Beacon device data control guard
By designing buffer, heat dissipation, filtration, and sealing components on the beacon equipment, the problem of the beacon equipment being easily damaged is solved, the stability and service life of the equipment are improved, and a comprehensive protection effect is achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN YIPU ECOLOGICAL TECHNOLOGY CO LTD
- Filing Date
- 2025-07-24
- Publication Date
- 2026-06-26
AI Technical Summary
After installation, beacon equipment is susceptible to damage to its internal electronic components due to external forces, which affects its stability and lifespan.
A data control protection device for beacon equipment was designed, including a buffer component, a heat dissipation component, a filter component, and a sealing component. The buffer component reduces the impact of external forces, the heat dissipation component improves heat dissipation efficiency, the filter component filters impurities, and the sealing component prevents dust from entering, forming a comprehensive protection structure.
It effectively protects beacon equipment from external impacts, improves equipment stability and service life, reduces damage to electronic components and aging caused by heat buildup, and maintains the efficient operation of beacon equipment.
Smart Images

Figure CN224418800U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of beacon equipment technology, specifically a beacon equipment data control and protection device. Background Technology
[0002] A beacon device is a small wireless transmitter based on Bluetooth Low Energy technology that can broadcast signals to nearby smart devices.
[0003] The main application scenarios of beacon devices include indoor positioning and navigation, near-field marketing and advertising, and smart home control. The content of the broadcast is transmitted outward through the antenna to realize the function of data control. Beacon devices are usually installed at a height of about two meters above the ground. After the beacon devices are installed, they are easily damaged by external forces.
[0004] Therefore, this utility model provides a data control and protection device for beacon equipment. Utility Model Content
[0005] In order to overcome the shortcomings of the prior art, at least one technical problem raised in the background art is solved.
[0006] The technical solution adopted by this utility model to solve its technical problem is as follows: The beacon equipment data control protection device of this utility model includes a beacon machine; the beacon machine is mounted on a wall by a bracket; a buffer assembly is provided on the outer wall of the beacon machine; a heat dissipation assembly is provided on the beacon machine through the buffer assembly; a filter assembly is provided on the beacon machine through the buffer assembly; and a sealing assembly is provided on the beacon machine through the buffer assembly. Through the above structure, the buffer assembly is designed to reduce the impact on the beacon machine, forming a beacon equipment protection structure, realizing the function of protecting the beacon machine when it is subjected to external force or impact, solving the problem of damage to the internal electronic components of the beacon machine caused by external force and impact, and improving the stability of the beacon machine during use.
[0007] Preferably, the buffer assembly includes a restraint frame, rubber rods, a protective cover, a rubber cylinder, and a fixing ring; the restraint frame is detachably installed on the outer wall of the beacon; a pair of restraint frames are arranged symmetrically on the outer wall of the beacon; one end of the rubber rod is fixedly connected to the outer wall of the restraint frame; multiple sets of rubber rods are arranged on the outer wall of the restraint frame and are evenly distributed; the inner wall of the fixing ring is fixedly connected to the end of one set of rubber rods away from the restraint frame; the fixing ring is detachably installed on the inner wall of the protective cover; the protective cover is fitted onto the outer wall of the beacon; the rubber cylinder is installed on the outer wall of the protective cover; through the above structure, the rubber rods bend and buffer the external force when the beacon is impacted, forming an impact buffer structure, realizing the function of buffering the impact and external force received by the beacon, solving the problem of damage to the internal electronic components of the beacon caused by external force, improving the stability of the beacon when subjected to external impact, improving the beacon's protection capability, and increasing the service life of the beacon.
[0008] Preferably, the heat dissipation assembly includes a fixed cylinder, an exhaust fan, and a grille; the fixed cylinder is fixedly connected to the middle of the protective cover; the exhaust fan is installed on the inner wall of the fixed cylinder near the beacon; the grille is fixedly connected to the inner wall of the fixed cylinder away from the exhaust fan; multiple sets of grilles are arranged on the inner wall of the fixed cylinder; through the above structure, the exhaust fan draws out the air inside the protective cover and allows external air to enter the protective cover to dissipate heat from the beacon, forming a beacon heat dissipation structure. This achieves the function of accelerating air circulation inside the protective cover to dissipate heat from the beacon, solving the problem of heat accumulation inside the beacon causing overheating, improving the heat dissipation capacity of the device, reducing heat accumulation inside the protective cover, reducing the accelerated aging of electronic components due to heat accumulation inside the beacon, and improving the service life of the beacon.
[0009] Preferably, the filter assembly includes a filter cloth and a retaining ring; the retaining ring is fixedly connected to the outer wall of the filter cloth; the filter cloth is detachably installed on the outer wall of the beacon; a pair of filter cloths are provided on the outer wall of the beacon and are symmetrically arranged; the retaining ring is engaged with the inner wall of the protective cover; through the above structure, the filter cloth filters the air entering the protective cover, forming a filter structure of the device, realizing the function of filtering the air entering the protective cover, solving the problem of impurities or foreign objects in the air entering the protective cover and causing dirt on the surface of the beacon, improving the cleanliness of the air entering the protective cover, and reducing the problem of dust or foreign objects adhering to the surface of the beacon and reducing the beacon's heat dissipation capacity.
[0010] Preferably, the sealing assembly includes a flexible cover and an elastic ring; one end of the flexible cover is fixedly connected to the side wall of the protective cover away from the fixed cylinder; the elastic ring is fixedly connected to the end of the flexible cover away from the fixed cylinder; through the above structure, the elastic ring and the flexible cover form a sealing structure between the side wall of the protective cover and the support, realizing the function of sealing between the protective cover and the support, solving the problem of external dust or foreign objects entering the interior of the protective cover when the support penetrates the side wall of the protective cover, improving the sealing performance of the protective cover, and reducing the situation of dust or foreign objects entering the interior of the protective cover.
[0011] Preferably, a rubber ring is fixedly connected to the inner sidewall of the restraint frame; the rubber ring is provided on the inner sidewall of both pairs of restraint frames; through the above structure, the rubber ring is installed between the beacon machine and the restraint frame, which improves the stability of the restraint frame when it is installed on the outer sidewall of the beacon machine, increases the friction between the beacon machine and the restraint frame, and reduces the possibility of the restraint frame falling off the outer sidewall of the beacon machine.
[0012] Preferably, the interior of the protective cover is honeycomb-shaped; the honeycomb interior of the protective cover improves the structural strength of the protective cover, reduces the mass of the protective cover, improves the lightweight of the device, and reduces the deformation of the protective cover when subjected to external forces and impacts.
[0013] The beneficial effects of this utility model are as follows:
[0014] 1. The beacon equipment data control protection device of this utility model weakens the impact on the beacon by setting a buffer component to form a beacon equipment protection structure, realizing the function of protecting the beacon when it is subjected to external force or impact, solving the problem of damage to the internal electronic components of the beacon caused by external force and impact, and improving the stability of the beacon during use.
[0015] 2. The beacon equipment data control protection device of this utility model buffers the external force by causing the rubber rod to bend when the beacon is impacted, thus forming an impact buffer structure. This buffers the impact and external force on the beacon, solves the problem of damage to the internal electronic components of the beacon caused by external force, improves the stability of the beacon when subjected to external impact, enhances the beacon's protection capability, and extends the service life of the beacon. Attached Figure Description
[0016] The present invention will be further described below with reference to the accompanying drawings.
[0017] Figure 1 This is a perspective view of the present invention;
[0018] Figure 2 This is a schematic diagram of the structure of the protective cover and the beacon unit in this utility model;
[0019] Figure 3 This is a schematic diagram of the structure of the rubber rod and the beacon unit in this utility model;
[0020] Figure 4 This is a schematic diagram of the structure of the filter cloth and the protective cover in this utility model;
[0021] Figure 5 This is a schematic diagram of the structure of the grille and protective cover in this utility model.
[0022] In the diagram: 1. Beacon machine; 11. Restraint frame; 12. Rubber rod; 13. Protective cover; 14. Rubber cylinder; 15. Fixing ring; 2. Fixing cylinder; 21. Exhaust fan; 22. Grille; 3. Filter cloth; 31. Snap ring; 4. Flexible cover; 41. Elastic ring; 5. Rubber ring. Detailed Implementation
[0023] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.
[0024] like Figures 1 to 5 As shown, the beacon equipment data control protection device of this utility model embodiment includes a beacon machine 1; the beacon machine 1 is mounted on a wall via a bracket; a buffer assembly is provided on the outer wall of the beacon machine 1; a heat dissipation assembly is provided on the beacon machine 1 via the buffer assembly; a filter assembly is provided on the beacon machine 1 via the buffer assembly; and a sealing assembly is provided on the beacon machine 1 via the buffer assembly. During operation, the buffer assembly is installed on the outer wall of the beacon machine 1, the filter assembly is installed at both ends of the buffer assembly, and the bracket passes through the sealing assembly to install the beacon machine 1 in a suitable position. When the beacon machine 1 is working, the heat dissipation assembly is activated, and the heat dissipation assembly... Air is extracted from the buffer assembly, and external air enters between the beacon 1 and the buffer assembly through the filter assembly to exchange heat with the beacon 1. When the beacon 1 is subjected to external force or impact, the buffer assembly weakens the impact. Through the above structure, the buffer assembly weakens the impact on the beacon 1, forming a protective structure for the beacon equipment. This realizes the function of protecting the beacon 1 from external force or impact, solves the problem of damage to the internal electronic components of the beacon 1 caused by external force and impact, and improves the stability of the beacon 1 during use.
[0025] like Figures 1 to 4As shown, the buffer assembly includes a restraint frame 11, rubber rods 12, a protective cover 13, a rubber cylinder 14, and a fixing ring 15. The restraint frame 11 is detachably installed on the outer wall of the beacon machine 1. A pair of restraint frames 11 are arranged symmetrically on the outer wall of the beacon machine 1. One end of the rubber rod 12 is fixedly connected to the outer wall of the restraint frame 11. Multiple sets of rubber rods 12 are arranged on the outer wall of the restraint frame 11 and are evenly distributed. The inner wall of the fixing ring 15 is fixedly connected to the end of a set of rubber rods 12 away from the restraint frame 11. The fixing ring 15 is detachably installed on the inner wall of the protective cover 13. The protective cover 13 is fitted onto the outer wall of the beacon machine 1. The rubber cylinder 14 is installed on the outer wall of the protective cover 13. During operation, when there are objects... When an external force impacts the beacon 1, the protective cover 13 and the rubber cylinder 14 block the external force and impact. The rubber rod 12 bends to dissipate the impact force, maintaining the stability of the beacon 1. The rubber cylinder 14 is made of flexible material, which can buffer the impact force. Through the above structure, the rubber rod 12 bends to buffer the external force when an external force impacts the beacon 1, forming an impact buffer structure. This achieves the function of buffering the impact and external force received by the beacon 1, solving the problem of damage to the internal electronic components of the beacon 1 caused by external force, improving the stability of the beacon 1 when subjected to external force impact, improving the protection capability of the beacon 1, and increasing the service life of the beacon 1.
[0026] like Figures 2 to 4 As shown, the heat dissipation assembly includes a fixed cylinder 2, an exhaust fan 21, and a grille 22. The fixed cylinder 2 is fixedly connected to the middle of the protective cover 13. The exhaust fan 21 is installed on the inner wall of the fixed cylinder 2 near the beacon 1. The grille 22 is fixedly connected to the inner wall of the fixed cylinder 2 away from the exhaust fan 21. Multiple sets of grilles 22 are arranged on the inner wall of the fixed cylinder 2. During operation, when the protective cover 13 covers the beacon 1, the heat generated by the beacon 1 accumulates inside the protective cover 13. When the exhaust fan 21 is activated, it draws the air inside the protective cover 13 outward, creating a negative pressure inside the protective cover 13. External air enters the protective cover 13 through the end of the protective cover 13 and exchanges heat with the beacon 1. The beacon unit 1 undergoes heat dissipation treatment, and the grille 22 protects the fixed cylinder 2. Through the above structure, the exhaust fan 21 draws out the air inside the protective cover 13 and allows external air to enter the protective cover 13 to dissipate heat from the beacon unit 1. This constitutes the heat dissipation structure of the beacon unit 1, which realizes the function of accelerating the air circulation inside the protective cover 13 to dissipate heat from the beacon unit 1. This solves the problem of heat generated by the beacon unit 1 accumulating inside the protective cover 13 and causing overheating inside the beacon unit 1, improves the heat dissipation capacity of the device, reduces the accumulation of heat inside the protective cover 13, reduces the situation of heat accumulation inside the beacon unit 1 causing accelerated aging of electronic components, and improves the service life of the beacon unit 1.
[0027] like Figure 3 and Figure 4As shown, the filter assembly includes a filter cloth 3 and a retaining ring 31; the retaining ring 31 is fixedly connected to the outer wall of the filter cloth 3; the filter cloth 3 is detachably installed on the outer wall of the beacon machine 1; a pair of filter cloths 3 are provided on the outer wall of the beacon machine 1, and are arranged symmetrically; the retaining ring 31 is engaged with the inner wall of the protective cover 13; during operation, the inner wall of the filter cloth 3 is installed on the side wall of the restraint frame 11, the retaining ring 31 is engaged with the inner wall of the protective cover 13, and the filter cloth 3 is installed at the end of the protective cover 13. Before external air enters the interior of the protective cover 13 through the end of the protective cover 13, the filter cloth... 3. The incoming air is filtered to block impurities or foreign objects in the air. Through the above structure, the filter cloth 3 filters the air entering the protective cover 13, forming a filter structure of the device. This realizes the function of filtering the air entering the protective cover 13, solving the problem of impurities or foreign objects in the air entering the protective cover 13 and causing dirt on the surface of the beacon machine 1. It improves the cleanliness of the air entering the protective cover 13 and reduces the problem of dust or foreign objects adhering to the surface of the beacon machine 1, which leads to a decrease in the heat dissipation capacity of the beacon machine 1.
[0028] like Figure 1 and Figure 3 As shown, the sealing assembly includes a flexible cover 4 and an elastic ring 41. One end of the flexible cover 4 is fixedly connected to the side wall of the protective cover 13 away from the fixed cylinder 2. The elastic ring 41 is fixedly connected to the end of the flexible cover 4 away from the fixed cylinder 2. During operation, when the beacon 1 is installed on the wall via a bracket, the bracket passes through the middle of the flexible cover 4 and the side wall of the protective cover 13 and is fixed to the beacon 1. After the elastic ring 41 contracts, it fits tightly against the surface of the bracket, sealing the side wall of the protective cover 13. Through the above structure, the elastic ring 41 and the flexible cover 4 form a sealing structure between the side wall of the protective cover 13 and the bracket, realizing the function of sealing between the protective cover 13 and the bracket. This solves the problem of external dust or foreign objects entering the interior of the protective cover 13 when the bracket passes through the side wall of the protective cover 13, improves the sealing performance of the protective cover 13, and reduces the possibility of dust or foreign objects entering the interior of the protective cover 13.
[0029] like Figure 4 As shown, a rubber ring 5 is fixedly connected to the inner wall of the restraint frame 11; the rubber ring 5 is provided on the inner wall of both pairs of restraint frames 11; during operation, when the restraint frame 11 is installed on the outer wall of the beacon machine 1, the rubber ring 5 is placed between the beacon machine 1 and the restraint frame 11 to increase the friction between the beacon machine 1 and the restraint frame 11; through the above structure, the rubber ring 5 is installed between the beacon machine 1 and the restraint frame 11, which improves the stability of the restraint frame 11 when it is installed on the outer wall of the beacon machine 1, increases the friction between the beacon machine 1 and the restraint frame 11, and reduces the possibility of the restraint frame 11 falling off the outer wall of the beacon machine 1.
[0030] like Figure 5As shown, the interior of the protective cover 13 is honeycomb-shaped. During operation, the honeycomb structure inside the protective cover 13 improves the structural strength of the protective cover 13, reduces the mass of the protective cover 13, increases the lightweight of the device, and reduces the deformation of the protective cover 13 when subjected to external forces and impacts.
[0031] During operation, the buffer assembly is installed on the outer wall of the beacon 1, and the filter assembly is installed at both ends of the buffer assembly. The bracket passes through the sealing assembly to install the beacon 1 in a suitable position. When the beacon 1 is working, the heat dissipation assembly is activated, which extracts the air inside the buffer assembly. External air enters between the beacon 1 and the buffer assembly through the filter assembly to exchange heat with the beacon 1. When the beacon 1 is subjected to external force or impact, the buffer assembly weakens the impact. When an object or external force impacts the beacon 1, the protective cover 13 and the rubber cylinder 14 block the external force and impact. The rubber rod 12 bends to dissipate the impact force and maintain the stability of the beacon 1. The rubber cylinder 14 is made of flexible material and can buffer the impact force. When the protective cover 13 covers the beacon 1, the heat generated by the beacon 1 accumulates inside the protective cover 13. The exhaust fan 21 is activated, which draws the air inside the protective cover 13 outward, creating a negative pressure inside the protective cover 13. External air enters the protective cover 13 through the end of the protective cover 13. The beacon 1 undergoes heat exchange with the beacon unit 1, providing heat dissipation. The grille 22 protects the fixing cylinder 2. The inner wall of the filter cloth 3 is installed on the side wall of the restraint frame 11, and the retaining ring 31 is secured to the inner wall of the protective cover 13. The filter cloth 3 is installed at the end of the protective cover 13. Before external air enters the interior of the protective cover 13 through the end of the protective cover 13, the filter cloth 3 filters the incoming air, blocking impurities or foreign objects in the air. When the beacon unit 1 is installed on the wall by the bracket, the bracket passes through the flexible cover 4. The protective cover 13 is fixed to the beacon machine 1. After the elastic ring 41 contracts, it fits tightly against the surface of the bracket to seal the side wall of the protective cover 13. When the restraint frame 11 is installed on the outer side wall of the beacon machine 1, the rubber ring 5 is placed between the beacon machine 1 and the restraint frame 11 to increase the friction between the beacon machine 1 and the restraint frame 11. The interior of the protective cover 13 is honeycomb-shaped, which improves the structural strength of the protective cover 13, reduces the mass of the protective cover 13, improves the lightweight of the device, and reduces the deformation of the protective cover 13 when subjected to external forces and impacts.
[0032] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.
Claims
1. A beacon equipment data control protection device, comprising a beacon unit (1); characterized in that: The beacon (1) is mounted on the wall by a bracket; the outer wall of the beacon (1) is provided with a buffer assembly; the beacon (1) is provided with a heat dissipation assembly through the buffer assembly; the beacon (1) is provided with a filter assembly through the buffer assembly; the beacon (1) is provided with a sealing assembly through the buffer assembly.
2. The beacon device data control guard of claim 1, wherein: The buffer assembly includes a restraint frame (11), rubber rods (12), a protective cover (13), a rubber cylinder (14), and a fixing ring (15). The restraint frame (11) is detachably installed on the outer wall of the beacon machine (1). A pair of restraint frames (11) are provided on the outer wall of the beacon machine (1) and are arranged symmetrically. One end of the rubber rod (12) is fixedly connected to the outer wall of the restraint frame (11). Multiple sets of rubber rods (12) are provided on the outer wall of the restraint frame (11) and are evenly distributed on the outer wall of the restraint frame (11). The inner wall of the fixing ring (15) is fixedly connected to the end of a set of rubber rods (12) away from the restraint frame (11). The fixing ring (15) is detachably installed on the inner wall of the protective cover (13). The protective cover (13) is fitted on the outer wall of the beacon machine (1). The rubber cylinder (14) is installed on the outer wall of the protective cover (13).
3. The beacon device data control guard of claim 2, wherein: The heat dissipation assembly includes a fixed cylinder (2), an exhaust fan (21), and a grille (22); the fixed cylinder (2) is fixedly connected to the middle of the protective cover (13); the exhaust fan (21) is installed on the inner wall of the fixed cylinder (2) near the beacon machine (1); the grille (22) is fixedly connected to the inner wall of the fixed cylinder (2) away from the exhaust fan (21); multiple sets of grilles (22) are provided on the inner wall of the fixed cylinder (2).
4. The beacon device data control guard of claim 1, wherein: The filter assembly includes a filter cloth (3) and a retaining ring (31); the retaining ring (31) is fixedly connected to the outer wall of the filter cloth (3); the filter cloth (3) is detachably installed on the outer wall of the beacon machine (1); a pair of filter cloths (3) are provided on the outer wall of the beacon machine (1) and are arranged symmetrically; the retaining ring (31) is snapped into the inner wall of the protective cover (13).
5. The beacon device data control guard of claim 3, wherein: The sealing assembly includes a flexible cover (4) and an elastic ring (41); one end of the flexible cover (4) is fixedly connected to the side wall of the protective cover (13) away from the fixed cylinder (2); the elastic ring (41) is fixedly connected to the end of the flexible cover (4) away from the fixed cylinder (2).
6. The beacon device data control guard of claim 2, wherein: A rubber ring (5) is fixedly connected to the inner wall of the restraint frame (11); the rubber ring (5) is provided on the inner wall of both restraint frames (11).
7. The beacon device data control guard of claim 2, wherein: The interior of the protective cover (13) is honeycomb-shaped.