A communication device shield
By designing positioning, limiting, and locking mechanisms, combined with solar-powered sensors and motor-driven fans, the problem of damage to communication equipment under vibration and high-temperature environments is solved, enabling rapid disassembly and efficient heat dissipation, reducing costs, and improving the equipment's protective performance and safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Filing Date
- 2025-05-27
- Publication Date
- 2026-07-10
AI Technical Summary
Existing communication equipment protection devices are easily damaged when faced with external collisions, vibrations, disassembly, and high-temperature environments, and their heat dissipation is ineffective, leading to increased equipment costs and information security risks.
The device employs a combination of positioning, limiting, and locking mechanisms, along with solar-powered sensors and a motor-driven fan, to achieve rapid disassembly and buffer protection. It also activates a cooling system by sensing high temperatures through sensors, thereby improving the device's vibration resistance and heat dissipation efficiency.
It effectively reduces damage to equipment from external vibrations, lowers replacement costs, ensures stable operation of equipment, and achieves rapid cooling in high-temperature environments, thereby improving the protective performance and safety of the equipment.
Smart Images

Figure CN224481916U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of protective equipment for communication equipment, and in particular to a protective device for communication equipment. Background Technology
[0002] In today's digital age, communication technology is developing rapidly, and communication equipment has become an indispensable key component of people's lives, work, and all aspects of society. From personal smartphones and tablets to large base station facilities and data center equipment, communication equipment undertakes the core tasks of information transmission, data exchange, and communication, greatly promoting the informatization process of society and driving the development and transformation of various industries. Whether it is e-commerce, remote work, online education, or intelligent transportation and industrial automation, all fields rely heavily on the stable operation and high efficiency of communication equipment. However, communication equipment faces many complex threats and challenges in actual use. These factors not only affect the normal operation of the equipment, but may even lead to equipment damage, causing serious economic losses and information security risks.
[0003] Due to the high value and vital role of communication equipment in society, it may face the risk of physical damage from the outside. For example, in public places or densely populated areas, communication equipment may be subject to unintentional bumps or scratches; in certain special circumstances, it may also suffer damage, such as improper disassembly by humans, which can generate strong vibrations and damage the equipment. Furthermore, existing protective cases are mostly integrated structures, meaning that if an internal malfunction occurs, the protective case must be replaced, increasing costs. High temperatures can also affect communication equipment, potentially causing severe overheating damage. However, most current devices either only have ventilation openings or are equipped with continuously running fans, which are insufficient for heat dissipation, and the continuous rotation of the fan also generates heat. Therefore, solutions to these problems are needed. Utility Model Content
[0004] The purpose of this utility model is to address the shortcomings of existing technologies by proposing a protective device for communication equipment.
[0005] To achieve the above objectives, the present invention adopts the following technical solution: a protective device for communication equipment, comprising a housing and a solar panel installed on the top of the housing, wherein two sets of positioning mechanisms are inserted inside the housing, and limiting mechanisms are installed on both sides of the positioning mechanisms, and a locking mechanism is installed at the front end of one of the limiting mechanisms, and a heat dissipation box communicating with the housing is installed inside the housing, and a heat dissipation mechanism is installed in the heat dissipation box.
[0006] Preferably, the back of the enclosure has two sets of exhaust holes, each set of exhaust holes has a dustproof net installed inside, and a sensor is installed on the top of the enclosure.
[0007] Preferably, the positioning mechanism includes a positioning platform inserted into the inner side of the housing, T-shaped blocks fixed to both sides of the positioning platform, the rear end of the T-shaped blocks having rounded corners, and a positioning plate provided inside the positioning platform. A pressure plate is installed on the upper end of the positioning plate through four connecting rods, and a first spring is sleeved on each of the four connecting rods. The bottom end of the first spring is connected to the positioning plate, and the upper end is connected to the inner side of the positioning platform. Ventilation holes are provided in the positioning platform, the positioning plate, and the pressure plate, and rubber pads are installed on the top surface of the positioning platform and the bottom surface of the pressure plate.
[0008] Preferably, the limiting mechanism includes two limiting plates installed on both sides of the box body. The two limiting plates are located at the upper and lower ends of the T-shaped block, respectively. The front end of the limiting plate is provided with rounded corners, and a second spring is installed on the top surface of the upper limiting plate and the bottom surface of the lower limiting plate.
[0009] Preferably, the heat dissipation mechanism includes a heat dissipation filter housing and a motor installed inside the heat dissipation box. Two fans are installed inside the heat dissipation filter housing. Each of the two fan drive shafts is equipped with a pulley, and a belt is sleeved on the two pulleys. One of the drive shafts is connected to the output shaft of the motor through a coupling, and the heat dissipation filter housing is installed on the rear end face of the box.
[0010] Preferably, the locking mechanism includes a baffle that is longitudinally slidably installed on one side of the front end of the housing. A first rack is installed on both the upper and lower ends of the baffle, and a gear is provided at the front end of the baffle. The gear is rotatably connected inside the housing, and a limiting post is provided on one side of the gear. The limiting post is inserted into one side of the front end of the housing, and a second rack is installed at the rear end of the limiting post. Both the first rack and the second rack mesh with the gear for transmission.
[0011] Compared with the prior art, the beneficial effects of this utility model are as follows: The combination of the second spring and the T-block facilitates the positioning mechanism's up-and-down movement after vibration, with the second spring and the limiting plate acting as a buffer, thus reducing the damage to the communication equipment caused by external vibration. Furthermore, the combination of the locking mechanism and the limiting mechanism facilitates the insertion and removal of the positioning mechanism, allowing for quick disassembly and avoiding the need to replace the entire enclosure, thereby reducing costs. Finally, the combination of the sensor and the motor ensures that the motor only starts when high temperatures are detected, driving the fan to extract the high-temperature gas from the enclosure, achieving rapid cooling. Ultimately, this solves the problems of inconvenient disassembly and assembly, susceptibility to vibration damage, and poor heat dissipation in traditional protective devices. Attached Figure Description
[0012] The accompanying drawings, which are included to provide a further understanding of the present invention and form part of this application, illustrate exemplary embodiments of the present invention and, together with the description thereof, serve to explain the present invention and do not constitute an undue limitation thereof. In the drawings:
[0013] Figure 1 This is a schematic diagram of the overall three-dimensional structure of the device proposed in this utility model;
[0014] Figure 2 This is a schematic diagram of the back structure of the device proposed in this utility model;
[0015] Figure 3 This is a schematic diagram of the internal structure of the device proposed in this utility model;
[0016] Figure 4 This is a schematic diagram of the positioning mechanism proposed in this utility model;
[0017] Figure 5 This is a schematic diagram of the limiting mechanism structure proposed in this utility model;
[0018] Figure 6 This is a schematic diagram of the heat dissipation mechanism proposed in this utility model;
[0019] Figure 7 This is a schematic diagram of the locking mechanism proposed in this utility model;
[0020] The components in the diagram are numbered as follows: 1. Housing; 2. Solar panel; 3. Positioning mechanism; 4. Heat dissipation box; 5. Sensor; 6. Dustproof net; 7. Positioning platform; 8. Positioning plate; 9. Pressure plate; 10. First spring; 11. Limiting plate; 12. Second spring; 13. Fan; 14. Pulley; 15. Motor; 16. Baffle; 17. Limiting post; 18. Gear; 19. Heat dissipation filter. Detailed Implementation
[0021] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.
[0022] Example: See Figure 1-7This utility model discloses a protective device for communication equipment, comprising a housing 1 and a solar panel 2 installed on the top of the housing 1, which protects the communication device. The solar panel 2 powers the motor 15 and the sensor 5. Two sets of positioning mechanisms 3 are inserted inside the housing 1 to facilitate the placement of the communication device. Limiting mechanisms are installed on both sides of the positioning mechanisms 3, and a locking mechanism is installed at the front end of one of the limiting mechanisms. A heat dissipation box 4 communicating with the housing 1 is installed inside the housing 1 to facilitate the use of a fan 13. A heat dissipation mechanism is installed inside the heat dissipation box 4. Two sets of exhaust holes are opened on the back of the housing 1, and a dustproof net 6 is installed inside each set of exhaust holes to prevent external dust from entering the housing 1. The unit includes a sensor 5 installed on the top of the housing 1, which is used to sense the internal temperature of the housing 1 and transmit it to the motor 15; the positioning mechanism 3 includes a positioning platform 7 inserted into the inside of the housing 1, which is used to place the communication device; T-shaped blocks are fixed to both sides of the positioning platform 7, and the rear end of the T-shaped blocks has rounded corners, which are used to squeeze the upper and lower limit plates 11 and insert the positioning platform 7 into the limit mechanism; the positioning platform 7 has a positioning plate 8 inside, which is used to compress the first spring 10; the upper end of the positioning plate 8 is equipped with a pressure plate 9 through four connecting rods, which is used to fix the communication device downward; and the first spring 10 is sleeved on each of the four connecting rods, which is used to drive the positioning plate 8 to reset.
[0023] In this utility model, the bottom end of the first spring 10 is connected to the positioning plate 8, and the upper end is connected to the inner side of the positioning platform 7. The positioning platform 7, positioning plate 8, and pressure plate 9 are all provided with ventilation holes. Rubber pads are installed on the top surface of the positioning platform 7 and the bottom surface of the pressure plate 9 to absorb vibration. The limiting mechanism includes two limiting plates 11 installed on both sides of the housing 1, which limit the T-shaped block. The two limiting plates 11 are located at the upper and lower ends of the T-shaped block, respectively. The front end of each limiting plate 11 has rounded corners, and a second spring 12 is installed on the top surface of the upper limiting plate 11 and the bottom surface of the lower limiting plate 11, which facilitates the lifting and lowering of the limiting plates 11. The heat dissipation mechanism includes a heat dissipation filter shell 19 and a motor 15 installed inside the heat dissipation box 4. The heat dissipation filter shell 19 prevents dust from entering the housing 1. The motor 15 facilitates the rotation of the fan 13. Two fans 13 are installed inside the heat dissipation filter shell 19, which facilitates the rotation of the fan 13. For heat dissipation; pulleys 14 are installed on the drive shafts of the two fans 13, which facilitate the engagement of belts; belts are sleeved on the two pulleys 14, which facilitate the rotation of the two drive shafts; one of the drive shafts is connected to the output shaft of the motor 15 through a coupling, and the heat dissipation filter 19 is installed on the rear end face of the housing 1. The locking mechanism includes a baffle 16 that is longitudinally slidably installed on one side of the front end of the housing 1, which prevents the positioning platform 7 from sliding out; a first rack is installed on both the upper and lower ends of the baffle 16, and a gear 18 is provided at the front end of the baffle 16, which facilitates the engagement of a limiting post 17; the gear 18 is rotatably connected inside the housing 1, and a limiting post 17 is provided on one side of the gear 18, which facilitates the engagement of a second rack to drive the gear 18 to rotate; the limiting post 17 is inserted into one side of the front end of the housing 1, and a second rack is installed at the rear end of the limiting post 17, and both the first rack and the second rack mesh with the gear 18 for transmission.
[0024] In this invention, the sensor 5 is model FT-H50K.
[0025] Working principle: When using this utility model, first lift the pressure plate 9 upwards. The pressure plate 9 drives the positioning plate 8 upwards. When the positioning plate 8 moves upwards, the first spring 10 is compressed. Then, place the communication device on the top surface of the positioning platform 7 and release the pressure plate 9. Under the action of the first spring 10, the pressure plate 9 abuts against the top surface of the device to position the communication device. At the same time, the rubber pad can buffer vibration. Then, align the T-shaped block with the gap between the two limiting plates 11. Then, under the action of the rounded corners, the positioning mechanism 3 can be quickly inserted into the limiting mechanism. At the same time, the limiting plates 11 are squeezed and pushed upwards and downwards by the second spring 12. During the movement, the second spring 12 can also dampen external vibrations. Then the door closes. When the door closes, it pushes the limiting post 17 inward. The limiting post 17 moves inward, causing the gear 18 to rotate clockwise, which in turn causes the baffle 16 to slide outward, blocking the front end of the positioning mechanism 3 and preventing the positioning mechanism 3 from sliding out and shaking. At this time, the solar panel 2 provides power to the sensor 5 and the motor 15. When the temperature inside the box is too high, the sensor 5 transmits a signal to the motor 15. The motor 15 drives the two fans 13 to rotate simultaneously through the pulley 14 and the belt, so as to quickly cool the box by extracting the high temperature inside.
[0026] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.
Claims
1. A protective device for communication equipment, comprising a housing (1) and a solar panel (2) mounted on the top of the housing (1), characterized in that: The housing (1) is equipped with two sets of positioning mechanisms (3). The positioning mechanisms (3) are equipped with limiting mechanisms on both sides. A locking mechanism is installed at the front end of one of the limiting mechanisms. The housing (1) is equipped with a heat dissipation box (4) that communicates with the housing (1). The heat dissipation box (4) is equipped with a heat dissipation mechanism.
2. The communication equipment protection device according to claim 1, characterized in that: The back of the box (1) has two sets of exhaust holes, and each set of exhaust holes is equipped with a dustproof net (6) inside, and a sensor (5) is installed on the top inside the box (1).
3. The communication equipment protection device according to claim 1, characterized in that: The positioning mechanism (3) includes a positioning platform (7) inserted into the inner side of the box (1). T-shaped blocks are fixed on both sides of the positioning platform (7). The rear end of the T-shaped blocks has rounded corners. The positioning platform (7) is provided with a positioning plate (8). A pressure plate (9) is installed on the upper end of the positioning plate (8) through four connecting rods. A first spring (10) is sleeved on each of the four connecting rods. The bottom end of the first spring (10) is connected to the positioning plate (8), and the upper end is connected to the inner side of the positioning platform (7). The positioning platform (7), the positioning plate (8), and the pressure plate (9) are all provided with ventilation holes. Rubber pads are installed on the top surface of the positioning platform (7) and the bottom surface of the pressure plate (9).
4. The communication equipment protection device according to claim 1, characterized in that: The limiting mechanism includes two limiting plates (11) installed on both sides of the box (1). The two limiting plates (11) are located at the upper and lower ends of the T-shaped block, respectively. The front end of the limiting plate (11) is provided with rounded corners, and a second spring (12) is installed on the top surface of the upper limiting plate (11) and the bottom surface of the lower limiting plate (11).
5. A communication equipment protection device according to claim 1, characterized in that: The heat dissipation mechanism includes a heat dissipation filter shell (19) and a motor (15) installed in the heat dissipation box (4). Two fans (13) are installed inside the heat dissipation filter shell (19). Pulleys (14) are installed on the drive shafts of the two fans (13). A belt is sleeved on the two pulleys (14). One of the drive shafts is connected to the output shaft of the motor (15) through a coupling. The heat dissipation filter shell (19) is installed on the rear end face of the box body (1).
6. A communication equipment protection device according to claim 1, characterized in that: The locking mechanism includes a baffle (16) that is longitudinally slidably installed on one side of the front end of the housing (1). The baffle (16) has a first rack installed at both the upper and lower ends, and a gear (18) is provided at the front end of the baffle (16). The gear (18) is rotatably connected inside the housing (1), and a limiting post (17) is provided on one side of the gear (18). The limiting post (17) is inserted into one side of the front end of the housing (1), and a second rack is installed at the rear end of the limiting post (17). The first rack and the second rack are both meshed with the gear (18) for transmission.