CN219418045U - Clothes and hat room system - Google Patents

Abstract

The application provides a clothes and hat room system, which comprises a central control system, a wardrobe system connected with the central control system and a sub-equipment system connected with the central control system, wherein the central control system is used for controlling the wardrobe system and the sub-equipment system; the wardrobe system comprises a sterilizing device, wherein the sterilizing device is connected with the central control system and is used for sterilizing the wardrobe; the wardrobe system further comprises a radio frequency device, wherein the radio frequency device comprises a radio frequency identification tag and a radio frequency identification device, the radio frequency identification tag is used for being arranged on clothes, the radio frequency identification device is connected with the central control system, and the radio frequency identification device is used for identifying the radio frequency identification tag on the clothes; the sub-equipment system comprises a clothes caring device, wherein the clothes caring device is connected with the central control system and is used for determining a clothes caring mode and caring clothes.

Description

Clothes and hat room system

Technical Field

The application relates to the technical field of electrical control, in particular to a coat and hat room system.

Background

With the continuous progress of society and the continuous improvement of living standard of people, people pursue beauty more and more, not only clothes styles become more and more, but also more and more families have clothes and hat houses. In life, clothes are changed in different seasons along with the change of the air temperature in four seasons, and more clothes are required to be stored and managed.

However, in the traditional clothes and hat room, the wardrobe has single function, generally has a simple clothes storage function, has no clear clothes management and storage system, and a user cannot intuitively and clearly know the conditions of all clothes in the wardrobe, so that time and labor are wasted when finding clothes; bacteria are also easily bred in a large amount of stored clothes, and the wearing of the clothes and the physical health of a user are affected.

In addition, in the traditional coat-hat room, the wardrobe and the electric equipment of the coat-hat room do not have linkage, and a user can only manually distinguish clothes, so that nursing is performed, and time and labor are wasted.

Disclosure of Invention

In view of the above, it is necessary to provide a coat and hat shop system having a clothes management and storage function, a sterilization function, and a wardrobe and electrical equipment capable of being linked.

In a first aspect, the present utility model provides a clothes and hat bay system, the clothes and hat bay system comprising a central control system, a wardrobe system connected with the central control system, and a sub-equipment system connected with the central control system, the central control system being used for controlling the wardrobe system and the sub-equipment system;

the wardrobe system comprises a sterilizing device, wherein the sterilizing device is connected with the central control system and is used for sterilizing the wardrobe;

the wardrobe system further comprises a radio frequency device, wherein the radio frequency device comprises a radio frequency identification tag and a radio frequency identification device, the radio frequency identification tag is used for being arranged on clothes, the radio frequency identification device is connected with the central control system, and the radio frequency identification device is used for identifying the radio frequency identification tag on the clothes;

the sub-equipment system comprises a clothes caring device, wherein the clothes caring device is connected with the central control system and is used for determining a clothes caring mode and caring clothes.

Preferably, the sterilizing device comprises an ozone generator for generating ozone and sterilizing the wardrobe, and an ozone detecting device for detecting the concentration of ozone in the wardrobe.

Preferably, the wardrobe system further comprises a humidity-temperature balancing device, wherein the humidity-temperature balancing device is connected with the central control system and is used for controlling humidity and temperature in the wardrobe.

Preferably, the wardrobe system further comprises an aromatherapy device, wherein the aromatherapy device is connected with the central control system and is used for aromatherapy treatment of the wardrobe.

Preferably, the wardrobe system further comprises a light-adjusting glass, wherein the light-adjusting glass is connected with the central control system, and the light-adjusting glass is set to be in a transparent state or in a mirror state.

Preferably, the wardrobe system further comprises an mite removing device, wherein the mite removing device is connected with the central control system and is used for removing mites of the wardrobe.

Preferably, the mite removing device is an ultrasonic device.

Preferably, the sub-equipment system further comprises a clothes washing device, wherein the clothes washing device is connected with the central control system and is used for determining a washing mode of clothes and washing the clothes.

Preferably, the central control system comprises a display device, wherein the display device is connected with the wardrobe system and the sub-equipment system, and the display device is used for displaying operation data of the wardrobe system and the sub-equipment system.

The application can realize the following beneficial effects: the application provides a clothes and hat room system, which comprises a central control system, a wardrobe system connected with the central control system and a sub-equipment system connected with the central control system, wherein the central control system is used for controlling the wardrobe system and the sub-equipment system; the wardrobe system comprises a sterilizing device, wherein the sterilizing device is connected with the central control system and is used for sterilizing the wardrobe; the wardrobe system further comprises a radio frequency device, wherein the radio frequency device comprises a radio frequency identification tag and a radio frequency identification device, the radio frequency identification tag is used for being arranged on clothes, the radio frequency identification device is connected with the central control system, and the radio frequency identification device is used for identifying the radio frequency identification tag on the clothes; the sub-equipment system comprises a clothes caring device, wherein the clothes caring device is connected with the central control system and is used for determining a clothes caring mode and caring clothes. According to the clothes sterilizing device, the sterilizing device is arranged in the wardrobe system, clothes in the wardrobe and clothes in the wardrobe can be effectively sterilized, and the safety of the clothes and human bodies is guaranteed; by arranging the radio frequency device in the wardrobe system, the radio frequency identification device can identify the radio frequency identification tag on each piece of clothes, so that the clothes information of each piece of clothes can be accurately determined, and a user can accurately and effectively select the clothes according to the determined clothes information; the clothes nursing device is connected with the wardrobe system through the central control system, so that the central control system can send the clothes information identified by the radio frequency identification device to the clothes nursing device, further the clothes nursing device can determine the nursing mode corresponding to the clothes information, nursing is carried out on clothes, the clothes identification is not needed, and the complicated degree of clothes nursing is greatly reduced.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a coat-hat system according to one embodiment;

FIG. 2 is a schematic diagram of a coat-hat system according to one embodiment;

FIG. 3 is a schematic diagram of a coat-hat system according to one embodiment;

fig. 4 is a schematic structural view of a coat room system in one embodiment.

Detailed Description

In one embodiment, in order to make the objects, technical solutions and advantages of the present utility model more apparent, the following describes the clothes closet system according to the present utility model in further detail with reference to fig. 1 to 4 and the embodiment. It will be apparent that the described embodiments are some, but not all, embodiments of the utility model. For convenience of description, only parts related to the utility model are shown in the drawings.

It should be noted that in the description of the present utility model, it should be noted that the terms "first," "second," and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should also be noted that, unless explicitly specified and limited otherwise, terms "disposed," "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood as appropriate by those of ordinary skill in the art.

The coat and hat room system is applied to coat and hat rooms with a wardrobe and various electrical equipment.

In one embodiment, the present application proposes a coat-hat system, as shown in fig. 1, and fig. 1 is a schematic structural diagram of the coat-hat system; the coat and hat shop system 10 comprises a central control system 20, a wardrobe system 30 connected with the central control system 20 and a sub-equipment system 40 connected with the central control system 20, wherein the central control system 20 is used for controlling the wardrobe system 30 and the sub-equipment system 40; the wardrobe system 30 comprises a sterilizing device 301, wherein the sterilizing device 301 is connected with the central control system 20, and the sterilizing device 301 is used for sterilizing the wardrobe; the wardrobe system 30 further comprises a radio frequency device 302, the radio frequency device 302 comprises a radio frequency identification tag 3022 and a radio frequency identification device 3021, the radio frequency identification tag 3022 is used for being arranged on clothes, the radio frequency identification device 3021 is connected with the central control system 20, and the radio frequency identification device 3021 is used for identifying the radio frequency identification tag 3022 on the clothes; the subsystem 40 includes a laundry care device 401, the laundry care device 401 is connected to the central control system 20, and the laundry care device 401 is used for determining a care mode of laundry and caring for the laundry.

The central control system 20 is connected with the wardrobe system 30 and the sub-equipment system 40, and the central control system 20 is used for controlling the wardrobe system 30 and the sub-equipment system 40. Specifically, the central control system 20 is connected to the wardrobe system 30 and the sub-equipment system 40 by a wired connection or a wireless connection. The wired connection mode may be at least a USB connection, and the wireless connection mode may be at least one of ZigBee, bluetooth, or WIFI.

The wardrobe system 30 connected with the central control system 20 comprises a sterilizing device 301, wherein the sterilizing device 301 is used for sterilizing the wardrobe. Specifically, the central control system 20 may send a sterilization command to the sterilization device 301, where the sterilization device 301 starts the sterilization operation after receiving the sterilization command, so as to sterilize the wardrobe and the clothes in the wardrobe.

The wardrobe system 30 connected to the central control system 20 further includes a radio frequency device 302, where the radio frequency device 302 includes a radio frequency identification tag 3022 and a radio frequency identification device 3021. The rfid device 3021 has a radio frequency identification function. Radio frequency identification (Radio Frequency Identification, RFID) is one of automatic identification technologies, and is used for non-contact bidirectional data communication in a radio frequency mode, and a recording medium (an electronic tag or a radio frequency card) is read and written in a radio frequency mode, so that the purposes of identification target and data exchange are achieved.

Specifically, the radio frequency identification tag 3022 (electronic tag or radio frequency card) is configured to be disposed on the garment to identify the garment; the rfid tag 3022 may store clothing information such as the name, brand, style, material, etc. of the clothing. The radio frequency identification device 3021 is connected to the central control system 20, and is configured to identify the radio frequency identification tag 3022 so as to determine the name, brand, style, material, etc. of the clothing.

Specifically, the central control system 20 may send a tag identification instruction to the radio frequency identification device 3021, where the radio frequency identification device 3021 identifies the radio frequency identification tag 3022 on the laundry after receiving the tag identification instruction, so as to determine the laundry information of the laundry. The tag identification instruction may be a tag identification instruction for a certain piece of clothing, or may be a tag identification instruction for all pieces of clothing. When the tag identification instruction is for a certain piece of clothing, the radio frequency identification device 3021 identifies the radio frequency identification tag 3022 of the piece of clothing in the wardrobe; when the tag identification instruction is a tag identification instruction for all the clothes, the radio frequency identification device 3021 identifies the radio frequency identification tags 3022 of all the clothes in the wardrobe, and at this time, the central control system 20 may determine the clothes according to the clothes information of all the clothes determined by the radio frequency identification device 3021, where the clothes meet the user screening condition.

The sub-equipment system 40 connected to the central control system 20 includes a clothes care device 401, after the radio frequency identification device 3021 determines clothes information of clothes, the central control system 20 may send the clothes information to the clothes care device 401, and the clothes care device 401 may determine a care mode corresponding to the clothes (clothes information) according to the clothes information, and care the clothes according to the determined clothes care mode.

In particular, the laundry care device 401 may be a dryer. For example, if the rfid 3021 determines that the clothing information of the clothing a is silk material by identifying the rfid tag 3022 on the clothing a, the central control system 20 sends the clothing information of the clothing a to the dryer, the dryer determines that the drying mode of the clothing a is a drying mode with a drying temperature not higher than 40 degrees celsius according to the clothing information being silk material, and the dryer dries the clothing a with a drying mode with a drying temperature not higher than 40 degrees celsius after the clothing a is put into the dryer.

In one embodiment, the central control system 20 includes a control module by which control of the wardrobe system 30 and the sub-equipment system 40 is achieved. Specifically, the control module may be a central control chip with a model number of ASR 595X.

In one embodiment, the central control system 20 includes a display device coupled to the wardrobe system 30 and the sub-equipment system 40 for displaying operational data of the wardrobe system 30 and the sub-equipment system 40.

Specifically, after the central control system 20 controls the wardrobe system 30 or the sub-equipment system 40 to work, operation data of the wardrobe system 30 or the sub-equipment system 40 is obtained and displayed through the display device.

In particular, the operational data may be the operational status and operational parameters of the wardrobe system 30 or the sub-equipment system 40. For example, the operation data may be an operation state and an operation time of the sterilizing device 301, and the operation data may also be an operation state and an operation time of the laundry care device 401.

Specifically, the display device may be a touch display screen, and the display device may be used to display operation data of the wardrobe system 30 and the sub-equipment system 40, and may also have an information input function, so that a user may input operations such as a sterilization instruction through the display device. In practical applications, the user may also perform timing operations, for example, timing setting of the time of the message, through the display device. Through the display device, the user can not only input instructions quickly and conveniently, but also view the operation data of the wardrobe system 30 and the sub-equipment system 40 at any time.

In one embodiment, the central control system 20 further includes a power module for providing power to the central control system 20. Specifically, the power module may be a power connection line or an energy storage power source. The power connection may connect the central control system 20 to a household electrical power source, through which the central control system 20 is powered. The energy storage power supply can be a storage battery or a dry battery, and the storage battery can be a wireless charging storage battery or a wired charging storage battery. Specifically, wireless charging of the storage battery can be achieved through a chip with the model number of STWLC 99.

In one embodiment, the central control system 20 further includes an ambient light detection module, where the ambient light detection module is configured to detect ambient light brightness, and the central control system 20 may adjust the brightness of the display device in real time through the ambient light brightness, and the ambient light detection module may be a chip with a model number of ALS-AK 610P-DF. The brightness of the display screen can be adjusted according to the ambient light intensity through the ambient light detection module, so that the universality of the coat and hat room system 10 is improved.

In one embodiment, the central control system 20 further includes an audio driving module, which is implemented by an audio driving circuit, and the audio driving module may play audio through the display device. For example, the user can control the audio driving module to play the audio such as wearing and taking, making up, etc. on the display device through the central control system 20, so that the user can quickly and effectively complete wearing and taking every day, and the comfort of the user is improved.

In one embodiment, as shown in fig. 2, fig. 2 is a schematic structural view of an inter-coat system. The sterilizing device 301 includes an ozone generator 3011 and an ozone detecting device 3012, the ozone generator 3011 is used for generating ozone and sterilizing the wardrobe, and the ozone detecting device 3012 is used for detecting the concentration of ozone in the wardrobe.

Among them, the ozone generator 3011 can generate ozone (O3) through a series of photochemical reactions using Volatile Organic Compounds (VOCs) and nitrogen oxides (NOx). Ozone detecting device 3012 can be an analytical instrument made according to Beer-Lambert law.

Wherein, ozone generator 3011 starts to produce ozone after receiving the command of killing that central control system 20 sent, ozone detecting device 3012 detects the ozone concentration data in the wardrobe, and sends ozone concentration data to central control system 20, and central control system 20 controls ozone generator 3011 to continue to work or stop working according to ozone concentration data.

Specifically, in another implementation, the disinfecting device 301 may also be an ultraviolet disinfecting device. By arranging the sterilizing device 301, clothes in the wardrobe and the wardrobe can be effectively sterilized, and the safety of the clothes and a human body is ensured.

In one embodiment, as shown in fig. 3, fig. 3 is a schematic structural view of an inter-coat system. The wardrobe system 30 further comprises a humidity-temperature balancing device 303, wherein the humidity-temperature balancing device 303 is connected with the central control system 20, and the humidity-temperature balancing device 303 is used for controlling humidity and temperature in the wardrobe.

The humidity-temperature balancing device 303 may include a humidity-temperature sensor, through which humidity and temperature in the wardrobe are detected, and the humidity-temperature sensor may be a humidity-temperature sensor of a model RH11A, for example.

Specifically, in another implementation, the humidity-temperature balancing device 303 may include a temperature balancing device and a humidity balancing device, where the temperature balancing device and the humidity balancing device are both connected to the central control system 20. The temperature balancing device is used for keeping the temperature in the wardrobe constant, and in practical application, the temperature balancing device comprises a temperature sensor, and the temperature in the wardrobe is detected through the temperature sensor. The humidity balance device is used for keeping constant humidity in the wardrobe, and in practical application, the humidity balance device comprises a DHT11 resistance type humidity sensor, and humidity in the wardrobe is detected through the humidity sensor.

Specifically, the humidity-temperature balancing device 303 further includes a dehumidifying module, and the dehumidifying module uses a refrigerating plate and a fan circulation system to condense the water vapor in the wardrobe, so as to reduce the humidity in the wardrobe and improve the storage environment of the clothes. By arranging the humidity-temperature balancing device 303, the constant temperature and humidity in the wardrobe can be effectively maintained, and the clothes are prevented from mildewing.

In one embodiment, the wardrobe system 30 further includes a drying device provided at the bottom of the wardrobe, and the laundry is dried by the circulation system and the heating device. In particular, the heat generating device may be a resistive heater.

In one embodiment, as shown in fig. 3, fig. 3 is a schematic structural view of an inter-coat system. The wardrobe system 30 further comprises an aromatherapy device 304, wherein the aromatherapy device 304 is connected with the central control system 20, and the aromatherapy device 304 is used for aromatherapy treatment of the wardrobe.

Wherein the fragrance means 304 is further provided with a spraying device provided with a motor, and the central control system 20 controls the spraying of fragrance by controlling the motor of the spraying device. In practical application, the user can set up the time of carrying out the champignon operation through display device in advance to realize the timing champignon to the clothing in wardrobe and the wardrobe, and then dispel clothing peculiar smell.

In one embodiment, as shown in fig. 3, fig. 3 is a schematic structural view of an inter-coat system. The wardrobe system 30 further includes a light-adjusting glass 305, the light-adjusting glass 305 being connected to the central control system 20, the light-adjusting glass 305 being set to a transparent state or a mirror state.

Wherein the dimming glass 305 is provided on the wardrobe as a door or window of the wardrobe. The dimming glass 305 can switch between transparent and opaque states by electrical control, temperature control, light control, voltage control, and the like. Taking the electrically controlled dimming glass 305 as an example, when the power is turned off, the liquid crystal molecules in the electrically controlled dimming glass 305 will show an irregular dispersion state, so that the light cannot enter, and the electrically controlled glass shows an opaque appearance (mirror state).

Specifically, a user may control the dimming glass 305 to a transparent state or a mirror state through the central control system 20. When the light adjusting glass 305 is in a transparent state, a user can select clothes in the wardrobe through the glass; when the light control glass 305 is in the mirror state, the user can try on clothes through the light control glass 305.

In one embodiment, as shown in fig. 3, fig. 3 is a schematic structural view of an inter-coat system. The wardrobe system 30 further comprises an acarid removal device 306, the acarid removal device 306 is connected with the central control system 20, and the acarid removal device 306 is used for removing acarids from the wardrobe.

Specifically, the mite removal device 306 is an ultrasonic device. The mite removing device 306 can circularly emit the frequency of more than 20khz through the ultrasonic function, so that mites are repelled, and the cleanness of clothes is ensured.

In one embodiment, the wardrobe system 30 further includes a switching device including a motorized rail, an infrared sensor, and a distance measurement sensor. The electric guide rail is connected with the door of the wardrobe and is used for enabling the door to slide according to a preset direction. The infrared sensor is arranged outside the wardrobe and used for detecting whether a user moves. The distance measuring sensor is arranged on the outer surface of the wardrobe and used for detecting the distance from the foot to the wardrobe. When the infrared sensor detects that the user is close to the wardrobe and the distance measuring sensor detects that the distance between the user and the wardrobe is within a preset range, the electric guide rail is controlled to open a door close to the user.

In one embodiment, as shown in fig. 4, fig. 4 is a schematic structural view of a coat-hat system. The sub-equipment system 40 further comprises a clothes washing device 402, wherein the clothes washing device 402 is connected with the central control system 20, and the clothes washing device 402 is used for determining a washing mode of clothes and washing the clothes.

Wherein the laundry washing apparatus 402 may be a washing machine. For example, if the rfid 3021 determines that the clothing information of the clothing a is silk material by identifying the rfid tag 3022 on the clothing a, the central control system 20 sends the clothing information of the clothing a to the washing machine, and the washing machine determines that the washing mode of the clothing a is silk mode according to the clothing information being silk material, and after the clothing a is put into the washing machine, the washing machine washes the clothing a in silk mode.

In one embodiment, as shown in fig. 4, fig. 4 is a schematic structural view of a coat-hat system. The sub-equipment system 40 further includes an air purifier 403, the air purifier 403 being connected to the central control system 20, the air purifier 403 being used to purify air between the clothes and caps.

Wherein, the user can set the air purifying time through the display device, and the central control system 20 starts the air purifier 403 to purify the air in the coat and hat room at the preset time.

In one embodiment, the sub-device system 40 further includes a make-up mirror, where the make-up mirror is connected to the central control system 20, and a shooting device is disposed on the make-up mirror, where the shooting device can obtain skin data of the user, and the central control system 20 can obtain wearing and making-up manners matched with the user from the cloud database according to the skin data of the user, and recommend the wearing and making-up manners to the user.

The application proposes a clothes and hat room system 10, wherein the clothes and hat room system 10 comprises a central control system 20, a wardrobe system 30 connected with the central control system 20 and a sub-equipment system 40 connected with the central control system 20, and the central control system 20 is used for controlling the wardrobe system 30 and the sub-equipment system 40; the wardrobe system 30 comprises a sterilizing device 301, wherein the sterilizing device 301 is connected with the central control system 20, and the sterilizing device 301 is used for sterilizing the wardrobe; the wardrobe system 30 further comprises a radio frequency device 302, the radio frequency device 302 comprises a radio frequency identification tag 3022 and a radio frequency identification device 3021, the radio frequency identification tag 3022 is used for being arranged on clothes, the radio frequency identification device 3021 is connected with the central control system 20, and the radio frequency identification device 3021 is used for identifying the radio frequency identification tag 3022 on the clothes; the sub-equipment system 40 comprises a clothes caring device 401, wherein the clothes caring device 401 is connected with the central control system 20, and the clothes caring device 401 is used for determining the clothes caring mode and caring clothes. According to the clothes sterilizing device 301 arranged in the wardrobe system 30, clothes in the wardrobe and clothes in the wardrobe can be effectively sterilized, and the safety of the clothes and human bodies is guaranteed; by arranging the radio frequency device 302 in the wardrobe system 30, the radio frequency identification device 3021 can be used for identifying the radio frequency identification tag 3022 on each piece of clothes, so that the clothes information of each piece of clothes can be accurately determined, and a user can accurately and effectively select the clothes according to the determined clothes information; the clothes care device 401 is connected with the wardrobe system 30 through the central control system 20, so that the central control system 20 can send clothes information identified by the radio frequency identification device 3021 to the clothes care device 401, further the clothes care device 401 can determine a care mode corresponding to the clothes information, care is carried out on clothes, clothes identification is not needed, and the complexity of clothes care is greatly reduced.

Although the utility model herein has been described with reference to particular embodiments, it is to be understood that these embodiments are merely illustrative of the principles and applications of the present utility model. It is therefore to be understood that numerous modifications may be made to the illustrative embodiments and that other arrangements may be devised without departing from the spirit and scope of the present utility model as defined by the appended claims. It should be understood that the different dependent claims and the features described herein may be combined in ways other than as described in the original claims. It is also to be understood that features described in connection with separate embodiments may be used in other described embodiments.

Claims (10)

1. The clothes and hat room system is characterized by comprising a central control system, a wardrobe system connected with the central control system and a sub-equipment system connected with the central control system, wherein the central control system is used for controlling the wardrobe system and the sub-equipment system;

the wardrobe system comprises a sterilizing device, wherein the sterilizing device is connected with the central control system and is used for sterilizing the wardrobe;

the wardrobe system further comprises a radio frequency device, wherein the radio frequency device comprises a radio frequency identification tag and a radio frequency identification device, the radio frequency identification tag is used for being arranged on clothes, the radio frequency identification device is connected with the central control system, and the radio frequency identification device is used for identifying the radio frequency identification tag on the clothes;

the sub-equipment system comprises a clothes caring device, wherein the clothes caring device is connected with the central control system and is used for determining a clothes caring mode and caring clothes.

2. The coat and hat system of claim 1, wherein the sterilizing device comprises an ozone generator for generating ozone and sterilizing the wardrobe, and an ozone detecting device for detecting the concentration of ozone in the wardrobe.

3. The coat and hat system of claim 1, wherein the wardrobe system further comprises a humidity and temperature balancing device connected to the central control system, the humidity and temperature balancing device for controlling humidity and temperature in the wardrobe.

4. The coat and hat system of claim 1, wherein the wardrobe system further comprises a fragrance device coupled to the central control system, the fragrance device configured to fragrance the wardrobe.

5. The coat and hat system of claim 1, wherein the wardrobe system further comprises a light-adjusting glass, the light-adjusting glass being connected to the central control system, the light-adjusting glass being set to a transparent state or a mirror state.

6. The coat and hat system of claim 1, wherein the wardrobe system further comprises an anti-mite device, the anti-mite device being coupled to the central control system, the anti-mite device being configured to perform an anti-mite treatment on the wardrobe.

7. The coat and hat system of claim 6, wherein the mite removal device is an ultrasonic device.

8. The clothes and hat system of claim 1 wherein the subsystem further comprises a clothes washing device coupled to the central control system, the clothes washing device configured to determine a washing pattern of the clothes and to wash the clothes.

9. The coat and hat system of claim 1, wherein the subsystem further comprises an air purifier coupled to the central control system, the air purifier configured to purify air from the coat and hat booth.

10. The coat and hat system of claim 1, wherein the central control system comprises a display device coupled to the wardrobe system and the sub-facility system, the display device configured to display operational data of the wardrobe system and the sub-facility system.