CN216387770U - Clothes management system and wardrobe - Google Patents

Abstract

The utility model discloses a clothes management system, which is applied to a wardrobe and comprises: the clothes information reading device comprises a host, a display and a clothes information reading module. The clothes information reading module is connected with the host and used for reading clothes information labels on stored clothes and taken-out clothes to acquire clothes information and sending the clothes information to the host. The main machine is used for storing clothes information; therefore, the clothes information in the wardrobe can be updated in real time, and the timeliness of the clothes information is guaranteed. And the display is connected with the host and used for displaying the clothes information. Therefore, the user can know the condition of the clothes information in the current wardrobe through the display, and select the clothes on the display without turning over the wardrobe and turning over the clothes blindly.

Description

Clothes management system and wardrobe

Technical Field

The utility model relates to the technical field of wardrobes, in particular to a clothes management system and a wardrobe.

Background

The wardrobe is a cabinet for storing clothes and has a large accommodating space. Along with the improvement of the quality of life of people, the quantity of clothes purchased by people is more and more, and due to the fact that the types of the clothes are different, the reasonable arrangement of the clothes becomes more and more troublesome. For people with good storage habits, the clothes can be quickly found in the wardrobe. However, for those who do not have good storage habits, it is difficult to find the desired clothes as a large sea fishing needle.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is necessary to provide a clothes management system to solve the problem that it is difficult to manage clothes in a wardrobe.

A garment management system for use in a wardrobe, the garment management system comprising: the clothes information reading device comprises a host, a display and a clothes information reading module;

the clothes information reading module is connected with the host and used for reading clothes information labels on stored clothes and taken-out clothes to acquire clothes information and sending the clothes information to the host, wherein one clothes information label is attached to one clothes;

the host is used for storing the clothes information;

the display is connected with the host and used for displaying the clothes information.

In one embodiment, the laundry management system further includes: an infrared human body induction module;

the infrared human body induction module is connected with the host and used for inducing the relative distance between the infrared human body induction module and the host and sending the relative distance to the host;

the cabinet door of the wardrobe is made of dimming glass, is connected with the host and is used for responding to a transparency adjusting instruction sent by the host according to the relative distance so as to adjust the transparency.

In one embodiment, the laundry management system further includes: the wardrobe comprises a virtual key module and a plurality of touch keys, wherein one touch key is arranged on one wardrobe door of the wardrobe;

the virtual key module is connected with the host and used for responding to a virtual request instruction sent by a user and sending a cabinet door opening request instruction to the host so as to open any one cabinet door;

the plurality of touch keys are connected with the host and used for responding to a touch instruction input by a user and sending a cabinet door opening request instruction to the host so as to open the cabinet door receiving the touch instruction.

In one embodiment, the laundry management system further includes: the plurality of ranging modules are arranged on a target surface of the wardrobe, the target surface faces the ground, and one ranging module is aligned with one cabinet door of the wardrobe;

the plurality of ranging modules are connected with the host and used for sending a cabinet door opening request instruction to the host when the barrier is detected so as to open the cabinet door corresponding to the ranging module which detects the barrier.

In one embodiment, the laundry management system further includes: and the guide rail driving module is connected with the host and the cabinet door and used for responding to a cabinet door opening instruction sent by the host and driving at least one cabinet door of the wardrobe to open.

In one embodiment, the wardrobe includes a plurality of receiving spaces therein, the receiving spaces are used for placing clothes, and the clothes management system further includes: the accommodating space is internally provided with a plurality of illuminating modules;

the plurality of lighting modules are connected with the host and used for responding to the lighting adjusting instruction sent by the host to start or close at least one lighting module.

In one embodiment, the laundry management system further includes:

the ozone sterilization module is connected with the host machine and used for detecting the concentration of ozone in the wardrobe and responding to an ozone adjusting instruction sent by the host machine to control the release or stop the release of the ozone;

and the ultraviolet sterilization module is connected with the host and used for responding the ultraviolet sterilization instruction sent by the host to perform ultraviolet sterilization.

In one embodiment, the laundry management system further includes: and the dehumidification module is connected with the host, is used for detecting the humidity value in the wardrobe and is also used for responding to a dehumidification instruction sent by the host to carry out dehumidification.

In one embodiment, the laundry management system further includes: and the aromatherapy module is connected with the host and used for responding to the aromatherapy starting instruction sent by the host to start the aromatherapy function.

A wardrobe applies the clothes management system.

The utility model provides a clothes management system, which is applied to a wardrobe and comprises: the clothes information reading device comprises a host, a display and a clothes information reading module. The clothes information reading module is connected with the host and used for reading clothes information labels on stored clothes and taken-out clothes to acquire clothes information and sending the clothes information to the host. The main machine is used for storing clothes information; therefore, the clothes information in the wardrobe can be updated in real time, and the timeliness of the clothes information is guaranteed. And the display is connected with the host and used for displaying the clothes information. Therefore, the user can know the condition of the clothes information in the current wardrobe through the display, and select the clothes on the display without turning over the wardrobe and turning over the clothes blindly.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Wherein:

fig. 1 is a schematic view of a laundry management system in a first embodiment;

FIG. 2 is a schematic view of an embodiment of a garment with a garment information label attached thereto;

FIG. 3 is a schematic view of a clothes management system in a second embodiment;

FIG. 4 is a schematic view of a ranging module of an embodiment installed in a wardrobe;

reference numerals: the intelligent clothes drying system comprises a host machine 10, a clothes information reading module 101, an infrared human body induction module 102, a cabinet door 103, a virtual key module 104, a touch key 105, a distance measuring module 106, a guide rail driving module 107, an illumination module 108, an ozone sterilization module 109, an ultraviolet sterilization module 110, a dehumidification module 111, an aromatherapy module 112, a display 20, a clothes information label 30, a switching power supply 40 and a battery 50.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, fig. 1 is a schematic view of a clothes management system in a first embodiment, and the clothes management system is applied to a wardrobe, and specifically includes: a main body 10, a display 20, and a laundry information reading module 101.

In addition, as shown in fig. 2, in the present embodiment, a clothes information label 30 is attached to the clothes put into the wardrobe, and the clothes information label 30 is an electronic label and records various information of the clothes, such as pictures of the clothes, seasons, categories, and usage scenes corresponding to each piece of clothes. This information is written in advance by the user through the reader/writer.

And the clothes information reading module 101 is connected with the host computer 10 and is used for reading the clothes information tags 30 on the stored clothes and the taken-out clothes to acquire the clothes information on the clothes and sending the clothes information read in real time to the host computer 10 for data updating. It is understood that the wardrobe generally includes a plurality of receiving spaces, each of which can receive clothes. In this embodiment, a laundry information reading module 101 may be disposed at an entrance in each accommodating space, and preferably, two laundry information reading modules 101 are disposed at the entrances in each accommodating space, where one is a laundry information reading module 101a close to the entrance and the other is a laundry information reading module 101B far from the entrance, and numbers of different groups of laundry information reading modules 101 are different, for example, a group of laundry information reading modules 101 disposed in the accommodating space a is numbered 001, and a group of laundry information reading modules 101 disposed in the accommodating space B is numbered 002. When the clothes are placed in or taken out of a certain accommodating space, the clothes pass through the entrance, and the positions for placing or taking out the clothes can be determined based on the numbers of the clothes information reading modules 101 reading the clothes information labels 30. And when 101a is triggered first and 101b is triggered later, it can be considered that the clothes are put in; when 101b is triggered first and 101a is triggered later, it can be considered that the laundry is taken out. Specifically, the clothing information reading module 101 in this embodiment may select a Radio Frequency Identification (RFID) reader, and read the clothing information tag 30 in a Radio Frequency manner.

The main unit 10 is configured to store the clothes information of all the clothes in the wardrobe, and update the stored data when receiving the clothes information sent by the clothes information reading module 101, so as to ensure timeliness of the clothes information in the wardrobe.

And a display 20 connected to the main body 10 for displaying the latest clothes information in the wardrobe. Thus, the user can select the clothes through the display 20 without blindly turning over the box and the cabinet. The display 20 in this embodiment is disposed on any one of the doors of the wardrobe, and the user can select clothes on the display 20 in different manners, including: firstly, a specific garment is directly selected through a frame selection or a hook selection mode. Secondly, inputting specific clothes conditions, such as going occasions or wanted colors, etc., so that the main machine 10 screens out clothes meeting the conditions according to the clothes, matches the clothes, and finally the display 20 displays a plurality of suitable schemes for the user to select. Thirdly, the main machine 10 screens the clothes according to the current season, the local air temperature and the clothes-dressing habits of the user, matches the clothes, and finally the display 20 displays a plurality of suitable schemes for the user to select. After the user selects the clothes, the display 20 also displays the positions of the clothes in the wardrobe, thereby greatly reducing the time for the user to find the clothes.

The clothes management system comprises a host, a display and a clothes information reading module. The clothes information reading module is connected with the host and used for reading clothes information labels on stored clothes and taken-out clothes to acquire clothes information and sending the clothes information to the host. The main machine is used for storing clothes information; therefore, the clothes information in the wardrobe can be updated in real time, and the timeliness of the clothes information is guaranteed. And the display is connected with the host and used for displaying the clothes information. Therefore, the user can know the condition of the clothes information in the current wardrobe through the display, and select the clothes on the display without turning over the wardrobe and turning over the clothes blindly.

As shown in fig. 3, fig. 3 is a schematic diagram of a clothes management system in a second embodiment, the clothes management system in this embodiment comprises a switching power supply 40 and a battery 50, the switching power supply 40 has a rated voltage of 12V and a rated current of 30A, and is used for supplying power to the clothes management system. The battery 50 has a capacity of 12V/10Ah, and is charged by the switching power supply 40 to supply power to the display 20.

In one embodiment, as shown in fig. 3, the laundry management system further includes: and the infrared human body induction module 102 is connected with the host 10 and used for inducing the relative distance between the infrared human body induction module and the human body and sending the relative distance to the host 10. So that the host computer 10 can determine whether a person approaches the wardrobe based on the relative distance, and when the host computer 10 determines that the person approaches the wardrobe, the host computer 10 sends a transparency adjustment instruction to the cabinet door 103 to adjust the transparency of the cabinet door 103. In this embodiment, the infrared human body sensing module 102 may be HC — SR501, and when a person enters the sensing range, the infrared human body sensing module outputs a high level, and when the person leaves the sensing range, the infrared human body sensing module automatically delays to turn off the high level and outputs a low level.

In this embodiment, in order to cooperate with the infrared human body sensing module 102, the cabinet door 103 of the wardrobe is a light-adjusting glass, and is connected to the main unit 10, and has three states of transparency (clothes in the wardrobe can be seen), mirror (corresponding to a fitting mirror), and fuzziness (clothes in the wardrobe cannot be seen and cannot be used as a fitting mirror). When the cabinet door 103 does not receive the transparency adjustment instruction sent by the host 10, the cabinet door 103 is in a non-electrified fuzzy state, and the cabinet door 103 does not consume electric energy in the state. When receiving the transparency adjustment instruction sent by the host computer 10, the cabinet door 103 can be adjusted to a transparent state in response to the transparency adjustment instruction so as to facilitate the user to find out the clothes inside, and can also be adjusted to a mirror state so as to enable the user to put up the makeup and wear. The specific state of the cabinet door 103 is preset by the user, and the state can be modified on the display 20 by the user, so that different use requirements of the user can be met. Then, when the infrared human body induction module 102 induces that the human body leaves, the cabinet door 103 responds to the transparency adjustment instruction and switches to the fuzzy state again. The dimming glass in this embodiment may be an electrically controlled glass, and the state is adjusted based on the presence or absence of current and the magnitude of the current.

Through the combination of the infrared human body induction module 102 and the light adjusting glass, a user can more conveniently find clothes and finish the makeup and wear of the user after finding the clothes.

In one embodiment, the laundry management system further comprises: the wardrobe comprises a virtual key module 104 and a plurality of touch keys 105, wherein one touch key 105 is arranged on one cabinet door 103 of the wardrobe.

The virtual key module 104 is connected to the host 10, the virtual key module 104 may be connected to a terminal such as a mobile phone or a tablet through wifi or bluetooth, and when a user sends a virtual request instruction for opening a certain cabinet door 103 to the virtual key module 104, the virtual key module 104 may respond to the virtual request instruction and send a cabinet door 103 opening request instruction to the host 10 to control opening of the corresponding cabinet door 103. For example, when the user sends a virtual request command for opening the first cabinet door, the virtual key module 104 sends a cabinet door 103 opening request command for opening the first cabinet door to the host 10, so as to control the first cabinet door to open. In this embodiment, the virtual key module 104 may be a 433 wireless key.

The touch keys 105 are connected with the host 10 and used for responding to a touch instruction input by a user and sending a cabinet door 103 opening request instruction to the host 10 so as to open the cabinet door 103 receiving the touch instruction. For example, when the user inputs a touch command to the second cabinet door, the touch button 105 on the second cabinet door sends a cabinet door 103 opening request command to the host 10 to open the second cabinet door, so as to control the second cabinet door to open.

In one embodiment, the laundry management system further comprises: a number of ranging modules 106. Referring to fig. 4, in the embodiment, the body of the wardrobe is suspended by the support of the support legs, the plurality of distance measuring modules 106 are all disposed on the target surface of the wardrobe, the target surface faces the ground, and one distance measuring module 106 is aligned with one cabinet door 103 of the wardrobe and is used for controlling the opening and closing of one cabinet door 103.

The plurality of ranging modules 106 are connected to the host 10. It can be understood that, when a user has clothes on his hand, it is inconvenient to open the cabinet door 103 through the key module or the virtual key module 104, and at this time, the user may stretch his feet into the corresponding cabinet door 103, and any one of the ranging modules 106 may send a cabinet door 103 opening request instruction to the host 10 when detecting an obstacle, so as to open the corresponding cabinet door 103. For example, when the user puts his foot under the third cabinet door, the ranging module 106 under the third cabinet door sends a cabinet door 103 opening request command to the host 10 to open the third cabinet door, so as to control the third cabinet door to open. In this embodiment, the model of the ranging module 106 is TOF 10120.

Through the combination of the virtual key module 104, the touch keys 105 and the ranging module 106, a user can have multiple modes of opening the cabinet door 103, namely a mode of clicking the touch keys 105 on one cabinet door 103, a mode of remotely sending a virtual request instruction to the virtual key module 104, and a mode of extending feet into the bottom of the wardrobe, so that the mode of opening the cabinet door 103 by the user is more flexible.

Further, the laundry management system further includes: and the guide rail driving module 107 is connected with the host 10 and the cabinet door 103 and is used for responding to a cabinet door 103 opening instruction sent by the host 10 and driving at least one cabinet door 103 of the wardrobe to open. The rail driving module 107 in this embodiment may be an electric rail, so that a user does not need to manually open or close the cabinet door 103.

In one embodiment, the laundry management system further comprises: a plurality of lighting modules 108, one lighting module 108 is disposed in one accommodation space. The plurality of lighting modules 108 are connected to the host 10, and are configured to activate or deactivate at least one of the lighting modules 108 in response to a lighting adjustment command sent by the host 10. In this embodiment, the lighting adjustment instruction may be associated with the position of the clothes selected by the user or the clothes recommended by the clothes management system, for example, if the clothes selected by the user or the clothes recommended by the clothes management system is a, and belongs to the accommodating space a, the host 10 generates the lighting adjustment instruction for controlling the lighting module 108 in the accommodating space a to be turned on or off, when the cabinet door 103 is opened, the lighting module 108 in the accommodating space a is turned on in response to the lighting adjustment instruction, and when the cabinet door 103 is closed, the lighting module 108 in the accommodating space a is turned off in response to the lighting adjustment instruction. Therefore, the position of the searched clothes is highlighted, and the user can conveniently and quickly take out the clothes.

On this basis, the lighting module 108 may further include an RGB atmosphere lamp, so that the user may set the color and effect in each accommodating space according to his or her own needs, may match various effects as desired, and may use some default effects of the system itself.

In one embodiment, since bacteria may occur in the wardrobe due to long-term storage, the clothes management system further includes an ozone sterilization module 109 connected to the host 10 for detecting the concentration of ozone in the wardrobe, and sending an ozone adjustment command to the ozone sterilization module 109 when the host 10 determines that the current concentration of ozone is lower than the minimum preset concentration of ozone, and the ozone sterilization module 109 starts to release ozone in response to the ozone adjustment command. And when the host machine 10 determines that the current ozone concentration is higher than the highest preset concentration of ozone, an ozone adjusting instruction is sent to the ozone sterilization module 109, and the ozone sterilization module 109 stops releasing ozone in response to the ozone adjusting instruction. In this embodiment, the ozone sterilization module 109 may be a small ozone generator, and convert oxygen into ozone by using the high voltage discharge principle.

In addition, the clothes management system further includes an ultraviolet sterilization module 110 connected to the main unit 10 for performing ultraviolet sterilization in response to the ultraviolet sterilization command sent by the main unit 10. In this embodiment, the ultraviolet light can be selected as the ultraviolet light for the ultraviolet sterilization module 110, and the user can set the ultraviolet sterilization time and the working time in the display 20 by himself, so as to achieve the effect of automatic regular disinfection and sterilization.

Further, the laundry management system further includes: and the dehumidifying module 111 is connected with the host 10, and is used for detecting a humidity value in the wardrobe and responding to a dehumidifying instruction sent by the host 10 to dehumidify. The user can set the humidity range to be maintained in the cabinet on the display 20, and the host 10 determines whether the dehumidification module 111 needs to be turned on for dehumidification based on the humidity range, so as to maintain the humidity in the cabinet within the set humidity range. In this embodiment, the dehumidifying module 111 is a semiconductor dehumidifier. The semiconductor dehumidifier adopts and forms the lower refrigeration end of temperature based on semiconductor refrigeration technical principle, and incasement damp air is the condensation constantly into the drop of water at the refrigeration end, relies on gravity to drop to the ponding inslot under the effect of self gravity to the final wardrobe of discharging through the drain pipe that the ponding groove is connected, thereby reduce the absolute humidity in the wardrobe, solved the too high problem of humidity in the wardrobe.

Based on the ozone sterilization module 109, the ultraviolet sterilization module 110 and the dehumidification module 111, the storage environment of the clothes can be effectively improved, and the damage of bacteria and excessive humidity to the clothes can be reduced.

Further, the laundry management system further includes: the aromatherapy module 112 is connected to the host 10 and configured to respond to the aromatherapy start instruction sent by the host 10 to start the aromatherapy function. The user can set the fragrance interval time and the working time on the display 20, and the wardrobe can be automatically controlled to be started and closed according to the set time, so that the interior of the wardrobe is kept fresh.

The intelligent clothes management system consists of a single module or a plurality of modules. In order to achieve long-range, inter-module communication,

as shown in fig. 3, the clothes management system in this embodiment is composed of a plurality of functional modules, and in order to implement remote, multi-module communication, the host computer communicates with the plurality of functional modules through 485. According to different use scenes and different use modes of the modules, the modules can work independently or cooperatively.

Based on the same utility model concept, the embodiment of the utility model provides a wardrobe, which is applied to the clothes management system in any one of the embodiments. It should be noted that, the implementation of the wardrobe in this embodiment is consistent with the implementation concept of the clothes management system, and the implementation principle is not described herein again, and specific reference may be made to corresponding contents in the wardrobe monitoring system and the clothes management system.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A clothing management system for use in a wardrobe, the clothing management system comprising: the clothes information reading device comprises a host, a display and a clothes information reading module;

the clothes information reading module is connected with the host and used for reading clothes information labels on stored clothes and taken-out clothes to acquire clothes information and sending the clothes information to the host, wherein one clothes information label is attached to one clothes;

the host is used for storing the clothes information;

the display is connected with the host and used for displaying the clothes information.

2. The laundry management system of claim 1, further comprising: an infrared human body induction module;

the infrared human body induction module is connected with the host and used for inducing the relative distance between the infrared human body induction module and the host and sending the relative distance to the host;

the cabinet door of the wardrobe is made of dimming glass, is connected with the host and is used for responding to a transparency adjusting instruction sent by the host according to the relative distance so as to adjust the transparency.

3. The laundry management system of claim 1, further comprising: the wardrobe comprises a virtual key module and a plurality of touch keys, wherein one touch key is arranged on one wardrobe door of the wardrobe;

the virtual key module is connected with the host and used for responding to a virtual request instruction sent by a user and sending a cabinet door opening request instruction to the host so as to open any one cabinet door;

the plurality of touch keys are connected with the host and used for responding to a touch instruction input by a user and sending a cabinet door opening request instruction to the host so as to open the cabinet door receiving the touch instruction.

4. The laundry management system of claim 1, further comprising: the plurality of ranging modules are arranged on a target surface of the wardrobe, the target surface faces the ground, and one ranging module is aligned with one cabinet door of the wardrobe;

the plurality of ranging modules are connected with the host and used for sending a cabinet door opening request instruction to the host when the barrier is detected so as to open the cabinet door corresponding to the ranging module which detects the barrier.

5. The laundry management system of claim 1, further comprising: and the guide rail driving module is connected with the host and the cabinet doors of the wardrobe and used for responding to a cabinet door opening instruction sent by the host and driving at least one cabinet door of the wardrobe to open.

6. The clothes management system of claim 1, wherein the wardrobe includes a plurality of receiving spaces therein for receiving clothes, the clothes management system further comprising: the accommodating space is internally provided with a plurality of illuminating modules;

the plurality of lighting modules are connected with the host and used for responding to the lighting adjusting instruction sent by the host to start or close at least one lighting module.

7. The laundry management system of claim 1, further comprising:

the ozone sterilization module is connected with the host machine and used for detecting the concentration of ozone in the wardrobe and responding to an ozone adjusting instruction sent by the host machine to control the release or stop the release of the ozone;

and the ultraviolet sterilization module is connected with the host and used for responding the ultraviolet sterilization instruction sent by the host to perform ultraviolet sterilization.

8. The laundry management system of claim 1, further comprising: and the dehumidification module is connected with the host, is used for detecting the humidity value in the wardrobe and is also used for responding to a dehumidification instruction sent by the host to carry out dehumidification.

9. The laundry management system of claim 1, further comprising: and the aromatherapy module is connected with the host and used for responding to the aromatherapy starting instruction sent by the host to start the aromatherapy function.

10. Wardrobe, characterized in that a clothing management system according to any of claims 1-9 is applied.

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