CN116043486A - Control method of cleaning equipment and cleaning equipment - Google Patents

Abstract

The invention discloses a control method of cleaning equipment and the cleaning equipment. The control method comprises a first drying stage and a second drying stage which are sequentially carried out in time sequence, wherein the control device is intermittently opened in the first drying stage, and the control device is opened or closed in the second drying stage according to the relative humidity of the washing container. According to the control method of the cleaning equipment, the humidity and the temperature of the washing container can be accurately regulated, so that the drying efficiency is kept in a balanced state between the temperature and the humidity, the drying effect of the cleaning equipment on the articles to be dried is improved, the articles to be dried are prevented from being damaged, further, the full-automatic intelligent control of the clothes drying stopping is realized, and the user experience is improved.

Description

Control method of cleaning equipment and cleaning equipment

Technical Field

The invention relates to the technical field of cleaning equipment, in particular to a control method of cleaning equipment and the cleaning equipment.

Background

Currently, many washing machines have a drying mode, which is generally classified into a timed drying and an automatic drying. The timing drying is to dry the clothes according to the set time, and the drying degree of the clothes is not judged. Automatic drying is generally provided with a temperature sensor in a drying circulation air duct of the washing machine, and the degree of drying of clothes is judged by means of temperature change of the temperature sensor in the drying process.

However, when the temperature sensor is used for judging the drying condition of the clothes, the temperature detected by the temperature sensor is influenced by a plurality of factors such as an air duct structure of the washing machine, the air quantity of the fan, the ambient temperature and the like, so that the drying degree of the clothes cannot be accurately judged, the clothes cannot be effectively ensured to be dried, or the clothes are excessively dried, damage is caused to the clothes, the service life of the clothes is shortened, and electric energy waste is also caused.

Disclosure of Invention

The present invention aims to solve at least one of the technical problems existing in the prior art. Therefore, an object of the present invention is to provide a control method of a cleaning apparatus, which can accurately adjust the humidity and the temperature of a washing container, keep the drying efficiency in a balance state between the temperature and the humidity, improve the drying effect of the cleaning apparatus on the objects to be dried, and avoid damage to the objects to be dried.

Another object of the present invention is to provide a cleaning apparatus employing the control method of the cleaning apparatus.

According to the control method of the cleaning equipment in the embodiment of the first aspect of the invention, the cleaning equipment comprises a washing container, a fluid inlet assembly, a fluid extraction assembly and an air inlet system, wherein the fluid extraction assembly is used for extracting fluid in the washing container so as to enable the inside of the washing container to form negative pressure, the fluid outside the washing container is suitable for entering the inside of the washing container through the fluid inlet assembly under the action of the negative pressure, and the air inlet system is provided with a control device for controlling the on-off of the inside of the washing container and the outside atmosphere; the control method comprises a first drying stage and a second drying stage which are sequentially carried out in time sequence, wherein the control device is intermittently opened in the first drying stage, and the control device is controlled to be opened or closed in the second drying stage according to the relative humidity of the washing container.

According to the control method of the cleaning equipment, the cleaning equipment is divided into two stages in the drying process, and different opening and closing schemes are adopted for the control device of the air inlet system in the first drying stage and the second drying stage. Therefore, the humidity and the temperature in the washing container can be accurately regulated, the drying efficiency is kept in a balanced state between the temperature and the humidity, the drying effect of the cleaning equipment on the objects to be dried is improved, the objects to be dried can be prevented from being damaged, and further the full-automatic intelligent control that clothes are immediately stopped can be realized, and the user experience is improved.

According to some embodiments of the invention, the control device is turned on for a second period of time every first period of time during the first drying phase.

According to some embodiments of the invention, the first time period is longer than the second time period.

According to some embodiments of the invention, the cleaning apparatus further comprises a heating element disposed between the inlet and the outlet of the fluid intake assembly; in the first drying stage, the heating element is started for heating the air flowing through the fluid inlet assembly.

According to some embodiments of the invention, the cleaning apparatus further comprises a circuit board, an exhaust pipe and a humidity sensor, wherein the circuit board is arranged on the washing container, the exhaust pipe is communicated with the outlet of the fluid extraction assembly, the humidity sensor is arranged at the outlet of the exhaust pipe and is in communication connection with the circuit board, and the humidity sensor is used for detecting the relative humidity in the washing container in real time; in the second drying stage, when the relative humidity in the washing container detected by the humidity sensor is greater than a humidity threshold value, opening the control device; and when the relative humidity in the washing container detected by the humidity sensor is smaller than the humidity threshold value, the control device is closed, and the fluid extraction assembly operates in a low gear.

According to some embodiments of the invention, the air intake system and the heating element are turned off during the second drying phase when the relative humidity in the washing container detected by the humidity sensor is maintained at the first humidity interval for a third period of time.

According to some embodiments of the invention, after the relative humidity in the washing container detected by the humidity sensor is maintained at the first humidity interval for the third period of time, the cleaning apparatus is turned off when the humidity threshold of the humidity sensor is maintained at a second humidity interval for a fourth period of time, wherein the second humidity interval is smaller than the first humidity interval.

According to some embodiments of the invention, the humidity threshold is 60%, the third duration is 10min to 30min, and the first humidity interval is [30%,40% ].

According to some embodiments of the invention, the temperature within the washing vessel is maintained between 55 ℃ and 65 ℃ during the first drying stage and the second drying stage.

A cleaning device according to an embodiment of the second aspect of the present invention includes a control method of the cleaning device according to the embodiment of the first aspect of the present invention described above.

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 foregoing and/or additional aspects and advantages of the invention will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

FIG. 1 is a schematic view of a cleaning apparatus according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of a cleaning apparatus according to an embodiment of the present invention;

FIG. 3 is a partial cross-sectional view of a cleaning apparatus according to an embodiment of the invention;

FIG. 4 is a schematic view of the internal circulation of a cleaning apparatus according to an embodiment of the present invention;

FIG. 5 is a schematic view of an external circulation of a cleaning apparatus according to an embodiment of the present invention;

FIG. 6 is another angular partial cross-sectional view of a cleaning apparatus according to an embodiment of the present invention;

FIG. 7 is a partial exploded view of a cleaning device according to an embodiment of the present invention;

fig. 8 is a schematic view of a pulsator assembly of a cleaning device in accordance with an embodiment of the present invention.

Reference numerals:

100. a cleaning device;

1. a washing container; 11. an accommodating space; 12. a cover body; 13. a water inlet valve; 14. a cleaning liquid box; 15. a peristaltic pump; 2. a fluid intake assembly; 21. a first fluid inlet; 22. a first fluid outlet; 23. a pulsator assembly; 231. a mounting bracket; 2311. a fluid conduit; 232. a pulsator body; 2321. a pulsator; 2322. a blade; 3. a fluid extraction assembly; 31. a second fluid inlet; 32. a second fluid outlet; 4. an air intake system; 41. an air inlet pipe; 42: a control device; 5. a heating member; 6. a circuit board; 7. an exhaust pipe; 71. a muffler device; 8. a humidity sensor.

Detailed Description

A control method of the cleaning apparatus 100 according to an embodiment of the first aspect of the present invention is described below with reference to fig. 1 to 8.

As shown in fig. 1 to 8, according to a control method of a cleaning apparatus 100 according to an embodiment of the first aspect of the present invention, the cleaning apparatus 100 includes a washing container 1, a fluid intake assembly 2, a fluid extraction assembly 3, and an air intake system 4.

Specifically, the fluid extraction assembly 3 is used for extracting fluid in the washing container 1 so as to form negative pressure in the washing container 1, and fluid outside the washing container 1 is suitable for entering the washing container 1 through the fluid entering assembly 2 under the action of the negative pressure. The air intake system 4 is provided with a control device 41 for controlling the on/off of the inside of the washing container 1 to the outside atmosphere.

For example, in the example of fig. 2 to 5, the washing container 1 defines a receiving space 11 therein, and the receiving space 11 may be used to receive a washing liquid therein, or laundry to be dried is placed in the receiving space 11, thereby facilitating normal use of the cleaning apparatus 100. The interior of the washing vessel 1, the fluid intake assembly 2 and the fluid extraction assembly 3 constitute an internal circuit. The fluid inlet assembly 2 is rotatably arranged on the washing container 1, and the fluid drives the fluid inlet assembly 2 to rotate during the process of flowing through the fluid inlet assembly 2. The fluid inlet assembly 2 has a first fluid inlet 21 and a first fluid outlet 22, the first fluid inlet 21 being connected to an external water source on-off, the first fluid outlet 22 being in communication with the receiving space 11 of the washing container 1. The first fluid inlet 21 may be connected to an external water source and the first fluid outlet 22 communicates with the bottom of the washing container 1. When it is desired to inject fresh water into the receiving space 11, an external water source may flow into the receiving space 11 through the first fluid inlet 21 and the first fluid outlet 22 for use by the cleaning apparatus 100. When it is not necessary to inject fresh water into the accommodating space 11, the communication between the first fluid inlet 21 and the external water source is blocked, so that the cleaning apparatus 100 can be used normally.

Referring to fig. 4-6, the fluid extraction assembly 3 is disposed on the washing container 1, the fluid outside the accommodating space 11 is adapted to enter the accommodating space 11 through the first fluid inlet 21 and the first fluid outlet 22 under the action of negative pressure, and the fluid outside the accommodating space 11 has a reaction force on the fluid entering assembly 2 to drive the fluid entering assembly 2 to rotate during the process of entering the accommodating space 11 from the first fluid outlet 22. The fluid extraction assembly 3 has a second fluid inlet 31 and a second fluid outlet 32, the second fluid inlet 31 being in communication with the receiving space 11, the second fluid outlet 32 being in communication with the first fluid inlet 21, the fluid extraction assembly 3, the fluid inlet assembly 2 and the receiving space 11 forming an internal circulation.

As shown in fig. 4-6, the fluid extraction assembly 3 is located on the right side of the accommodating space 11, the fluid inlet assembly 2 is located below the accommodating space 11, and an air passage is arranged above the washing container 1 and is respectively communicated with the accommodating space 11 and the first fluid inlet 21. Of course, the fluid inlet assembly 2 may be provided at other locations on the washing container 1 to facilitate the flow of fluid through the fluid inlet assembly 2 and into the washing container 1, and thus the location of the fluid inlet assembly 2 is not particularly limited by the present invention.

When the fluid extraction assembly 3 works, the fluid extraction assembly 3 extracts the fluid in the accommodating space 11, and the fluid in the accommodating space 11 can flow to the fluid extraction assembly 3 and flow back into the accommodating space 11 after sequentially flowing through the second fluid inlet 31, the second fluid outlet 32, the first fluid inlet 21 and the first fluid outlet 22, so that the fluid in the accommodating space 11 completes an internal circulation (for example, the direction indicated by the arrow a in fig. 4). Therefore, the fluid in the accommodating space 11 can be recycled through the internal circulation, the loss of the heat of the fluid can be reduced, the utilization rate of the fluid in the accommodating space 11 is improved, and the cleaning liquid in the accommodating space 11 has a certain temperature, so that the warm water washing effect can be achieved, the dissolution of the detergent is facilitated, and the cleaning effect of the cleaning equipment 100 is improved. In addition, when the fluid flows through the fluid inlet assembly 2, the reaction force of the fluid to the fluid inlet assembly 2 can drive the fluid inlet assembly 2 to rotate, so that shaking in the use process of the cleaning device 100 can be reduced, and abrasion to the objects to be cleaned can be reduced.

Referring to fig. 5, the air intake system 4 includes an air intake pipe 41, one end of the air intake pipe 41 is communicated with the first fluid inlet 21, the other end of the air intake pipe 41 is communicated with the external atmosphere, and a control device 42 is disposed on the air intake pipe 41, and the control device 42 is used for controlling the on-off of the external atmosphere and the accommodating space 11. For example, the air inlet pipe 41 is connected to the fluid inlet assembly 2, and when the control device 41 is opened, the external atmosphere can enter the accommodation space 11 via the first fluid inlet 21 and the first fluid outlet 22. So set up, when cleaning device 100 carries out the in-process of stoving task, long-time stoving leads to the inside temperature of accommodating space 11 higher, can get into accommodating space 11 in through intake pipe 41 with the outside dry atmosphere through opening controlling means 41 to can reduce accommodating space 11's temperature, reduce long-time high temperature and treat the damage of stoving article, improve cleaning device 100's drying efficiency. The control device 41 may be configured as a gas valve, but is not limited thereto.

The control method includes a first drying stage in which the control device 41 is intermittently opened and a second drying stage in which the control device 41 is controlled to be opened or closed according to the relative humidity of the washing container 1, which are sequentially performed in time sequence.

Specifically, the drying process of the cleaning apparatus 100 sequentially performs the first drying stage and the second drying stage in time series. Wherein the control device 41 is intermittently turned on in the first drying stage, that is, the control device 41 is turned on for a period of time, and then the control device 41 is turned off for a period of time and turned on again, thereby cycling a plurality of times. In the first drying stage, the relative humidity of the accommodating space 11 is higher, the control device 41 is intermittently opened, so that the external dry air can flow into the accommodating space 11 through the control device 41, the first fluid inlet 21 and the first fluid outlet 22, and the moist air in the accommodating space 11 flows into the cleaning device 100 through the air passage above the accommodating space 11, the second fluid inlet 31 and the second fluid outlet 32, so that the moisture in the accommodating space 11 is led out to the atmosphere at intervals, the relative humidity of the accommodating space 11 is reduced, the temperature in the accommodating space 11 is prevented from being reduced, the drying time is prolonged, and the drying efficiency is further improved.

Since the objects to be dried in the accommodating space 11 are dried to a certain extent in the first drying stage, in order to ensure that the drying degree of the objects to be dried in the accommodating space 11 can be accurately determined, the control device 41 of the air inlet system 4 is controlled according to the detection result by monitoring the relative humidity of the accommodating space 11 in real time in the second drying stage. For example, when the relative humidity is small, the control device 41 is turned off so that the humidity and temperature of the accommodating space 11 can be maintained in a stable range; when the relative humidity is high, the humidity in the accommodating space 11 is high, and the control device 41 is opened, so that the humidity in the accommodating space 11 can be led out to the outside atmosphere, and the relative humidity of the accommodating space 11 is reduced. Therefore, through the first drying stage and the second drying stage, the temperature in the accommodating space 11 can be kept, and the relative humidity in the accommodating space 11 can be reduced, so that the drying efficiency can be kept in a balanced state between the temperature and the humidity, the drying efficiency is improved, the damage to the objects to be dried can be avoided, and the service life of the objects to be dried is ensured.

According to the control method of the cleaning apparatus 100 of the embodiment of the present invention, by dividing the drying process of the cleaning apparatus 100 into two stages, and adopting different opening and closing schemes for the control device 41 of the air intake system 4 in the first drying stage and the second drying stage. From this, can adjust humidity and temperature in the washing container 1 accurately, let drying efficiency keep balanced state between temperature and humidity, when improving the drying effect that cleaning equipment 100 treated the stoving thing, can avoid causing the damage to treating the stoving thing, and then can realize the clothes and dry and stop full-automatic intelligent control promptly, improved user experience.

According to some embodiments of the invention, the control device 41 is turned on for a second period of time every first period of time during the first drying phase. So set up, in the first stoving stage, the relative humidity of accommodating space 11 is great, and interval first time opens controlling means 41, can lead to accommodating space 11 and outside atmosphere through air intake system 4, and the moisture in accommodating space 11 can outwards discharge in the second time, effectively reduces the moisture in accommodating space 11, makes temperature and humidity in accommodating space 11 maintain balanced, and then treat the stoving thing.

Wherein the first time period is longer than the second time period. For example, the first duration may be 5 minutes and the second duration may be 1.5 minutes. In the first period, the moisture generated by the temperature rise of the cleaning apparatus 100 is within the acceptable range of the accommodating space 11, that is, the air pressure change in the accommodating space 11 is within the acceptable range of the accommodating space 11, the vaporization heat required in the vaporization process is large, and the heat generating capacity of the heating member 5 is limited, so that a long time is required. The volume of the moisture discharged from the accommodating space 11 in the second period is approximately equal to the volume of the moisture generated by the accommodating space 11 in the first period, so that after the moisture is discharged at intervals, the moisture volume and the air pressure of the accommodating space 11 are in the bearable range of the accommodating space 11, the temperature in the accommodating space 11 can be kept, the relative humidity in the accommodating space 11 can be reduced, and the drying efficiency is improved. The first time length is set to be longer than the second time length, so that the evaporation is ensured to fully meet the requirement, the discharge volume of the moisture is limited, and the balance of the humidity and the temperature of the accommodating space 11 is controlled.

According to some embodiments of the present invention, as shown in fig. 2, the cleaning device 100 further comprises a heating element 5, the heating element 5 being arranged between the inlet and the outlet of the fluid inlet assembly 2. In the first drying phase, the heating element 5 is turned on for heating the air flowing through the fluid inlet assembly 2. For example, in the example of fig. 2, the heating element 5 is arranged between the first fluid inlet 21 and the second fluid outlet 32, i.e. the heating element 5 is located between the fluid extraction assembly 3 and the fluid intake assembly 2 and forms an internal circulation together with the receiving space 11, the fluid extraction assembly 3 and the fluid intake assembly 2. In the first drying stage, the fluid extraction assembly 3 and the heating element 5 are started to enable the air flow to circulate on the internal circulation flow path so as to dry the objects to be dried in the accommodating space 11, wherein the control device 41 is intermittently opened, and when no liquid exists in the accommodating space 11, the air flow in the accommodating space 11 can be circulated under the combined action of the heating element 5 and the internal circulation, so that the objects to be dried in the accommodating space 11 can be dried. That is, the heat generated by the operation of the heating element 5 is used to raise the temperature in the accommodating space 11, so that the fluid attached to the object to be dried can be heated and turned into water vapor far away from the object to be dried, thereby achieving the purpose of drying. In addition, the heated fluid can directly flow into the accommodating space 11 through the first fluid inlet 21, so that the heat loss of the heated fluid can be reduced.

Further, the cleaning apparatus 100 further comprises a circuit board 6, an exhaust pipe 7 and a humidity sensor 8, wherein the circuit board 6 is arranged on the washing container 1, the exhaust pipe 7 is communicated with the outlet of the fluid extraction assembly 3, the humidity sensor 8 is arranged at the outlet of the exhaust pipe 7 and is in communication connection with the circuit board 6, and the humidity sensor 8 is used for detecting the relative humidity in the washing container 1 in real time. As shown in fig. 1 to 5, the washing container 1 further includes a cover 12, the cover 12 is disposed on the open side of the accommodating space 11, the circuit board 6 may be disposed in the cover 12, the exhaust pipe 7 is disposed on a side of the fluid extraction assembly 3 away from the accommodating space 11, one end of the exhaust pipe 7 is communicated with the second fluid outlet 32, and the other end of the exhaust pipe 7 is communicated with the external atmosphere, such that the accommodating space 11 and the external atmosphere form an external circulation (for example, a direction indicated by an arrow B in fig. 5). The humidity sensor 8 provided at the outlet of the exhaust pipe 7 is configured to detect the air flow flowing out of the exhaust pipe 7, and thus the relative humidity of the housing space 11 can be represented by the detected value, since the exhaust pipe 7 is in communication with the housing space 11. In addition, through installing humidity transducer 8 in the exit of blast pipe 7 for there is the runner passageway between accommodation space 11 and blast pipe 7, moist air can be in the runner intensive mixing, thereby can guarantee that humidity transducer 8 detected is close the humidity in accommodation space 11 more, and then can more accurately adjust humidity and temperature in accommodation space 11, in order to realize cleaning equipment 100 clothes and dry and stop the function promptly.

Alternatively, the muffler 71 may be provided in the exhaust pipe 7, and noise generated when the cleaning apparatus 100 is exhausted may be reduced.

In the second drying phase, when the relative humidity inside the washing container 1 detected by the humidity sensor 8 is greater than the humidity threshold, the control means 41 are turned on;

when the relative humidity in the washing container 1 detected by the humidity sensor 8 is less than the humidity threshold, the control means 41 are closed and the fluid extraction assembly 3 operates in a low gear. Alternatively, the humidity threshold may be 60%, but is not limited thereto.

In the second drying stage, the relative humidity in the accommodating space 11 is lower than that in the first drying stage, when the relative humidity of the accommodating space 11 detected by the humidity sensor 8 is greater than the humidity threshold, the humidity sensor 8 transmits a signal to the circuit board 6 to send an opening command to the control device 41 so as to open the air inlet system 4, and part of the moisture in the accommodating space 11 is discharged, so that the humidity and the temperature in the accommodating space 11 are balanced.

When the relative humidity of the accommodating space 11 detected by the humidity sensor 8 is smaller than the humidity threshold, it indicates that the humidity in the accommodating space 11 is smaller, the humidity sensor 8 transmits a signal to the circuit board 6, and sends a closing command to the control device 41, so that the air inlet system 4 is disconnected from the accommodating space 11 and the outer wall atmosphere, and only the internal circulation flow path flows hot fluid, and meanwhile, the fluid extraction assembly 3 operates in a low gear, so that the flow of gas in the accommodating space 11 is reduced, and the loss of moisture in the accommodating space 11 can be reduced, so that the humidity and the temperature in the accommodating space 11 are balanced, the object to be dried can be dried quickly, and damage to the object to be dried is avoided.

According to some embodiments of the present invention, the control device 41 and the heating member 5 are turned off when the relative humidity in the washing container 1 detected by the humidity sensor 8 is maintained at the first humidity interval for the third period of time in the second drying stage. Therefore, the object to be dried in the accommodating space 11 can be judged to be in a state to be dried, at the moment, the control device 41 and the heating piece 5 are closed, the last drying of the object to be dried can be completed by utilizing the residual temperature in the accommodating space 11, the damage of excessive drying on the object to be dried is avoided, the power consumption is reduced, and meanwhile, the temperature is reduced because the external atmosphere enters the accommodating space 11, so that the drying efficiency can be improved.

After the relative humidity in the washing container 1 detected by the humidity sensor 8 is maintained at the first humidity interval for the third period of time, the cleaning apparatus 100 is turned off when the humidity threshold of the humidity sensor 8 is maintained at the second humidity interval for the fourth period of time, wherein the second humidity interval is smaller than the first humidity interval. That is, the to-be-dried object in the accommodating space 11 is in a state of being nearly completely dried, at this time, the cleaning device 100 is turned off, the to-be-dried object is further dried by utilizing the residual temperature in the accommodating space 11, the damage of the to-be-dried object caused by excessive drying is avoided, the power consumption is further reduced, the function that the cleaning device 100 stops immediately after the clothes are dried is realized, and the user experience is improved.

The third duration is 10 min-30 min, and the drying degree of the objects to be dried in the accommodating space 11 can be reflected on the inner side surface of a certain time, so that misjudgment caused by short duration is avoided. The first humidity interval is [30%,40% ]. When the relative humidity of the accommodating space 11 is greater than 40%, the humidity in the accommodating space 11 is high, and the residual temperature cannot completely dry the objects to be dried; when the relative humidity of the accommodating space 11 is less than 30%, the residual temperature will excessively dry the object to be dried. Therefore, when the relative humidity of the accommodating space 11 is between 30% and 40%, the condition that the object to be dried is close to the full dry state is indicated, the object to be dried can be completely dried by utilizing the residual temperature, and then the closing of the cleaning equipment 100 can be intelligently controlled, the function that the clothes of the cleaning equipment 100 are stopped immediately after being dried is realized, and the user experience is improved.

According to some embodiments of the invention, the temperature inside the washing vessel 1 is maintained between 55 ℃ and 65 ℃ during the first drying stage and the second drying stage. That is, the control device 41, the heating member 5 and the circuit board 6 cooperate to maintain the temperature in the accommodating space 11 between 55 deg.c and 65 deg.c while the cleaning apparatus 100 is performing the drying task. When the temperature is less than 55 ℃, the temperature is lower, the drying effect is poorer, and the drying time can be prolonged; when the temperature is higher than 65 ℃, the objects to be dried in the accommodating space 11 can be scalded by the higher temperature, so that the service life of clothes is reduced. Therefore, the temperature in the accommodating space 11 is maintained between 55 ℃ and 65 ℃, at this time, the humidity and the temperature in the accommodating space 11 are in an equilibrium state, and the temperature resistance of the manufacturing materials of the articles to be dried reaches an equilibrium, so that the articles to be dried are prevented from being damaged due to overhigh temperature while the clothes can be dried rapidly.

According to some embodiments of the present invention, referring to fig. 3, the cleaning apparatus 100 further comprises a water inlet valve 13, a cleaning solution cartridge 14 and a peristaltic pump 15, wherein the water inlet valve 13, the cleaning solution cartridge 14 and the peristaltic pump 15 are all arranged on the washing container 1, the water inlet valve 13 and the peristaltic pump 15 are all in communication with the circuit board 6, the water inlet valve 13 is connected between the first fluid inlet 21 and an external water source, and the peristaltic pump 15 is connected between the first fluid inlet 21 and the cleaning solution cartridge 14.

For example, in the example of fig. 3, the left end of the fill valve 13 is connected to the first fluid inlet 21, the right end of the fill valve 13 is connected to an external water source such as a faucet, and the peristaltic pump 15 is positioned between the fill valve 13 and the cleaning solution cartridge 14. So configured, the inlet valve 13 can be used to control the on-off of the first fluid inlet 21 to the faucet, thereby facilitating automatic water inlet of the cleaning apparatus 100. In addition, when the cleaning solution is injected into the accommodating space 11, the peristaltic pump 15 can be used for extracting the cleaning solution in the cleaning solution box 14, so that the cleaning solution can be rapidly and automatically added into the accommodating space 11, the manual operation of adding the cleaning solution by a user is reduced, the operation is convenient, and the usability of the cleaning equipment 100 is improved. In addition, the opening and closing of the water inlet valve 13 and the peristaltic pump 15 are controlled by the circuit board 6, so that the automatic control performance of the cleaning device 100 is improved, and the cleaning device 100 is more convenient to use.

After the spin-drying fluid enters the residual liquid on the assembly 2, the circuit board 6 controls the peristaltic pump 15 to open to draw the cleaning fluid from the cleaning fluid cartridge 14. When the extracted cleaning liquid reaches a predetermined threshold amount, the circuit board 6 controls the peristaltic pump 15 to be closed, and the circuit board 6 controls the water inlet valve 13 to be opened so that the first fluid inlet 21 communicates with an external water source, so that the extracted cleaning liquid enters the accommodating space 11 through the first fluid inlet 21 and the first fluid outlet 22 together with the external water source. For example, during the addition of the cleaning fluid, the cleaning fluid may remain in the tubing between peristaltic pump 15 and first fluid inlet 21. So configured, on the one hand, the addition amount of the cleaning liquid can be accurately controlled, and when the cleaning liquid reaches a predetermined threshold amount, the peristaltic pump 15 can be turned off in time by the circuit board 6, thereby improving the accuracy of automatic addition of the cleaning liquid to the cleaning apparatus 100. On the other hand, when the peristaltic pump 15 is closed, the water inlet valve 13 is opened, and in the process that the external water source flows to the first fluid inlet 21 through the pipeline, the cleaning solution remained in the pipeline can flow to the first fluid inlet 21 along with the external water source, so that the residual amount of the cleaning solution between the first fluid inlet 21 and the peristaltic pump 15 is reduced, and the utilization rate of the cleaning solution is improved. In addition, peristaltic pump 15 is in communication with the tubing between fill valve 13 and the external water source, which reduces the number of tubing on the cleaning device 100, resulting in a more elaborate cleaning device 100.

According to some embodiments of the present invention, in conjunction with fig. 8, fluid intake assembly 2 includes a pulsator assembly 23. The pulsator assembly 23 comprises a mounting bracket 231 and a pulsator body 232, and the pulsator assembly 23 is mounted and fixed to a designated position through the mounting bracket 231, so that the pulsator assembly 23 is convenient to use. The mounting bracket 231 is provided with a fluid pipe 2311, one end of the fluid pipe 2311 is penetrated through the inner wall of the washing container 1, and the other end of the fluid pipe 2311 is connected with the cleaning solution cartridge 14. For example, in the example of fig. 2 to 6, an upper end of the fluid line 2311 may pass through an inner wall of the washing container 1 and be pivotably connected to the washing container 1, and a lower end of the fluid line 2311 is connected to the cleaning liquid cartridge 14.

During the washing stage, when pulsator assembly 23 is operated, fluid flowing through cleaning solution tank 14 may flow into washing container 1 via fluid line 2311. In the drying stage, the fluid of the inner circulation flow path and the fluid of the outer circulation flow path can flow into the washing container 1 through the fluid pipe 2311, thereby improving the drying effect. Therefore, the fluid pipe 2311 has a diversion effect on the hot fluid in the first drying stage and the second drying stage, which is beneficial for the hot fluid to enter the washing container 1, and meanwhile, the reaction force of the hot fluid to the pulsator assembly 23 drives the pulsator assembly 23 to rotate, so as to drive the objects to be dried to overturn in the accommodating space 11, thereby increasing the drying efficiency.

As shown in fig. 2 to 6, the pulsator body 232 is provided in the washing container 1, the first fluid outlet 22 is formed at the pulsator body 232, the pulsator body 232 is rotatably provided at the one end of the fluid pipe 2311, and a flow passage (not shown) is defined in the pulsator body 232, through which the fluid pipe 2311 communicates with the washing container 1. In the first drying stage or the second drying stage, the hot fluid flows into the pulsator body 232 from the one end of the fluid pipe 2311, flows through the pulsator body 232 in the extending direction of the flow path, and flows out into the washing container 1 from the first fluid outlet 22. In the process that the hot fluid flows out of the pulsator body 232, the reaction force of the hot fluid to the pulsator body 232 can drive the pulsator body 232 to rotate, so that the pulsator assembly 23 can overturn and dry objects to be dried. In addition, through the rotatable one end that establishes at fluid pipe 2311 of impeller body 232, impeller body 232 can rotate along the central axis of fluid pipe 2311 above-mentioned one end, is favorable to the long-time rotation of impeller body 232 to be favorable to the normal use of impeller assembly 23, and also be favorable to the cooperation of impeller body 232 and installing support 231, the connection is also comparatively stable.

Optionally, the pulsator body 232 is connected to the mounting bracket 231 through a bearing (not shown). So set up, in being favorable to the assembly and the connection of impeller body 232 and installing support 231, the bearing also has sealed effect, avoids the fluid in the impeller body 232 to leak through the clearance between impeller body 232 and the fluid conduit 2311, has improved impeller assembly 23's sealing performance.

Further, referring to fig. 8, the pulsator body 232 includes a pulsator 2321 and a blade 2322 provided on the pulsator 2321. In the process that the blades 2322 rotate along with the impeller 2321, the blades 2322 drive the hot fluid in the washing container 1 to rotate so as to accelerate the circulation speed of hot air flow in the washing container 1, so that the objects to be dried are heated uniformly, the drying efficiency is improved, and the drying time is shortened.

As shown in fig. 1, a cleaning apparatus 100 according to an embodiment of the second aspect of the present invention includes a control method of the cleaning apparatus 100 according to the above-described first aspect of the present invention.

According to the cleaning device 100 provided by the embodiment of the invention, by adopting the control method of the cleaning device 100, the drying efficiency of the cleaning device 100 can be improved, the effect that the cleaning device 100 stops when clothes are dried is achieved, the user experience is improved, and the market competitiveness of the cleaning device 100 is further improved.

Other constructions and operations of the cleaning apparatus 100 according to embodiments of the present invention are known to those of ordinary skill in the art and will not be described in detail herein.

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

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

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," 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 invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. The control method of the cleaning equipment is characterized by comprising a washing container, a fluid inlet assembly, a fluid extraction assembly and an air inlet system, wherein the fluid extraction assembly is used for extracting fluid in the washing container so as to enable the inside of the washing container to form negative pressure, the fluid outside the washing container is suitable for entering the inside of the washing container through the fluid inlet assembly under the action of the negative pressure, and the air inlet system is provided with a control device for controlling the on-off of the inside of the washing container and the outside atmosphere;

the control method comprises a first drying stage and a second drying stage which are sequentially carried out in time sequence, wherein the control device is intermittently opened in the first drying stage, and the control device is controlled to be opened or closed in the second drying stage according to the relative humidity of the washing container.

2. The control method of a cleaning apparatus according to claim 1, wherein the control device is turned on for a second period of time every first period of time in the first drying stage.

3. A control method of a cleaning apparatus according to claim 2, wherein the first time period is longer than the second time period.

4. The method of claim 1, further comprising a heating element disposed between the inlet and the outlet of the fluid inlet assembly;

in the first drying stage, the heating element is started for heating the air flowing through the fluid inlet assembly.

5. The method of claim 4, further comprising a circuit board, an exhaust pipe and a humidity sensor, wherein the circuit board is arranged on the washing container, the exhaust pipe is communicated with the outlet of the fluid extraction assembly, the humidity sensor is arranged at the outlet of the exhaust pipe and is in communication connection with the circuit board, and the humidity sensor is used for detecting the relative humidity in the washing container in real time;

in the second drying phase of the process described above,

opening the control device when the relative humidity in the washing container detected by the humidity sensor is greater than a humidity threshold;

and when the relative humidity in the washing container detected by the humidity sensor is smaller than the humidity threshold value, the control device is closed, and the fluid extraction assembly operates in a low gear.

6. The control method of a cleaning apparatus according to claim 5, wherein the control device and the heating member are turned off when the relative humidity in the washing container detected by the humidity sensor is maintained at a first humidity interval for a third period of time in the second drying stage.

7. The method of controlling a cleaning apparatus according to claim 6, wherein after the relative humidity in the washing container detected by the humidity sensor is maintained at the first humidity interval for the third period of time,

and closing the cleaning device when the humidity threshold of the humidity sensor is maintained at a second humidity interval for a fourth duration, wherein the second humidity interval is smaller than the first humidity interval.

8. The method according to claim 7, wherein the humidity threshold is 60%, the third period is 10min to 30min, and the first humidity interval is [30%,40% ].

9. The control method of a cleaning apparatus according to any one of claims 1 to 8, wherein the temperature in the washing container is maintained between 55 ℃ and 65 ℃ in the first drying stage and the second drying stage.

10. A cleaning apparatus characterized by employing the control method of the cleaning apparatus according to any one of claims 1 to 9.

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