CN209980335U - Lock management cabinet - Google Patents

Abstract

The application relates to a lock management cabinet. The lockset management cabinet is in communication connection with the server and the intelligent lockset. The intelligent lockset records operation information. The tool to lock management cabinet is used for taking notes access information to gather the inside operation information of intelligent tool to lock. The lock management cabinet transmits the operation tasks and the access information to the intelligent lock. The lock management cabinet also transmits the operation information and the storage information to the server. From this, the tool to lock management cabinet realizes data exchange and the data sharing of server and intelligent tool to lock. In the whole process from task release to task end, the lock management cabinet realizes automatic data recording and storage of access information and operation information of the intelligent lock. The operating personnel can trace back intelligent tool to lock state and the task condition of progress according to the data of storing in the tool to lock management cabinet, ensures to overhaul the operation normal clear. The intelligent lockset is in information communication with the lockset management cabinet, and can store operation tasks and pick-and-place information, so that operators can conveniently check the related information of the intelligent lockset.

Description

Lock management cabinet

Technical Field

The application relates to a tool to lock technical field especially relates to a tool to lock management cabinet.

Background

During the maintenance operation of power grid, petrochemical industry and rail transit, some temporary locks are often needed to lock the relevant devices, such as valves, switches and network doors, which are in operation. Install interim tool to lock additional and can avoid the mistake to touch, cause danger, and then protection operation personnel and equipment.

The prior art and the traditional method mainly adopt a common mechanical lock to lock. The operator uses corresponding equipment of interim tool to lock shutting and hangs the sign warning before operating, avoids taking place the mistake at the maintenance in-process and touches and lead to the personal injury. After the maintenance operation is completed, the operator removes the warning board, takes down the temporary lockset and returns the temporary lockset. After the temporary locks are returned to the warehouse, the temporary locks are easy to lose due to messy stacking.

In the maintenance operation, the temporary lockset is used and returned without an automatic data recording mechanism, and only through manual registration management, the temporary lockset is easy to lose or leave behind on an operation site, the normal operation of field equipment (a valve, a switch, a network door and the like) is influenced, and a technical means for realizing the access record tracing of the lockset is lacked.

Meanwhile, the temporary lock cannot be associated with the operation task in the maintenance operation, and whether the corresponding operation task is executed or not cannot be judged through taking and storing information of the temporary lock, so that the normal execution of the maintenance operation cannot be ensured.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a tool to lock management cabinet to the technical problem that interim tool to lock exists among the current maintenance operation.

A lock management cabinet is in communication connection with a server and receives operation tasks created and issued by the server. The tool to lock management cabinet still is used for accomodating intelligent tool to lock. The lockset management cabinet comprises a detection module, a first communication module and a first control module. The detection module is electrically connected with the intelligent lock, and the first control module is in communication connection with the intelligent lock through the first communication module.

When the intelligent lock is taken from the lock management cabinet, the detection signal of the detection module changes. The first control module generates taking information of the intelligent lock corresponding to the operation task, and the operation task is sent to the intelligent lock to be stored through the first communication module.

When the intelligent lock is stored on the lock management cabinet, the detection signal of the detection module changes. The first control module starts the first communication module, identifies the identity information of the intelligent lock, generates storage information of the intelligent lock corresponding to the operation task, and collects operation information of the intelligent lock.

In one embodiment, the detection module is a power supply module, the power supply module includes a detection loop and a power supply interface, and the power supply interface can be electrically connected with the intelligent lock.

In one embodiment, the power supply module is a wireless power supply module, the first communication module is a wireless communication module, and the lock management cabinet is in communication connection with the intelligent lock in a wireless mode.

In one embodiment, the power supply interface of the wireless power supply module is provided with an electromagnetic induction coil, and/or the wireless communication module comprises an infrared transceiving component or a radio frequency communication component.

In one embodiment, the lock management cabinet is provided with a plurality of lock grooves for accommodating the intelligent locks, and the detection module and the first communication module are arranged in the lock grooves.

In one embodiment, the detection module and the first communication module are arranged at the bottom of the lock groove and can be matched with a computer key interface of the intelligent lock.

In one embodiment, the lock groove is further provided with a locking mechanism for locking the intelligent lock and/or a clamping mechanism for fixing the intelligent lock.

In one embodiment, the latching mechanism includes a slider structure, a snap structure, or a door closure structure.

In one embodiment, the lock groove shape is adapted to the intelligent lock shape.

In one embodiment, the lock management cabinet further comprises an elastic element, and the elastic element is arranged in the lock groove and used for pushing the intelligent lock to pop out.

The utility model provides a tool to lock management cabinet, with the server with communication connection between the intelligent tool to lock. The server is used for creating and releasing operation tasks and distributing the corresponding intelligent locks for the operation tasks. The intelligent lock is used for recording the operation information. The lockset management cabinet is used for recording the access information and collecting the operation information inside the intelligent lockset. And the lock management cabinet transmits the operation task and the access information to the intelligent lock. The lock management cabinet also transmits the operation information and the storage information to the server. Therefore, the lock management cabinet realizes data exchange and data sharing of the server and the intelligent lock. In the whole process from task release to task end, the lock management cabinet realizes automatic data recording and storage of access information and operation information of the intelligent lock. And an operator can trace the state of the intelligent lock and the task progress condition according to the stored data in the lock management cabinet, so that the normal execution of maintenance operation is ensured. The intelligent lock and the lock management cabinet are in information communication and can store the operation tasks and the pick-and-place information, so that operators can check the related information of the intelligent lock conveniently.

Drawings

FIG. 1 is an electrical schematic diagram of the lock management cabinet provided in one embodiment of the present application;

FIG. 2 is a schematic view of the lock management cabinet provided in an embodiment of the present application;

fig. 3 is a schematic cross-sectional view of the intelligent lock cabinet provided in an embodiment of the present application;

FIG. 4 is an electrical schematic diagram of the intelligent lock management system provided in one embodiment of the present application;

FIG. 5 is a management flow diagram of the intelligent lock management system provided in an embodiment of the present application;

fig. 6 is a management flowchart of the intelligent lock management system provided in another embodiment of the present application.

Reference numerals:

intelligent lock management system 10

Server 20

Lock management cabinet 30

First control Module 310

Detection module 320

Detection circuit 321

Power supply interface 322

First communication module 330

Lockset slot 340

First memory module 350

Intelligent lockset 40

Second control Module 410

Second memory module 420

Power supply module 430

Second communication module 440

Computer key interface 450

Computer key 50

Latching mechanism 60

Occlusion device 70

Elastic element 700

Detailed Description

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, embodiments accompanying the present application are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. This application is capable of embodiments in many different forms than those described herein and those skilled in the art will be able to make similar modifications without departing from the spirit of the application and it is therefore not intended to be limited to the embodiments disclosed below.

Referring to fig. 1, an embodiment of the present application provides a lock management cabinet 10, configured to be communicatively connected to a server 20, and receive an operation task created and issued by the server 20. The lock management cabinet 30 is also used for accommodating an intelligent lock 40. The lockset management cabinet 30 includes a detection module 320, a first communication module 330, and a first control module 310. The detection module 320 is electrically connected to the intelligent lock 40, and the first control module 310 is in communication connection with the intelligent lock 40 through the first communication module 330.

When the intelligent lock 40 is taken from the lock management cabinet 30, the detection signal of the detection module 320 changes, the first control module 310 generates the taking information of the intelligent lock 40 corresponding to the operation task, and sends the operation task to the intelligent lock 40 for storage through the first communication module 330.

When the intelligent lock 40 is stored in the lock management cabinet 30, the detection signal of the detection module 320 changes, the first control module 310 starts the first communication module 330 to identify the identity information of the intelligent lock 40, generate the storage information of the intelligent lock 40 corresponding to the operation task, and collect the operation information of the intelligent lock 40.

The lock management cabinet 30 provided by the embodiment of the application is in communication connection with the server 20 and the intelligent lock 40. The server 20 is configured to create and issue an operation task, and assign the corresponding intelligent lock 40 to the operation task. The intelligent lock 40 is used for recording the operation information. The lock management cabinet 30 is used for recording the access information and collecting the operation information inside the intelligent lock 40. The lock management cabinet 30 transmits the operation task and the access information to the intelligent lock 40. The lock management cabinet 30 also transmits the operation information and the storage information to the server 20. Thus, the lock management cabinet 30 realizes data exchange and data sharing between the server 20 and the intelligent lock 40. In the whole process from task release to task end, the lock management cabinet 30 realizes automatic data recording and storage of access information and operation information of the intelligent lock 40. The operator can trace the state of the intelligent lock 40 and the progress of the task according to the stored data in the lock management cabinet 30, so that normal execution of maintenance operation is ensured. The intelligent lock 40 is in information communication with the lock management cabinet 30, and can store the operation task and the pick-and-place information, so that operators can conveniently check the related information of the intelligent lock 40.

The lock management cabinet 30 accommodates a plurality of the intelligent locks 40. The lock management cabinet 30 is in communication connection with the server 20 and the intelligent lock 40. The lock management cabinet 30 is used for recording and storing the access information of the intelligent lock 40. The intelligent lock 40 is used for recording the operation information. The lock management cabinet 30 is in communication connection with the server 20 and the intelligent lock 40, so that the lock management cabinet 30 and the server 20 and the intelligent lock 40 both store the access information and the operation information of the intelligent lock 40.

The detection module 320 is electrically connected to the intelligent lock 40, and is configured to detect whether the intelligent lock 40 is taken out of or put into the lock management cabinet 30.

In one embodiment, the intelligent lock 40 takes out the lock management cabinet 30, and the detection module 320 changes from high level to low level. The first control module 310 can record the removal of the intelligent lock 40 according to the signal change of the detection module 320. The first control module 310 is in communication connection with the intelligent lock 40 through the first communication module 330. The first control module 310 sends the operation task to the intelligent lock 40.

In one embodiment, the intelligent lock 40 is placed in the lock management cabinet 30, and the detection module 320 changes from low level to high level. The first control module 310 can record the replacement of the intelligent lock 40 according to the signal change of the detection module 320. The first control module 310 is in communication connection with the intelligent lock 40 through the first communication module 330. The first control module 310 collects the operation information inside the intelligent lock 40.

In one embodiment, the lock management cabinet 30 further includes a first storage module 350. The first memory module 350 is electrically connected to the first control module 310. The first storage module 350 is configured to store the operation task and the pick-and-place information and the operation information of the intelligent lock 40.

In one embodiment, the detection module 320 is a power supply module, the power supply module includes a detection circuit 321 and a power supply interface 322, and the power supply interface 322 can be electrically connected to the intelligent lock 40.

When the intelligent lock 40 is put back to the lock management cabinet 30, the power supply interface 322 is connected to the power interface of the intelligent lock 40. The detection module 320 can conduct electricity to the smart lock 40.

In one embodiment, the power interface 322 is electrically connected to the detection circuit 321. When the power supply interface 322 is turned on or off, the detection signal of the detection circuit 321 changes. The detection signal of the detection module 320 changes, and the first control module 310 records the pick-and-place action of the intelligent lock 40. Compared with a mechanical detection means, the intelligent lock 40 is taken and placed through on-off judgment and recording of the electric signals, the electric signals are more sensitive, and the detection is more accurate.

In one embodiment, the power supply module is a wireless power supply module, the first communication module 330 is a wireless communication module, and the lock management cabinet 30 is in communication connection with the intelligent lock 40 in a wireless manner. The intelligent lock 40 is a movable tool. The wireless communication mode can reduce the connection of electric wires, is convenient for snatch and weight reduction.

In one embodiment, the power interface 322 of the wireless power module is provided with an electromagnetic induction coil, and/or the wireless communication module comprises an infrared transceiver component or a radio frequency communication component.

Referring to fig. 2, in an embodiment, the lock management cabinet 30 is provided with a plurality of lock slots 340 for accommodating the intelligent locks 40, and the detection module 320 and the first communication module 330 are disposed in the lock slots 340.

The lock management cabinet 30 may be made of metal, plastic, wood, or the like. The lock management cabinet 30 may be a rectangular parallelepiped, a cube, or a cylinder. The cabinet 20 includes a plurality of the lock grooves 210. The lock groove 210 may be a groove dug, a compartment divided by a plate, or a small cabinet. The plurality of lock grooves 210 are used for accommodating the intelligent lock 40, so that the intelligent lock 40 is prevented from being stacked randomly, and the possibility of losing the intelligent lock 40 is reduced. The arrangement of the plurality of lock grooves 210 in the cabinet 20 is not limited, and may be an array type or a non-array type.

The plurality of lock slots 210 are sized to receive the smart locks 40. The plurality of lock grooves 210 may be the same size or different sizes. In one embodiment, the plurality of lock grooves 210 are arranged in a rectangular array, and the plurality of lock grooves 210 are equal in size. The plurality of lock grooves 210 may be identical in shape or different in shape. In one embodiment, the plurality of lock grooves 210 are identical in shape and rectangular, so that the volume of the cabinet 20 is reasonably utilized.

In one embodiment, the shape of the lock groove 340 is matched with the shape of the intelligent lock 40, so that the intelligent lock is convenient to take and place and saves space.

Referring to fig. 3, in one embodiment, the detecting module 320 and the first communication module 330 are disposed at the bottom of the lock slot 340 and can be adapted to a computer key interface 450 of the smart lock 40. The computer key interface 450 of the intelligent lock 40 is used for wireless charging with the power supply interface 322. The computer key interface 450 is also used to mate with the computer key.

Referring to fig. 4, in one embodiment, the lock groove 340 is further provided with a locking mechanism 60 for locking the intelligent lock 40 and/or a clamping mechanism for fixing the intelligent lock 40.

In one embodiment, the locking mechanism 60 is electrically connected to the first control module 310 for limiting the access position of the intelligent lock 40, and the first control module 310 controls the locking mechanism 60 to open or close according to the external command. The lock management cabinet 30 controls the opening and closing of the lock groove 340 through the locking mechanism 60, so as to limit the access position of the intelligent lock 40. When the first control module 310 receives an external command, it controls the switch of the locking mechanism 60, so that the intelligent lock 40 can be sprung freely. The external command includes a command issued by the server 20 and an external reception command.

The locking mechanism 60 includes a slider structure, a snap structure, or a door closing structure. In one embodiment, the latching mechanism 60 is a slider structure. The slider is slidable. The lock management cabinet 30 is provided with a groove matched with the sliding block on the body. When the slider is engaged with the groove, the smart lock 40 is fixed to the lock groove 340. When the sliding block is separated from the groove, the intelligent lock 40 can move freely.

In one embodiment, the lock management cabinet 30 further includes a blocking device 70. The blocking device 70 is disposed in the lock groove 340, and is used for blocking an opening of the lock groove 340. The blocking device 70 can prevent dust from falling into the lock groove 340, and can reduce the possibility of electric shock.

In one embodiment, the lock management cabinet 30 further includes a resilient member 700. The elastic element 700 is disposed in the lock groove 340, and is used for pushing the intelligent lock 40 to pop out.

One end of the elastic element 700 abuts against the bottom of the lock groove 340, and the other end extends towards the opening of the lock groove 340.

If the intelligent lock 40 is placed in the lock groove 340, the intelligent lock 40 pushes the elastic element 700 to compress. The intelligent lock 40 is completely received in the lock groove 340, and the locking mechanism 60 is locked. The intelligent lock 40 cannot be taken at will.

According to the operation task, the locking mechanism 60 corresponding to the operation task is unlocked, the elastic element 700 rebounds and pushes the intelligent lock 40 to partially eject out of the lock groove 340.

In one embodiment, if the intelligent lock 40 is placed in the lock groove 340, the intelligent lock 40 pushes the blocking device 70 to press the elastic element 700. If the intelligent lock 40 is taken out of the lock groove 340, the elastic element 700 rebounds and pushes the intelligent lock 40 to partially eject out of the lock groove 340.

The embodiment of the present application provides an intelligent lock management system 10, which includes a server 20, a lock management cabinet 30 and an intelligent lock 40.

The server 20 is in communication connection with the lock management cabinet 30, and is configured to create and issue an operation task, and assign the corresponding intelligent lock 40 to the operation task. The server 20 is further configured to collect access information generated by the intelligent lock 40 on the lock management cabinet 30, and collect operation information generated by the intelligent lock 40 in the process of executing the operation task.

A plurality of intelligent tool to lock 40 is deposited in tool to lock management cabinet 30, tool to lock management cabinet 30 includes first control module 310, detection module 320 and first communication module 330, detection module 320 can with intelligent tool to lock 40 electrical connection, first control module 310 pass through first communication module 330 can with intelligent tool to lock 40 communication connection.

When the intelligent lock 40 is taken from the lock management cabinet 30, the detection signal of the detection module 320 changes, the first control module 310 generates the taking information of the intelligent lock 40 corresponding to the operation task, and sends the operation task to the intelligent lock 40 for storage through the first communication module 330.

When the intelligent lock 40 is stored in the lock management cabinet 30, the detection signal of the detection module 320 changes, the first control module 310 starts the first communication module 330 to identify the identity information of the intelligent lock 40, generate the storage information of the intelligent lock 40 corresponding to the operation task, and collect the operation information of the intelligent lock 40.

In the intelligent lock management system 10 provided by the embodiment of the present application, the server 20, the lock management cabinet 30 and the intelligent lock 40 are in communication connection. The server 20 is configured to create and issue an operation task, and assign the corresponding intelligent lock 40 to the operation task. The intelligent lock 40 is used for recording the operation information. The lock management cabinet 30 is used for recording the access information and collecting the operation information inside the intelligent lock 40. The lock management cabinet 30 transmits the operation task and the access information to the intelligent lock 40. The lock management cabinet 30 also transmits the operation information and the storage information to the server 20. Thus, the intelligent lock management system 10 realizes data exchange and data sharing among the server 20, the lock management cabinet 30 and the intelligent lock 40. In the whole process from task release to task end, the intelligent lock management system 10 realizes automatic data recording and storage of access information and operation information of the intelligent lock 40. An operator can trace the state of the intelligent lock 40 and the task progress according to the stored data in the intelligent lock management system 10, so that normal execution of maintenance operation is ensured.

The communication connection between the server 20 and the lock management cabinet 30 may be wired communication or wireless communication.

In one embodiment, the server 20 is in communication connection with the lock management cabinet 30 in a wired or wireless manner, and collects the access information and the operation information of the intelligent lock 40 corresponding to the operation task in the lock management cabinet 30.

In one embodiment, the server 20 includes a wireless communication module. The wireless communication module is used for transmitting the operation task information to the lock management cabinet 30 and receiving the access information generated by the intelligent lock 40 on the lock management cabinet 30. The wireless communication module is further configured to receive the operation information generated by the intelligent lock 40 during the process of executing the operation task.

In one embodiment, the server 20 further includes a human-machine interaction interface, and the human-machine interaction interface is configured to receive the external command and create and issue the operation task according to the external command.

In one embodiment, the intelligent lock 40 includes a second control module 410, and a second storage module 420, a power module 430 and a second communication module 440 respectively connected thereto, wherein the second storage module 420 can record all the job information generated by the intelligent lock 40 during the operation task.

Referring to fig. 5, an embodiment of the present application provides an intelligent lock management method, including:

s10, the server 20 creates and issues an operation task, and assigns a corresponding intelligent lock 40 to the operation task.

S20, the intelligent lock 40 is taken from the lock management cabinet 30, the detection signal of the first detection module 320 changes, the first control module 310 generates the taking information of the intelligent lock 40 corresponding to the operation task, and the operation task is sent to the intelligent lock 40 through the first communication module 330 for storage.

S30, in the process of executing the operation task, the intelligent lock 40 generates and stores the operation information corresponding to the operation task.

S40, the intelligent lock 40 is stored in the lock management cabinet 30, the detection signal of the first detection module 320 changes, the first control module 310 starts the first communication module 330, identifies the identity information of the intelligent lock 40, generates the storage information of the intelligent lock 40 corresponding to the operation task, and collects the operation information of the intelligent lock 40.

S50, the server 20 collects, through the lock management cabinet 30, access information generated by the intelligent lock 40 on the lock management cabinet 30, and the operation information generated by the intelligent lock 40 in the process of executing the operation task.

In the intelligent lock management system 10 provided by the embodiment of the present application, the server 20, the lock management cabinet 30 and the intelligent lock 40 are in communication connection. The server 20 creates and issues an operation task, and allocates the corresponding intelligent lock 40 to the operation task. The intelligent lock 40 records the operation information. The lock management cabinet 30 records the access information and collects the operation information inside the intelligent lock 40. The lock management cabinet 30 transmits the operation task and the access information to the intelligent lock 40. The lock management cabinet 30 also transmits the operation information and the storage information to the server 20. Thus, the intelligent lock management system 10 realizes data exchange and data sharing among the server 20, the lock management cabinet 30 and the intelligent lock 40. In the whole process from task release to task end, the intelligent lock management system 10 realizes automatic data recording and storage of access information and operation information of the intelligent lock 40. An operator can trace the state of the intelligent lock 40 and the task progress according to the stored data in the intelligent lock management system 10, so that normal execution of maintenance operation is ensured.

Referring to fig. 6, in one embodiment, in the step 30, the operation information includes a record of reading, writing, unlocking and/or locking operations generated when the computer key 50 is inserted into the smart lock 40, where the reading operation refers to reading the operation task being executed by the smart lock 40 by the computer key 50, and the writing operation refers to writing a new operation task to the smart lock 40 by the computer key 50.

When the operation task is executed, the intelligent lock 40 is hung on the site. The computer key 50 is matched with the intelligent lock 40 to complete reading, writing, unlocking and/or locking operations. The computer key 50 can perform writing and unlocking operations according to authorization, so as to ensure that the stored information in the intelligent lock 40 can be changed at any time when a task is changed. The computer key 50 may also be in communication with the lock management cabinet 30 and the server 20.

In one embodiment, in the step S50, the server 20 determines whether the operation task is completed according to the access information of the intelligent lock 40 corresponding to the operation task.

In one embodiment, after a predetermined operation time, if the storage information of the intelligent lock 40 is lost, the server 20 determines that the corresponding operation task is not completed, and sends an alarm message.

The operation task needs to be completed within a set task time. Normally, the intelligent lock 40 will also be returned to the lock management cabinet 30 within a specified time frame. When the specified period is reached, if the intelligent lock 40 is not returned, no return record is recorded in the lock management cabinet 30. And the server 20 judges that the corresponding operation task is not executed completely and sends alarm information. Through alarm information, an operator can know that the intelligent lock 40 corresponding to the operation task is not completely returned, so that the intelligent lock is convenient to find in time, and loss is reduced.

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

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

Claims (10)

1. A lock management cabinet for communicatively connecting with a server (20) and receiving an operation task of the server (20) to create a publication, the lock management cabinet (30) further being configured to receive an intelligent lock (40), the lock management cabinet (30) comprising: the device comprises a detection module (320), a first communication module (330) and a first control module (310);

the detection module (320) is electrically connected with the intelligent lock (40), and the first control module (310) is in communication connection with the intelligent lock (40) through the first communication module (330);

when the intelligent lock (40) is taken out from the lock management cabinet (30), the detection signal of the detection module (320) changes, the first control module (310) generates taking information of the intelligent lock (40) corresponding to the operation task, and the operation task is sent to the intelligent lock (40) through the first communication module (330) for storage;

when depositing on tool to lock management cabinet (30) intelligent tool to lock (40), the detection signal of detection module (320) changes, first control module (310) starts first communication module (330), discerns the identity information of intelligent tool to lock (40), generate with the operation task corresponds deposit information of intelligent tool to lock (40), and gather this the operation information of intelligent tool to lock (40).

2. The lock management cabinet according to claim 1, wherein the detection module (320) is a power supply module, the power supply module comprises a detection circuit (321) and a power supply interface (322), and the power supply interface (322) is electrically connectable to the intelligent lock (40).

3. The lock management cabinet according to claim 2, wherein the power supply module is a wireless power supply module, the first communication module (330) is a wireless communication module, and the lock management cabinet (30) is in communication connection with the intelligent lock (40) in a wireless manner.

4. The lock management cabinet according to claim 3, wherein the power supply interface (322) of the wireless power supply module is provided with an electromagnetic induction coil, and/or the wireless communication module comprises an infrared transceiver component or a radio frequency communication component.

5. The lock management cabinet according to any one of claims 1 to 4, wherein the lock management cabinet (30) is provided with a plurality of lock grooves (340) for accommodating the intelligent locks (40), and the detection module (320) and the first communication module (330) are arranged in the lock grooves (340).

6. The lock management cabinet according to claim 5, wherein the detection module (320) and the first communication module (330) are disposed at the bottom of the lock slot (340) and are adapted to a computer key interface (450) of the smart lock (40).

7. The lock management cabinet according to claim 5, wherein the lock groove (340) is further provided with a locking mechanism (60) for locking the intelligent lock (40) and/or a clamping mechanism for fixing the intelligent lock (40).

8. The lock management cabinet according to claim 7, wherein the locking mechanism (60) comprises a slider structure, a snap structure, or a door closure structure.

9. The lock management cabinet according to claim 5, wherein the lock groove (340) is shaped to fit the intelligent lock (40).

10. The lock management cabinet according to claim 5, wherein the lock management cabinet (30) further comprises a resilient element (700), the resilient element (700) is disposed in the lock slot (340) for urging the intelligent lock (40) to eject.

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