CN111172709A - Control method of washing machine and washing machine - Google Patents

Abstract

The invention belongs to the technical field of washing machines, and particularly discloses a control method of a washing machine and the washing machine, wherein the control method of the washing machine comprises the following steps: in the final dewatering stage of rinsing, when the times of the eccentric impact bar are odd, a shutdown drainage program is executed, and when the times of the eccentric impact bar are even, a water flow deviation rectifying program is executed. The washing machine provided by the invention is controlled by adopting the washing machine control method. The control method and the washing machine provided by the invention can reduce the water consumption for load eccentricity correction in the final dewatering stage of rinsing, reduce the energy consumption of the washing machine and reduce the washing cost.

Description

Control method of washing machine and washing machine

The application is a divisional application, the application number of the original application is 201910008654.1, the application date is 2019, 1 month and 4 days, and the invention name is 'a control method of a washing machine and the washing machine'.

Technical Field

The invention relates to the technical field of washing machines, in particular to a control method of a washing machine and the washing machine.

Background

In the process of executing clothes load washing, particularly in the process of carrying out rotary dehydration by the conventional washing machine, due to high rotating speed, the clothes load is unevenly distributed in the washing barrel due to different clothes materials, shapes, water absorbability and the like, so that the clothes load is eccentric, the washing barrel vibrates and impacts a box body, and high noise, displacement of the washing machine and even damage are generated. When eccentricity occurs, load correction is required to maintain the normal operation of the washing machine and ensure the operation safety of the washing machine.

In the control method of the washing machine provided by the prior art, when the washing machine has load eccentricity during the dehydration process, a certain correction water flow is usually executed within a certain correction time to perform eccentricity correction, wherein the correction water flow comprises a main washing strong water flow and a balancing weak water flow, namely, the main washing strong water flow is executed first and then the balancing weak water flow is executed within a certain correction time, and the correction water flow is executed for a plurality of times during each eccentricity correction process.

The control method of the washing machine provided by the prior art adopts the correction water flow to perform eccentricity correction every time when load eccentricity occurs, the condition is suitable for dehydration in a washing and rinsing stage, and the rinsing effect on clothes can be enhanced in the process of performing eccentricity correction. However, for the load eccentricity generated in the final dehydration stage of washing, since the washing machine has completed the rinsing process of the clothes, if the load eccentricity occurs, the correction water flow is repeatedly adopted for correction, which causes a great waste of water resources and increases the energy consumption of the washing machine and the washing cost of the washing machine.

Disclosure of Invention

An object of the present invention is to provide a control method of a washing machine, which reduces energy consumption for eccentric correction and washing cost of the washing machine.

Another object of the present invention is to provide a washing machine, which reduces energy consumption and washing cost of the washing machine.

In order to achieve the purpose, the invention adopts the following technical scheme:

a control method of a washing machine executes a shutdown drainage program when the times of an eccentric impact bar are odd times and executes a water flow deviation rectifying program when the times of the eccentric impact bar are even times in a dehydration stage of the washing machine.

Further, the shutdown drainage procedure specifically refers to: after the motor is stopped rotating, the drain valve is opened, and after a first preset time period, the motor is restarted to perform the dehydration program.

Further, in two adjacent shutdown drainage procedures, a first preset time length in a previous shutdown drainage procedure is not less than a first preset time length in a next shutdown drainage procedure, and the first preset time length in the first shutdown drainage procedure is greater than the first preset time length in the second shutdown drainage procedure.

Further, the water flow deviation rectifying program specifically includes: and sequentially executing the main washing for the second preset time and the balance washing for the third preset time under the corrected water level.

Further, in two adjacent water flow deviation rectifying programs, the water level of the water flow deviation rectifying program in the previous time is higher than the water level of the water flow deviation rectifying program in the next time.

Further, in the two adjacent water flow deviation rectifying programs, the second preset time length in the previous water flow deviation rectifying program is not less than the second preset time length in the next water flow deviation rectifying program.

Further, the third preset duration of the balance wash includes a fourth preset duration of a strong balance wash and a fifth preset duration of a weak balance wash.

Further, in the same water flow deviation rectifying procedure, the fourth preset time duration is longer than the fifth preset time duration.

Further, the dehydration stage is a final dehydration stage in the washing segregation process.

A washing machine performs eccentricity correction by adopting the control method.

The invention has the beneficial effects that:

according to the control method of the washing machine, the load deviation rectifying program required to be executed is selected by judging the parity of the occurrence frequency of the eccentric impact rod, so that the water resource loss and the power loss of the washing machine can be saved while the eccentric impact rod in the dehydration stage is corrected, the energy consumption of eccentric correction is reduced, and the washing energy consumption of the washing machine is reduced.

According to the washing machine provided by the invention, the eccentric correction control is carried out by adopting the control method, so that water resources and electric power resources can be reduced, and the energy consumption of the washing machine is reduced.

Drawings

Fig. 1 is a flowchart illustrating a control method of a washing machine according to an embodiment of the present invention;

fig. 2 is a flowchart of a control method of a washing machine according to a second embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

In the description of the present embodiment, the terms "upper", "lower", "right", etc. are used in an orientation or positional relationship based on that shown in the drawings only for convenience of description and simplicity of operation, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

Example one

Fig. 1 is a flowchart of a control method of a washing machine according to an embodiment of the present invention, and as shown in fig. 1, the embodiment provides a control method of a washing machine, which is used for performing an eccentric correction when an eccentric impact rod occurs in the washing machine, so as to prevent problems such as loud noise, displacement of the washing machine, operation failure of the washing machine, and the like during a dehydration process of the washing machine.

The control method provided by the embodiment is mainly applied to the eccentricity correction of the final dehydration stage of the rinsing process, and can also be applied to the eccentricity correction of other dehydration stages of washing.

Specifically, the control method provided by this embodiment is as follows: in the dewatering stage, when the times of the eccentric impact rod is odd, a shutdown drainage program is executed, and when the times of the eccentric impact rod is even, a water flow deviation rectifying program is executed.

The control method provided by the embodiment selects the load deviation rectifying program to be executed by judging the parity of the occurrence frequency of the eccentric impact rod: when the eccentric impact rod is generated for the first time in the final rinsing dehydration stage, the eccentric impact rod may be generated due to uneven load distribution in the washing barrel, or due to excessive residual water in the underwear after rinsing drainage, at this time, if a water flow correction program for injecting water flow is adopted, not only a good correction effect may be difficult to achieve, but also waste of water resources and electric power resources is caused, the energy consumption of the washing machine is increased, and a machine halt drainage program is adopted to drain the clothes in the washing barrel, so that the resource and the energy consumption can be saved, and meanwhile, the factor of the eccentric impact rod generated due to excessive residual water in the clothes is eliminated; if the eccentric impact rod occurs in the subsequent dehydration process again, the reason for the eccentric impact rod can be judged to be caused by uneven load in the washing barrel due to the previous drainage and the dehydration in a certain time, and at the moment, a water flow deviation rectifying program is adopted to break up and homogenize the load and then dehydrate again; similarly, the two reasons that the eccentric impact bars may occur again after the water flow deviation correction still exist, namely, a shutdown drainage procedure needs to be executed once between two adjacent water flow deviation correction procedures to eliminate the factor of the eccentric impact bars caused by excessive residual clothes, and if the eccentric impact bars occur again after shutdown drainage, a beam deviation correction procedure needs to be executed to eliminate the eccentric impact bars caused by uneven load. Namely, the control method can correct the eccentric impact rod in the dehydration stage, save water resource loss and power loss of the washing machine, reduce energy consumption of eccentric correction and reduce washing energy consumption of the washing machine.

In this embodiment, a plunger detection device is disposed in the washing machine, and the plunger detection device may be a plunger detection switch, a position detection device, a photoelectric detection device, or the like.

In this embodiment, the lance detecting device is triggered to determine the occurrence of the eccentric lance, wherein the lance detecting is triggered including: when the washing machine normally operates, the collision rod detection device keeps an on/off state, after the collision rod occurs, the collision rod detection device is switched off/on and sends an abnormal level different from that of the washing machine in normal operation to the upper computer, and after the upper computer detects the abnormal level, the eccentric collision rod is judged to occur.

For different lance detection devices, the detection conditions for the occurrence of the eccentric lance may be different, and this embodiment is not limited, and the existing lance detection device and the corresponding lance detection method that can be used for realizing the detection of the eccentric lance may be used for the detection of the eccentric lance in this application.

In this embodiment, the shutdown drainage procedure specifically includes: after the motor is stopped rotating, the drain valve is opened, and after a first preset time period, the motor is restarted to perform the dehydration program.

By stopping the dewatering process and opening the drain valve, the residual water in the washing tub can be drained as much as possible, the drainage of the clothes is reduced, especially the drainage of the water-absorbing clothes is reduced, so that the load in the washing tub is more uniform, and the probability of the occurrence of the eccentric impact rod is reduced.

In this embodiment, in two adjacent shutdown drainage procedures, the first preset time duration in the previous shutdown drainage procedure is not less than the first preset time duration in the next shutdown drainage procedure. Because the one-time water flow deviation rectifying program is executed between the next-time shutdown drainage program and the previous-time shutdown drainage program, the load uniform distribution condition when the next eccentric impact rod occurs is the load uniform distribution condition when the previous eccentric impact rod occurs, so the dehydration time length before the next eccentric impact rod occurs is longer than the dehydration time length before the previous eccentric impact rod occurs, namely the water content in the clothes load when the next eccentric impact rod occurs is lower than the water content in the clothes load when the previous eccentric impact rod occurs, therefore, the first preset time of the next shutdown drainage can be shorter than the first preset time of the previous shutdown drainage, so that the load deviation rectifying time length can be shortened, and the washing efficiency of the washing machine can be improved. Preferably, in the present embodiment, the first preset time period in the first-time drain stop routine is longer than the first preset time period in the second-time drain stop routine.

In this embodiment, the first preset time period is less than or equal to 1min, so that the water in the load can flow out, the stop time is reduced, and the operation efficiency of the washing machine is improved.

In this embodiment, the water flow deviation rectifying program specifically includes: and sequentially executing the main washing for the second preset time and the balance washing for the third preset time under the corrected water level.

When the eccentric impact rod occurs again after the machine is stopped for dehydration, the loads of clothes on the surface washing barrel are uneven, so that the washing water with corrected water level is injected into the washing barrel during eccentric correction, and the clothes loads are driven by the water flow to rotate easily under the action of the water flow so as to disperse the clothes, thereby ensuring that the loads are distributed more uniformly. And through under the correction water level, carry out the main washing of first predetermined duration, main washing in-process, the motor just, anti intermittent type nature is rotated repeatedly, and motor speed is higher, and the rivers intensity that produces is stronger, can drive the clothing upset and stir, changes the distribution of load in the washtub to a great extent, carries out preliminary trembling to the clothing. In the balanced washing process, the motor is rotated in a positive or reverse intermittent manner, the rotating speed of the motor is less than that of the main washing process, the generated water flow is relatively weak, and the clothes can be further dug and scattered gently, so that the clothes are scattered more uniformly.

In this embodiment, in the two adjacent water flow deviation rectifying programs, the corrected water level, the second preset time and the third preset time in the next water flow deviation rectifying program are all greater than or equal to the corrected water level, the second preset time or the third preset time corresponding to the previous water flow deviation rectifying program, and at least one of the corrected water level, the second preset time and the third preset time in the next water flow deviation rectifying program is greater than the corrected water level, the second preset time or the third preset time corresponding to the previous water flow deviation rectifying program, so as to increase the load deviation rectifying strength of the next water flow deviation rectifying program.

After the last water flow correction program and the shutdown drainage program, the eccentric impact rod occurs again, which indicates that the previous eccentric correction program has a weak correction degree on the load eccentricity, on one hand, the correction water flow is possibly too small to drive the clothes to rotate and disperse well, on the other hand, the first preset time of the main washing is possibly too short, so that the clothes are difficult to stir and scatter comprehensively, and on the other hand, the clothes bucket scattering effect is possibly weak because the balance washing time is short. Therefore, it is necessary to adjust the correction water level and/or the main washing time in the subsequent water flow correction process to increase the eccentric correction strength of the subsequent water flow correction degree.

In this embodiment, in the two adjacent water flow deviation rectifying programs, the corrected water level of the next water flow deviation rectifying program is higher than that of the previous water flow deviation rectifying program, the second preset time duration of the next water flow deviation rectifying program is equal to that of the previous water flow deviation rectifying program, and the third preset time duration of the next water flow deviation rectifying program is equal to that of the previous water flow deviation rectifying program. The time for rectifying the water flow is saved, and the effect of rectifying the water flow at the next time is improved. In other embodiments, the correction water level, the second preset time and the third preset time in the two adjacent water flow correction programs can be adjusted according to the self requirement.

In the present embodiment, the third preset time period of the balance washing includes a fourth preset time period of the strong balance washing and a fifth preset time period of the weak balance washing. The time length of one rotation of the motor during strong balance washing is longer than that of one rotation of the motor during weak balance washing, so that the intensity of water flow during strong balance washing is smaller than that of main washing water flow but larger than that of water flow during weak balance washing. That is, the load is broken up wholly in the strong balance washing process, and in the weak balance washing process, rivers flow weakly, and are less than to the whole drive ability of clothing, nevertheless can carry out certain degree to the phenomenon such as fold or folding of clothing itself and smooth, further improve the effect that clothing was fought to scatter and the load is dispersed, make clothing load distribution even, reduce the eccentric degree.

In this embodiment, the operation of the motor in the strong balance washing is: after 0.6s of positive rotation (reverse rotation), the same-direction intermittent rotation of 0.6s is suspended, and the operation of the motor in weak balance washing is as follows: after 0.5s of forward rotation (reverse rotation), the same-direction intermittent rotation is suspended for 0.5 s. However, in the present embodiment, in the strong balance washing process and the weak balance washing process, the rotation time and the pause time of the motor in one period are both exemplarily referred to, and the present embodiment does not limit the rotation time and the pause time of the motor in the strong balance washing process and the weak balance washing process, as long as the motor rotation speed and/or the motor one-time rotation time in the strong balance washing process is greater than the motor rotation speed and/or the motor one-time rotation time in the weak balance washing process, and the motor rotation speed and/or the motor one-time rotation time in the strong balance washing process is less than the motor rotation speed and/or the motor one-time rotation time in the main washing process.

In this embodiment, the fourth preset time period of the strong balance washing is not less than the fifth preset time period of the weak balance washing, so that the whole laundry load is sufficiently scattered during the strong balance washing.

In this embodiment, when the number of times of the eccentric striking rod is less than or equal to the preset maximum number of times, the water flow deviation rectifying program or the shutdown drainage program is executed, and the dewatering operation is continuously executed after the shutdown drainage or the water flow deviation rectification. When the number of times of the eccentric impact rod is greater than the preset maximum number of times, stopping the machine and giving an alarm. The alarm can be sent out to enable an upper computer to control a buzzer or a voice broadcast device to give an alarm, if the buzzer buzzes 10 sounds to 'drip' to remind a user that the load eccentricity cannot be corrected, the eccentric fault can be displayed in a mode of displaying a fault code on a display screen of the washing machine. The present embodiment does not specifically limit the form of the alarm.

In this embodiment, the preset maximum number of times is five times, and in other embodiments, the preset maximum number of times may be adjusted according to the user requirement.

The embodiment also provides a washing machine, and the eccentricity correction is carried out by adopting the control method.

Example two

Fig. 2 is a flowchart of a control method of a washing machine according to an embodiment of the present invention, and as shown in fig. 2, the embodiment provides a control method of a washing machine, which provides a specific exemplary implementation manner with respect to the first embodiment, so as to correct a load eccentricity occurring during a dehydration process.

Specifically, as shown in fig. 2, after an eccentric lance occurs, it is first determined that the eccentric lance is the nth eccentric lance occurring in the dewatering process, when N is less than or equal to six, the water flow deviation rectifying program or the shutdown drainage program is determined to be executed according to the parity of N, and the first preset time duration in the shutdown drainage program is determined according to the specific value of N, or the corrected water level, the second preset time duration, the fourth preset time duration and the fifth preset time duration in the water flow deviation rectifying program are determined. When N equals six, an alarm is raised.

When N is equal to 1, executing a shutdown drainage program, wherein the first preset time is 1 min;

when the N is 2, executing a water flow correction program, wherein the corrected water level is a preset water level, the second preset time is 1min, the fourth preset time is 2min, and the fifth preset time is 1 min;

when N is 3, executing a shutdown drainage program, wherein the first preset time length is 0.5 min;

when the N is equal to 4, executing a water flow correction program, wherein the corrected water level is a preset water level plus 1 gear, the second preset time is 1min, the fourth preset time is 2min, and the fifth preset time is 1 min;

when N is 5, executing a shutdown drainage program, wherein the first preset time length is 0.5 min;

when N is 6, an alarm is issued.

In this embodiment, in each eccentricity correction procedure, the corrected water level, the first preset time period, the third preset time period, the fourth preset time period and/or the fifth preset time period are exemplary values, and a user may preset each correction parameter in each eccentricity correction procedure according to an actual requirement.

In this embodiment, in the two adjacent water flow deviation rectifying programs, the second preset time, the fourth preset time and the fifth preset time are not substantially adjusted, and in other embodiments, the user may adjust and set the second preset time, the fourth preset time and/or the fifth preset time in each water flow deviation rectifying process according to the requirement. The invention does not limit the specific adjustment setting of the second preset duration, the fourth preset duration and/or the fifth preset duration.

In this embodiment, the corrected water level in the next eccentricity correction is 1 st higher than that in the previous eccentricity correction, wherein the preset water level may be specifically determined according to the highest water level of the washing machine, the maximum number of water flow correction programs, and the amount of laundry.

The embodiment also provides a washing machine which is controlled by adopting the washing machine control method.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. A control method of a washing machine is characterized in that in a dehydration stage of the washing machine, when the times of an eccentric impact bar are odd, a shutdown drainage program is executed, and when the times of the eccentric impact bar are even, a water flow deviation rectifying program is executed.

2. The control method according to claim 1, characterized in that the shut-down draining procedure specifically refers to: after the motor is stopped rotating, the drain valve is opened, and after a first preset time period, the motor is restarted to perform the dehydration program.

3. The control method according to claim 2, wherein in two adjacent shutdown drainage procedures, the first preset time duration in the previous shutdown drainage procedure is not less than the first preset time duration in the next shutdown drainage procedure, and the first preset time duration in the first shutdown drainage procedure is greater than the first preset time duration in the second shutdown drainage procedure.

4. The control method according to claim 1, wherein the water flow deviation rectifying program specifically comprises: and sequentially executing the main washing for the second preset time and the balance washing for the third preset time under the corrected water level.

5. The control method according to claim 4, wherein in two adjacent water flow deviation rectifying programs, a rectifying water level in a former water flow deviation rectifying program is greater than that in a latter water flow deviation rectifying program.

6. The control method according to claim 4, wherein in two adjacent water flow deviation rectifying programs, a second preset time duration in the previous water flow deviation rectifying program is not less than the second preset time duration in the next water flow deviation rectifying program.

7. The control method of claim 4, wherein the third preset duration of the balance wash comprises a fourth preset duration of a strong balance wash and a fifth preset duration of a weak balance wash.

8. The control method according to claim 7, wherein the fourth preset time period is longer than the fifth preset time period in the same water flow deviation rectifying program.

9. The control method according to any one of claims 1 to 8, wherein the dehydration stage is a final dehydration stage in a process of washing segregation.

10. A washing machine characterized in that it is eccentric-corrected using the control method as claimed in any one of claims 1 to 9.

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