Equipment cabinet with label reader writer

By introducing RFID tag technology and tag readers into the equipment cabinet, the problem of manual recording errors in the existing equipment cabinet management model has been solved, realizing automatic identification and access control, improving equipment storage and retrieval efficiency and management intelligence.

CN224328434UActive Publication Date: 2026-06-05SENKEN GRP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SENKEN GRP CO LTD
Filing Date
2025-05-20
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing equipment cabinets rely on manual records, which are prone to omissions and misplacement, making it difficult to meet the complex management needs of equipment in and out of the warehouse and allocation, and the management model is difficult to achieve informatization and intelligentization.

Method used

By using RFID tag technology and installing tag readers and sensing components in the equipment cabinet, non-contact automatic identification and hierarchical access control are achieved. Combined with electromagnetic locks, automatic inventory counting and stock management are realized.

Benefits of technology

It improves equipment storage and retrieval efficiency, reduces labor costs, achieves precise and efficient equipment management, supports automatic inventory and inventory early warning, and enhances the level of intelligent management.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The utility model provides a kind of equipment cabinet with label reader-writer, including cabinet, the cabinet includes several storage compartments and swing cabinet door, the cabinet door can swing to form or remove the covering of storage compartment, including first sensing component and second sensing component, the first sensing component includes inductor and electromagnetic lock, the second sensing component includes reader-writer, the inductor is arranged on cabinet door and is connected between signal with electromagnetic lock, the electromagnetic lock is used to form or remove the locking between cabinet door, the reader-writer is arranged in storage compartment, and reader-writer is used to form radio signal connection with RFID label. In view of the deficiency of prior art, the utility model provides a kind of equipment cabinet with label reader-writer using RFID label technology, it is convenient to manage.
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Description

Technical Field

[0001] This utility model relates to the field of equipment cabinets, and in particular to an equipment cabinet with a tag reader / writer. Background Technology

[0002] Equipment cabinets are specialized cabinets used for storing and managing various types of equipment. They are widely used in industrial, public safety, and medical fields. Taking police equipment management as an example, with the continuous development of modern police support models and the continuous improvement of the full life-cycle management mechanism for police equipment, the importance of police equipment is becoming increasingly prominent. Police equipment is diverse, and existing preparation cabinets, made of materials such as metal or engineering plastics, possess a certain strength and durability. They also feature layered, drawer-type, or partition-type designs for classified storage, and are equipped with locks to enhance security. However, existing technologies mainly rely on manual recording of equipment information, which can easily lead to omissions and misplacement. The centralized, systematic, and specialized requirements of traditional management models are difficult to effectively meet these complex situations. The demand for equipment warehousing, allocation, and dedicated personnel management has increased dramatically, making the need for information-based equipment management extremely urgent. Utility Model Content

[0003] To address the shortcomings of existing technologies, this utility model provides an equipment cabinet with a tag reader / writer that utilizes RFID tag technology for convenient management.

[0004] To achieve the above objectives, this utility model provides an equipment cabinet with a tag reader, comprising a cabinet body, the cabinet body including several storage compartments and a swinging cabinet door, the cabinet door being able to swing to form or release the cover of the storage compartments, including a first sensing component and a second sensing component, the first sensing component including a sensor and an electromagnetic lock, the second sensing component including a reader, the sensor being disposed on the cabinet door and signal-connected to the electromagnetic lock, the electromagnetic lock being used to form or release the lock between itself and the cabinet door, the reader being disposed in the storage compartment, and the reader being used to form a radio signal connection with RFID tags.

[0005] The advantages of adopting the above technical solution are as follows: By setting several storage compartments and swing doors on the cabinet, and by setting a first sensing component and a second sensing component, the first sensing component is equipped with a sensor and an electromagnetic lock. The sensor is placed on the cabinet door and connected to the electromagnetic lock via a signal. Through the linkage between the electromagnetic lock and the sensor, hierarchical access control is achieved, ensuring equipment security. The second sensing component is equipped with a reader / writer for forming a radio signal connection with RFID tags. It can utilize RFID tag technology to achieve non-contact automatic identification, quickly read equipment information in the storage compartments in batches, avoid human operation errors, and the data collected by the reader / writer in real time can be seamlessly integrated with the management system, supporting functions such as automatic inventory, inventory warning, and operation traceability. This greatly improves the efficiency of equipment storage and retrieval and the level of intelligent management, reduces labor costs, and provides a precise, efficient, and convenient solution for asset management.

[0006] The present invention can be further configured such that: the first sensing component includes a connecting line, an intermediate partition is formed between adjacent storage compartments, the electromagnetic lock is disposed on the side wall of the intermediate partition corresponding to the storage compartment, and the two ends of the connecting line extend to the sensor and the intermediate partition, respectively.

[0007] By further designing the system, intermediate partitions are installed between adjacent storage compartments, and electromagnetic locks are placed on the side walls of the corresponding intermediate partitions. These locks are connected to sensors via connecting cables. The intermediate partitions allow for convenient placement of core control components such as the main unit and power modules. This achieves centralized and concealed wiring, preventing clutter from affecting the cabinet's aesthetics and security. Furthermore, integrating the main unit and other equipment into the intermediate partitions facilitates centralized management and maintenance, reducing the difficulty of troubleshooting due to dispersed layouts. The compact layout also leaves more usable space in the storage compartments, making the cabinet structure more rational.

[0008] The present invention can be further configured such that: a reinforcing sleeve is provided on the connecting line, the reinforcing sleeve is provided at the connection between the cabinet door and the storage compartment, and the two ends of the reinforcing sleeve are respectively secured to the cabinet door and the storage compartment.

[0009] By further modifying the design, a reinforcing sleeve is fitted onto the connecting line and fixed to the connection between the cabinet door and the storage compartment. This provides physical protection for the area when the cabinet door is frequently opened and closed. By reinforcing the structure to disperse stress, the outer sheath of the connecting line is prevented from wearing out or the internal circuitry is damaged. This effectively prevents problems such as electromagnetic lock malfunction and sensor signal interruption caused by circuit faults.

[0010] The present invention can be further configured such that: the sensor is located at the upper end of the cabinet door, the connecting line connects to the sensor and extends through the upper end of the storage compartment to the middle partition, the storage compartment is provided with an upper partition, and the upper partition can cover the connecting line.

[0011] By further redesigning the system, the sensor is placed at the top of the cabinet door, and the connecting wire extends from the top of the storage compartment to the middle partition, where it is covered by the upper partition. The connecting wire runs along the top of the storage compartment, and with the protection of the upper partition, the wiring can be effectively hidden, preventing the connecting wire from being pulled or scratched due to exposure. The neat wiring layout also reduces the difficulty of troubleshooting faults caused by messy wiring, improves the overall aesthetics of the equipment cabinet and the efficiency of management and maintenance, and makes the internal structure of the cabinet more orderly.

[0012] The present invention can be further configured such that: the storage compartment is provided with a rear partition and a rear partition layer formed by the rear partition, the rear partition layer is connected to the middle partition layer, and the reader is disposed in the rear partition layer and is attached to the rear partition.

[0013] With further configuration, the reader is placed in the rear compartment formed by the rear partition, and is made to fit snugly against the rear partition. At the same time, it connects the rear compartment with the middle compartment. The independent space of the rear compartment provides a safe installation environment for the reader, effectively avoiding collisions and interference to the reader during equipment storage and retrieval, and ensuring its stable operation. The connection design with the middle compartment facilitates centralized wiring and management, making the connection between the reader and the host, power supply and other equipment more convenient and efficient, reducing wiring complexity, improving the accuracy and stability of RFID signal reading, and ensuring the reliability of equipment information identification and management.

[0014] This utility model can be further configured such that: the rear partition layer is provided with an opening for installing a camera.

[0015] With further modifications, a camera installation opening is provided in the rear compartment, allowing the camera to monitor the status of equipment in the storage compartments. Combined with RFID tag technology, "dual verification" can be achieved. Managers can also remotely view the equipment in the cabinet through the camera, assisting in inventory counting and scheduling, improving management efficiency, and making equipment management more precise and intelligent. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the structure of an embodiment of the present utility model. Figure 1 ;

[0017] Figure 2 This is a schematic diagram of the structure of an embodiment of the present utility model. Figure 2 ;

[0018] Figure 3 This is an embodiment of the present utility model. Figure 2 Sectional view at point AA;

[0019] Figure 4 This is a schematic diagram of the cooperative structure of the connecting line, reinforcing sleeve, and upper partition in an embodiment of this utility model;

[0020] The components include: cabinet body 1; storage compartment 11; cabinet door 12; middle partition 13; upper partition 14; rear partition 15; opening 151; rear partition 16; first sensing component 2; sensor 21; electromagnetic lock 22; connecting wire 23; reinforcing sleeve 24; second sensing component 3; and reader / writer 31. Detailed Implementation

[0021] An embodiment of this utility model of an equipment cabinet with a tag reader / writer is shown below. Figure 1-4 As shown: The cabinet includes a cabinet body 1, which includes several storage compartments 11 and a swinging cabinet door 12. The cabinet door 12 can swing to form or release the cover of the storage compartments 11. The cabinet also includes a first sensing component 2 and a second sensing component 3. The first sensing component includes a sensor 21 and an electromagnetic lock 22. The second sensing component 3 includes a reader 31. The sensor 21 is disposed on the cabinet door 12 and is signal-connected to the electromagnetic lock 22. The electromagnetic lock 22 is used to form or release the lock between itself and the cabinet door 12. The reader 31 is disposed in the storage compartments 11 and is used to form a radio signal connection with RFID tags.

[0022] The first sensing component 2 includes a connecting line 23, and an intermediate partition 13 is formed between adjacent storage compartments. The electromagnetic lock 22 is disposed on the side wall of the storage compartment 11 corresponding to the intermediate partition 13. The two ends of the connecting line 23 extend to the sensor 21 and the intermediate partition 13, respectively.

[0023] A reinforcing sleeve 24 is fitted onto the connecting line 23. The reinforcing sleeve 24 is located at the connection between the cabinet door 12 and the storage compartment 11, and both ends of the reinforcing sleeve 24 are respectively secured to the cabinet door 12 and the storage compartment 11.

[0024] The sensor 21 is located at the upper end of the cabinet door 12. The connecting line 23 connects to the sensor 21 and extends through the upper end of the storage compartment 11 to the middle partition 13. The storage compartment 11 is provided with an upper partition 14, which can cover the connecting line 23.

[0025] The storage compartment 11 is provided with a rear partition 15 and a rear partition layer 16 formed by the rear partition 15. The rear partition layer 16 is connected to the middle partition layer 13. The reader / writer 21 is disposed in the rear partition layer 16 and is attached to the rear partition 15.

[0026] The rear partition 15 is provided with an opening 151 for installing a camera.

[0027] The above examples are merely one preferred embodiment of this utility model. Ordinary variations and substitutions made by those skilled in the art within the scope of this utility model's technical solution are all included within the protection scope of this utility model.

Claims

1. An equipment cabinet with a tag reader / writer, comprising a cabinet body, the cabinet body including a plurality of storage compartments and a swing-open cabinet door, the cabinet door being able to swing open to form or remove the cover of the storage compartments, characterized in that: It includes a first sensing component and a second sensing component. The first sensing component includes a sensor and an electromagnetic lock. The second sensing component includes a reader / writer. The sensor is installed on the cabinet door and is signal-connected to the electromagnetic lock. The electromagnetic lock is used to lock or unlock the cabinet door. The reader / writer is installed in the storage compartment and is used to form a radio signal connection with an RFID tag.

2. The equipment cabinet with a tag reader / writer according to claim 1, characterized in that: The first sensing component includes a connecting line, and an intermediate partition is formed between adjacent storage compartments. The electromagnetic lock is installed on the side wall of the intermediate partition corresponding to the storage compartment, and the two ends of the connecting line extend to the sensor and the intermediate partition, respectively.

3. The equipment cabinet with a tag reader / writer according to claim 2, characterized in that: A reinforcing sleeve is fitted onto the connecting line. The reinforcing sleeve is installed at the connection between the cabinet door and the storage compartment, and both ends of the reinforcing sleeve are respectively secured to the cabinet door and the storage compartment.

4. The equipment cabinet with a tag reader / writer according to claim 2 or 3, characterized in that: The sensor is located at the top of the cabinet door. The connecting wire connects to the sensor and extends through the top of the storage compartment to the middle partition. The storage compartment is provided with an upper partition that can cover the connecting wire.

5. The equipment cabinet with a tag reader / writer according to claim 2 or 3, characterized in that: The storage compartment is provided with a rear partition and a rear compartment layer formed by the rear partition. The rear compartment layer is connected to the middle compartment layer. The reader is located in the rear compartment layer and is attached to the rear partition.

6. The equipment cabinet with a tag reader / writer according to claim 5, characterized in that: The rear partition has an opening for installing a camera.