CN115928377A

CN115928377A - Control method of clothes treatment equipment and clothes treatment equipment

Info

Publication number: CN115928377A
Application number: CN202110993025.6A
Authority: CN
Inventors: 滕茂林; 马世新; 李昌龙
Original assignee: Qingdao Haier Washing Electric Appliance Co Ltd; Haier Smart Home Co Ltd
Current assignee: Qingdao Haier Washing Electric Appliance Co Ltd; Haier Smart Home Co Ltd
Priority date: 2021-08-27
Filing date: 2021-08-27
Publication date: 2023-04-07

Abstract

The invention provides a control method of clothes treatment equipment, which directly sprays an additive onto clothes along with inflow water flow; washing the laundry wetted with the injected additive; defoaming the washed clothes; and carrying out subsequent clothes treatment process on the clothes subjected to defoaming treatment. The method has the advantages that the washed clothes are subjected to subsequent clothes treatments such as defoaming treatment and rinsing, so that the problem that the subsequent clothes treatment process is influenced by excessive foams generated by the clothes with high additive content after washing treatment is avoided; particularly, the remarkable technical progress that when the subsequent program is executed on the clothes which have higher additive content and are subjected to the concentrated washing program, the excessive foam generated in the drum can be effectively avoided is realized. Meanwhile, the invention also discloses a clothes treatment device applying the control method.

Description

Control method of clothes treatment equipment and clothes treatment equipment

Technical Field

The invention belongs to the technical field of clothes treatment equipment, particularly relates to a control method of the clothes treatment equipment, and particularly relates to a control method which is applied to the clothes treatment equipment for directly spraying and putting additives to clothes along with inlet water and reduces the defoaming generation amount in the working process.

Background

The existing washing machine is generally provided with a water containing barrel for containing washing water, a rotatable washing barrel is arranged in the water containing barrel, and dewatering holes communicated with the inside and the outside are formed in the washing barrel, so that the washing water flowing into the water containing barrel can flow inside and outside the washing barrel in an interactive mode through the dewatering holes, and the effects that the washing water is contacted with a load to be treated in the washing barrel and the load is treated by the washing water are achieved.

The additive feeding mode of the existing washing machine is as follows: the additive is put into a pipeline communicated with a water containing barrel of the washing machine through an additive putting device, and then the put additive flows into the water containing barrel of the washing machine along the pipeline. Therefore, the additives put in the existing mode are positioned in a water containing cylinder and outside a washing cylinder of the washing machine and cannot be directly contacted with a load put in the washing cylinder.

Then, when the washing machine executes the washing program, the thrown additive is mixed with the washing water flowing into the water containing barrel, and part of the washing water mixed with the additive flows into the washing barrel through the dewatering holes and contacts with the load to be processed in the barrel, so that a small part of the additive mixed into the washing water contacts with the load to act on the load. Therefore, the traditional additive feeding mode has the problems of low use efficiency of the fed additive and waste of the additive.

Meanwhile, in the traditional additive feeding mode, in order to ensure that the additive fed between the water containing barrel and the washing barrel is contacted with the load to be treated in the washing barrel, a large amount of water needs to flow into the water containing barrel until the water level of the washing water in the water containing barrel is higher than that of the washing barrel, and the purposes that the washing water flows into the washing barrel through the dewatering holes and the additive is contacted with the load in the washing barrel can be ensured. Therefore, the traditional additive feeding mode has the problem that the water for feeding the additive is excessive.

The technical scheme that the additive is directly sprayed to the clothes along with inflow water and is directly put into the clothes is proposed by the applicant, and after the technical scheme is adopted, the additive is directly sprayed to the clothes, so that the loss amount of the additive is reduced, the inflow water is reduced, and the clothes treatment effects of washing and the like of the clothes treatment equipment are obviously improved.

However, in the above scheme, the additive is directly sprayed to the clothes, so that the concentration of the additive contained in the clothes is high; meanwhile, in the washing process, the washing water does not contact with the clothes, so that the high-concentration additive can be remained on the clothes after washing; after washing, a large amount of foam is generated in the drum by supplying water into the washing drum and performing subsequent treatments such as rinsing the laundry using the supplied water.

In view of the above, the present invention is particularly proposed.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an additive feeding method to achieve the purpose of uniformly mixing water and a detergent and then directly spraying the mixture to clothes to be washed in a washing drum. Meanwhile, the invention also provides a control method of the clothes treatment equipment, so as to reduce the foam generation amount in the working process and realize the purpose of defoaming the clothes with overhigh additive content.

In order to achieve the purpose of the invention, the basic concept of the technical scheme adopted by the invention is as follows:

the invention provides a control method of clothes treatment equipment, which directly sprays an additive onto clothes along with inflow water flow; washing the laundry wetted with the injected additive; defoaming the washed clothes; and carrying out subsequent clothes treatment process on the clothes subjected to defoaming treatment.

Further, the washed clothes are subjected to defoaming treatment, which comprises the following steps,

water is fed into a washing drum of the clothes treatment equipment, and the water flow washes clothes in the washing drum;

and/or the washing drum rotates at a set rotating speed, clothes in the washing drum are attached to the wall of the washing drum under the action of centrifugal force and rotate together with the washing drum, and additives and/or water in the clothes flow out of the washing drum after being separated.

s1, controlling a washing drum to rotate at a set rotating speed to drive clothes in the drum to stick to the drum wall and rotate along with the washing drum, and separating and throwing water contained in the clothes out of the washing drum under the action of a rotating centrifugal force;

s2, water is fed into the washing drum, the washing drum synchronously rotates when water is fed, clothes in the drum are driven to stick to the drum wall and rotate along with the washing drum, and the water flow washes the clothes sticking to the drum wall and rotating along with the washing drum;

preferably, the inflow water flow is sprayed from the inside of the washing drum to the direction of the drum wall to the clothes rotating close to the drum wall.

Further, in step S2, the water amount of the washing water entering the washing drum is a set value L, and the set value L is a preset value corresponding to any one or a combination of the type, weight and selected program of the laundry in the washing drum;

in the steps S1 and S2, the washing drum keeps unidirectional rotation at a set rotating speed, clothes in the washing drum are adhered to the drum wall under the action of centrifugal force and rotate together with the drum, and additives and/or water on the clothes are separated from the clothes under the action of the centrifugal force.

Further, in the defoaming process executed by the clothes treatment equipment, the water level H in the water containing barrel is detected; when the water level H in the water containing barrel reaches or is about to reach the lowest height H1 of the washing barrel, the clothes treatment equipment stops feeding water into the washing barrel.

Further, when the clothes processing equipment executes the defoaming processing to reach a set time node, executing a turning step;

the overturning step comprises that the washing drum rotates at a set rotation-stop ratio, and clothes in the washing drum generate overturning action in the washing drum under the action of centrifugal force of the washing drum with changed rotation speed and/or rotation direction;

after the step of overturning is carried out, the washing drum continues to carry out defoaming treatment, the washing drum is controlled to rotate at a set rotating speed to drive clothes in the drum to stick to the drum wall and rotate along with the washing drum, and the water inflow continues to wash the clothes sticking to the drum wall and rotating along with the washing drum.

Further, directly spraying additive and/or water inflow water flow into the washing drum from the top of the drum opening of the washing drum, and spraying the additive and/or water inflow water flow onto the clothes rotating along the drum wall from the inside of the washing drum to the direction of the drum wall so as to wash or rinse the clothes;

preferably, the water level height H in the water containing barrel is always lower than the lowest height H1 of the washing barrel in the process of spraying water to the clothes in the washing barrel.

Further, after the additive is added, the washing drum rotates according to the set rotation-stop ratio and the rotation speed corresponding to the selected program, and the clothes in the washing drum are washed.

Further, the subsequent clothes treatment process of the defoaming treatment comprises any one or combination of a washing process, a rinsing process, a dewatering process and a drying process;

preferably, the rinsing process is performed to the laundry after the defoaming treatment.

The invention also provides a clothes treatment device adopting the control method of any one of the clothes treatment devices, which comprises a water supply waterway through which the inflow water flows and a feeding structure for feeding additives into the water supply waterway; the outlet of the water supply waterway is connected with a water outlet structure arranged in a washing drum facing the clothes treatment equipment and used for directly spraying the additive and/or the water inlet current to the clothes contained in the washing drum.

Furthermore, the washing cylinder is coaxially and rotatably arranged in the water containing cylinder around the shaft, and the washing cylinder is provided with water through holes which communicate the inner space of the washing cylinder with the space between the washing cylinder and the water containing cylinder; a water level sensor for detecting the height of the water level in the water containing barrel is arranged on the water containing barrel;

further, a heater for heating the water filled in the water containing barrel is arranged at the bottom of the water containing barrel, and the heater is arranged at the bottom of the water containing barrel; the bottom of the water containing barrel is also connected with a drain pipe, and a control device for controlling the on-off of the water flow in the pipeline is arranged on the drain pipe;

preferably, the clothes treatment device further comprises a drying system, the drying system comprises an air duct arranged outside the water containing barrel, a heating device capable of generating hot drying air flow is arranged in the air duct, an air outlet of the air duct is communicated with the water containing barrel, and the hot drying air flow generated in the air duct flows into the washing barrel in the water containing barrel to heat clothes contained in the washing barrel.

After adopting the technical scheme, compared with the prior art, the invention has the following beneficial effects:

the subsequent clothes treatments such as rinsing and the like are carried out after the clothes after being washed are subjected to defoaming treatment, so that the problem that the subsequent clothes treatment program is influenced by the excessive foam generated by the clothes with high additive content after the washing treatment is avoided, and especially the remarkable technical progress that the excessive foam is avoided from being generated in the drum when the subsequent program is executed on the clothes after the concentrated washing program with high additive content is realized.

Meanwhile, by the control method, the additive mixed liquid is directly and uniformly sprayed to the clothes in the washing drum, so that the clothes to be washed are directly wetted by the mixed liquid, and the water consumption in the washing process is reduced; the additive can be directly and uniformly distributed on the clothes, the use efficiency of the additive is improved, and the loss of the additive is reduced.

Meanwhile, the invention has simple structure and obvious effect and is suitable for popularization and use.

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention, are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without limiting the invention to the right. It is obvious that the drawings in the following description are only some embodiments and that for a person skilled in the art, other drawings can also be derived from them without inventive effort. In the drawings:

FIG. 1 is a block diagram schematically showing the construction of a laundry treating apparatus according to an embodiment of the present invention;

fig. 2 to 4 are schematic structural views of different views of a laundry treating apparatus according to an embodiment of the present invention;

FIG. 5 isbase:Sub>A schematic view of the cross-section A-A of FIG. 4 in accordance with an embodiment of the present invention;

FIG. 6 is a schematic diagram of a washing machine with the top surface of the dispensing device removed according to an embodiment of the present invention;

FIG. 7 is a logic diagram for controlling the operation of the laundry treating apparatus according to one embodiment of the present invention;

FIG. 8 is a logic diagram for controlling the operation of a laundry treating apparatus according to another embodiment of the present invention;

FIG. 9 is a logic diagram for controlling a water supply process of the laundry treating apparatus according to an embodiment of the present invention;

FIG. 10 is a logic diagram for controlling a water supply process of a laundry treating apparatus according to another embodiment of the present invention;

FIG. 11 is a logic diagram for controlling a heating process of the clothes treating apparatus according to an embodiment of the present invention;

FIG. 12 is a logic diagram of a rinsing or defoaming process of the laundry treating apparatus according to an embodiment of the present invention;

FIG. 13 is a logic diagram of a rinsing or defoaming process of a clothes treating apparatus according to another embodiment of the present invention.

Description of the main elements in the figures: 100. a delivery device; 200. a water containing cylinder; 300. a washing drum; 400. a window pad; 500. a nozzle; 600. a conduit; 1. a water supply waterway; 2. a housing; 3. a heater; 4. a drain pipe; 5. a water level sensor; 6. draining pump; 11. and (7) an outlet.

It should be noted that the drawings and the description are not intended to limit the scope of the inventive concept in any way, but to illustrate it by a person skilled in the art with reference to specific embodiments.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and the following embodiments are used for illustrating the present invention and are not intended to limit the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 to 6, there is also introduced in an embodiment of the present invention a laundry treating apparatus including: the device comprises a water containing barrel 200 for containing water, a washing barrel 300 which is arranged in the water containing barrel 200 and can rotate and is used for containing the load to be treated, and an additive feeding device 100 for directly feeding an additive into the washing barrel 300. Through the arrangement, the washing machine can realize the using effect that the additive is directly put into the washing drum 300 and the put additive is directly sprayed to the load to be treated in the washing drum 300, and further achieve the remarkable technical improvement of improving the utilization rate of the additive.

In the embodiment of the present invention, the laundry processing apparatus may be a device having any one or a combination of functions of washing, drying, ironing, refreshing, and the like, for example: washing machines, washing and drying machines, and the like.

In the embodiment of the present invention, the additive feeding device may feed the additive into the washing drum in any one of the existing solid, liquid and gaseous laundry additives, for example: washing powder, detergent, rinse, softener, disinfectant, bleach, and the like.

As shown in fig. 1 to 6, an additive dispensing device 100 according to an embodiment of the present invention includes: a water supply waterway 1 through which the inflow water entering the additive feeding device 100 flows; the feeding structure is used for feeding additives into the water supply waterway 1; the nozzle 500, the outlet 11 of the water supply path 1 is connected with the nozzle 500 through the conduit 600, and the nozzle 500 is arranged towards the washing machine washing drum 300. When the additive is put in, a small amount of water enters the water supply waterway, so that the additive is mixed with a small amount of water in the water supply waterway 1 to form an additive solution, the additive solution supplied by the water supply waterway 1 can be directly sprayed to a load to be treated in the washing cylinder 300 through the nozzle 500, and the utilization rate of the put additive is obviously improved.

Through the device, the additive is directly thrown outwards through the water path arranged on the throwing device 100, the additive flowing through the water box is avoided, the flowing path of the additive is reduced, the flushing water quantity required by the additive throwing is reduced, and the utilization rate of the additive is greatly improved.

In the embodiment of the invention, the nozzle 500 can be any existing water inlet structure which can spray water into underwear in the washing drum; for example: a shower head for spraying water, etc. In the embodiment of the present invention, the nozzle 500 may have only one water spraying hole or a plurality of water spraying holes, so that the spray inflow water flowing into the washing drum from the nozzle may directly flow onto the clothes in the washing drum in any form of spraying, sprinkling, etc., to achieve the effects of wetting the clothes and/or adding additives.

As shown in fig. 1 to 6, in the embodiment of the present invention, the water supply path 1 is integrated on the housing 2 of the additive feeding device 100, the outlet 11 of the water supply path 1 is disposed outside the housing 2, the nozzle 500 is disposed outside the housing 2, and the outlet 11 of the water supply path 1 is communicated with the nozzle 500 through the conduit 600. Preferably, a window pad 400 is arranged between the opening of the water containing barrel 200 and a clothes throwing opening arranged on the shell of the clothes treatment equipment, and the nozzle 500 is arranged at the top of the window pad 400 and is opened towards the connection part of the inside of the washing barrel and the bottom of the barrel bottom and the barrel wall, so that the water flow sprayed by the nozzle can cover all areas of the washing barrel in the axial direction; meanwhile, the window gasket 400 is in a cylindrical shape capable of axially stretching and deforming, and two ends of the window gasket are respectively connected with the shell and the water containing barrel, so that the water containing barrel can be communicated with the clothes throwing port through the window gasket, and the situation that water in the water containing barrel flows between the shell and the water containing barrel is prevented.

By integrally arranging the water supply waterway 1 on the housing 2 of the additive feeding device 100, the outlet 11 of the water supply waterway 1 is directly connected with the nozzle 500 to spray the additive and the inlet water pumped out through the water supply waterway 1 together, thereby realizing the purpose that the additive feeding device 100 directly sprays and feeds the additive outwards through the nozzle 500 without passing through the water box part of the feeding device 100.

Referring to fig. 1 to 13, in the embodiment of the present invention, an additive feeding method applied to the laundry treatment apparatus is introduced, after an incoming water flow and a fed additive are mixed in a water supply path, a mixed solution is directly sprayed into a rotating washing drum, so as to achieve the purpose of directly feeding the additive to the laundry, thereby achieving a significant technical improvement of reducing an additive loss rate and improving a laundry effect. Meanwhile, the invention also provides a control method applied to the clothes treatment equipment, after the additive is directly sprayed to the clothes in the washing drum along with the inlet water, the height H of the water level in the water containing drum is controlled to be always lower than the lowest height H1 of the washing drum, so that a small amount of inlet water which does not immerse the clothes is utilized to carry out clothes treatment procedures such as washing and the like on the clothes, further, the condition that the accumulated water in the water containing drum is always not contacted with the clothes in the washing drum in the whole working process of the clothes treatment equipment is ensured, the working time of the clothes treatment equipment can be effectively shortened, the power consumption can be reduced on the basis of reducing the usage amount of the additive and the inlet water, and the clothes treatment effect can be obviously improved. In the embodiment of the invention, the water inlet structure adopted by the clothes treatment equipment for spraying water to clothes in the washing drum can be any one of the existing structures such as a nozzle, a spray nozzle, a water inlet pipe and the like; the water jet can be in a pressurized form or a non-pressurized form; of course, the water jet may be in the form of a direct jet, a plurality of sprays, and the like.

By the control method, the additive mixed liquor is directly and uniformly sprayed to the clothes in the washing drum, so that the clothes to be washed are directly wetted by the mixed liquor, and the water consumption in the washing process is reduced; the additive can be directly and uniformly distributed on the clothes, the use efficiency of the additive is improved, and the loss of the additive is reduced.

Example one

Referring to fig. 7 to 9, the present embodiment describes a control method of a laundry treatment apparatus, and more particularly relates to a water feeding and additive dispensing method of a laundry treatment apparatus, the laundry treatment apparatus includes a washing drum for accommodating laundry to be treated, and a water accommodating drum rotatably installed in the washing drum for accommodating water; in the water inlet process of the clothes treatment equipment, the thrown additive is directly sprayed to clothes held in the washing drum along with the water inlet flow until the water level H in the water holding drum reaches the set water level H', and then the water inlet is stopped.

Through the arrangement, the clothes treatment equipment synchronously feeds the additives in the water inlet process, so that the additives are directly sprayed to the clothes along with the inlet water, and the obvious technical progress of improving the feeding efficiency of the additives, reducing the feeding amount and the like is realized; in addition, after the clothing is soaked completely by intaking, the intaking can flow to flourishing water section of thick bamboo from the wash bucket, and this application monitors water level in flourishing water section of thick bamboo through intaking the in-process, just can effectively judge whether the clothing is soaked completely, and then can reach and carry out the showing technological progress of accurate control to the end node of intaking of clothing treatment facility.

As shown in fig. 1 and 9, in the present embodiment, the water level H' is set to be lower than the lowest height H1 of the washing tub; preferably, the bottom of the water containing barrel is provided with a heater, and the set water level H' is higher than the height H2 of the heater arranged at the bottom of the water containing barrel. Through the arrangement, when clothes are treated and washed and other clothes treatment procedures are carried out, the clothes can be directly soaked and treated by utilizing water inlet sprayed to the clothes along with the water inlet, and the problems that a large amount of water needs to be fed when an additive is fed, the feeding utilization rate is high and the like are avoided. Meanwhile, in the whole washing and other clothes treatment processes of the clothes treatment equipment, the water level is always lower than the height of the washing drum, so that clothes cannot be directly contacted with the water storage in the water containing drum, the drying time of the clothes is reduced, and the clothes treatment speed is improved.

In this embodiment, the above-mentioned additives are directly sprayed to the clothes in the washing drum along with the water flow, which specifically includes the following steps,

s101, feeding water into a washing drum from a water supply water path, wherein the water flow sprays the clothes contained in the washing drum;

step S102, pumping the additive into a water supply waterway;

and step S103, feeding water into the water supply waterway, mixing the fed water with the additive in the water supply waterway, and directly spraying the mixed solution into the washing cylinder.

Further preferably, the water supply path stops the water supply when step S102 is executed.

Through the embodiment, the clothes treatment equipment can directly spray the additive to the soaked clothes by using a small amount of inlet water, so that the effect of effectively putting the additive is achieved. Meanwhile, in the steps and the additive feeding process, the washing drum synchronously rotates around the shaft, so that the additive fed along with the inflow water can be directly and uniformly sprayed to the clothes uniformly distributed in the washing drum, and the remarkable technical progress of improving the mixing uniformity of the clothes and the additive can be achieved.

Preferably, in the embodiment, in the water inlet process and the additive adding process of the clothes treatment equipment, the washing drum rotates around the shaft in a single direction at a set rotating speed, and clothes in the washing drum are adhered to the drum wall under the centrifugal force action of the rotating washing drum and synchronously rotate along with the washing drum, so that the clothes are uniformly laid on the drum wall of the washing drum, and the remarkable technical progress that the area of the clothes is increased and the adding uniformity of the additives to the clothes is improved is further realized.

In this embodiment, in the step S101, the water supply path stops when the amount of the inlet water into the washing drum reaches the set value L1; in the step S102, the additive is pumped into the water supply waterway until the input amount reaches a set value L2 and/or the additive extraction time reaches a set value t 1; in step S103, the supply of water to the water supply path is stopped when the water supply amount reaches a set value L3.

Preferably, in this embodiment, the setting values L1, L2, t1, and L3 are preset values obtained by a program selected by the laundry processing device and/or corresponding to the type and weight of the laundry to be processed in the washing drum, so as to implement adding the additives with different parameters, such as corresponding amount and type, to the laundry with different parameters, such as corresponding material and weight, thereby achieving a significant technical progress of performing intelligent and diversified control on the laundry processing process.

In this embodiment, in the water inlet process of the clothes treatment apparatus, the above steps S101 to S103 are sequentially repeated to perform a cyclic execution, so as to achieve an effect of adding the additive in different nodes for multiple times in the water inlet process, thereby achieving significant technical progress of improving the adding efficiency and the adding uniformity of the additive.

Meanwhile, in the embodiment, the water level H in the water containing barrel is continuously detected in the water inlet process, and when the water level H in the water containing barrel reaches the set water level H ', the circulation from the step S101 to the step S103 is skipped, and the water inlet process is stopped, so that the water inlet is finished after the additive feeding circulation is finished after the water level H in the water containing barrel reaches the set water level H';

or, in the water inlet process, after the step S101 and/or the step S103 are/is executed each time, the water level H in the water containing barrel is detected, and when the water level H in the water containing barrel reaches the set water level H ', the circulation from the step S101 to the step S103 is skipped, and the water inlet process is stopped, so that the water inlet is directly finished after the water level H in the water containing barrel reaches the set water level H'.

In the embodiment, during and/or after the water inlet process of the clothes treatment device is finished, clothes to be treated contained in the washing drum are heated; preferably, as shown in fig. 7 and 8, after the water inlet process of the laundry treating apparatus is completed, the heating treatment of the laundry in the washing tub is started.

In this embodiment, the clothes to be treated held in the washing drum is heated by any one of the heating methods in the prior art, for example:

as shown in fig. 1 and 11, in the present embodiment, the laundry treating apparatus is a washing machine, etc., a heater 3 is provided at the bottom of a water containing drum 200, and the laundry to be treated contained in a washing drum 300 is heated by the heater 3. After water inflow is finished, the heater 300 arranged at the bottom of the water containing barrel 200 starts to work, the water level H in the water containing barrel 200 is higher than the height H2 of the heater, the heater 3 is immersed in the water storage in the water containing barrel 200 and directly heats the inflow water flowing from the washing barrel 300 to the water containing barrel 200, and the steam generated by heating enters the washing barrel 300 to heat the clothes to be treated contained in the washing barrel 300.

In this embodiment, the laundry processing apparatus may be a dryer, a washing and drying machine, and the like, and a drying system is installed outside the water containing drum, and the drying system has a heater, a fan, and the like capable of generating a drying airflow, and an air duct for blowing the generated drying airflow into the washing drum. At any time point after water inlet is finished or in the water inlet process, the clothes treatment equipment can utilize the drying system to heat the clothes to be treated contained in the washing drum. The specific process of heating the laundry in the laundry treating apparatus is as follows: the drying system starts to work to generate drying airflow, the drying airflow is blown into the washing drum and blows clothes in the washing drum to heat the clothes to be treated in the washing drum; meanwhile, the damp and hot air in the washing drum can be discharged to the outside of the clothes treatment equipment, or the moisture contained in the washing drum can be condensed and separated by the condenser, so that the effects of reducing the humidity of the air in the washing drum and synchronously drying the clothes can be realized (not shown in the attached drawings).

As shown in fig. 1 and fig. 11, in the present embodiment, when the laundry processing device is a washing machine, etc., a heater 3 is disposed at the bottom of the water drum 200, and the heater 3 is used to heat the laundry to be processed in the washing drum 300, the control manner is as follows:

when the heater 4 arranged at the bottom of the water containing barrel 200 heats the water inlet at the bottom of the water containing barrel 200, the water level in the water containing barrel 200 needs to be detected, so that the water level in the water containing barrel 200 is ensured to be in a set interval, wherein the set interval is greater than or equal to the height H2 of the heater arranged in the water containing barrel and less than or equal to the lowest height H1 of the washing barrel;

when the water level H in the water containing barrel is lowered to or is about to be lowered to the height H2 of a heater arranged in the water containing barrel, water is fed into the water containing barrel so as to ensure that the heater is completely immersed in the stored water in the water containing barrel when the heater is heated, and the dry burning of the heater is avoided;

when the water level H in the water containing barrel rises to or is about to rise to the lowest height H1 of the washing barrel, the water containing barrel discharges water outwards so as to prevent the water level in the water containing barrel from being overhigh and directly flowing into the washing barrel to soak clothes to reduce the content of clothes additives to influence the washing effect and the like.

Preferably, in this embodiment, in the process of heating the clothes to be treated held in the washing drum, the washing drum can synchronously rotate around the shaft, so that the clothes in the washing drum are turned over, and all positions of the clothes can exchange heat with the heating air flow flowing into the washing drum, thereby improving the heating uniformity of the clothes in the washing drum and improving the washing effect.

In the embodiment, in the water inlet process and the additive feeding process of the clothes treatment equipment, the washing drum rotates around the shaft at the set rotating speed and the set rotating-stopping ratio so as to improve the contact uniformity of clothes and additives, further improve the feeding efficiency of the additives and improve the clothes treatment effect of the clothes treatment equipment.

In this embodiment, the additive and/or the inflow water flow are directly sprayed into the washing drum from the top of the drum opening of the washing drum, and the additive and/or the inflow water flow are sprayed onto the clothes rotating along the drum wall from the inside of the washing drum to the drum wall, so that the spraying liquid can apply an external force to the clothes along the drum wall, the clothes are prevented from rotating in the water inlet process, and the uniformity of mixing the clothes and the additive is further improved.

Example two

The present embodiment has the following technical features different from the first embodiment:

as shown in fig. 10, the present embodiment describes a control method of a laundry treatment apparatus, and more particularly relates to a water feeding and additive dispensing method of a laundry treatment apparatus, the laundry treatment apparatus includes a washing drum for accommodating laundry to be treated, and a water accommodating drum rotatably installed in the washing drum for accommodating water; in the water inlet process of the clothes treatment equipment, the thrown additive is directly sprayed to clothes held in the washing drum along with the water inlet flow, and the water inlet is stopped until the water level change rate in the water holding drum exceeds a set value.

Through the arrangement, the additive can be synchronously added into the clothes treatment equipment in the water inlet process, so that the additive is directly sprayed onto the clothes along with the inlet water, and the obvious technical progress of improving the adding efficiency of the additive, reducing the adding amount and the like is realized; and in addition, after the clothes are completely soaked by water inflow, the inflow water can flow out of the washing drum to the water containing drum, the water level rising rate in the water containing drum is monitored in the water inflow process, whether the clothes are completely soaked can be effectively judged, and then the remarkable technical progress of accurately controlling the water inflow end node of the clothes treatment equipment can be achieved.

As shown in fig. 10, in the present embodiment, during the water inlet process of the clothes treatment apparatus, the water level height H in the water containing barrel is detected in real time, and when the water level rising height Δ H in the water containing barrel exceeds the set height difference Δ H' within any set time period t, the water inlet is stopped.

In the embodiment, in the water inlet process of the clothes treatment equipment, the water inlet is stopped when the water level H in the water containing barrel reaches or is about to reach the lowest height H1 of the washing barrel. Through the arrangement, in the whole washing and other clothes treatment processes of the clothes treatment equipment, the water level is always lower than the height of the washing drum, so that clothes cannot be directly contacted with the water storage in the water containing drum, the drying time of the clothes is reduced, and the clothes treatment speed is improved.

As shown in fig. 1 and 10, preferably, in the present embodiment, during the water inlet process of the laundry treatment apparatus, the water inlet is stopped when the water level in the water containing drum reaches a set water level H', which is lower than the lowest height H1 of the washing drum; preferably, the water level H' is higher than the height H2 of the heater at the bottom of the water containing barrel, so as to ensure that the water level in the water containing barrel is higher than the heater after the water is fed into the clothes treatment equipment, and further ensure that the heater at the bottom of the water containing barrel can heat the clothes in the washing barrel by the water fed into the water containing barrel.

s101, feeding water into a washing cylinder from a water supply water path, wherein the water flow sprays wet clothes in the washing cylinder;

step S102, pumping the additive into a water supply waterway;

and step S103, feeding water into the water supply waterway, mixing the fed water and the additive in the water supply waterway, and directly spraying the mixed solution into the washing cylinder.

In the water inlet process of the clothes treatment device, the steps S101 to S103 are executed in a cycle which is repeated in sequence; and in the water inlet process, the water level in the water containing barrel is continuously detected, and after the difference between the current water level detection value in the water containing barrel and the water level detection value in the water containing barrel before the set time t exceeds the set height difference delta H', the water inlet process is jumped out and stopped after the circulation of the steps S101 to S103 is finished.

In this embodiment, each time step S101 and/or step S103 is executed, the water level H in the water container is detected in real time, and after the difference between any two adjacent water level detection values exceeds the set height difference Δ H', the current step is stopped, the circulation from step S101 to step S103 is skipped, and the water inlet process is stopped.

Similarly, in this embodiment, in step S101, the amount of water supplied from the water supply path to the washing tub is stopped after reaching the set value L1; in the step S102, the additive is pumped into the water supply channel until the input amount reaches a set value L2 and/or the additive pumping time reaches a set value t 1; in the step S103, the water supply is stopped when the water inlet amount of the water supplied to the water supply waterway reaches a set value L3; preferably, the set values L1, L2, t1, L3 are preset values corresponding to the program selected by the laundry treatment apparatus and/or the type and weight of the laundry to be treated in the washing drum.

In this embodiment, during and/or after the water inlet process of the laundry treatment device is completed, the laundry to be treated held in the washing drum may be heated in the manner described in the first embodiment, for example, the technical solution shown in fig. 11.

EXAMPLE III

As shown in fig. 7, 12 and 13, in the embodiment, a rinsing method of a clothes treating apparatus is described, in which a washing drum rotates at a set rotation speed to drive clothes in the drum to stick to a drum wall and rotate along with the washing drum; and water is fed into the washing drum, and the water flow washes the clothes which are attached to the drum wall and rotate along with the washing drum.

By the method, the washing water flow is fed into the washing drum, and the clothes in the washing drum are directly washed by the washing water flow, so that a brand-new rinsing mode for reducing the additives contained in the clothes is realized, and the effects of defoaming and rinsing the washed clothes, particularly the clothes subjected to concentrated washing with high additive content in the mode of the first embodiment or the second embodiment, are achieved.

As shown in fig. 12 and 13, in the present embodiment, the rinsing process of the laundry treating apparatus is as follows,

and S2, water is fed into the washing drum, the washing drum synchronously rotates when water is fed, clothes in the drum are driven to stick to the drum wall and rotate along with the washing drum, and the water flow washes the clothes sticking to the drum wall and rotating along with the washing drum.

By the mode, the clothes processing equipment firstly carries out dehydration processing when rinsing the clothes, and the washing water flow is recycled after the water content and the additive amount of the clothes are reduced to wash the clothes, so that the clothes cannot generate excessive foam due to the thick additive in the whole rinsing process, and the processing effect of effectively defoaming and rinsing the clothes after thick washing is realized. Meanwhile, in the process of directly washing the clothes by utilizing inflow water, the washing drum is controlled to rotate so as to drive the clothes to stick to the drum wall to rotate, so that the clothes are uniformly spread in the washing drum as large as possible, washing water can wash all positions of the clothes, and the rinsing effect of the clothes treatment equipment is greatly improved.

In this embodiment, in step S1, the washing drum rotates at a predetermined speed to drive the clothes in the drum to stick to the drum wall, and after the time of rotation with the washing drum reaches a predetermined time, step S2 is performed to start water inflow into the washing drum;

and/or in the step S1, the washing drum rotates at a set rotating speed to drive the clothes in the drum to stick to the drum wall and rotate along with the washing drum, and when the water content of the clothes in the washing drum is lower than a set value, the step S2 is executed again to start water inflow into the washing drum.

By the control method, the step nodes in the rinsing process can be judged by utilizing the accumulated time and/or the detected water content of the clothes, so that the obvious technical progress of effectively and accurately controlling the rinsing process is achieved.

In this embodiment, in the above rinsing process, the inlet water flow is directly sprayed into the washing drum from the top of the opening of the washing drum, and the inlet water flow is sprayed onto the clothes rotating along the drum wall from the inside of the washing drum, so that the spray liquid can apply an external force to the clothes along the drum wall, thereby preventing the clothes from turning over during the rinsing process of washing the clothes, and further achieving a significant technical improvement of improving the washing efficiency of the clothes.

As shown in fig. 12, in this embodiment, in step S1, the washing drum rotates at a set rotation speed to drive the clothes in the drum to stick to the drum wall and rotate along with the washing drum, the water flow thrown out of the washing drum is discharged through the water containing drum outside the washing drum and the water discharge pipe connected to the water containing drum, the external water discharge flow is detected, and when the flow rate of the external water flow is smaller than a set value, it is determined that the water content of the clothes in the washing drum is lower than the set value, step S2 is executed to start to feed water into the washing drum.

In this embodiment, in the rinsing process performed by the clothes treatment apparatus, water in the washing drum flows into the external water containing drum through the water passing hole formed in the washing drum, the drainage control device arranged on the drainage pipe connected to the water containing drum is in an open state, and water flowing out of the washing drum to the water containing drum is directly discharged outside, so that accumulated water is not retained in the water containing drum, and the problems that water in the water containing drum flows back into the washing drum again to contact with clothes and the like are avoided.

As shown in fig. 13, in this embodiment, during the rinsing process performed by the laundry processing apparatus, the water level in the water containing cylinder is detected in real time, and when the water level H in the water containing cylinder reaches the set water level H 'and the set water level H' is higher than the height H2 of the heater, the drain control device such as the drain valve or the drain pump is turned on, and the water flowing out of the washing cylinder to the water containing cylinder is directly discharged through the opened drain pipe; when the water level H in the water containing barrel reaches or is about to reach the lowest height H1 of the washing barrel, the clothes treatment equipment stops feeding water into the washing barrel so as to realize automatic adjustment of the water level in the water containing barrel in the rinsing process, further avoid the connection of accumulated water in the water containing barrel and clothes and achieve the purpose of effectively sealing the inside of the washing barrel by utilizing the accumulated water. Preferably, the set water level H' is lower than the lowest height H1 of the washing drum, so as to avoid the problems that the accumulated water in the water containing drum flows into the washing drum and the clothes in the washing drum are polluted again.

In this embodiment, when water is introduced into the washing drum, the water flow is directly sprayed to the clothes in the washing drum, and the water flow washes the clothes which are attached to the drum wall and rotate together with the washing drum.

As shown in fig. 12 and 13, in the present embodiment, in step S2, there is also a turning step, in which the laundry in the washing drum is turned over by the turning step, so as to further effectively improve the rinsing effect of the laundry.

In this embodiment, the step of turning over includes that the washing drum rotates at a set rotation-stop ratio, and the clothes in the washing drum are turned over in the washing drum under the action of the centrifugal force generated by stopping rotating the washing drum.

In this embodiment, after the washing drum performs the turning step, the washing drum continues to rotate at the set rotation speed to drive the clothes in the drum to adhere to the drum wall and rotate along with the washing drum, and the water inflow continues to flush the clothes adhering to the drum wall and rotating along with the washing drum.

Preferably, as shown in fig. 12 and 13, in the embodiment, during the rinsing process, the starting node of the turning step may be controlled according to the running time, which is as follows: and when the rinsing program reaches the set time node, executing the overturning step. Of course, the start node of the roll-over step may also be controlled in any other existing manner, for example: the different clothes treatment programs correspond to corresponding trigger nodes, or different clothes types and/or weights correspond to corresponding trigger nodes, and the like.

As shown in fig. 7, in this embodiment, the rinsing process of the laundry treatment apparatus may be executed after the washing process of the direct injection laundry concentrated washing with the additive according to the first or second embodiment is executed, so as to ensure that the laundry containing a large amount of additive can be rinsed by quickly reducing the washing direction of the additive after the washing process according to the first or second embodiment is adopted, thereby avoiding the problem of generating a large amount of bubbles during the laundry treatment process, and effectively preventing the bubbles from overflowing from the drum of the laundry treatment apparatus.

Example four

As shown in fig. 8, the present embodiment introduces a control method of a laundry treating apparatus,

spraying the additive directly onto the clothes for washing;

defoaming the washed clothes;

and carrying out subsequent clothes treatment process on the clothes subjected to defoaming treatment.

The subsequent clothes treatments such as rinsing and the like are carried out after the clothes after being washed are subjected to defoaming treatment, so that the problem that the subsequent clothes treatment program is influenced by the excessive foam generated by the clothes with high additive content after being washed is avoided, and particularly, the remarkable technical progress that the excessive foam is avoided from being generated in a drum when the subsequent program is executed for the clothes after the concentrated washing program with high additive content is executed can be realized.

As shown in fig. 12 and 13, in this embodiment, the washed laundry is defoamed by the following steps,

and/or the washing drum rotates at a set rotating speed, clothes in the washing drum are attached to the wall of the washing drum under the action of centrifugal force and rotate together with the washing drum, and additives and/or water on the clothes flow out of the washing drum after being separated from the water.

By the mode, the clothes treatment equipment firstly dehydrates the clothes, reduces the water content and the additive amount of the clothes, and then washes the clothes by using the washing water flow, so that the clothes cannot generate excessive foam due to the thick additive in the whole treatment process, the additive content on the clothes can be effectively reduced, and the effect of effectively defoaming the clothes after the thick washing treatment is realized.

As shown in fig. 12 and 13, in the present embodiment, the washed laundry is subjected to defoaming treatment, which includes the following steps,

In this embodiment, in the above defoaming process, the water flow is directly sprayed into the washing drum from the top of the drum opening of the washing drum, and the water flow is sprayed onto the clothes rotating along the drum wall from the inside of the washing drum, so that the external force applied to the clothes along the drum wall can be applied to the clothes by the sprayed liquid, the clothes are prevented from being turned over in the defoaming process of washing the clothes, and the significant technical progress of improving the washing efficiency of the clothes and reducing the content of the additives in the clothes is achieved.

In this embodiment, in step S2, the amount of washing water entering the washing drum is a set value L, and the set value L is a preset value corresponding to any one or a combination of the type, weight and selected program of the laundry in the washing drum.

In this embodiment, in steps S1 and S2, the washing drum keeps rotating in one direction at a set rotation speed, the clothes in the washing drum adhere to the drum wall under the action of centrifugal force and rotate together with the drum, and the additive and/or water on the clothes are separated from the clothes under the action of centrifugal force.

In this embodiment, the step of spraying the additive directly onto the laundry to wash includes spraying water into the washing drum, and spraying the additive directly onto the laundry in the washing drum along with the inlet water. Preferably, the water level in the water containing barrel is always lower than the lowest height of the washing barrel in the process of spraying water to the clothes in the washing barrel.

In this embodiment, after the water inlet process of the laundry treatment apparatus is completed and the additive is added, the washing drum rotates at a set rotation-stop ratio and a set rotation speed according to a corresponding program, so as to wash the laundry in the washing drum.

In this embodiment, the additive is directly sprayed to the clothes for washing, the additive may be put in and water may be fed in a manner as described in the first or second embodiment shown in fig. 7 to 10, and the clothes may be subjected to concentrated washing with a high additive content by using the put-in additive and the fed water; of course, it is also possible to heat the laundry in the washing drum and then perform the washing in the manner described in the first or second embodiment.

In this embodiment, the subsequent laundry processing procedure includes any one or a combination of a washing procedure, a rinsing procedure, a dewatering procedure, and a drying procedure. Preferably, the subsequent laundry treatment process includes, but is not limited to, a rinsing process; the rinsing procedure can be conventional, water is fed into the water containing barrel to a rinsing water level, the rinsing water level is generally higher than the lowest height H1 of the washing barrel, and the rinsing treatment for reducing the content of the additive is carried out on the clothes in the washing barrel by utilizing the water flow which flows into the washing barrel and reaches the rinsing water level; of course, the rinsing process can also use the rinsing method described in the third embodiment to rinse the laundry with the flow of the washing water.

EXAMPLE five

As shown in fig. 1 to 6, the present embodiment describes a laundry treating apparatus applying any one of the control methods of one to four of the above embodiments, which includes a washing drum 300 for placing laundry; the washing cylinder 200 is coaxially and rotatably mounted in the water containing cylinder 200 around an axis, and water through holes are formed in the washing cylinder 300, and communicate the inner space of the washing cylinder 300 with the space between the washing cylinder 300 and the water containing cylinder 200 through the water through holes. The bottom of the water containing cylinder 200 is communicated with a drain pipe 4, the drain pipe 4 is provided with a control device for controlling the on-off of the outward drainage water flow of the water channel water containing cylinder 200, and the drainage control device can be a drainage pump 6 applied to an upper drainage washing machine, and the like, and can also be a drainage valve applied to a lower drainage washing machine, and the like.

In this embodiment, the clothes treatment apparatus is further provided with an additive feeding device 100, and the additive feeding device 100 includes a water supply waterway 1 through which the inlet water flows, and a feeding structure for feeding an additive to the water supply waterway 1; the outlet 11 of the water supply circuit 1 is connected to a water outlet structure provided in the washing drum 300 facing the laundry treatment apparatus, for spraying the additive and/or the incoming water stream directly onto the laundry contained in the washing drum 300.

In this embodiment, the water level sensor 5 for detecting the height of the water level in the water containing cylinder 200 is arranged on the water containing cylinder; the water level sensor 5 may be any device capable of detecting the water level in the water container, for example, as shown in fig. 1, the water level sensor 5 is specifically arranged as follows, the bottom of the water container 200 is communicated with an air duct, the other end of the air duct is connected with a pressure sensor, and the pressure detected by the pressure sensor is used to obtain the corresponding water level in the water container.

Preferably, in this embodiment, the heater 3 for heating the water filled in the water container 200 is disposed at the bottom of the water container 200, and the heater 3 is disposed at the bottom of the water container 200; the bottom of the water containing cylinder 200 is also connected with a drain pipe 4, and the height of the heater 3 is higher than or equal to the height of the communicated part of the water containing cylinder 200 and the drain pipe 4.

Certainly, in this embodiment, the laundry processing device may also be configured as a washing and drying all-in-one machine, and a drying system and the like may also be installed on the laundry processing device; the drying system comprises an air duct arranged outside the water containing barrel, a heating device capable of generating hot drying air flow is arranged in the air duct, an air outlet of the air duct is communicated with the water containing barrel, and the hot drying air flow generated in the air duct flows into the washing barrel in the water containing barrel to heat clothes contained in the washing barrel (not noted in the attached drawing).

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A control method of a laundry treating apparatus, characterized in that,

the additive is directly sprayed to the clothes along with the inflow water flow;

washing the laundry wetted with the injected additive;

defoaming the washed clothes;

2. The control method of a laundry treating apparatus according to claim 1,

the defoaming treatment of the washed clothes comprises the following steps,

3. The control method of a laundry treating apparatus according to claim 1 or 2,

the defoaming treatment of the washed clothes comprises the following steps,

s2, water is fed into the washing drum, the washing drum synchronously rotates when water is fed, clothes in the drum are driven to be attached to the drum wall and rotate along with the washing drum, and the water flow washes the clothes attached to the drum wall and rotating along with the washing drum;

4. The control method of a laundry treating apparatus according to claim 3,

in step S2, the water amount of washing water entering the washing drum is a set value L, and the set value L is a preset value corresponding to any one or combination of the type, weight and selected program of clothes in the washing drum;

5. The control method of a laundry treatment apparatus according to any one of claims 1 to 4, wherein the water level H in the water drum is detected during the defoaming process performed by the laundry treatment apparatus; when the water level H in the water containing barrel reaches or is about to reach the lowest height H1 of the washing barrel, the clothes treatment equipment stops water inflow into the washing barrel.

6. The control method of a laundry treatment apparatus according to any one of claims 1 to 5, wherein the turning step is performed when the laundry treatment apparatus performs the defoaming treatment to reach a set time node;

the turning step includes that the washing drum rotates at a set rotation-stop ratio, and clothes in the washing drum are turned over under the action of centrifugal force of the washing drum with changed rotating speed and/or rotating direction;

after the step of overturning is carried out on the washing drum, defoaming treatment is continuously carried out, the washing drum is controlled to rotate at a set rotating speed, clothes in the drum are driven to stick to the drum wall and rotate along with the washing drum, and the water inflow flow continuously washes the clothes sticking to the drum wall and rotating along with the washing drum.

7. The method as claimed in any one of claims 1 to 6, wherein the additive and/or the inflow water is sprayed directly into the washing drum from the top of the mouth of the washing drum, and the additive and/or the inflow water is sprayed from the inside of the washing drum to the direction of the drum wall onto the clothes rotating along the drum wall to wash or rinse the clothes;

8. The method of controlling a laundry treatment apparatus according to any one of claims 1 to 7, wherein after the additive is completely added, the washing drum is rotated at a rotation speed and a rotation speed corresponding to the selected program, thereby washing laundry in the washing drum.

9. The control method of a laundry treatment apparatus according to any one of claims 1 to 8, wherein the subsequent laundry treatment process of the defoaming treatment comprises any one or a combination of a washing process, a rinsing process, a dehydrating process, and a drying process;

10. A laundry treating apparatus using the control method of the laundry treating apparatus according to any one of claims 1 to 9, comprising a water supply path through which an inflow water stream flows, and a dosing structure for dosing an additive to the water supply path; the outlet of the water supply waterway is connected with a water outlet structure arranged in a washing drum facing the clothes treatment equipment and used for directly spraying the additive and/or the water inlet current to the clothes contained in the washing drum.