Mobile phone liquid crystal display screen with state monitoring function
By introducing detection plates and sensors distributed at both ends into the mobile phone LCD screen, combined with structures such as sliding snap-fit, limiting top cover and threaded connection, the problem of lack of real-time monitoring and buffer protection of the display screen is solved, realizing comprehensive and accurate monitoring of the display screen status and convenient maintenance.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN HENGSHENGTONG TECH CO LTD
- Filing Date
- 2025-08-19
- Publication Date
- 2026-07-07
Smart Images

Figure CN224473334U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of mobile phone LCD display technology, and in particular to a mobile phone LCD display with status monitoring function. Background Technology
[0002] With the widespread use of smartphones, the performance and status of the mobile phone LCD screen, as an important window for users to interact with the mobile phone, directly affect the user experience.
[0003] During daily use, mobile phone screens may be affected by external impacts, bending, temperature changes, humidity changes, etc., leading to display abnormalities or even damage.
[0004] However, most existing mobile phone LCD screens do not have the function of real-time monitoring of their own status. Users often only realize that the screen has obvious faults after they occur, and cannot take timely measures to maintain and protect it, which increases repair costs and inconvenience. At the same time, in terms of mechanical structure, the existing screen installation method makes it lack effective buffering and protection mechanisms when subjected to external forces, which further exacerbates the risk of screen damage.
[0005] Therefore, this utility model proposes a mobile phone LCD display screen with status monitoring function. Utility Model Content
[0006] The purpose of this invention is to address the shortcomings of existing technologies and propose a mobile phone LCD display with status monitoring function.
[0007] To achieve the above objectives, this utility model adopts the following technical solution: a mobile phone LCD display screen with status monitoring function, comprising a housing assembly, the housing assembly being composed of a rectangular housing and a mounting plate, the mounting plate being disposed on the rectangular housing, and the display screen being embedded in the mounting plate, characterized in that it further comprises:
[0008] The detection assembly consists of two detection plates disposed inside a rectangular housing. The two detection plates are respectively disposed at both ends of a mounting plate. Each detection plate contains a vibration sensor. Temperature sensors and humidity sensors are respectively disposed on both sides of the vibration sensors on the detection plates.
[0009] Furthermore, both ends of the detection plate are provided with sliding blocks, and the rectangular shell is provided with sliding slots. The detection plate and the rectangular shell are connected to each other through the sliding slots and sliding blocks.
[0010] The beneficial effects of adopting the above-mentioned further solution are: the sliding blocks at both ends of the detection plate engage with the sliding slots inside the rectangular shell. This structural design allows the detection plate to slide easily into or out of the rectangular shell along the slots, enabling quick positioning and fixation during installation and easy removal without complicated tools during disassembly. This not only ensures the stability of the detection plate after installation but also greatly facilitates the subsequent maintenance and replacement of the sensors on the detection plate, making the maintenance of the entire condition monitoring system simpler and more efficient.
[0011] Furthermore, a limiting top cover is provided on the rectangular outer shell above the detection plate, and a pin is provided at the bottom of the limiting top cover. There are four pins in total, and the four pins are arranged in pairs symmetrically around the center of the detection plate.
[0012] The beneficial effects of adopting the above-mentioned further solution are as follows: the limiting top cover on the rectangular shell can be precisely pressed down and inserted into the corresponding position around the detection plate through the symmetrically distributed pins at the bottom, firmly restricting the movement of the detection plate from above. In use, this structure can effectively prevent the detection plate from being displaced due to external vibration, collision and other factors, ensuring that all kinds of sensors on the plate are always in the accurate monitoring position, and ensuring the reliability and accuracy of status monitoring data. At the same time, when disassembling, it is only necessary to pull out the pins to easily open the limiting top cover, which is convenient for inspection and maintenance of the detection plate, taking into account both stability and convenience.
[0013] Furthermore, four mounting pieces are provided on the rectangular outer shell below the mounting plate, and the four mounting pieces are arranged in a rectangular pattern.
[0014] The beneficial effects of adopting the above-mentioned further solution are as follows: The rectangular shell has mounting plates arranged in a rectangular pattern below the mounting plate. The mounting plate and the mounting plates can be firmly connected by fasteners, so that the mounting plate is stably fixed on the rectangular shell. This ensures that the display screen will not shake or shift after installation, and enhances the overall structural stability. This distribution method can evenly distribute the external force on the mounting plate, avoid damage caused by excessive local force, and facilitate quick positioning during installation. It also ensures the installation accuracy of the mounting plate and the rectangular shell, making the installation of the display screen more convenient and reliable.
[0015] Furthermore, a mounting plate detection assembly that is threadedly connected to the mounting plate is provided through the mounting plate.
[0016] The advantages of adopting the above-mentioned further solution are: the mounting plate is provided with a threaded connection to the mounting piece, which can be tightly fixed to the mounting piece on the rectangular shell by screwing in screws or other fasteners. This threaded connection provides reliable connection strength, making the mounting plate firmly installed on the rectangular shell and preventing the display screen from loosening due to vibration or other factors during use. At the same time, the threaded connection is easy to install and remove. When it is necessary to repair the display screen or test the components, the fasteners can be quickly unscrewed to remove the mounting plate, which provides convenience for maintenance operations and takes into account both installation stability and maintenance convenience.
[0017] Furthermore, a snap-fit groove is provided on one side of the rectangular outer shell, and a concave snap-fit plate is provided on the snap-fit groove. The height of the vertical end of the concave snap-fit plate is adapted to the thickness of the rectangular outer shell and the limiting top cover.
[0018] The beneficial effects of adopting the above-mentioned further solution are as follows: the snap-fit groove on one side of the rectangular shell cooperates with the concave snap-fit plate. By utilizing the design of the vertical end of the concave snap-fit plate to adapt to the thickness of the shell and the limiting top cover, the snap-fit plate can be snapped into the groove, and the rectangular shell and the limiting top cover can be tightly clamped and fixed from the side. This structure can enhance the stability of the connection between the shell and the top cover, prevent the limiting top cover from loosening or falling off during use, and ensure that the detection plate is always in the limited state. At the same time, the snap-fit method facilitates quick installation and disassembly. During maintenance, the concave snap-fit plate can be easily removed, providing convenience for maintenance operations.
[0019] Compared with the prior art, the advantages and positive effects of this utility model are as follows:
[0020] In this invention, the detection component consists of two detection plates housed within a rectangular housing, located at opposite ends of a mounting plate. Vibration sensors within each detection plate monitor vibration at different locations on the display screen, while temperature and humidity sensors on both sides simultaneously sense environmental changes in their respective areas. This dual-distribution detection plate structure allows for real-time acquisition of display screen status data from different directions, resulting in more comprehensive monitoring coverage and more balanced data acquisition. This enables users to accurately grasp the overall vibration, temperature, and humidity status of the display screen, providing a more reliable basis for timely detection of anomalies. Attached Figure Description
[0021] Figure 1 This is a front view of a mobile phone LCD screen with status monitoring function according to this utility model;
[0022] Figure 2 This is an exploded view of a mobile phone LCD screen with status monitoring function according to the present invention;
[0023] Figure 3 This is a structural diagram of a mounting plate for a mobile phone LCD display screen with status monitoring function according to this utility model;
[0024] Figure 4This is an enlarged view of the rectangular casing of a mobile phone LCD screen with status monitoring function according to this utility model;
[0025] Figure 5 This is an exploded view of the detection component in a mobile phone LCD screen with status monitoring function according to this utility model.
[0026] Figure Labels
[0027] 1. Housing assembly; 11. Rectangular housing; 111. Mounting plate; 112. Sliding slot; 113. Snap-fit slot; 12. Mounting plate; 121. Display screen; 13. Limiting top cover; 131. Pin; 14. Concave locking plate;
[0028] 2. Detection components; 21. Detection plate; 22. Sliding block; 23. Vibration sensor; 24. Temperature sensor; 25. Humidity sensor. Detailed Implementation
[0029] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0030] like Figure 1-5 As shown, this utility model provides a technical solution: a mobile phone LCD display screen with status monitoring function, including a housing assembly 1, which is composed of a rectangular housing 11 and a mounting plate 12. The mounting plate 12 is disposed on the rectangular housing 11, and a display screen 121 is embedded in the mounting plate 12. It also includes:
[0031] The detection component 2 consists of two detection plates 21 disposed inside the rectangular housing 11, with each plate 21 positioned at one end of the mounting plate 12. Each detection plate 21 contains a vibration sensor 23, and a temperature sensor 24 and a humidity sensor 25 are respectively located on either side of the vibration sensor 23. The vibration sensor 23 within each detection plate 21 monitors the vibration of different locations on the display screen 121, while the temperature and humidity sensors 25 on either side synchronously sense environmental changes in their respective areas. This dual-distribution detection plate 21 structure allows for real-time acquisition of the display screen 121's status data from different directions, resulting in more comprehensive monitoring coverage and more balanced data acquisition. This enables users to accurately grasp the overall vibration, temperature, and humidity status of the display screen 121, providing a more reliable basis for timely detection of anomalies.
[0032] Both ends of the detection plate 21 are provided with sliding blocks 22, and the rectangular shell 11 has a sliding groove 112. The detection plate 21 and the rectangular shell 11 are connected to each other through the sliding groove 112 and the sliding blocks 22. The sliding blocks 22 at both ends of the detection plate 21 are connected to the sliding groove 112 in the rectangular shell 11. This structural design allows the detection plate 21 to slide into or out of the rectangular shell 11 easily along the groove. It can be quickly positioned and fixed during installation, and can be easily removed without complicated tools during disassembly. This not only ensures the stability of the detection plate 21 after installation, but also provides great convenience for the later maintenance and replacement of the sensors on the detection plate 21, making the maintenance of the entire condition monitoring system simpler and more efficient.
[0033] A limiting top cover 13 is provided on the rectangular outer shell 11 above the detection plate 21. The bottom of the limiting top cover 13 is provided with four pins 131, which are arranged in pairs symmetrically around the center of the detection plate 21. The limiting top cover 13 on the rectangular outer shell 11 can be precisely pressed down and inserted into the corresponding positions around the detection plate 21 through the symmetrically distributed pins 131 at the bottom, firmly restricting the movement of the detection plate 21 from above. In use, this structure can effectively prevent the detection plate 21 from being displaced due to external vibration, collision and other factors, ensuring that all kinds of sensors on the plate are always in the accurate monitoring position, and ensuring the reliability and accuracy of status monitoring data. At the same time, when disassembling, simply pull out the pins 131 to easily open the limiting top cover 13, which is convenient for inspection and maintenance of the detection plate 21, taking into account both stability and convenience.
[0034] Four mounting plates 111 are provided on the rectangular outer shell 11 below the mounting plate 12. The four mounting plates 111 are arranged in a rectangular pattern. The rectangular mounting plates 111 below the mounting plate 12 can be used to firmly connect the mounting plate 12 and the mounting plates 111 with fasteners, so that the mounting plate 12 is stably fixed on the rectangular outer shell 11. This ensures that the display screen 121 will not shake or shift after installation, and enhances the stability of the overall structure. This distribution method can evenly distribute the external force on the mounting plate 12, avoid damage caused by excessive local force, and facilitate quick positioning during installation. It also ensures the installation accuracy of the mounting plate 12 and the rectangular outer shell 11, making the installation of the display screen 121 more convenient and reliable.
[0035] The mounting plate 12 has a through-hole mounting plate 12 detection component 2 that is threadedly connected to the mounting piece 111. The mounting plate 12 has a through-hole mounting plate 111 that is threadedly connected to the mounting piece 111. By screwing in screws or other fasteners, the mounting plate 12 can be tightly fixed to the mounting piece 111 on the rectangular shell 11. This threaded connection provides reliable connection strength, allowing the mounting plate 12 to be firmly installed on the rectangular shell 11, preventing the display screen 121 from loosening due to vibration or other factors during use. At the same time, the threaded connection facilitates disassembly and assembly. When it is necessary to inspect or repair the display screen 121 or the detection component 2, the fasteners can be quickly unscrewed to remove the mounting plate 12, providing convenience for maintenance operations and balancing installation stability and maintenance convenience.
[0036] A snap-fit groove 113 is provided on one side of the rectangular housing 11, and a concave snap-fit plate 14 is provided on the snap-fit groove 113. The height of the vertical end of the concave snap-fit plate 14 is adapted to the thickness of the rectangular housing 11 and the limiting top cover 13. The snap-fit groove 113 on one side of the rectangular housing 11 cooperates with the concave snap-fit plate 14. By utilizing the design of the vertical end of the concave snap-fit plate 14 adapting to the thickness of the housing and the limiting top cover 13, the snap-fit plate can be snapped into the groove, and the rectangular housing 11 and the limiting top cover 13 are tightly clamped and fixed from the side. This structure can enhance the stability of the connection between the housing and the top cover, prevent the limiting top cover 13 from loosening or falling off during use, and ensure that the detection plate 21 is always in the limited state. At the same time, the snap-fit method facilitates quick installation and disassembly. During maintenance, the concave snap-fit plate 14 can be easily removed, providing convenience for maintenance operations.
[0037] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model in any other way. Any person skilled in the art may make changes or modifications to the above-disclosed technical content to create equivalent embodiments for application in other fields. However, any simple modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of the present utility model without departing from the technical solution of the present utility model shall still fall within the protection scope of the technical solution of the present utility model.
Claims
1. A mobile phone LCD display screen with status monitoring function, comprising a housing assembly (1), the housing assembly (1) being composed of a rectangular housing (11) and a mounting plate (12), the mounting plate (12) being disposed on the rectangular housing (11), and a display screen (121) being embedded and mounted on the mounting plate (12), characterized in that, Also includes: The detection component (2) consists of a detection plate (21) disposed inside a rectangular shell (11). There are two detection plates (21), and the two detection plates (21) are respectively disposed at both ends of the mounting plate (12). A vibration sensor (23) is disposed inside each of the two detection plates (21). A temperature sensor (24) and a humidity sensor (25) are respectively disposed on both sides of the vibration sensor (23) on the detection plate (21).
2. A mobile phone LCD display screen with status monitoring function according to claim 1, characterized in that: The detection plate (21) is provided with sliding blocks (22) at both ends, and the rectangular shell (11) is provided with sliding slots (112). The detection plate (21) and the rectangular shell (11) are connected to each other through the sliding slots (112) and the sliding blocks (22).
3. A mobile phone LCD display screen with status monitoring function according to claim 1, characterized in that: A limiting top cover (13) is provided on the rectangular outer shell (11) above the detection plate (21). A pin (131) is provided at the bottom of the limiting top cover (13). There are four pins (131) in total, and the four pins (131) are arranged in pairs symmetrically with respect to each other at the center of the detection plate (21).
4. A mobile phone LCD display screen with status monitoring function according to claim 1, characterized in that: The rectangular outer shell (11) is provided with mounting pieces (111) located below the mounting plate (12). There are four mounting pieces (111) in total, and the four mounting pieces (111) are arranged in a rectangular shape.
5. A mobile phone LCD display screen with status monitoring function according to claim 1, characterized in that: The mounting plate (12) is provided with a mounting plate (12) detection component (2) that is threadedly connected to the mounting piece (111).
6. A mobile phone LCD display screen with status monitoring function according to claim 1, characterized in that: A snap-fit groove (113) is provided on one side of the rectangular shell (11), and a concave snap-fit plate (14) is provided on the snap-fit groove (113). The vertical end height of the concave snap-fit plate (14) is adapted to the thickness of the rectangular shell (11) and the limiting top cover (13).