Intelligent building monitoring fixing device
By designing a sliding cover and a fixed base structure in the building intelligent monitoring device, the top box can be easily disassembled and installed, solving the problem of inconvenient disassembly of the top box in the existing technology, and improving the maintenance efficiency and dust blowing and insect repelling effect of the monitoring device.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGXI OPUS INTELLIGENT TECH CO LTD
- Filing Date
- 2025-06-11
- Publication Date
- 2026-06-19
AI Technical Summary
The existing building intelligent monitoring fixed devices are not easy to disassemble and replace at the top box, which means that the entire camera needs to be disassembled when the motor fails, which affects the quick replacement and maintenance.
A building intelligent monitoring fixed device was designed. By setting a sliding cover and a fixing seat on the camera housing, and using the structure of plug-in plate and clip, the top box can be easily disassembled and installed. The fan blades are driven by a motor-driven transmission shaft to generate wind power to blow on the surface of the glass cover to achieve dust removal and insect repellent.
It improves the ease of disassembly and installation of the top box, ensures monitoring quality, and achieves rapid maintenance and effective dust and insect repellency by blowing wind onto the glass cover surface.
Smart Images

Figure CN224385587U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of building intelligent monitoring, and specifically relates to a fixed device for building intelligent monitoring. Background Technology
[0002] Video surveillance is an important component of security systems. Cameras are the eyes of video surveillance, providing a field of view. Video surveillance is now ubiquitous, and it has a particularly significant effect on the security management of the surrounding environment of buildings.
[0003] Existing technologies have specifically developed some fixed devices for building intelligent monitoring. For example, Chinese patent with announcement number "CN215636385U" discloses "A video monitoring device for building intelligent security management". By setting up the fan blade, the fan blade will rotate under the drive of the motor, rotating shaft, rotating rod, driving gear and driven gear, thereby generating wind. The wind will directly pass through the air guide plate and act on the outer surface of the glass cover, thereby playing the role of blowing away dust, repelling insects and accelerating the evaporation of rainwater, ensuring the monitoring quality.
[0004] Although the fan blades, driven by the motor, shaft, rod, drive gear, and driven gear, rotate to generate wind, which directly passes through the air guide plate and acts on the outer surface of the glass cover to blow away dust, repel insects, and accelerate rainwater evaporation, thus ensuring monitoring quality, the top box is not easy to disassemble and replace during use. This means that if the motor fails, the entire camera needs to be disassembled, which is not conducive to quick replacement and repair. Utility Model Content
[0005] In view of the problems mentioned in the background art, the purpose of this utility model is to provide a fixed device for building intelligent monitoring to solve the problems of building intelligent monitoring.
[0006] The above-mentioned technical objective of this utility model is achieved through the following technical solution:
[0007] A building intelligent monitoring fixed device includes a camera housing, a sliding cover slidably mounted on the outer ring of the camera housing, and fixed bases fixedly mounted on both sides of one end of the camera housing. Each of the two fixed bases has a slot at its upper and lower ends. Insertion plates are integrally formed on both sides of the sliding cover near the fixed bases. Two locking blocks are slidably mounted on the upper and lower ends of each of the two insertion plates. Both insertion plates are slidably mounted inside the two fixed bases, and both locking blocks are engaged within the inner ring of the slots. A protruding assembly block is integrally formed on one end of the camera housing. A glass cover is internally threaded to the end of the protruding assembly block away from the camera housing. A top box is fixedly mounted on the side of the sliding cover away from the camera housing. A motor is fixedly mounted at the center of the end of the top box away from the sliding cover. A drive shaft is fixedly mounted on the output shaft of the motor. A fan blade is fixedly mounted on the end of the drive shaft away from the motor output shaft. A fixing frame is hinged to the center of the end of the camera housing away from the sliding cover.
[0008] As a preferred technical solution, the camera housing has limit grooves on both sides and the top, and the sliding cover has limit blocks integrally formed on the top and both sides. All three limit blocks are slidably installed inside the limit grooves.
[0009] As a preferred technical solution, the two fixing bases have a plug-in groove at their center, and the two plug-in plates are slidably installed inside the fixing base through the plug-in groove.
[0010] As a preferred technical solution, slots are provided inside the upper and lower ends of the two plug-in plates, and springs are fixedly installed inside the slots. The locking block is fixedly installed at the end of the spring away from the slot.
[0011] As a preferred technical solution, a circular opening is provided at the center of the protruding assembly block, a lens is provided inside the circular opening, an internal thread is provided on the outer ring of the circular opening, and an external thread ring is provided at one end of the glass cover near the protruding assembly block, the external thread ring being threadedly connected to the inside of the internal thread.
[0012] As a preferred technical solution, a partition is fixedly installed inside the top box, the drive shaft passes through the top cover and the partition and is fixedly connected to the fan blade, ventilation openings are provided on both sides of the partition, and a ventilation grille is provided at the connection between the top box and the sliding cover.
[0013] As a preferred technical solution, a hinge seat is fixedly installed at the end of the camera housing away from the sliding cover. Rotating grooves are opened inside both sides of the hinge seat. A hinge block is integrally formed at the end of the fixing frame close to the camera housing. A rotating shaft is integrally formed at both ends of the hinge block. The hinge block is rotatably installed inside the fixing seat, and the two rotating shafts are rotatably installed in the inner circle of the rotating groove.
[0014] In summary, the present invention has the following main advantages:
[0015] First, when it is necessary to disassemble or replace the top box, the staff can manually press the locking blocks at the upper and lower ends of the two plug-in plates to disengage the locking blocks from the inner ring of the slot. Then, the staff can pull the sliding cover to one side to disengage the plug-in plates formed on both sides of the sliding cover from the inside of the fixing seat. This completes the disassembly, effectively improving the speed and portability of disassembly.
[0016] Secondly, staff can start the motor to drive the drive shaft to rotate. When the drive shaft rotates, it can effectively drive the fan blades fixed at one end of the drive shaft. After the fan blades rotate, they will generate wind force, which will directly blow through the ventilation grille onto the outer surface of the glass cover, thereby playing the role of blowing away dust, repelling insects, and accelerating the evaporation of rainwater, ensuring the quality of monitoring. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the structure of this utility model;
[0018] Figure 2 This is a schematic diagram of the glass cover structure of this utility model;
[0019] Figure 3 This is a schematic diagram of the internal cross-sectional structure of the top box of this utility model;
[0020] Figure 4 This is a schematic diagram of the internal structure of the sliding cover of this utility model;
[0021] Figure 5 This is a utility model Figure 4 A magnified structural diagram of part A;
[0022] Figure 6 This is a utility model Figure 4 A schematic diagram of the enlarged structure of part B;
[0023] Figure 7 This is a schematic diagram of the mounting structure of the fixing bracket of this utility model.
[0024] Reference numerals: 1. Motor; 2. Top box; 3. Sliding cover; 4. Camera housing; 5. Hinge seat; 6. Rotating shaft; 7. Fixing bracket; 8. Hinge block; 9. Glass cover; 10. Ventilation grille; 11. Internal threaded opening; 12. Circular opening; 13. Protruding assembly block; 14. Lens; 15. External threaded ring; 16. Drive shaft; 17. Ventilation opening; 18. Fan blade; 19. Limiting block; 20. Limiting groove; 21. Insertion plate; 22. Locking block; 23. Slot; 24. Spring; 25. Locking groove; 26. Fixing seat; 27. Insertion groove; 28. Rotating groove; 29. Partition plate. Detailed Implementation
[0025] Example
[0026] refer to Figures 1-7 This embodiment of a building intelligent monitoring fixing device includes a camera housing 4. A sliding cover 3 is slidably installed on the outer ring of the camera housing 4. Fixing seats 26 are fixedly installed on both sides of one end of the camera housing 4. The upper and lower ends of the two fixing seats 26 are provided with slots 25. Insertion plates 21 are integrally formed on both sides of the sliding cover 3 near the fixing seats 26. Two locking blocks 22 are slidably installed on the upper and lower ends of the two insertion plates 21. The two insertion plates 21 are slidably installed inside the two fixing seats 26, and the two locking blocks 22 are engaged in the slots. 25. One end of the camera housing 4 is integrally formed with a protruding assembly block 13. The end of the protruding assembly block 13 away from the camera housing 4 is internally threaded with a glass cover 9. The sliding cover 3 is fixedly installed on one side of the end away from the camera housing 4. The end of the top box 2 away from the sliding cover 3 is fixedly installed with a motor 1 at the center position. The output shaft of the motor 1 is fixedly installed with a transmission shaft 16. The end of the transmission shaft 16 away from the output shaft of the motor 1 is fixedly installed with a fan blade 18. The center position of the end of the camera housing 4 away from the sliding cover 3 is hinged with a fixing bracket 7.
[0027] refer to Figure 4 , Figures 5 to 6 Limiting grooves 20 are provided on both sides and the top of the camera housing 4. Limiting blocks 19 are integrally formed on the top and both sides of the sliding cover 3. The three limiting blocks 19 are slidably installed inside the limiting grooves 20. Insertion grooves 27 are provided in the center of the two fixing seats 26. The two insertion plates 21 are slidably installed inside the fixing seats 26 through the insertion grooves 27. The upper and lower ends of the two insertion plates 21 are provided with slots 23. Springs 24 are fixedly installed inside the slots 23. The locking blocks 22 are fixedly installed at the end of the springs 24 away from the slots 23. When it is necessary to disassemble the top box 2 and replace the top box 2, the staff can manually press the locking blocks 22 at the upper and lower ends of the two insertion plates 21 to disengage the locking blocks 22 from the inner ring of the slots 25. Then the staff pulls the sliding cover 3 to one side to disengage the insertion plates 21 integrally formed on both sides of the sliding cover 3 from the inside of the fixing seats 26. This completes the disassembly, effectively improving the speed and portability of disassembly.
[0028] refer to Figure 2 A circular opening 12 is provided at the center of the protruding assembly block 13. A lens 14 is provided inside the circular opening 12. An internal threaded opening 11 is provided on the outer ring of the circular opening 12. An external threaded ring 15 is provided at one end of the glass cover 9 near the protruding assembly block 13. The external threaded ring 15 is threaded into the internal threaded opening 11. The glass cover 9 is threaded into the protruding assembly block 13, which can effectively improve the portability of disassembly when disassembling the glass cover 9.
[0029] refer to Figure 3 The top box 2 has a partition 29 fixedly installed inside. The drive shaft 16 passes through the top cover and the partition 29 and is fixedly connected to the fan blade 18. Ventilation openings 17 are provided on both sides of the partition 29. A ventilation grille 10 is provided at the connection between the top box 2 and the sliding cover 3. The operator can start the motor 1 to drive the drive shaft 16 to rotate. When the drive shaft 16 rotates, it can effectively drive the fan blade 18 fixedly installed at one end of the drive shaft 16. After the fan blade 18 rotates, it will generate wind force, which will directly blow through the ventilation grille 10 and blow onto the outer surface of the glass cover 9, thereby playing the role of blowing away dust, repelling insects and accelerating the evaporation of rainwater, ensuring the monitoring quality.
[0030] refer to Figure 7 A hinge base 5 is fixedly installed at the end of the camera housing 4 away from the sliding cover 3. Rotating grooves 28 are opened on both sides of the hinge base 5. A hinge block 8 is integrally formed at the end of the fixing frame 7 close to the camera housing 4. A rotating shaft 6 is integrally formed at both ends of the hinge block 8. The hinge block 8 is rotatably installed inside the fixing base 26, and the two rotating shafts 6 are rotatably installed in the inner ring of the rotating groove 28. The staff can effectively fix the camera housing 4 to one side of the wall.
[0031] Operating principle and advantages: When it is necessary to disassemble or replace the top box 2, the operator can manually press the locking blocks 22 at the upper and lower ends of the two plug-in plates 21 to disengage the locking blocks 22 from the inner ring of the slot 25. Then, the operator pulls the sliding cover 3 to one side, causing the plug-in plates 21 integrally formed on both sides of the sliding cover 3 to disengage from the fixing base 26. This completes the disassembly, effectively improving the speed and portability of disassembly, allowing the operator to better inspect the top box 2. Similarly, when installing the sliding cover 3, the operator needs to align the integrally formed limiting blocks 19 on the upper and both sides of the inner side of the sliding cover 3 with the limiting grooves 20 on the upper and both sides of the outer side of the camera for sliding installation. When the sliding cover 3 is slidably installed onto the camera housing 4, it can effectively limit the sliding cover 3, preventing the sliding cover 3 from shifting or tilting. During installation, the connector plate 21 slides inside the mounting base 26. The locking blocks 22, which are slidably installed at the upper and lower ends of the connector plate 21, are effectively engaged in the slots 25 due to the elasticity of the spring 24. This effectively fixes the sliding cover 3 to the outer ring of the camera housing 4, improving the portability of the installation. The operator can start the motor 1 to drive the drive shaft 16 to rotate. When the drive shaft 16 rotates, it can effectively drive the fan blade 18 fixedly installed at one end of the drive shaft 16. After the fan blade 18 rotates, it will generate wind force, which will directly blow through the ventilation grille 10 and blow on the outer surface of the glass cover 9, thereby playing the role of blowing away dust, repelling insects, and accelerating the evaporation of rainwater, ensuring the monitoring quality. Since the glass cover 9 is threadedly connected inside the protruding assembly block 13, the portability of disassembly can be effectively improved when disassembling the glass cover 9.
Claims
1. A building intelligent monitoring fixed device, comprising a camera housing, characterized in that: A sliding cover is slidably mounted on the outer ring of the camera housing. Fixing seats are fixedly mounted on both sides of one end of the camera housing. Each of the two fixing seats has a slot at its upper and lower ends. Insertion plates are integrally formed on both sides of the sliding cover near the fixing seats. Two locking blocks are slidably mounted on the upper and lower ends of each of the two insertion plates. Both insertion plates are slidably mounted inside the two fixing seats. Both locking blocks are engaged within the inner ring of the slots. A protruding assembly block is integrally formed on one end of the camera housing. A glass cover is internally threaded onto the end of the protruding assembly block away from the camera housing. A top box is fixedly mounted on the side of the sliding cover away from the camera housing. A motor is fixedly mounted at the center of the end of the top box away from the sliding cover. A drive shaft is fixedly mounted on the output shaft of the motor. A fan blade is fixedly mounted on the end of the drive shaft away from the motor output shaft. A fixing bracket is hinged at the center of the end of the camera housing away from the sliding cover.
2. The building intelligent monitoring fixed device according to claim 1, characterized in that: Limiting grooves are provided on both sides and the top of the camera housing, and limiting blocks are integrally formed on the top and both sides of the sliding cover. All three limiting blocks are slidably installed inside the limiting grooves.
3. The building intelligent monitoring fixed device according to claim 1, characterized in that: The two mounting bases have insertion slots at their center, and the two insertion plates are slidably installed inside the mounting bases through the insertion slots.
4. The building intelligent monitoring fixed device according to claim 1, characterized in that: Both of the two plug-in plates have slots inside their upper and lower ends, and springs are fixedly installed inside the slots. The locking block is fixedly installed at the end of the spring away from the slot.
5. A building intelligent monitoring fixed device according to claim 1, characterized in that: A circular opening is provided at the center of the protruding assembly block, and a lens is provided inside the circular opening. An internal thread is provided on the outer ring of the circular opening. An external thread ring is provided at one end of the glass cover near the protruding assembly block, and the external thread ring is threaded into the internal thread opening.
6. The building intelligent monitoring fixed device according to claim 1, characterized in that: The top box has a partition fixedly installed inside. The drive shaft passes through the top cover and the partition and is fixedly connected to the fan blade. Ventilation openings are provided on both sides of the partition. A ventilation grille is provided at the connection between the top box and the sliding cover.
7. A building intelligent monitoring fixed device according to claim 1, characterized in that: A hinge base is fixedly installed at the end of the camera housing away from the sliding cover. Rotating grooves are opened inside both sides of the hinge base. A hinge block is integrally formed at the end of the fixing frame close to the camera housing. A rotating shaft is integrally formed at both ends of the hinge block. The hinge block is rotatably installed inside the fixing base, and the two rotating shafts are rotatably installed in the inner circle of the rotating groove.