阅读说明：本技术 自适应电控人体烘干装置 (Self-adaptive electrically-controlled human body drying device ) 是由 张怡然 于 2019-11-06 设计创作，主要内容包括：本发明涉及一种自适应电控人体烘干装置,包括：烘干主架构,包括底座、长方体外壳、电力供应设备、多个滑行驱动电机和多个滑行轨道；多个烘干器,分别位于多个滑行轨道内且分别与多个滑行驱动电机连接,每一个烘干器在对应的滑行驱动电机的驱动下,在对应的滑行轨道内滑动以定位到某一位置；部位分析设备,用于执行人体部位分析以分别获得各种人体部位,所述各种人体部位包括头发部位、躯干部位、面部部位以及脚部部位；定位识别设备,用于基于每一种人体部位的类型和位置确定为所述人体部位分配的烘干器的数量和分配到的每一个烘干器的定位位置。本发明能够根据人体不同部位的烘干需求建立不同的自适应烘干机制。(The invention relates to a self-adaptive electrically-controlled human body drying device, which comprises: the drying main framework comprises a base, a cuboid shell, power supply equipment, a plurality of sliding drive motors and a plurality of sliding tracks; the drying devices are respectively positioned in the sliding tracks and are respectively connected with the sliding drive motors, and each drying device is driven by the corresponding sliding drive motor to slide in the corresponding sliding track so as to be positioned at a certain position; a part analyzing device for performing a human body part analysis to obtain various human body parts including a hair part, a trunk part, a face part, and a foot part, respectively; a location recognition device for determining the number of dryers assigned to each human body part and the location of each dryer assigned based on the type and location of each human body part. The invention can establish different self-adaptive drying mechanisms according to the drying requirements of different parts of the human body.)

1. An adaptive electrically controlled human body drying device, the device comprising:

the drying main framework comprises a base, a cuboid shell, power supply equipment, a plurality of sliding driving motors and a plurality of sliding tracks, wherein the base is positioned below the cuboid shell, the cuboid shell is of a single-side opening structure and is used for receiving a wet human body which is used for executing drying actions before, and the power supply equipment is arranged in the base and is used for providing required power for each power utilization component of the device;

the sliding driving motors and the sliding tracks are positioned in the cuboid shell and positioned on the same vertical side face of the cuboid shell, facing the drenched human body;

the drying devices are respectively positioned in the sliding tracks and are respectively connected with the sliding drive motors, and each drying device is driven by the corresponding sliding drive motor to slide in the corresponding sliding track so as to be positioned at a certain position;

the contour detection equipment is arranged in the vertical side face where the plurality of sliding drive motors are located, is positioned in the center of the vertical side face, and is used for carrying out contour detection on the drenched human body in the rectangular shell so as to obtain a corresponding drenched human body pattern;

the part analysis equipment is arranged in the base, is connected with the contour detection equipment and is used for carrying out human body part analysis on the drenched human body pattern so as to respectively obtain various human body parts, wherein the various human body parts comprise hair parts, trunk parts, face parts and foot parts;

the positioning identification equipment is arranged in the base, is respectively connected with the part analysis equipment and the plurality of sliding driving motors, and is used for determining the number of the dryers distributed to the human body parts and the positioning position of each dryer based on the type and the position of each human body part;

wherein, in the location recognition apparatus, determining the number of dryers allocated to a certain human body part based on a type of the human body part includes: the number of the dryers distributed to the hair part, the foot part, the trunk part and the face part is reduced in sequence;

wherein, in the positioning recognition device, the positioning position of each dryer allocated in the same vertical side is determined based on the position of a certain human body part in the drenched human body pattern, so that the dryer faces the corresponding type of solid human body part of the drenched human body;

the contour detection device comprises an instant imaging unit and a contour recognition unit, wherein the instant imaging unit is connected with the contour recognition unit;

the depths of the plurality of sliding tracks in the same vertical side face of the cuboid shell facing to the drenched human body are different;

wherein the plurality of sliding tracks have intersection points in the same vertical side surface of the cuboid shell facing the human body.

2. The adaptive electrically controlled human body drying apparatus of claim 1, wherein:

alternatively, the position recognition device is disposed in the base, and is respectively connected to the part analysis device and the plurality of sliding drive motors, and is configured to determine the number of dryers assigned to the human body part, the position of each dryer assigned thereto, and the drying power of each dryer assigned thereto, based on the type and position of each human body part;

wherein, in the location recognition apparatus, determining the number of dryers allocated to a certain human body part based on a type of the human body part includes: the number of the dryers distributed to the hair part, the foot part, the trunk part and the face part is reduced in sequence;

wherein, in the location recognition apparatus, determining the drying power allocated to each dryer based on the type of a certain human body part includes: the drying power of the dryer distributed to the hair part, the foot part, the trunk part and the face part is reduced in sequence;

wherein, in the positioning recognition device, the positioning position of each dryer allocated in the same vertical side is determined based on the position of a certain human body part in the drenched human body pattern, so that the dryer faces the corresponding type of solid human body part of the drenched human body.

3. The adaptive electrically controlled human body drying apparatus of claim 1, wherein:

alternatively, the drying main framework comprises a wireless transceiver, an electronic switch device, an electrostatic protection device, a base, a cuboid housing, a power supply device, a plurality of sliding drive motors and a plurality of sliding tracks, wherein the base is located below the cuboid housing, the cuboid housing is of a single-side opening structure and is used for receiving a wet human body which is used for performing drying actions before, and the power supply device is arranged in the base and is used for providing needed power for each power utilization component of the device;

the wireless transceiver is arranged at the top of the cuboid shell and used for receiving a control instruction sent by a far end and sending the current state of the device to a far-end server;

the electronic switch equipment is arranged in the cuboid shell and used for receiving an electronic switch instruction from a remote server returned by the wireless transceiver equipment according to a mobile terminal scanning result of a two-dimensional code, a serial number or other equipment codes on a shell of the cuboid shell by people so as to realize electronic switch operation on the device;

the electrostatic protection equipment is arranged inside the cuboid shell and adopts a grounding mode to reduce static electricity generated by the device in the drying process.

4. The adaptive electrically controlled human body drying apparatus of any one of claims 1 to 3, wherein:

the cuboid shell has two vertical sides towards the human body of drenching, be left vertical side and right vertical side respectively, a plurality of driving motor that slide with the same vertical side that a plurality of tracks of sliding are located is left vertical side or right vertical side.

5. The adaptive electrically controlled human body drying apparatus of claim 4, wherein:

the number of the plurality of dryers is equal to the number of the plurality of sliding rails and equal to the number of the plurality of sliding drive motors, and is more than 10.

6. The adaptive electrically controlled human body drying apparatus of claim 5, wherein:

the drying opening of each dryer is opposite to the wetted human body in the cuboid shell, the opening area of the drying opening of each dryer is equal, and the opening area is smaller than a preset area threshold.

7. The adaptive, electronically controlled human drying apparatus of claim 6, further comprising:

and the FLASH memory chip is used for storing a preset area threshold value and a preset percentage threshold value.

8. The adaptive, electrically controlled human body drying apparatus of claim 7, further comprising:

the weight measuring equipment is positioned in the base and used for measuring the weight of the load borne by the base, and sending a wake-up control instruction when the measured weight exceeds the weight of the cuboid shell and reaches a preset percentage threshold, otherwise, sending a dormancy control instruction;

the wake-up control instruction and the sleep control instruction are used for controlling the device to switch modes between a working mode and a sleep mode.

9. The adaptive, electrically controlled human body drying apparatus of claim 7, further comprising:

the infrared sensing equipment is positioned in the base and used for sensing whether a human body exists in the cuboid shell or not and sending a wake-up control instruction when sensing that the human body exists, or sending a sleep control instruction;

the wake-up control instruction and the sleep control instruction are used for controlling the device to switch modes between a working mode and a sleep mode.

Technical Field

The invention relates to the field of electric control equipment, in particular to a self-adaptive electric control human body drying device.

Background

In countries or regions with long rainy seasons, due to the fact that weather changes are not easy to master rules, prediction accuracy is poor compared with that of countries or regions with short rainy seasons, and people do not know whether to take rain gears for going out.

Under the condition of insurance, the rain gear is required to be carried every time when people go out, however, unnecessary burden is brought to people when people go out, especially when carrying public transport means such as a subway or a bus, or people need to carry other articles; under the condition of adventure, rain gear is not carried every time when people go out, so that the probability of rain is greatly increased although the people go out conveniently. The current trip mode frequently adopted by people is to decide whether to take the rain gear for trip according to the forecast data of the current weather forecasting department, such as the rain probability, however, even if so, in the countries or regions with long rainy season, because the forecast data of the current weather forecasting department is not accurate enough, when the rain forecasting probability is low, people decide not to take the rain gear for trip, once meeting the sudden rainstorm condition of partial regions, the people are necessarily drenched, thereby getting into the embarrassed situation that the people feel uncomfortable and can not change clothes on duty.

In order to overcome the problems, in countries or regions with long rainy seasons, some public places or medium-sized large-scale enterprises are provided with human body dryers to provide on-site drying operation for people with wet clothes, so that people can quickly get rid of the embarrassment situation, people can avoid diseases such as cold, and can wear dry and comfortable clothes to work normally.

However, the prior art human body dryer has the following disadvantages: (1) once the drying machine is started, the running power of the drying machine is fixed, and because the human body drying machine is a high-power-consumption device, if the drying action is lack of pertinence, the drying action is easy to consume long time, so that the power consumption of the human body drying machine is increased; (2) although the drying can enable people to get rid of the embarrassment situation caused by rain, the human body resists the drying action of high-power air blowing, if the drying efficiency is low, the human body can be exposed in the drying environment for a long time, the electromagnetic radiation and the skin damage brought by the human body are undoubted, and meanwhile, different drying requirements of different parts of the human body are ignored by a single drying mechanism.

Disclosure of Invention

In order to overcome the defects, the invention provides the self-adaptive electrically-controlled human body drying device which can self-adaptively determine different drying actions according to the contour of a human body to be dried and the drying characteristics of all positions of the human body, so that the flexibility and the effectiveness of the human body drying device are improved.

According to an aspect of the present invention, there is provided an adaptive electrically controlled human body drying apparatus, the apparatus including:

the drying main framework comprises a base, a cuboid shell, power supply equipment, a plurality of sliding driving motors and a plurality of sliding tracks, wherein the base is positioned below the cuboid shell, the cuboid shell is of a single-side opening structure and is used for receiving a wet human body which is used for executing drying actions before, and the power supply equipment is arranged in the base and is used for providing required power for each power utilization component of the device;

the sliding driving motors and the sliding tracks are positioned in the cuboid shell and positioned on the same vertical side face of the cuboid shell, facing the drenched human body;

the drying devices are respectively positioned in the sliding tracks and are respectively connected with the sliding drive motors, and each drying device is driven by the corresponding sliding drive motor to slide in the corresponding sliding track so as to be positioned at a certain position;

the contour detection equipment is arranged in the vertical side face where the plurality of sliding drive motors are located, is positioned in the center of the vertical side face, and is used for carrying out contour detection on the drenched human body in the rectangular shell so as to obtain a corresponding drenched human body pattern;

the part analysis equipment is arranged in the base, is connected with the contour detection equipment and is used for carrying out human body part analysis on the drenched human body pattern so as to respectively obtain various human body parts, wherein the various human body parts comprise hair parts, trunk parts, face parts and foot parts;

the positioning identification equipment is arranged in the base, is respectively connected with the part analysis equipment and the plurality of sliding driving motors, and is used for determining the number of the dryers distributed to the human body parts and the positioning position of each dryer based on the type and the position of each human body part;

wherein, in the location recognition apparatus, determining the number of dryers allocated to a certain human body part based on a type of the human body part includes: the number of the dryers distributed to the hair part, the foot part, the trunk part and the face part is reduced in sequence;

wherein, in the positioning recognition device, the positioning position of each dryer allocated in the same vertical side is determined based on the position of a certain human body part in the drenched human body pattern, so that the dryer faces the corresponding type of solid human body part of the drenched human body;

the contour detection device comprises an instant imaging unit and a contour recognition unit, wherein the instant imaging unit is connected with the contour recognition unit;

the depths of the plurality of sliding tracks in the same vertical side face of the cuboid shell facing to the drenched human body are different;

wherein the plurality of sliding tracks have intersection points in the same vertical side surface of the cuboid shell facing the human body.

Therefore, the invention has at least two key inventions:

(1) the defects of an integral drying mechanism in the prior art are overcome, the drying action is carried out in the direction with the human body outline, and the drying action is not carried out in the direction without the human body outline, so that the meaningless power waste is avoided;

(2) different drying requirements of different parts of a human body are fully considered, different parts of each human body are accurately identified, and different drying mechanisms suitable for the different parts are set, so that the drying habit of the human body is met, and electromagnetic radiation to the human body is reduced as much as possible.

Drawings

Embodiments of the invention will now be described with reference to the accompanying drawings, in which:

fig. 1 is a view illustrating an external configuration of a human body dryer in the related art.

Fig. 2 is a block diagram illustrating a structure of an adaptive electrically controlled human body drying apparatus according to a first embodiment of the present invention.

Fig. 3 is an analysis schematic diagram of a part analysis apparatus of an adaptive electrically controlled human body drying device according to a first embodiment of the present invention.

Fig. 4 is a block diagram illustrating a main drying structure of an adaptive electrically controlled human body drying apparatus according to a first embodiment or a second embodiment of the present invention.

Fig. 5 is a block diagram illustrating a main drying structure of an adaptive electrically controlled human body drying apparatus according to a third embodiment of the present invention.

Detailed Description

Embodiments of the adaptive electrically controlled human body drying apparatus of the present invention will be described in detail with reference to the accompanying drawings.

Dryers can be divided into industrial dryers, also called drying plants or dryers, and domestic dryers, which are one type of washing machine, are generally used to remove moisture from garments and other textiles after dehydration in a water wash. The human body dryer is a special device in the dryer and is used for carrying out instant dehumidification and drying actions on a drenched human body.

The dryer has several modes, such as belt drying, roller drying, box drying, tower drying and the like; the heat source is coal, electricity, gas and the like; the materials are in a hot air flow type, a radiation type and the like in the drying process, the hot air roller drying is that hot air flows forwards from the tail part and is fully contacted with the materials, and the heat transfer quantity is fully utilized through heat conduction, convection and radiation; heat energy is directly transferred to the materials, so that moisture of the materials is continuously evaporated in the cylinder, and a large amount of moisture and wet air flow is extracted by an air inducing device at the feeding port, so that secondary pollution caused by dust discharge is prevented; the materials are pushed to move through internal spiral stirring, sweeping and shoveling plates, and the whole drying process is completed; and the countercurrent conduction dehumidification is adopted, so that repeated drying procedures are avoided.

In general, a concept of drying a body using natural air is used in a dryer including a high-speed fan to directly blow air from the dryer to dry an important part of the body, so that the body can be completely dried without using a towel after the body is wetted. The external structure of the prior art human body dryer is shown in fig. 1.

However, the prior art human body dryer has the defects of single drying mode and no consideration for saving drying power and drying requirements of different human body parts. In order to overcome the defects, the invention provides a self-adaptive electrically-controlled human body drying device with a customized structure.

The following are several embodiments of the adaptive electrically controlled human body drying apparatus of the present invention, for explaining the present invention specifically.

< first embodiment >

In the present embodiment, as shown in fig. 2, the adaptive electrically controlled human body drying apparatus of the present invention comprises the following components:

the drying main framework comprises a base, a cuboid shell, power supply equipment, a plurality of sliding drive motors and a plurality of sliding tracks, wherein the base is positioned below the cuboid shell, the cuboid shell is of a single-side opening structure and is used for receiving a wet human body which is used for performing drying actions before, and the power supply equipment is arranged in the base and is used for providing required power for each power utilization component of the device;

the sliding driving motors and the sliding tracks are positioned in the cuboid shell and positioned on the same vertical side face of the cuboid shell, facing the drenched human body;

the drying devices are respectively positioned in the sliding tracks and are respectively connected with the sliding drive motors, each drying device is driven by the corresponding sliding drive motor to slide in the corresponding sliding track so as to be positioned to a certain position, wherein the drying devices are composed of N drying devices from the drying device 1 to the drying device N, and N is a natural number greater than 2;

the contour detection equipment is arranged in the vertical side face where the plurality of sliding drive motors are located, is positioned in the center of the vertical side face, and is used for carrying out contour detection on the drenched human body in the rectangular shell so as to obtain a corresponding drenched human body pattern;

the part analysis equipment is arranged in the base, is connected with the contour detection equipment and is used for carrying out human body part analysis on the drenched human body pattern so as to respectively obtain various human body parts, wherein the various human body parts comprise hair parts, trunk parts, face parts and foot parts;

as shown in fig. 3, the analysis principle of the site analysis apparatus is as follows: performing edge enhancement processing on the wet human body pattern to obtain an edge enhancement pattern, obtaining hair parts from the edge enhancement pattern based on hair imaging features, obtaining torso parts from the edge enhancement pattern based on torso imaging features, obtaining face parts from the edge enhancement pattern based on face imaging features, obtaining foot parts from the edge enhancement pattern based on foot imaging features, and outputting hair parts, torso parts, face parts, and foot parts;

the positioning identification equipment is arranged in the base, is respectively connected with the part analysis equipment and the plurality of sliding driving motors, and is used for determining the number of the dryers distributed to the human body parts and the positioning position of each dryer based on the type and the position of each human body part;

wherein, in the location recognition apparatus, determining the number of dryers allocated to a certain human body part based on a type of the human body part includes: the number of the dryers distributed to the hair part, the foot part, the trunk part and the face part is reduced in sequence;

wherein, in the positioning recognition device, the positioning position of each dryer allocated in the same vertical side is determined based on the position of a certain human body part in the drenched human body pattern, so that the dryer faces the corresponding type of solid human body part of the drenched human body;

the contour detection device comprises an instant imaging unit and a contour recognition unit, wherein the instant imaging unit is connected with the contour recognition unit;

the depths of the plurality of sliding tracks in the same vertical side face of the cuboid shell facing to the drenched human body are different;

wherein the plurality of sliding tracks have intersection points in the same vertical side surface of the cuboid shell facing the human body.

< second embodiment >

In this embodiment, the adaptive electrically controlled human body drying apparatus of the present invention comprises the following components:

the drying main framework comprises a base, a cuboid shell, power supply equipment, a plurality of sliding drive motors and a plurality of sliding tracks, wherein the base is positioned below the cuboid shell, the cuboid shell is of a single-side opening structure and is used for receiving a wet human body which is used for performing drying actions before, and the power supply equipment is arranged in the base and is used for providing required power for each power utilization component of the device;

the sliding driving motors and the sliding tracks are positioned in the cuboid shell and positioned on the same vertical side face of the cuboid shell, facing the drenched human body;

the drying devices are respectively positioned in the sliding tracks and are respectively connected with the sliding drive motors, each drying device is driven by the corresponding sliding drive motor to slide in the corresponding sliding track so as to be positioned to a certain position, wherein the drying devices are composed of N drying devices from the drying device 1 to the drying device N, and N is a natural number greater than 2;

the contour detection equipment is arranged in the vertical side face where the plurality of sliding drive motors are located, is positioned in the center of the vertical side face, and is used for carrying out contour detection on the drenched human body in the rectangular shell so as to obtain a corresponding drenched human body pattern;

the part analysis equipment is arranged in the base, is connected with the contour detection equipment and is used for carrying out human body part analysis on the drenched human body pattern so as to respectively obtain various human body parts, wherein the various human body parts comprise hair parts, trunk parts, face parts and foot parts; the analysis principle of the site analysis apparatus is the same as that of the site analysis apparatus of the first embodiment;

the positioning recognition device is arranged in the base, is respectively connected with the part analysis device and the plurality of sliding drive motors, and is used for determining the number of the dryers distributed to the human body parts, the positioning position of each of the dryers distributed and the drying power of each of the dryers based on the type and the position of each human body part;

wherein, in the location recognition apparatus, determining the number of dryers allocated to a certain human body part based on a type of the human body part includes: the number of the dryers distributed to the hair part, the foot part, the trunk part and the face part is reduced in sequence;

wherein, in the location recognition apparatus, determining the drying power allocated to each dryer based on the type of a certain human body part includes: the drying power of the dryer distributed to the hair part, the foot part, the trunk part and the face part is reduced in sequence;

wherein, in the positioning recognition device, the positioning position of each dryer allocated in the same vertical side is determined based on the position of a certain human body part in the drenched human body pattern, so that the dryer faces the corresponding type of solid human body part of the drenched human body;

the contour detection device comprises an instant imaging unit and a contour recognition unit, wherein the instant imaging unit is connected with the contour recognition unit;

the depths of the plurality of sliding tracks in the same vertical side face of the cuboid shell facing to the drenched human body are different;

wherein the plurality of sliding tracks have intersection points in the same vertical side surface of the cuboid shell facing the human body.

< third embodiment >

In this embodiment, the adaptive electrically controlled human body drying apparatus of the present invention comprises the following components:

a drying main framework, as shown in fig. 5, including a wireless transceiver, an electronic switch device, an electrostatic protection device, a base, a rectangular parallelepiped housing, a power supply device, a plurality of sliding drive motors, and a plurality of sliding tracks, where the base is located below the rectangular parallelepiped housing, the rectangular parallelepiped housing is of a single-side opening structure and is used to receive a wet human body that is going to perform a drying operation, and the power supply device is disposed in the base and is used to provide power needed by each power utilization component of the apparatus;

the wireless transceiver is arranged at the top of the cuboid shell and used for receiving a control instruction sent by a far end and sending the current state of the device to a far-end server;

the electronic switch equipment is arranged in the cuboid shell and used for receiving an electronic switch instruction from a remote server returned by the wireless transceiver equipment according to a mobile terminal scanning result of a two-dimensional code, a serial number or other equipment codes on the shell of the cuboid shell by people so as to realize electronic switch operation on the device;

the electrostatic protection equipment is arranged inside the cuboid shell and adopts a grounding mode to reduce the static electricity generated by the device in the drying process;

the sliding driving motors and the sliding tracks are positioned in the cuboid shell and positioned on the same vertical side face of the cuboid shell, facing the drenched human body;

the drying devices are respectively positioned in the sliding tracks and are respectively connected with the sliding drive motors, each drying device is driven by the corresponding sliding drive motor to slide in the corresponding sliding track so as to be positioned to a certain position, wherein the drying devices are composed of N drying devices from the drying device 1 to the drying device N, and N is a natural number greater than 2;

the contour detection equipment is arranged in the vertical side face where the plurality of sliding drive motors are located, is positioned in the center of the vertical side face, and is used for carrying out contour detection on the drenched human body in the rectangular shell so as to obtain a corresponding drenched human body pattern;

the part analysis equipment is arranged in the base, is connected with the contour detection equipment and is used for carrying out human body part analysis on the drenched human body pattern so as to respectively obtain various human body parts, wherein the various human body parts comprise hair parts, trunk parts, face parts and foot parts; the analysis principle of the site analysis apparatus is the same as that of the site analysis apparatus of the first embodiment;

the positioning identification equipment is arranged in the base, is respectively connected with the part analysis equipment and the plurality of sliding driving motors, and is used for determining the number of the dryers distributed to the human body parts and the positioning position of each dryer based on the type and the position of each human body part;

wherein, in the location recognition apparatus, determining the number of dryers allocated to a certain human body part based on a type of the human body part includes: the number of the dryers distributed to the hair part, the foot part, the trunk part and the face part is reduced in sequence;

wherein, in the positioning recognition device, the positioning position of each dryer allocated in the same vertical side is determined based on the position of a certain human body part in the drenched human body pattern, so that the dryer faces the corresponding type of solid human body part of the drenched human body;

the contour detection device comprises an instant imaging unit and a contour recognition unit, wherein the instant imaging unit is connected with the contour recognition unit;

the depths of the plurality of sliding tracks in the same vertical side face of the cuboid shell facing to the drenched human body are different;

wherein the plurality of sliding tracks have intersection points in the same vertical side surface of the cuboid shell facing the human body.

In addition, in the adaptive electrically controlled human body drying apparatus of each of the above embodiments:

the two vertical side surfaces of the cuboid shell facing the human body are respectively a left vertical side surface and a right vertical side surface, and the same vertical side surface where the plurality of sliding drive motors and the plurality of sliding tracks are located is the left vertical side surface or the right vertical side surface;

the number of the plurality of dryers is equal to that of the plurality of sliding tracks and equal to that of the plurality of sliding drive motors, and is more than 10;

the drying opening of each dryer is opposite to the wet human body in the cuboid shell, the opening area of the drying opening of each dryer is equal, and the opening area is smaller than a preset area threshold;

the device also comprises a FLASH storage chip which is used for storing the preset area threshold value and the preset percentage threshold value.

The device also comprises weight measuring equipment which is positioned in the base and used for measuring the weight of the load borne by the base, and sending a wake-up control instruction when the measured weight exceeds the weight of the cuboid shell and reaches a preset percentage threshold, otherwise, sending a dormancy control instruction.

Or the device further comprises infrared sensing equipment which is positioned in the base and used for sensing whether a human body exists in the cuboid shell or not, and sending a wakeup control instruction when sensing that the human body exists, or sending a sleep control instruction.

The wake-up control instruction and the sleep control instruction are used for controlling the device to switch modes between a working mode and a sleep mode.

In addition, FLASH memory chips are nonvolatile memories, and blocks of memory cells called blocks can be erased and reprogrammed. The write operation of any FLASH device can only be performed in empty or erased cells, so in most cases, the erase must be performed before the write operation can be performed. While it is simple for a NAND device to perform an erase operation, NOR requires that all bits in the target block be written to 0 before an erase can be performed. Since erasing NOR devices is performed in blocks of 64-128 KB, the time for performing a write/erase operation is 5s, whereas erasing NAND devices is performed in blocks of 8-32 KB, which requires only 4ms at most to perform the same operation. The difference in block size when performing erasures further increases the performance gap between NOR and NADN, and statistics show that for a given set of write operations (especially when updating small files), more erase operations must be performed in NOR-based cells.

According to the invention, an intelligent drying mode can be established on the basis of the human body dryer in the prior art, and different self-adaptive drying mechanisms can be established according to the drying requirements of different parts of the human body while directional drying based on human body contour detection is realized, so that the running power consumption of the high-power human body dryer is effectively saved.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.