CN112359550A - Laundry treatment apparatus, water inlet control method, and computer-readable storage medium - Google Patents

Abstract

The invention provides a clothes treatment device, a water inlet control method and a computer readable storage medium. A laundry treating apparatus comprising: an inner barrel; the water inlet device is provided with a first outlet and a second outlet; the spray head body is provided with a cavity communicated with the first outlet, the cavity is communicated with the inner barrel, and the spray head body is communicated with the second outlet so that water can flow into the inner barrel from the spray head body through the second outlet; the bubble generator is arranged between the second outlet and the spray head body; and the controller is connected with the water inlet device and the bubble generator and is used for controlling the working states of the bubble generator and the water inlet device. The clothes treatment device provided by the invention can shorten the water inlet waiting time caused by abnormal water pressure due to the air inlet bubble water, avoid the influence on the working time of the whole washing stage or rinsing stage due to overtime water inlet, and ensure that the water inlet is finished in a certain time and the water inlet amount reaches the preset water level of the washing stage or rinsing stage.

Description

Laundry treatment apparatus, water inlet control method, and computer-readable storage medium

Technical Field

The present invention relates to the field of laundry treatment technologies, and in particular, to a laundry treatment apparatus, a water inlet control method for a laundry treatment apparatus, and a computer-readable storage medium.

Background

The current washing machine has part of water to enter the inner barrel through the bubble generator when water enters, and the water enters the inner barrel for a long time due to abnormal water pressure when the water enters the washing machine because the pressure of the water changes through the bubble generator, so that the use experience of a user is influenced.

Disclosure of Invention

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

To this end, a first aspect of the present invention is to propose a laundry treating apparatus.

A second aspect of the present invention is to provide a water inlet control method for a laundry treating apparatus.

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

In view of this, according to one aspect of the present invention, there is provided a laundry treating apparatus including: an inner barrel; the water inlet device is provided with a first outlet and a second outlet; the spray head body is provided with a cavity communicated with the first outlet, the cavity is communicated with the inner barrel, and the spray head body is communicated with the second outlet so that water can flow into the inner barrel from the spray head body through the second outlet; the bubble generator is arranged between the second outlet and the spray head body and is used for generating bubbles; and the controller is connected with the water inlet device and the bubble generator and is used for controlling the working states of the bubble generator and the water inlet device.

The invention provides a clothes treatment device, which comprises an inner barrel, a water inlet device, a spray head body, a bubble generator and a controller, wherein the water inlet device is provided with a first outlet and a second outlet, a cavity of the spray head body is communicated with the first outlet, so that water at the first outlet can enter the inner barrel through the cavity, the purpose of introducing conventional water into the inner barrel is realized, the spray head body is communicated with the second outlet, and the bubble generator is arranged between the second outlet and the spray head body, so that bubble water generated by the water at the second outlet after passing through the bubble generator enters the inner barrel from the spray head body, the purpose of introducing the bubble water into the inner barrel is realized, and the water in the inner barrel has both the conventional water and the bubble water, thereby being beneficial to improving the washing and rinsing effects of the clothes treatment device, improving the washing and rinsing efficiency and improving the satisfaction degree of users. Through controller and water installations, bubble generator is connected, according to the water level condition in the water installation second export is long and interior bucket during the play water, control bubble generator and water installations's operating condition, can shorten the latency of intaking that causes because the bubble water that admits air makes water pressure unusual, and avoid influencing the operating duration in whole washing stage or rinsing stage because of intaking overtime, guarantee to accomplish into water and the inflow reaches the preset water level in washing stage or rinsing stage in certain time, and then guarantee that washing stage or rinsing stage can be accomplished on time, promote user's use and experience, improve the market competitiveness of product.

Furthermore, the spray head body is provided with a through hole positioned outside the cavity, the second outlet is communicated with the through hole, so that bubble water generated by water at the second outlet after passing through the bubble generator enters the inner barrel through the through hole, and conventional water enters the inner barrel through the cavity from the first outlet, the bubble water and the conventional water enter the inner barrel through different paths, and further the flexible switching of the conventional water entering and the air inlet bubble water can be realized by controlling the working states of the bubble generator and the water inlet device, so that when the water entering is abnormal due to the abnormal water pressure in the air inlet bubble water process, the conventional water is timely switched to ensure the normal water entering, the water entering is favorably ensured to be completed within a certain time, the water inlet amount reaches the preset water level in the washing or rinsing stage, and the washing or rinsing stage can be ensured to be completed on time.

In addition, according to the laundry processing apparatus in the above technical solution provided by the present invention, the laundry processing apparatus may further have the following additional technical features:

in the above technical scheme, preferably, the chamber includes a softener chamber, the softener chamber is provided with a first liquid outlet, and the softener chamber is communicated with the inner barrel through the first liquid outlet; the spray head body further comprises a first siphon piece, and the first siphon piece is arranged at the first liquid outlet.

In the technical scheme, the chamber comprises a softener chamber, the softener chamber is used for accommodating a softener, the softener chamber is provided with a first liquid outlet, so that the softener in the softener chamber flows into the inner barrel through the first liquid outlet, the first siphon piece is arranged at the first liquid outlet, so that the softener in the softener chamber generates a siphon effect through the first siphon piece under the action of water to accelerate the dissolving efficiency of the softener, the fully dissolved softener fully flows into the inner barrel under the action of the first siphon piece, the phenomenon that the softener in the softener chamber cannot be rapidly dissolved under the action of water due to high viscosity and remains in the softener chamber, the softener remains in the softener chamber for a long time, the siphon piece enables the softener chamber to be dirty and is easy to cause customer complaints is avoided, the arrangement of the first siphon piece effectively improves the dissolving efficiency of the softener, and the softener can completely flow into the inner barrel without remaining in the softener chamber, thereby improving the market competitiveness of the product and the satisfaction degree of the user.

In any of the above technical solutions, preferably, the method further includes: the reversing valve is connected with the controller, arranged between the water inlet device and the spray head body and connected with the first outlet; the chamber also comprises a detergent chamber which is positioned at one side of the softener chamber, a reversing valve is connected with the detergent chamber and the softener chamber, and the first outlet can be communicated or isolated with the detergent chamber and/or the softener chamber by the operation of the reversing valve.

In the technical scheme, the clothes treatment device further comprises a reversing valve connected with the controller, the reversing valve is arranged between the water inlet device and the spray head body and is connected with the first outlet, the chamber comprises a detergent chamber located on one side of the softener chamber, and the reversing valve is connected with the detergent chamber and the softener chamber, so that the first outlet can be connected with or separated from the detergent chamber and/or the softener chamber when the reversing valve works.

In any of the above technical solutions, preferably, the detergent chamber is provided with a second liquid outlet, and the detergent chamber is communicated with the inner barrel through the second liquid outlet; the spray head body further comprises a second siphon part, and the second siphon part is arranged at the second liquid outlet.

In the technical scheme, the detergent chamber is provided with the second liquid outlet, so that the detergent in the detergent chamber flows into the inner barrel through the second liquid outlet, the second siphon piece is arranged at the second liquid outlet, the detergent in the detergent chamber generates a siphon effect through the second siphon piece under the action of water to accelerate the dissolving efficiency of the detergent, the fully dissolved detergent fully flows into the inner barrel under the action of the second siphon piece, the situation that the detergent in the detergent chamber cannot be quickly dissolved under the action of water due to high viscosity and remains in the detergent chamber, the detergent remains in the detergent chamber for a long time, the dirt in the detergent chamber is easy to cause customer complaints is avoided, the second siphon piece effectively improves the dissolving efficiency of the detergent, the detergent can completely flow into the inner barrel and cannot remain in the detergent chamber, and the market competitiveness of a product is further improved, the satisfaction degree of the use of the user is improved. Furthermore, no detergent exists in the detergent chamber in the rinsing stage, and water at the first outlet of the water inlet device flows into the inner barrel through the second liquid outlet of the detergent chamber.

In any of the above technical solutions, preferably, the bubble generator includes: the body is arranged between the water inlet device and the spray head body and communicated with the second outlet; the pump body is communicated with the body, and the pump body can provide gas for the body.

In the technical scheme, the bubble generator comprises a body and a pump body communicated with the body, the body is arranged between the water inlet device and the spray head body, the body is communicated with the second outlet, so that water flows into the body from the second outlet of the water inlet device and then reacts with gas provided by the pump body to the body to change water flow into bubble water dissolved with air solute, the bubble water flows into the inner barrel from the body through the spray head body, the bubble water in the inner barrel is favorable for improving the dissolving efficiency of a softener and a detergent in the inner barrel, the treatment effect of the clothes treatment device on clothes is favorable for improving the use satisfaction degree of a user.

According to another aspect of the present invention, there is provided a water inlet control method for a laundry treatment apparatus according to any one of the above aspects, the water inlet control method comprising: entering a washing or rinsing stage, and acquiring the water level of an inner barrel of the clothes treatment device; controlling a bubble generator of the clothes treatment device to start working based on the water level reaching a first preset water level, and controlling a water inlet device to work to enable a second outlet to discharge water; recording the water outlet time length of the second outlet; and adjusting the working states of the water inlet device and the bubble generator according to the water outlet time length and the water level.

The invention provides a water inlet control method for a clothes treatment device in any technical scheme of the first aspect. The water inlet control method of the clothes treatment device comprises the following steps: entering a washing or rinsing stage, acquiring the water level of an inner barrel of the clothes treatment device, indicating that the inner barrel should be filled with bubble water based on the water level reaching a first preset water level, controlling a bubble generator of the clothes treatment device to start working, and controlling a water inlet device to work to enable a second outlet to discharge water, so that the water at the second outlet of the water inlet device is changed into bubble water through the bubble generator and enters the inner barrel from a spray head body, and the bubble water in the inner barrel is favorable for improving the clothes treatment effect of the clothes treatment device and improving the satisfaction degree of a user; the water outlet time length through recording the second outlet, according to the water outlet time length and the water level, the working state of the water inlet device and the bubble generator is adjusted, the water inlet waiting time caused by abnormal water pressure due to the fact that the air inlet bubble water enters the water inlet device can be shortened, the working time length of the whole washing stage or the rinsing stage caused by the fact that the water enters the water inlet device overtime is avoided, the water inlet is guaranteed to be completed within a certain time, the water inlet amount reaches the preset water level of the washing stage or the rinsing stage, the washing stage or the rinsing stage is guaranteed to be completed on time, the use experience of a user is improved, and the market competitiveness of a product is improved.

In any of the above technical solutions, preferably, the step of adjusting the working states of the water inlet device and the bubble generator according to the water outlet duration and the water level specifically includes: controlling the bubble generator and the water inlet device to stop working based on the water level reaching the preset water level in the washing stage or the preset water level in the rinsing stage; controlling the bubble generator to stop working based on the fact that the water level does not reach the preset water level in the washing stage or the preset water level in the rinsing stage and the water outlet time reaches the first preset time, controlling the water inlet device to work to enable the first outlet to discharge water, and controlling the water inlet device to stop working when the water level reaches the preset water level in the washing stage or the preset water level in the rinsing stage; wherein the first preset water level is less than the preset water level in the washing stage, or the first preset water level is less than the preset water level in the rinsing stage.

In the technical scheme, based on the fact that the water level reaches the preset water level in the washing stage or the preset water level in the rinsing stage, the fact that the water level in the inner barrel reaches the preset water level in the washing stage or the preset water level in the rinsing stage is indicated, the bubble generator and the water inlet device are controlled to stop working, no bubble water and no conventional water enter the inner barrel, the fact that the water level in the inner barrel is matched with the preset water level in the washing stage or the preset water level in the rinsing stage is guaranteed, reliability of a product is improved, meanwhile, the situation that the bubble generator continues to work after the water level in the inner barrel reaches the preset water level in the washing stage or the preset water level in the rinsing stage, energy is wasted, use cost is increased, energy is effectively saved, use cost is reduced, and the use satisfaction degree of a user is improved.

Based on the fact that the water level does not reach the preset water level in the washing stage or the preset water level in the rinsing stage and the water outlet time length reaches the first preset time length, namely the water level in the inner barrel does not reach the preset water level in the washing stage or the preset water level in the rinsing stage in the first preset time length, the problem that water inflow is abnormal due to abnormal water pressure caused by air inlet bubble water is explained, for example, the water inflow amount of bubble water in the inner barrel is reduced, or the problem that the water inflow is overtime is caused by no bubble water entering the inner barrel and waiting for water inflow, the bubble generator is controlled to stop working, the water inlet device is controlled to work to enable the first outlet to discharge water, so that the air inlet of the bubble water into the inner barrel is stopped, the conventional water is changed into the water entering the inner barrel, the sufficient water inflow amount of the inner barrel is further ensured, the problem that the water inflow is overtime is caused by the water inflow that the, meanwhile, when the first outlet discharges water, the bubble generator is controlled to stop working, so that energy is saved, and the use cost is reduced; when the water level reaches the preset water level in the washing stage or the preset water level in the rinsing stage, the water inlet device is controlled to stop working, so that the water level in the inner barrel is matched with the preset water level in the washing stage or the preset water level in the rinsing stage, and the reliability of the product is improved.

In any of the above technical solutions, preferably, after the step of entering the washing or rinsing stage and before the step of obtaining the water level of the inner tub, the method further includes: controlling a reversing valve of the clothes treatment device to work to enable the first outlet to be communicated with a detergent chamber of the clothes treatment device based on entering a washing stage; controlling the reversing valve to work to enable the first outlet to be communicated with a softener chamber of the clothes treatment device based on the rinsing stage; and controlling the water inlet device to work to enable the first outlet to discharge water.

In the technical scheme, after the washing stage is started and before the water level of the inner barrel is obtained, the first outlet is communicated with the detergent chamber of the clothes treatment device by controlling the work of the reversing valve of the clothes treatment device, the water inlet device is controlled to work to enable the first outlet to discharge water, so that the water enters the detergent chamber from the first outlet of the water inlet device to fully dissolve the detergent, and the dissolved detergent enters the inner barrel together with the water.

After the rinsing stage, before the water level of the inner barrel is obtained, the first outlet is communicated with the softener chamber of the clothes treatment device by controlling the work of the reversing valve of the clothes treatment device, the water inlet device is controlled to work to enable the first outlet to discharge water, so that the water enters the softener chamber from the first outlet of the water inlet device to fully dissolve the softener, and the dissolved softener enters the inner barrel together with the water. Further, the softener chamber is provided with a first liquid outlet, the first siphon piece of the spray head body is arranged at the first liquid outlet, so that water enters the softener chamber from the first outlet of the water inlet device, the softener in the softener chamber generates siphon effect through the first siphon part under the action of the water to accelerate the dissolving efficiency of the softener, and the fully dissolved softener fully flows into the inner barrel under the action of the first siphon part, thereby avoiding the softener in the softener chamber from being remained in the softener chamber because the softener with higher viscosity cannot be quickly dissolved under the action of water, and the softener is remained in the softener chamber for a long time, so that the dirt in the softener chamber is easy to cause customer complaints, the arrangement of the first siphon piece effectively improves the dissolving efficiency of the softener and enables the softener to completely flow into the inner barrel without remaining in the softener chamber, thereby improving the market competitiveness of products and the satisfaction degree of users in use. Furthermore, the conventional water is advanced, the bubble water is fed later, and bubbles in the bubble water float on the surface of the water in the explosion process, so that a user can see the bubbles on the water surface, and the visualization of the bubble water is improved.

In any of the above technical solutions, preferably, the step of controlling the water inlet device to work so that the first outlet outputs water includes: the water inlet device is controlled to be opened or closed intermittently to enable the first outlet to discharge water intermittently; recording the opening or closing times of the water inlet device; and controlling the water inlet device to continue working based on the number of times of opening reaching a first preset value, or controlling the water inlet device to start working based on the number of times of closing reaching a second preset value.

In the technical scheme, in the washing or rinsing stage, the water inlet device is controlled to be opened or closed intermittently to enable the first outlet to discharge water intermittently, so that conventional water enters the detergent chamber or the softener chamber from the first outlet of the water inlet device for multiple times, the detergent or the softener in the detergent chamber generates a siphon effect through the second siphon piece or the first siphon piece for multiple times under the action of the water to accelerate the dissolving efficiency of the detergent or the softener, the fully dissolved detergent or the fully dissolved softener flows into the inner barrel under the action of the second siphon piece or the first siphon piece for multiple times, the situation that the detergent or the softener in the detergent chamber or the softener chamber is not fully dissolved due to high viscosity, the water inflow amount of the detergent chamber is balanced with the water outflow amount of the second siphon piece or the water inflow amount of the softener chamber is balanced with the water outflow amount of the first siphon piece, and the detergent or the softener is not fully dissolved after the water enters the detergent chamber or the softener chamber, the detergent or the softener can be effectively ensured to be fully dissolved, and the fully dissolved detergent or the softener can completely and thoroughly flow into the inner barrel and can not remain in the detergent chamber or the softener chamber, so that the market competitiveness of the product is improved, and the satisfaction degree of users is improved.

On one hand, the water inlet device is controlled to continue working based on the fact that the opening times reach a first preset value by recording the opening or closing times of the water inlet device; and on the other hand, controlling the water inlet device to start working based on the closing times reaching a second preset value. The water inlet device is controlled to work to enable the detergent in the detergent chamber or the softener in the softener chamber to be fully dissolved, and the dissolved detergent or softener completely flows into the inner barrel and does not remain in the detergent chamber or the softener chamber, so that the water inflow in the inner barrel can reach the target water inflow of the conventional water as soon as possible, the water inlet efficiency is improved, and the reliability of the product is improved.

In any of the above technical solutions, preferably, the step of intermittently controlling the water inlet device to open or close so that the first outlet intermittently discharges water includes: controlling the water inlet device to start working to enable the first outlet to discharge water, and recording the first working duration of the water inlet device; controlling the water inlet device to stop working based on the first working time length reaching a second preset time length; recording the stop working time of the water inlet device; controlling the water inlet device to start working to enable the first outlet to discharge water based on the fact that the working stop time reaches a third preset time, and recording a second working time of the water inlet device; controlling the water inlet device to stop working based on the second working time length reaching a fourth preset time length, and returning and continuously recording the working stop time length; the second preset time length is longer than the third preset time length; the second preset duration is greater than the fourth preset duration.

In the technical scheme, in a washing or rinsing stage, a water inlet device is controlled to start working to enable a first outlet to discharge water, conventional water at the first outlet flows into a detergent chamber or a softener chamber, the process is that the detergent chamber or the softener chamber is fed with water for the first time so as to dissolve and dilute the detergent or the softener, the first working time of the water inlet device is recorded, and the water inlet device is controlled to stop working based on the fact that the first working time reaches a second preset time, so that the detergent dissolved and diluted in the detergent chamber is pumped into an inner barrel under the action of the siphon principle of a second siphon part or the dissolved and diluted softener in the softener chamber is pumped into the inner barrel under the action of the siphon principle of a first siphon part; the second siphoning action of the second siphoning element is completed or the first siphoning action of the first siphoning element is completed based on the fact that the stop working time of the water inlet device reaches a third preset time, the detergent or the softener after being dissolved and diluted flows into the inner barrel under the first siphoning action, the water outlet of the first outlet is enabled by controlling the water inlet device to work, the normal water of the first outlet enters the detergent chamber or the softener chamber for the second time to further dissolve and dilute the detergent or the softener, the detergent or the softener is prevented from being left in the detergent chamber or the softener chamber due to insufficient dissolution and dilution of the detergent or the softener due to insufficient dissolution of the first water inlet, the completeness and the thoroughness of dissolution and dilution of the detergent or the softener is effectively improved, and the using satisfaction of a user is improved. Recording a second working time of the water inlet device; controlling the water inlet device to stop working based on the second working time reaching the fourth preset time, so that the detergent dissolved and diluted for the second time in the detergent chamber is pumped into the inner barrel under the second siphoning action of the second siphoning element or the softener dissolved and diluted for the second time in the softener chamber under the second siphoning action of the first siphoning element, returning and continuously recording the stop working time so that the second siphoning action of the second siphoning element or the first siphoning element is finished, the detergent or the softener dissolved and diluted for the second time flows into the inner barrel under the second siphoning action, continuously controlling the water inlet device to start working to enable the first outlet to discharge water, intermittently controlling the water inlet device to be opened or closed for a plurality of times so that the first outlet discharges water intermittently and is matched with the second siphoning element or the first siphoning element, and effectively ensuring the sufficiency and thoroughness of dissolution and dilution of the detergent or the softener, further improving the product beauty and the satisfaction degree of the user.

In any of the above technical solutions, preferably, the first preset time period ranges from 60 seconds to 300 seconds; the range of the first preset value is 2 times to 16 times; the range of the second preset value is 1 to 15 times; the second preset time period ranges from 10 seconds to 240 seconds; the third preset time is 5 seconds to 30 seconds; the fourth preset time period ranges from 5 seconds to 30 seconds.

In the technical scheme, the first preset time is reasonably set, so that the clothes treatment device can quickly switch the water inlet mode when water inlet abnormity occurs in the washing or rinsing stage, the inner barrel is changed into conventional water without introducing bubble water, the water inlet waiting time caused by water pressure abnormity due to the fact that the bubble water enters is shortened, the working time of the whole washing or rinsing stage is prevented from being influenced due to water inlet overtime, the water inlet is guaranteed to be finished in a certain time, the water inlet amount reaches the preset water level of the washing or rinsing stage, and the washing or rinsing stage is guaranteed to be finished on time.

The range of the first preset value is 2-16 times, the range of the second preset value is 1-15 times, and the first preset value and the second preset value are reasonably set, so that the detergent or the softener is fully dissolved, and the dissolved detergent or the dissolved softener completely and thoroughly flows into the inner barrel and does not remain in a detergent chamber or a softener chamber, and meanwhile, the time is saved, the water inlet duration of a washing or rinsing stage is ensured, the overtime phenomenon is avoided, the market competitiveness of a product is improved, and the use satisfaction of a user is improved.

The range of the second preset time is 10 seconds to 240 seconds, the second preset time is a reasonable value, more and more viscous detergent or softener can be conveniently and fully dissolved and diluted, the good dissolving effect and diluting effect of the detergent or softener are further ensured, and the second siphon piece or the first siphon piece can be fully utilized to fully suck the dissolved and diluted detergent or softener into the inner barrel.

The third preset time is within the range of 5 seconds to 30 seconds, and the reasonable value of the third preset time can ensure that the detergent or the softener after being dissolved and diluted is fully and thoroughly pumped into the inner barrel under the siphonage action of the second siphon piece or the first siphon piece, is favorable for saving time and ensures the water inlet time in the washing or rinsing stage.

The range of the fourth preset time is 5 seconds to 30 seconds, the fourth preset time is a reasonable value, less and thinner detergent or softener can be conveniently and fully dissolved and diluted, the good dissolving effect and diluting effect of the detergent or softener are further ensured, and the second siphon piece or the first siphon piece can be fully utilized to fully suck the dissolved and diluted detergent or softener into the inner barrel.

In any of the above technical solutions, preferably, after the step of entering the washing or rinsing stage and before the step of obtaining the water level of the inner tub, the method further includes: upon entering the rinsing stage, the reversing valve is controlled to operate to communicate the first outlet with the detergent chamber.

In the technical scheme, after the rinsing stage is started and before the water level of the inner barrel is obtained, the first outlet is communicated with the detergent chamber of the clothes treatment device by controlling the work of the reversing valve of the clothes treatment device, namely the first outlet is communicated with the detergent chamber and the softener chamber, so that the softener enters the inner barrel under the action of the conventional water at the first outlet in the rinsing stage, and the conventional water at the first outlet also enters the inner barrel through the detergent chamber, thereby being beneficial to increasing the water inflow, shortening the water inflow time, further shortening the working time of the rinsing stage and improving the use experience of a user.

According to another aspect of the present invention, there is provided a computer readable storage medium having a computer program stored thereon, the computer program, when executed by a processor, implementing the steps of the water inlet control method of any of the above aspects.

The present invention provides a computer readable storage medium, on which a computer program is stored, wherein the computer program, when executed by a processor, implements the steps of the water inlet control method for a clothes treatment apparatus according to any one of the above technical solutions, thereby having all the technical effects of the water inlet control method, and the detailed description thereof is omitted.

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

Drawings

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

fig. 1 illustrates a schematic configuration of a laundry treating apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic view of one orientation of the showerhead body according to one embodiment of the invention;

FIG. 3 is a schematic view of a further orientation of the spray head body according to an embodiment of the present invention;

FIG. 4 is a schematic flow diagram illustrating a water ingress control method according to an embodiment of the present invention;

FIG. 5 is a schematic flow diagram of a water inlet control method according to another embodiment of the present invention;

FIG. 6 is a schematic flow diagram illustrating a method for controlling water inflow in accordance with yet another embodiment of the present invention;

FIG. 7 is a schematic flow diagram of a method for controlling water inflow according to yet another embodiment of the present invention;

FIG. 8 is a schematic flow diagram of a method for controlling water inflow in accordance with another embodiment of the present invention;

fig. 9 shows a schematic flow chart of a water inlet control method in another embodiment of the invention.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 3 is:

100 clothes treatment device, 1 inner barrel, 2 water inlet device, 22 first outlet, 24 second outlet, 3 spray head body, 32 softener chamber, 34 detergent chamber, 36 chamber, 4 bubble generator, 42 body, 44 pump body, 5 first siphon, 6 second siphon, 7 reversing valve, 8 workbench.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

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

A laundry treatment apparatus 100, a water inlet control method, and a computer-readable storage medium according to some embodiments of the present invention are described below with reference to fig. 1 to 9.

As shown in fig. 1 to 3, according to an aspect of the present invention, there is provided a laundry treating apparatus 100 including: an inner barrel 1; the water inlet device 2 is provided with a first outlet 22 and a second outlet 24; the spray head body 3, the spray head body 3 has cavity 36 communicated with first outlet 22, the cavity 36 communicates with inner tub 1, the spray head body 3 communicates with second outlet 24 can make water flow into inner tub 1 from the spray head body 3 through the second outlet 24; a bubble generator 4 disposed between the second outlet 24 and the head body 3 for generating bubbles; and the controller is connected with the water inlet device 2 and the bubble generator 4 and is used for controlling the working states of the bubble generator 4 and the water inlet device 2.

The invention provides a clothes treatment device 100, comprising an inner barrel 1, a water inlet device 2, a spray head body 3, a bubble generator 4 and a controller, wherein the water inlet device 2 is provided with a first outlet 22 and a second outlet 24, a chamber 36 of the spray head body 3 is communicated with the first outlet 22, so that water at the first outlet 22 can enter the inner barrel 1 through the chamber 36, the purpose of entering conventional water into the inner barrel 1 is achieved, the spray head body 3 is communicated with the second outlet 24, and the bubble generator 4 is arranged between the second outlet 24 and the spray head body 3, so that bubble water generated by the water at the second outlet 24 after passing through the bubble generator 4 enters the inner barrel 1 through the spray head body 3, the purpose of entering the bubble water into the inner barrel 1 is achieved, and the water in the inner barrel 1 has both conventional water and bubble water, which is beneficial to improving the washing and rinsing effects of the clothes treatment device 100, improving the washing and rinsing efficiency and improving the satisfaction degree of users. Through controller and water installations 2, bubble generator 4 is connected, according to the water level condition in the interior bucket 1 during the time of the play water of 2 second export 24 of water installations and, control bubble generator 4 and the operating condition of water installations 2, can shorten the latency of intaking that causes because the bubble water that admits air makes water pressure unusual, and avoid influencing the operating duration in whole washing stage or rinsing stage because of intaking overtime, guarantee to accomplish intaking and the inflow reaches the preset water level in washing stage or rinsing stage in certain time, and then guarantee that washing stage or rinsing stage can be accomplished on time, promote user's use and experience, improve the market competitiveness of product.

Furthermore, the nozzle body 3 is provided with a through hole (not shown) located outside the chamber 36, the second outlet 24 is communicated with the through hole, so that bubble water generated after the water of the second outlet 24 passes through the bubble generator 4 enters the inner barrel 1 through the through hole, and conventional water enters the inner barrel 1 through the chamber 36 from the first outlet 22, so that the bubble water and the conventional water enter the inner barrel 1 through different paths, and further, the flexible switching between the conventional water entering and the air inlet bubble water can be realized by controlling the working states of the bubble generator 4 and the water inlet device 2, so that the conventional water can be switched to the conventional water in time to ensure the normal water entering when the water entering is abnormal due to the abnormal water pressure in the air inlet bubble water process, and the water inlet amount can reach the preset water level in the washing or rinsing stage within a certain time, and further, the washing or rinsing stage can be completed on time.

Further, based on the fact that the water level reaches the preset water level in the washing stage or the rinsing stage, it is indicated that the water level in the inner barrel 1 has reached the preset water level in the washing stage or the preset water level in the rinsing stage, the controller controls the bubble generator 4 and the water inlet device 2 to stop working, so that no bubble water and no conventional water enter the inner barrel 1, the water level in the inner barrel 1 is ensured to be matched with the preset water level in the washing stage or the preset water level in the rinsing stage, the reliability of the product is improved, and meanwhile, the bubble generator 4 is prevented from continuing working after the water level in the inner barrel 1 reaches the preset water level in the washing stage or the preset water level in the rinsing stage, so that energy is wasted, the use cost is increased, energy is effectively saved, the use cost is reduced, and the use satisfaction degree of a.

Based on the fact that the water level does not reach the preset water level in the washing stage or the preset water level in the rinsing stage and the time length of the bubble water entering reaches the first preset time length, that is, the water level in the inner barrel 1 does not reach the preset water level in the washing stage or the preset water level in the rinsing stage in the first preset time length, the problem that the water pressure is abnormal and abnormal water entering occurs due to the bubble water entering is illustrated, for example, the water entering amount of the bubble water in the inner barrel 1 is reduced, or no bubble water enters the inner barrel 1 and waits for the water entering to cause the water entering overtime, the bubble generator 4 is controlled to stop working, the water inlet device 2 is controlled to work to enable the first outlet 22 to discharge water, so that the bubble water entering into the inner barrel 1 is stopped, the conventional water entering into the inner barrel 1 is changed, the sufficient water entering amount of the inner barrel 1 is ensured, the problem that the water entering overtime occurs due to the insufficient water entering amount due to the abnormal water pressure is avoided, meanwhile, when the first outlet 22 discharges water, the bubble generator 4 is controlled to stop working, so that energy is saved, and the use cost is reduced; when the water level reaches the preset water level of the washing stage or the preset water level of the rinsing stage, the water inlet device 2 is controlled to stop working, so that the water level in the inner barrel 1 is ensured to be matched with the preset water level of the washing stage or the preset water level of the rinsing stage, and the reliability of the product is improved. Further, the laundry treating apparatus further includes a table 8, and the controller is provided on the table 8.

As shown in fig. 2, in an embodiment of the present invention, preferably, the chamber 36 includes a softener chamber 32, the softener chamber 32 is provided with a first liquid outlet, and the softener chamber 32 is communicated with the inner barrel 1 through the first liquid outlet; the spray head body 3 further comprises a first siphon 5, and the first siphon 5 is arranged at the first liquid outlet.

In this embodiment, the chamber 36 includes a softener chamber 32, the softener chamber 32 is used for accommodating a softener, the softener chamber 32 is provided with a first liquid outlet, so that the softener in the softener chamber 32 flows into the inner barrel 1 through the first liquid outlet, the first siphon 5 is arranged at the first liquid outlet, so that the softener in the softener chamber 32 generates a siphon effect through the first siphon 5 under the action of water, the dissolving efficiency of the softener is accelerated, the fully dissolved softener sufficiently flows into the inner barrel 1 under the action of the first siphon 5, the problem that the softener in the softener chamber 32 cannot be rapidly dissolved due to high viscosity under the action of water and remains in the softener chamber 32 for a long time, so that the dirt in the softener chamber 32 easily causes customer complaints is avoided, the arrangement of the first siphon 5 effectively improves the dissolving efficiency of the softener and enables the softener to completely flow into the inner barrel 1 without remaining in the softener chamber 32, thereby improving the market competitiveness of the product and the satisfaction degree of the user. Further, the first siphon 5 includes a siphon cap and a siphon tube, and the siphon may have other structures as required.

As shown in fig. 2 and 3, in an embodiment of the present invention, it is preferable that: the reversing valve 7 is connected with the controller, and the reversing valve 7 is arranged between the water inlet device 2 and the spray head body 3 and is connected with the first outlet 22; the chamber 36 further comprises a detergent chamber 34 located at one side of the softener chamber 32, and a reversing valve 7 connected to the detergent chamber 34 and the softener chamber 32, wherein the reversing valve 7 is operable to connect or isolate the first outlet 22 to or from the detergent chamber 34 and/or the softener chamber 32.

In this embodiment, the laundry treating apparatus 100 further includes a reversing valve 7 connected to the controller, the reversing valve 7 is disposed between the water inlet device 2 and the spray head body 3 and connected to the first outlet 22, the chamber 36 includes a detergent chamber 34 disposed at one side of the softener chamber 32, and the reversing valve 7 is connected to the detergent chamber 34 and the softener chamber 32, such that the reversing valve 7 operates to connect or isolate the first outlet 22 to or from the detergent chamber 34 and/or the softener chamber 32.

Specifically, on the one hand, when the laundry processing device 100 is in the washing stage, the controller controls the reversing valve 7 to operate to enable the first outlet 22 to be communicated with the detergent chamber 34, and the controller controls the water inlet device 2 to operate to enable water to enter the inner barrel 1 from the first outlet 22 through the detergent chamber 34 of the spray head body 3, so that the detergent enters the inner barrel 1 under the action of the water; on the other hand, when the clothes treatment device 100 is in the rinsing stage, the controller controls the reversing valve 7 to work to enable the first outlet 22 to be communicated with the softener chamber 32, and the controller controls the water inlet device 2 to work to enable water to enter the inner barrel 1 from the first outlet 22 through the softener chamber 32 of the spray head body 3, so that the softener enters the inner barrel 1 under the action of the water; on the other hand, when the laundry processing apparatus 100 is in the rinsing stage, the controller controls the reversing valve 7 to operate to communicate the first outlet 22 with the softener chamber 32 and the detergent chamber 34, and the controller controls the water inlet device 2 to operate to enable water to enter the inner tub 1 from the first outlet 22 through the softener chamber 32 and the detergent chamber 34 of the nozzle body 3, so that the softener enters the inner tub 1 under the action of the water in the rinsing stage, and the water also enters the inner tub 1 through the detergent chamber 34, which is beneficial to increasing the water inlet amount and shortening the water inlet time, thereby shortening the working time in the rinsing stage and improving the use experience of users.

As shown in fig. 2, in one embodiment of the present invention, preferably, the detergent chamber 34 is provided with a second liquid outlet, and the detergent chamber 34 is communicated with the inner tub 1 through the second liquid outlet; the spray head body 3 further comprises a second siphon 6, and the second siphon 6 is arranged at the second liquid outlet.

In this embodiment, the detergent chamber 34 is provided with the second liquid outlet, so that the detergent in the detergent chamber 34 flows into the inner tub 1 through the second liquid outlet, the second siphon 6 is disposed at the second liquid outlet, so that the detergent in the detergent chamber 34 generates a siphon effect through the second siphon 6 under the action of water to accelerate the dissolution efficiency of the detergent, and the fully dissolved detergent flows into the inner tub 1 sufficiently under the action of the second siphon 6, thereby preventing the detergent in the detergent chamber 34 from remaining in the detergent chamber 34 due to the fact that the detergent with high viscosity cannot be dissolved rapidly under the action of water, and the detergent remains in the detergent chamber 34 for a long time, so that the detergent chamber 34 is dirty and is prone to cause customer complaints, the second siphon 6 effectively improves the dissolution efficiency of the detergent and enables the detergent to completely flow into the inner tub 1 without remaining in the detergent chamber 34, thereby improving the market competitiveness of the product and the satisfaction degree of the user. Further, the detergent chamber 34 is not filled with detergent during the rinsing stage, and the water at the first outlet 22 of the water inlet device 2 flows into the inner tub 1 through the second outlet of the detergent chamber 34.

As shown in fig. 1, in one embodiment of the present invention, preferably, the bubble generator 4 includes: the body 42 is arranged between the water inlet device 2 and the spray head body 3, and the body 42 is communicated with the second outlet 24; a pump body 44 in communication with the body 42, the pump body 44 being operable to provide gas to the body 42.

In this embodiment, the bubble generator 4 includes a body 42 and a pump body 44 communicated with the body 42, the body 42 is disposed between the water inlet device 2 and the nozzle body 3, the body 42 is communicated with the second outlet 24, so that water flowing into the body 42 from the second outlet 24 of the water inlet device 2 interacts with air provided by the pump body 44 to the body 42 to change water flow into bubble water with dissolved air solute, the bubble water flows into the inner tub 1 from the body 42 through the nozzle body 3, the bubble water in the inner tub 1 is beneficial to improving the dissolving efficiency of softener and detergent in the inner tub 1, and is beneficial to improving the clothes treatment effect of the clothes treatment device 100, and the satisfaction of users is improved. It is understood that the bubble generator 4 may also be the microbubble generator 4, and the size of the bubbles in the bubble water generated by the bubble generator 4 can also be adjusted by controlling the air output of the pump body 44 of the bubble generator 4. Further, the pump body 44 is an air pump.

Furthermore, the nozzle body 3 is provided with a water outlet hole which is positioned outside the detergent chamber 34 and the softener chamber 32 and communicated with the body 42 of the bubble generator 4, so that water flowing out of the second outlet 24 of the water inlet device 2 passes through the body 42 of the bubble generator 4 to be changed into bubble water, and flows into the inner barrel 1 through the water outlet hole of the nozzle body 3.

According to another aspect of the present invention, there is provided a water inlet control method for a laundry treatment apparatus according to any one of the above aspects, as shown in fig. 4, the water inlet control method for a laundry treatment apparatus according to an embodiment of the present invention, including:

s402, entering a washing or rinsing stage, and acquiring the water level of an inner barrel of the clothes treatment device;

s404, controlling a bubble generator of the clothes treatment device to start working and controlling a water inlet device to work to enable a second outlet to discharge water based on the water level reaching a first preset water level;

s406, recording the water outlet duration of the second outlet;

and S408, adjusting the working states of the water inlet device and the bubble generator according to the water outlet time length and the water level.

The water inlet control method of the clothes treatment device provided by the invention enters a washing or rinsing stage, the water level of an inner barrel of the clothes treatment device is obtained, based on the fact that the water level reaches a first preset water level, the inner barrel is supposed to be filled with bubble water, the bubble generator of the clothes treatment device is controlled to start working, the water inlet device is controlled to work to enable a second outlet to discharge water, so that the water at the second outlet of the water inlet device is changed into bubble water through the bubble generator and enters the inner barrel from a spray head body, the bubble water in the inner barrel is beneficial to improving the clothes treatment effect of the clothes treatment device, and the using satisfaction degree of a user is improved; the water outlet time length through recording the second outlet, according to the water outlet time length and the water level, the working state of the water inlet device and the bubble generator is adjusted, the water inlet waiting time caused by abnormal water pressure due to the fact that the air inlet bubble water enters the water inlet device can be shortened, the working time length of the whole washing stage or the rinsing stage caused by the fact that the water enters the water inlet device overtime is avoided, the water inlet is guaranteed to be completed within a certain time, the water inlet amount reaches the preset water level of the washing stage or the rinsing stage, the washing stage or the rinsing stage is guaranteed to be completed on time, the use experience of a user is improved, and the market competitiveness of a product is improved.

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

s502, entering a washing or rinsing stage, and acquiring the water level of an inner barrel of the clothes treatment device;

s504, controlling a bubble generator of the clothes treatment device to start working and controlling a water inlet device to work to enable a second outlet to discharge water based on the water level reaching a first preset water level;

s506, recording the water outlet duration of the second outlet;

s508, controlling the bubble generator and the water inlet device to stop working based on the water level reaching the preset water level in the washing stage or the preset water level in the rinsing stage; wherein the first preset water level is less than the preset water level of the washing stage, or the first preset water level is less than the preset water level of the rinsing stage;

s510, controlling the bubble generator to stop working, controlling the water inlet device to work to enable the first outlet to discharge water and controlling the water inlet device to stop working when the water level reaches the preset water level of the washing stage or the preset water level of the rinsing stage based on the fact that the water level does not reach the preset water level of the washing stage or the preset water level of the rinsing stage and the water discharging time reaches the first preset time; wherein the first preset water level is less than the preset water level in the washing stage, or the first preset water level is less than the preset water level in the rinsing stage.

The water inlet control method of the clothes treatment device provided by the invention enters a washing or rinsing stage, the water level of the inner barrel of the clothes treatment device is obtained, based on the fact that the water level reaches a first preset water level, the inner barrel is supposed to be filled with bubble water, the bubble generator of the clothes treatment device is controlled to start working, the water inlet device is controlled to work to enable the second outlet to discharge water, the water at the second outlet of the water inlet device is changed into bubble water through the bubble generator and then enters the inner barrel from the spray head body, and the bubble water in the inner barrel is beneficial to improving the clothes treatment effect of the clothes treatment device and improving the satisfaction degree of a user.

By recording the water outlet time of the second outlet, based on the fact that the water level reaches the preset water level of the washing stage or the preset water level of the rinsing stage, the fact that the water level in the inner barrel reaches the preset water level of the washing stage or the preset water level of the rinsing stage is indicated, the bubble generator and the water inlet device are controlled to stop working, no bubble water and no conventional water enter the inner barrel, the fact that the water level in the inner barrel is matched with the preset water level of the washing stage or the preset water level of the rinsing stage is guaranteed, reliability of a product is improved, meanwhile, the situation that the bubble generator continues to work after the water level in the inner barrel reaches the preset water level of the washing stage or the preset water level of the rinsing stage, energy is wasted, use cost is increased, energy is effectively saved, use cost is reduced, and satisfaction of a user is improved.

Based on the fact that the water level does not reach the preset water level in the washing stage or the preset water level in the rinsing stage and the water outlet time length reaches the first preset time length, namely the water level in the inner barrel does not reach the preset water level in the washing stage or the preset water level in the rinsing stage in the first preset time length, the problem that water inflow is abnormal due to abnormal water pressure caused by air inlet bubble water is explained, for example, the water inflow amount of bubble water in the inner barrel is reduced, or the problem that the water inflow is overtime is caused by no bubble water entering the inner barrel and waiting for water inflow, the bubble generator is controlled to stop working, the water inlet device is controlled to work to enable the first outlet to discharge water, so that the air inlet of the bubble water into the inner barrel is stopped, the conventional water is changed into the water entering the inner barrel, the sufficient water inflow amount of the inner barrel is further ensured, the problem that the water inflow is overtime is caused by the water inflow that the, meanwhile, when the first outlet discharges water, the bubble generator is controlled to stop working, so that energy is saved, and the use cost is reduced; when the water level reaches the preset water level in the washing stage or the preset water level in the rinsing stage, the water inlet device is controlled to stop working, so that the water level in the inner barrel is matched with the preset water level in the washing stage or the preset water level in the rinsing stage, and the reliability of the product is improved.

Further, the first preset water level is smaller than the preset water level in the washing stage, or the first preset water level is smaller than the preset water level in the rinsing stage, wherein the preset water level in the washing stage may be understood as a water level corresponding to a sum of a target water inflow of the regular water and a target water inflow of the bubble water in the inner tub in the washing stage, the first preset water level is a water level corresponding to a target water inflow of the regular water in the inner tub in the washing stage, the preset water level in the rinsing stage may be understood as a water level corresponding to a sum of a target water inflow of the regular water and a target water inflow of the bubble water in the inner tub in the rinsing stage, and the first preset water level is a water level corresponding to a target water inflow of the regular water in the inner tub in the rinsing stage. Further, the water level is represented by a gear, the preset water level in the rinsing stage can be represented as n gear, and the target water inflow of the bubble water in the inner barrel is d gear, so that the target water inflow of the regular water in the inner barrel is n-d gear, that is, the first preset water level is n-d gear. Further, the value range of n is 1-8, the value range of d is 0-7, n > d, and n and d with different values can be controlled according to the weight of clothes, the material of the clothes and different working stages of the clothes treatment device, so that the treatment effect and treatment efficiency of the clothes treatment device on the clothes are improved, the market competitiveness of products is improved, and the satisfaction degree of users is improved. Specifically, n is 3 and d is 8.

As shown in fig. 6, a water inlet control method of a laundry treating apparatus according to still another embodiment of the present invention includes:

s602, entering a washing or rinsing stage;

s604, controlling the reversing valve of the clothes treatment device to work to enable the first outlet to be communicated with a detergent chamber of the clothes treatment device based on the washing stage; controlling the reversing valve to work to enable the first outlet to be communicated with a softener chamber of the clothes treatment device based on the rinsing stage;

s606, controlling the water inlet device to work to enable the first outlet to discharge water;

s608, acquiring the water level of an inner barrel of the clothes processing device;

s610, controlling a bubble generator of the clothes treatment device to start working and controlling a water inlet device to work to enable a second outlet to discharge water based on the water level reaching a first preset water level;

s612, recording the water outlet duration of the second outlet;

s614, controlling the bubble generator and the water inlet device to stop working based on the water level reaching the preset water level in the washing stage or the preset water level in the rinsing stage; wherein the first preset water level is less than the preset water level of the washing stage, or the first preset water level is less than the preset water level of the rinsing stage;

s616, based on the fact that the water level does not reach the preset water level in the washing stage or the preset water level in the rinsing stage and the water outlet time reaches the first preset time, controlling the bubble generator to stop working, controlling the water inlet device to work to enable the first outlet to discharge water, and controlling the water inlet device to stop working when the water level reaches the preset water level in the washing stage or the preset water level in the rinsing stage; wherein the first preset water level is less than the preset water level in the washing stage, or the first preset water level is less than the preset water level in the rinsing stage.

In this embodiment, after the washing stage, before the water level of the inner tub is obtained, the first outlet is communicated with the detergent chamber of the laundry treatment device by controlling the operation of the reversing valve of the laundry treatment device, and the water inlet device is controlled to operate to discharge water from the first outlet, so that the water enters the detergent chamber from the first outlet of the water inlet device to fully dissolve the detergent, and the dissolved detergent enters the inner tub together with the water.

And in the rinsing stage, before the water level of the inner barrel is obtained, the first outlet is communicated with the softener chamber of the clothes treatment device by controlling the work of the reversing valve of the clothes treatment device, the water inlet device is controlled to work to enable the first outlet to discharge water, so that the water enters the softener chamber from the first outlet of the water inlet device to fully dissolve the softener, and the dissolved softener enters the inner barrel together with the water. Further, the softener chamber is provided with a first liquid outlet, the first siphon piece of the spray head body is arranged at the first liquid outlet, so that water enters the softener chamber from the first outlet of the water inlet device, the softener in the softener chamber generates siphon effect through the first siphon part under the action of the water to accelerate the dissolving efficiency of the softener, and the fully dissolved softener fully flows into the inner barrel under the action of the first siphon part, thereby avoiding the softener in the softener chamber from being remained in the softener chamber because the softener with higher viscosity cannot be quickly dissolved under the action of water, and the softener is remained in the softener chamber for a long time, so that the dirt in the softener chamber is easy to cause customer complaints, the arrangement of the first siphon piece effectively improves the dissolving efficiency of the softener and enables the softener to completely flow into the inner barrel without remaining in the softener chamber, thereby improving the market competitiveness of products and the satisfaction degree of users in use. Furthermore, the conventional water is advanced, the bubble water is fed later, and bubbles in the bubble water float on the surface of the water in the explosion process, so that a user can see the bubbles on the water surface, and the visualization of the bubble water is improved.

As shown in fig. 7, a water inlet control method of a laundry treating apparatus according to still another embodiment of the present invention includes:

s702, entering a washing or rinsing stage;

s704, controlling the reversing valve of the clothes treatment device to work to enable the first outlet to be communicated with a detergent chamber of the clothes treatment device based on the washing stage; controlling the reversing valve to work to enable the first outlet to be communicated with a softener chamber of the clothes treatment device based on the rinsing stage;

s706, intermittently controlling the water inlet device to be opened or closed to enable the first outlet to intermittently discharge water;

s708, recording the times of opening or closing the water inlet device;

s710, controlling the water inlet device to continue working based on the number of times of opening reaching a first preset value, or controlling the water inlet device to start working based on the number of times of closing reaching a second preset value;

s712, acquiring a water level of an inner tub of the laundry treating apparatus;

s714, controlling a bubble generator of the clothes treatment device to start working and controlling a water inlet device to work to enable a second outlet to discharge water based on the water level reaching a first preset water level;

s716, recording the water outlet duration of the second outlet;

s718, controlling the bubble generator and the water inlet device to stop working based on the water level reaching the preset water level in the washing stage or the preset water level in the rinsing stage; wherein the first preset water level is less than the preset water level of the washing stage, or the first preset water level is less than the preset water level of the rinsing stage;

s720, controlling the bubble generator to stop working based on the fact that the water level does not reach the preset water level in the washing stage or the preset water level in the rinsing stage and the water outlet time reaches the first preset time, controlling the water inlet device to work to enable the first outlet to discharge water, and controlling the water inlet device to stop working when the water level reaches the preset water level in the washing stage or the preset water level in the rinsing stage; wherein the first preset water level is less than the preset water level in the washing stage, or the first preset water level is less than the preset water level in the rinsing stage.

In this embodiment, the method for controlling water inflow of a laundry processing apparatus according to the present invention enters a washing or rinsing stage, before the water level of the inner tub is obtained, the water inflow apparatus is intermittently controlled to open or close to allow the first outlet to intermittently discharge water, so that the normal water enters the detergent chamber or the softener chamber from the first outlet of the water inflow apparatus for a plurality of times, and the detergent or the softener in the detergent chamber passes through the second siphon or the first siphon for a plurality of times under the action of the water to generate a siphon effect to accelerate the dissolution efficiency of the detergent or the softener, and the fully dissolved detergent or the softener flows into the inner tub sufficiently under the action of the second siphon or the first siphon for a plurality of times, thereby preventing the water inflow of the detergent chamber and the water outflow of the second siphon from being balanced or the water inflow of the softener chamber and the water outflow of the first siphon from being balanced due to a high viscosity of the softener in the detergent chamber or the softener chamber, the detergent or the softener is not fully dissolved after the water enters the detergent chamber or the softener chamber and is sucked into the inner barrel, so that the detergent is remained in the detergent chamber or the softener is remained in the softener chamber after washing or rinsing is finished, the detergent chamber or the softener chamber is dirty to cause customer complaints, the water inlet device is controlled to be opened or closed intermittently for multiple times to enable the first outlet to intermittently discharge water and to be matched with the second siphon or the first siphon, the detergent or the softener can be fully dissolved effectively, the fully dissolved detergent or the softener can completely and thoroughly flow into the inner barrel, and the fully dissolved detergent or the softener cannot remain in the detergent chamber or the softener chamber, the market competitiveness of products is improved, and the using satisfaction of users is improved.

On one hand, the water inlet device is controlled to continue working based on the fact that the opening times reach a first preset value by recording the opening or closing times of the water inlet device; and on the other hand, controlling the water inlet device to start working based on the closing times reaching a second preset value. The water inlet device is controlled to work to enable the detergent in the detergent chamber or the softener in the softener chamber to be fully dissolved, and the dissolved detergent or softener completely flows into the inner barrel and does not remain in the detergent chamber or the softener chamber, so that the water inflow in the inner barrel can reach the target water inflow of the conventional water as soon as possible, the water inlet efficiency is improved, and the reliability of the product is improved.

Further, the first preset value is 1 time greater than the second preset value, and the range of the first preset value is 2 times to 16 times; the second preset value ranges from 1 to 15 times.

As shown in fig. 8, a water inlet control method of a laundry treating apparatus according to still another embodiment of the present invention includes:

s802, entering a washing or rinsing stage;

s804, controlling the reversing valve of the clothes treatment device to work to enable the first outlet to be communicated with a detergent chamber of the clothes treatment device based on the washing stage; controlling the reversing valve to work to enable the first outlet to be communicated with a softener chamber of the clothes treatment device based on the rinsing stage;

s806, controlling the water inlet device to start working to enable the first outlet to discharge water, and recording the first working duration of the water inlet device;

s808, controlling the water inlet device to stop working based on the fact that the first working time length reaches a second preset time length;

s810, recording the stop working time of the water inlet device;

s812, controlling the water inlet device to start working to enable the first outlet to discharge water based on the fact that the working stop time reaches a third preset time, and recording a second working time of the water inlet device;

s814, controlling the water inlet device to stop working based on the fact that the second working time length reaches a fourth preset time length, returning and continuously recording the working stop time length; the second preset time length is longer than the third preset time length; the second preset time length is longer than the fourth preset time length;

s816, recording the opening or closing times of the water inlet device;

s818, controlling the water inlet device to continue to work based on the number of times of opening reaching a first preset value, or controlling the water inlet device to start to work based on the number of times of closing reaching a second preset value;

s820, acquiring the water level of an inner barrel of the clothes treatment device;

s822, controlling a bubble generator of the clothes treatment device to start working based on the water level reaching a first preset water level, and controlling a water inlet device to work to enable a second outlet to discharge water;

s824, recording the water outlet duration of the second outlet;

s826, controlling the bubble generator and the water inlet device to stop working based on the water level reaching the preset water level in the washing stage or the preset water level in the rinsing stage; wherein the first preset water level is less than the preset water level of the washing stage, or the first preset water level is less than the preset water level of the rinsing stage;

s828, based on the fact that the water level does not reach the preset water level in the washing stage or the preset water level in the rinsing stage and the water outlet time reaches the first preset time, controlling the bubble generator to stop working, controlling the water inlet device to work to enable the first outlet to discharge water, and controlling the water inlet device to stop working when the water level reaches the preset water level in the washing stage or the preset water level in the rinsing stage; wherein the first preset water level is less than the preset water level in the washing stage, or the first preset water level is less than the preset water level in the rinsing stage.

In the embodiment, in a washing or rinsing stage, the water inlet device is controlled to start working to enable the first outlet to discharge water, the conventional water at the first outlet flows into the detergent chamber or the softener chamber, the process is that the detergent chamber or the softener chamber is fed with water for the first time so as to dissolve and dilute the detergent or the softener, the first working time of the water inlet device is recorded, and the water inlet device is controlled to stop working based on the fact that the first working time reaches a second preset time, so that the detergent dissolved and diluted in the detergent chamber is pumped into the inner barrel under the action of the siphon principle of the second siphon part or the softener dissolved and diluted in the softener chamber is pumped into the inner barrel under the action of the siphon principle of the first siphon part; the second siphoning action of the second siphoning element is completed or the first siphoning action of the first siphoning element is completed based on the fact that the stop working time of the water inlet device reaches a third preset time, the detergent or the softener after being dissolved and diluted flows into the inner barrel under the first siphoning action, the water outlet of the first outlet is enabled by controlling the water inlet device to work, the normal water of the first outlet enters the detergent chamber or the softener chamber for the second time to further dissolve and dilute the detergent or the softener, the detergent or the softener is prevented from being left in the detergent chamber or the softener chamber due to insufficient dissolution and dilution of the detergent or the softener due to insufficient dissolution of the first water inlet, the completeness and the thoroughness of dissolution and dilution of the detergent or the softener is effectively improved, and the using satisfaction of a user is improved. Recording a second working time of the water inlet device; controlling the water inlet device to stop working based on the second working time reaching the fourth preset time, so that the detergent dissolved and diluted for the second time in the detergent chamber is pumped into the inner barrel under the second siphoning action of the second siphoning element or the softener dissolved and diluted for the second time in the softener chamber under the second siphoning action of the first siphoning element, returning and continuously recording the stop working time so that the second siphoning action of the second siphoning element or the first siphoning element is finished, the detergent or the softener dissolved and diluted for the second time flows into the inner barrel under the second siphoning action, continuously controlling the water inlet device to start working to enable the first outlet to discharge water, intermittently controlling the water inlet device to be opened or closed for a plurality of times so that the first outlet discharges water intermittently and is matched with the second siphoning element or the first siphoning element, and effectively ensuring the sufficiency and thoroughness of dissolution and dilution of the detergent or the softener, further improving the product beauty and the satisfaction degree of the user.

The second preset time is the water inlet time when the conventional water at the first outlet of the water inlet device enters the detergent chamber or the softener chamber for the first time, and at the moment, the viscosity of the detergent in the detergent chamber or the softener in the softener chamber is high and the quantity of the detergent is large, so that the second preset time is longer than the third preset time, and the second preset time is longer than the fourth preset time, so that more and more viscous detergent or softener is conveniently and fully dissolved and diluted, and the good dissolving effect and diluting effect of the detergent or the softener are further ensured; the fourth preset time is the water inlet time when the conventional water at the first outlet of the water inlet device enters the detergent chamber or the softener chamber for the second time or again, the viscosity and the quantity of the detergent or the softener are reduced, and the fourth preset time is shorter than the second preset time, so that the good dissolving effect and diluting effect of less and thinner detergent or softener can be ensured; and the third preset time is the time for the detergent or the softener after the first dissolution and dilution to enter the inner barrel under the action of the second siphon piece or the first siphon piece, and the third preset time is shorter than the second preset time, so that the detergent or the softener after the dissolution and dilution can be fully and thoroughly pumped into the inner barrel under the action of the second siphon piece or the first siphon piece again. It is understood that the second preset time period, the third preset time period and the fourth preset time period may be other relationships that satisfy the requirement.

In one embodiment of the present invention, preferably, the first preset time period ranges from 60 seconds to 300 seconds; the range of the first preset value is 2 times to 16 times; the range of the second preset value is 1 to 15 times; the second preset time period ranges from 10 seconds to 240 seconds; the third preset time is 5 seconds to 30 seconds; the fourth preset time period ranges from 5 seconds to 30 seconds.

In this embodiment, the first predetermined time is 60 seconds to 300 seconds, the first predetermined time is the water outlet time of the second outlet, and the bubble generator operates when the second outlet is discharging water, since the operating water pressure of the washing machine is 0.03Mpa to 1Mpa, the water pressure is lower than 0.03Mpa in a special operating environment, the water flow is small, the total water inlet time is abnormally long, meanwhile, the low-pressure water flow cannot generate dense bubbles through the bubble generator, and the water flowing into the inner tub through the bubble generator is slow, therefore, the first predetermined time is short, the condition that the water outlet time of the second outlet can still normally enter the bubble water when the water outlet time of the second outlet reaches the first predetermined time can easily occur, in this case, the water inlet mode is changed, so that the bubble water is not introduced into the inner tub any more, the conventional water can cause the bubble generator to be insufficiently utilized, and the second predetermined time is long, the water outlet time of the second outlet can easily reach the second predetermined time, the long whole of making into water latency longer influence washing stage or rinsing stage of not intaking in interior bucket is long, through rationally setting up first preset time, it is specific, first preset time is 180 seconds, can make clothing processing apparatus appear intaking when unusual in the rinsing stage fast switch over into the water regime, make in interior bucket no longer intake bubble water and change into conventional water, shorten the latency of intaking that causes because the bubble water that admits air makes water pressure unusual, and avoid influencing the operating time of whole rinsing stage because of intaking overtime, guarantee to accomplish intaking in certain time and the inflow reaches the preset water level in rinsing stage, and then guarantee that the rinsing stage can be accomplished on time. It is understood that the first preset time period may be other time periods that meet the requirements, such as 200 seconds, 150 seconds.

The range of the first preset value is 2 to 16 times, the range of the second preset value is 1 to 15 times, the first preset value and the second preset value are smaller, detergent or softener is easy to be insufficiently dissolved, diluted and continuously remained in a detergent chamber or a softener chamber to influence the attractiveness of a product or be complained by a customer, the first preset value and the second preset value are larger, detergent or softener is easy to be sufficiently dissolved, diluted and completely and thoroughly enters an inner barrel, a water inlet device still works intermittently to enable a first outlet to discharge water and waste water inlet time, the range of the first preset value and the second preset value is reasonable, specifically, in a rinsing stage, the first preset value is 16 times, the second preset value is 15 times, the softener which is sufficiently dissolved and completely flows into the inner barrel and does not remain in the softener chamber, and time is saved, further ensuring the water inlet duration of the rinsing stage without overtime, improving the market competitiveness of the product and the satisfaction degree of the user. It can be understood that the first preset value and the second preset value can be other values meeting the requirements, and the sizes of the first preset value and the second preset value can be reasonably selected according to the specific structure of the detergent chamber or the softener chamber, the weight of the detergent or the softener, the position of the liquid outlet, the structure of the siphon part and the like, so as to ensure that the detergent or the softener can be fully dissolved, the dissolved detergent or the dissolved softener completely and completely flows into the inner barrel, does not remain in the detergent chamber or the softener chamber, and ensure the water inlet time. For example, the first preset value is 12 times, or the second preset value is 14 times.

The second preset time is 10 seconds to 240 seconds, because the second preset time is the water inlet time when the normal water at the first outlet of the water inlet device enters the detergent chamber or the softener chamber for the first time, at this time, the viscosity of the detergent in the detergent chamber or the softener in the softener chamber is high, the quantity of the detergent is high, the second preset time is short, the phenomenon that more and more viscous detergent or softener is not fully dissolved and diluted easily occurs, the phenomenon is not favorable for the detergent or the softener to be pumped into the inner barrel by the siphoning action of the second siphoning element or the first siphoning element, the second preset time is long, the phenomenon that the detergent or the softener after being dissolved and diluted can not be pumped into the inner barrel by the siphoning action of the second siphoning element or the first siphoning element easily occurs, and the value of the second preset time is reasonable, for example, in the rinsing stage, the second preset time is 30 seconds, so that more and more viscous softener can be fully dissolved and diluted, and then guarantee the good dissolving effect and the dilution effect of softener, can make full use of the siphon effect of first siphon spare will dissolve the abundant suction bucket of softener after diluting simultaneously. It will be appreciated that the second predetermined period of time may be other periods of time that meet the requirements, such as 60 seconds, 90 seconds.

The third preset time is 5 seconds to 30 seconds, the third preset time is the time for the dissolved and diluted detergent or softener to enter the inner barrel under the action of the second siphon piece or the first siphon piece, the third preset time is shorter, the dissolved and diluted detergent or softener is easy to be sucked into the inner barrel under the siphon action of the second siphon piece or the first siphon piece, the third preset time is longer, the dissolved and diluted detergent or softener is easy to be sucked into the inner barrel under the siphon action of the second siphon piece or the first siphon piece, the time is wasted by waiting for water to enter, and the third preset time is reasonable, for example, in the rinsing stage, the third preset time is 8 seconds, so that the softener after being dissolved and diluted can be fully and thoroughly pumped into the inner barrel under the siphoning action of the first siphoning element, the time is saved, and the water inlet time of the rinsing stage is ensured. It will be appreciated that the third predetermined period may be other periods of time that meet the requirements, such as 10 seconds, 15 seconds.

The fourth preset time is in the range of 5 seconds to 30 seconds, the fourth preset time is the water inlet time for the conventional water at the first outlet of the water inlet device to enter the detergent chamber or the softener chamber again, at the moment, the viscosity and the amount of the detergent or the softener are reduced, the phenomenon that the detergent or the softener is not fully dissolved and diluted easily occurs when the fourth preset time is shorter, the phenomenon that the detergent or the softener is not fully dissolved and diluted is not favorable for the detergent or the softener to be sucked into the inner barrel by the siphoning action of the second siphoning element or the first siphoning element is not facilitated, the situation that the detergent or the softener after being dissolved and diluted is not fully sucked into the inner barrel by the siphoning action of the second siphoning element or the first siphoning element when the fourth preset time is longer is likely to occur, and the fourth preset time is reasonable, for example, in the rinsing stage, the fourth preset time is 12 seconds, so that the less and thinner softener is fully dissolved and diluted, and the good dissolving effect and diluting effect of the, meanwhile, the dissolved and diluted softener can be fully pumped into the inner barrel by fully utilizing the siphoning action of the first siphoning element. It will be appreciated that the fourth predetermined period of time may be other periods of time that meet the requirements, such as 15 seconds, 20 seconds.

As shown in fig. 9, a water inlet control method of a laundry treating apparatus according to still another embodiment of the present invention includes:

s902, entering a rinsing stage;

s904, controlling the reversing valve of the clothes treatment device to work to enable the first outlet to be communicated with the softener chamber of the clothes treatment device;

s906, controlling the reversing valve to work to enable the first outlet to be communicated with the detergent chamber;

s908, controlling the water inlet device to start working to enable the first outlet to discharge water, and recording the first working duration of the water inlet device;

s910, controlling the water inlet device to stop working based on the fact that the first working time length reaches a second preset time length;

s912, recording the stop working time of the water inlet device;

s914, controlling the water inlet device to start working to enable the first outlet to discharge water based on the fact that the working stop time reaches a third preset time, and recording a second working time of the water inlet device;

s916, controlling the water inlet device to stop working based on the fact that the second working duration reaches a fourth preset duration, returning and continuously recording the working-stop duration; the second preset time length is longer than the third preset time length; the second preset time length is longer than the fourth preset time length;

s918, recording the opening or closing times of the water inlet device;

s920, controlling the water inlet device to continue to work based on the number of times of opening reaching a first preset value, or controlling the water inlet device to start to work based on the number of times of closing reaching a second preset value;

s922, acquiring the water level of an inner barrel of the clothes treatment device;

s924, controlling a bubble generator of the clothes treatment device to start working and controlling a water inlet device to work to enable a second outlet to discharge water based on the water level reaching a first preset water level;

s926, recording the water outlet duration of the second outlet;

s928, controlling the bubble generator and the water inlet device to stop working based on the fact that the water level reaches the preset water level in the rinsing stage; wherein the first preset water level is less than the preset water level in the rinsing stage;

s930, controlling the bubble generator to stop working, controlling the water inlet device to work to enable the first outlet to discharge water and controlling the water inlet device to stop working when the water level reaches the preset water level of the rinsing stage based on the fact that the water level does not reach the preset water level of the rinsing stage and the water discharging time reaches the first preset time; wherein the first preset water level is less than the preset water level in the rinsing stage.

In this embodiment, before entering the rinsing stage and obtaining the water level of the inner tub, the first outlet is communicated with the softener chamber of the laundry processing device by controlling the operation of the reversing valve of the laundry processing device, and the first outlet is communicated with the detergent chamber of the laundry processing device by controlling the operation of the reversing valve of the laundry processing device, that is, the first outlet is communicated with both the detergent chamber and the softener chamber, so that the softener enters the inner tub under the action of the normal water at the first outlet in the rinsing stage, and the normal water at the first outlet also enters the inner tub through the detergent chamber, which is beneficial to increasing the water inflow, shortening the water inflow time, further shortening the working time in the rinsing stage, and improving the user experience.

In a specific embodiment, the clothes treatment device is a washing machine which comprises an inner barrel, a water inlet valve, a spray head body, a reversing valve, a bubble generator and a workbench provided with a controller, wherein the controller is connected with the water inlet valve, the reversing valve and the bubble generator. The water inlet valve comprises a first outlet and a second outlet which are independent from each other and do not influence each other, and further comprises a water inlet communicated with an external water channel, the water inlet of the water inlet valve is communicated with the external water channel through a water pipe, the first outlet of the water inlet valve is communicated with the softener chamber and the detergent chamber of the spray head body through water pipes, the second outlet of the water inlet valve is communicated with the body of the bubble generator through a water pipe, the water inlet valve is an electromagnetic valve, water outlet of the first outlet or water outlet of the second outlet is controlled through the electromagnetic valve, and the body of the bubble generator is communicated with the water outlet hole of the. When the washing machine processes a washing program, detergent is in the detergent chamber, the controller controls the reversing valve to work to enable the first outlet to be communicated with the detergent chamber, the water inlet device works to enable the first outlet to discharge water, conventional water enters the inner barrel through the detergent chamber, the controller controls the bubble generator to work under the condition of demand, the water inlet device works to enable the second outlet to discharge water, and the water is changed into bubble water through the bubble generator and then directly flows into the inner barrel through the nozzle body; when the washing machine processes a rinsing procedure, the softener is arranged in the softener chamber, no detergent is arranged in the detergent chamber, the controller controls the reversing valve to be switched to another station to enable the first outlet to be communicated with the detergent chamber and the softener chamber, the water inlet device works to enable the first outlet to discharge water, conventional water enters the inner barrel through the detergent chamber and the softener chamber, the controller controls the bubble generator to work under the condition that a demand exists, the water inlet device works to enable the second outlet to discharge water, and the water is changed into bubble water through the bubble generator and then directly flows into the inner barrel through the spray head body. The first siphon piece is arranged at the first liquid outlet of the softener chamber, so that the softener in the softener chamber can generate a siphon effect through the first siphon piece under the action of water to accelerate the dissolving efficiency of the softener, the fully dissolved softener can fully flow into the inner barrel under the action of the first siphon piece, and the second siphon piece is arranged at the second liquid outlet of the detergent chamber to accelerate the dissolving efficiency of the detergent through the siphon effect generated by the second siphon piece, so that the fully dissolved detergent can fully flow into the inner barrel under the action of the second siphon piece.

Most of washing machines in the related art are provided with a detergent chamber and a softener chamber, siphon channels are arranged in the detergent chamber and the softener chamber, and when water enters, the detergent and the softener are brought into an inner barrel by utilizing a siphon principle. Because the viscosity of the softener in the market is high, the water inflow of the softener chamber is balanced with the water outflow of the siphon, and the softener is not fully dissolved after water enters the softener chamber and is sucked into the inner barrel, so that the softener is remained in the softener chamber after rinsing is finished. In the long past, the softener chamber had more residual soil, which caused customer complaints.

The washing machine provided by the application controls the reversing valve to work to enable the first outlet to be communicated with the softener chamber and the detergent chamber by entering the rinsing stage, controls the water inlet device to start working to enable the first outlet to discharge water, and enables the conventional water at the first outlet to flow into the softener chamber and the detergent chamber and then flow into the inner barrel, so that the water inlet amount is increased, the water inlet duration is shortened, and the working duration of the rinsing stage is further shortened. The process is that the softener chamber is fed with water for the first time so as to dissolve and dilute the softener, the first working time of the water inlet device is recorded, and the water inlet device is controlled to stop working based on the fact that the first working time reaches 30 seconds, namely the second preset time is 30 seconds, so that the dissolved and diluted softener in the softener chamber is pumped into the inner barrel under the action of the siphon principle of the first siphon piece; by recording the stop working time of the water inlet device, the stop working time reaches 8 seconds based on the stop working time, namely the third preset time is 8 seconds, the first siphoning action of the first siphoning element is completed, the softener after being dissolved and diluted flows into the inner barrel under the first siphoning action, the water inlet device is controlled to start working to enable the first outlet to discharge water, the conventional water at the first outlet enters the softener chamber for the second time to further dissolve and dilute the softener, the phenomenon that the softener is left in the softener chamber due to insufficient dissolution and dilution of the first water inlet is avoided, the dissolution and dilution sufficiency and thoroughness of the softener are effectively improved, and the using satisfaction of a user is improved. Recording a second working time of the water inlet device; and controlling the water inlet device to stop working based on that the second working time length reaches 12 seconds, namely the fourth preset time length is 12 seconds, so that the softener dissolved and diluted for the second time in the softener chamber is extracted into the inner barrel under the second siphoning action of the first siphoning element, returning and continuously recording the stop working time length so that the second siphoning action of the first siphoning element is completed, the softener dissolved and diluted for the second time flows into the inner barrel under the second siphoning action, and continuously controlling the water inlet device to start working to enable the first outlet to discharge water. Through many times intermittent control water installations open or close make first export be interrupted the play water and cooperate first siphon spare, the effectual softener that has guaranteed can fully dissolve and make fully dissolved softener whole, thoroughly flow into the inner barrel and can not remain in softener indoor portion, and then improve the market competitiveness of product, improve the satisfaction that the user used.

By recording the opening or closing times of the water inlet device, when the opening times reach 16 times, namely the first preset value is 16 times, at the moment, the closing times reach 15 times, namely the second preset value is 15 times, the water inlet device is controlled to start working, namely the water inlet device is closed and opened into a cycle, and the cycle is repeated for 8 times, so that the softener in the softener chamber is fully dissolved in a short time, the dissolved softener completely and thoroughly flows into the inner barrel and does not remain in the softener chamber, the regular water is fed into the inner barrel from the first outlet through controlling the water inlet device to ensure that the water inflow in the inner barrel reaches the target water inflow of the regular water as soon as possible, the water inlet efficiency is improved, and the reliability of a product is further improved.

The water level of an inner barrel of the clothes treatment device is obtained, based on the fact that the water level reaches n-d grade, namely the first preset water level is n-d grade, the water level corresponding to the target water inflow of the conventional water in the inner barrel in the rinsing stage is n-d grade, it is indicated that the water amount of the conventional water in the inner barrel reaches the target value, at the moment, the inner barrel is required to be filled with bubble water, the bubble generator of the clothes treatment device is controlled to work, the water inlet device is controlled to work, so that the water at the second outlet of the water inlet device flows out from the second outlet, the water is changed into bubble water through the bubble generator, the bubble water enters the inner barrel from the spray head body, the bubble water in the inner barrel is beneficial to improving the clothes treatment effect of. Furthermore, conventional water is firstly fed, and then bubble water is fed, so that the visualization of the bubble water is improved.

By recording the water outlet time of the second outlet and controlling the bubble generator and the water inlet device to stop working based on the fact that the water level reaches the preset water level n grade of the rinsing stage, the water level in the inner barrel is shown to reach the preset water level n grade of the rinsing stage, no bubble water and no water enter the inner barrel, the water level in the inner barrel is ensured to be matched with the preset water level of the rinsing stage, the reliability of a product is improved, the problem that the bubble generator continues to work to waste energy and increase the use cost after the water level in the inner barrel reaches the preset water level of the rinsing stage is avoided, the energy is effectively saved, the use cost is reduced, and the use satisfaction degree of a user is improved; based on the fact that the water level does not reach the preset water level n grade of the rinsing stage and the water outlet time reaches 8 seconds, namely the first preset time is 8 seconds, that is, the water level in the inner tub does not reach the preset water level in the rinsing stage within 8 seconds, which indicates that abnormal water inflow occurs due to abnormal water pressure caused by the bubbling of the intake air, if the water inflow amount of the bubbling water in the inner tub becomes small, or no bubble water enters the inner barrel and waits for water to enter to cause overtime water inlet, the bubble generator is controlled to stop working, the water inlet device is controlled to work to enable the first outlet to discharge water, so that the bubble water is stopped from entering the inner barrel, the regular water is changed into the inner barrel, thereby ensuring the sufficient water inflow of the inner barrel, avoiding the problem of overtime water inflow caused by the insufficient water inflow of the inner barrel due to abnormal water pressure, being beneficial to ensuring that the clothes processing device finishes water inflow within a certain time, meanwhile, when the first outlet discharges water, the bubble generator is controlled to stop working, so that energy is saved, and the use cost is reduced; when the water level reaches the preset water level n grade of the rinsing stage, the water inlet device is controlled to stop working, so that the water level in the inner barrel is matched with the preset water level of the rinsing stage, and the reliability of the product is improved. The purpose of this process is: washing machine operating water pressure is 0.03Mpa ~ 1Mpa, under the special work environment, water pressure is less than 0.03Mpa, discharge is less, it is unusual big to appear in the total time of intaking, simultaneously, low-pressure rivers can not produce intensive bubble through bubble generator, it is slower to go out water, therefore, the time of intaking bubble water appears unusual back, this process no longer utilizes bubble generator to intake bubble water, directly advance conventional water to the predetermined water level n shelves of rinsing stage, guarantee to accomplish intaking and the inflow reaches the predetermined water level of rinsing stage in certain time, and then guarantee that the rinsing stage can be accomplished on time, promote user's use and experience, improve the market competition of product.

Further, the laundry treating apparatus starts a rinsing operation after the rinsing stage finishes water inflow, that is, after the water level in the inner tub reaches a preset water level n level of the rinsing stage, and then performs a dehydrating operation to finish a preset work of the laundry treating apparatus. Further, the first preset value, the second preset value, the first preset duration, the second preset duration, the third preset duration, the fourth preset duration, and the preset water level in the rinsing stage may be set by a control system of the washing machine, or may be set manually.

According to another aspect of the present invention, there is provided a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the water intake control method of any of the above embodiments.

The present invention provides a computer readable storage medium, on which a computer program is stored, wherein the computer program, when executed by a processor, implements the steps of the water inlet control method for a clothes treatment apparatus according to any one of the above embodiments, thereby having all the technical effects of the water inlet control method, and the detailed description thereof is omitted.

Computer readable storage media may include any medium that can store or transfer information. Examples of computer readable storage media include electronic circuits, semiconductor memory devices, ROM, flash memory, Erasable ROM (EROM), floppy disks, CD-ROMs, optical disks, hard disks, fiber optic media, Radio Frequency (RF) links, and so forth. The code segments may be downloaded via computer networks such as the internet, intranet, etc.

In the present invention, the term "plurality" means two or more unless explicitly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

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

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

Claims (13)

1. A laundry treating apparatus (100), comprising:

an inner barrel (1);

a water inlet device (2), the water inlet device (2) being provided with a first outlet (22) and a second outlet (24);

the spray head body (3) is provided with a chamber (36) communicated with the first outlet (22), the chamber (36) is communicated with the inner barrel (1), and the spray head body (3) is communicated with the second outlet (24) to enable water to flow into the inner barrel (1) from the spray head body (3) through the second outlet (24);

a bubble generator (4) disposed between the second outlet (24) and the showerhead body (3) for generating bubbles;

the controller is connected with the water inlet device (2) and the bubble generator (4), and is used for controlling the working states of the bubble generator (4) and the water inlet device (2).

2. The laundry processing apparatus (100) according to claim 1, characterized in that the chamber (36) comprises:

the softener chamber (32) is provided with a first liquid outlet, and the softener chamber (32) is communicated with the inner barrel (1) through the first liquid outlet;

the spray head body (3) further comprises a first siphon piece (5), and the first siphon piece (5) is arranged at the first liquid outlet.

3. The laundry processing apparatus (100) according to claim 2, further comprising:

the reversing valve (7) is connected with the controller, and the reversing valve (7) is arranged between the water inlet device (2) and the spray head body (3) and is connected with the first outlet (22);

the chamber (36) further comprises a detergent chamber (34) located on one side of the softener chamber (32), the reversing valve (7) is connected with the detergent chamber (34) and the softener chamber (32), and the reversing valve (7) can enable the first outlet (22) to be communicated or isolated with the detergent chamber (34) and/or the softener chamber (32) in an operation mode.

4. The laundry processing apparatus (100) according to claim 3,

the detergent chamber (34) is provided with a second liquid outlet, and the detergent chamber (34) is communicated with the inner barrel (1) through the second liquid outlet;

the spray head body (3) further comprises a second siphon piece (6), and the second siphon piece (6) is arranged at the second liquid outlet.

5. The laundry treatment apparatus (100) according to any one of claims 1 to 4, characterized in that the bubble generator (4) comprises:

the body (42) is arranged between the water inlet device (2) and the spray head body (3), and the body (42) is communicated with the second outlet (24);

a pump body (44) in communication with the body (42), the pump body (44) operable to provide gas to the body (42).

6. A water inflow control method for a laundry treatment apparatus according to any one of claims 1 to 5, comprising:

entering a washing or rinsing stage, and acquiring the water level of an inner barrel of the clothes treatment device;

controlling a bubble generator of the clothes treatment device to start working based on the water level reaching a first preset water level, and controlling a water inlet device of the clothes treatment device to work to enable a second outlet to discharge water;

recording the water outlet time length of the second outlet;

and adjusting the working states of the water inlet device and the bubble generator according to the water outlet duration and the water level.

7. The water inlet control method according to claim 6, wherein the step of adjusting the working states of the water inlet device and the bubble generator according to the water outlet duration and the water level specifically comprises:

controlling the bubble generator and the water inlet device to stop working based on the water level reaching a preset water level in a washing stage or a preset water level in a rinsing stage;

based on the fact that the water level does not reach the preset water level of the washing stage or the preset water level of the rinsing stage and the water outlet time reaches a first preset time, controlling the bubble generator to stop working, controlling the water inlet device to work to enable a first outlet to discharge water, and controlling the water inlet device to stop working when the water level reaches the preset water level of the washing stage or the preset water level of the rinsing stage;

wherein the first preset water level is less than the preset water level of the washing stage, or the first preset water level is less than the preset water level of the rinsing stage.

8. The water inlet control method as claimed in claim 7, further comprising, after the step of entering the washing or rinsing stage and before the step of obtaining the water level of the inner tub:

controlling a reversing valve of the clothes treatment device to work to enable the first outlet to be communicated with a detergent chamber of the clothes treatment device based on entering the washing stage;

controlling the reversing valve to work to enable the first outlet to be communicated with a softener chamber of the clothes treatment device based on entering the rinsing stage;

and controlling the water inlet device to work to enable the first outlet to discharge water.

9. The method according to claim 8, wherein the step of controlling the water inlet device to operate to discharge water from the first outlet specifically comprises:

the water inlet device is controlled to be opened or closed intermittently, so that water is discharged from the first outlet intermittently;

recording the opening or closing times of the water inlet device;

controlling the water inlet device to continue working based on the opening times reaching a first preset value, or

And controlling the water inlet device to start working based on the closing times reaching a second preset value.

10. The water inlet control method according to claim 9, wherein the step of intermittently controlling the water inlet device to be opened or closed to intermittently discharge water from the first outlet comprises:

controlling the water inlet device to start working to enable the first outlet to discharge water, and recording the first working duration of the water inlet device;

controlling the water inlet device to stop working based on the fact that the first working time length reaches a second preset time length;

recording the stop working time of the water inlet device;

controlling the water inlet device to start working to enable the first outlet to discharge water based on the fact that the working stop time reaches a third preset time, and recording a second working time of the water inlet device;

controlling the water inlet device to stop working based on the fact that the second working duration reaches a fourth preset duration, and returning and continuously recording the working stop duration;

the second preset time length is longer than the third preset time length;

the second preset time is longer than the fourth preset time.

11. The water inflow control method according to claim 10,

the first preset time is 60 seconds to 300 seconds;

the range of the first preset value is 2 times to 16 times;

the range of the second preset value is 1 to 15 times;

the second preset time is in a range of 10 seconds to 240 seconds;

the third preset time is 5 seconds to 30 seconds;

the fourth preset time period ranges from 5 seconds to 30 seconds.

12. The water inlet control method as claimed in any one of claims 8 to 11, wherein after the step of entering the washing or rinsing stage and before the step of obtaining the water level of the inner tub, further comprising:

controlling the reversing valve to work to enable the first outlet to be communicated with the detergent chamber based on entering the rinsing stage.

13. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the intake control method according to any one of claims 7 to 12.

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