CN107232782B - Automatic wardrobe and system capable of identifying and blending clothes - Google Patents

Abstract

The invention discloses an automatic wardrobe and a system capable of identifying and allocating clothes, which comprises a wardrobe body, a minimum storage unit, a clothes production line, a data reader, a server, a distribution room and the like, the clothes are integrally allocated by the movement of the clothes assembly line, the clothes are isolated by the isolating component, data are collected and queue information is automatically established at the same time, the data of the clothes are integrated with the minimum storage unit by adopting the image collecting function, the manual participation is reduced by adopting an electronic intelligent flow way, an independent clothes operation space can be provided by arranging the distribution room, the clothes are disinfected, sterilized and the like, and the information of the clothes is collected, the operator only needs to stand at a certain point in the whole process, the whole dressing process can be completed, remote operation can be realized through the control terminal, and dressing guidance and suggestions are provided by combining big data.

Description

Automatic wardrobe and system capable of identifying and blending clothes

Technical Field

The invention relates to the technical field of automation equipment, in particular to an automatic wardrobe and an automatic wardrobe system capable of identifying and blending clothes.

Background

The traditional wardrobe mainly depends on the movement of human limbs to carry out related operations, and is one of furniture commonly used in families. Along with the improvement of living standard of people, the type and the quantity of the clothing of dress are also more and more, and a lot of clothing is likely to be forgotten after placing the wardrobe, places for a long time and produces mildew, damage easily to the problem of clothing arrangement and placing leads to finding the difficulty many times. In addition, for some clothing companies and clothing enterprises at present, clothes are often required to be sorted and screened, in the existing traditional clothes preparation cabinet or clothes conveying line, each piece of clothes is hung with a manual label removal person, and the labels and holes on the conveying line are manually taken with notes on a computer or a notebook, so that a marking relationship is established; when the clothes rack needs to be used, the number of the position of the conveying line hole is input by a computer or on an equipment control panel, and the position of the equipment driving hole reaches an appointed position, so that clothes can be taken; the prior art has the advantages of high human participation degree, low efficiency and relatively missing identification, data establishment, matching mark, visualization and intelligent management and control.

The existing clothes conveying line is fully hung on a fixed hole position, and only integral nursing can be performed when nursing is needed, and only the periphery can be protected when clothes and clothes are crowded together; the professional disinfection cabinet needs to be put in one piece, and after the disinfection cabinet is processed, the disinfection cabinet is taken out one piece by one piece manually, so that the occupied area and the manual operation are complicated; other embedded nursing components can only process a certain limited space, and the effect is low. Therefore, an automatic wardrobe and system capable of identifying and blending clothes are provided.

Disclosure of Invention

The invention aims to provide an automatic wardrobe and an automatic wardrobe system capable of identifying and blending clothes, so as to solve the problems in the background art.

In order to achieve the above purpose, the invention provides the following technical scheme:

the automatic wardrobe capable of identifying and allocating clothes comprises a wardrobe body, wherein a minimum storage unit, a clothes assembly line and a data reader are arranged in the wardrobe body, an information carrier capable of being identified by the data reader is arranged on the minimum storage unit, a circuit control center is arranged on the clothes assembly line, the circuit control center is in communication connection with a server, the server is in communication connection with a control terminal, the data reader is in communication connection with the server, and a distribution room is arranged in the wardrobe body.

Preferably, the clothes assembly line passes through a distribution room, the distribution room comprises an isolation component, a data capture device is arranged in the distribution room, data readers are arranged at an outlet and an inlet of the distribution room, and the data capture device, the data readers and the isolation component are in communication connection with a server.

Preferably, a secondary rail is arranged in the distribution room, and a distribution component is arranged on the secondary rail.

Preferably, the minimum storage unit is a clothes rack, a shoe rack or a storage rack.

Preferably, the control terminal is a communication device which is movable or fixed on the cabinet body.

An automated system capable of identifying and dispensing garments, comprising the steps of:

m1: the server receives the signal of the control terminal, and the control terminal transmits the signal to the server to enable the circuit control center to enable the clothes assembly line to move;

m2: the clothes production line drives the minimum storage unit to enter a distribution room, a data reader at an inlet of the distribution room identifies the minimum storage unit to obtain data D1, and the data D1 is transmitted to a server;

m3: the isolation component in the distribution room dials the single minimum storage unit into the distribution room, the data capture device in the distribution room identifies clothes in the minimum storage unit corresponding to the data D1 and establishes the data D2, the data D2 is transmitted to the server, and the server binds the data D1 and the data D2;

m4: a data reader at an outlet of the distribution room identifies an information carrier on the minimum storage unit, transmits data to a server for verification and establishes queue information;

m5: the control terminal sends a selection instruction to the server, and the server transmits the instruction to the circuit control center and the isolation component;

m6: after a selected minimum storage unit or a plurality of continuous minimum storage units enter the distribution room to complete related operations, the minimum storage unit is moved out of the distribution room, and a data reader at an outlet of the distribution room acquires data information of the minimum storage unit and transmits the data information to a server to form new queue information;

m7: in step M6, the minimum storage unit moved out of the distribution room enters the distribution room separately under the action of the clothes pipeline and the isolation member, the data capture device obtains the clothes data D3 and uploads the data to the server, and the server integrates the new queue information in the clothes data D3 and M6 for data binding.

Preferably, in step M7, the server controls the minimum storage unit to enter the dispensing room independently in the forward direction or the reverse direction under the action of the clothes line and the isolation member.

Preferably, the number of minimum memory locations that enter and exit the allocation room in step M6 may be zero.

Preferably, the minimum storage units selected in step M6 are multiple minimum storage units, enter the secondary track under the action of the allocation member, return to the distribution room and move out of the distribution room after completing the relevant operations, and the data reader at the exit of the distribution room collects the data information of the minimum storage units and transmits the data information to the server to form new queue information, where the data information in the server has authority setting.

Preferably, the data acquisition modes of the data capture device in steps M3 and M7 are external graphic information acquisition and clothes label information acquisition of clothes.

Compared with the prior art, the invention has the beneficial effects that: the invention is provided with a production line to circularly transport clothes, a minimum storage unit is arranged to place the clothes, data screening is carried out through a data reader, queue information is established, the data of the clothes is integrated with the minimum storage unit by adopting an image acquisition function, the artificial participation degree is reduced by adopting an electronic intelligent flow mode, an independent clothes operation space can be provided by setting a distribution room, the clothes are disinfected, sterilized and other nursing work is carried out, the information of the clothes is collected, the whole finishing process can be completed by only standing at a certain point position by operating personnel in the whole process, in addition, a server is arranged to pull the data, and the optimal matching scheme of the clothes in the cabinet is provided by combining the current time, season, activity and clothes dressing habits.

Drawings

FIG. 1 is a flow chart of the initial acquisition of data according to the present invention;

fig. 2 is a flow chart of selecting clothes data according to the present invention.

Detailed Description

The technical solutions in the present invention are clearly and completely described below with reference to specific embodiments, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all 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.

Example 1

Referring to fig. 1 and 2, an automatic wardrobe capable of identifying and dispensing clothes includes a cabinet body, a minimum storage unit is arranged in the cabinet body, the minimum storage unit may be a hanger, a shoe rack, a storage rack, etc., the cabinet body is provided with a clothes line for transporting the minimum storage unit, the clothes line may be multi-layered, the cabinet body further includes a data reader for reading an information carrier on the minimum storage unit, the data reader is distributed at an inlet and an outlet of a distribution room, and the number of the data reader may be multiple, the data readers can simultaneously collect information from the minimum storage units to reduce waiting time, the cabinet body is provided with a distribution room, the clothes line passes through the distribution room, and the distribution room is provided with an isolation member for allowing one or a plurality of continuous minimum storage units to enter the distribution room individually, so that the clothes are not attached together, the data capture device in the convenient allotment room carries out clothing data acquisition and some other processing operations, and all data capture device, data reader, isolation component all are with server communication connection to be equipped with control terminal and server communication connection, and control terminal and the fixed form of fixing on the cabinet body, also have removal forms such as cell-phone, flat board.

An automated system capable of identifying and dispensing garments, comprising the steps of:

m1: under any state and time, an operator selects data reset acquisition for the control terminal, and the control terminal transmits a signal to the server to enable the circuit control center to enable the clothes assembly line to move;

m2: the clothes production line drives the minimum storage unit to move, a data reader at an entrance of the distribution room performs data acquisition on the minimum storage unit to be entered to obtain data D1, and the data D1 are transmitted to the server;

m3: the isolation component only brings a single minimum storage unit into the distribution room, clothes in the minimum storage unit are not tightly attached to other clothes, the data capture device in the distribution room 7 identifies the clothes in the minimum storage unit corresponding to the data D1, the identification scheme can enable automatic photographing storage, clothes delivery mark identification or manual photographing data establishment to establish the data D2, the data D2 is transmitted to the server, and the server binds the data D1 and the data D2 for information to obtain the corresponding clothes in each minimum storage unit;

m4: the data reader at the outlet of the distribution room identifies the information carrier on the minimum storage unit moved out of the distribution room and transmits the data to the server, and the server verifies the data and the data in the step M3 and establishes queue information to obtain a complete clothing information list;

m5: the operation control terminal selects clothes, the command is transmitted to the server, and the server calculates according to the queue information in the step M4, and transmits the specific clothes assembly line moving step number command and the inter-distribution command to the circuit control center and the isolation member;

m6: after a selected minimum storage unit or a plurality of continuous minimum storage units enter the distribution room, operations such as replacement, fitting, sterilization and disinfection can be carried out, and after relevant operations are completed, the minimum storage unit is moved out of the distribution room;

m7: in step M6, the clothes in the minimum storage unit of the branch cabinet may be changed, the minimum storage units may enter the branch cabinet independently again under the action of the clothes pipeline and the isolation component, and the clothes data D3 is obtained by the data capture device and uploaded to the server, the server integrates the clothes data D3 with the new queue information in the M6, and performs data binding and updating to obtain a complete clothes information list, when the minimum storage unit of the branch cabinet directly passed through by the isolation component is not used to pass through the branch cabinet, the door of the branch cabinet is closed, and the server defaults that the clothes in the minimum storage unit is not changed.

By repeating the steps, the automatic clothes allocation selection process can be realized, and a user only needs to stand at a certain position to perform operations such as nursing, trying on, hanging and the like on clothes, so that time and labor are not wasted in arrangement and searching.

Example 2

Referring to fig. 1 and 2, an automatic wardrobe capable of identifying and allocating clothes includes a wardrobe body, the wardrobe body may be integrally formed or modularly spliced, the wardrobe body is provided with a minimum storage unit, the minimum storage unit may be a clothes hanger, a shoe rack, a storage rack, etc. corresponding to different clothes, the wardrobe body is provided with a clothes assembly line for transporting the minimum storage unit, the clothes assembly line is multi-layered, the minimum storage unit may be provided with information carriers such as a binary code or an RFID chip, etc., the minimum storage unit is further provided with a weight sensor for rapidly identifying whether the cabinet is empty or not and directly transmitting information to a server, the wardrobe body 1 further includes data readers distributed at inlets and outlets of a distribution room, and the number of the data readers may be multiple, the multiple data readers can simultaneously acquire information from the multiple minimum storage units to reduce waiting time, the cabinet body is internally provided with a distribution room, a clothes assembly line passes through the distribution room, and the distribution room is internally provided with an isolation component which is used for independently entering some or several continuous minimum storage units into the distribution room, so that the clothes are not attached together, a data capture device in the distribution room is convenient to carry out clothes data acquisition and other processing operations, a secondary track and a deployment component are arranged in the distribution room, a plurality of minimum storage units can be deployed to the secondary track for operators to select and use at the same time, all the data capture devices, a data reader and the isolation component are communicated with a server, and a control terminal is in a fixed form fixed on the cabinet body, and the mobile forms such as a mobile phone and a flat plate are also provided.

An automated system capable of identifying and dispensing garments, comprising the steps of:

m1: in any state and time, the server 5 is provided with authority limits, for some privacy articles and the minimum storage unit, different operators can read and operate information according to the authority limits, the operators select data to reset and collect to the control terminal, the control terminal transmits signals to the server, and the circuit control center enables the clothes assembly line to move;

m2: the clothes production line drives the minimum storage unit to move, a data reader at an entrance of the distribution room performs data acquisition on the minimum storage unit to be entered to obtain data D1, and the data D1 are transmitted to the server;

m3: the weight sensor arranged on the minimum storage unit judges whether the minimum storage unit is empty or not, the server enables the clothes assembly line 3 to directly take the empty minimum storage unit out of the distribution room according to the data D1 in the step, clothes identification is not needed, the isolation component only enables the single minimum storage unit which is not empty to be brought into the distribution room, the clothes in the minimum storage unit are not tightly attached to other clothes, the data capture device in the distribution room identifies the clothes in the minimum storage unit corresponding to the data D1, the identification scheme can enable automatic photographing storage, clothes delivery marks to be identified or photographing data to be manually established, the data D2 is established, the data D2 is transmitted to the server, and the server binds the data D1 and the data D2 to obtain the corresponding clothes in each minimum storage unit;

m4: the data reader at the outlet of the distribution room identifies the information carrier on the minimum storage unit moved out of the distribution room and transmits the data to the server, and the server verifies the data and the data in the step M3 and establishes queue information to obtain a complete clothing information list;

m5: an operator selects clothes or adds clothes functions by using the control terminal, the instruction is transmitted to the server, and the server transmits a specific clothes assembly line moving step number instruction and a distribution room distribution instruction to the circuit control center and the isolation component through calculation according to the queue information in the step M4;

m6: when the selected minimum storage unit is first separately loaded into the distribution room by the isolation component and then enters the secondary track through the distribution component, and a plurality of clothes on the same layer are simultaneously selected, the operation of the step M6 is repeated, namely, a plurality of minimum storage units can simultaneously enter the secondary track, the space of the secondary track can be larger, a large distribution room is formed, after the operations of replacement, fitting, sterilization and disinfection and the like are finished by an operator with components of independent drying, sterilization, fitting and the like, returning to the clothes production line according to the instruction of the control terminal, moving the minimum storage unit out of the distribution room, since it is possible to add a new minimum storage unit, remove a part of the minimum storage unit or update the laundry, therefore, a data reader at the outlet of the distribution room can collect data information of all minimum storage units moved out of the distribution room and transmit the data information to the server to form new queue information;

m7: in step M6, the clothes in the minimum storage unit 2 moved out of the distribution room may be changed, the pipeline and the isolation member may run in reverse, the server determines the running time in forward and reverse directions according to the queue information obtained in step M6, selects a short-time mode, the minimum storage units with possible changes separately enter the distribution room again, obtains the clothes data D3 by using the data capturing device and uploads the clothes data to the server, the server integrates the new queue information in the clothes data D3 and M6, performs data binding and updating to obtain a complete clothes information list, when the minimum storage unit of the distribution room directly passed through by the isolation member flows through the distribution room, the door of the distribution room is closed, and the server defaults that the clothes in the minimum storage unit is not changed, the server may set the operation authority for different operators, and setting the hiding or viewing authority for some privacy articles.

The invention provides an automatic wardrobe and an automatic allocation system scheme, clothes are collected and managed in a production line mode, data of the clothes are integrated and summarized in combination with data acquisition, meanwhile, an independent distribution room is arranged for clothes maintenance, fitting and other operations, a user can arrange and store the clothes properly when standing at a certain position, one-to-one special nursing of the clothes is realized, in addition, a server can interact clothes data by means of internet big data, and clothes dressing matching suggestions of the existing clothes are provided according to local geographical positions, seasons and time.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. An automatic system that can discern and allot clothes, includes the cabinet body, its characterized in that: the clothes matching cabinet is characterized in that a minimum storage unit, a clothes assembly line and a data reader are arranged in the cabinet body, an information carrier which can be identified by the data reader is arranged on the minimum storage unit, a circuit control center is arranged on the clothes assembly line, the circuit control center is in communication connection with a server, the server is in communication connection with a control terminal, the data reader is in communication connection with the server, a distribution room is arranged on the cabinet body and used for adding, moving out, updating, fitting and the like of the minimum storage unit, and the clothes assembly line is multi-layer for clothes matching selection;

the clothes assembly line passes through a distribution room, the distribution room comprises an isolation component, a data capture device is arranged in the distribution room, data readers are arranged at an outlet and an inlet of the distribution room, and the data capture device, the data readers and the isolation component are in communication connection with a server;

a secondary rail is arranged in the distribution room, a distribution member is arranged on the secondary rail, and the minimum storage unit is a clothes rack, a shoe rack and a storage rack;

the control terminal is a communication device which is movable or fixed on the cabinet body;

the operation flow of the automation system comprises the following steps:

m1: the server receives a signal of the control terminal, firstly, the server verifies the authority of a terminal operator, the authority is used for displaying or hiding articles in the minimum unit, and the control terminal transmits the signal to the server to enable the circuit control center to enable the clothes assembly line to move;

m2: the clothes production line drives the minimum storage unit to enter a distribution room, a data reader at an inlet of the distribution room identifies the minimum storage unit to obtain data D1, and the data D1 is transmitted to a server;

m3: the isolation component in the distribution room dials the single minimum storage unit into the distribution room, the data capture device in the distribution room identifies clothes in the minimum storage unit corresponding to the data D1 and establishes the data D2, the data D2 is transmitted to the server, and the server binds the data D1 and the data D2;

m4: a data reader at an outlet of the distribution room identifies an information carrier on the minimum storage unit, transmits data to a server for verification and establishes queue information;

m5: the control terminal sends a selection instruction to the server, and the server transmits the instruction to the circuit control center and the isolation component;

m6: after a selected minimum storage unit or a plurality of continuous minimum storage units enter the distribution room to complete related operations, the minimum storage unit is moved out of the distribution room, and a data reader at an outlet of the distribution room acquires data information of the minimum storage unit and transmits the data information to a server to form new queue information;

m7: in the step M6, the minimum storage unit moved out of the distribution room enters the distribution room independently under the action of the clothes assembly line and the isolation component, the data capture device obtains the clothes data D3 and uploads the clothes data D3 to the server, and the server integrates the new queue information in the clothes data D3 and the M6 for data binding;

and in the M7, the server controls the minimum storage unit to enter the distribution room in a forward direction or a reverse direction independently under the action of the clothes pipeline and the isolation component.

2. An automated system for identifying and dispensing garments according to claim 1, wherein: the number of minimum memory locations that are entered and moved out of the staging bay in step M6 may be zero.

3. An automated system for identifying and dispensing garments according to claim 1, wherein: the minimum storage units selected in the step M6 are multiple minimum storage units, enter the secondary track under the action of the allocation member, return to the distribution room and move out of the distribution room after completing related operations, and the data reader at the outlet of the distribution room collects the data information of the minimum storage units and transmits the data information to the server to form new queue information, wherein the data information in the server has authority setting.

4. An automated system for identifying and dispensing garments according to claim 1, wherein: the data acquisition mode of the data capture device in the steps M3 and M7 is the external graphic information acquisition and the clothes label information acquisition of clothes.

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