CN117684350A - Control method for improving washing ratio of washing machine and washing machine - Google Patents
Control method for improving washing ratio of washing machine and washing machine Download PDFInfo
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- CN117684350A CN117684350A CN202311820445.XA CN202311820445A CN117684350A CN 117684350 A CN117684350 A CN 117684350A CN 202311820445 A CN202311820445 A CN 202311820445A CN 117684350 A CN117684350 A CN 117684350A
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- 238000005406 washing Methods 0.000 title claims abstract description 149
- 238000000034 method Methods 0.000 title claims abstract description 20
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 178
- 230000001502 supplementing effect Effects 0.000 claims abstract description 46
- 239000008237 rinsing water Substances 0.000 claims abstract description 11
- 238000010438 heat treatment Methods 0.000 claims description 23
- 238000003756 stirring Methods 0.000 claims description 10
- 239000006260 foam Substances 0.000 claims description 8
- 239000003599 detergent Substances 0.000 claims description 4
- 238000004140 cleaning Methods 0.000 abstract description 3
- 230000018044 dehydration Effects 0.000 abstract 1
- 238000006297 dehydration reaction Methods 0.000 abstract 1
- 230000001276 controlling effect Effects 0.000 description 7
- 238000005265 energy consumption Methods 0.000 description 4
- 101150114468 TUB1 gene Proteins 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000005202 decontamination Methods 0.000 description 1
- 230000003588 decontaminative effect Effects 0.000 description 1
- 230000007812 deficiency Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000005611 electricity Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 239000004744 fabric Substances 0.000 description 1
- 239000000835 fiber Substances 0.000 description 1
- 238000010412 laundry washing Methods 0.000 description 1
- 230000001105 regulatory effect Effects 0.000 description 1
- 238000002791 soaking Methods 0.000 description 1
- 230000001954 sterilising effect Effects 0.000 description 1
- 238000010792 warming Methods 0.000 description 1
- 238000005303 weighing Methods 0.000 description 1
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Abstract
The invention relates to a control method for improving the cleaning ratio of a washing machine, which comprises the following steps: the user selects to enter a variable washing mode through a key, and the mode is effective; the motor rotates, the intelligent judgment of the load capacity, the pre-washing valve is activated, and after 15s of water inflow of the pre-washing valve, the main washing valve is subjected to water inflow at one time to 2400HZ; after water is fed, the clothes are soaked, and meanwhile, the water supplementing action is carried out; executing different washing time according to different water supplementing times; entering variable speed washing; entering into a dehydration action; entering a rinsing action, and adjusting corresponding rinsing water level and rinsing time according to different loads; dewatering and draining for 1min; the computer board reads the eccentric OOB value of the washing machine before the main clutch, and judges whether the set rotating speed condition is met; when the number of attempts is greater than 38, the preset eccentric OOB value is still not met, and the UB alarms; when the set rotating speed condition is met, judging whether the water level is higher than the defoaming water level 2470HZ; when the water level is higher than the defoaming water level, defoaming action is carried out, and if the water level is lower than the defoaming water level, the final defoaming is carried out; the clothes are shaken off for 1min to finish.
Description
Technical field:
the invention relates to a control method for improving washing ratio of a washing machine and the washing machine thereof, belonging to the technical field of washing machines.
The background technology is as follows:
with the global warming, the demands of consumers for low electricity consumption, low water consumption and laundry washing and decontamination are becoming stronger today, and the conventional washing machine is a treatment method of completely immersing laundry in a washing tub by entering a large amount of water, then heating the laundry and water in the tub to a high temperature, and then achieving the washing purpose by washing for a long time. The traditional washing machine treatment method can cause clothes to be washed out, and has high energy consumption and water consumption.
Therefore, there is a need for an improvement over the prior art to address the deficiencies of the prior art.
The invention comprises the following steps:
the invention aims to solve the problems in the prior art and provides a control method for improving the washing ratio of a washing machine and the washing machine thereof, which accurately and intelligently controls clothes in large, medium and small weight sections, and in the washing process, the control of water consumption, heating time and different rotating speeds of a drum are adopted to achieve higher washing ratio under the conditions of minimum water consumption and energy consumption.
The invention adopts the following technical scheme: a control method for improving the washing ratio of a washing machine comprises the following steps:
step one: starting a program;
step two: after the user selects to enter a variable washing mode through a key, the mode is effective;
step three: the motor rotates, the intelligent judgment of the load capacity, the pre-washing valve is activated, and after 15s of water inflow of the pre-washing valve, the main washing valve is subjected to water inflow at one time to 2400HZ;
step four: after water is fed, the clothes are soaked for 19min, meanwhile, the water supplementing action is executed, the motor executes 35rpm/min and rotates for 8 s/stop for 8s, so that the laundry detergent water and the clothes are fully soaked, meanwhile, the water absorbed by the clothes is fed into the outer barrel again through the water supplementing water level, the water level value is monitored by the water level sensor, and if the water level is lower than 2465HZ, water supplementing is carried out until the set water level value 2455HZ is reached;
step five: executing different washing programs according to different water supplementing times through different water supplementing times;
step six: entering variable-speed washing, controlling the rotating speed of a motor to be 45prm, continuously controlling the rotating speed to be 3s, adjusting the load, and reading an eccentric OOB value of the washing machine by a computer board after the rotating speed of the motor is increased to 93rpm, wherein the rotating speed of the motor is increased to 150rpm again when the rotating speed of the motor is lower than the set eccentric OOB value of 140, so that foam is quickly beaten out, the motor is restored to 50rpm/min after the foam is fully soaked for 1min, the motor is rotated for 8 s/stop for 8s, and washing is performed in the positive and negative directions twice;
step seven: after the washing time is finished, dewatering is carried out, the water is drained by a drainage pump for 1min, the main dewatering is carried out for 5min, and the maximum rotation speed of the motor is 600;
step eight: entering a rinsing action, and executing different rinsing programs according to different water supplementing times;
step nine: dewatering and draining for 1min;
step ten: the computer board reads the eccentric OOB value of the washing machine before the main clutch, and judges whether the set rotating speed condition is met;
step eleven: when the number of attempts is greater than 38, the preset eccentric OOB value is still not met, and the UB alarms;
step twelve: judging whether the water level is higher than the defoaming water level 2470HZ when the set rotating speed condition is met in the step ten;
step thirteen: when the water level is higher than the defoaming water level 2470HZ, defoaming action is carried out, and if the water level is lower than the defoaming water level 2470HZ, final threshing is carried out, and the motor rotates at the highest speed 1400;
step fourteen: the clothes are shaken off for 1min, the motor is rotated for 8 s/stopped for 8s at 35 rpm/min;
fifteen steps: ending the whole control flow.
Further, the fifth step is specifically as follows:
(5.1) if the number of times of water supplementing is less than or equal to 5, judging that the water supplementing is carried out at 1/4 load, heating for 1min, and stirring by using a motor at 50rpm/min for 20 s/3 s; the total washing time is 98min, the motor is rotated for 20 s/3 s at 50rpm/min, the washing action is carried out, and the variable speed washing is added every 5min in the washing process for 8 times;
(5.2) if the number of times of water supplementing is 6-13, judging that the water supplementing is half-load, heating for 8min, and stirring by using a motor at 50rpm/min for 20 s/3 s; the total washing time is 102min, the motor is rotated for 20 s/3 s at 50rpm/min, the washing action is carried out, and the variable speed washing is added every 5min in the washing process for 8 times;
(5.3) if the number of times of water replenishment is more than 13, judging that the water replenishment is full, heating for 16min, and stirring the water for 3s after the motor rotates for 20s at 50 rpm/min; the total washing time is 140min, the motor rotates for 20 s/stop for 3s at 50rpm/min, the washing action is carried out, and the variable speed washing is added every 5min in the washing process for 8 times.
Further, the step eight is specifically as follows:
(8.1) if the water supplementing times are less than or equal to 5 times, the rinsing time is 3min, the motor is rotated for 12 s/stop for 10s at 50rpm/min, the rinsing water is fed for 2380HZ, the water level sensor monitors the water level value, and if the water level is lower than 2405HZ, water supplementing is carried out until the set water level value of 2370HZ is reached;
(8.2) if the water supplementing times are 6-13 times, the rinsing time is 3min, the motor is rotated for 12 s/stop for 10s at 50rpm/min, the rinsing water is 2380HZ, the water level sensor monitors the water level value, and if the water level is lower than 2405HZ, water supplementing is carried out until the set water level value 2370HZ is reached;
(8.3) if the number of times of water replenishment is more than 13, the rinsing time is 6min, the motor is rotated for 12 s/stop for 10s at 50rpm/min, the rinsing water is 2380HZ, the water level sensor monitors the water level value, and if the water level is lower than 2355HZ, water replenishment is carried out until the set water level value 2340HZ is reached.
Further, the step ten is as follows:
(10.1) the driving plate reads out the weight LD of clothes < 2.2kg, at this time, the preset eccentric OOB value is 10, 30,45,50,80, when the number of times of main detachment can reach the preset eccentric OOB value 10 or 30 or 45 or 50 in the trial 38, the motor rotation speed is 1420, when the number of times of main detachment can reach the preset eccentric OOB value 80 in the trial 38, the motor is 1300rpm/min;
(10.2) the driving plate reads out the weight of clothes 2.2kg or less LD < 7.5kg, at this time, the preset eccentric OOB value is 10, 30,35,50,80, when the number of times of main detachment can reach the preset eccentric OOB value of 10 or 30 or 35 or 50 in 38 times of trial, the motor rotation speed is 1420, when the number of times of main detachment can reach the preset eccentric OOB value of 80 in 38 times of trial, the motor uses 1300rpm/min;
(10.3) the driving plate reads out the weight of clothes 7.5kg or less LD < 12kg, at this time, the preset eccentric OOB value is 10, 25,35,50,80, when the number of times of main detachment reaches the preset eccentric OOB value of 10 or 25 or 35 or 50 within 38 times of trial, the motor rotation speed is 1420, when the number of times of main detachment reaches the preset eccentric OOB value of 80 within 38 times of trial, the motor is 1300rpm/min;
(10.4) the driving plate reads out the weight LD of clothes not less than 12kg, at this time, the preset eccentric OOB value is 10, 30,40,50,80, when the number of times of main detachment can reach the preset eccentric OOB value of 10 or 30 or 40 within 38 times of attempts, the motor rotation speed is 1420, when the number of times of main detachment can reach the preset eccentric OOB value of 50 or 80 within 38 times of attempts, the motor is 1300rpm/min.
The invention also adopts the following technical scheme: the utility model provides a washing machine, includes the washing machine outer bucket and installs the washing machine inner tube in the washing machine outer bucket, and the washing machine outer bucket includes bung and installs the barrel head together with the bung, the bottom of barrel head is sunken to be formed with the heating chamber, heater and temperature sensor are installed to the interval in the heating chamber.
Further, a pipeline is connected to the lower portion of the barrel cover, an air duct is connected to the pipeline, and a water temperature sensor is connected to the other end of the air duct.
Further, a water level sensor is installed at the outer side of the outer tub.
The invention has the following beneficial effects: the invention relates to a control method for improving washing ratio of washing machine. The related actions of variable speed washing can be completed in the shortest time, the smallest power consumption and the largest efficiency through controlling the weighing, the water feeding and water supplementing water level and the rotating speed frequency of the motor, so that the water is heated to the expected temperature in the smallest energy consumption, and the variable speed washing is controlled to deeply wash clothes, thereby achieving the higher standard washing ratio.
Description of the drawings:
fig. 1 is a schematic view of a washing machine according to the present invention.
Fig. 2 is another schematic view of the washing machine of the present invention.
Fig. 3 is an exploded view of the washing machine of the present invention.
Fig. 4 is a partial schematic view of the washing machine of the present invention.
Fig. 5 is a flowchart of a control method for improving a washing ratio of a washing machine according to the present invention.
The specific embodiment is as follows:
the invention is further described below with reference to the accompanying drawings.
The washing machine comprises a washing machine outer barrel 1 and a washing machine inner barrel 2 arranged in the washing machine outer barrel 1, wherein the washing machine outer barrel 1 comprises a barrel cover 10 and a barrel bottom 11 arranged together with the barrel cover 10.
The bottom of the tub bottom 11 is concavely formed with a heating chamber 110, and a heater 3 and a temperature sensor 4 are installed in the heating chamber 110 at intervals. The lower part of the barrel cover 10 is connected with a pipeline 5, the pipeline 5 is connected with an air duct 6, and the other end of the air duct 6 is connected with a water temperature sensor 7. A water level sensor is installed at the outside of the tub 1.
The outer tub 1 of the washing machine stores washing water, the heater 3 is used for rapidly heating the water in the heating chamber 110, and the temperature sensor 4 can judge the current water level condition at any time.
The invention relates to a control method for improving the cleaning ratio of a washing machine, which comprises the following steps:
step one: starting a program;
step two: after the user selects to enter a variable washing mode through a key, the mode is effective;
step three: the motor rotates, the intelligent judgment of the load capacity, the pre-washing valve is activated, and after 15s of water inflow of the pre-washing valve, the main washing valve is subjected to water inflow at one time to 2400HZ;
step four: after water is fed, the clothes are soaked for 19min, meanwhile, the water supplementing action is executed, the motor executes 35rpm/min and rotates for 8 s/stop for 8s, so that the laundry detergent water and the clothes are fully soaked, meanwhile, the water absorbed by the clothes is fed into the outer barrel again through the water supplementing water level, the water level value is monitored by the water level sensor, and if the water level is lower than 2465HZ, water supplementing is carried out until the set water level value 2455HZ is reached;
step five: executing different washing programs according to different water supplementing times through different water supplementing times;
the fifth step is as follows:
(5.1) if the number of times of water supplementing is less than or equal to 5, judging that the water supplementing is carried out at 1/4 load, heating for 1min, and stirring by using a motor at 50rpm/min for 20 s/3 s; the total washing time is 98min, the motor is rotated for 20 s/3 s at 50rpm/min, the washing action is carried out, and the variable speed washing is added every 5min in the washing process for 8 times;
(5.2) if the number of times of water supplementing is 6-13, judging that the water supplementing is half-load, heating for 8min, and stirring by using a motor at 50rpm/min for 20 s/3 s; the total washing time is 102min, the motor is rotated for 20 s/3 s at 50rpm/min, the washing action is carried out, and the variable speed washing is added every 5min in the washing process for 8 times;
(5.3) if the number of times of water replenishment is more than 13, judging that the water replenishment is full, heating for 16min, and stirring the water for 3s after the motor rotates for 20s at 50 rpm/min; the total washing time is 140min, the motor is rotated for 20 s/3 s at 50rpm/min, the washing action is carried out, and the variable speed washing is added every 5min in the washing process for 8 times;
step six: and (3) entering variable-speed washing, controlling the rotating speed of the motor to be 45prm, continuously controlling the motor to be 3s, regulating the load, increasing the rotating speed of the motor to 93rpm after the condition that the rotating speed is met, reading the eccentric OOB value of the washing machine by a computer board, and increasing the rotating speed of the motor to 150rpm again after the condition that the set eccentric OOB value is less than 140 is met, so that foam is rapidly beaten out, soaking the foam into the load, recovering the motor to 50rpm/min after 1min, rotating for 8 s/stopping for 8s, and washing in the positive and negative directions for two times.
Step seven: after the washing time is finished, dewatering is carried out, the water is drained by a drainage pump for 1min, the main dewatering is carried out for 5min, and the maximum rotation speed of the motor is 600;
step eight: entering a rinsing action, and executing different rinsing programs according to different water supplementing times;
(8.1) if the water supplementing times are less than or equal to 5 times, the rinsing time is 3min, the motor is rotated for 12 s/stop for 10s at 50rpm/min, the rinsing water is fed for 2380HZ, the water level sensor monitors the water level value, and if the water level is lower than 2405HZ, water supplementing is carried out until the set water level value of 2370HZ is reached;
(8.2) if the water supplementing times are 6-13 times, the rinsing time is 3min, the motor is rotated for 12 s/stop for 10s at 50rpm/min, the rinsing water is 2380HZ, the water level sensor monitors the water level value, and if the water level is lower than 2405HZ, water supplementing is carried out until the set water level value 2370HZ is reached;
(8.3) if the water supplementing times are more than 13 times, the rinsing time is 6min, the motor is rotated for 12 s/stop for 10s at 50rpm/min, the rinsing water is 2380HZ, the water level sensor monitors the water level value, and if the water level is lower than 2355HZ, water supplementing is carried out until the set water level value 2340HZ is reached;
step nine: dewatering and draining for 1min;
step ten: the computer board reads the eccentric OOB value of the washing machine before the main clutch, and judges whether the set rotating speed condition is met;
(10.1) the driving plate reads out the weight LD of clothes < 2.2kg, at this time, the preset eccentric OOB value is 10, 30,45,50,80, when the number of times of main detachment can reach the preset eccentric OOB value 10 or 30 or 45 or 50 in the trial 38, the motor rotation speed is 1420, when the number of times of main detachment can reach the preset eccentric OOB value 80 in the trial 38, the motor is 1300rpm/min;
(10.2) the driving plate reads out the weight of clothes 2.2kg or less LD < 7.5kg, at this time, the preset eccentric OOB value is 10, 30,35,50,80, when the number of times of main detachment can reach the preset eccentric OOB value of 10 or 30 or 35 or 50 in 38 times of trial, the motor rotation speed is 1420, when the number of times of main detachment can reach the preset eccentric OOB value of 80 in 38 times of trial, the motor uses 1300rpm/min;
(10.3) the driving plate reads out the weight of clothes 7.5kg or less LD < 12kg, at this time, the preset eccentric OOB value is 10, 25,35,50,80, when the number of times of main detachment reaches the preset eccentric OOB value of 10 or 25 or 35 or 50 within 38 times of trial, the motor rotation speed is 1420, when the number of times of main detachment reaches the preset eccentric OOB value of 80 within 38 times of trial, the motor is 1300rpm/min;
(10.4) the driving plate reads out the weight LD of clothes not less than 12kg, at this time, the preset eccentric OOB value is 10, 30,40,50,80, when the number of times of main detachment can reach the preset eccentric OOB value of 10 or 30 or 40 in the trial 38, the motor rotation speed is 1420, when the number of times of main detachment can reach the preset eccentric OOB value of 50 or 80 in the trial 38, the motor is 1300rpm/min;
step eleven: when the number of attempts is greater than 38, the preset eccentric OOB value is still not met, and the UB alarms;
step twelve: judging whether the water level is higher than the defoaming water level 2470HZ when the set rotating speed condition is met in the step ten;
step thirteen: when the water level is higher than the defoaming water level 2470HZ, defoaming action is carried out, and if the water level is lower than the defoaming water level 2470HZ, final threshing is carried out, and the motor rotates at the highest speed 1400;
step fourteen: the clothes are shaken off for 1min, the motor is rotated for 8 s/stopped for 8s at 35 rpm/min;
fifteen steps: ending the whole control flow.
The control method for improving the cleaning ratio of the washing machine comprises the following steps:
one is to provide a heater for generating steam heating and a heating cavity of the outer barrel bottom matched with the heater. The heating cavity is designed to be concave downwards, so that the heater is downwards safe as much as possible, the safety of the heater in the variable-speed washing process is guaranteed, and dry burning is avoided.
Secondly, the variable-speed washing action can (1) accurately grade the clothes load; (2) accurately controlling the water inflow of the water inlet valve; (3) precise control of heater time.
The realization of variable speed washing is important, the rotating speed of the motor is controlled to be 45prm, the load is adjusted, the set eccentric amount is satisfied below 140, and the rotating speed of the motor is increased to 150rpm again, so that the foam is rapidly beaten out.
The control method for improving the washing ratio of the washing machine is used for intelligently controlling clothes in all the sections with large, medium and small weights, and in the washing process, through the control of water consumption, the control of heating time and the control design of different rotating speeds of the drum, the control method achieves higher washing ratio under the condition of minimum water consumption and energy consumption, fully foams and fills the whole washing drum with steam and detergent through different washing rotating speeds, penetrates into the fiber fabric of the washing object, quickly breaks up stains, and enables dirt of the washing object to be fully broken down through the rotary stirring of the washing drum, and the effects of sterilizing, acarid removing and stain removing of the clothes in all the sections with the weight are met.
The foregoing is merely a preferred embodiment of the invention, and it should be noted that modifications could be made by those skilled in the art without departing from the principles of the invention, which modifications would also be considered to be within the scope of the invention.
Claims (7)
1. A control method for improving the washing ratio of a washing machine is characterized in that: the method comprises the following steps:
step one: starting a program;
step two: after the user selects to enter a variable washing mode through a key, the mode is effective;
step three: the motor rotates, the intelligent judgment of the load capacity, the pre-washing valve is activated, and after 15s of water inflow of the pre-washing valve, the main washing valve is subjected to water inflow at one time to 2400HZ;
step four: after water is fed, the clothes are soaked for 19min, meanwhile, the water supplementing action is executed, the motor executes 35rpm/min and rotates for 8 s/stop for 8s, so that the laundry detergent water and the clothes are fully soaked, meanwhile, the water absorbed by the clothes is fed into the outer barrel again through the water supplementing water level, the water level value is monitored by the water level sensor, and if the water level is lower than 2465HZ, water supplementing is carried out until the set water level value 2455HZ is reached;
step five: executing different washing programs according to different water supplementing times through different water supplementing times;
step six: entering variable-speed washing, controlling the rotating speed of a motor to be 45prm, continuously controlling the rotating speed to be 3s, adjusting the load, and reading an eccentric OOB value of the washing machine by a computer board after the rotating speed of the motor is increased to 93rpm, wherein the rotating speed of the motor is increased to 150rpm again when the rotating speed of the motor is lower than the set eccentric OOB value of 140, so that foam is quickly beaten out, the motor is restored to 50rpm/min after the foam is fully soaked for 1min, the motor is rotated for 8 s/stop for 8s, and washing is performed in the positive and negative directions twice;
step seven: after the washing time is finished, dewatering is carried out, the water is drained by a drainage pump for 1min, the main dewatering is carried out for 5min, and the maximum rotation speed of the motor is 600;
step eight: entering a rinsing action, and adjusting the corresponding rinsing water level and rinsing time according to different loads;
step nine: dewatering and draining for 1min;
step ten: the computer board reads the eccentric OOB value of the washing machine before the main clutch, and judges whether the set rotating speed condition is met;
step eleven: when the number of attempts is greater than 38, the preset eccentric OOB value is still not met, and the UB alarms;
step twelve: judging whether the water level is higher than the defoaming water level 2470HZ when the set rotating speed condition is met in the step ten;
step thirteen: when the water level is higher than the defoaming water level 2470HZ, defoaming action is carried out, and if the water level is lower than the defoaming water level 2470HZ, final threshing is carried out, and the motor rotates at the highest speed 1400;
step fourteen: the clothes are shaken off for 1min, the motor is rotated for 8 s/stopped for 8s at 35 rpm/min;
fifteen steps: ending the whole control flow.
2. The control method for improving a washing ratio of a washing machine as claimed in claim 1, wherein: the fifth step is as follows:
(5.1) if the number of times of water supplementing is less than or equal to 5, judging that the water supplementing is carried out at 1/4 load, heating for 1min, and stirring by using a motor at 50rpm/min for 20 s/3 s; the total washing time is 98min, the motor is rotated for 20 s/3 s at 50rpm/min, the washing action is carried out, and the variable speed washing is added every 5min in the washing process for 8 times;
(5.2) if the number of times of water supplementing is 6-13, judging that the water supplementing is half-load, heating for 8min, and stirring by using a motor at 50rpm/min for 20 s/3 s; the total washing time is 102min, the motor is rotated for 20 s/3 s at 50rpm/min, the washing action is carried out, and the variable speed washing is added every 5min in the washing process for 8 times;
(5.3) if the number of times of water replenishment is more than 13, judging that the water replenishment is full, heating for 16min, and stirring the water for 3s after the motor rotates for 20s at 50 rpm/min; the total washing time is 140min, the motor rotates for 20 s/stop for 3s at 50rpm/min, the washing action is carried out, and the variable speed washing is added every 5min in the washing process for 8 times.
3. The control method for improving a washing ratio of a washing machine as claimed in claim 2, wherein: the fifth step is as follows: the step eight is specifically as follows:
(8.1) if the water supplementing times are less than or equal to 5 times, the rinsing time is 3min, the motor is rotated for 12 s/stop for 10s at 50rpm/min, the rinsing water is fed for 2380HZ, the water level sensor monitors the water level value, and if the water level is lower than 2405HZ, water supplementing is carried out until the set water level value of 2370HZ is reached;
(8.2) if the water supplementing times are 6-13 times, the rinsing time is 3min, the motor is rotated for 12 s/stop for 10s at 50rpm/min, the rinsing water is 2380HZ, the water level sensor monitors the water level value, and if the water level is lower than 2405HZ, water supplementing is carried out until the set water level value 2370HZ is reached;
(8.3) if the number of times of water replenishment is more than 13, the rinsing time is 6min, the motor is rotated for 12 s/stop for 10s at 50rpm/min, the rinsing water is 2380HZ, the water level sensor monitors the water level value, and if the water level is lower than 2355HZ, water replenishment is carried out until the set water level value 2340HZ is reached.
4. A control method for improving a washing ratio of a washing machine as claimed in claim 3, wherein: the fifth step is as follows: the method comprises the following steps:
(10.1) the driving plate reads out the weight LD of clothes < 2.2kg, at this time, the preset eccentric OOB value is 10, 30,45,50,80, when the number of times of main detachment can reach the preset eccentric OOB value 10 or 30 or 45 or 50 in the trial 38, the motor rotation speed is 1420, when the number of times of main detachment can reach the preset eccentric OOB value 80 in the trial 38, the motor is 1300rpm/min;
(10.2) the driving plate reads out the weight of clothes 2.2kg or less LD < 7.5kg, at this time, the preset eccentric OOB value is 10, 30,35,50,80, when the number of times of main detachment can reach the preset eccentric OOB value of 10 or 30 or 35 or 50 in 38 times of trial, the motor rotation speed is 1420, when the number of times of main detachment can reach the preset eccentric OOB value of 80 in 38 times of trial, the motor uses 1300rpm/min;
(10.3) the driving plate reads out the weight of clothes 7.5kg or less LD < 12kg, at this time, the preset eccentric OOB value is 10, 25,35,50,80, when the number of times of main detachment reaches the preset eccentric OOB value of 10 or 25 or 35 or 50 within 38 times of trial, the motor rotation speed is 1420, when the number of times of main detachment reaches the preset eccentric OOB value of 80 within 38 times of trial, the motor is 1300rpm/min;
(10.4) the driving plate reads out the weight LD of clothes not less than 12kg, at this time, the preset eccentric OOB value is 10, 30,40,50,80, when the number of times of main detachment can reach the preset eccentric OOB value of 10 or 30 or 40 within 38 times of attempts, the motor rotation speed is 1420, when the number of times of main detachment can reach the preset eccentric OOB value of 50 or 80 within 38 times of attempts, the motor is 1300rpm/min.
5. A washing machine, characterized in that: the washing machine comprises a washing machine outer barrel (1) and a washing machine inner barrel (2) arranged in the washing machine outer barrel (1), wherein the washing machine outer barrel (1) comprises a barrel cover (10) and a barrel bottom (11) arranged together with the barrel cover (10), a heating cavity (110) is formed in the bottom of the barrel bottom (11) in a concave mode, and a heater (3) and a temperature sensor (4) are arranged in the heating cavity (110).
6. The washing machine as claimed in claim 5, wherein: the water heater is characterized in that a pipeline (5) is connected to the lower portion of the barrel cover (10), an air duct (6) is connected to the pipeline (5), and a water temperature sensor (7) is connected to the other end of the air duct (6).
7. The washing machine as claimed in claim 6, wherein: the outer side of the outer barrel (1) is provided with a water level sensor.
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