CN109914083B - Control method of garment steamer and garment steamer - Google Patents

Abstract

The utility model relates to a control method and garment steamer of garment steamer, through set up image sensor on the head that scalds at garment steamer, in order to gather the image information of the clothing of waiting to iron, and with this image sensor and the steam generator of garment steamer respectively with the control module communication connection of garment steamer, handle the image information that image sensor gathered through this control module in order to obtain the fold information of the clothing of waiting to iron, and adjust the working parameter of steam generator according to fold information, thereby realize the automatic control of the working parameter value of garment steamer, avoided the manual inconvenience that causes that switches the gear that irones, thereby the ironing efficiency of garment steamer has been improved. Meanwhile, the working parameters of the garment steamer are automatically adjusted according to the wrinkle information of the clothes to be ironed, and the cost of electricity and water of the garment steamer is saved on the basis of ensuring the ironing effect.

Description

Control method of garment steamer and garment steamer

Technical Field

The disclosure relates to the technical field of household appliances, in particular to a control method of a garment steamer and the garment steamer.

Background

The working principle of the garment steamer commonly used at present is that hot water steam is continuously contacted with clothes to soften the wrinkle parts of the clothes so as to enable the clothes to become flat and smooth. The garment steamer has the advantages of simple operation, fast ironing, no damage to clothes and the like, and is popular with the majority of users.

In the related art, a control button for controlling ironing parameters such as steam output and steam temperature is provided on a housing of a steam generator of a garment steamer. When the garment steamer is used for ironing clothes, proper ironing gears are set through the operation control key according to specific cloth of the clothes, and the ironing gears are switched according to different wrinkle degrees of the clothes in the ironing process so as to improve the ironing effect.

However, when the user needs to bend down and squat down when operating the control key, and when the ironing gear of the garment steamer needs to be switched, the user needs to carefully distinguish the corresponding control key, which brings inconvenience to the user, thereby affecting the ironing efficiency.

Disclosure of Invention

The disclosed embodiments provide a control method of a garment steamer and a garment steamer, which can overcome some problems in the related art.

According to a first aspect of embodiments of the present disclosure, there is provided a control method of a garment steamer, comprising:

acquiring image information of clothes to be ironed;

processing the image information to determine wrinkle information of the laundry to be ironed;

and adjusting the working parameters of the garment steamer according to the wrinkle information of the garment to be ironed.

Optionally, the acquiring image information of the clothes to be ironed includes:

image information of the clothes to be ironed is obtained through an image sensor, and the image information comprises color and brightness information of the image.

Optionally, the garment steamer further comprises a control module, a steam generator and a steamer head communicated with the steam generator, wherein a steam hole for spraying water steam is formed in the steamer head; the control module is respectively in communication connection with the steam generator, the image sensor and the steam hole; the control module processes the image information to determine wrinkle information of the clothes to be ironed, and determines working parameters of a steam generator and/or a steam hole in the garment steamer according to the wrinkle information.

Optionally, the determining the operating parameters of the garment steamer according to the wrinkle information of the garment to be ironed includes:

determining the severity level of the wrinkles of the clothes to be ironed according to the wrinkle information;

and determining the working parameters of the garment steamer according to the severity level of the wrinkles of the garment to be ironed.

Optionally, the garment steamer comprises a steam generator and a steamer head communicated with the steam generator, and a steam hole for spraying steam is formed in the steamer head;

the working parameters comprise one or more of heating temperature of the steam generator, steam outlet quantity of the steam generator, steam outlet time of the steam generator, opening degree of the steam hole and opening and closing time of the steam hole.

Optionally, the determining the operating parameters of the garment steamer according to the severity level of the wrinkles of the garment to be ironed comprises:

determining that the working parameter value of the garment steamer is larger as the severity level of wrinkles of the garment to be ironed is increased; wherein the operating parameter value includes one or more of a heating temperature of the steam generator, a steam outlet amount of the steam generator, a steam outlet time of the steam generator, an opening degree of the steam hole, and an opening and closing time of the steam hole.

Optionally, the processing the clothes image to determine wrinkle information of the clothes to be ironed includes:

and comparing the clothes image of the clothes to be ironed with a preset clothes image to obtain wrinkle information of the clothes to be ironed.

Optionally, the wrinkle information includes: one or more of a position of wrinkles, an area of wrinkles and a degree of wrinkles of the laundry to be ironed.

According to a second aspect of embodiments of the present disclosure, there is provided a garment steamer comprising: the ironing device comprises a steam generator, an ironing head, a power supply module, a control module and an image sensor, wherein the ironing head is communicated with the steam generator; the power supply module is electrically connected with the steam generator, the control module and the image sensor respectively; the control module is respectively in communication connection with the image sensor and the steam generator and is used for processing the image information collected by the image sensor to obtain wrinkle information of the clothes to be ironed and adjusting working parameters of the steam generator according to the wrinkle information.

Optionally, the iron head is provided with a steam hole for spraying water steam, and the image sensor is arranged on the iron head and below the steam hole.

Optionally, the iron head comprises a main body and a heat insulator, and the image sensor is thermally isolated from a passage in the main body through which high-temperature steam passes by the heat insulator.

Optionally, the iron head further comprises an elastic element and a baffle;

a groove is formed in the main body, the elastic element is fixed in the groove, and the image sensor is fixed in the groove through the elastic element; the baffle is arranged at the opening of the groove and used for accommodating the image sensor into the groove and then covering the opening of the groove; the heat insulation piece is arranged on the inner wall of the groove.

Optionally, the prompting module is in communication connection with the control module and is used for giving an alarm when the operating parameters of the steam generator are switched.

Optionally, the prompting module comprises a display screen and/or a speaker; the display screen is used for prompting the working parameters of the steam generator after the working modes are switched through images; the loudspeaker is used for prompting the working parameters of the steam generator after the working mode is switched through voice.

The technical scheme provided by the embodiment of the disclosure can have the following beneficial effects:

according to the control method of the garment steamer and the garment steamer, the image sensor is arranged on the ironing head of the garment steamer to collect the image information of clothes to be ironed, the image sensor is in communication connection with the control module of the garment steamer, the image information collected by the image sensor is processed by the control module to obtain the wrinkle information of the clothes to be ironed, and the working parameters of the garment steamer are adjusted according to the wrinkle information, so that the automatic control of the working parameter values of the garment steamer is realized, the inconvenience caused by manual ironing gear switching is avoided, and the ironing efficiency of the garment steamer is effectively improved. Meanwhile, the working parameters of the garment steamer are automatically adjusted according to the wrinkle information of the clothes to be ironed, and the cost of electricity and water of the garment steamer is saved on the basis of ensuring the ironing effect.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a flow chart illustrating a control method of a garment steamer according to an exemplary embodiment;

FIG. 2 is a schematic structural view of a garment steamer shown in accordance with an exemplary embodiment;

FIG. 3 is a block diagram of a construction of a garment steamer according to an exemplary embodiment;

fig. 4 is a partially enlarged view of a in fig. 2.

Description of reference numerals:

100-a steam generator;

200-ironing heads;

210-steam vents;

220-a body;

221-grooves;

230-insulation;

240-baffle plate;

300-a power supply module;

400-a control module;

500-an image sensor;

600-gas guide tube;

700-prompt module.

With the foregoing drawings in mind, certain embodiments of the disclosure have been shown and described in more detail below. These drawings and written description are not intended to limit the scope of the disclosed concepts in any way, but rather to illustrate the concepts of the disclosure to those skilled in the art by reference to specific embodiments.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

In the description of the present invention, it is to be understood that the terms "inner", "outer", "upper", "bottom", "front", "rear", and the like, when used, refer to the orientation or positional relationship shown in the drawings, which are used for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered limiting.

In the related art, a garment steamer is provided with a control button for controlling ironing parameters such as steam output and steam temperature on a shell of a steam generator. When the garment steamer is used for ironing clothes, proper ironing gears are set through the operation control key according to specific cloth of the clothes, and the ironing gears are switched according to different wrinkle degrees of the clothes in the ironing process so as to improve the ironing effect.

However, when the user needs to bend down and squat down when operating the control key, and when the ironing gear of the garment steamer needs to be switched, the user needs to carefully distinguish the corresponding control key, which brings inconvenience to the user, thereby affecting the ironing efficiency.

In order to solve the above or some potential problems in the related art, the following embodiments provide a control method of a garment steamer and a garment steamer thereof, so that an ironing gear of the garment steamer can be automatically adjusted, and ironing efficiency is improved on the basis of ensuring an ironing effect.

Example one

FIG. 1 is a flow chart illustrating a method of controlling a garment steamer according to an exemplary embodiment.

Referring to fig. 1, the present embodiment provides a control method of a garment steamer, including:

s101, acquiring image information of clothes to be ironed.

In this embodiment, the garment steamer can collect the current image of the garment to be ironed, thereby acquiring the image information of the garment to be ironed. Specifically, an image sensor can be arranged on the garment steamer, and the image sensor is used for collecting the current image of the garment to be ironed so as to obtain the image information of the garment to be ironed. Wherein the image sensor may be a CCD, CMOS or other camera, without limitation.

S102, processing the image information to determine wrinkle information of the clothes to be ironed.

The garment steamer of this embodiment still includes control module, steam generator and the head that scalds with steam generator intercommunication, scalds to be formed with on the head and supplies water steam spun steam hole. The control module is respectively connected with the steam generator, the image sensor and the steam hole in a communication mode.

Firstly, after the image sensor acquires the image information of the clothes to be ironed, the image information is fed back to the control module, and the control module processes the acquired image information to determine the wrinkle information of the clothes to be ironed. The image information may include color and brightness information of the image, and whether the image is a wrinkle area may be determined according to the color and brightness information of the acquired image of the clothes to be ironed.

In particular, the present embodiment may compare a clothes image of the clothes to be ironed with a preset clothes image to obtain wrinkle information of the clothes to be ironed. Wherein the wrinkle information includes one or more of a wrinkle position, a wrinkle area, and a wrinkle degree. The preset clothes image comprises preset wrinkle positions, wrinkle areas and wrinkle degree information.

For example, in specific operation, after the control module acquires the image information of the clothes to be ironed, the control module compares the wrinkle area of the image of the clothes to be ironed with the wrinkle area of a preset image of the clothes to determine the size of the wrinkle area of the clothes to be ironed. Or after the control module acquires the image information of the clothes to be ironed, comparing the wrinkle position of the clothes image of the clothes to be ironed with the wrinkle position of a preset clothes image, and determining the wrinkle position of the clothes to be ironed. Or, after the control module acquires the image information of the clothes to be ironed, comparing the wrinkle degree of the clothes image of the clothes to be ironed with the similarity of the wrinkle degree of the preset clothes image, and determining the wrinkle degree of the clothes to be ironed. Of course, after the control module obtains the image information of the clothes to be ironed, the image of the clothes to be ironed can be simultaneously compared with the wrinkle position and the wrinkle area in the preset image of the clothes, and the wrinkle position and the wrinkle area of the clothes to be ironed can be determined.

It can be understood that, in other examples, the clothing image of the clothing to be ironed may be compared with any two or three of the wrinkle position, the wrinkle area, and the wrinkle degree in the preset clothing image at the same time, so as to determine any two or three pieces of wrinkle information among the wrinkle position, the wrinkle area, and the wrinkle degree of the clothing to be ironed, which is not described herein again.

The fold positions comprise any one of collars, cuffs, clothes bodies and the like, and the clothes at different fold positions are different in ironing difficulty.

S103, adjusting the working parameters of the garment steamer according to the wrinkle information of the garment to be ironed.

In this embodiment, after the wrinkle information of the clothes to be ironed is determined, the control module determines the operating parameters of the steam generator and/or the steam holes in the garment steamer according to the wrinkle information.

Specifically, after the wrinkle information of the clothes to be ironed is determined, the severity level of the wrinkles of the clothes to be ironed is determined according to the wrinkle information, and then the working parameters of the garment steamer are determined according to the severity level of the wrinkles of the clothes to be ironed.

This embodiment, when embodied, may classify the severity level of wrinkles of the laundry to be ironed into three levels. Taking the wrinkle information as the wrinkle position as an example, when the wrinkle position of the clothes image of the clothes to be ironed is compared with the wrinkle position of the preset clothes image, and the wrinkle position of the clothes to be ironed is determined to be positioned on the collar, determining the wrinkle severity grade of the clothes to be ironed to be one grade; when the wrinkle position of the clothes image of the clothes to be ironed is compared with the wrinkle position of the preset clothes image, and the wrinkle position of the clothes to be ironed is located at the cuff, determining the wrinkle severity level of the clothes to be ironed as the second grade; and when the wrinkle position of the clothes image of the clothes to be ironed is compared with the wrinkle position of the preset clothes image, and the wrinkle position of the clothes to be ironed is determined to be positioned on the clothes body, determining that the wrinkle severity level of the clothes to be ironed is three levels.

The above example is a description of an example in which the garment to be ironed is a shirt. It will be appreciated that the user may determine the condition for determining the severity level of wrinkles in the laundry to be ironed according to the actual condition of the laundry being ironed, and is not limited herein. For example, if the clothes to be ironed are trousers, when the wrinkle position of the clothes to be ironed is determined to be the hip of the trousers, the wrinkle severity of the clothes to be ironed is determined to be one level; and when the position of the wrinkles of the clothes to be ironed is determined to be the bottom of the trouser legs, determining the severity of the wrinkles of the clothes to be ironed to be a second level.

Taking the wrinkle information as the wrinkle area as an example, the severity level of the wrinkles of the clothes to be ironed can be classified into three levels according to the difference condition between the wrinkle area of the clothes to be ironed and the wrinkle area of the preset clothes image. For example, when the wrinkle area of the clothes to be ironed is determined to be larger than the wrinkle area of the preset clothes image, and the difference value of the two is larger than or equal to 30cm²If so, determining the severity level of the wrinkles of the clothes to be ironed as one level; when it is determined that the wrinkle area of the clothes to be ironed is larger than the wrinkle of the preset clothes imageThe wrinkle area is less than 30cm²If so, determining the severity level of the wrinkles of the clothes to be ironed as the second level; and when the wrinkle area of the clothes to be ironed is determined to be smaller than the wrinkle area of the preset clothes image, determining the severity level of the wrinkles of the clothes to be ironed to be three levels.

It can be understood that the above-mentioned manner of classifying the severity of wrinkles and the difference of wrinkle areas is 30cm²For example, in practical applications, the difference and the severity level may also be adjusted according to practical situations, and are not limited herein. For example, when the wrinkle area of the clothes to be ironed is determined to be larger than the wrinkle area of the preset clothes image, and the difference value of the two is larger than or equal to 50cm²When the clothes to be ironed are in the ironing mode, determining the severity of wrinkles of the clothes to be ironed to be first grade; when the wrinkle area of the clothes to be ironed is determined to be larger than the wrinkle area of the preset clothes image, and the difference value of the wrinkle area and the preset clothes image is smaller than 50cm²And is greater than or equal to 20cm²If so, determining the severity level of wrinkles of the clothes to be ironed as the second level; when the wrinkle area of the clothes to be ironed is determined to be larger than the wrinkle area of the preset clothes image, and the difference value of the wrinkle area and the preset clothes image is smaller than 20cm²And is greater than or equal to 0cm²If so, determining the severity level of wrinkles of the clothes to be ironed to be three-level; and when the wrinkle area of the clothes to be ironed is determined to be smaller than the wrinkle area of the preset clothes image, determining the severity level of the wrinkles of the clothes to be ironed to be four levels.

Taking the wrinkle information as the wrinkle degree as an example, the severity level of the wrinkles of the laundry to be ironed may be classified into three levels according to the similarity between the wrinkle degree of the laundry to be ironed and the wrinkles of the preset laundry image. For example, when the degree of the wrinkles of the laundry to be ironed is greater than or equal to 70% of the degree of the wrinkles of the preset laundry image, determining the severity level of the wrinkles of the laundry to be ironed as one level; when the similarity between the wrinkle degree of the clothes to be ironed and the wrinkle degree of the preset clothes image is less than 70% and more than or equal to 40%, determining the severity level of the wrinkles of the clothes to be ironed as a second level; and when the similarity between the wrinkle degree of the clothes to be ironed and the wrinkle degree of the preset clothes image is less than 40%, determining that the severity level of the wrinkles of the clothes to be ironed is three levels.

It is understood that the above-mentioned manner of dividing the severity level of the wrinkle is only one example, and in practical applications, the setting of the similarity and the dividing of the severity level may also be adjusted according to practical situations, and is not limited herein. For example, when the degree of the wrinkles of the laundry to be ironed is greater than or equal to 80% of the degree of the wrinkles of the preset laundry image, determining the severity level of the wrinkles of the laundry to be ironed as one level; when the similarity between the wrinkle degree of the clothes to be ironed and the wrinkle degree of the preset clothes image is less than 80% and more than or equal to 50%, determining the severity level of the wrinkles of the clothes to be ironed as a second level; when the similarity between the wrinkle degree of the clothes to be ironed and the wrinkle degree of the preset clothes image is less than 50% and more than or equal to 30%, determining that the severity level of the wrinkles of the clothes to be ironed is three levels; and when the similarity between the wrinkle degree of the clothes to be ironed and the wrinkle degree of the preset clothes image is less than 30%, determining that the severity level of the wrinkles of the clothes to be ironed is four levels.

Taking the wrinkle information as the wrinkle area and the wrinkle position as an example, when the wrinkle position of the clothes to be ironed is determined to be positioned on the collar, and simultaneously when the wrinkle area of the clothes to be ironed is determined to be larger than the wrinkle area of the preset clothes image, and the difference value of the wrinkle area and the wrinkle area is larger than or equal to 30cm²If so, determining the severity level of the wrinkles of the clothes to be ironed as one level; when the position of the fold of the clothes to be ironed is determined to be positioned on the collar, the fold area of the clothes to be ironed is determined to be larger than the fold area of the preset clothes image, and the difference value of the fold area and the preset clothes image is less than 50cm²And is greater than or equal to 20cm²If so, determining the severity level of wrinkles of the clothes to be ironed as the second level; when the position of the fold of the clothes to be ironed is determined to be positioned on the clothes body, the fold area of the clothes to be ironed is determined to be larger than the fold area of the preset clothes image, and the difference value of the fold area and the preset clothes image is less than 50cm²And is greater than or equal to 20cm²And then, determining the severity level of wrinkles of the clothes to be ironed as three levels. It is to be understood that the above-mentioned manner of dividing the severity level is only one example, and when the above-mentioned manner of dividing the severity level is implemented specifically, the severity level may be further divided according to the actual situation.

In the specific implementation of the embodiment, the wrinkle position of the clothes to be ironed can be determined by the control module, after the wrinkle position is determined, the severity level of the wrinkles of the clothes to be ironed is determined according to the wrinkle area of the clothes to be ironed, or the severity level of the wrinkles of the clothes to be ironed is determined according to the wrinkle degree of the clothes to be ironed, and the like, so that the control module can determine the severity level of the wrinkles of the clothes to be ironed conveniently, and the adjustment sensitivity of the garment steamer to the working parameters is improved.

In this embodiment, the operating parameters of the steamer include one or more of a heating temperature of the steam generator, a steam outlet amount of the steam generator, a steam outlet time of the steam generator, an opening degree of the steam hole, and an opening and closing time of the steam hole. On the basis of the method, the working parameter value of the garment steamer is determined to be larger along with the increase of the severity level of wrinkles of the garment to be ironed; the working parameter values comprise one or more of heating temperature of the steam generator, steam outlet quantity of the steam generator, steam outlet time of the steam generator, opening degree of the steam holes and opening and closing time of the steam holes.

It should be noted that the severity level of the wrinkles of the clothes to be ironed is first level, second level, third level … from high to low, and so on.

During specific work, the working parameters of the garment steamer can be set into a plurality of corresponding designated working parameters according to the severity grade of wrinkles of clothes to be ironed, and the designated working parameters are increased along with the increase of the severity grade. For example, when the severity level of the wrinkles of the laundry to be ironed is classified into three levels, the severity level is highest at one level, the severity level is second at least, and the severity level is third at least, for example, when the severity level of the wrinkles of the laundry to be ironed is first at one level, the operating parameter value of the steamer is highest, and when the severity level of the wrinkles of the laundry to be ironed is third at least, the operating parameter of the steamer is lowest.

Taking the steam output of the steam generator in the operating parameters as an example, the higher the severity level of wrinkles of the clothes to be ironed, the greater the steam output of the steam generator. For example, when it is determined that the severity level of wrinkles of the laundry to be ironed is one level, the steam output of the steam generator is 50 ml/s; when the severity level of wrinkles of the clothes to be ironed is determined to be two levels, the steam outlet quantity of the steam generator is 40 ml/s; when it is determined that the severity level of wrinkles of the laundry to be ironed is three levels, the steam output of the steam generator is 20 ml/s. It is understood that the steam output of the steam generator can be adjusted according to the material of the clothes and the like in each severity level, which is not limited herein.

Or, taking the heating temperature of the steam generator as an example of the operating parameters, the higher the severity level of wrinkles of the laundry to be ironed, the higher the heating temperature of the steam generator. For example, when it is determined that the severity level of wrinkles of the laundry to be ironed is one level, the heating temperature of the steam generator is 300 ℃; when the severity level of wrinkles of the clothes to be ironed is determined to be two levels, the heating temperature of the steam generator is 200 ℃; when it is determined that the severity level of wrinkles of the laundry to be ironed is three levels, the heating temperature of the steam generator is 100 ℃. Also, the heating temperature of the steam generator in each severity level can be adjusted according to actual conditions, and is not limited herein.

It can be understood that, as the severity level of wrinkles of the clothes to be ironed increases, one or more corresponding parameter values of the steam outlet time of the steam generator, the opening degree of the steam holes and the opening and closing time of the steam holes in the working parameters may also increase, so as to improve the ironing effect of the garment steamer on the clothes to be ironed, which is not described herein again.

Based on the above, the control method of the garment steamer provided by the embodiment has the advantages that the image information of the garment to be ironed is acquired, the image information is processed to determine the wrinkle information of the garment to be ironed, and then the working parameters of the garment steamer are adjusted through the wrinkle information, so that the automatic adjustment of the working mode of the garment steamer is realized, the ironing efficiency is improved, the working parameters are adjusted according to the wrinkle information, the ironing effect is ensured, the use cost of the garment steamer is saved, and the improvement of the user experience is facilitated.

Example two

FIG. 2 is a schematic structural view of a garment steamer shown in accordance with an exemplary embodiment; FIG. 3 is a block diagram of a construction of a garment steamer shown in accordance with an exemplary embodiment.

Referring to fig. 2 and 3, the present embodiment provides a garment steamer comprising: the steam generator 100, the iron 200 connected to the steam generator 100, the power supply module 300, the control module 400 and the image sensor 500. Wherein, the image sensor 500 is used for collecting the image information of the clothes to be ironed. The power supply module 300 is electrically connected to the steam generator 100, the control module 400 and the image sensor 500, respectively, and is configured to provide power to the steam generator 100, the control module 400 and the image sensor 500. The control module 400 is respectively connected to the image sensor 500, the steam generator 100 and the steam vent 210 in a communication manner, and is configured to process image information collected by the image sensor 500 to obtain wrinkle information of the clothes to be ironed, and adjust operating parameters of the steam generator 100 according to the wrinkle information.

Specifically, in the garment steamer of the present embodiment, the image sensor 500 is disposed on the steamer head 200 to collect image information of the clothes to be ironed, the image sensor 500 and the steam generator 100 are respectively in communication connection with the control module 400 of the garment steamer, the control module 400 processes the image information collected by the image sensor 500 to obtain wrinkle information of the clothes to be ironed, and the operating parameters of the steam generator 100 are adjusted according to the wrinkle information. The automatic control of the working mode of the garment steamer is realized by the arrangement mode, the condition that inconvenience is brought to a user or even switching errors occur due to manual switching of ironing gears is avoided, the ironing efficiency of the garment steamer is improved, and the switching of the working mode is more accurate.

The operation of the garment steamer of this embodiment is as follows: firstly, the power supply of the garment steamer is turned on, the image sensor 500 is turned on, the ironing head 200 is placed above the clothes to be ironed, the image sensor 500 starts to collect the current image information of the clothes to be ironed, the collected image information is fed back to the control module 400, the control module 400 processes the image information to obtain the wrinkle information of the clothes to be ironed, and then the control module 400 controls the steam generator 100 to operate in a designated working mode according to the wrinkle information to iron the current clothes. With the continuous movement of the ironing head 200, the image sensor 500 continuously collects the image information of different positions of the clothes to be ironed, and when the control module 400 processes the currently collected image information to obtain the wrinkle information different from the wrinkle information of the previous position, the control module 400 switches the parameters of the steam generator 100 in the garment steamer according to the current wrinkle information, and repeats the above process until the ironing is completed.

The processing procedure of the control module 400 obtaining the wrinkle information of the clothes to be ironed according to the image information may specifically be: the control module 400 compares the image information collected by the image sensor 500 with a preset clothes image, thereby obtaining wrinkle information of the clothes to be ironed. The wrinkle information may specifically include one or more of a wrinkle position, a wrinkle area, and a wrinkle degree of the clothes to be ironed, in other words, the control module 400 specifically compares the image information acquired by the image sensor 500 with one or more of a wrinkle position, a wrinkle area, and a wrinkle degree in a preset clothes image, determines wrinkle information of the clothes to be ironed, and automatically adjusts operating parameters of the steam generator 100 in the garment steamer according to the wrinkle information of the clothes to be ironed.

In this embodiment, the garment steamer can improve the ironing effect of this garment steamer through the working parameter who adjusts the garment steamer by oneself according to the fold information of treating the clothing that irones, and practices thrift the water and the power consumption cost of garment steamer. For example, if the control module 400 processes the image information of the to-be-ironed clothes collected by the image sensor 500, and the wrinkle surface of the to-be-ironed clothes is larger than the preset wrinkle area in the control module 400, it is determined that the wrinkles of the to-be-ironed clothes are serious, and at this time, the steam outlet amount of the steam generator 100 can be increased, so that the position with serious wrinkles is in contact with more steam, the ironing effect of the position with serious wrinkles is better, and the ironing efficiency is also improved; reach after the control module 400 is handled the image information of treating the clothing of ironing that image sensor 500 gathered, the fold surface of treating the clothing of ironing is less than the fold area of predetermineeing in the control module 400, it is lighter then to confirm the fold of treating the clothing of ironing, at this moment, can reduce steam generator 100's play steam volume, iron the position that the fold is lighter through less steam, avoided continuing to use great play steam volume and the waste that causes the water and electricity in the position that the fold severity is lighter, and simultaneously, also avoided the position that the fold is lighter to cause the damage with a large amount of steam contact to the clothing, ironing efficiency has been improved.

The operation parameters of the garment steamer in this embodiment specifically include one or more of the heating temperature of the steam generator 100, the steam output of the steam generator 100 and the steam output time of the steam generator 100.

In practical applications, the iron 200 connected to the steam generator 100 is opened with a steam hole 210, and the steam hole 210 is used for discharging the steam generated by the steam generator 100 to the outside. The control module 400 of this embodiment may further be in communication connection with the steam hole 210, and after the control module 400 processes the image information collected by the image sensor 500 to obtain wrinkle information of the clothes to be ironed, the control module adjusts the operating parameters of the steam hole 210 according to the wrinkle information. The operation parameters of the steam vents 210 include the opening degree of the steam vents 210 and/or the opening and closing time of the steam vents 210.

Based on the above, in the garment steamer of the embodiment, the image sensor 500 collects the image information of the clothes to be ironed and then feeds the image information back to the control module 400, the control module 400 processes the image information to obtain the wrinkle information of the clothes to be ironed, and adjusts the operating parameters of one or both of the steam generator 100 and the steam holes 210 according to the wrinkle information. The operation parameters specifically include one or more of a heating temperature of the steam generator 100, a steam output amount of the steam generator 100, a steam output time of the steam generator 100, an opening degree of the steam vents 210, and an opening and closing time of the steam vents 210.

The power supply module 300 in this embodiment is respectively connected to the steam generator 100, the control module 400 and the image sensor 500 for supplying power to the steam generator 100, the control module 400 and the image sensor 500 through the power supply module 300, so that the steamer can work normally. It is understood that the power supply module 300 may be an external power supply, and specifically, by connecting wires to the steam generator 100, the control module 400 and the image sensor 500, when in use, the other ends of the wires are connected to the external power supply. The power supply module 300 may also be a battery electrically connected to the steam generator 100, the control module 400 and the image sensor 500, and the battery respectively supplies power to the steam generator 100, the control module 400 and the image sensor 500. The use of the battery as the power supply module 300 simplifies the structure of the power supply module 300, so that the power supply module 300 can be assembled more conveniently and quickly.

In practical application, the steam generator 100 and the ironing head 200 in this embodiment are communicated through the air duct 600, and steam generated in the steam generator 100 is delivered into the ironing head 200 through the air duct 600, and is ejected out through the steam holes 210 formed in the ironing head 200, and then contacts with the surface of the clothes to perform ironing. Meanwhile, the control module 400 of the steamer is communicatively connected with the steam generator 100 and the steam vents 210 of the steamer head 200 to control the operating parameters of the steam generator 100 and the steam vents 210.

In this embodiment, the steam generator 100 may be a steam generator of an existing garment steamer. The iron head 200 is provided with a steam hole 210 for supplying steam to spray, the image sensor 500 is disposed on the iron head 200 and is disposed in a staggered manner with the steam hole 210, so that the influence of the steam sprayed from the steam hole 210 on the normal operation of the image sensor 500 is avoided, and meanwhile, the damage of the high temperature of the steam to the image sensor 500 is also prevented. The image sensor 500 may be a CCD camera or other cameras with image capturing function, and is not limited herein.

In practical applications, the number of the image sensors 500 may be 1 or more. Specifically, one image sensor 500 may be disposed on the ironing head 200, or a plurality of image sensors 500 may be spaced around the periphery of the steam hole 210, so as to improve the accuracy of the image sensor 500 for collecting the image information of the clothes to be ironed.

In this embodiment, a steam hole 210 may be formed in the iron 200, and the image sensor 500 is disposed to be deviated from the air injection direction of the steam hole 210. The iron head 200 may also be provided with a plurality of steam holes 210, the plurality of steam holes 210 form an air injection region, and the image sensor 500 is disposed in a staggered manner with respect to the air injection region, in other words, the image sensor 500 is located outside the air injection region. It is understood that the opening shape of the steam holes 210 may be various, such as square, circle, diamond, etc. The size of the steam hole 210 may be determined according to the size of the iron head 200 or actual ironing needs, and the size and shape of the steam hole 210 are not limited herein.

Referring to fig. 2, in other examples, the image sensor 500 is disposed on the iron head 200 below the steam vents 210.

Specifically, in practical applications, the steam hole 210 is usually disposed at the top of the ironing head 200, and in order to avoid the damage to the image sensor 500 caused by the high-temperature steam ejected from the steam hole 210, the image sensor 500 is disposed below the steam hole 210, that is, the image sensor 500 is disposed near the bottom of the ironing head 200, so as to ensure that the image sensor 500 normally collects the image message of the clothes to be ironed.

With continued reference to fig. 2, in order to further ensure that the image sensor 500 is not affected by the high-temperature steam inside the iron 200, the iron 200 in the present embodiment includes a main body 220 and a thermal insulator 230, and the image sensor 500 is thermally isolated from the passage inside the main body 220 through which the high-temperature steam passes by the thermal insulator 230.

Specifically, the iron head 200 has a passage therein through which high temperature steam passes, both ends of which are respectively communicated with the steam hole 210 and the steam generator 100. In the operation of the steamer, the high-temperature steam generated from the steam generator 100 enters the passage in the steamer head 200 through the air duct 600 and is then ejected from the steam hole 210. In this process, the heat of the steam inside the iron head 200 is transferred to the outer wall of the main body 220 through the inner wall of the main body 220, so that the temperature of the position of the iron head 200 is high. In order to avoid the heat of the steam being transferred to the image sensor 500, the heat insulation member 230 is disposed between the image sensor 500 and the channel in the main body 220, and the heat of the steam being transferred to the image sensor 500 is reduced by the heat insulation member 230, so that the service life of the image sensor 500 is prolonged, and the manufacturing cost of the garment steamer of the embodiment is saved.

Among them, the heat insulating member 230 has various arrangement manners. In one possible implementation, the thermal insulation member 230 is fixed on the outer wall of the main body 220, and the image sensor 500 is fixed on the thermal insulation member 230, so that the thermal insulation of the image sensor 500 from the main body 220 is realized. It is understood that the insulation 230 may be provided on the main body 220 except for the position of the steam hole 210 in order to further prevent the high temperature of the main body 220 from threatening the safety of the user. Of course, the heat insulating material 230 may be provided on the outer wall of the main body 220, and an opening matching the steam hole 210 may be opened at a position of the heat insulating material 230 at the steam hole 210, so that the steam is smoothly ejected from the steam hole 210.

In another possible implementation manner, the thermal insulation member 230 is disposed on the other side walls of the image sensor 500 except for the side where the camera is disposed, so that the outer side walls of the image sensor 500 can be thermally isolated from the high-temperature main body 220, thereby improving the thermal insulation effect of the thermal insulation member 230. Meanwhile, in the actual installation process, the heat insulator 230 is fixed on the image sensor 500, and then the image sensor 500 is fixed on the main body 220, so that the installation efficiency of the heat insulator 230 and the image sensor 500 is further improved.

It can be understood that the thermal insulation member 230 may be disposed on both the image sensor 500 and the main body 220 to further improve the thermal insulation effect and ensure the normal operation of the image sensor 500.

In a specific implementation, the material of the heat insulation member 230 is not limited herein, as long as the effective heat insulation between the main body 220 and the image sensor 500 can be achieved, and the heat insulation member may be made of glass fiber, asbestos, rock wool, silicate, or other materials. For example, the thermal insulation member 230 may be embodied as an asbestos cloth disposed between the image sensor 500 and the main body 220.

The structure of the heat insulating member 230 of the present embodiment may be various, for example, the heat insulating member 230 may be formed as a heat insulating plate or a heat insulating film layer. In addition, the fixing manner between the thermal insulation member 230 and the main body 220 and/or the image sensor 500 may be various, for example, the thermal insulation member 230 may be adhered to the main body 220 and/or the image sensor 500 by a strong adhesive; alternatively, the heat insulating member 230 may be detachably fixed to the main body 220 and/or the image sensor 500 by bolts, etc., and the specific connection manner is not limited herein as long as the stability of the heat insulating member 230 can be ensured.

In other examples, the thermal insulation member 230 may be integrated with the main body 220 or the image sensor 500, so that the connection strength between the thermal insulation member 230 and the main body 220 or the image sensor 500 is improved, the stability of the thermal insulation member 230 is enhanced, the structure of the iron head 200 is simplified, and the assembly efficiency of each component is improved.

Fig. 4 is a partially enlarged view of a in fig. 2. Referring to fig. 2 and 4, the iron head 200 of the present embodiment further includes an elastic member (not shown) and a shutter 240. Wherein, a groove 221 is formed on the main body 220, the elastic element is fixed in the groove 221, and the image sensor 500 is fixed in the groove 221 through the elastic element; the baffle 240 is arranged at the opening of the groove 221 and is used for accommodating the image sensor 500 into the groove 221 and then covering the opening of the groove 221; the heat insulating member 230 is disposed on an inner wall of the groove 221.

Specifically, in the present embodiment, a groove 221 is formed in the main body 220, one end of the elastic element is fixed in the groove 221, one end of the elastic element is fixed on the image sensor 500, and a baffle 240 is disposed at an opening of the groove 221, so that when the image sensor 500 is used, the baffle 240 is separated from the opening of the groove 221, and the image sensor 500 is ejected out of the groove 221 under the action of the elastic element; after the image sensor 500 is used, the baffle 240 is fixed at the opening of the groove 221 after the image sensor 500 is accommodated in the groove 221, so that the image sensor 500 is accommodated, and meanwhile, the dustproof and waterproof effects are achieved, and the influence on the service life of the image sensor 500 due to long-term exposure in the air is further avoided.

In practical applications, the connection between the baffle 240 and the main body 220 can be various, and in a first alternative implementation, as shown in fig. 4, one side of the baffle 240 is hinged to one side of the opening of the groove 221 through a pin so that the baffle 240 can rotate around the pin, and the other side of the baffle 240 is detachably connected to the other side of the opening of the groove 221. The opening and closing of the groove 221 is achieved by rotating the shutter 240. Wherein, the other side of the baffle 240 and the other side of the opening of the groove 221 can be connected in various ways. For example, a hook is disposed on the other side of the opening of the groove 221, a hook matched with the hook is disposed on the other side of the baffle 240, and when the other side of the baffle 240 rotates to the other side of the opening of the groove 221, the baffle 240 can be fixed by hanging the hook on the hook. The connection structure is simple and facilitates the fixing of the baffle 240. It can be understood that the other side of the opening of the groove 221 and the baffle 240 can be fixed in a detachable manner by bolts, buckles, and the like, which is not described herein again.

In a second optional implementation manner, sliding grooves are formed in two sides of the opening of the main body 220, which are located in the groove 221, and meanwhile, a sliding block matched with the sliding grooves is arranged at the bottom of the baffle 240, and the baffle 240 moves along the sliding grooves under the action of the sliding block, so that the opening of the groove 221 is closed and opened. This arrangement simplifies the connection structure between the blocking plate 240 and the main body 220, and facilitates the blocking of the opening of the groove 221 by the blocking plate 240. The connection between the baffle 240 and the main body 220 may also be in other manners, which are not described herein.

Referring to fig. 3, in order to facilitate the user to grasp the switching process of the operating mode of the garment steamer, the garment steamer of the present embodiment further includes a prompt module 700; the prompt module 700 is communicatively connected to the control module 400 for alerting when the operating parameters of the steam generator 100 are switched. It is understood that, in practical applications, the control module 400 can also adjust the operating parameters of the steam hole 210 on the iron head 200 according to the wrinkle information, and therefore, the prompting module 700 can also be used for alarming when the operating parameters of the steam hole 210 are switched.

Specifically, when the control module 400 obtains that the wrinkle information of the clothes to be ironed changes, the steam generator 100 and/or the steam hole 210 need to be controlled to switch the working parameters, at this time, the control module 400 simultaneously controls the prompt module 700 to work, so that the prompt module 700 prompts the change condition of the working parameters of the steam generator 100 and/or the steam hole 210 to the user, and the accuracy of the working parameter switching is determined in time.

For example, the prompt module 700 may be an indicator light that is illuminated when the operating parameters of the steam generator 100 and/or the steam vents 210 are switched and not illuminated when the switched operating parameters are stable.

In practice, the prompting module 700 may include a display screen and/or a speaker. Wherein, the display screen is used for prompting the working parameters of the steam generator 100 after the working mode is switched through the image, or the display screen is used for prompting the working parameters of the steam hole 210 after the working mode is switched through the image; the speaker is used for prompting the working parameters of the steam generator 100 after the working mode is switched by voice, or for prompting the working parameters of the steam hole 210 after the working mode is switched by voice. The display screen or the loudspeaker can directly adopt a display device and a sound prompting device in the prior art, and the specific working principle can refer to the working principle of the prior structure.

Wherein the prompting module 700 may be disposed on the housing of the steam generator 100 to prevent heat of the steam from being transferred to the prompting module 700 to damage the prompting module 700. Meanwhile, the control module 400 and/or the power supply module 300 in this embodiment may also be disposed on the steam generator 100, which not only saves space on the iron 200, but also prevents damage to the control module 400 and/or the power supply module 300 caused by high temperature, thereby ensuring normal operation of the control module 400 and/or the power supply module 300. The control module 400 and the image sensor 500 may be connected through wired communication or wireless communication.

Based on the foregoing, the garment steamer that this embodiment provided, through set up image sensor on the head that scalds at the garment steamer, in order to gather the image information of treating the clothing that irones, and with the steam generator of this image sensor and garment steamer respectively with the control module communication connection of garment steamer, handle the fold information in order to obtain the clothing that irones through the image information that this control module gathered image sensor, and adjust steam generator's working parameter according to fold information, thereby realize the automatic control of the working parameter value of garment steamer, avoided manual switching to iron the gear and the inconvenience that causes, thereby the ironing efficiency of garment steamer has been improved. Meanwhile, the working parameters of the garment steamer are automatically adjusted according to the wrinkle information of the clothes to be ironed, and the cost of electricity and water of the garment steamer is saved on the basis of ensuring the ironing effect.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (12)

1. A garment steamer, comprising: the ironing device comprises a steam generator, an ironing head, a power supply module, a control module and an image sensor, wherein the ironing head is communicated with the steam generator;

the power supply module is electrically connected with the steam generator, the control module and the image sensor respectively;

the control module is respectively in communication connection with the image sensor and the steam generator and is used for processing the image information acquired by the image sensor to obtain wrinkle information of the clothes to be ironed and adjusting working parameters of the steam generator according to the wrinkle information;

the ironing head comprises a main body and a heat insulation piece, wherein the image sensor is thermally isolated from a channel in the main body through which high-temperature steam passes;

the ironing head further comprises an elastic element and a baffle;

a groove is formed in the main body, the elastic element is fixed in the groove, the image sensor is fixed in the groove through the elastic element, and the image sensor is ejected out of the groove under the action of the elastic element;

the baffle is arranged at the opening of the groove and used for accommodating the image sensor into the groove and then covering the opening of the groove, the baffle is connected with the main body, and the opening of the groove is closed and opened through the baffle;

the heat insulation piece is arranged on the inner wall of the groove.

2. The garment steamer of claim 1, wherein the steamer head is provided with a steam hole for ejecting steam, and the image sensor is arranged on the steamer head and below the steam hole.

3. The steamer of claim 1 or 2, wherein the steamer further comprises a reminder module;

the prompting module is in communication connection with the control module and used for giving an alarm when the working parameters of the steam generator are switched.

4. The garment steamer of claim 3, wherein the prompting module comprises a display screen and/or a speaker;

the display screen is used for prompting the working parameters of the steam generator after the working modes are switched through images;

the loudspeaker is used for prompting the working parameters of the steam generator after the working mode is switched through voice.

5. A control method for a garment steamer, characterized in that, when applied to the garment steamer of any one of claims 1-4, the method comprises:

acquiring image information of clothes to be ironed;

processing the image information to determine wrinkle information of the laundry to be ironed;

and adjusting the working parameters of the garment steamer according to the wrinkle information of the garment to be ironed.

6. The control method of a garment steamer as claimed in claim 5, wherein the acquiring image information of the garment to be ironed comprises:

image information of the clothes to be ironed is obtained through an image sensor, and the image information comprises color and brightness information of the image.

7. The garment steamer control method according to claim 6, wherein the garment steamer further comprises a control module, a steam generator and a steamer head communicated with the steam generator, wherein a steam hole for ejecting water steam is formed on the steamer head;

the control module is respectively in communication connection with the steam generator, the image sensor and the steam hole;

the control module processes the image information to determine wrinkle information of the clothes to be ironed, and determines working parameters of a steam generator and/or a steam hole in the garment steamer according to the wrinkle information.

8. The garment steamer control method according to claim 7, wherein the determining the operating parameters of the garment steamer in dependence on the wrinkle information of the garment to be ironed comprises:

determining the severity level of the wrinkles of the clothes to be ironed according to the wrinkle information;

and determining the working parameters of the garment steamer according to the severity level of the wrinkles of the garment to be ironed.

9. The garment steamer control method according to claim 8,

the working parameters comprise one or more of heating temperature of the steam generator, steam outlet quantity of the steam generator, steam outlet time of the steam generator, opening degree of the steam hole and opening and closing time of the steam hole.

10. The garment steamer control method according to claim 9, wherein the determining of the operating parameters of the garment steamer in dependence on the severity level of wrinkles in the garment to be ironed comprises:

determining that the working parameter value of the garment steamer is larger as the severity level of wrinkles of the garment to be ironed is increased; wherein the operating parameter value includes one or more of a heating temperature of the steam generator, a steam outlet amount of the steam generator, a steam outlet time of the steam generator, an opening degree of the steam hole, and an opening and closing time of the steam hole.

11. The control method of a garment steamer according to any one of claims 5-10, wherein the processing the garment image to determine wrinkle information of the garment to be ironed comprises:

and comparing the clothes image of the clothes to be ironed with a preset clothes image to obtain wrinkle information of the clothes to be ironed.

12. The garment steamer control method according to any one of claims 5 to 10, wherein the wrinkle information includes: one or more of a position of wrinkles, an area of wrinkles and a degree of wrinkles of the laundry to be ironed.

Images