water flow gear;

when the obtained washing water flow in the washing machine is the soft water flow gear, the soft water flow gear of the washing machine is reduced to a static state.

When the obtained washing water flow in the washing machine is a hand rubbing water flow gear, reducing the strong water flow gear of the washing machine to a soft water flow gear;

when the obtained washing water flow in the washing machine is the strong water flow gear, the strong water flow gear of the washing machine is reduced to the hand rubbing water flow gear.

Further, after the soft water flow gear is adjusted to the rest state gear, the washing water flow is adjusted from the rest state to the soft water flow gear after a first preset time elapses.

Further, after the washing water flow gear is reduced to the hand rubbing water flow gear or the soft water flow gear, the touch state of clothes in the washing machine and the drum wall and/or the pulsator is re-acquired after the second preset time, and whether the water flow intensity is reduced is judged. Preferably, the friction force f between the clothes and the drum wall and/or the pulsator is obtained, and when the friction force f between the clothes and the drum wall and/or the pulsator is larger than the preset friction force f ₁ And when the clothes touch the cylinder wall and/or the pulsator, judging.

The intensity of the washing water flow is adjusted by controlling the motor rotation speed and/or the pulsator rotation stop ratio.

Preferably, the intensity of the washing water flow remains unchanged when the laundry is in a touched state in which the laundry does not touch the drum wall and/or the pulsator.

The invention also provides a washing machine, which adopts any one of the washing control methods.

By adopting the technical scheme, compared with the prior art, the invention has the following beneficial effects.

(1) According to the invention, in the washing process, the clothes touch state in the washing machine is obtained through the sensing device, and when the clothes touch state is that the clothes touch the cylinder wall and/or the pulsator, the washing machine is controlled to reduce the intensity of washing water flow; the clothes are circularly and alternately cleaned by adopting different water flow intensities, so that the time for friction of the clothes is reduced, the wear of the clothes is reduced, and the cleaning ratio is improved.

(2) According to the invention, through adjusting the rotating speed of the motor and/or the rotation stop ratio of the wave wheel, the clothing with the soft water flow gear, the strong water flow gear and the hand rubbing water flow gear are produced to be matched and cleaned in a single sequence or multiple times in an alternating and circulating way, so that the water is saved, the consumption of the detergent is relatively saved, the pollution of drainage is reduced, and a better cleaning effect is achieved.

The following describes the embodiments of the present invention in further detail with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention. It is evident that the drawings in the following description are only examples, from which other drawings can be obtained by a person skilled in the art without the inventive effort. In the drawings:

FIG. 1 is a flow chart of a washing control method of the present invention for preventing abrasion of a washing machine;

FIG. 2 is a flow chart of a washing control method of the present invention for preventing abrasion of a washing machine;

FIG. 3 is a flow chart of a washing control method of the present invention for preventing abrasion of a washing machine;

it should be noted that these drawings and the written description are not intended to limit the scope of the inventive concept in any way, but to illustrate the inventive concept to those skilled in the art by referring to the specific embodiments.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions in the embodiments will be clearly and completely described with reference to the accompanying drawings in the embodiments of the present invention, and the following embodiments are used to illustrate the present invention, but are not intended to limit the scope of the present invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

As shown in fig. 1 to 3, the anti-wear washing control method of the washing machine according to the present invention includes the steps of,

s1, acquiring the touch state of clothes in a washing machine and a drum wall and/or a pulsator in a washing process;

s2, controlling the washing machine to reduce the intensity of washing water flow when the clothes touch state is that the clothes touch the cylinder wall and/or the pulsator.

According to the invention, the touch state of clothes in the washing machine is detected in the washing process, and when the touch state of the clothes on the drum wall and/or the pulsator is detected, the washing machine is immediately controlled to reduce the intensity of washing water flow, so that the abrasion to the clothes is reduced, and the washing ratio of the washing machine is improved.

The clothes touch state in the washing machine is whether the clothes touch the drum wall and/or the pulsator.

The washing water flow is generated by stirring of a pulsator or rotation of a roller when the washing machine washes clothes, and the larger the stirring or rotation force is, the stronger the washing water flow is; the smaller the stirring or turning force, the weaker the washing water flow.

In the step S1, in addition to acquiring the laundry touch state in the washing machine, a gear of the washing water flow is required to be acquired during the washing. In the step S2, when the laundry touch state is that the laundry touches the drum wall and/or the pulsator, the gear of the washing water flow of the washing machine is lowered by one gear.

In the washing process, the clothes are washed by using the plurality of washing water flow gears, and the washing water flow gears are reduced by detecting the touch state of the clothes, so that the friction strength can be reduced, the clothes are prevented from being scratched, and the washing effect can be ensured.

Optionally, the clothes touch state and the gear of the washing water flow in the washing machine can be obtained at the same time, then whether the clothes touch state touches the cylinder wall and/or the pulsator is judged, if yes, the gear of the washing water flow of the washing machine is reduced by one gear; or firstly acquiring the clothes touch state in the washing machine, judging whether the clothes touch state touches the cylinder wall and/or the pulsator, if so, acquiring the gear of the washing water flow in the washing machine, and further reducing the gear of the washing water flow of the washing machine by one gear.

Preferably, as shown in fig. 3, the method includes the steps of firstly acquiring the clothes touch state in the washing machine to judge whether the clothes touch state touches the cylinder wall and/or the pulsator, and if yes, acquiring the gear of the washing water flow in the washing machine, so as to reduce the gear of the washing water flow of the washing machine by one gear.

Further, the wash water stream includes a plurality of gears of different water stream strengths.

The number of the gears of the washing water flow is more than or equal to 3, and the preferable number is 3-5. Preferably, the gear of the washing water flow comprises: the water flow speed control device comprises a soft water flow speed, a strong water flow speed and a hand rubbing water flow speed, wherein the water flow strength of the strong water flow speed is greater than that of the hand rubbing water flow speed and greater than that of the soft water flow speed.

The washing water flow also comprises a zero gear, and the washing machine is not in work and is in a static state.

In the washing process, different water flow intensities are adopted to circularly and alternately wash clothes, so that the time for friction of the clothes is reduced, the wear of the clothes is reduced, and the washing ratio is improved.

The soft water flow gear, the strong water flow gear and the hand rubbing water flow gear are controlled by driving the pulsator to rotate in different pulsator rotation stopping ratios or by controlling different motor rates, the water flow intensity of the strong water flow gear is high, and the load overturning amplitude can be increased.

Further, three water flow gears are generated by controlling the rotation stop ratio of the pulsator during washing: the method comprises the steps of firstly washing cloth by using soft water flow, washing cloth by using the soft water flow, uniformly overturning and washing cloth, overturning the cloth by using the strong water flow after washing the cloth for a period of time by using the soft water flow, increasing the overturning amplitude of the cloth, obtaining sufficient washing, restarting the induction device to obtain the touch state of the cloth, and controlling the washing machine to reduce the intensity of washing water flow.

In the step S2, when the obtained washing water flow in the washing machine is a soft water flow gear, the soft water flow gear of the washing machine is lowered to a stationary state.

In another embodiment, when the washing water flow in the washing machine is obtained as a hand rubbing water flow gear, the strong water flow gear of the washing machine is reduced to a soft water flow gear.

In still another embodiment, when the wash water flow in the washing machine is taken as a strong water flow gear, the strong water flow gear of the washing machine is reduced to a hand rubbing water flow gear.

The invention obtains the touch state of clothes through the sensing device and adopts a plurality of water flow intensity gears such as a gentle water flow gear, a strong water flow gear, a hand rubbing water flow gear and the like. In the washing process, the gear of washing water flow is reduced by detecting the touch state of clothes, so that various water flows are matched in a single sequence or in multiple alternating cycles, the balance is broken, the clothes are dispersed, the overturning amplitude is inconsistent, the clothes are fully washed, the time of friction of the clothes is reduced, the wear of the clothes is reduced, and the washing ratio is improved.

Further, after the soft water flow gear is adjusted to the rest state gear, the washing water flow is adjusted from the rest state to the soft water flow gear after a first preset time elapses.

After the soft water flow gear is adjusted to be in the static state, water flow is in the static state at the moment, clothes in the washing machine are kept in the static state, so that washing liquid is fully dissolved, and after the first preset time, the washing water flow is adjusted to be in the soft water flow gear from the static state, so that the clothes can be better and evenly washed, and the clothes can be prevented from being entangled.

Further, after the washing water flow gear is reduced by one gear, after a second preset time, the step S1 is re-executed to obtain the laundry touch state in the washing machine.

The touch state of the clothes in the washing machine is obtained every second preset time through the sensing device, so that the water flow intensity in the washing machine is changed continuously, the clothes are cleaned circularly and alternately by different water flow intensities, the time that the clothes are rubbed is reduced, the wear of the clothes is reduced, and the cleaning ratio is improved.

In step S1, the step of acquiring the laundry touch state in the washing machine specifically includes the following steps:

a. by acquiring friction force f between the clothes and the drum wall and/or the pulsator;

b. judging whether the acquired friction force f is larger than a preset friction force f1, and when the friction force f is between the clothes and the cylinder wall and/or the pulsatorIs greater than the preset friction force f ₁ And when the clothes touch the drum wall and/or the pulsator, judging that the clothes touch the drum wall and/or the pulsator.

According to the invention, in the washing process, the touch state of clothes in the washing machine is obtained through the sensing device. Specifically, the sensing device detects the friction force f between the clothes and the cylinder wall and/or the pulsator in real time, and judges the friction force f between the clothes and the cylinder wall and/or the pulsator and the preset friction force f ₁ The size of the drum wall and/or the pulsator is greater than a preset friction force f when the friction force f between the clothes and the drum wall and/or the pulsator is greater than the preset friction force f ₁ When the clothes touch the drum wall and/or the pulsator, judging that the clothes touch the drum wall and/or the pulsator, and when the friction force f between the clothes and the drum wall and/or the pulsator is smaller than the preset friction force f ₁ When the clothes are not contacted with the drum wall and/or the pulsator, judging that the clothes are not contacted with the drum wall and/or the pulsator; unnecessary triggering downshifts are avoided, the washing effect of the washing machine is reduced, and meanwhile, the washing effect is guaranteed.

Further, when the clothes touch state is that the clothes touch the drum wall and/or the pulsator, the intensity of washing water flow of the washing machine is reduced, so that the clothes are circularly and alternately washed by adopting different water flow intensities in the washing process, the time that the clothes are rubbed is reduced, the wear of the clothes is reduced, and the washing ratio is improved.

Further, when the friction force f between the clothes and the drum wall and/or the pulsator is smaller than the preset friction force f ₁ And when the clothes are judged to not touch the drum wall and/or the pulsator, determining that the touch state of the clothes is that the clothes do not touch the drum wall and/or the pulsator, and keeping the intensity of washing water flow of the washing machine unchanged.

Preferably, in step S2, the intensity of the washing water flow is adjusted by controlling the motor rotation speed and/or the pulsator rotation stop ratio.

According to the invention, in the washing process, according to whether the clothes touch the drum wall and/or the impeller, the motor rotation speed and/or the impeller rotation stop ratio are/is adjusted, so that a soft water flow gear, a strong water flow gear and a hand rubbing water flow gear are generated to perform single sequential matching or multiple alternate circulating matching on the clothes, the water is saved, the consumption of the detergent is relatively saved, the pollution of drainage is reduced, and a better cleaning effect is achieved. The washing water flow intensity is generated by controlling the rotation speed of the motor and/or the rotation stop ratio of the pulsator, clothes are put into the washing barrel during washing, different water flow intensities are generated by controlling the rotation speed of the motor and/or the rotation stop ratio of the pulsator, and various water flows are matched in a single sequence or in a plurality of alternate circulation so as to break load balance, disperse the clothes, uniformly overturn and wash the clothes and maintain balance overturning of the clothes.

The wave wheel turning stop ratio corresponding to the soft water flow gear, the strong water flow gear and the hand rubbing water flow gear is formed by combining any time in the two ranges respectively, wherein the time of each rotation is 0.2-3.0s, and the time of each rotation is 0-3.0 s.

Specifically, if the rotation stop ratio range corresponding to the gentle water flow gear is: the time of each rotation is 0.2-2.0s, the stopping time is 0.2-2.0s, and the rotation stopping ratio corresponding to the soft water flow gear is formed by combining the rotation time and the stopping time in the two ranges. For example, if the time of rotation is 1.0s and the time of stopping is 1.0s, the rotation stop ratio of the gentle water flow gear is 1.0s.

The rotation stop ratio corresponding to the strong water flow gear is formed by combining the rotation time and the stop time in the two ranges, wherein the rotation stop ratio corresponding to the strong water flow gear is 0.2-3.0s and the stop time is 0.2-3.0 s. For example, if the time of rotation is 2.5s and the time of stopping is 1s, the rotation stop ratio of the gentle water flow gear is 2.5s.

The rotation stop ratio corresponding to the hand rubbing water flow gear is formed by combining the rotation time and the stop time in the two ranges, wherein the rotation stop ratio corresponding to the hand rubbing water flow gear is formed by combining the rotation time and the stop time in the two ranges, and the rotation time of each rotation time is 0.2-1.5s and the stop time is 0.2-2.0 s. For example, if the time of rotation is 1s and the time of stopping is 2s, the rotation stop ratio of the gentle water flow gear is 0.5s.

The wave wheel turning stop ratio corresponding to the hand rubbing water flow gear is different from the wave wheel turning stop ratio corresponding to the soft water flow gear, and can be the same, and two or three water flows are actually generated. To achieve the fourth, fifth and more water flows, the division requires more precise control of the motor, i.e. different rotation-to-stop ratios are employed during each set time period during washing.

Based on the above embodiment, the present invention further provides a method for controlling wear-proof washing of a washing machine, as shown in fig. 3, in the step S2, when the laundry touch state is that the laundry does not touch the drum wall and/or the pulsator, the intensity of the washing water flow is kept unchanged.

When the sensing device detects that the friction force f between the clothes and the cylinder wall and/or the pulsator is smaller than the preset friction force f1 in real time, the washing water flow strength is kept unchanged.

The invention also provides a washing machine, and the anti-wear washing control method of the washing machine is adopted. Preferably, the washing machine is a pulsator washing machine.

The washing machine comprises a sensing device, and in the washing process, the touch state of clothes in the washing machine is obtained through the sensing device. When the clothes touch the drum wall and/or the pulsator, the water flow intensity of the washing water flow in the washing machine is obtained, and the water flow intensity of the washing water flow is reduced.

The foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited to the above-mentioned embodiment, but is not limited to the above-mentioned embodiment, and any simple modification, equivalent change and modification made by the technical matter of the present invention can be further combined or replaced by the equivalent embodiment without departing from the scope of the technical solution of the present invention.

Claims (10)

1. A washing control method for preventing abrasion of washing machine is characterized by that,

in the washing process, acquiring the touching state of clothes in the washing machine and the drum wall and/or the pulsator;

when the clothes touch state is that the clothes touch the cylinder wall and/or the pulsator, the washing machine is controlled to reduce the intensity of washing water flow.

2. The method for controlling wear-resistant washing of a washing machine as claimed in claim 1, wherein,

in the washing process, acquiring a clothes touch state and a washing water flow gear in the washing machine, wherein the washing water flow comprises a plurality of gears with different water flow intensities;

when the clothes touch state is that the clothes touch the drum wall and/or the pulsator, the gear of the washing water flow of the washing machine is lowered by one gear.

3. A washing control method for preventing abrasion of a washing machine according to claim 2, wherein,

the gear of the washing water flow comprises: a soft water flow gear, a strong water flow gear and a hand rubbing water flow gear, wherein the water flow intensity of the strong water flow gear is greater than that of the hand rubbing water flow gear and greater than that of the soft water flow gear;

when the obtained washing water flow in the washing machine is the soft water flow gear, the soft water flow gear of the washing machine is reduced to a static state.

4. The anti-wear washing control method of claim 3, wherein when the obtained washing water flow in the washing machine is a hand rubbing water flow gear, the strong water flow gear of the washing machine is reduced to a soft water flow gear;

when the obtained washing water flow in the washing machine is the strong water flow gear, the strong water flow gear of the washing machine is reduced to the hand rubbing water flow gear.

5. A washing control method for preventing wear of a washing machine according to any one of claims 3 to 4, wherein after the soft water flow gear is adjusted to the rest state gear,

after the first preset time, the washing water flow is adjusted from the static state to a soft water flow gear.

6. The method for controlling wear-resistant washing of a washing machine as claimed in claim 4, wherein after the washing water flow gear is lowered to the hand rubbing water flow gear or the soft water flow gear,

and after the second preset time, re-acquiring the touch state of clothes in the washing machine and the drum wall and/or the pulsator, and judging whether the water flow intensity is downshifted.

7. The method for controlling wear-resistant washing of a washing machine as claimed in any one of claims 1 to 4, wherein a friction force f between the laundry and the drum wall and/or pulsator is obtained, when the friction force f between the laundry and the drum wall and/or pulsator is greater than a preset friction force f ₁ And when the clothes touch the cylinder wall and/or the pulsator, judging.

8. The method of claim 7, wherein the intensity of the washing water flow is adjusted by controlling the motor speed and/or the pulsator stop ratio.

9. A washing control method for preventing abrasion of a washing machine according to any one of claims 1 to 4, wherein,

when the laundry touch state is that the laundry does not touch the drum wall and/or the pulsator, the washing water flow intensity is kept unchanged.

10. A washing machine, characterized in that: a washing control method employing the wear prevention of the washing machine as claimed in any one of claims 1 to 9.