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CN-121992609-A - Control method of clothes treatment equipment and clothes treatment equipment

CN121992609ACN 121992609 ACN121992609 ACN 121992609ACN-121992609-A

Abstract

The invention provides a control method of clothes treatment equipment, which comprises the steps of acquiring acceleration time for accelerating a cylinder to a set rotating speed and a current value in the acceleration time in a program running process, continuing running a first defoaming program after monitoring that the acceleration time is larger than a first set time and the current value is larger than a first set value, continuing running the program after monitoring that the acceleration time is larger than a second set time and the current value is larger than a second set value, and continuing running the program after running a second defoaming program, wherein the second set time is larger than the first set time and the second set value is larger than the first set value, the second defoaming program comprises a control cylinder static set time, and effectively avoiding the problems of reducing washing time, influencing the working efficiency of a motor and the like caused by excessive foam by combining the defoaming program by preventing the generation stage in advance, and improving the washing efficiency.

Inventors

  • NING HU
  • LI ZHENG
  • WANG CHENGSHAN
  • WANG HE
  • ZHANG YUXIN
  • XING FUTAO

Assignees

  • 佛山市顺德海尔电器有限公司
  • 海尔智家股份有限公司

Dates

Publication Date
20260508
Application Date
20241108

Claims (10)

  1. 1. A control method of a clothes treatment apparatus is characterized in that, during program running, an acceleration time for accelerating a drum to a set rotation speed and a current value in the acceleration time are obtained, And when the acceleration time is monitored to be longer than the first set time and the current value is monitored to be longer than the first set value, the first defoaming program is operated and then the program is continuously operated.
  2. 2. The control method of a laundry treatment apparatus according to claim 1, wherein when it is monitored that the acceleration time is longer than a second set time and the current value is longer than a second set value, the program is continued to be run after a second defoaming program is run; The second set time is greater than the first set time, and the second set value is greater than the first set value.
  3. 3. A control method of a laundry treatment apparatus according to claim 2, characterized in that the second defoaming program includes controlling the cylinder to be stationary for a set time.
  4. 4. A control method of a laundry treatment apparatus according to any one of claims 1 to 3, wherein, when the acceleration of the drum to the first rotation speed of the set rotation speed is monitored, If the acceleration time of the cylinder to the first rotating speed is larger than the first set time and the current value in the acceleration time is larger than the first set value, the first defoaming program is operated; the first defoaming program comprises spraying defoaming after water enters a set water level of the program and controlling the drum to rotate for a set time.
  5. 5. A control method of a laundry treatment apparatus according to any one of claims 1 to 4, wherein, when the acceleration of the drum to the second rotation speed of the set rotation speed is monitored, If the acceleration time of the cylinder to the second rotating speed is larger than a second set time and the current value in the acceleration time is larger than the second set value, continuing to judge that the running times of the second defoaming program is smaller than the set times, and running the second defoaming program; wherein the second rotational speed is greater than the first rotational speed.
  6. 6. The control method of a laundry treatment apparatus according to claim 5, wherein if it is determined that the number of times of the operation of the second defoaming program is equal to or greater than the set number of times, the program is stopped from being operated and an alarm signal is transmitted.
  7. 7. A control method of a laundry treatment apparatus according to any one of claims 2 to 6, wherein the second defoaming program includes spray defoaming after water is fed to a set water level of the program and controlling the drum rotation for a set time, and controlling the drum rest set time after the set time is ended.
  8. 8. The control method of a laundry treatment apparatus according to claim 5, characterized in that an acceleration time for which acceleration of the drum to the first rotation speed is monitored is equal to or less than the first set time and a current value within the acceleration time is equal to or less than the first set value; And/or, when the acceleration time of the cylinder to the second rotating speed is less than or equal to a second set time and the current value in the acceleration time is less than or equal to the second set value, running a final dewatering program.
  9. 9. The control method of a laundry treatment apparatus according to claim 8, wherein when it is monitored that an acceleration time for which the drum is accelerated to the first rotation speed is equal to or less than the first set time and a current value in the acceleration time is equal to or less than the first set time, the program runs a dehydration program and a shower program after the program runs, And operating the final dewatering program after the operation times of the dewatering program and the spraying program reach the set operation times.
  10. 10. A laundry treatment apparatus characterized by employing a control method of a laundry treatment apparatus according to any one of claims 1 to 9.

Description

Control method of clothes treatment equipment and clothes treatment equipment Technical Field The invention belongs to the technical field of household appliances, and particularly relates to a control method of clothes treatment equipment and the clothes treatment equipment. Background The laundry machine has become an indispensable home appliance in daily life, and along with development of technology, functions of the laundry machine are also being enriched and perfected. During the use of the washing machine, excessive detergent addition can generate a large amount of foam, and the dewatering efficiency can be affected after the rinsing is finished. If the generation of excessive foam cannot be prevented in time, the normal operation of the motor can be influenced, and the subsequent washing efficiency can be influenced. In the prior art, defoaming treatment is carried out after foam generation, excessive foam is generated, so that the running time of a program is longer than that of the original standard running time, the current is monitored to be excessively large continuously, the foam generation cannot be well avoided, the total washing time is increased, the washing efficiency is affected, and the problems that the foam is not completely eliminated and the like exist. Therefore, how to effectively prevent the generation of foam without changing the operation parameters of the washing process to improve the efficiency of dehydration after rinsing is a problem to be solved at present. Disclosure of Invention The invention aims to overcome the defects of the prior art and provides a control method of clothes treatment equipment and the clothes treatment equipment. The problem of how to effectively prevent foam generation and improve the dewatering efficiency after rinsing without changing the operation parameters of the washing program is solved. In order to solve the technical problems, the invention adopts the basic conception of the technical scheme that: A control method of a clothes treatment device, in the process of program running, obtains the acceleration time of a drum to a set rotating speed and the current value in the acceleration time, And when the acceleration time is monitored to be longer than the first set time and the current value is monitored to be longer than the first set value, the first defoaming program is operated and then the program is continuously operated. Further, when the acceleration time is monitored to be greater than a second set time and the current value is monitored to be greater than a second set value, the program is continuously operated after a second defoaming program is operated; The second set time is greater than the first set time, and the second set value is greater than the first set value. Further, the second de-foaming program includes controlling a cartridge rest set time. Further, when the acceleration of the drum to a first rotational speed of the set rotational speed is monitored, If the acceleration time of the cylinder to the first rotating speed is larger than the first set time and the current value in the acceleration time is larger than the first set value, the first defoaming program is operated; the first defoaming program comprises spraying defoaming after water enters a set water level of the program and controlling the drum to rotate for a set time. Further, when the acceleration of the drum to a second rotational speed of the set rotational speed is monitored, If the acceleration time of the cylinder to the second rotating speed is larger than a second set time and the current value in the acceleration time is larger than the second set value, continuing to judge that the running times of the second defoaming program is smaller than the set times, and running the second defoaming program; wherein the second rotational speed is greater than the first rotational speed. Further, if the running times of the second defoaming program are larger than or equal to the set times, stopping running the program and sending an alarm signal. Further, the second defoaming program comprises spraying defoaming after water enters a set water level of the program and controlling the cylinder to rotate for a set time, and controlling the cylinder to be stationary for a set time after the set time is finished. Further, it is monitored that an acceleration time for the drum to accelerate to the first rotation speed is equal to or less than the first set time and a current value in the acceleration time is equal to or less than the first set value; And/or, when the acceleration time of the cylinder to the second rotating speed is less than or equal to a second set time and the current value in the acceleration time is less than or equal to the second set value, running a final dewatering program. Further, when it is detected that the acceleration time for accelerating the drum to the first rotational speed is equal to or less than the first set time and th