CN107493332A - Intelligent storage device based on radio communication, the system and its operating method operated to article-storage device is realized based on radio communication - Google Patents

Abstract

The invention discloses the Intelligent storage device based on radio communication and the system and method operated based on radio communication to the article-storage device, the device includes controlled in wireless component and at least one cabinet being arranged in same controlled in wireless component control range, each cabinet includes space lattice and the wireless control module being arranged in cabinet, wherein, controlled in wireless component can carry out two-way wireless communication with wireless control module, controlled in wireless component realizes the operation to each cabinet in control range by being interacted with wireless control module.The device and system, which have reached, to be reduced the circuit of cupboard and sets and the effect of network arrangement, and and then realize the rapid deployment of article-storage device, the displacement of the convenient deployment and cupboard for carrying out article-storage device, and can realize that energization is i.e. usable.Moreover, this design reduces installation cost and wiring, resource-sharing is realized, saves resource.

Description

Intelligent storage device based on wireless communication, system for operating storage device based on wireless communication and operation method thereof

Technical Field

The invention relates to the technical field of storage devices, in particular to an intelligent storage device based on wireless communication, a system for operating the storage device based on the wireless communication and an operating method thereof.

Background

With the rapid increase of temporary storage demand in dense people flow places and the development of internet of things technology, various intelligent storage devices or intelligent storage systems based on mobile control are beginning to appear on the market successively. The appearance of thing networking storage device, the trip for people has brought the facility, but simultaneously, because present storage device is through installing an intelligent control panel (like panel computer) and an electric control panel on every cabinet body, pass through net twine access internet by the intelligent control panel and interact with long-range application, and pass through circuit or net twine connection electric control panel by the intelligent control panel, to electric control panel transmission control signal or information realization intelligent control, consequently, there are a great deal of defects in this kind of traditional storage device, for example:

1. two panels are installed at the same time per cabinet, resulting in increased cost and volume.

2. The two plates are connected through a circuit or a network cable, so that the structure of the line in the cabinet body is complex and the problem is easy to occur.

3. When the storage device is deployed, network arrangement and debugging are needed, installation and debugging are very troublesome, and heavy workload is brought to field implementation.

4. When the cabinet needs to be moved, not only the cabinet needs to be moved, but also the network wiring and debugging need to be carried out again, so that the replacement of the storage place becomes particularly difficult.

In addition, since the storage device in each location certainly includes multiple cabinets (i.e., cabinets), and it is impossible to place only one cabinet, so that networking and resource sharing among the cabinets are inevitable requirements and trends, but the intelligent control boards of the conventional storage cabinets are all implemented by tablet computers or industrial personal computers, so that each storage cabinet is respectively connected to a network through the intelligent control board, and therefore, the network among the cabinets is not accessible, and each storage cabinet is respectively interacted with a cloud application or a mobile application, and cannot realize network and resource sharing, which limits the processing capability of an application program.

Disclosure of Invention

One objective of the present invention is to provide an intelligent storage device based on wireless communication, so as to solve at least one of the above problems.

According to one aspect of the invention, an intelligent storage device based on wireless communication is provided, which comprises a wireless control assembly and at least one cabinet body arranged in the control range of the same wireless control assembly, wherein each cabinet body comprises a space grid and a wireless control module arranged in the cabinet body, the wireless control assembly and the wireless control module can perform bidirectional wireless communication, and the wireless control assembly interacts with the wireless control module to realize the operation of each cabinet body in the control range. Through setting up wireless control assembly and the wireless control module that can carry out wireless communication, make a plurality of cabinets (the cabinet body promptly) can share a wireless control assembly, realize communicating with a plurality of wireless control module through a wireless control assembly promptly to reach the purpose of controlling corresponding a certain cupboard. Based on wireless communication, the intelligent storage device achieves the effects of reducing circuit arrangement and network arrangement of the cabinet body and further achieving rapid deployment, facilitates deployment and displacement of the cabinet body, and can be used after being electrified. Moreover, the design scheme reduces the cost and wiring of the device, realizes resource sharing and saves resources.

In some embodiments, an electric lock is installed on a cabinet door of the space grid, and the wireless control module is connected with the electric lock, wherein the wireless control module analyzes according to an operation instruction sent by the wireless control component, generates a control signal, and outputs the control signal to the corresponding electric lock so as to control the cabinet door to be in an unlocking state or a locking state. Therefore, the wireless control module can control the corresponding electric lock to act according to the analysis result of the operation instruction, and the space grid on a certain specific cabinet body is opened or closed under the control of the wireless control assembly. Under this kind of mode, only need set up wireless control module and electronic lock on every cabinet body can, really with the wireless control subassembly of outside interaction then need not set up on every cabinet body, and realize communicating through wireless mode between wireless control subassembly and the wireless control module, consequently, only need the wireless control module to carry out the analysis to received instruction, thereby whether decide to carry out corresponding instruction content, just can realize the control to specific certain specific cabinet body based on common wireless control subassembly, the cost and the wiring of the cabinet body have been reduced, resource sharing has been realized.

In some embodiments, the wireless control module comprises a wireless transmission unit and a control unit, and the wireless control module comprises a cabinet wireless transmission unit and a cabinet control unit, wherein the control unit is configured to perform data processing according to external operations, generate corresponding operation instructions and output the operation instructions to the cabinet control unit, and/or perform data processing according to information output by the cabinet control unit, and generate cabinet operation result information and output the cabinet operation result information; the wireless transmission unit and the cabinet body wireless transmission unit are used for realizing information interaction between the wireless control assembly and the wireless control module in a wireless mode; the cabinet body control unit is used for analyzing the operation instruction received by the cabinet body wireless transmission unit, controlling the cabinet body according to the analysis result, and/or generating cabinet body state information according to the control result of the cabinet body and outputting the cabinet body state information to the control unit. Through set up in wireless control assembly and wireless control module and carry out wireless transmission unit and the cabinet body wireless transmission unit of wireless communication based on the communication protocol of closely, can realize two-way wireless communication between the two, carry out data processing, for example instruction conversion and analysis by the control unit and the cabinet body control unit, need not carry out network layout, can realize quick deployment. Moreover, the method is simple to implement and low in cost.

In some embodiments, the control unit includes an identification unit for registering a cabinet within a control range, and the wireless control module includes a cabinet identification unit connected to the cabinet control unit and used for identifying the located cabinet, wherein the cabinet control unit is configured to identify an operation instruction transmitted to the cabinet control unit according to identification information of the cabinet identification unit and perform instruction processing according to an identification result, and/or generate and output the identification information in interaction information with the wireless control assembly; the control unit is configured to send an operation instruction to the wireless control module in the cabinet body within the control range according to the information in the identification unit, and/or generate and output identification information in interaction information with the outside and/or the wireless control module. Therefore, the wireless control module can determine the cabinet body in the control range of the wireless control module through the identification information registered in the identification unit, so as to send a message to the wireless control module in the control range, and the wireless control module can identify whether the received message is a control message for the cabinet body through the identification of the cabinet body identification unit, so that the correct execution of the instruction is ensured. This kind of mode can carry out wireless communication through setting up in advance, need not carry out IP setting and IP debugging, and the deployment is simple, reaches the effect that makes cabinet body circular telegram can communicate, practices thrift the human cost.

In some embodiments, the wireless control component further comprises a wireless communication unit for enabling wireless bidirectional communication between the wireless control component and the outside. Through the mode of wireless communication unit and outside interaction, replace original mode of being connected to the route, based on internet communication, not only can reduce the inside net twine of cabinet body and arrange, but also make whole storing device no longer need carry out net twine and network and arrange. Moreover, the wireless communication unit can preferably adopt a wireless communication implementation mode through a mobile network, so that automatic networking of the storage device can be realized, operators can automatically repair the storage device, users do not need to maintain network resources any more, the arrangement of the storage device can be greatly simplified, and the application of the storage device is promoted.

In some embodiments, the wireless control assembly further comprises a power supply detection unit connected with the control unit, and the power supply detection unit is configured to detect the on-off of the municipal power supply and correspondingly output different level signals to the control unit according to the on-off of the municipal power supply; the control unit is configured to process according to the level signal output by the power supply detection unit and generate and output corresponding power supply alarm information. In order to save the labor cost and really exert the advantages of the temporary storage device, the temporary storage device is generally unattended. In unattended implementation, uninterrupted power supply is an important basic condition. Through electric power monitoring, can really realize unmanned on duty, very big performance storing device's effect. And moreover, the alarm information is sent out when the power supply is powered off, so that the user can be reminded of taking articles away during the standby power supply period, and the user experience is improved. Moreover, the power supply alarm can remind managers of timely overhauling, and is very intelligent.

In some embodiments, the wireless control assembly further includes a charging service unit connected to the control unit, and configured to receive a charging service control command output by the control unit, and control the charging interface to supply power or cut off power according to the charging service control command; wherein the charging service control instruction is generated by the control unit according to the charging control information received by the control unit. From this, can realize providing charging service for the user according to the demand, improve user experience, and carry out charging control through storing device self, can realize circular telegram and outage according to the demand, the power consumption resources are saved reaches energy-concerving and environment-protective effect.

In some embodiments, the wireless control assembly further comprises a biometric unit connected to the control unit, configured to receive the information acquisition service instruction output by the control unit, start the information acquisition service according to the information acquisition service instruction of the control unit, and output the acquired biometric information to the control unit; the control unit is configured to generate an information acquisition service instruction according to a received external operation instruction, output the information acquisition service instruction to the biological identification unit, perform identity authentication according to the acquired biological characteristic information, generate a corresponding control instruction according to an authentication result and send the control instruction to the wireless control module. From this, can start biological characteristic collection according to the demand to carry out authentication according to the collection result, thereby carry out corresponding control to the cabinet body, improve the security. Moreover, the wireless control component controls the biological identification unit, so that the biological identification unit can be shared by a plurality of cabinets, and resource sharing is realized, namely, the identity identification is not required to be carried out on each cabinet, and the registration and the identity authentication are carried out at a control point of the wireless control component.

In some embodiments, the wireless control assembly further comprises a voice unit connected to the control unit and configured to perform voice output according to a voice instruction of the control unit. Therefore, any abnormal information can be broadcasted according to needs, the method is easy to understand, the notification range is wide, and the user experience is improved.

According to another aspect of the invention, a system for operating the storage device based on wireless communication is further provided, and the system comprises a cloud management module, a mobile client and the storage device, wherein the mobile client realizes the operation of the storage device through the interaction with the cloud management module; the storage device can be in two-way wireless communication with the cloud management module, receives control information of the cloud management module and sends device state information to the cloud management module through the wireless control assembly, and the wireless control assembly interacts with the wireless control modules in the cabinets through wireless communication according to the control information to achieve operation of the corresponding cabinets. From this can realize operating the cabinet body of storing device through mobile client, moreover, high in the clouds management module only needs to be interactive with a wireless control subassembly, can realize controlling a plurality of cabinet bodies of a site, need not carry out the one-by-one with every cabinet body again, improves the treatment effeciency. And can communicate through wireless mode between high in the clouds management module and the storing device, need not set up the net twine again on the storing device and carry out IP debugging, installation deployment is swift, and resources are saved and cost. In a preferred embodiment, the cloud management module and the storage device are communicated through a mobile network, so that the network maintenance is handled by an operator, management personnel do not need to maintain and deploy the network, the labor cost is saved, and the operation can be realized by presetting and electrifying.

In some embodiments, the cloud management module includes a charging instruction unit configured to receive a charging request through the mobile client, and generate charging control information according to the charging request and output the charging control information to the wireless control component; and the wireless control component controls the charging interface to supply power or cut off power according to the charging control information. Because the wireless control assembly can control the on-off of the charging interface according to the control information of the cloud management module, namely, the charging service is intelligently and automatically controlled, and resources are guaranteed to be controlled, a user can send a charging request only by clicking a charging menu on a mobile client to obtain the required charging service without complex operations such as payment and two-dimensional code scanning, the operation is simple and convenient, and the user experience is good. And after the service is finished, the power is automatically cut off, so that the user experience is improved, and meanwhile, the energy conservation and the environmental protection are realized.

In some embodiments, the cloud management module further includes a power failure warning unit configured to receive power alarm information sent by the wireless control component, and output a power failure warning prompt or a prompt that a power failure obstacle has been eliminated according to the power alarm information. By sending the outage alarm message to the cloud, the user can timely inform the user of the outage alarm message according to the user storage information stored in the cloud, the user can conveniently take the spare power supply before the spare power supply is used up, loss or delay is avoided, and user experience is improved. Moreover, the cloud is notified, the administrator can be conveniently and timely notified to overhaul, and the unattended operation of the storage device is really realized.

Meanwhile, according to another aspect of the present invention, there is also provided a method for operating a storage device by the foregoing system, including:

sending an operation request to a cloud management module through a mobile client;

the cloud management module generates control information according to the operation request and sends the control information to the storage device;

the storage device receives control information through the wireless control assembly of the storage device, and the wireless control assembly generates an operation instruction according to the control information;

the wireless control assembly distributes an operation instruction to a wireless control module on the cabinet body within the control range of the wireless control assembly in a wireless mode;

the wireless control module receives and analyzes the operation instruction in a wireless mode, and performs instruction processing according to an analysis result so as to realize the operation on the corresponding cabinet body.

From this can realize operating the cabinet body of storing device through mobile client, moreover, high in the clouds management module only needs to be interactive with a wireless control subassembly, can realize the control to a plurality of cabinet bodies of a site, need not interact with every cabinet body again, improves the treatment effeciency. The wireless control assembly distributes instructions to the cabinet bodies in the control range in a wireless mode, and the wireless control module on each cabinet body executes operation according to the instruction analysis result, so that the instructions are correctly executed, and resource sharing is realized. In addition, the wireless control module analyzes and executes the received instruction, so that the communication between the wireless control assembly and the wireless control module can be separated from the limitation of Internet communication modes such as IP (Internet protocol) or domain name and the like, the non-network arrangement of the storage device is realized, and the network resources are saved.

In some embodiments, when the operation request sent by the mobile client is a charging request, the charging operation method includes:

the cloud management module generates charging control information according to the charging request and sends the charging control information to the storage device;

the storage device receives the charging control information through the wireless control assembly, and generates a charging service control command according to the charging control information through the wireless control assembly to be output so as to control the on-off of the charging interface.

The wireless control assembly controls the on-off of the charging interface according to the charging control information, power supply on demand can be guaranteed, energy conservation and environmental protection are achieved, a user can obtain service by sending a request, operation is simple, and user experience is good.

In some embodiments, the operating method further includes a process of monitoring power of the power source through the wireless control component or/and the wireless control module of the storage device, and when the wireless control module detects that power is cut off or power is supplied again after power is cut off, the following steps are performed:

the wireless control module generates power-off alarm information or alarm release information according to the detection result and sends the power-off alarm information or the alarm release information to the wireless control assembly;

the wireless control component carries out voice prompt according to the power failure alarm information or the alarm release information sent by the wireless control module and sends the power failure alarm information or the alarm release information to the cloud management module;

the cloud management module generates a reminding message according to the power failure alarm information or the alarm release information, outputs the reminding message, displays the reminding message and sends the reminding message to the corresponding mobile client;

when the wireless control component detects that power failure occurs or power is supplied again after power failure occurs, the following steps are carried out:

the wireless control component carries out voice prompt according to the detection result, generates power-off alarm information or alarm release information and sends the power-off alarm information or the alarm release information to the cloud management module;

and the cloud management module generates a reminding message according to the power failure alarm information or the alarm release information, outputs and displays the reminding message and sends the reminding message to the corresponding mobile client.

The monitoring to electric power is the important guarantee that realizes unmanned on duty, through in time reporting high in the clouds when taking place power failure, can accomplish in time to handle the user and deposit the piece, avoids the user loss, also can guarantee in time to provide maintenance service, provides the helping hand for the large-scale application of thing networking storing device.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent storage device based on wireless communication according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an embodiment of a wireless control component of the apparatus of FIG. 1;

FIG. 3 is a schematic diagram of another embodiment of a wireless control component of the apparatus of FIG. 1;

FIG. 4 is a schematic diagram illustrating a connection relationship of a power supply detecting unit in the wireless control module shown in FIG. 3;

FIG. 5 is a schematic diagram illustrating an implementation of one embodiment of the power supply detection unit shown in FIG. 4;

FIG. 6 is a block diagram illustrating the communication between the wireless control module and the wireless control module according to one embodiment of the present invention;

fig. 7 is a schematic structural diagram of a system for operating a storage device based on wireless communication according to an embodiment of the present invention;

FIG. 8 is a schematic flow chart of a method for operating the storage device by the system shown in FIG. 7;

FIG. 9 is a flowchart illustrating a method for controlling the timed charging of the storage device by the system shown in FIG. 7;

fig. 10 is a flow chart illustrating a method for realizing power-off alarm of the storage device by the system shown in fig. 7.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Fig. 1 schematically illustrates a structure of an intelligent storage device based on wireless communication according to an embodiment of the present invention, as shown in fig. 1, the intelligent storage device according to an embodiment of the present invention includes a wireless control component 20 and at least one cabinet 1 disposed within a control range of the same wireless control component 20, each cabinet 1 includes a space grid 100 and a wireless control module 30 disposed in the cabinet, wherein the wireless control component 20 wirelessly exchanges data with the wireless control module 30, and the wireless control module 30 receives an operation command sent by the wireless control component 20 to analyze the operation command, and controls the cabinet 1 according to an analysis result. The wireless control module 30 may be disposed in a dedicated space of each cabinet 1 for storing circuit devices, and all the wireless control modules 30 are connected to the wireless control assembly 20 in a wireless manner. The wireless control module 20 may be placed at a fixed location, such as a control room or an electric control room that is closer to the storage point of the cabinet 1, or may be placed in a space of a certain cabinet. Therefore, the plurality of cabinets can share the wireless control assembly 20, the wireless control assembly 20 does not need to be arranged on each cabinet body 1, and the wireless control assembly 20 and the wireless control module 30 do not need to be connected through a circuit or a network cable, so that the internal structure of the storage device is simplified, and meanwhile, the production cost is reduced. Meanwhile, the cabinets provided by the embodiment of the invention are operated based on a wireless communication mechanism, a wireless control assembly is not required to be connected with a network cable, namely, the network cable is not required to be pulled at the setting point of the storage device, each cabinet can be started to work only by electrifying, site broadband and network configuration of the cabinets are not required, the arrangement is greatly facilitated, the function of presetting the storage cabinet of the internet of things according to requirements can be realized, and the storage device can be quickly and flexibly arranged after the arrangement is completed, so that the operation is very convenient.

As shown in fig. 1, in the embodiment of the present invention, an electric lock 104 is installed on a cabinet door of a space grid 100, and a wireless control module 30 is connected to the electric lock 104, so that one wireless control module 30 on a cabinet body 1 controls a plurality of space grids 100 on the cabinet body. The wireless control module 30 generates a control signal according to the analysis of the operation instruction, and outputs the control signal to the corresponding electric lock 104 to control the corresponding cabinet door to be in an unlocking state or a locking state.

Fig. 2 shows one embodiment of a wireless control assembly in an embodiment of the invention. As shown in fig. 2, the wireless control module 20 in the embodiment of the present invention includes a wireless transmission unit 203 and a control unit 202, wherein the control unit 202 is configured to perform data processing and control command generation and conversion, including performing data processing according to an external operation, and generating and outputting a corresponding operation command to the wireless control module 30, and/or performing data processing according to cabinet state information output by the wireless control module 30, and generating and outputting cabinet operation result information to the outside or outputting and displaying. And the wireless transmission unit 202 is used for data exchange between the control unit 202 and the wireless control module 30. In a specific embodiment, the wireless transmission unit 202 is implemented by a communication method based on a short-range data communication protocol, such as LoRA, NB-IOT, Zigbee, or bluetooth; the control unit 202 may be a single chip microcomputer.

Fig. 3 shows another preferred embodiment of the wireless control assembly in an embodiment of the present invention. As shown in fig. 3, in the preferred embodiment, the wireless control assembly 20 further includes a wireless communication unit 201, a voice unit 205, a biometric unit 206, and a power supply detection unit 207. The wireless communication unit 201 is used for receiving an operation instruction from the outside and outputting the operation instruction to the control unit 202 and/or transmitting cabinet operation result information output by the control unit 202 to the outside. The wireless communication unit 201 is implemented by using a communication method of transmitting data through a public network, for example, based on an implementation of a mobile network such as GPRS/3G/4G/5G, and is configured to include a GPS chip and a SIM card, so that the wireless control component 20 can identify it by allocating an IP address to it by an operator of the wireless communication unit 201 when communicating with the outside. Therefore, the wireless control assembly realizes the effects of realizing automatic connection in power-on and automatic processing of network abnormity by adopting a data communication link provided by an operator instead of broadband connection, and achieving the effect of 'using after power-on' without manually deploying and debugging the network. The voice unit 205 is configured to perform voice output according to a voice instruction of the control unit, and may be implemented as a speaker, for example, and the speaker is connected to the control unit 202 to receive the instruction of the control unit 202 for voice broadcast, so that the alarm processing is facilitated. The biometric unit 206 is configured to receive the information acquisition service instruction output by the control unit 202, start an information acquisition service according to the information acquisition service instruction of the control unit 202, output the acquired biometric information to the control unit 202, and perform identity authentication according to the acquired biometric information by the control unit 202. The information collection service instruction may be configured to be generated by the control unit 202 according to an external operation instruction received through the wireless communication unit 201. The biometric unit 206 may be implemented, for example, as a fingerprint scanner, iris scanner, or face scanner, etc., which is connected to the control unit 202. The power supply detection unit 207 is used for detecting the on-off of the municipal power supply, correspondingly outputting a high level or low level signal to the control unit 202 according to the on-off of the municipal power supply, and processing the high level or low level signal by the control unit 202 to generate corresponding power supply alarm information output (output to the outside through the wireless communication unit 201 or broadcast through the voice unit 205). Fig. 4 shows a specific connection position relationship of the power supply detection unit 207 according to an embodiment, and as shown in fig. 4, it is configured such that one end is connected between the municipal power supply and the backup power supply module, and the other end is connected to the control unit 202. The Power Supply detecting unit 207 may be implemented by a circuit, for example, as an optical coupling switch circuit, fig. 5 shows a specific implementation manner of implementing the Power Supply detecting unit 207 as the optical coupling switch circuit, as shown in fig. 5, in the circuit, the Power Supply detecting unit 207 includes an optical coupling switch 2071 and a Power Supply detection state output end 2072, one end a of the optical coupling switch 2071 is connected between a municipal Power Supply and a standby Power Supply module (for example, a UPS (universal Power System/Supply), the other end B of the optical coupling switch 2071 is grounded, and the Power Supply detection state output end 2072 is connected to the control unit 202, at this time, when the municipal Power Supply supplies Power, one end a of the optical coupling switch 2071 outputs a high level, so that the optical coupling switch 2071 is closed, and the Power Supply detection state output end 2072 outputs a high level; when the municipal power supply is powered off, one end a of the optical coupling switch 2071 outputs a low level, so that the optical coupling switch 2071 is turned off, and thus the result of the power detection state output end 2072 changes (i.e., outputs a low level), and the control unit 202 judges whether the power off occurs according to the output result of the power detection state output end 2072 of the power supply detection unit 207, and notifies the administrator or the user of the power off information through the wireless communication unit 201 or the wireless transmission unit 203 or the voice unit 205.

In the embodiment of the present invention, since the wireless control assembly 20 is disposed on one of the cabinets 1, as shown in fig. 3, a charging control unit 208 may be further disposed in the wireless control assembly 20 for receiving the charging service control command output by the control unit 202 and controlling the power supply or power off of the charging interface according to the charging service control command. Among them, the charging service control instruction may be configured to be generated by the control unit 202 according to external charging control information received through the wireless communication unit 201. Similarly, the charging control unit 208 may also be implemented by a circuit, for example, by an electronic switch circuit, that is, one end of the electronic switch is connected to the control unit 202, and the other two ends of the electronic switch are respectively connected to the commercial power supply and the charging socket, so that the charging control unit 208 can control the switching of the electronic switch according to the instruction of the control unit 202, so as to connect or disconnect the commercial power supply and the charging socket, thereby providing the charging service for the user through the cabinet body 1. In other preferred embodiments, a timing control unit (e.g., 555 timer, not shown) may be further disposed on the control unit 202 to control the electronic switch according to a time preset by the timing control unit. Therefore, the charging service can be controlled, and the purposes of serving the public, saving energy and protecting environment are achieved. In other embodiments, for example, when the wireless control module 20 is disposed in the electronic control room instead of one of the cabinets 1, the charging control unit 208 may be disposed on the wireless control module 30, and the implementation manner thereof is based on the same principle, and thus, the description thereof is omitted.

Similarly, since the wireless control module 30 and the wireless control module 20 are based on wireless communication, they may not share a power interface, and therefore, a cabinet power supply detection unit 303 may be further disposed in the wireless control module 30, and its implementation manner is the same as that of the power supply monitoring unit of the wireless control module 20, and therefore, it is not described again.

Fig. 6 shows one embodiment of communication between the wireless control component and the wireless control module in the embodiment of the present invention, as shown in fig. 6, the wireless control component 20 in this embodiment is wirelessly connected to a plurality of wireless control modules 30, and the wireless control module 30 includes a cabinet wireless transmission unit 301 and a cabinet control unit 302. The wireless transmission unit 203 and the cabinet wireless transmission unit 301 are used for wirelessly exchanging data between the wireless control assembly 20 and the wireless control module 30. The cabinet wireless transmission unit 301 is also implemented by a communication mode based on a short-distance data communication protocol, such as LoRA, NB-IOT, Zigbee, bluetooth, or the like, and performs data communication with the wireless transmission unit 203 in the wireless control assembly 20, acquires an operation instruction from the wireless control assembly 20 and outputs the operation instruction to the cabinet control unit 302, and receives cabinet state information output by the cabinet control unit 302 and sends the cabinet state information to the control unit 202 of the wireless control assembly. The cabinet control unit 302 is configured to analyze the operation instruction received by the cabinet wireless transmission unit 301, control the cabinet 1 according to the analysis result, and/or generate cabinet state information according to the control result of the cabinet 1 and output the cabinet state information to the control unit 202.

Since each wireless control assembly 20 needs to communicate with wireless control modules 30 in multiple cabinets 1, in order to ensure that operating instructions are executed correctly to effect operation of the respective cabinet, in a preferred embodiment, it is necessary to provide a means to identify the wireless control module, for example, by providing an identification unit in the wireless control assembly and/or the wireless control module. As shown in fig. 6, in this embodiment, it can be specifically implemented that the identification unit 204 is disposed in the control unit 202, and/or the cabinet identification unit 304 connected to the cabinet control unit 302 is disposed in the wireless control module 30. The cabinet control unit 302 identifies the operation command transmitted to itself according to the identification information of the cabinet identification unit 304, and/or generates the identification information in the interaction information with the wireless control component 20. The control unit 202 identifies the wireless control module 30 based on the information in the identification unit 204 and/or generates identification information in the interaction information with the outside and/or with the wireless control module 30. In this embodiment of the present invention, the identification unit 204 in the control unit 202 may be implemented as a configuration information or data storage table stored in the control unit 202, in which identification information, such as a coded address and a status, of the wireless control module 30 connected to the wireless control module 20 is stored, and when the control unit 202 sends an operation instruction to the wireless control module 30, the control unit broadcasts the operation instruction to all registered wireless control modules 30 according to the information of the wireless control modules 30 registered and stored in the identification unit 204, that is, sends the operation instruction to all registered wireless control modules 30 at the same time (that is, the registered identification information determines which cabinets are within the control range of the wireless control module). Meanwhile, the control unit 202 generates identification information such as an encoded address in the transmitted operation instruction, and transmits the operation instruction including the encoded address through the wireless transmission unit 203. The cabinet wireless transmission unit 301 of the wireless control module 30 receives the operation command in a wireless manner, and the cabinet control unit 302 parses the received operation command, for example, reads a coded address from the operation command, and identifies whether the command is for itself according to the coded address to determine whether to execute the command. For example, when the wireless control module 30 receives data or an instruction, the cabinet control unit 302 acquires identification information from a message sent by the wireless control module 20, and meanwhile, the cabinet control unit 302 also reads the identification information in the cabinet identification unit 304, compares the two, and when the identification information is consistent with the identification information, the message is considered to be sent to the user by the wireless control module 20, and then acquires specific content of the data or the instruction from the message, and performs corresponding processing, for example, acquires an unlocking or locking control signal and sends the unlocking or locking control signal to the electric lock; otherwise (i.e., when not consistent), the message is considered not to be sent to itself, and the message is ignored (i.e., the received operation instruction is not executed). The cabinet control unit 302 may further generate the identification information in the cabinet identification unit 304 in the cabinet state information sent to the wireless control assembly 20 according to the requirement, so as to actively mark itself, for example, when cabinet state information data is sent to the wireless control assembly 20, the cabinet control unit 302 reads the identification information of itself through the cabinet identification unit 304, and includes the identification information in the data to be sent, and sends the data to the wireless control assembly 20. In a preferred embodiment, the cabinet identification unit 304 may be implemented as a dial switch connected to the cabinet control unit 302, the dial switch is implemented by binary, which facilitates reading and identification of the cabinet control unit 302, and also facilitates marking of the wireless control assembly 20 according to the coded address, and the implementation cost is low. Those skilled in the art will appreciate that the number of dial switches determines the number of identifiable wireless control modules 30, and therefore, the number of dial switches can be set according to the requirement, so that the number of wireless control modules (i.e. cabinets, because each cabinet is provided with one wireless control module) matching the requirement can be connected to the same wireless control assembly 20, for example, when eight cabinets 1 need to be managed by the wireless control assembly 20, the dial switches can be set to three positions. In this way, the wireless control module 20 can communicate with a plurality of wireless control modules 30, and network and resource sharing can be achieved. Therefore, each wireless control module 30 determines the address of the wireless control module through the dial switch, and can identify the number of the address according to the indicator light by only shifting the dial switch to different positions without adjusting the IP address, the subnet mask code and the like, so that the wireless control module is reliable and convenient and has low cost. The mode that the control unit and the cabinet body control unit generate the identification information in the operation instruction can be generated in a sent message header or a sent message body according to mutually agreed protocols, and when the message is received, the message is analyzed according to the mutually agreed protocols, so that the user-defined identification can be realized, the self-defined identification is not limited by the related protocols of the internet, and the wireless communication without the network and the IP can be realized. The message is generated according to the agreed protocol, and the message is analyzed according to the agreed protocol, which can be implemented by referring to the prior art, and thus, the details are not described herein.

In the embodiment where the identification unit 204 and the cabinet identification unit 304 are simultaneously provided, an automatic connection unit (not shown) may be further provided in the control unit 202, and configured to send a heartbeat message to the wireless control module 30 stored in the identification unit 204 at regular intervals, for example, one second, wait for a heartbeat packet of the cabinet control unit 302 (where the heartbeat packet includes a coded address of a current cabinet set in the cabinet identification unit 204), and determine a connection state of each cabinet according to feedback of the cabinet control unit 302, thereby implementing an automatic connection, automatic detection, automatic discovery, and automatic reporting communication mechanism, ensuring reliability of communication between the wireless control assembly 20 and the wireless control module 30, and notifying a manager of maintenance in time when a fault occurs in a certain cabinet (i.e., when no heartbeat packet is fed back).

Similarly, it is also possible to determine whether there is a functional unit damaged by setting an automatic detection unit in the control unit 202, and to notify an administrator by voice broadcast or the like when damaged, by setting an automatic detection unit in the control unit 202, and by setting it to send an instruction and obtain its version parameter to all functional units in the wireless control module 20, such as the wireless communication unit, the wireless transmission unit, the voice unit, and the biometric unit, at fixed intervals or at each time of power-on (the parameter is set in a corresponding unit in advance, and when receiving the instruction, it is returned or read directly from a storage area of the corresponding unit by the control unit), thereby achieving automatic detection. The method can also be used for detecting whether the voltage of the charging interface is normal or not when the power-on is started, and judging the power supply condition of the charging interface.

In other embodiments, a peripheral device identification unit (not shown) may be further disposed in the wireless control module 30 for identifying a peripheral device connected to the wireless control module 30, which may be implemented in the same manner as the identification unit 204 of the wireless control module 20, for example, the peripheral device in the embodiment of the present invention is an electric lock 104, which is electrically connected to the cabinet control unit 302, so that the electric lock 104 connected to the wireless control module 30 can be identified by the peripheral device identification unit by storing a port number corresponding to each electric lock 104 and a circuit corresponding to the electric lock in the peripheral device identification unit, thereby ensuring that the unlocking or locking control signal is sent to the correct space grid.

In a preferred embodiment, the wireless transmission unit and the cabinet wireless transmission unit are implemented by a LoRA module, and the control unit and the cabinet control unit are preferably implemented by an MCU.

Fig. 7 shows a system for implementing an operation on a storage device based on wireless communication in an embodiment, as shown in fig. 7, the system includes a cloud management module 2, a mobile client 1 and the foregoing intelligent storage device based on wireless communication, where the mobile client 1 implements an operation on a storage device through interaction with the cloud management module 2. The storage device is in bidirectional wireless communication with the cloud management module 2 through the wireless control component 20, receives control information of the cloud management module 2 through the wireless control component 20 and sends device state information to the cloud management module 2, the mobile client 1 is in bidirectional communication with the cloud management module 20, sends an operation request to the cloud management module 2 according to a user request, is processed by the cloud management module 2, generates control information and sends the control information to the storage device. After the wireless control component 20 of the storage device receives the control information in a wireless manner, an operation instruction is generated according to the control information and is output to the wireless control module 30 through the wireless transmission unit. The cabinet body control unit of the wireless control module 30 analyzes the operation instruction received by the cabinet body wireless transmission unit, and performs corresponding operation on the cabinet body according to the analysis result. The cabinet body control unit analyzes the received operation instruction, for example, the method includes acquiring identification information from the operation instruction (analyzing according to an agreed message protocol), reading the identification information from the cabinet body identification unit, comparing, and if the identification information is the same as the identification information, determining that the operation instruction is sent to the cabinet body control unit. In this implementation, the wireless control module broadcasts the operation instruction to a plurality of wireless control modules within the control range based on the short-range wireless transmission protocol, and therefore, an identification unit needs to be provided in the wireless control module to mark itself. The setting of the control range may be implemented by setting an identification unit for identifying the wireless control module in the wireless control component, for example, the identification unit is set in the control unit for recording identification information of the wireless control module, and when the operation instruction is transmitted, the operation instruction is broadcasted according to the information in the identification unit (i.e., the operation instruction is simultaneously transmitted to all the wireless control modules recorded in the identification unit).

As shown in fig. 7, the cloud management module 2 may further include a charging instruction unit 22 configured to receive a charging request instruction through the mobile client 1, and generate charging control information according to the charging request instruction and output the charging control information to the wireless control component 20. Then, the wireless control component 20 generates a charging service control command according to the charging control information to control the on/off of the power supply of the charging interface (for a specific manner, refer to the foregoing description), so as to control whether to provide the charging service for the user according to the request of the user. In the embodiment that the wireless control assembly and the wireless control module of the storage device are provided with the power failure detection unit, the cloud management module 2 can further correspondingly comprise a power failure alarm unit 23 which is set to receive power alarm information of the wireless control assembly and/or the wireless control module sent by the wireless control assembly, and a power failure alarm prompt or a power failure obstacle elimination prompt is output according to the power alarm information. Therefore, the power on the wireless control assembly and the wireless control module is monitored through the cloud. The cloud management module 2, the charging instruction unit 22, the power-off alarm unit 23, and the mobile client 1 in the embodiment of the present invention may be code program modules.

Fig. 8 shows a flow of a method for operating the storage device by the system shown in fig. 7. As shown in fig. 8, the method includes:

step S601: and sending an operation request to the cloud management module through the mobile client.

The user selects a storage device to be operated through the mobile client, for example, obtains a storage device list through a wechat public number, selects a storage device to be operated from the list, and selects an operation to be performed, so as to generate an operation request to be sent to the cloud management module, where the operation to be performed may be, for example, renting, binding a storage device, and the like, and the embodiment of the present invention is not limited thereto. The content of the operation request generated varies depending on the operation, and a specific example thereof may be a storage device including an operation to be performed and a selection.

The mobile client can be a mobile phone APP, WeChat, strange and the like, and the functions of the invention can be realized by the mobile application terminal which can bind the storage device through the unique login number.

Step S602: and the cloud management module processes according to the operation request, generates control information and sends the control information to the wireless control assembly.

The cloud management module analyzes the operation to be performed and the selected storage device after receiving the operation request, and performs corresponding processing according to the operation to be performed and the selected storage device, for example, under the condition of renting, the state of the space grid is inquired according to the selected storage device, control information for renting the space or a storage password is generated, and under the condition of renting quitting, the specific information and the renting time of the rented space grid are inquired according to the selected storage device, the cost calculation and the fee deduction are performed according to the charging rule, and a pickup code is generated or renting quitting control information is generated. And then, the cloud management module sends the control information to the wireless control assembly of the storage device.

Step S603: the wireless control assembly analyzes the control information, converts the control information into an operation instruction according to an analysis result and sends the operation instruction to the wireless control module in the control range of the wireless control assembly in a wireless mode.

After the wireless control module of the storage device receives the control information, corresponding processing is carried out according to the control information, for example, under the condition of renting the control information, space grid state information is inquired, the cabinet body and the space grids are distributed, and the coded address of the wireless control module, the distributed space grid number and the command identification of the distributed space grids are generated into an operation command together according to the distribution result. And then, the wireless control module broadcasts and sends the operation instruction to the wireless control module in the control range in a wireless mode according to the identification information of the registered wireless control module in the identification unit.

Step S604: the wireless control module analyzes the operation instruction and processes according to the analysis result so as to realize the control of the corresponding cabinet body.

The wireless control module firstly analyzes identification information (namely the coding address of the wireless control module) after receiving the operation instruction, reads the own dial switch address for comparison, and if the two are consistent, carries out corresponding processing according to the instruction identification in the operation instruction, if the space is rented, generates an unlocking control signal corresponding to the space lattice according to the distributed space lattice number and the instruction identification of the distributed space lattice and outputs the unlocking control signal to the electric lock of the corresponding cabinet door so as to open the space lattice for a user to store articles.

It should be noted that, because there are many operation requests performed by the user through the mobile client, all operation processing procedures cannot be exhausted through one embodiment, the operation method of the present invention is conceived in that the user sends the operation request to the cloud management module through the mobile terminal, the cloud management module generates control information according to the operation request and sends the control information to the corresponding wireless control component through the mobile network, after the corresponding wireless control component receives the control information through the mobile network, generating an operation instruction according to the control information, wirelessly broadcasting the operation instruction to all wireless control modules in the control range through a short-distance wireless transmission protocol, analyzing the operation instruction by the wireless control modules, and when the operation instruction is the own operation instruction, and executing corresponding processing according to the instruction content of the operation instruction so as to realize the operation of a certain cabinet body. Therefore, the processing method for specific operation request based on the same concept is considered as the protection scope of the present invention. Based on the method, the object of controlling the storage device in a wireless mode is achieved, the deployment cost of the storage device is reduced, and the sharing of a network and resources is realized.

Fig. 9 shows a method flow for realizing the timing charging control of the storage device through the system shown in fig. 7. Taking the case that the wireless control assembly is disposed on one of the cabinets and the charging control unit is disposed on the wireless control assembly, as shown in fig. 9, the method includes:

step S701: and sending a charging request to the cloud management module through the mobile client.

The user selects the storage device to be charged through the mobile client, for example, a storage device list is obtained through a WeChat public number, the storage device to be charged is selected from the list, then, a charging menu is clicked, and accordingly, a charging request is generated and sent to the cloud management module.

Step S702: and the cloud management module processes according to the charging request, generates charging control information and sends the charging control information to the wireless control assembly.

The cloud management module acquires port address information of a wireless control component of a corresponding storage device from the storage module according to the storage device in the charging request (the address information can be a self-defined port code of the cloud management module and is used for identifying the wireless control component, such as the geographical position where the wireless control component is located through the port address information), generates charging control information according to the address information and the charging instruction of the wireless control component, sends the charging control information to the corresponding wireless control component through a public network (because the wireless control component and the cloud management module are communicated through a mobile network, only the interaction needs to be carried out according to an IP address provided by an operator), and a wireless communication unit of the wireless control component receives the charging control information.

Step S703: the wireless control component analyzes the charging control information and generates a charging service control instruction according to the analysis result so as to start the timing module.

The wireless control component analyzes the received charging control information, acquires the address information, judges whether the charging control information is for the wireless control component, acquires the content related to the charging instruction when the charging control information is judged to be the information for the wireless control component (or directly executes the instruction through a public network communication result, namely, does not confirm when the message is received), and generates a charging service instruction according to the content related to the charging instruction, such as charging instruction with the duration of ten minutes, so as to start the timing module.

Step S704: the timing module outputs a charging pulse with a specific time length to the charging control unit so as to be connected with the charging interface and provide charging service within the specific time length.

The timing module continuously outputs charging pulses to an electronic switch (namely, a charging control unit) within a specific time period such as ten minutes according to the charging service instruction, and controls the electronic switch to be switched so as to connect a circuit between a charging interface and a municipal power supply, thereby providing a charging function. When the timing time is up, the timing module stops outputting the charging pulse, and at the moment, the electronic switch disconnects the line between the charging interface and the municipal power supply, so that the charging service is stopped being provided. The control of the charging function is realized, one-key application charging is realized, the operation is convenient, the electricity is saved, and the cost is reduced.

After charging is finished, the wireless control component can also send a charging result message to the cloud management module, so that the cloud management module notifies the mobile client of a processing result of the charging request or performs other management processing, for example, charging and deducting based on the charging times and duration.

Fig. 10 shows a method flow for realizing the power-off alarm of the storage device through the system shown in fig. 7. Taking the case that the wireless control module and the wireless control assembly are both provided with the power-off detection unit, and the power supply of the wireless control module is powered off, as shown in fig. 10, the method includes:

step S801: when the wireless control module detects power failure, power failure alarm information is generated and sent to the wireless control assembly in a wireless mode.

The wireless control module judges whether power failure occurs or not through a level signal output by the power supply detection unit, for example, when a low level is output, the power failure occurs, namely, the standby power supply supplies power at the moment, and the wireless control module generates power failure alarm information and sends the power failure alarm information to the wireless control assembly in a wireless mode. The power-off alarm information comprises a coded address (acquired by reading a cabinet identification unit) and a power-off alarm instruction of the wireless control module. The wireless control component receives the power-off alarm information wirelessly (i.e., through its wireless transmission unit).

Step S802: the wireless control assembly analyzes the power-off alarm information, outputs a voice alarm according to an analysis result, generates a power-off notification message according to the analysis result and sends the power-off notification message to the cloud management module.

The wireless control component analyzes the power-off alarm information, acquires the coded address of the wireless control module sending the message and the instruction content of the message, and when the power-off alarm instruction is judged, firstly, the voice unit is started, for example, the voice alarm message is played through a loudspeaker, for example, "power-off is played, and people are requested to take the message as soon as possible, so as to avoid causing unnecessary troubles". Meanwhile, the wireless control module generates a power-off notification message according to the coding address of the wireless control module and the content of the message instruction, and sends the power-off notification message to the cloud management module through the wireless communication unit of the wireless control module.

Step S803: the cloud management module analyzes the power failure notification message, generates a power failure notification message according to the analysis result and outputs the power failure notification message, acquires the mobile client information according to the analysis result, generates a reminding message and sends the reminding message to the corresponding mobile client.

After receiving the power-off notification message, the cloud management module firstly analyzes the coded addresses of the wireless control assembly and the wireless control module, then acquires the specific address of the cabinet body where the wireless control module is located and the corresponding storage person information (namely the mobile client corresponding to the storage person) according to the prestored information of the storage device, then generates a power-off reminding message according to the specific geographical position information and the power-off instruction, outputs the power-off reminding message to a manager to prompt the manager to overhaul, generates a reminding message for timely taking the piece and sends the reminding message to the corresponding mobile client, and reminds the user of timely taking the piece so as to avoid trouble caused by power-off.

When the power failure fault is relieved, the wireless control module also needs to send a power failure alarm relief message to the wireless control assembly in a wireless mode, the wireless control assembly analyzes the relief message, generates a power failure relief notification message and sends the power failure relief notification message to the cloud management module, and the cloud management module timely notifies an administrator and the mobile client.

It should be understood by those skilled in the art that, since the wireless control component has different communication modes and different communication protocols from the cloud management module and the wireless control module, when receiving the control information of the cloud management module and the message of the wireless control module, the wireless control component needs to perform parsing and conversion first to apply the communication protocol corresponding to its transmission mode, so as to further send the message.

In a preferred embodiment, the wireless control assembly and the wireless control module in the embodiment of the present invention may be circuit boards, such as a control board and an I/O board, into which the above-described functional units are integrated. The circuit board with the integrated functions realizes the functions, the cost is very low, and the cost of the storage device can be greatly reduced.

What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the invention.

Claims (15)

1. The intelligent storage device based on wireless communication is characterized by comprising a wireless control assembly and at least one cabinet body arranged in the control range of the same wireless control assembly, wherein each cabinet body comprises a space grid and a wireless control module which are arranged in the cabinet body,

the wireless control assembly and the wireless control module can perform bidirectional wireless communication, and the wireless control assembly interacts with the wireless control module to realize the operation of each cabinet body in a control range.

2. The intelligent storage device according to claim 1, wherein an electric lock is installed on a cabinet door of the space grid, and the wireless control module is connected with the electric lock, wherein,

the wireless control module analyzes the operation instruction sent by the wireless control module to generate a control signal, and the control signal is output to the corresponding electric lock to control the cabinet door to be in an unlocking state or a locking state.

3. The device of claim 1 or 2, wherein the wireless control assembly comprises a wireless transmission unit and a control unit, the wireless control module comprises a cabinet wireless transmission unit and a cabinet control unit, wherein,

the control unit is used for carrying out data processing according to external operation, generating a corresponding operation instruction and outputting the operation instruction to the cabinet body control unit, and/or carrying out data processing according to information output by the cabinet body control unit and generating cabinet body operation result information and outputting the cabinet body operation result information;

the wireless transmission unit and the cabinet body wireless transmission unit are used for realizing information interaction between the wireless control assembly and the wireless control module in a wireless mode;

the cabinet body control unit is used for analyzing the operation instruction received by the cabinet body wireless transmission unit, controlling the cabinet body according to the analysis result, and/or generating cabinet body state information according to the control result of the cabinet body and outputting the cabinet body state information to the control unit.

4. The device according to claim 3, wherein the control unit comprises an identification unit for registering the cabinet within the control range, the wireless control module comprises a cabinet identification unit connected with the cabinet control unit and used for identifying the located cabinet,

the cabinet body control unit is configured to identify an operation instruction transmitted to the cabinet body control unit according to the identification information of the cabinet body identification unit, process the instruction according to an identification result, and/or generate and output the identification information in the interaction information with the wireless control assembly;

the control unit is configured to send an operation instruction to the wireless control module in the cabinet body within the control range according to the information in the identification unit, and/or generate and output identification information in interaction information with the outside and/or the wireless control module.

5. The apparatus of claim 3 or 4, wherein the wireless control component further comprises a wireless communication unit for enabling wireless two-way communication between the wireless control component and the outside.

6. The device of claim 5, wherein the wireless control assembly further comprises a power supply detection unit connected with the control unit and configured to detect the on/off of the municipal power supply and output different level signals to the control unit according to the on/off of the municipal power supply;

the control unit is configured to process according to the level signal output by the power supply detection unit and generate corresponding power supply alarm information to be output.

7. The device of claim 6, wherein the wireless control assembly further comprises a charging service unit connected to the control unit, and configured to receive a charging service control command output by the control unit, and control the charging interface to supply or disconnect power according to the charging service control command;

wherein the charging service control instruction is generated by the control unit according to the charging control information received by the control unit.

8. The device of claim 7, wherein the wireless control assembly further comprises a biometric unit coupled to the control unit and configured to receive the information-gathering service command from the control unit, initiate an information-gathering service based on the information-gathering service command from the control unit, and output the acquired biometric information to the control unit;

the control unit is configured to generate an information acquisition service instruction according to a received external operation instruction, output the information acquisition service instruction to the biological identification unit, perform identity authentication according to the acquired biological characteristic information, generate a corresponding control instruction according to an authentication result and send the control instruction to the wireless control module.

9. The device of claim 8, wherein the wireless control assembly further comprises a voice unit coupled to the control unit and configured to provide voice output based on voice commands from the control unit.

10. The system for operating the storage device of any one of claims 1 to 9 based on wireless communication comprises a cloud management module, a mobile client and the storage device, wherein the mobile client realizes the operation of the storage device through interaction with the cloud management module; wherein,

the storage device can be in bidirectional wireless communication with the cloud management module, receives control information of the cloud management module through the wireless control assembly and sends device state information to the cloud management module,

and the wireless control assembly interacts with the wireless control modules in the cabinets through wireless communication according to the control information, so that the corresponding cabinets can be operated.

11. The system of claim 10, wherein the cloud management module comprises a charging command unit configured to receive a charging request via the mobile client, and generate charging control information according to the charging request and output the charging control information to the wireless control component;

and the wireless control component controls the charging interface to supply power or cut off power according to the charging control information.

12. The system according to claim 10 or 11, wherein the cloud management module further comprises a power-off alarm unit configured to receive power alarm information sent by the wireless control component, and output a power-off alarm prompt or a prompt that a power-off obstacle has been eliminated according to the power alarm information.

13. Method of operating a storage device, implemented by a system according to any one of claims 10 to 12, comprising:

sending an operation request to a cloud management module through a mobile client;

the cloud management module generates control information according to the operation request and sends the control information to the storage device;

the storage device receives control information through the wireless control assembly of the storage device, and the wireless control assembly generates an operation instruction according to the control information;

the wireless control assembly distributes an operation instruction to a wireless control module on the cabinet body within the control range of the wireless control assembly in a wireless mode;

the wireless control module receives and analyzes the operation instruction in a wireless mode, and performs instruction processing according to an analysis result so as to realize the operation on the corresponding cabinet body.

14. The method of claim 13, wherein when the operation request sent by the mobile client is a charging request, the operation method comprises:

the cloud management module generates charging control information according to the charging request and sends the charging control information to the storage device;

the storage device receives charging control information through the wireless control assembly, and the wireless control assembly generates a charging service control command according to the charging control information and outputs the charging service control command to control the on-off of the charging interface.

15. The method of claim 13 or 14, wherein the method of operation further comprises the process of power monitoring of the power source by the wireless control component or/and the wireless control module of the storage device, wherein,

when the wireless control module detects that power failure occurs or power is supplied again after power failure occurs, the following steps are carried out:

the wireless control module generates power-off alarm information or alarm release information according to the detection result and sends the power-off alarm information or the alarm release information to the wireless control assembly;

the wireless control component carries out voice prompt according to the power failure alarm information or the alarm release information sent by the wireless control module and sends the power failure alarm information or the alarm release information to the cloud management module;

the cloud management module generates a reminding message according to the power failure alarm information or the alarm release information, outputs the reminding message, displays the reminding message and sends the reminding message to the corresponding mobile client;

when the wireless control component detects that power failure occurs or power is supplied again after power failure occurs, the following steps are carried out:

the wireless control component carries out voice prompt according to the detection result, generates power-off alarm information or alarm release information and sends the power-off alarm information or the alarm release information to the cloud management module;

and the cloud management module generates a reminding message according to the power failure alarm information or the alarm release information, outputs and displays the reminding message and sends the reminding message to the corresponding mobile client.