CN108547116B

CN108547116B - Operation control method, system, device and storage medium for clothes processing device

Info

Publication number: CN108547116B
Application number: CN201810614719.2A
Authority: CN
Inventors: 徐磊; 秦向南; 付俊永; 赵小安
Original assignee: Guangdong Welling Motor Manufacturing Co Ltd; Midea Welling Motor Technology Shanghai Co Ltd
Current assignee: Guangdong Welling Motor Manufacturing Co Ltd; Midea Welling Motor Technology Shanghai Co Ltd
Priority date: 2018-06-14
Filing date: 2018-06-14
Publication date: 2021-03-30
Anticipated expiration: 2038-06-14
Also published as: CN108547116A

Abstract

The present invention provides an operation control method of a laundry treatment apparatus, comprising: controlling a motor of the laundry treating apparatus to perform a first operation course at a first deceleration and integrating an electromagnetic torque of the motor to obtain a first integration result; controlling the motor to perform a second operation process at a second deceleration, and integrating the electromagnetic torque of the motor to obtain a second integration result; collecting operation parameters of a laundry treatment device, wherein the operation parameters at least comprise: the two end point rotating speed values and the time values in the first running process and the two end point rotating speed values and the time values in the second running process; and calculating the load inertia of the motor according to the first integration result, the second integration result and the operation parameters. According to the method, the difference of the friction of the barrel body of the clothes treatment device is considered, meanwhile, the influence of unbalanced load on inertia detection is considered, the accuracy degree of the weight detection of the clothes is improved, the conditions of water and electricity waste are reduced, the waste of resources is reduced, and the use experience of a user is improved.

Description

Operation control method, system, device and storage medium for clothes processing device

Technical Field

The present invention relates to the field of laundry treatment apparatuses, and more particularly, to an operation control method of a laundry treatment apparatus, an operation control system of a laundry treatment apparatus, and a computer-readable storage medium.

Background

The existing washing machine can enable a user to place clothes weight to adjust the injection water level and the detergent amount, ensures that the clothes are in the best washing condition, guarantees the washing quality, and can avoid the condition of water and electricity waste, and the method for detecting the clothes weight in the existing product mainly comprises two categories: one is to directly measure the weight of the laundry using a weighing sensor; another type is to measure the inertia of the laundry in the drum by detecting the time, current, etc. required for the motor in the washing machine to accelerate under different load conditions or to another rotational speed, and since the weight is substantially proportional to the inertia, the inertia can be converted into the weight according to the proportional relationship between them.

The method for directly measuring the weight of clothes by adopting the weighing sensor needs to additionally install the weighing sensor, the product cost is increased, a proper installation space is needed, the existing design and installation are mostly inconvenient, and a special sensor is not needed in the method for measuring the clothes inertia by utilizing the motor in the washing machine, so that the installation problem does not exist, in the drum washing machine, the load inertia is usually detected by acceleration and deceleration, the difference of the friction of the drum of the washing machine is not considered, the detection precision deviation is larger, meanwhile, the influence of the load unbalance on the inertia detection is not considered, the obtained clothes weight error is larger, and the user needs cannot be met.

Secondly, the washing machine is a process of imitating the clothes beaten by a bar hammer, the current state-of-the-art washing machine is composed of a stainless steel inner cylinder and a mechanical program controller, a balance weight is usually arranged on the shell of the washing machine and is used for balancing the centrifugal force generated in the operation process of the washing machine, when the washing machine works and rotates, if the load is unbalanced (the eccentric mass of the load composed of the clothes and the roller is greater than or equal to a set mass threshold), along with the increase of the rotating speed and the torque, the vibration and the noise generated by the clothes and the roller together are larger, the use experience of a user is influenced, and meanwhile, the service life of the washing machine is.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art or the related art.

To this end, a first aspect of the present invention is to provide an operation control method of a laundry treating apparatus.

A second aspect of the present invention is to provide an operation control system of a laundry treating apparatus.

A third aspect of the present invention provides a laundry treating apparatus.

A fourth aspect of the present invention is to provide a computer-readable storage medium.

In view of the above, according to a first aspect of the present invention, there is provided an operation control method of a laundry treating apparatus, comprising: controlling a motor of the laundry treating apparatus to perform a first operation course at a first deceleration and integrating an electromagnetic torque of the motor to obtain a first integration result; controlling the motor to perform a second operation process at a second deceleration, and integrating the electromagnetic torque of the motor to obtain a second integration result; collecting operation parameters of a laundry treatment device, wherein the operation parameters at least comprise: the two end point rotating speed values and the time values in the first running process and the two end point rotating speed values and the time values in the second running process; and calculating the load inertia of the motor according to the first integration result, the second integration result and the operation parameters.

The invention provides an operation control method of a clothes treatment device, which comprises the steps of controlling a motor to perform a first operation process according to a first deceleration in the operation process of the clothes treatment device, and integrating electromagnetic torque of the motor in the first operation process to obtain a first integration result; after the first operation process is finished, controlling the motor to perform a second operation process according to a second deceleration, and integrating the electromagnetic torque of the motor in the second operation process to obtain a second integration result; counting the operation parameters of the laundry treatment apparatus, wherein the operation parameters include, but are not limited to, a first operation duration and two end point rotation speed values of the first operation duration in the first operation process and a second operation duration and two end point rotation speed values of the second operation duration in the second operation process, calculating the load inertia of the current motor according to the first integration result, the second integration result, the first operation duration, the start time and the end time of the first operation duration and the second operation duration and the rotation speed values of the two end points of the first operation duration and the second operation duration, further calculating the weight of the laundry in the current laundry treatment apparatus according to the load inertia, and selecting an appropriate water level and detergent amount according to the weight of the laundry, the method for determining the weight of the laundry by detecting the load inertia of the motor of the present invention takes into account the difference of the tub friction of the laundry treatment apparatus, meanwhile, the influence of unbalanced load on inertia detection is considered, the accuracy of the detection of the weight of the clothes is improved, the conditions of water and electricity waste are reduced, the waste of resources is reduced, and the use experience of a user is improved.

In addition, the operation control method of the laundry processing apparatus according to the above-mentioned technical solution provided by the present invention may further have the following additional technical features:

according to the technical scheme, preferably, the load inertia is calculated by the following formula:

wherein J is the load inertia, t_A、t_B、t_C、t_DRespectively the starting time and the ending time of the first operation process and the second operation process; omega_A、ω_B、ω_C、ω_DRespectively the rotating speed values of two end points of the first operation process and the second operation process,

and

the first integration result and the second integration result.

In the technical scheme, the load inertia J is directly obtained by a first integral result

Second integration result

Starting and ending times t of the first and second operating processes_A、t_B、t_C、t_DThe rotation speed value omega of two end points of the first operation process and the second operation process_A、ω_B、ω_C、ω_DAnd (4) calculating without complex calculation.

In any of the above technical solutions, preferably, a first operation duration determined at the start and end times of the first operation process and a second operation duration determined at the start and end times of the second operation process are integral multiples of a rotation period of the tub of the laundry processing device, and multiples of the first operation duration and the second operation duration with respect to the rotation period are equal.

In the technical scheme, the first operation time length and the second operation time length are integral multiples of a rotation period of the barrel body of the clothes treatment device, and the first operation time length and the second operation time length are equal to each other relative to the multiples of the rotation period. If the first operation time is 4-circle rotation of the barrel body, the barrel body corresponding to the second operation time is rotated for 4-circle rotation, the calculated load inertia confidence is ensured to be the highest through unification of the rotation periods of the first operation time and the second operation time, and the determined weight of the clothes is more accurate.

Any one of the above technical solutions, preferably, further includes: detecting the torque of the motor, and preprocessing to obtain the torque fluctuation of the motor; and obtaining the load eccentric mass of the clothes processing device according to the load inertia and the torque fluctuation and the stored relation data of the stored load inertia, the stored torque fluctuation and the stored load eccentric mass.

In the technical scheme, the torque of the motor is detected and processed to obtain the torque fluctuation of the motor, based on the stored relation data of the stored load inertia, the stored torque fluctuation and the stored load eccentric mass, the current load inertia interval and the two corresponding fitting curves are determined according to the load inertia, the corresponding coordinate points on the two fitting curves are determined according to the torque fluctuation, and then the interval corresponding to the load eccentric mass is determined.

In any of the above technical solutions, preferably, the detecting a torque of the motor, and the preprocessing to obtain the torque ripple of the motor specifically includes: detecting the torque of the motor in real time within a first preset time period; acquiring a maximum value and a minimum value of torque measured in a first preset time period; and obtaining torque fluctuation according to the torque maximum value and the torque minimum value.

In the technical scheme, the torque of the motor is detected in real time within a first preset time period, such as one circle or N circles of rotation of a barrel body of the clothes processing device, the maximum value and the minimum value of the torque are determined according to the torque detected in real time within the first preset time period, the torque fluctuation is calculated by calculating the difference value of the maximum value and the minimum value of the torque, the torque of the barrel body of the clothes processing device under one circle or N circles of rotation is detected, the calculated torque fluctuation can accurately represent the actual torque fluctuation of the motor, the phenomenon that under the condition that the barrel body of the clothes processing device does not rotate for a whole circle, the calculated torque fluctuation is too large or too small, further the calculated and determined eccentric mass is too large or too small is avoided, the result of judging whether the load imbalance occurs is not accurate, and the phenomenon that the clothes processing device generates larger noise during the operation process is effectively, and simultaneously, the service life of the clothes treatment device is prolonged.

In any of the above technical solutions, preferably, the first preset time period is taken from any one of the following operation processes: a first operation course, a second operation course, other deceleration operation courses of the laundry treating apparatus; the first preset time period is integral multiple of the rotation period of the barrel body of the clothes treatment device.

In the technical scheme, the first preset time interval is selected from the first operation process, the second operation process and other speed reduction operation processes of the clothes treatment device, preferably, the first preset time interval is selected from the previous process in the first operation process, the rotating speed of the barrel body is high at the moment, clothes can be completely attached to the barrel body, the unbalance condition of the barrel body and the clothes can be completely represented by calculating and determining torque fluctuation, and the accuracy of the calculated load eccentricity quality is improved.

In any of the above technical solutions, preferably, the rotation speed of the motor is detected, and rotation speed fluctuation of the motor is obtained after the preprocessing; and obtaining the load eccentric mass of the clothes processing device according to the load inertia and the rotating speed fluctuation and the stored relation data of the stored load inertia, the stored rotating speed fluctuation and the stored load eccentric mass.

In the technical scheme, the rotating speed of the motor is detected and processed to obtain the rotating speed fluctuation of the motor, based on the stored relation data of the load inertia, the rotating speed fluctuation and the load eccentric mass, the current load inertia interval and the two corresponding fitting curves are determined according to the load inertia, the corresponding coordinate points on the two fitting curves are determined according to the rotating speed fluctuation, the interval corresponding to the load eccentric mass is further determined, and preferably, the corresponding load eccentric mass is estimated according to the load inertia, so that whether the load unbalance condition occurs or not is accurately judged, the clothes and the injected water amount are timely adjusted, the phenomenon that the clothes processing device generates large noise in the operation process is avoided, and meanwhile, the service life of the clothes processing device is prolonged.

Any one of the above technical solutions, preferably, the detecting a rotation speed of the motor, and the obtaining of the rotation speed fluctuation of the motor after the preprocessing specifically includes: detecting the current rotating speed of the motor in real time within a second preset time period; carrying out high-pass filtering on the current rotating speed to obtain filtered first rotating speed range information; and obtaining the rotation speed fluctuation according to the maximum value and the minimum value in the first rotation speed range information.

In the technical scheme, in a second preset time period, such as when a barrel body of a clothes processing device rotates for one circle or N circles, the current rotating speed of a motor is detected, high-pass filtering processing is carried out, deceleration information of a low frequency band is filtered, filtered first rotating speed range information is obtained, the maximum value and the minimum value of the rotating speed in the first rotating speed range information are compared, the difference value of the maximum value and the minimum value of the rotating speed is calculated, rotating speed fluctuation is obtained, the rotating speed of the barrel body of the clothes processing device rotates for one circle or N circles, the fact that the actual rotating speed fluctuation of the motor can be accurately represented by the calculated rotating speed fluctuation is ensured, the phenomenon that the calculated rotating speed fluctuation is too large or too small under the condition that the barrel body of the clothes processing device rotates for one circle or N circles is avoided, the calculated and determined eccentric mass is too large or too small, and whether, effectively avoiding the occurrence of larger noise in the operation process of the clothes treatment device and simultaneously prolonging the service life of the clothes treatment device.

Any one of the above technical solutions, preferably, the detecting a rotation speed of the motor, and the obtaining of the rotation speed fluctuation of the motor after the preprocessing specifically includes: detecting the current rotating speed of the motor in real time within a third preset time period; performing high-pass filtering on the difference value between the current rotating speed and the preset rotating speed to obtain filtered second rotating speed range information; and obtaining the rotation speed fluctuation according to the maximum value and the minimum value in the second rotation speed range information.

In the technical scheme, in a third preset time period, for example, if the barrel body of the clothes processing device rotates for one circle or N circles, the current rotating speed of the motor is detected, the difference value between the current rotating speed and the preset rotating speed is calculated, high-pass filtering processing is carried out on the calculated difference value, deceleration information of a low frequency band is filtered, filtered second rotating speed range information is obtained, the maximum value and the minimum value in the second rotating speed range information are compared, the difference value between the maximum value and the minimum value is further calculated, rotating speed fluctuation is obtained, the rotating speed of the barrel body of the clothes processing device rotating for one circle or N circles is detected, the fact that the actual rotating speed fluctuation of the motor can be accurately represented by the calculated rotating speed fluctuation is ensured, and the phenomenon that the calculated rotating speed fluctuation is too large or too small under the condition that the barrel body of the clothes processing device rotates for a non-whole circle is avoided, the result of judging whether the load imbalance occurs is inaccurate, so that the phenomenon that the clothes treatment device generates larger noise in the operation process is effectively avoided, and the service life of the clothes treatment device is prolonged.

In any of the above technical solutions, preferably, the second preset time period is taken from any one of the following operation processes: a first operation process and a second operation process; or the third predetermined period of time is taken from any one of the following operational procedures: a first operation process and a second operation process; the second preset time interval and the third preset time interval are integral multiples of the rotation period of the barrel body of the clothes treatment device.

In the technical scheme, the second preset time interval and/or the third preset time interval are selected from the first operation process and the second operation process, preferably, the second preset time interval and/or the third preset time interval are selected from the previous process in the first operation process, at the moment, the rotating speed of the barrel body is high, clothes can be completely attached to the barrel body, the unbalance condition of the barrel body and the clothes can be completely represented by the rotation speed fluctuation determined by calculation, and the accuracy of the calculated load eccentricity quality is improved.

According to a second aspect of the present invention, there is provided an operation control system of a laundry treating apparatus, comprising: a memory for storing a computer program; a processor for executing a computer program to: controlling a motor of the laundry treating apparatus to perform a first operation course at a first deceleration and integrating an electromagnetic torque of the motor to obtain a first integration result; controlling the motor to perform a second operation process at a second deceleration, and integrating the electromagnetic torque of the motor to obtain a second integration result; collecting operation parameters of a laundry treatment device, wherein the operation parameters at least comprise: the two end point rotating speed values and the time values in the first running process and the two end point rotating speed values and the time values in the second running process; and calculating the load inertia of the motor according to the first integration result, the second integration result and the operation parameters.

The invention provides an operation control system of a clothes treatment device, which comprises a memory and a processor, wherein the memory is used for storing a computer program, the processor can execute the computer program, and the operation control system controls a motor to perform a first operation process according to a first deceleration in the operation process of the clothes treatment device, and integrates electromagnetic torque of the motor to obtain a first integration result in the first operation process; after the first operation process is finished, controlling the motor to perform a second operation process according to a second deceleration, and integrating the electromagnetic torque of the motor in the second operation process to obtain a second integration result; counting the operation parameters of the laundry treatment apparatus, wherein the operation parameters include, but are not limited to, a first operation duration and two end point rotation speed values of the first operation duration in the first operation process and a second operation duration and two end point rotation speed values of the second operation duration in the second operation process, calculating the load inertia of the current motor according to the first integration result, the second integration result, the first operation duration, the start time and the end time of the first operation duration and the second operation duration and the rotation speed values of the two end points of the first operation duration and the second operation duration, further calculating the weight of the laundry in the current laundry treatment apparatus according to the load inertia, and selecting an appropriate water level and detergent amount according to the weight of the laundry, the method for determining the weight of the laundry by detecting the load inertia of the motor of the present invention takes into account the difference of the tub friction of the laundry treatment apparatus, meanwhile, the influence of unbalanced load on inertia detection is considered, the accuracy of the detection of the weight of the clothes is improved, the conditions of water and electricity waste are reduced, the waste of resources is reduced, and the use experience of a user is improved.

In addition, the operation control system of the laundry processing apparatus according to the above-mentioned technical solution provided by the present invention may further have the following additional technical features:

in the foregoing technical solution, preferably, the processor is specifically configured to execute a computer program to: the load inertia is calculated by the following formula:

and

the first integration result and the second integration result.

Second integration result

In any of the above solutions, preferably, the processor is further configured to execute the computer program to: detecting the torque of the motor, and preprocessing to obtain the torque fluctuation of the motor; and obtaining the load eccentric mass of the clothes processing device according to the load inertia and the torque fluctuation and the stored relation data of the stored load inertia, the stored torque fluctuation and the stored load eccentric mass.

In any of the above solutions, preferably, the processor is further configured to execute the computer program to: the method comprises the following steps of detecting the torque of the motor, and obtaining the torque fluctuation of the motor after preprocessing, wherein the method specifically comprises the following steps: detecting the torque of the motor in real time within a first preset time period; acquiring a maximum value and a minimum value of torque measured in a first preset time period; and obtaining torque fluctuation according to the torque maximum value and the torque minimum value.

In any of the above solutions, preferably, the processor is further configured to execute the computer program to: detecting the rotating speed of the motor, and preprocessing to obtain the rotating speed fluctuation of the motor; and obtaining the load eccentric mass of the clothes processing device according to the load inertia and the rotating speed fluctuation and the stored relation data of the stored load inertia, the stored rotating speed fluctuation and the stored load eccentric mass.

In any of the above solutions, preferably, the processor is further configured to execute the computer program to: the method comprises the following steps of detecting the rotating speed of a motor, and obtaining the rotating speed fluctuation of the motor after pretreatment, wherein the method specifically comprises the following steps: detecting the current rotating speed of the motor in real time within a second preset time period; carrying out high-pass filtering on the current rotating speed to obtain filtered first rotating speed range information; and obtaining the rotation speed fluctuation according to the maximum value and the minimum value in the first rotation speed range information.

In any of the above solutions, preferably, the processor is further configured to execute the computer program to: the method comprises the following steps of detecting the rotating speed of a motor, and obtaining the rotating speed fluctuation of the motor after pretreatment, wherein the method specifically comprises the following steps: detecting the current rotating speed of the motor in real time within a third preset time period; performing high-pass filtering on the difference value between the current rotating speed and the preset rotating speed to obtain filtered second rotating speed range information; and obtaining the rotation speed fluctuation according to the maximum value and the minimum value in the second rotation speed range information.

According to a third aspect of the present invention, there is provided a laundry treating apparatus including the operation control system of any one of the laundry treating apparatuses described above.

The clothes treatment device provided by the invention comprises the operation control system of any one clothes treatment device, has all the beneficial technical effects of the operation control system of the clothes treatment device, and is not repeated herein.

According to a fourth aspect of the present invention, there is provided a computer readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of the method according to any one of the preceding claims.

The computer-readable storage medium provided by the present invention, when being executed by a processor, can implement the steps of the method according to any of the above technical solutions, so as to have all the beneficial technical effects of the operation control method of the laundry treatment apparatus, and therefore, the detailed description thereof is omitted.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic flowchart illustrating an operation control method of a laundry treating apparatus according to one embodiment of the present invention;

fig. 2 is a schematic flowchart illustrating an operation control method of a laundry treating apparatus according to another embodiment of the present invention;

fig. 3 is a schematic flowchart illustrating an operation control method of a laundry treating apparatus according to still another embodiment of the present invention;

fig. 4 is a schematic flowchart illustrating an operation control method of a laundry treating apparatus according to still another embodiment of the present invention;

fig. 5 is a schematic flowchart illustrating an operation control method of a laundry treating apparatus according to still another embodiment of the present invention;

fig. 6 is a schematic flowchart illustrating an operation control method of a laundry treating apparatus according to still another embodiment of the present invention;

fig. 7 is a schematic block diagram illustrating an operation control system of a laundry treating apparatus according to an embodiment of the present invention;

fig. 8 shows a schematic block diagram of a laundry treating apparatus according to an embodiment of the present invention;

FIG. 9 is a diagram illustrating a relationship between an actual speed and a command speed of the drum washing machine according to an embodiment of the present invention;

fig. 10 is a schematic block diagram illustrating an operation control system of a laundry treating apparatus according to an embodiment of the present invention;

fig. 11 is a flowchart illustrating an operation control method of a laundry treating apparatus according to an embodiment of the present invention;

FIG. 12 shows a schematic block diagram of an eccentric mass calculation according to an embodiment of the invention;

FIG. 13 shows a plot of the corresponding torque ripple for different load masses and eccentric masses;

FIG. 14 shows a flow chart for calculating an eccentric mass according to an embodiment of the invention;

FIG. 15 shows a schematic block diagram of an eccentric mass calculation according to one embodiment of the present invention;

FIG. 16 shows a flow diagram for calculating an eccentric mass according to one embodiment of the invention.

Detailed Description

So that the manner in which the above recited aspects, features and advantages of the present invention can be understood in detail, a more particular description of the invention, briefly summarized above, may be had by reference to the embodiments thereof which are illustrated in the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

An embodiment of a first aspect of the present invention provides an operation control method of a laundry treating apparatus.

Fig. 1 shows a schematic flowchart of an operation control method of a laundry treating apparatus according to one embodiment of the present invention.

As shown in fig. 1, an operation control method of a laundry treating apparatus according to an embodiment of the present invention includes:

s102, controlling a motor of the clothes processing device to perform a first operation process at a first deceleration, and integrating electromagnetic torque of the motor to obtain a first integration result;

s104, controlling the motor to perform a second operation process at a second deceleration, and integrating the electromagnetic torque of the motor to obtain a second integration result;

s106, collecting the operation parameters of the clothes treatment device;

and S108, calculating the load inertia of the motor according to the first integration result, the second integration result and the operation parameters.

Wherein the operating parameters include at least: the two end point rotating speed values and the time values in the first running process and the two end point rotating speed values and the time values in the second running process.

In one embodiment of the present invention, the load inertia is calculated by the following formula:

and

the first integration result and the second integration result.

In this embodiment, the load inertia J is directly obtained from the first integration result

Second integration result

In one embodiment of the present invention, a first operation duration determined at the start and end times of the first operation process and a second operation duration determined at the start and end times of the second operation process are integral multiples of a rotation period of the tub of the laundry processing apparatus, and the first operation duration and the second operation duration are equal to multiples of the rotation period.

In this embodiment, the first and second operation periods are integer multiples of a rotation period of the tub of the laundry treating apparatus, and the first and second operation periods are equal in multiples of the rotation period. If the first operation time is 4-circle rotation of the barrel body, the barrel body corresponding to the second operation time is rotated for 4-circle rotation, the calculated load inertia confidence is ensured to be the highest through unification of the rotation periods of the first operation time and the second operation time, and the determined weight of the clothes is more accurate.

Fig. 2 is a schematic flowchart illustrating an operation control method of a laundry treating apparatus according to another embodiment of the present invention.

As shown in fig. 2, an operation control method of a laundry treating apparatus according to an embodiment of the present invention includes:

s202, controlling a motor of the clothes processing device to perform a first operation process at a first deceleration, and integrating electromagnetic torque of the motor to obtain a first integration result;

s204, controlling the motor to perform a second operation process at a second deceleration, and integrating the electromagnetic torque of the motor to obtain a second integration result;

s206, collecting the operation parameters of the clothes treatment device;

s208, calculating the load inertia of the motor according to the first integration result, the second integration result and the operation parameters;

s210, detecting the torque of the motor, and preprocessing to obtain the torque fluctuation of the motor;

and S212, obtaining the load eccentric mass of the clothes processing device according to the load inertia and the torque fluctuation and the stored relation data of the stored load inertia, the stored torque fluctuation and the stored load eccentric mass.

In the embodiment, the torque of the motor is detected and processed to obtain the torque fluctuation of the motor, based on the stored relation data of the stored load inertia, the stored torque fluctuation and the stored load eccentric mass, the current load inertia interval and the two corresponding fitting curves are determined according to the load inertia, the corresponding coordinate points on the two fitting curves are determined according to the torque fluctuation, and then the interval corresponding to the load eccentric mass is determined.

Fig. 3 is a schematic flowchart illustrating an operation control method of a laundry treating apparatus according to still another embodiment of the present invention.

As shown in fig. 3, an operation control method of a laundry treating apparatus according to an embodiment of the present invention includes:

s302, controlling a motor of the clothes processing device to perform a first operation process at a first deceleration, and integrating electromagnetic torque of the motor to obtain a first integration result;

s304, controlling the motor to perform a second operation process at a second deceleration, and integrating the electromagnetic torque of the motor to obtain a second integration result;

s306, collecting the operation parameters of the clothes treatment device;

s308, calculating the load inertia of the motor according to the first integration result, the second integration result and the operation parameters;

s310, detecting the torque of the motor in real time within a first preset time period;

s312, acquiring a maximum value and a minimum value of the torque measured in a first preset time period;

s314, obtaining torque fluctuation according to the torque maximum value and the torque minimum value;

and S316, obtaining the load eccentric mass of the clothes processing device according to the load inertia and the torque fluctuation and the stored relation data of the stored load inertia, the stored torque fluctuation and the stored load eccentric mass.

In this embodiment, during a first preset period, such as one rotation or N rotations of the tub of the laundry treating apparatus, the torque of the motor is detected in real time, determining a maximum value and a minimum value of the torque according to the torque detected in real time in a first preset time period, the torque fluctuation is calculated by calculating the difference value between the maximum value of the torque and the minimum value of the torque, the torque of the barrel of the clothes treatment device under one-circle or N-circle rotation is detected, the calculated torque fluctuation can accurately represent the actual torque fluctuation of the motor, the condition that the barrel of the clothes treatment device rotates for a non-whole circle is avoided, the calculated torque fluctuation is too large or too small, and further, the eccentric mass determined by calculation is too large or too small, and the result of judging whether the load imbalance occurs is inaccurate, so that the phenomenon that the clothes treatment device generates larger noise in the operation process is effectively avoided, and the service life of the clothes treatment device is prolonged.

In one embodiment of the invention, the first predetermined period is taken from any one of the following operational procedures: a first operation course, a second operation course, other deceleration operation courses of the laundry treating apparatus; the first preset time period is integral multiple of the rotation period of the barrel body of the clothes treatment device.

In this embodiment, the first preset time period is selected from the first operation process, the second operation process and other deceleration operation processes of the laundry processing apparatus, preferably, the first preset time period is selected from a previous process in the first operation process, at this time, the rotating speed of the tub body is high, the laundry and the tub body can be completely attached, the calculated and determined torque fluctuation can completely represent the imbalance condition of the tub body and the laundry, and the accuracy of the calculated load eccentricity quality is improved.

Fig. 4 is a schematic flowchart illustrating an operation control method of a laundry treating apparatus according to still another embodiment of the present invention.

As shown in fig. 4, an operation control method of a laundry treating apparatus according to an embodiment of the present invention includes:

s402, controlling a motor of the clothes processing device to perform a first operation process at a first deceleration, and integrating electromagnetic torque of the motor to obtain a first integration result;

s404, controlling the motor to perform a second operation process at a second deceleration, and integrating the electromagnetic torque of the motor to obtain a second integration result;

s406, collecting the operation parameters of the clothes treatment device;

s408, calculating the load inertia of the motor according to the first integration result, the second integration result and the operation parameters;

s410, detecting the rotating speed of the motor, and preprocessing to obtain the rotating speed fluctuation of the motor;

and S412, obtaining the load eccentric mass of the clothes processing device according to the load inertia and the rotating speed fluctuation and the stored relation data of the stored load inertia, the stored rotating speed fluctuation and the stored load eccentric mass.

In the embodiment, the rotating speed of the motor is detected and processed to obtain the rotating speed fluctuation of the motor, based on the stored relation data of the stored load inertia, the rotating speed fluctuation and the load eccentric mass, the current load inertia interval and the two corresponding fitting curves are determined according to the load inertia, the corresponding coordinate points on the two fitting curves are determined according to the rotating speed fluctuation, and then the interval corresponding to the load eccentric mass is determined.

Fig. 5 is a schematic flowchart illustrating an operation control method of a laundry treating apparatus according to still another embodiment of the present invention.

As shown in fig. 5, an operation control method of a laundry treating apparatus according to an embodiment of the present invention includes:

s502, controlling a motor of the clothes processing device to perform a first operation process at a first deceleration, and integrating electromagnetic torque of the motor to obtain a first integration result;

s504, controlling the motor to perform a second operation process at a second deceleration, and integrating the electromagnetic torque of the motor to obtain a second integration result;

s506, collecting the operation parameters of the clothes treatment device;

s508, calculating the load inertia of the motor according to the first integration result, the second integration result and the operation parameters;

s510, detecting the current rotating speed of the motor in real time within a second preset time period;

s512, performing high-pass filtering on the current rotating speed to obtain filtered first rotating speed range information;

s514, obtaining rotation speed fluctuation according to the maximum value and the minimum value in the first rotation speed range information;

and S516, obtaining the load eccentric mass of the clothes processing device according to the load inertia and the rotating speed fluctuation and the stored relation data of the stored load inertia, the stored rotating speed fluctuation and the stored load eccentric mass.

In the embodiment, in a second preset time period, for example, when the barrel of the clothes processing device rotates for one circle or N circles, the current rotating speed of the motor is detected, high-pass filtering processing is performed, deceleration information of a low frequency band is filtered, filtered first rotating speed range information is obtained, the maximum value and the minimum value of the rotating speed in the first rotating speed range information are compared, the difference value between the maximum value and the minimum value of the rotating speed is further calculated, rotating speed fluctuation is obtained, the rotating speed of the barrel of the clothes processing device rotating for one circle or N circles is detected, it is ensured that the calculated rotating speed fluctuation can accurately represent the actual rotating speed fluctuation of the motor, it is avoided that under the condition that the barrel of the clothes processing device rotates for a non-whole circle, the calculated rotating speed fluctuation is too large or too small, further the calculated and determined eccentric mass is too large or too small, and whether the, effectively avoiding the occurrence of larger noise in the operation process of the clothes treatment device and simultaneously prolonging the service life of the clothes treatment device.

Fig. 6 is a schematic flowchart illustrating an operation control method of a laundry treating apparatus according to still another embodiment of the present invention.

As shown in fig. 6, an operation control method of a laundry treating apparatus according to an embodiment of the present invention includes:

s602, controlling a motor of the clothes processing device to perform a first operation process at a first deceleration, and integrating electromagnetic torque of the motor to obtain a first integration result;

s604, controlling the motor to perform a second operation process at a second deceleration, and integrating the electromagnetic torque of the motor to obtain a second integration result;

s606, collecting the operation parameters of the clothes treatment device;

s608, calculating the load inertia of the motor according to the first integration result, the second integration result and the operation parameters;

s610, detecting the current rotating speed of the motor in real time within a third preset time period;

s612, performing high-pass filtering on the difference value between the current rotating speed and the preset rotating speed to obtain filtered second rotating speed range information;

s614, obtaining rotation speed fluctuation according to the maximum value and the minimum value in the second rotation speed range information;

and S616, obtaining the load eccentric mass of the clothes processing device according to the load inertia and the rotating speed fluctuation and the stored relation data of the stored load inertia, the stored rotating speed fluctuation and the stored load eccentric mass.

In the embodiment, in a third preset time period, for example, when the barrel of the clothes processing device rotates for one circle or N circles, the current rotating speed of the motor is detected, the difference value between the current rotating speed and the preset rotating speed is calculated, high-pass filtering processing is performed on the calculated difference value, deceleration information of a low frequency band is filtered, filtered second rotating speed range information is obtained, the maximum value and the minimum value in the second rotating speed range information are compared, the difference value between the maximum value and the minimum value is further calculated, rotating speed fluctuation is obtained, the rotating speed of the barrel of the clothes processing device rotating for one circle or N circles is detected, the fact that the calculated rotating speed fluctuation can accurately represent the actual rotating speed fluctuation of the motor is ensured, and the situation that the calculated rotating speed fluctuation is too large or too small and further the eccentric mass determined by calculation is too large or too small under the condition that the barrel of the clothes processing device rotates, the result of judging whether the load imbalance occurs is inaccurate, so that the phenomenon that the clothes treatment device generates larger noise in the operation process is effectively avoided, and the service life of the clothes treatment device is prolonged.

In one embodiment of the invention, the second predetermined period is taken from any one of the following operational procedures: a first operation process and a second operation process; or the third predetermined period of time is taken from any one of the following operational procedures: a first operation process and a second operation process; the second preset time interval and the third preset time interval are integral multiples of the rotation period of the barrel body of the clothes treatment device.

In this embodiment, the second preset time period and/or the third preset time period are selected from the first operation process and the second operation process, and preferably, the second preset time period and/or the third preset time period are selected from a previous process in the first operation process, at this time, the rotating speed of the barrel body is high, the clothes can be completely attached to the barrel body, the imbalance condition between the barrel body and the clothes can be completely represented by the rotation speed fluctuation determined by calculation, and the accuracy of the calculated load eccentricity mass is improved.

An embodiment of a second aspect of the present invention provides an operation control system of a laundry treating apparatus.

Fig. 7 shows a schematic block diagram of an operation control system of a laundry treating apparatus according to one embodiment of the present invention.

As shown in fig. 7, an operation control system 700 of a laundry treating apparatus according to an embodiment of the present invention includes:

a memory 702 for storing a computer program; a processor 704 for executing a computer program to: controlling a motor of the laundry treating apparatus to perform a first operation course at a first deceleration and integrating an electromagnetic torque of the motor to obtain a first integration result; controlling the motor to perform a second operation process at a second deceleration, and integrating the electromagnetic torque of the motor to obtain a second integration result; collecting operation parameters of a laundry treatment device, wherein the operation parameters at least comprise: the two end point rotating speed values and the time values in the first running process and the two end point rotating speed values and the time values in the second running process; and calculating the load inertia of the motor according to the first integration result, the second integration result and the operation parameters.

Preferably, the processor 704 is specifically configured to execute a computer program to: the load inertia is calculated by the following formula:

and

the first integration result and the second integration result.

Second integration result

Preferably, a first operation duration determined at the starting and ending time of the first operation process and a second operation duration determined at the starting and ending time of the second operation process are integral multiples of a rotation period of the tub of the laundry treatment device, and the first operation duration and the second operation duration are equal to multiples of the rotation period.

Preferably, the processor 704 is further configured to execute a computer program to: detecting the torque of the motor, and preprocessing to obtain the torque fluctuation of the motor; and obtaining the load eccentric mass of the clothes processing device according to the load inertia and the torque fluctuation and the stored relation data of the stored load inertia, the stored torque fluctuation and the stored load eccentric mass.

Preferably, the processor 704 is specifically configured to execute a computer program to: detecting the torque of the motor in real time within a first preset time period; acquiring a maximum value and a minimum value of torque measured in a first preset time period; and obtaining torque fluctuation according to the torque maximum value and the torque minimum value.

Preferably, the first preset period is taken from any one of the following operational procedures: a first operation course, a second operation course, other deceleration operation courses of the laundry treating apparatus; the first preset time period is integral multiple of the rotation period of the barrel body of the clothes treatment device.

In this embodiment, the first preset time period is selected from the first operation process, the second operation process and other deceleration operation processes of the laundry processing apparatus, preferably, the first preset time period is selected from a later general process in the second operation process, the rotating speed of the drum body after twice deceleration is high, the laundry and the drum body at this time can be completely attached, the calculated and determined torque fluctuation can completely represent the imbalance condition of the drum body and the laundry, and the accuracy of the calculated load eccentricity quality is improved.

Preferably, the processor 704 is further configured to execute a computer program to: detecting the rotating speed of the motor, and preprocessing to obtain the rotating speed fluctuation of the motor; and obtaining the load eccentric mass of the clothes processing device according to the load inertia and the rotating speed fluctuation and the stored relation data of the stored load inertia, the stored rotating speed fluctuation and the stored load eccentric mass.

Preferably, the processor 704 is specific to executing computer programs to: detecting the current rotating speed of the motor in real time within a second preset time period; carrying out high-pass filtering on the current rotating speed to obtain filtered first rotating speed range information; and obtaining the rotation speed fluctuation according to the maximum value and the minimum value in the first rotation speed range information.

Preferably, the processor 704 is further configured to execute a computer program to: detecting the current rotating speed of the motor in real time within a third preset time period; performing high-pass filtering on the difference value between the current rotating speed and the preset rotating speed to obtain filtered second rotating speed range information; and obtaining the rotation speed fluctuation according to the maximum value and the minimum value in the second rotation speed range information.

Preferably, the second predetermined period is taken from any one of the following operational procedures: a first operation process and a second operation process; or the third predetermined period of time is taken from any one of the following operational procedures: a first operation process and a second operation process; the second preset time interval and the third preset time interval are integral multiples of the rotation period of the barrel body of the clothes treatment device.

An embodiment of a third aspect of the present invention provides a laundry treating apparatus.

Fig. 8 shows a schematic block diagram of a laundry treating apparatus 800 according to an embodiment of the present invention.

As shown in fig. 8, a laundry treating apparatus 800 according to an embodiment of the present invention includes: an operation control system 802 of the laundry treating apparatus.

The laundry treating apparatus 800 of the present invention includes an operation control system 802 of the laundry treating apparatus, wherein the operation control system 802 of the laundry treating apparatus has all technical effects of the operation control system of the laundry treating apparatus, and therefore, the laundry treating apparatus 800 also has all technical effects of the operation control system of the laundry treating apparatus, which is not described herein again.

An embodiment of the fourth aspect of the present invention provides a computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method according to any one of the above-mentioned claims.

Fig. 9 is a diagram illustrating a relationship between an actual speed and a command speed of the drum washing machine according to an embodiment of the present invention.

Fig. 10 shows a schematic block diagram of an operation control system of a laundry treating apparatus according to one embodiment of the present invention.

Fig. 11 is a flowchart illustrating an operation control method of a laundry treating apparatus according to an embodiment of the present invention.

It should be noted that the load inertia calculation principle of the laundry treatment apparatus of the present application is derived as follows:

considering that the viscosity coefficient B in the motor motion equation is small under the normal condition, when the viscosity coefficient B is ignored, the motion equation of the motor can be converted into:

wherein T is_dFor unbalanced torque, drum washing machinesFor example, the unbalance torque varies periodically according to the drum speed, T_fIs a friction torque.

As shown in FIG. 9, the electromagnetic torque is called T_e1The electromagnetic torque is called T_e2Integrating the two sides of the formula 1 at A-B and C-D simultaneously to obtain

Further calculation yields:

wherein the content of the first and second substances,

then equation 3 changes to:

wherein t is_AAnd t_BTime at point A, B.

Calculated by the same principle to obtain

After the friction torque is unified, the following results are obtained:

subtracting equation 6 from equation 5 yields the load inertia:

specifically, the connection relationship of the components for calculating the load inertia is shown in fig. 10.

Specifically, a flow diagram of an embodiment of the present invention is shown in fig. 11.

FIG. 12 shows a schematic block diagram of an eccentric mass calculation according to one embodiment of the present invention.

Fig. 13 shows the corresponding torque ripple curves for different load masses and eccentric masses.

FIG. 14 shows a flow diagram for calculating an eccentric mass according to one embodiment of the invention.

With reference to fig. 12-14, in one embodiment of the invention,

based on formula 7, the load weight of the drum washing machine can be obtained through the corresponding relationship between the load inertia and the load mass, and in the actual use process, the drum washing machine operates according to a preset speed curve, and if the rotating speed is a fixed value, the load weight can be expressed as:

as shown in fig. 12, the device comprises a load inertia identification module, a torque fluctuation detection module, a dehydration control data storage module and a load eccentric weight calculation module. The function of accurately calculating the eccentric weight of the load in the deceleration process of the drum washing machine is realized. The load inertia identification module is used for acquiring the torque, the rotating speed and the time quantum of two deceleration sections with different decelerations in the deceleration process and calculating the inertia value of the current load; the torque fluctuation detection module detects a torque fluctuation value of a specific interval while detecting inertia; the dehydration control data storage module stores a two-bit data table of inertia values and torque fluctuation values of the drum washing machine under different inertias and eccentric weights; and the load eccentric weight calculation module is used for calculating the eccentric weight under the current load by utilizing a two-bit data table in the dehydration control data storage module through two-dimensional linear fitting according to the inertia value output by the inertia detection module and the torque fluctuation value output by the rotating speed fluctuation detection module. When the eccentric weight is less than a special quality threshold value, the drum is controlled to rotate at a reduced speed to dehydrate the clothes in the drum, and when the eccentric weight is greater than the special quality threshold value, the drum is controlled to perform a clothes shaking operation to redistribute the load. Thus, the eccentric mass determined by the present invention is more accurate and less time consuming than the background art.

Specifically, a load inertia recognition module (inertia recognition unit) for detecting the inertia of the drum and the laundry therein; a torque fluctuation detection module (torque fluctuation calculation unit) for detecting a motor torque fluctuation; the dehydration control data storage module is used for storing a two-dimensional data table of inertia and torque fluctuation; and the load eccentric weight calculating module is used for calculating the load eccentric weight. And detecting the load inertia and the torque fluctuation in real time in the deceleration process of the drum washing machine, thereby calculating the load eccentricity state. Specifically, data recorded in the dehydration control data storage module are preset data and serve as parameters of the load eccentric weight calculation module when the whole machine runs, the load eccentric weight calculation module detects load inertia and torque fluctuation in real time, data in the dehydration control data storage module are inquired, the current load and the interval where the eccentricity is located are determined, and the load eccentric mass is obtained through two-dimensional linear fitting calculation; further, as shown in fig. 13, the curves of torque fluctuations corresponding to different load masses and eccentric masses are determined according to the coordinate positions of the load inertias in the graph, taking the mass as 4kg as an example, if a first torque fluctuation is detected, a matched coordinate point E is found on the fitted straight line of the first load inertias corresponding to 6kg, a matched coordinate point G is also found on the fitted straight line of the first load inertias corresponding to 3kg, and then a first load inertias corresponding to 4kg and a coordinate point F corresponding to the first torque fluctuation are determined according to the coordinate point E and the coordinate point G, and a corresponding ordinate value (i.e., an eccentric mass corresponding to the first torque fluctuation) is determined according to the coordinate point F. The process steps for specifically calculating the eccentric weight of the load are shown in fig. 14.

FIG. 15 shows a schematic block diagram of an eccentric mass calculation according to one embodiment of the present invention.

Referring to fig. 15, 16 and 13, in an embodiment of the present invention, as shown in fig. 15, the load inertia recognition module, the rotational speed processing module, the rotational speed fluctuation calculation unit, the dehydration control data storage module, and the load eccentricity weight calculation module are included. The function of accurately calculating the eccentric weight of the load in the deceleration process of the drum washing machine is realized. The load inertia identification module is used for acquiring the torque, the rotating speed and the time quantum of two deceleration sections with different decelerations in the deceleration process and calculating the inertia value of the current load; the rotating speed processing module is used for carrying out operation processing on the rotating speed of the motor to obtain easily-used rotating speed information; the rotating speed fluctuation detection module is used for detecting rotating speed information after inertia detection and processing to obtain a rotating speed fluctuation value in a specific interval; the dehydration control data storage module stores a two-bit data table of inertia values and rotating speed fluctuation values of the drum washing machine under different inertias and eccentric weights; and the load eccentric weight calculation module is used for calculating the eccentric weight under the current load by utilizing a two-bit data table in the dehydration control data storage module through two-dimensional linear fitting according to the inertia value output by the inertia detection module and the rotation speed fluctuation value output by the rotation speed fluctuation detection module. When the eccentric weight is less than a special quality threshold value, the drum is controlled to rotate at a reduced speed to dehydrate the clothes in the drum, and when the eccentric weight is greater than the special quality threshold value, the drum is controlled to perform a clothes shaking operation to redistribute the load. The eccentric mass determined by the present invention is therefore more accurate and less time consuming than the background art.

Specifically, a load inertia recognition module (inertia recognition unit) for detecting inertia of the drum and the laundry inside thereof; the rotating speed processing module (rotating speed processing and rotating speed fluctuation calculating unit) is used for carrying out mathematical processing on the rotating speed of the motor; the rotating speed fluctuation detection module (rotating speed processing and rotating speed fluctuation calculation unit) is used for detecting the rotating speed fluctuation of the motor; the dehydration control data storage module is used for storing a two-dimensional data table of inertia and rotation speed fluctuation; and the load eccentric weight calculating module is used for calculating the load eccentric weight. And detecting the load inertia and the rotating speed fluctuation in real time in the deceleration process of the drum washing machine, thereby calculating the load eccentricity state. Specifically, the data recorded in the dehydration control data storage module is preset data, and the preset data is used as a parameter of the load eccentric weight calculation module when the whole machine runs. The data in the dehydration control data storage module are two-dimensional data corresponding to load inertia and rotating speed fluctuation and load eccentric mass, the load inertia and the rotating speed fluctuation are detected under the preset load weight and eccentric mass, the detected load inertia and rotating speed fluctuation are recorded in the dehydration control data storage module, and the preset load weight and eccentric mass are selected according to the allowed maximum load of the currently applied drum washing machine.

Based on formula 7, the load weight of the drum washing machine can be obtained through the corresponding relationship between the load inertia and the load mass, in the actual use process, the drum washing machine operates according to a preset speed curve, the rotating speed is determined to be a fixed value, the load rotating speed fluctuation needs to be calculated in the deceleration process in the rotating speed processing and rotating speed fluctuation calculation, the rotating speed is required to be high enough in the preset time, and the clothes are guaranteed to be attached to the wall of the drum. Because the motor is in the deceleration process, the rotation speed information of the motor simultaneously contains deceleration information and rotation speed fluctuation information, and the rotation speed fluctuation information needs to be extracted for calculating rotation speed fluctuation.

Scheme 1: and carrying out high-pass filtering on the actual rotating speed of the motor, wherein the selection requirement of the filtering cut-off frequency can keep rotating speed fluctuation information under the current detected rotating speed, and filtering out low-frequency deceleration information.

Scheme 2: and subtracting the motor rotating speed instruction from the actual rotating speed of the motor, removing the deceleration information and keeping the rotating speed fluctuation information.

And detecting the position of the roller within a preset time, detecting and recording the processed speed information within one rotation of the roller, and recording the maximum value and the minimum value. The rotation speed fluctuation is maximum value-minimum value.

The load eccentric weight calculation module detects load inertia and rotation speed fluctuation in real time in the deceleration process of the drum washing machine, inquires data in the dehydration control data storage module, determines the current load and the interval where the eccentricity is located, and calculates and obtains the load eccentric weight by adopting two-dimensional linear fitting. Specifically, after the load eccentric weight calculation module detects load inertia and rotation speed fluctuation in real time, the curve of the corresponding rotation speed fluctuation under different load weights and eccentric masses is searched, the current interval is determined in the figure according to the load inertia, for example with a mass of 4kg, if a first speed fluctuation is detected, a matching coordinate point E is found on a fitting straight line of the first load inertia corresponding to 6kg, and a matching coordinate point G is also found on a fitting straight line of the first load inertia corresponding to 3kg, and further a first load inertia corresponding to 4kg and a coordinate point F corresponding to the one first velocity fluctuation may be determined from the coordinate point E and the coordinate point G, the corresponding ordinate value (i.e. the eccentric mass corresponding to this first speed fluctuation) is determined from this coordinate point F, and the flow steps for calculating the eccentric weight of the load in particular are shown in fig. 16.

In the description of the present invention, the terms "plurality" or "a plurality" refer to two or more, and unless otherwise specifically limited, the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention; the terms "connected," "mounted," "secured," and the like are to be construed broadly and include, for example, fixed connections, removable connections, or integral connections; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description of the present invention, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In the present invention, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An operation control method of a laundry treatment apparatus, comprising:

controlling a motor of the clothes processing device to perform a first operation process at a first deceleration and integrating electromagnetic torque of the motor to obtain a first integration result;

controlling the motor to perform a second operation process at a second deceleration, and integrating the electromagnetic torque of the motor to obtain a second integration result;

acquiring operating parameters of the laundry treatment apparatus, wherein the operating parameters at least comprise: the two end point rotating speed values and the time values in the first running process and the two end point rotating speed values and the time values in the second running process;

calculating the load inertia of the motor according to the first integration result, the second integration result and the operation parameter;

the load inertia is calculated by the following formula:

wherein the content of the first and second substances,

as the load inertia, there is a load inertia,

respectively being the starting time and the ending time of the first operation process and the second operation process;

respectively are the rotating speed values of two end points of the first operation process and the second operation process,

the first integration result and the second integration result;

the first operation time determined at the starting time and the ending time of the first operation process and the second operation time determined at the starting time and the ending time of the second operation process are integral multiples of a rotation period of the barrel body of the clothes treatment device, and the first operation time and the second operation time are equal to multiples of the rotation period.

2. The control method according to claim 1, characterized by further comprising:

detecting the torque of the motor, and preprocessing the torque to obtain the torque fluctuation of the motor;

and obtaining the load eccentric mass of the clothes processing device according to the load inertia, the torque fluctuation and the stored relation data of the stored load inertia, the stored torque fluctuation and the stored load eccentric mass.

3. The control method according to claim 2,

the method comprises the following steps of detecting the torque of the motor, and obtaining the torque fluctuation of the motor after preprocessing, and specifically comprises the following steps:

detecting the torque of the motor in real time within a first preset time period;

acquiring a maximum torque value and a minimum torque value measured in the first preset time period;

and obtaining the torque fluctuation according to the torque maximum value and the torque minimum value.

4. The control method according to claim 3,

the first preset time period is taken from any one of the following operation processes: the first operation course, the second operation course, the other deceleration operation course of the laundry treating apparatus;

the first preset time period is integral multiple of the rotation period of the barrel body of the clothes treatment device.

5. The control method according to claim 1, characterized by further comprising:

detecting the rotating speed of the motor, and obtaining the rotating speed fluctuation of the motor after pretreatment;

and obtaining the load eccentric mass of the clothes processing device according to the load inertia, the rotating speed fluctuation and the stored relation data of the stored load inertia, the stored rotating speed fluctuation and the stored load eccentric mass.

6. The control method according to claim 5,

the detecting the rotating speed of the motor, and the preprocessing to obtain the rotating speed fluctuation of the motor specifically comprise:

detecting the current rotating speed of the motor in real time within a second preset time period;

carrying out high-pass filtering on the current rotating speed to obtain filtered first rotating speed range information;

and obtaining the rotation speed fluctuation according to the maximum value and the minimum value in the first rotation speed range information.

7. The control method according to claim 5,

detecting the current rotating speed of the motor in real time within a third preset time period;

performing high-pass filtering on the difference value between the current rotating speed and a preset rotating speed to obtain filtered second rotating speed range information;

and obtaining the rotation speed fluctuation according to the maximum value and the minimum value in the second rotation speed range information.

8. The control method according to claim 6 or 7,

the second preset time period is taken from any one of the following operation processes: the first operation process and the second operation process; or

The third preset time period is taken from any one of the following operation processes: the first operation process and the second operation process;

the second preset time period and the third preset time period are integral multiples of the rotation period of the barrel body of the clothes treatment device.

9. An operation control system of a laundry treating apparatus, comprising:

a memory for storing a computer program;

a processor for executing the computer program to:

the load inertia is calculated by the following formula:

wherein the content of the first and second substances,

as the load inertia, there is a load inertia,

the first integration result and the second integration result;

10. The control system of claim 9, further comprising: the processor is specifically configured to execute the computer program to:

11. The control system of claim 9, further comprising: the processor is specifically configured to execute the computer program to:

12. A laundry treating apparatus, comprising: the operation control system of the laundry treating apparatus according to any one of claims 9 to 11.

13. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 8.