CN113584838A - Air supply control method based on clothes airing, air supply device and storage medium - Google Patents

Abstract

The application relates to the technical field of smart home, and particularly discloses an air supply control method based on clothes drying, an air supply device and a storage medium. The method comprises the following steps: determining at least two sub-areas in the clothes airing area, and determining the average clothes thickness of each sub-area; when the air supply device supplies air in a swinging mode towards the clothes drying area, determining a sub-area towards which the air supply direction of the air supply device faces; and adjusting the air supply force of the air supply device according to the average clothes thickness of the subarea towards which the air supply direction faces, wherein the air supply force of the air supply device is in direct proportion to the average clothes thickness of the subarea. The method can accelerate the drying speed of the clothes in the clothes drying area, prevent the clothes with thin thickness from being blown off by large air supply force, and reduce redundant power consumption.

Description

Air supply control method based on clothes airing, air supply device and storage medium

Technical Field

The application relates to the technical field of smart home, in particular to an air supply control method, an air supply device and a storage medium based on clothes drying.

Background

Clothes horses, as household articles frequently used by people, have become necessities of life of many families today. Laundry stands are generally installed on balconies or other ventilated places so that wet laundry can be dried by air flow or the sun. However, if the weather conditions are poor, such as wet weather, the clothes may not be dried on the drying rack for many days. Can accelerate the drying of the clothing in the clothes hanger that dries in the air through air supply arrangement, but current air supply arrangement adopts fixed air supply to supply air to the clothing, and is not intelligent enough, can't satisfy more clothing demands of user.

Disclosure of Invention

The application provides an air supply control method, an air supply device and a storage medium based on clothes drying, which can accelerate the drying speed of clothes in a clothes drying area, prevent the clothes with thin thickness from being blown off by large air supply force and reduce redundant power consumption.

In a first aspect, the present application provides a clothes drying-based air supply control method, including:

determining at least two sub-areas in the clothes airing area, and determining the average clothes thickness of each sub-area;

when the air supply device supplies air in a swinging mode towards the clothes drying area, determining a sub-area towards which the air supply direction of the air supply device faces;

and adjusting the air supply force of the air supply device according to the average clothes thickness of the subarea towards which the air supply direction faces, wherein the air supply force of the air supply device is in direct proportion to the average clothes thickness of the subarea.

In a second aspect, the present application further provides an air supply arrangement comprising a memory and a processor; the memory is used for storing a computer program; the processor is used for executing the computer program and realizing the air supply control method based on clothes airing when the computer program is executed.

In a third aspect, the present application also provides a computer-readable storage medium storing a computer program which, when executed by a processor, causes the processor to implement the clothes drying-based air supply control method as described above.

The application discloses air supply control method, air supply device and storage medium based on clothes airing, and the method comprises the following steps: determining at least two sub-areas in the clothes airing area, and determining the average clothes thickness of each sub-area; when the air supply device supplies air in a swinging mode towards the clothes drying area, determining a sub-area towards which the air supply direction of the air supply device faces; and adjusting the air supply force of the air supply device according to the average clothes thickness of the subarea towards which the air supply direction faces, wherein the air supply force of the air supply device is in direct proportion to the average clothes thickness of the subarea. The air circulation in the clothing region that dries in the air can be accelerated through air supply arrangement to accelerate the drying rate of the regional clothing of drying in the air, can correspond the air supply dynamics of adjusting air supply arrangement according to the average clothing thickness of subregion again, can avoid the clothing of thickness thinner to be blown off by great air supply dynamics when accelerating the drying rate of the regional clothing of drying in the air, and reduce unnecessary consumption.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic flow chart of an air supply control method based on clothes drying provided by an embodiment of the application;

FIG. 2 is a schematic flow chart of another clothes drying-based air supply control method provided by the embodiment of the application;

FIG. 3 is a schematic flow chart of a clothes drying-based air supply control method provided by an embodiment of the application;

fig. 4 is another schematic view of a scene of a clothes drying-based air supply control method provided by an embodiment of the application;

FIG. 5 is a schematic flow chart of another clothes drying-based air supply control method provided by the embodiment of the application;

fig. 6 is a schematic block diagram of a structure of an air supply device according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. 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 application.

The flow diagrams depicted in the figures are merely illustrative and do not necessarily include all of the elements and operations/steps, nor do they necessarily have to be performed in the order depicted. For example, some operations/steps may be decomposed, combined or partially combined, so that the actual execution sequence may be changed according to the actual situation.

It is to be understood that the terminology used in the description of the present application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the specification of the present application and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

The embodiment of the application provides an air supply control method based on clothes drying, an air supply device and a storage medium. Some embodiments of the present application will be described in detail below with reference to the accompanying drawings. The embodiments described below and the features of the embodiments can be combined with each other without conflict.

Referring to fig. 1, fig. 1 is a schematic flow chart of an air supply control method based on clothes drying according to an embodiment of the present application, where the method may be applied to an air supply device, and as shown in fig. 1, the air supply control method based on clothes drying specifically includes steps S101 to S103.

S101, determining at least two sub-areas in a clothes airing area, and determining the average clothes thickness of each sub-area.

The clothes drying area is an area for drying clothes in a home, and may be, for example, a balcony in the home or a position for placing a clothes hanger in the home, and the clothes hanger may be a clothes hanger fixed on a ceiling or a wall, or a clothes hanger on the ground.

The clothes drying device can be divided into at least two sub-areas according to the positions where clothes can be hung in the clothes drying area, different types of clothes can be aired in each sub-area, and the average clothes thickness of each sub-area can be determined according to the clothes aired in each sub-area. The average garment thickness may be an average of garment thicknesses of a plurality of garments suspended within the sub-region, and the garment thicknesses of the plurality of garments within the sub-region may be determined, and the average garment thickness for the sub-region may then be determined.

Alternatively, at least two sub-areas in the clothes drying area may be pre-set and fixed areas, and the user may hang different types of clothes in the different sub-areas. For example, a left half area of the laundry rack in the laundry area may be determined as a first sub-area, and a right half area may be determined as a second sub-area. With a relatively thin garment hanging in the first sub-zone and a relatively thick garment hanging in the second sub-zone, the average garment thickness of the first and second sub-zones can be determined separately.

In one embodiment, the positions of at least two sub-areas in the clothes drying area are not fixed, and a user can hang the clothes in the clothes drying area according to the quantity of clothes to be dried, so that the at least two sub-areas in the clothes drying area are determined according to the actual hanging condition of the clothes. The operation of determining at least two sub-areas within the clothes drying area may be implemented as follows:

determining the thickness of clothes in a clothes airing area, and determining at least two sub-areas in the clothes airing area according to the thickness of the clothes.

The thickness of the clothes is the thickness information of the clothes included in the clothes drying area, and may include the thickness of each piece of clothes, or include the thickness distribution information of the clothes in the clothes drying area. Determining the thicknesses of all clothes hung in the clothes drying area, and then determining at least two sub-areas in the clothes drying area according to the distribution of the thicknesses of the clothes, wherein the difference between the thicknesses of any two clothes in each sub-area is small, can be within a preset error range, and the difference between the thickness of any clothes in each sub-area and the thickness of any clothes in the other sub-area is large, and can be outside the preset error range.

Illustratively, the user has several winter clothes and several summer clothes, and the user can hang the several winter clothes on the left side of the clothes airing area and hang the several summer clothes on the right side of the clothes airing area; furthermore, at least two sub-areas can be determined according to the thicknesses of all the hung clothes in the clothes airing area, the thickness of the hung clothes in each sub-area is relatively close to that of the hung clothes in the other sub-areas, and therefore the area where the clothes are hung in summer is determined to be one sub-area, and the area where the clothes are hung in winter is determined to be the other sub-area.

In one embodiment, the operation of determining at least two sub-areas within the clothes drying area according to the thickness of the clothes can be implemented by:

and dividing the clothes airing area into at least two sub-areas according to the clothes thickness, wherein the difference of the average clothes thickness of any two sub-areas is larger than a preset value.

After the clothes thickness in the clothes drying area is determined, the clothes drying area can be divided into at least two sub-areas according to the clothes thickness, the average clothes thicknesses in the different sub-areas have a certain phase difference, and the phase difference can be larger than a preset value.

For example, the clothes drying area can be divided into three sub-areas according to three thicknesses of thicker, medium and thinner, wherein the clothes in winter belong to the thicker clothes thickness, the clothes in spring and autumn belong to the medium clothes thickness, and the clothes in summer belong to the thinner clothes thickness. In the three divided sub-areas, the thickness of the clothes in one sub-area is thicker, the thickness of the clothes in one sub-area is moderate, the thickness of the clothes in the other sub-area is thinner, and the average thickness of the clothes in each sub-area is also respectively determined to be thicker, moderate and thinner.

The larger the thickness of the clothes is, the larger the weight of the corresponding clothes is, and optionally, the weight detection device may be arranged on the clothes drying rod in the clothes drying area to determine the thickness of the clothes in the clothes drying area. For example, a plurality of weight detecting devices may be uniformly arranged on a clothes drying rod in the clothes drying area, and after the clothes are hung, the weight detecting devices may detect the weight distribution on the clothes drying rod to determine the thickness of the clothes in the clothes drying area. The clothes drying device can also be provided with a weight detection device at each hanging point on the clothes drying area, and the weight of each piece of clothes can be determined.

S102, when the air supply device supplies air in a swinging mode towards the clothes drying area, determining a sub-area towards which the air supply direction of the air supply device faces.

The air supply device is a device for generating wind force to accelerate air flow in a room, the air supply device can be a circulating fan, the circulating fan generally comprises a fan and a flow guide component, the wind generated by the fan can be transmitted out through the flow guide component, the wind is blown out spirally along a certain direction, and spiral columnar wind can be formed, so that the wind of the circulating fan can be transmitted to a longer distance, and when the circulating fan is used for supplying the wind in the room, the air in the room can form convection circulation to enhance the air flow in the room.

The user can open air supply arrangement after placing abluent clothing to the clothing region of drying in the air to make air supply arrangement carry out the air supply towards the clothing region of drying in the air, with the air current in the reinforcing clothing region of drying in the air, further can accelerate the drying rate of clothing.

The swing air supply is that an air supply device controls a fan of the air supply device to circularly swing within a preset range, so that the air supply can reach different positions.

When the clothes drying area is large, the air supply device supplies air in a swinging mode, all clothes in the clothes drying area can be supplied with air, and the air can be supplied to at least two sub-areas in the clothes drying area.

However, if the air supply device uses a larger air supply force to supply air to the clothes with a smaller thickness, the clothes with a smaller thickness may be blown off, so that the sub-area towards which the air supply direction of the air supply device is directed can be determined, and the air supply force of the air supply device can be further adjusted according to the average clothes thickness of the sub-area towards which the air supply direction is directed.

S103, adjusting the air supply force of the air supply device according to the average clothes thickness of the subarea towards which the air supply direction faces, wherein the air supply force of the air supply device is in direct proportion to the average clothes thickness of the subarea.

When the air supply device carries out swing air supply, the sub-area towards which the air supply direction of the air supply device faces can be continuously determined, and the air supply force of the air supply device is adjusted according to the average clothes thickness of the sub-area towards which the air supply direction of the current air supply device faces.

If the sub-area towards which the air supply direction of the air supply device faces does not change, the air supply force of the air supply device can be kept, and if the sub-area towards which the air supply direction of the air supply device faces changes, the air supply force of the air supply device can be correspondingly adjusted according to the average clothes thickness of the changed sub-area.

And adjusting the air supply force of the air supply device according to the average clothes thickness of the subarea towards which the air supply direction faces, wherein the thicker the average clothes thickness of the subarea is, the stronger the air supply force can be adopted, and the thinner the average clothes thickness of the subarea is, the weaker the air supply force can be adopted.

In one embodiment, the operation of adjusting the blowing force of the blowing device according to the average thickness of the clothes in the sub-area towards which the blowing direction is directed may be implemented as follows:

and adjusting the air supply speed and/or the swing speed of the air supply device according to the average clothes thickness of the sub-area, so that the air supply speed of the air supply device is in direct proportion to the average clothes thickness of the sub-area, and the swing speed is in inverse proportion to the average clothes thickness of the sub-area.

The air supply force comprises parameters reflecting the air supply intensity of the air supply device, optionally, the air supply force comprises the air supply speed of the air supply device, and the larger the air supply speed is, the larger the air supply intensity of the air supply device to an air supply area is; the air supply force also comprises the swing speed of the air supply device, the slower the swing speed of the air supply device is, the longer the air supply time of the air supply device in a region is, and the higher the air supply intensity of the air supply device to the region is.

Therefore, the larger the blowing wind speed and/or the swing speed can be performed for the sub-area with the thicker average clothes thickness, and the heavier the thicker clothes can be, there is no fear that the thicker clothes can be blown off by the strong blowing wind, so the stronger blowing wind can be adopted for the thicker clothes to accelerate the drying speed of the thicker clothes. And the clothes with thinner average thickness are subjected to lower air supply speed and/or swing speed, so that the clothes can be prevented from being blown off by air supply when the drying speed of the thinner clothes is accelerated.

The air supply device is provided with a motor for driving a fan of the air supply device to rotate, an air speed control instruction can be determined according to the average clothes thickness of the subarea towards which the air supply direction faces, and the air speed control instruction is sent to the motor so as to adjust the rotating speed of the motor, so that the air supply speed of the air supply device can be correspondingly adjusted. Wherein the motor may be a dc brushless motor.

In one embodiment, the operation of adjusting the air supply speed and/or the swing speed of the air supply device according to the average thickness of the clothes in the sub-area can be implemented by:

if the average thickness of the clothes in the subareas is larger than the first thickness, controlling the air supply speed of the air supply device to be larger than the first air speed, and/or controlling the swing speed of the air supply device to be smaller than the first speed;

if the average thickness of the clothes in the sub-area is smaller than the second thickness, controlling the air supply speed of the air supply device to be smaller than a second air speed, and/or controlling the swing speed of the air supply device to be larger than the second speed;

wherein the first thickness is greater than or equal to the second thickness, the first wind speed is greater than or equal to the second wind speed, and the first speed is less than or equal to the second speed.

The air supply speed of the air supply device can comprise a plurality of preset gears, and different gears correspond to fixed air supply speeds and/or fixed swing speeds. For example, a first gear and a second gear can be included, the air supply speed of the first gear is higher than the first air speed, and/or the swing speed is lower than the first speed, namely when the first gear is adopted for air supply, the clothes can be subjected to stronger air supply and/or longer air supply; the air supply speed of the second gear is lower than the second air speed, and/or the swing speed is higher than the second speed, namely, when the second gear is adopted for air supply, the clothes can be supplied with weaker air and/or shorter air supply time.

Therefore, when the clothes in the sub-area towards which the air supply direction of the air supply device faces are thicker, namely larger than the first thickness, stronger air supply force can be adopted, namely the air supply speed of the air supply device can be controlled to be larger than the first air speed, and/or the swing speed of the air supply device is controlled to be smaller than the first speed. When the clothes in the sub-area towards which the air supply direction of the air supply device faces are thinner, namely smaller than the second thickness, weaker air supply force can be adopted, and the air supply speed of the air supply device can be controlled to be smaller than the second air speed. And/or controlling the swing speed of the air supply device to be greater than the second speed.

Specific values of the first thickness and the second thickness may be determined according to an actual application condition, and specific values of the first air speed, the second air speed, the first speed, and the second speed may be set according to the actual application condition and specific specifications of the air supply device, which is not limited herein.

The air circulation in the clothing region that dries in the air can be accelerated through air supply arrangement to accelerate the drying rate of the regional clothing of drying in the air, can correspond the air supply dynamics of adjusting air supply arrangement according to the average clothing thickness of subregion again, can avoid the clothing of thickness thinner to be blown off by great air supply dynamics when accelerating the drying rate of the regional clothing of drying in the air, and reduce unnecessary consumption.

In one embodiment, as shown in fig. 2, the thickness of the clothes in the clothes drying area can be determined by means of visual processing, and the operation of determining the thickness of the clothes in the clothes drying area can be implemented by the following steps:

s201, collecting an image of a clothes airing area through a camera arranged on the air supply device;

s202, determining clothes in the image, and determining thickness characteristic information of each piece of clothes;

s203, determining the thickness of the clothes in the clothes airing area according to the thickness characteristic information of each piece of clothes in the image.

The air supply device is provided with the camera, and the camera can be arranged on a fan head of the air supply device, so that when the air supply device supplies air towards a clothes drying area, the camera can collect images containing the clothes drying area, clothes in the clothes drying area can be determined according to the collected images, and thickness characteristic information of each piece of clothes can be determined.

The image of the clothes hanger area collected by the camera comprises clothes aired on the clothes hanger, the clothes in the image can be determined according to a preset image processing algorithm, and the thickness characteristic information of each piece of clothes is determined respectively.

Illustratively, a plurality of clothes in the image are determined, and thickness characteristic information of each clothes is determined according to width information of the clothes in the image. Or, the thickness characteristic information of each piece of clothes and the image of the clothes are prestored, and after a plurality of pieces of clothes in the image are determined, the clothes in the image can be respectively compared with the prestored clothes image to determine the thickness characteristic information of each piece of clothes in the image.

After the thickness characteristic information of each piece of clothes in the image is determined, the thickness of the clothes in the clothes drying area can be determined, and then at least two sub-areas in the clothes drying area can be determined according to the thickness of the clothes in the clothes drying area.

In one embodiment, when the air supply device supplies air towards the clothes drying area, the method further comprises the following operations:

the method comprises the steps of obtaining the distance between an air supply device and a clothes drying area, and determining the air supply speed of the air supply device according to the distance between the air supply device and the clothes drying area.

Because the positions of clothes drying areas in different families are different and the room spaces are different in size, when the air supply device supplies air to the clothes drying areas, the distance between the air supply device and the clothes drying areas is different according to the positions of the clothes drying areas and the room spaces.

The air supply device is a device for generating wind power to accelerate air flow in a room, the air supply device can transmit the wind to a longer distance, and if the distance between the air supply device and the clothes drying area is shorter, the wind output by the air supply device can be too large to blow off clothes in the clothes drying area, and too much power consumption is caused. If the distance between the air supply device and the clothes drying area is long and the air speed of the air supply device is low, the air convection in the clothes drying area cannot be effectively improved.

Therefore, when the air supply device supplies air to the clothes drying area, the distance between the air supply device and the clothes drying area can be acquired, and the air supply speed of the air supply device can be further adjusted according to the distance.

As shown in fig. 3, air blower 11 located in room 10 blows air to clothes drying area 12, the distance between air blower 11 and clothes drying area 12 is relatively long, and air blower 11 blows air to clothes drying area 12 at a high blowing air speed. As shown in fig. 4, the distance between the air supply device 11 and the clothes drying area 12 is relatively short, and the air supply device 11 supplies air to the clothes drying area 12 at a low air supply speed.

The method comprises the steps of obtaining the distance between an air supply device and a clothes drying area at the beginning of air supply of the air supply device towards the clothes drying area, determining the initial air supply speed of the air supply device according to the distance between the air supply device and the clothes drying area, then carrying out swing air supply towards the clothes drying area by the air supply device according to the air supply speed, and adjusting the air supply force of the air supply device according to the average clothes thickness of the subarea towards which the air supply direction of the air supply device faces.

In one embodiment, the operation of determining the air supply speed of the air supply device according to the distance between the air supply device and the clothes drying area can be implemented by the following steps:

if the distance between the air supply device and the clothes airing area is larger than the first distance, controlling the air supply speed of the air supply device to be larger than a third air speed;

if the distance between the air supply device and the clothes airing area is smaller than a second distance, controlling the air supply speed of the air supply device to be smaller than a fourth air speed;

wherein the first distance is greater than or equal to the second distance and the third wind speed is greater than or equal to the fourth wind speed.

The air supply speed of the air supply device can comprise a plurality of preset gears, and different gears correspond to fixed air supply speeds. For example, a third gear and a fourth gear may be included, the third gear may supply air at a speed higher than the third air speed, and the fourth gear may supply air at a speed lower than the fourth air speed. The air supply gear of the air supply device can be correspondingly arranged according to the distance interval of the distance between the air supply device and the clothes airing area so as to control the air supply speed of the air supply device.

If the distance between the air supply device and the clothes airing area is long, a gear with a large air supply speed can be adopted, and if the distance between the air supply device and the clothes airing area is short, a gear with a small air supply speed can be adopted.

In this embodiment, if the distance between the air supply device and the clothes drying area is greater than the first distance, it indicates that the distance between the air supply device and the clothes drying area is relatively long, and a relatively high air supply speed may be adopted, that is, the air supply speed of the air supply device is controlled to be greater than the third air speed. If the distance between the air supply device and the clothes drying area is smaller than the second distance, the distance between the air supply device and the clothes drying area is relatively short, and a lower air supply speed can be adopted, namely the air supply speed of the air supply device is controlled to be smaller than a fourth speed.

Optionally, the third wind speed is greater than the first wind speed and the fourth wind speed is less than the second wind speed. So that the air supply device can adopt larger air supply speed when the distance between the air supply device and the clothes airing area is longer; and when the distance between the air supply device and the clothes airing area is short, the air supply device can adopt smaller air supply speed.

The third wind speed and the fourth wind speed may be set according to the specification of the air blowing device in practical use, and are not limited herein. The first distance and the second distance may be set according to the space size of a room in practical use and/or the wind speed specification of an air supply device in practical use, and are not limited herein.

In one embodiment, as shown in fig. 5, the operation of obtaining the distance between the air supply device and the clothes drying area may be implemented as follows:

s201, acquiring an image of the clothes drying area through a camera, and determining a clothes drying rack area contained in the image, wherein the camera is arranged on the air supply device;

s202, determining the distance between the air supply device and the clothes drying area according to the clothes drying rack area in the image.

The air supply device is provided with the camera, and the camera can be arranged on a fan head of the air supply device, so that when the air supply device supplies air towards the clothes airing area, the camera can collect images containing the clothes airing area, and further the distance between the air supply device and the clothes airing area can be determined according to the collected images.

The laundry rack area includes a laundry rack body and an area of clothes aired on the laundry rack, and the air supply device actually supplies air to the laundry rack area when supplying air to the laundry rack area, so that the distance between the air supply device and the laundry rack area can be determined from the laundry rack area in the image.

After the image containing the clothes drying area is acquired, the clothes drying rack area contained in the image can be determined according to a preset image processing algorithm. For example, a preset image containing a clothes hanger area may be collected in advance, and after the image containing the clothes hanging area is collected by the camera, the image may be compared with the preset image to determine the clothes hanger area contained in the image.

According to the photographing principle of the camera, the farther away the object from the camera is, the smaller the proportion of the object in the image is, and the closer the object from the camera is, the larger the proportion of the object in the image is. Therefore, after the clothes horse area contained in the image is determined, the distance between the clothes horse area and the camera can be determined according to the proportion of the clothes horse area in the image, and further the distance between the air supply device and the clothes horse area can be determined.

In one embodiment, the operation of determining the distance between the air supply device and the clothes drying area according to the clothes drying rack area in the image can be implemented by the following steps:

determining the length of a clothes airing rod in the clothes airing rack area in the image, and determining the distance between the air supply device and the clothes airing area according to the length of the clothes airing rod.

The general clothes hanger area comprises at least one clothes hanging rod, the clothes hanging rod generally presents a linear or curved line in an elongated shape, the clothes hanging rod generally has a fixed length, if the distance between the air supply device and the clothes hanging area is relatively short, the clothes hanging rod is relatively long in an image, and if the distance between the air supply device and the clothes hanging area is relatively long, the clothes hanging rod is relatively short in the image.

After the image of the clothes drying area is acquired, the position of the clothes drying rod in the clothes drying rack area can be determined through a preset image processing algorithm, for example, a position area which is in line with the shape of the clothes drying rod in the image can be detected through an edge detection algorithm. After the position of the clothes-horse is determined, the length of the clothes-horse in the image can be determined, the distance between the clothes-horse and the camera can be determined according to the length, and further the distance between the air supply device and the clothes-horse area can be determined.

In one embodiment, the determining the distance between the air supply device and the clothes drying area according to the clothes drying rack area in the image further comprises the following operations:

determining a perspective angle of a clothes airing rod in a clothes airing rack area in the image;

accordingly, the operation of determining the distance between the air supply device and the clothes drying area according to the length of the clothes hanger may be performed by:

and determining the distance between the air supply device and the clothes drying area according to the length of the clothes drying rod and the perspective angle of the clothes drying rod.

The perspective angles of the clothes drying rods in the collected images are different according to different relative placement positions of the air supply device and the clothes drying area. For example, when the air supply device is over against the clothes drying area, that is, the air supply direction of the air supply device is perpendicular to the clothes drying rod in the clothes drying area, the clothes drying rod is in a horizontal state in the image collected by the camera on the air supply device; when the air supply device is located at a position which is inclined to the left or right, the clothes airing rod can be in an inclined state in an image collected by a camera of the air supply device.

The perspective angle can be an included angle between the state of the clothes airing rod in the image and a reference line, and the change of the relative position of the air supply device and the clothes hanger can cause the change of the perspective angle of the clothes airing rod in the image collected by the camera; if air supply arrangement and the regional relatively nearer of drying in the air, but air supply arrangement is located more inclined to one side position, and the length of the drying in the image that the camera was gathered also can be than short.

Therefore, the distance between the air supply device and the clothes drying area can be determined by combining the perspective angle and the length of the clothes drying rod, and the accuracy of the determined distance between the air supply device and the clothes drying area can be further improved.

In one embodiment, the operation of determining the distance between the air supply device and the clothes drying area according to the clothes drying rack area in the image can be implemented by the following steps:

and determining clothes in the clothes hanger area, and determining the distance between the air supply device and the clothes drying area according to the proportion of the clothes in the image.

The clothes hanger area collected by the camera also comprises clothes aired on the clothes hanger, and the distance between the clothes and the camera can be determined by detecting the proportion of the clothes in the image, so that the distance between the air supply device and the clothes hanging area can be determined.

The positions of the clothes contained in the image can be determined according to a preset image processing algorithm, and the proportion of the clothes in the image is further determined according to the area of the clothes in the image. The ratio of the clothing in the image may be the area ratio of the clothing in the image, and the ratio of the length or width of the clothing in the image.

The distance between the clothes and the camera can be determined according to the average ratio of the clothes, and further the distance between the air supply device and the clothes airing area can be determined.

Referring to fig. 6, fig. 6 is a schematic block diagram of a structure of an air supply device according to an embodiment of the present disclosure. The air blowing device may be a circulation fan.

Referring to fig. 6, the air supply device 100 includes a processor 110 and a memory 120 connected by a system bus, wherein the memory 120 may include a nonvolatile storage medium and an internal memory.

The non-volatile storage medium may store an operating system and a computer program. The computer program includes program instructions that, when executed, cause a processor to perform any one of the clothes drying based air supply control methods.

The processor is used for providing calculation and control capability and supporting the operation of the whole air supply device.

The internal memory provides an environment for running a computer program in a non-volatile storage medium, which when executed by the processor, causes the processor to perform any one of the clothes drying-based air supply control methods.

Those skilled in the art will appreciate that the configuration shown in fig. 6 is a block diagram of only a portion of the configuration associated with the present application and does not constitute a limitation on the air-moving device to which the present application is applied, and that a particular air-moving device may include more or less components than those shown, or combine certain components, or have a different arrangement of components.

It should be understood that the Processor may be a Central Processing Unit (CPU), and the Processor may be other general purpose processors, Digital Signal Processors (DSPs), Application Specific Integrated Circuits (ASICs), Field Programmable Gate Arrays (FPGAs) or other Programmable logic devices, discrete Gate or transistor logic devices, discrete hardware components, etc. Wherein a general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

Wherein, in one embodiment, the processor is configured to execute a computer program stored in the memory to implement the steps of:

determining at least two sub-areas in the clothes airing area, and determining the average clothes thickness of each sub-area;

when the air supply device supplies air in a swinging mode towards the clothes drying area, determining a sub-area towards which the air supply direction of the air supply device faces;

and adjusting the air supply force of the air supply device according to the average clothes thickness of the subarea towards which the air supply direction faces, wherein the air supply force of the air supply device is in direct proportion to the average clothes thickness of the subarea.

In one embodiment, the processor, in effecting the determining at least two sub-areas within the clothes drying area, is adapted to effect:

determining the thickness of clothes in a clothes airing area, and determining at least two sub-areas in the clothes airing area according to the thickness of the clothes.

In one embodiment, the processor, in effecting said determining the thickness of the laundry within the laundry area, is adapted to effect:

acquiring an image of a clothes airing area through a camera arranged on the air supply device;

determining clothes in the image and determining thickness characteristic information of each piece of clothes;

and determining the thickness of the clothes in the clothes airing area according to the thickness characteristic information of each piece of clothes in the image.

In one embodiment, the processor, in effecting the determining at least two sub-areas within the clothes drying area from the thickness of clothes, is adapted to effect:

and dividing the clothes airing area into at least two sub-areas according to the clothes thickness, wherein the difference of the average clothes thickness of any two sub-areas is larger than a preset value.

In one embodiment, the processor, when implementing the adjusting of the air blowing force of the air blowing device according to the average clothes thickness of the sub-area towards which the air blowing direction is directed, is configured to implement:

and adjusting the air supply speed and/or the swing speed of the air supply device according to the average clothes thickness of the sub-area, so that the air supply speed of the air supply device is in direct proportion to the average clothes thickness of the sub-area, and the swing speed is in inverse proportion to the average clothes thickness of the sub-area.

In one embodiment, the processor, when implementing the adjusting of the wind speed and/or the swing speed of the wind blowing device according to the average thickness of the laundry of the sub-area, is configured to implement:

if the average thickness of the clothes in the subareas is larger than the first thickness, controlling the air supply speed of the air supply device to be larger than the first air speed, and/or controlling the swing speed of the air supply device to be smaller than the first speed;

if the average thickness of the clothes in the sub-area is smaller than the second thickness, controlling the air supply speed of the air supply device to be smaller than a second air speed, and/or controlling the swing speed of the air supply device to be larger than the second speed;

wherein the first thickness is greater than or equal to the second thickness, the first wind speed is greater than or equal to the second wind speed, and the first speed is less than or equal to the second speed.

In one embodiment, the processor, when effecting said blowing of air towards the clothes drying area by the air blowing device, is further adapted to effect:

the method comprises the steps of obtaining the distance between an air supply device and a clothes drying area, and determining the air supply speed of the air supply device according to the distance between the air supply device and the clothes drying area.

In one embodiment, the processor, when performing the determining of the air supply speed of the air supply device according to the distance between the air supply device and the clothes drying area, is configured to perform:

if the distance between the air supply device and the clothes airing area is larger than the first distance, controlling the air supply speed of the air supply device to be larger than a third air speed;

if the distance between the air supply device and the clothes airing area is smaller than a second distance, controlling the air supply speed of the air supply device to be smaller than a fourth air speed;

wherein the first distance is greater than or equal to the second distance and the third wind speed is greater than or equal to the fourth wind speed.

The embodiment of the application also provides a computer-readable storage medium, wherein a computer program is stored in the computer-readable storage medium, the computer program comprises program instructions, and the processor executes the program instructions to realize any air supply control method based on clothes drying provided by the embodiment of the application.

The computer-readable storage medium may be an internal storage unit of the air supply device described in the foregoing embodiment, for example, a hard disk or a memory of the air supply device. The computer readable storage medium may also be an external storage device of the air supply apparatus, such as a plug-in hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), and the like, provided on the air supply apparatus.

While the invention has been described with reference to specific embodiments, the scope of the invention is not limited thereto, and those skilled in the art can easily conceive various equivalent modifications or substitutions within the technical scope of the invention. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. An air supply control method based on clothes drying is characterized in that the air supply control method is applied to an air supply device and comprises the following steps:

determining at least two sub-areas in the clothes airing area, and determining the average clothes thickness of each sub-area;

when the air supply device supplies air in a swinging mode towards the clothes drying area, determining a sub-area towards which the air supply direction of the air supply device faces;

and adjusting the air supply force of the air supply device according to the average clothes thickness of the subarea towards which the air supply direction faces, wherein the air supply force of the air supply device is in direct proportion to the average clothes thickness of the subarea.

2. The clothes drying-based air supply control method of claim 1, wherein the determining at least two sub-areas within a clothes drying area comprises:

determining the thickness of clothes in a clothes airing area, and determining at least two sub-areas in the clothes airing area according to the thickness of the clothes.

3. The clothes drying-based air supply control method of claim 2, wherein the determining the thickness of the clothes in the clothes drying area comprises:

acquiring an image of a clothes airing area through a camera arranged on the air supply device;

determining clothes in the image and determining thickness characteristic information of each piece of clothes;

and determining the thickness of the clothes in the clothes airing area according to the thickness characteristic information of each piece of clothes in the image.

4. The clothes drying-based air supply control method of claim 2, wherein the determining at least two sub-areas within the clothes drying area according to the thickness of the clothes comprises:

and dividing the clothes airing area into at least two sub-areas according to the clothes thickness, wherein the difference of the average clothes thickness of any two sub-areas is larger than a preset value.

5. The air supply control method based on clothes airing according to claim 1, wherein the adjusting of the air supply force of the air supply device according to the average clothes thickness of the sub-area towards which the air supply direction is directed comprises:

and adjusting the air supply speed and/or the swing speed of the air supply device according to the average clothes thickness of the sub-area, so that the air supply speed of the air supply device is in direct proportion to the average clothes thickness of the sub-area, and the swing speed is in inverse proportion to the average clothes thickness of the sub-area.

6. The clothes drying-based air supply control method according to claim 5, wherein the adjusting of the air supply speed and/or the swing speed of the air supply device according to the average clothes thickness of the sub-area comprises:

if the average thickness of the clothes in the subareas is larger than the first thickness, controlling the air supply speed of the air supply device to be larger than the first air speed, and/or controlling the swing speed of the air supply device to be smaller than the first speed;

if the average thickness of the clothes in the sub-area is smaller than the second thickness, controlling the air supply speed of the air supply device to be smaller than a second air speed, and/or controlling the swing speed of the air supply device to be larger than the second speed;

wherein the first thickness is greater than or equal to the second thickness, the first wind speed is greater than or equal to the second wind speed, and the first speed is less than or equal to the second speed.

7. The air supply control method for clothes drying according to any one of claims 1 to 6, further comprising, when the air supply device supplies air toward the clothes drying area:

the method comprises the steps of obtaining the distance between an air supply device and a clothes drying area, and determining the air supply speed of the air supply device according to the distance between the air supply device and the clothes drying area.

8. The clothes drying-based air supply control method according to claim 7, wherein the determining of the air supply speed of the air supply device according to the distance between the air supply device and the clothes drying area includes:

if the distance between the air supply device and the clothes airing area is larger than the first distance, controlling the air supply speed of the air supply device to be larger than a third air speed;

if the distance between the air supply device and the clothes airing area is smaller than a second distance, controlling the air supply speed of the air supply device to be smaller than a fourth air speed;

wherein the first distance is greater than or equal to the second distance and the third wind speed is greater than or equal to the fourth wind speed.

9. An air supply arrangement, comprising a memory and a processor;

the memory is used for storing a computer program;

the processor for executing the computer program and implementing the clothes drying-based air supply control method according to any one of claims 1 to 8 when the computer program is executed.

10. A computer-readable storage medium, characterized in that it stores a computer program which, when executed by a processor, causes the processor to implement the clothes drying-based air supply control method according to any one of claims 1 to 8.

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