CN112779724B - Drying parameter determination method and device, storage medium and clothes drying equipment - Google Patents

Abstract

The invention provides a drying parameter determining method, a drying parameter determining device, a storage medium and clothes drying equipment, wherein the method comprises the following steps: before drying clothes to be dried, dehydrating the clothes to be dried, and acquiring dehydration rotation speed and dehydration power during dehydration; determining the load grade and the moisture content of the clothes to be dried according to the clothes material of the clothes to be dried and the acquired dehydration rotating speed and dehydration power; and determining the drying time and the drying temperature of the clothes to be dried according to the determined load grade and the determined moisture content of the clothes to be dried and the clothes material of the clothes to be dried. The scheme provided by the invention can determine the drying temperature and the drying time of the clothes, and avoid overhigh drying temperature and/or overlong drying time of the clothes.

Description

Drying parameter determination method and device, storage medium and clothes drying equipment

Technical Field

The invention relates to the field of control, in particular to a drying parameter determining method and device, a storage medium and clothes drying equipment.

Background

The washing machine is an essential tool in life of people, and brings great convenience to life of people. With the development of the technology, a washing and drying all-in-one machine capable of drying clothes after washing is available on the market. Due to the convenience of the drying function and the application in humid areas, the washing and drying integrated machine is more and more popular.

The current drying machine mainly selects and controls the power and the temperature of the clothes to be dried by operating a key on a control panel to switch on and off. If the clothes drying temperature is high, the clothes are easy to damage; the low drying temperature can lead to too long drying time. There is therefore a problem in that the time and temperature required cannot be variably selected during the drying process. The time control of drying clothes adopts a timer device, and a user needs to estimate the drying time according to the conditions of different weights, textures, water contents and the like of the clothes. The clothes drying time is short, the clothes are not dried, and the operation is required to be executed again; the time is long, the clothes are over-dried, high temperature is generated, the clothes are damaged, the electricity consumption is high, and the drying efficiency is low. Therefore, the conventional clothes dryer has the main disadvantages that the time and the temperature are not easy to control, the drying efficiency is low, and the automatic stop according to the drying degree cannot be realized.

Disclosure of Invention

The present invention is directed to overcome the above-mentioned drawbacks of the prior art, and provides a method and an apparatus for determining drying parameters, a storage medium and a clothes drying device, so as to solve the problem in the prior art that the drying time and temperature of clothes are not easy to control.

The invention provides a drying parameter determination method on one hand, which comprises the following steps: before drying clothes to be dried, dehydrating the clothes to be dried, and acquiring dehydration rotation speed and dehydration power during dehydration; determining the load grade and the moisture content of the clothes to be dried according to the clothes material of the clothes to be dried and the acquired dehydration rotating speed and dehydration power; and determining the drying time and the drying temperature of the clothes to be dried according to the determined load grade and the determined moisture content of the clothes to be dried and the clothes material of the clothes to be dried.

Optionally, determining the load grade and the moisture content of the laundry to be dried according to the laundry material of the laundry to be dried and the acquired dehydration rotation speed and dehydration power includes: determining the load grade of the clothes to be dried according to the clothes material of the clothes to be dried, the dehydration rotating speed and the dehydration power; and determining the moisture content of the clothes to be dried according to the determined load grade of the clothes to be dried, the clothes material of the clothes to be dried and the dehydration rotating speed.

Optionally, determining the load level of the laundry to be dried according to the material of the laundry to be dried, the dehydration rotation speed, and the dehydration power includes: determining the load grade of the clothes to be dried according to the corresponding relation between the clothes material, the dehydration rotating speed and the dehydration power of the clothes to be dried, and the dehydration power and the load grade of the clothes of different materials under different preset dehydration rotating speeds; and/or determining the moisture content of the clothes to be dried according to the determined load grade of the clothes to be dried, the clothes material of the clothes to be dried and the dehydration rotating speed, and the method comprises the following steps: and determining the moisture content of the clothes to be dried according to the corresponding relation between the dehydration rotating speeds and the moisture contents of the clothes of different materials when the load grade, the material and the dehydration rotating speed of the clothes to be dried are at different preset load grades.

Optionally, determining the drying time and the drying temperature of the laundry to be dried according to the determined load grade and moisture content of the laundry to be dried and the laundry material of the laundry to be dried, includes: determining the drying time of the clothes to be dried according to the load grade of the clothes to be dried, the material of the clothes and the corresponding relation between the water content of the clothes of different materials and the drying time when the water content of the clothes are at different preset load grades; and/or determining the drying temperature of the clothes to be dried according to the load grade of the clothes to be dried, the material of the clothes and the corresponding relation between the water content of the clothes with different materials and the drying temperature when the water content of the clothes is at different preset load grades.

Another aspect of the present invention provides a drying parameter determining apparatus, including: the drying device comprises an acquisition unit, a control unit and a control unit, wherein the acquisition unit is used for dehydrating clothes to be dried before the clothes to be dried are dried, and acquiring dehydration rotating speed and dehydration power during dehydration; the first determining unit is used for determining the load grade and the water content of the clothes to be dried according to the clothes material of the clothes to be dried and the dehydration rotating speed and the dehydration power acquired by the acquiring unit; and the second determining unit is used for determining the drying time and the drying temperature of the clothes to be dried according to the load grade and the moisture content of the clothes to be dried determined by the first determining unit and the clothes material of the clothes to be dried.

Optionally, the determining unit, configured to determine the load level and the moisture content of the laundry to be dried according to the material of the laundry, the obtained dehydration rotation speed, and the obtained dehydration power, includes: determining the load grade of the clothes to be dried according to the clothes material of the clothes to be dried, the dehydration rotating speed and the dehydration power; and determining the moisture content of the clothes to be dried according to the determined load grade of the clothes to be dried, the clothes material of the clothes to be dried and the dehydration rotating speed.

Optionally, the determining unit, configured to determine the load level of the laundry to be dried according to the material of the laundry to be dried, the dehydration rotation speed, and the dehydration power, includes: determining the load grade of the clothes to be dried according to the corresponding relation between the clothes material, the dehydration rotating speed and the dehydration power of the clothes to be dried, and the dehydration power and the load grade of the clothes of different materials under different preset dehydration rotating speeds; and/or the first determining unit determines the moisture content of the clothes to be dried according to the determined load grade of the clothes to be dried, the clothes material of the clothes to be dried and the dehydration rotating speed, and comprises: and determining the moisture content of the clothes to be dried according to the corresponding relation between the dehydration rotating speeds and the moisture contents of the clothes of different materials when the load grade, the material and the dehydration rotating speed of the clothes to be dried are at different preset load grades.

Optionally, the determining, by the second determining unit, a drying time and a drying temperature of the laundry to be dried according to the determined load level and moisture content of the laundry to be dried and a material of the laundry to be dried includes: determining the drying time of the clothes to be dried according to the load grade of the clothes to be dried, the material of the clothes and the corresponding relation between the water content of the clothes of different materials and the drying time when the water content of the clothes are at different preset load grades; and/or determining the drying temperature of the clothes to be dried according to the load grade of the clothes to be dried, the material of the clothes and the corresponding relation between the water content of the clothes with different materials and the drying temperature when the water content of the clothes is at different preset load grades.

A further aspect of the invention provides a storage medium having stored thereon a computer program which, when executed by a processor, carries out the steps of any of the methods described above.

Yet another aspect of the present invention provides a clothes drying apparatus comprising a processor, a memory, and a computer program stored on the memory and executable on the processor, the processor implementing the steps of any of the methods described above when executing the program.

The invention further provides clothes drying equipment, which comprises any one of the drying parameter determining devices.

According to the technical scheme of the invention, aiming at the problem that the drying temperature and time of the current washing and drying machine are not easy to control, the optimal drying time and drying temperature are determined according to the load grade, the moisture content and the clothes material of the clothes to be dried by detecting the dehydration rotating speed and the dehydration power when the clothes to be dried are dehydrated in the clothes drying process, so that the drying temperature is prevented from being too high or too low, the clothes drying efficiency and effect are improved, and the user experience is improved.

According to the technical scheme of the invention, the clothes to be dried are dehydrated firstly, so that the water content of the clothes can be reduced, and the drying time is shortened; the load weight of the clothes is confirmed by detecting the dehydration rotating speed and the dehydration power, and the moisture content is further determined, so that the optimal drying temperature and the optimal drying time can be judged according to the material quality, the moisture content and the load grade of the clothes.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and 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 and not to limit the invention. In the drawings:

fig. 1 is a schematic method diagram of an embodiment of a drying parameter determining method provided by the present invention;

FIG. 2 is a schematic diagram of a drying parameter determining method according to an embodiment of the present invention;

fig. 3 is a block diagram of an embodiment of a drying parameter determining apparatus according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The clothes structure can be damaged when the drying temperature is too high, and the clothes drying speed can be too slow when the drying temperature is too low; too short a drying time may result in incomplete drying of the laundry, and too long a drying time may result in damage to the laundry.

The invention provides a drying parameter determining method. The method may be used in a laundry drying apparatus, such as a washer dryer. Fig. 1 is a schematic method diagram of an embodiment of a drying parameter determining method provided by the present invention.

As shown in fig. 1, according to an embodiment of the present invention, the drying parameter determining method includes at least step S110, step S120, and step S130.

Step S110, before drying the clothes to be dried, dehydrating the clothes to be dried, and acquiring the dehydration rotating speed and the dehydration power during dehydration.

The clothes to be dried are dehydrated before being dried. The method includes the steps of dehydrating wet clothes, reducing the moisture content of the clothes as much as possible, enabling drying time to be as short as possible, and confirming load weight according to dehydration rotation speed and dehydration power during dehydration so as to determine the moisture content. The dehydration rotating speed is the final rotating speed for dehydrating the clothes to be dried. For example, the dehydration rotation speed during actual operation may be acquired by a hall sensor. The dehydration power can be calculated according to the voltage and the current of the motor in the dehydration process.

And step S120, determining the load grade and the moisture content of the clothes to be dried according to the clothes material of the clothes to be dried and the acquired dehydration rotating speed and dehydration power.

Specifically, the material of the laundry to be dried may be determined according to the washing pattern. Namely, a washing mode of clothes to be dried is obtained, and the clothes material of the clothes to be dried is determined according to the washing mode. For example, a washing mode set by a user when washing the laundry is obtained, and the material of the laundry to be dried can be determined according to the washing mode. For example, the washing pattern may include wool, shirt, cotton, carpet, and down jacket, and the corresponding clothes may be wool, shirt, cotton, carpet, and down jacket.

In some embodiments, the load level of the laundry to be dried is determined according to the material of the laundry to be dried, the dehydration rotation speed and the dehydration power. Specifically, the load grade (e.g., the load grade is a different clothes weight interval) of the clothes to be dried is determined according to the corresponding relationship between the clothes material, the dehydration rotation speed, and the dehydration power of the clothes to be dried, and the dehydration power and the load grade of the clothes of different materials at different preset dehydration rotation speeds. The corresponding relationship between the dehydration power and the load grade of the clothes made of different materials under different dehydration rotation speeds can be obtained through a plurality of experiments, and the corresponding relationship is a corresponding relationship table. For example, refer to the following tables 2-1, 2-2, 2-3. 2-4, which is a table of correspondence between dewatering power and load level for clothes of different clothes materials at different dewatering speeds, optionally, n1, n2, n3, n4 may represent different speed ranges, d₁1、d₁2、…、d₁5 denotes different intervals of values of the dewatering power.

TABLE 2-1

Tables 2 to 2

Tables 2 to 3

Tables 2 to 4

As shown in Table 2-1, m₁11、m₁12、…、m₁15(m lower subscripts 1, 2, 3, 4 indicate different clothes materials, e.g. 1 indicates wool, 2 indicates a shirt, 3 indicates cotton, 4 indicates a carpet, 5 indicates a down jacket) respectively indicate that the wool clothes are dehydrated at different power d at a rotation speed n1₁1、d₁2、…、d₁5, corresponding load grade; m is₁21、m₁22、…、m₁25 shows the different dewatering powers d of the shirt-made clothes at the rotation speed n1₁1、d₁2、…、d₁5 corresponding load level … …, and so on.

As shown in Table 2-2, m₂11、m₂12、…、m₂15 respectively show different dewatering powers d of woolen clothes at the rotating speed n2₁1、d₁2、…、d₁5, corresponding load grade; m is₂21、m₂22、…、m₂25 shows the different dewatering powers d of the shirt-made clothes at the rotation speed n2₁1、d₁2、…、d₁5 corresponding load level … …, and so on.

Tables 2-3 show different dewatering powers d for different material clothes at a rotational speed n3₁1、d₁2、…、d₁5, tables 2-4 show different clothes materials at different spin rates d at n4₁1、d₁2、…、d₁For the corresponding load level under 5, reference is made to the foregoing tables 2-1 and 2-2, which are not repeated herein.

In some embodiments, the moisture content of the laundry to be dried is determined according to the determined load level of the laundry to be dried, and the material of the laundry to be dried and the dehydration rotation speed. After clothes made of different materials and having different load grades are dehydrated at different dehydration rotation speeds, the loaded water content is different. Specifically, the moisture content of the clothes to be dried is determined according to the corresponding relationship between the dehydration rotating speed and the moisture content of the clothes of different materials when the load grade, the material and the dehydration rotating speed of the clothes to be dried are at different preset load grades. The corresponding relation between the dehydration rotating speed and the water content of the clothes made of different materials at different load grades can be obtained through multiple experiments; the corresponding relationship is, for example, a corresponding relationship table. For example, refer to the following tables 3-1, 3-2, 3-3, and 3-4, which are tables of correspondence between the dewatering power and the water content of the laundry of different laundry materials at different load levels, wherein m1, m2, m3, and m4 represent different load levels, and n is a value₁1、n₁2、…、n₁And 5 represents different spin speeds.

TABLE 3-1

TABLE 3-2

Tables 3 to 3

Tables 3 to 4

As shown in Table 3-1, k₁11、k₁12、…、k₁15 (the lower corner marks 1, 2, 3, 4 of k indicate different clothes materials, for example, 1 indicates wool, 2 indicates a shirt, 3 indicates cotton, 4 indicates a blanket, and 5 indicates a down jacket) respectively indicate that the wool clothes are dehydrated at different dehydration rotation speeds n of m1₁1、n₁2、…、n₁5, corresponding water content; k is a radical of₁21、k₁22、…、k₁25 shows that the clothes made of shirt are dehydrated at different rotation speeds n when the load grade is m1₁1、n₁2、…、n₁The corresponding water cut … … under 5, and so on.

As shown in Table 3-2, k₂11、k₂12、…、k₂15 respectively indicate that the wool clothes are dehydrated at different rotation speeds n when the load grade is m2₁1、n₁2、…、n₁5, corresponding water content; k is a radical of₂21、k₂22、…、k₂25 shows that the clothes made of shirt are dehydrated at different rotation speeds n when the load grade is m2₁1、n₁2、…、n₁The corresponding water cut … … under 5, and so on.

Tables 3-3 show different clothes materials at different spin speeds n at a load level of m3₁1、n₁2、…、n₁The corresponding moisture content at 5, and tables 3-4 show that different materials of clothing are differently removed when the load rating is m4Water rotation speed n₁1、n₁2、…、n₁For the corresponding water content under 5, reference may be made to the foregoing tables 3-1 and 3-2, which are not repeated herein.

Step S130, determining the drying time and the drying temperature of the clothes to be dried according to the determined load grade and the determined moisture content of the clothes to be dried and the clothes material of the clothes to be dried.

The drying parameters may specifically include drying time and drying temperature. The drying time is the preset drying time for drying; the drying temperature is the preset drying temperature for drying. And determining the drying time and the drying temperature of the clothes to be dried, namely the optimal drying time and drying temperature of the clothes to be dried. In some embodiments, the drying time of the laundry to be dried is determined according to the load level of the laundry to be dried, the material of the laundry, and the corresponding relationship between the moisture content of the laundry of different materials and the drying time when the moisture content of the laundry is at different preset load levels. The corresponding relation between the moisture content and the drying time (optimal drying time) of the clothes made of different materials at different load grades can be obtained through multiple experiments; the corresponding relationship is, for example, a corresponding relationship table. For example, refer to the following tables 4-1, 4-2, 4-3, and 4-4, which are tables of correspondence between moisture content and drying time of clothes of different clothes materials at different load levels, wherein m1, m2, m3, and m4 represent different load levels, and k is a value₁1、k₁2、…、k₁5 denotes different water contents. Optionally, the different moisture contents may be different moisture content intervals.

TABLE 4-1

TABLE 4-2

Tables 4 to 3

Tables 4 to 4

As shown in Table 4-1, t₁11、t₁12、…、t₁15 (lower corner marks 1, 2, 3, 4 of t indicate different clothes materials, for example, 1 indicates wool, 2 indicates a shirt, 3 indicates cotton, 4 indicates a blanket, and 5 indicates a down jacket), respectively, indicate that clothes made of wool have different water contents k at different load levels of m1₁1、k₁2、…、k₁5, corresponding drying time; t is t₁21、t₁22、…、t₁25 shows that the clothes made of shirt have different water contents k at a load rating of m1₁1、k₁2、…、k₁5, corresponding drying time … …, and so on.

As shown in Table 4-2, t₂11、t₂12、…、t₂15 shows that the moisture content k of the woolen clothes is different when the load rating is m2₁1、k₁2、…、k₁5, corresponding drying time; t is t₂21、t₂22、…、t₂25 shows that the clothes made of shirt have different water contents k at a load rating of m2₁1、k₁2、…、k₁5, corresponding drying time … …, and so on.

Table 4-3 shows that at a load level of m3, clothes of different materials have different moisture contents k₁1、k₁2、…、k₁5, and tables 4-4 show that at a load level of m4, clothes of different materials have different moisture contents k₁1、k₁2、…、k₁For the corresponding drying time at the time of 5, reference may be made to the foregoing tables 4-1 and 4-2, which are not repeated herein.

In some embodiments, according toAnd determining the drying temperature of the clothes to be dried in the corresponding relation among the load grade of the clothes to be dried, the material of the clothes and the water content of the clothes of different materials when the clothes are at different preset load grades and the drying temperature. The corresponding relationship between the moisture content and the drying temperature of the clothes made of different materials at different load levels can be obtained through a plurality of experiments, and the corresponding relationship is a corresponding relationship table. For example, refer to the following tables 5-1, 5-2, 5-3, and 5-4, which show the correspondence between the moisture content and the drying temperature (optimum drying temperature) of clothes of different clothes materials at different load levels, wherein m1, m2, m3, and m4 represent different load levels, k is₁1、k₁2、…、k₁5 denotes different water contents. Different moisture content specifically can be different moisture content intervals.

TABLE 5-1

TABLE 5-2

Tables 5 to 3

Tables 5 to 4

As shown in Table 5-1, T₁11、T₁12、…、T₁15 (the lower corner marks 1, 2, 3, 4 of T represent different clothes materials, for example, 1 represents wool, 2 represents a shirt, 3 represents cotton, 4 represents a blanket, and 5 represents a down jacket) respectively show that when the load class is m1, the clothes made of wool have different water content rates k₁1、k₁2、…、k₁5, corresponding drying temperature; t is₁21、T₁22、…、T₁25 shows that the clothes made of shirt have different water contents k at a load rating of m1₁1、k₁2、…、k₁5, corresponding drying temperature … …, and so on.

As shown in Table 5-2, T₂11、T₂12、…、T₂15 shows that the moisture content k of the woolen clothes is different when the load rating is m2₁1、k₁2、…、k₁5, corresponding drying temperature; t is₂21、T₂22、…、T₂25 shows that the clothes made of shirt have different water contents k at a load rating of m2₁1、k₁2、…、k₁5, corresponding drying temperature … …, and so on.

Table 5-3 shows that at a load level of m3, clothes of different materials have different moisture contents k₁1、k₁2、…、k₁5, and tables 5-4 show that at a load level of m4, clothes of different materials have different moisture contents k₁1、k₁2、…、k₁For the corresponding drying temperature at the time of 5, reference may be made to the foregoing tables 5-1 and 5-2, which are not repeated herein.

Optionally, acquiring a preset drying temperature corresponding to the material of the clothes to be dried, and judging whether the absolute value of the temperature difference between the drying temperature and the preset drying temperature exceeds a preset temperature value or not; and if the absolute value of the temperature difference value is judged to exceed the preset temperature value, taking the preset drying temperature as the drying temperature of the clothes to be dried.

Specifically, the preset drying temperature is an optimal drying temperature corresponding to different clothes materials, for example, the optimal drying temperature corresponding to clothes of different materials (as shown in table 1-1 below) can be obtained through multiple experiments, so that the optimal drying temperature of the clothes can be preliminarily determined according to the clothes materials.

Pattern differentiation	Optimum drying temperature
		Wool	T1
Shirt	T2
		Cotton flax	T3
Blanket	T4
		Down jacket	T5

TABLE 1-1

After the drying temperature of the clothes to be dried is obtained according to the foregoing embodiment (in the correspondence between the load level of the clothes to be dried, the material of the clothes, and the moisture content of the clothes of different materials at different preset load levels and the drying temperature, the drying temperature of the clothes to be dried is determined), the obtained drying temperature is compared with the preset drying temperature corresponding to the material of the clothes to be dried, whether the absolute value of the temperature difference between the drying temperature and the preset drying temperature exceeds a preset temperature value, that is, whether the drying temperature is within a certain range of the optimal drying temperature corresponding to the material of the clothes to be dried is determined, and if the absolute value of the temperature difference exceeds the preset temperature value, the preset drying temperature is used as the drying temperature of the clothes to be dried. And if the absolute value of the temperature difference value is not judged to exceed the preset temperature value, taking the drying temperature obtained in the embodiment as the drying temperature of the clothes to be dried.

For example, currently, the optimal drying temperature of the laundry to be dried is calculated, if the optimal drying temperature corresponding to the material of the laundry is not preliminarily determined, if the laundry is too wet, the temperature may be increased by a large extent in order to shorten the time to the maximum extent, thereby causing damage to the laundry, and if the material of the laundry is determined to correspond to the optimal drying temperature, the temperature is used as a reference when the shortest time is considered, thereby achieving the purpose of protecting the laundry.

After the drying time and the drying temperature of the clothes to be dried are determined through the scheme, the drying operation of the clothes to be dried can be executed according to the determined drying time and the determined drying temperature of the clothes to be dried.

In order to clearly illustrate the technical solution of the present invention, an implementation flow of the drying parameter determining method provided by the present invention is described below with an embodiment.

Fig. 2 is a schematic method diagram of a drying parameter determining method according to an embodiment of the present invention. As shown in fig. 2, the wet laundry is dehydrated, after the dehydration is finished, the load grade is determined according to the material of the laundry and the dehydration condition (dehydration rotational speed and dehydration power), the moisture content of the laundry is determined according to the dehydration rotational speed, the material of the laundry and the load grade, the drying time is determined according to the moisture content of the laundry, the load grade and the material of the laundry, and the optimal drying temperature is determined according to the moisture content of the laundry, the load grade and the material of the laundry.

The invention provides a drying parameter determining device. The device can be used in a clothes drying device, such as a washing and drying integrated machine. Fig. 3 is a block diagram of an embodiment of a drying parameter determining apparatus according to the present invention. As shown in fig. 3, the drying parameter determination apparatus 100 includes an acquisition unit 110, a first determination unit 120, and a second determination unit 130.

The obtaining unit 110 is configured to dehydrate the laundry to be dried before drying the laundry to be dried, and obtain a dehydration rotation speed and a dehydration power during dehydration.

The clothes to be dried are dehydrated before being dried. The method includes the steps of dehydrating wet clothes, reducing the moisture content of the clothes as much as possible, enabling drying time to be as short as possible, and confirming load weight according to dehydration rotation speed and dehydration power during dehydration so as to determine the moisture content. The dehydration rotating speed is the final rotating speed for dehydrating the clothes to be dried. For example, the dehydration rotation speed during actual operation may be acquired by a hall sensor. The dehydration power can be calculated according to the voltage and the current of the motor in the dehydration process.

The first determining unit 120 is configured to determine the load level and the moisture content of the laundry to be dried according to the material of the laundry, the dehydration speed, and the dehydration power obtained by the obtaining unit.

Specifically, the material of the laundry to be dried may be determined according to the washing pattern. Namely, a washing mode of clothes to be dried is obtained, and the clothes material of the clothes to be dried is determined according to the washing mode. For example, a washing mode set by a user when washing the laundry is obtained, and the material of the laundry to be dried can be determined according to the washing mode. For example, the washing pattern may include wool, shirt, cotton, carpet, and down jacket, and the corresponding clothes may be wool, shirt, cotton, carpet, and down jacket.

In some embodiments, the first determining unit 120 determines the load level of the laundry to be dried according to the material of the laundry to be dried, the dehydration speed, and the dehydration power. Specifically, the first determining unit 120 determines the load level (e.g., the load level is a different clothes weight interval) of the clothes to be dried according to the clothes material, the dehydration rotation speed, and the dehydration power of the clothes to be dried in the corresponding relationship between the dehydration power and the load level of the clothes of different materials at different preset dehydration rotation speeds. The corresponding relationship between the dehydration power and the load grade of the clothes made of different materials under different dehydration rotation speeds can be obtained through a plurality of experiments, and the corresponding relationship is a corresponding relationship table. For example, referring to the following tables 2-1, 2-2, 2-3, and 2-4, the dewatering power and the negative value of the clothes with different materials for different dewatering speeds are shownOptionally, n1, n2, n3, n4 may represent different rotation speed intervals, d₁1、d₁2、…、d₁5 denotes different intervals of values of the dewatering power.

TABLE 2-1

Tables 2 to 2

Tables 2 to 3

Tables 2 to 4

As shown in Table 2-1, m₁11、m₁12、…、m₁15(m lower subscripts 1, 2, 3, 4 indicate different clothes materials, e.g. 1 indicates wool, 2 indicates a shirt, 3 indicates cotton, 4 indicates a carpet, 5 indicates a down jacket) respectively indicate that the wool clothes are dehydrated at different power d at a rotation speed n1₁1、d₁2、…、d₁5, corresponding load grade; m is₁21、m₁22、…、m₁25 shows the different dewatering powers d of the shirt-made clothes at the rotation speed n1₁1、d₁2、…、d₁5 corresponding load level … …, and so on.

As shown in Table 2-2, m₂11、m₂12、…、m₂15 respectively show different dewatering powers d of woolen clothes at the rotating speed n2₁1、d₁2、…、d₁5, corresponding load grade; m is₂21、m₂22、…、m₂25 shows the different dewatering powers d of the shirt-made clothes at the rotation speed n2₁1、d₁2、…、d₁5 corresponding load level … …, and so on.

Tables 2-3 show different dewatering powers d for different material clothes at a rotational speed n3₁1、d₁2、…、d₁5, tables 2-4 show different clothes materials at different spin rates d at n4₁1、d₁2、…、d₁For the corresponding load level under 5, reference is made to the foregoing tables 2-1 and 2-2, which are not repeated herein.

In some embodiments, the first determining unit 120 determines the moisture content of the laundry to be dried according to the determined load level of the laundry to be dried, and the material of the laundry and the dehydration rotation speed of the laundry to be dried. After clothes made of different materials and having different load grades are dehydrated at different dehydration rotation speeds, the loaded water content is different.

Specifically, the first determining unit 120 determines the moisture content of the laundry to be dried according to the corresponding relationship between the dehydration rotation speed and the moisture content of the laundry of different materials when the load level, the material of the laundry, and the dehydration rotation speed of the laundry are at different preset load levels. The corresponding relation between the dehydration rotating speed and the water content of the clothes made of different materials at different load grades can be obtained through multiple experiments; the corresponding relationship is, for example, a corresponding relationship table. For example, refer to the following tables 3-1, 3-2, 3-3, and 3-4, which are tables of correspondence between the dewatering power and the water content of the laundry of different laundry materials at different load levels, wherein m1, m2, m3, and m4 represent different load levels, and n is a value₁1、n₁2、…、n₁And 5 represents different spin speeds.

TABLE 3-1

TABLE 3-2

Tables 3 to 3

Tables 3 to 4

As shown in Table 3-1, k₁11、k₁12、…、k₁15 (the lower corner marks 1, 2, 3, 4 of k indicate different clothes materials, for example, 1 indicates wool, 2 indicates a shirt, 3 indicates cotton, 4 indicates a blanket, and 5 indicates a down jacket) respectively indicate that the wool clothes are dehydrated at different dehydration rotation speeds n of m1₁1、n₁2、…、n₁5, corresponding water content; k is a radical of₁21、k₁22、…、k₁25 shows that the clothes made of shirt are dehydrated at different rotation speeds n when the load grade is m1₁1、n₁2、…、n₁The corresponding water cut … … under 5, and so on.

As shown in Table 3-2, k₂11、k₂12、…、k₂15 respectively indicate that the wool clothes are dehydrated at different rotation speeds n when the load grade is m2₁1、n₁2、…、n₁5, corresponding water content; k is a radical of₂21、k₂22、…、k₂25 shows that the clothes made of shirt are dehydrated at different rotation speeds n when the load grade is m2₁1、n₁2、…、n₁The corresponding water cut … … under 5, and so on.

Tables 3-3 show different clothes materials at different spin speeds n at a load level of m3₁1、n₁2、…、n₁The corresponding moisture content at 5, and tables 3-4 show that at a load level of m4, clothes of different materials are dehydrated at different speedsn₁1、n₁2、…、n₁For the corresponding water content under 5, reference may be made to the foregoing tables 3-1 and 3-2, which are not repeated herein.

The second determining unit 130 is configured to determine a drying time and a drying temperature of the laundry to be dried according to the load level and the moisture content of the laundry to be dried determined by the first determining unit 120 and the material of the laundry.

The drying parameters may specifically include drying time and drying temperature. The drying time is the preset drying time for drying; the drying temperature is the preset drying temperature for drying. And determining the drying time and the drying temperature of the clothes to be dried, namely the optimal drying time and drying temperature of the clothes to be dried.

In some embodiments, the second determining unit 130 determines the drying time of the laundry to be dried according to the load level of the laundry to be dried, the material of the laundry, and the corresponding relationship between the moisture content and the drying time of the laundry of different materials at different preset load levels. The corresponding relation between the moisture content and the drying time of the clothes made of different materials at different load grades can be obtained through multiple experiments; the corresponding relationship is, for example, a corresponding relationship table.

For example, refer to the following tables 4-1, 4-2, 4-3, and 4-4, which show the correspondence between the moisture content and the drying time (optimum drying time) of the clothes of different materials for different load levels, wherein m1, m2, m3, and m4 represent different load levels, k is the same as₁1、k₁2、…、k₁5 denotes different water contents.

Optionally, the different moisture contents may be different moisture content intervals.

TABLE 4-1

TABLE 4-2

Tables 4 to 3

Tables 4 to 4

As shown in Table 4-1, t₁11、t₁12、…、t₁15 (lower corner marks 1, 2, 3, 4 of t indicate different clothes materials, for example, 1 indicates wool, 2 indicates a shirt, 3 indicates cotton, 4 indicates a blanket, and 5 indicates a down jacket), respectively, indicate that clothes made of wool have different water contents k at different load levels of m1₁1、k₁2、…、k₁5, corresponding drying time; t is t₁21、t₁22、…、t₁25 shows that the clothes made of shirt have different water contents k at a load rating of m1₁1、k₁2、…、k₁5, corresponding drying time … …, and so on.

As shown in Table 4-2, t₂11、t₂12、…、t₂15 shows that the moisture content k of the woolen clothes is different when the load rating is m2₁1、k₁2、…、k₁5, corresponding drying time; t is t₂21、t₂22、…、t₂25 shows that the clothes made of shirt have different water contents k at a load rating of m2₁1、k₁2、…、k₁5, corresponding drying time … …, and so on.

Table 4-3 shows that at a load level of m3, clothes of different materials have different moisture contents k₁1、k₁2、…、k₁5, and tables 4-4 show that at a load level of m4, clothes of different materials have different moisture contents k₁1、k₁2、…、k₁5 lower corresponds toFor the specific description of the drying time, reference may be made to the aforementioned tables 4-1 and 4-2, which are not repeated herein.

In some embodiments, the second determining unit 130 determines the drying temperature of the laundry to be dried according to the load level of the laundry to be dried, the material of the laundry, and the corresponding relationship between the moisture content and the drying temperature of the laundry of different materials at different preset load levels. The corresponding relationship between the moisture content and the drying temperature (optimum drying temperature) of the clothes made of different materials at different load levels can be obtained through a plurality of experiments, and the corresponding relationship is, for example, a corresponding relationship table. For example, refer to the following tables 5-1, 5-2, 5-3, and 5-4, which are tables of correspondence between moisture content and drying temperature of clothes of different clothes materials at different load levels, wherein m1, m2, m3, and m4 represent different load levels, and k is a value₁1、k₁2、…、k₁5 denotes different water contents. Different moisture content specifically can be different moisture content intervals.

TABLE 5-1

TABLE 5-2

Tables 5 to 3

Tables 5 to 4

As shown in Table 5-1, T₁11、T₁12、…、T₁15 (lower corner marks 1, 2, 3, 4 of T represent different clothing materials, e.g. 1 represents wool, 2 represents a linerShirt, 3 for cotton and linen, 4 for blanket, and 5 for down jacket) indicates that the wool clothes have different water contents k at different load levels of m1₁1、k₁2、…、k₁5, corresponding drying temperature; t is₁21、T₁22、…、T₁25 shows that the clothes made of shirt have different water contents k at a load rating of m1₁1、k₁2、…、k₁5, corresponding drying temperature … …, and so on.

As shown in Table 5-2, T₂11、T₂12、…、T₂15 shows that the moisture content k of the woolen clothes is different when the load rating is m2₁1、k₁2、…、k₁5, corresponding drying temperature; t is₂21、T₂22、…、T₂25 shows that the clothes made of shirt have different water contents k at a load rating of m2₁1、k₁2、…、k₁5, corresponding drying temperature … …, and so on.

Table 5-3 shows that at a load level of m3, clothes of different materials have different moisture contents k₁1、k₁2、…、k₁5, and tables 5-4 show that at a load level of m4, clothes of different materials have different moisture contents k₁1、k₁2、…、k₁For the corresponding drying temperature at the time of 5, reference may be made to the foregoing tables 5-1 and 5-2, which are not repeated herein.

Optionally, the second determining unit 130 is further configured to: acquiring a preset drying temperature corresponding to the material of clothes to be dried, and judging whether the absolute value of the temperature difference between the drying temperature and the preset drying temperature exceeds a preset temperature value or not; and if the absolute value of the temperature difference value is judged to exceed the preset temperature value, taking the preset drying temperature as the drying temperature of the clothes to be dried.

Specifically, the preset drying temperature is an optimal drying temperature corresponding to different clothes materials, for example, the optimal drying temperature corresponding to clothes of different materials (as shown in table 1-1 below) can be obtained through multiple experiments, so that the optimal drying temperature of the clothes can be preliminarily determined according to the clothes materials.

Pattern differentiation	Optimum drying temperature
		Wool	T1
Shirt	T2
		Cotton flax	T3
Blanket	T4
		Down jacket	T5

TABLE 1-1

After the drying temperature of the clothes to be dried is obtained according to the foregoing embodiment (in the correspondence between the load level of the clothes to be dried, the material of the clothes, and the moisture content of the clothes of different materials at different preset load levels and the drying temperature, the drying temperature of the clothes to be dried is determined), the obtained drying temperature is compared with the preset drying temperature corresponding to the material of the clothes to be dried, whether the absolute value of the temperature difference between the drying temperature and the preset drying temperature exceeds a preset temperature value, that is, whether the drying temperature is within a certain range of the optimal drying temperature corresponding to the material of the clothes to be dried is determined, and if the absolute value of the temperature difference exceeds the preset temperature value, the preset drying temperature is used as the drying temperature of the clothes to be dried. And if the absolute value of the temperature difference value is not judged to exceed the preset temperature value, taking the drying temperature obtained in the embodiment as the drying temperature of the clothes to be dried.

For example, currently, the optimal drying temperature of the laundry to be dried is calculated, if the optimal drying temperature corresponding to the material of the laundry is not preliminarily determined, if the laundry is too wet, the temperature may be increased by a large extent in order to shorten the time to the maximum extent, thereby causing damage to the laundry, and if the material of the laundry is determined to correspond to the optimal drying temperature, the temperature is used as a reference when the shortest time is considered, thereby achieving the purpose of protecting the laundry.

After the drying time and the drying temperature of the clothes to be dried are determined through the scheme, the drying operation of the clothes to be dried can be executed according to the determined drying time and the determined drying temperature of the clothes to be dried.

The present invention also provides a storage medium corresponding to the drying parameter determining method, on which a computer program is stored, which when executed by a processor implements the steps of any of the aforementioned methods.

The invention also provides a clothes drying device corresponding to the drying parameter determination method, which comprises a processor, a memory and a computer program stored on the memory and capable of running on the processor, wherein the processor realizes the steps of any one of the methods when executing the program.

The invention also provides clothes drying equipment corresponding to the drying parameter determining device, which comprises any one of the drying parameter determining devices.

One key point of the scheme of the invention is that the wet clothes are dehydrated firstly, so that the moisture content of the clothes is reduced as much as possible, and the drying time is shortened as much as possible.

Another key point of the present invention is that after the dehydration is completed, the weight (load level) of the laundry is determined according to the material of the laundry and the dehydration state (final dehydration rotational speed and dehydration power).

Still another key point of the present invention is to determine the moisture content of the current load according to the weight of the laundry and the dehydration state (the final dehydration rotational speed and the dehydration power).

The invention also has another key point that the most suitable drying time is judged according to different clothes materials, clothes weights and clothes water content.

The invention also has another key point that the most suitable drying temperature is judged according to different clothes materials, clothes weight and water content of clothes.

Accordingly, according to the scheme provided by the invention, aiming at the problem that the drying temperature and time of the current washing and drying machine are not easy to control, the optimal drying time and drying temperature are determined according to the load grade, the moisture content and the clothes material of the clothes to be dried by detecting the dehydration rotating speed and the dehydration power when the clothes to be dried are dehydrated in the clothes drying process, so that the drying temperature is prevented from being too high or too low, the clothes drying efficiency and effect are improved, and the user experience is improved. According to the technical scheme of the invention, the clothes to be dried are dehydrated firstly, so that the water content of the clothes can be reduced, and the drying time is shortened; the load weight of the clothes is confirmed by detecting the dehydration rotating speed and the dehydration power, and the moisture content is further determined, so that the optimal drying temperature and the optimal drying time can be judged according to the material quality, the moisture content and the load grade of the clothes.

The functions described herein may be implemented in hardware, software executed by a processor, firmware, or any combination thereof. If implemented in software executed by a processor, the functions may be stored on or transmitted over as one or more instructions or code on a computer-readable medium. Other examples and implementations are within the scope and spirit of the invention and the following claims. For example, due to the nature of software, the functions described above may be implemented using software executed by a processor, hardware, firmware, hardwired, or a combination of any of these. In addition, each functional unit may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit.

In the embodiments provided in the present application, it should be understood that the disclosed technology can be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units may be a logical division, and in actual implementation, there may be another division, for example, multiple units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, units or modules, and may be in an electrical or other form.

The units described as separate parts may or may not be physically separate, and the parts serving as the control device may or may not be physical units, may be located in one place, or may be distributed on a plurality of units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic or optical disk, and other various media capable of storing program codes.

The above description is only an example of the present invention, and is not intended to limit the present invention, and it is obvious to those skilled in the art that various modifications and variations can be made in the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (8)

1. A drying parameter determination method is characterized by comprising the following steps:

before drying clothes to be dried, dehydrating the clothes to be dried, and acquiring dehydration rotation speed and dehydration power during dehydration;

determining the load grade and the moisture content of the clothes to be dried according to the clothes material of the clothes to be dried and the acquired dehydration rotating speed and dehydration power;

determining the drying time and the drying temperature of the clothes to be dried according to the determined load grade and the determined moisture content of the clothes to be dried and the clothes material of the clothes to be dried;

determining the load grade and the moisture content of the clothes to be dried according to the clothes material of the clothes to be dried and the acquired dehydration rotating speed and dehydration power, and comprising the following steps:

determining the load grade of the clothes to be dried according to the clothes material of the clothes to be dried, the dehydration rotating speed and the dehydration power;

and determining the moisture content of the clothes to be dried according to the determined load grade of the clothes to be dried, the clothes material of the clothes to be dried and the dehydration rotating speed.

2. The method of claim 1,

determining the load grade of the clothes to be dried according to the clothes material of the clothes to be dried, the dehydration rotating speed and the dehydration power, and comprising the following steps:

determining the load grade of the clothes to be dried according to the corresponding relation between the clothes material, the dehydration rotating speed and the dehydration power of the clothes to be dried, and the dehydration power and the load grade of the clothes of different materials under different preset dehydration rotating speeds;

and/or the presence of a gas in the gas,

determining the moisture content of the clothes to be dried according to the determined load grade of the clothes to be dried, the clothes material of the clothes to be dried and the dehydration rotating speed, and the method comprises the following steps:

and determining the moisture content of the clothes to be dried according to the corresponding relation between the dehydration rotating speeds and the moisture contents of the clothes of different materials when the load grade, the material and the dehydration rotating speed of the clothes to be dried are at different preset load grades.

3. The method of claim 1, wherein determining the drying time and the drying temperature of the laundry to be dried according to the determined load grade and moisture content of the laundry to be dried and the material of the laundry to be dried comprises:

determining the drying time of the clothes to be dried according to the load grade of the clothes to be dried, the material of the clothes and the corresponding relation between the water content of the clothes of different materials and the drying time when the water content of the clothes are at different preset load grades;

and/or the presence of a gas in the gas,

and determining the drying temperature of the clothes to be dried according to the load grade of the clothes to be dried, the material of the clothes and the corresponding relation between the water content of the clothes of different materials and the drying temperature when the water content of the clothes are at different preset load grades.

4. A drying parameter determination device, characterized by comprising:

the drying device comprises an acquisition unit, a control unit and a control unit, wherein the acquisition unit is used for dehydrating clothes to be dried before the clothes to be dried are dried, and acquiring dehydration rotating speed and dehydration power during dehydration;

the first determining unit is used for determining the load grade and the water content of the clothes to be dried according to the clothes material of the clothes to be dried and the dehydration rotating speed and the dehydration power acquired by the acquiring unit;

the second determining unit is used for determining the drying time and the drying temperature of the clothes to be dried according to the load grade and the moisture content of the clothes to be dried determined by the first determining unit and the clothes material of the clothes to be dried;

the first determining unit determines the load grade and the moisture content of the clothes to be dried according to the clothes material of the clothes to be dried and the acquired dehydration rotating speed and dehydration power, and comprises:

determining the load grade of the clothes to be dried according to the clothes material of the clothes to be dried, the dehydration rotating speed and the dehydration power;

and determining the moisture content of the clothes to be dried according to the determined load grade of the clothes to be dried, the clothes material of the clothes to be dried and the dehydration rotating speed.

5. The apparatus of claim 4,

the first determining unit determines the load grade of the clothes to be dried according to the clothes material of the clothes to be dried, the dehydration rotating speed and the dehydration power, and comprises:

determining the load grade of the clothes to be dried according to the corresponding relation between the clothes material, the dehydration rotating speed and the dehydration power of the clothes to be dried, and the dehydration power and the load grade of the clothes of different materials under different preset dehydration rotating speeds;

and/or the presence of a gas in the gas,

the first determining unit determines the moisture content of the clothes to be dried according to the determined load grade of the clothes to be dried, the clothes material of the clothes to be dried and the dehydration rotating speed, and includes:

and determining the moisture content of the clothes to be dried according to the corresponding relation between the dehydration rotating speeds and the moisture contents of the clothes of different materials when the load grade, the material and the dehydration rotating speed of the clothes to be dried are at different preset load grades.

6. The apparatus according to claim 4 or 5, wherein the second determining unit determines the drying time and the drying temperature of the laundry to be dried according to the determined load level and moisture content of the laundry to be dried and the laundry material of the laundry to be dried, and comprises:

determining the drying time of the clothes to be dried according to the load grade of the clothes to be dried, the material of the clothes and the corresponding relation between the water content of the clothes of different materials and the drying time when the water content of the clothes are at different preset load grades;

and/or the presence of a gas in the gas,

and determining the drying temperature of the clothes to be dried according to the load grade of the clothes to be dried, the material of the clothes and the corresponding relation between the water content of the clothes of different materials and the drying temperature when the water content of the clothes are at different preset load grades.

7. A storage medium, having stored thereon a computer program which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 3.

8. Laundry drying apparatus, characterized in that it comprises a processor, a memory and a computer program stored on the memory and executable on the processor, the processor implementing the steps of the method according to any one of claims 1-3 when executing said program or comprising the drying parameter determination means according to any one of claims 4-6.

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