A wireless radio frequency module aging detection device
By combining the data acquisition module with the visualization panel, precise binding of the module to the slot and intuitive display of its status are achieved during the aging test of the wireless radio frequency module. This solves the problems of errors and fatigue caused by manual recording and improves the accuracy and convenience of the test.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN CHANG SI DE ELECTRONIC EQUIP MAINTENANCE CO LTD
- Filing Date
- 2025-04-29
- Publication Date
- 2026-06-09
AI Technical Summary
In existing aging tests of wireless radio frequency modules, the start and end times of aging need to be recorded manually. Due to the large number of slots and inconsistent times, it is easy to make mistakes or omissions in the recording, which increases employee fatigue and reduces the convenience of operation.
It combines a data acquisition module with a visualization panel, binds the module to the slot through a barcode scanning unit, displays the slot status using color-coded status indicator areas, automatically records time via physical buttons, and is equipped with an abnormal alarm unit and a convenient maintenance structure.
This achieved precise binding between modules and slots, improving the accuracy of data recording and operational efficiency, reducing misoperations, enhancing operational convenience and security, reducing employee fatigue, and ensuring the smooth progress of testing.
Smart Images

Figure CN224341607U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of aging test cabinets, specifically a wireless radio frequency module aging test device. Background Technology
[0002] The aging test cabinet for wireless radio frequency modules is an important piece of equipment used for aging tests on wireless radio frequency modules. It accelerates the aging of modules by simulating long-term use environments such as high temperature, high humidity, and voltage surges, in order to test their reliability, stability, and service life. The equipment features high-precision control, high reliability, and easy operation and maintenance. It can accurately control the test environment parameters and record and analyze test data in real time. It is widely used in fields such as radio broadcasting, television, radar, and wireless communication.
[0003] Wireless radio frequency modules play a crucial role in communication. Aging testing is an important step in verifying wireless modules. Aging testing uses the heat generated by the module itself to screen the internal components. Aging testing is time-consuming, with a room temperature aging time of 6 hours. Currently, each aging test requires manual recording of the start and end times. Due to the large number of aging slots and inconsistent aging times, it is necessary to check the product periodically to see if aging is complete. This manual recording is prone to errors or omissions, and it also easily causes employee fatigue, increases workload, leads to errors, and reduces the convenience of aging operation. Utility Model Content
[0004] Based on this, the purpose of this utility model is to provide a wireless radio frequency module aging detection device to solve the technical problem that each aging test requires manual registration of the start and end times. Since there are many aging slots and the aging times are different, it is necessary to frequently check whether the product has been completed. This not only easily leads to registration errors or omissions, but also makes employees extremely tired.
[0005] To achieve the above objectives, the present invention provides the following technical solution: a wireless radio frequency module aging test device, comprising an aging test station group, wherein each station of the aging test station group is fixedly installed with an aging slot, and the aging slot is used to place the wireless radio frequency module to be tested.
[0006] The aging detection device also includes a data acquisition module, which is communicatively connected to a visualization panel. The visualization panel displays multiple status indicator areas on its surface, with each status indicator area corresponding to an aging tank.
[0007] The status indicator area distinguishes aging status by color, including white, yellow and green indicators, which represent idle, detection in progress and completed status, respectively.
[0008] By adopting the above technical solution, a stable and independent testing environment is provided for the wireless radio frequency module, ensuring that each module will not interfere with each other during the testing process, thereby improving the accuracy of the test results. At the same time, the status indicator area on the visualization panel uses color to distinguish the aging status, allowing operators to quickly and intuitively understand the status of the module in each slot, whether it is idle, under testing, or completed, which is clear at a glance, greatly improving operational efficiency and reducing misoperations or delays caused by unclear status.
[0009] Furthermore, the data acquisition module includes a barcode scanning unit, which is used to scan the serial number (SN) of the radio frequency module and the rack number of the aging slot.
[0010] Each status indicator area of the visualization panel synchronously displays the bound SN code, Rack number, and countdown information.
[0011] By adopting the above technical solution, the barcode scanning unit in the data acquisition module achieves precise binding between the module and the slot by scanning the SN code and Rack number of the radio frequency module, ensuring accurate correspondence of test data and avoiding data confusion or loss.
[0012] Furthermore, the data acquisition module includes a physical button installed on the side of each aging tank, and the physical button is electrically connected to the time recording unit;
[0013] When the physical button is triggered, the time recording unit automatically records the detection start time and sends the time data to the visualization panel;
[0014] The corresponding status indicator area of the visualization panel displays countdown information and button trigger status.
[0015] By adopting the above technical solution, operators can easily record the detection start time manually without additional equipment or complicated operations, which improves the convenience of operation. At the same time, the time recording unit automatically sends the time data to the visualization panel.
[0016] Furthermore, the physical button is a waterproof and accident-proof mechanical switch, with a silicone protective layer covering its surface, and is fixed to one side of the operating interface of the aging tank by bolts.
[0017] By adopting the above technical solution, a waterproof and accidental-touch-proof mechanical switch is used, and the surface is covered with a silicone protective layer, ensuring the reliability and durability of the button in harsh environments and reducing button damage or accidental touches caused by environmental factors.
[0018] Furthermore, an abnormal alarm unit is installed on one side of the top of the aging detection device. The abnormal alarm unit includes an audible and visual alarm. When the detection time exceeds the limit or a state conflict occurs, the audible and visual alarm triggers a red flashing light and a buzzer signal.
[0019] By adopting the above technical solution, the audible and visual alarm can be triggered in a timely manner when the detection time exceeds the limit or the status conflicts, emitting a red flashing light and a buzzer signal to remind the operator to pay attention to the abnormal situation, which greatly improves the safety of the testing process and avoids potential risks caused by long-term unattendedness or abnormal status.
[0020] Furthermore, a side door is rotatably installed on the front of the aging detection device, and a universal plug and a DC adapter plug are installed on one side of the aging test station group.
[0021] By adopting the above technical solution, the side door provides operators with a convenient maintenance channel, enabling them to quickly inspect, repair, or replace parts inside the device during or after testing, thus improving the device's maintenance efficiency.
[0022] In summary, the present invention has the following main advantages:
[0023] This invention achieves precise binding between the module and the aging slot by scanning the SN code and Rack number of the wireless radio frequency module using a barcode scanning unit. This operation avoids errors and omissions that may occur due to manual registration, significantly improving the accuracy and efficiency of data recording. At the same time, relevant information is synchronized to the corresponding status indicator area on the visualization panel, allowing operators to intuitively and quickly understand the status of each slot and the information of the corresponding module without frequent checking or recording, thus reducing the workload of operators. In addition, the status indicator area distinguishes the slot status by color and displays countdown information, further enhancing the convenience and intuitiveness of operation, enabling operators to more effectively monitor the test progress, promptly detect and handle abnormal situations, and ensure the smooth progress of aging tests. Attached Figure Description
[0024] Figure 1 This is a three-dimensional structural diagram of the present invention;
[0025] Figure 2 This is a schematic diagram of the internal structure of the present invention;
[0026] Figure 3 This utility model Figure 2 Enlarged structural diagram at point A;
[0027] Figure 4 This is a schematic diagram of the interface structure of the visualization panel of this utility model.
[0028] In the diagram: 1. Aging test station group; 101. Aging tank; 2. Data acquisition module; 201. Barcode scanning unit; 202. Physical button; 3. Visual panel; 301. Status indicator area; 401. Universal plug-in board; 402. DC adapter plug-in board; 5. Side door; 6. Abnormal alarm unit. Detailed Implementation
[0029] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings. The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain the present invention, and should not be construed as limiting the present invention. Example 1:
[0030] A wireless radio frequency module aging detection device, such as Figure 1-4 As shown, it includes an aging test station group 1. Each station of the aging test station group 1 is fixedly installed with an aging slot 101, which is used to place the wireless radio frequency module under test.
[0031] The aging test device also includes a data acquisition module 2, which is connected to a visualization panel 3. The visualization panel 3 displays multiple status indicator areas 301 on its surface, and each status indicator area 301 corresponds to an aging tank 101.
[0032] The status indicator area 301 distinguishes the aging status by color, including white, yellow and green indicators, which represent idle, detection in progress and completed status, respectively.
[0033] It provides a stable and independent testing environment for the wireless radio frequency modules, ensuring that each module does not interfere with each other during the testing process, thereby improving the accuracy of the test results. At the same time, the status indicator area 301 on the visualization panel 3 uses color to distinguish the aging status, allowing operators to quickly and intuitively understand the status of the modules in each slot, whether they are idle, in testing, or completed. This greatly improves operational efficiency and reduces misoperations or delays caused by unclear status.
[0034] See Figure 1 , Figure 2 , Figure 3 The data acquisition module 2 includes a barcode scanning unit 201, which is used to scan the SN code of the wireless radio frequency module and the Rack number of the aging slot 101.
[0035] Each status indicator area 301 of the visualization panel 3 synchronously displays the bound SN code, Rack number, and countdown information.
[0036] The barcode scanning unit 201 in the data acquisition module 2 achieves precise binding between the module and the slot by scanning the SN code and Rack number of the radio frequency module, ensuring accurate correspondence of test data and avoiding data confusion or loss. At the same time, the visualization panel 3 synchronously displays the bound SN code, Rack number and countdown information, which not only facilitates the operator's monitoring of the test process, but also enables the quick location of specific modules and slots when problems occur, improving the efficiency of troubleshooting and ensuring the smooth progress of the test process. Example 2:
[0037] See Figure 1 , Figure 2 , Figure 3 The data acquisition module 2 includes a physical button 202 installed on the side of each aging tank 101, and the physical button 202 is electrically connected to the time recording unit.
[0038] When the physical button 202 is triggered, the time recording unit automatically records the detection start time and sends the time data to the visualization panel 3;
[0039] The corresponding status indicator area 301 of the visualization panel 3 displays countdown information and button trigger status.
[0040] This allows operators to easily record the test start time manually without additional equipment or complicated operations, improving operational convenience. At the same time, the time recording unit automatically sends the time data to the visualization panel 3 and displays the countdown information and button trigger status in the corresponding status indicator area 301, enabling operators to understand the test progress in real time, rationally arrange subsequent work, and avoid test delays or resource waste caused by improper time management.
[0041] See Figure 1 , Figure 2 , Figure 3 The physical button 202 is a waterproof and accident-proof mechanical switch. Its surface is covered with a silicone protective layer and it is fixed to one side of the operating interface of the aging tank 101 by bolts. The use of a waterproof and accident-proof mechanical switch with a silicone protective layer ensures the reliability and durability of the button in harsh environments, reducing button damage or accidental activation caused by environmental factors. At the same time, fixing the button to one side of the operating interface of the aging tank 101 by bolts makes the button position fixed and easy to operate, improving the comfort of the operator and reducing fatigue caused by long-term operation, thereby further improving testing efficiency.
[0042] See Figure 1An abnormal alarm unit 6 is installed on one side of the top of the aging test device. The abnormal alarm unit 6 includes an audible and visual alarm. When the test time exceeds the limit or the state conflicts, the audible and visual alarm triggers a red flashing light and a buzzer signal. It can promptly trigger the audible and visual alarm when the test time exceeds the limit or the state conflicts, and emit a red flashing light and a buzzer signal to remind the operator to pay attention to the abnormal situation. This greatly improves the safety of the test process and avoids potential risks caused by long-term unattendedness or abnormal state. At the same time, the abnormal alarm function can also prompt the operator to respond quickly and handle abnormal situations, ensuring the continuity and stability of the test process.
[0043] See Figure 1 , Figure 2 , Figure 3 The aging test device has a side door 5 mounted on its front side. A universal plug-in board 401 and a DC adapter plug-in board 402 are installed on one side of the aging test station group 1. The side door 5 provides operators with a convenient maintenance passage, enabling them to quickly inspect, repair, or replace parts inside the device during or after testing, thus improving the device's maintenance efficiency. At the same time, the universal plug-in board 401 and DC adapter plug-in board 402 installed on one side of the aging test station group 1 provide the device with a flexible power input method, meeting the testing requirements under different power needs, enhancing the device's adaptability and versatility, and enabling the aging test device to be more widely used in various wireless radio frequency module testing scenarios.
[0044] The implementation principle of this embodiment is as follows: The wireless radio frequency module is placed in each aging slot 101 in the aging test station group 1. After the aging test is started, the SN code and Rack number of the wireless radio frequency module are scanned by the barcode scanning unit 201 to realize the binding of the module and the slot. The relevant information is synchronized to the corresponding status indicator area 301 of the visualization panel 3. The status indicator area 301 displays the status of the slot intuitively by color, and also displays the bound SN code, Rack number and countdown information. During the test, the operator can trigger the physical button 202 installed on the side of each aging slot 101 to make the time recording unit automatically record the test start time and send it to the visualization panel 3 for display. If the test time exceeds the limit or the status conflicts, the abnormal alarm unit 6 on the top of the device will trigger an audible and visual alarm signal. The entire device is equipped with a rotatable side door 5 on the front and a universal plug plate 401 and a DC adapter plug plate 402 on the side, which realize convenient operation and maintenance.
[0045] Although embodiments of the present invention have been shown and described, these specific embodiments are merely explanations of the present invention and are not intended to limit the invention. The specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples. After reading this specification, those skilled in the art may make modifications, substitutions, and variations to the embodiments as needed without departing from the principles and spirit of the present invention, provided that such modifications, substitutions, and variations are within the scope of the claims of the present invention and are protected by patent law.
Claims
1. A wireless radio frequency module aging detection device, characterized in that: The system includes an aging test station group (1), each station of which is fixedly equipped with an aging slot (101), which is used to place the wireless radio frequency module to be tested. The aging detection device also includes a data acquisition module (2), which is connected in communication with a visualization panel (3). The visualization panel (3) displays multiple status indicator areas (301) on its surface, and each status indicator area (301) corresponds to an aging slot (101). The status identification area (301) distinguishes the aging status by color, including white, yellow and green indicators, which respectively represent idle, detection in progress and completed status.
2. The aging detection device for wireless radio frequency modules according to claim 1, characterized in that: The data acquisition module (2) includes a barcode scanning unit (201), which is used to scan the SN code of the wireless radio frequency module and the Rack number of the aging slot (101); Each status identifier area (301) of the visualization panel (3) synchronously displays the bound SN code, Rack number and countdown information.
3. The aging detection device for wireless radio frequency modules according to claim 1, characterized in that: The data acquisition module (2) includes a physical button (202) installed on the side of each aging tank (101), and the physical button (202) is electrically connected to the time recording unit; When the physical button (202) is triggered, the time recording unit automatically records the detection start time and sends the time data to the visualization panel (3). The corresponding status indicator area (301) of the visualization panel (3) displays countdown information and button trigger status.
4. The aging detection device for wireless radio frequency modules according to claim 3, characterized in that: The physical button (202) is a waterproof and accident-proof mechanical switch. Its surface is covered with a silicone protective layer and is fixed to one side of the operation interface of the aging slot (101) by bolts.
5. The aging detection device for wireless radio frequency modules according to claim 1, characterized in that: An abnormal alarm unit (6) is installed on one side of the top of the aging detection device. The abnormal alarm unit (6) includes an audible and visual alarm. When the detection time exceeds the limit or the state conflicts, the audible and visual alarm triggers a red flashing light and a buzzer signal.
6. The aging detection device for wireless radio frequency modules according to claim 1, characterized in that: The front of the aging detection device is rotatably mounted with a side door (5), and a universal plug (401) and a DC adapter plug (402) are installed on one side of the aging test station group (1).