A multifunctional monitoring vertical pole device
By using a sealed design and adjustment components in the base box and base plate structure, the instability problem caused by the connection point of the monitoring pole being exposed to the external environment is solved, realizing the stability and energy self-sufficiency of the monitoring pole, providing early warning function, and improving the reliability and adaptability of the monitoring equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG MINGKONG TECH CO LTD
- Filing Date
- 2025-08-05
- Publication Date
- 2026-07-14
AI Technical Summary
The connection points of existing surveillance poles are exposed to the external environment. Rainwater seeps into the connection gaps and accelerates aging, causing the poles to become unstable and affecting the stability and security of the surveillance equipment.
It adopts a base box and base plate structure, with the base plate located above the ground. The base box is equipped with a sealing ring and a sealing collar. The fixing components include a fixing plate, a push wedge block and a fixing nut. Combined with the adjustment components and monitoring components, a camera, vibration sensor and solar panel are installed on the top frame to achieve sealing and angle adjustment, reducing the impact of external factors on the connection points.
It effectively prevents rainwater infiltration, slows down the aging of connection points, improves the stability of poles and the reliability of monitoring equipment, reduces wiring costs, adapts to different ground stake specifications, and provides energy self-sufficiency and early warning functions.
Smart Images

Figure CN224495973U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of surveillance, specifically a multifunctional surveillance pole device. Background Technology
[0002] In today's society, surveillance systems are widely used in various locations such as roads, intersections, schools, government buildings, residential communities, factories, border defenses, and airports, playing a vital role in ensuring public safety, maintaining social order, and supervising production activities. As a key facility supporting surveillance equipment such as cameras, the performance and functionality of surveillance poles directly affect the effectiveness and stability of the surveillance system.
[0003] Currently, during the installation of surveillance poles, those skilled in the art often focus on improving the connection structure and materials between the pole and the ground to enhance the connection strength. This includes adding connection points and reinforcing ribs, and typically choosing corrosion-resistant or aging-resistant metal alloys. While this approach does strengthen the connection, the problem of exposed connection points remains. Rainwater seeps into the gaps, and combined with sun exposure, the pole may sway after many years, severely impacting its stability and safety. Utility Model Content
[0004] To overcome the above-mentioned technical defects, this utility model provides a multifunctional monitoring pole device.
[0005] To solve the above problems, this utility model is implemented according to the following technical solution:
[0006] The present invention discloses a multifunctional monitoring pole device, comprising a base box and a base plate. The base plate is located above an external ground stake, and the threaded rod of the external ground stake extends through the base plate to its top. The base box is provided with a fixing component for connecting with the threaded rod of the external ground stake. A sealing ring is installed at the bottom of the base box. A bottom rod extending to its top is installed inside the base box. A sealing collar is installed between the base box and the bottom rod.
[0007] Preferably, a temperature sensor and a humidity sensor are installed inside the bottom box.
[0008] Preferably, the bottom box has an installation hole with a diameter larger than that of the external ground pile threaded rod; the fixing assembly includes a fixing plate, a push-tightening wedge block and a fixing nut, the bottom box is provided with fixing plates located on both sides of the external ground pile threaded rod, the fixing plates are provided with push-tightening wedge blocks, and the external ground pile threaded rod is threadedly connected with a fixing nut that matches the push-tightening wedge block.
[0009] Preferably, the bottom rod is movably connected to the top frame, and an adjustment component for adjusting the angle of the top frame is provided between the bottom rod and the top frame.
[0010] Preferably, the adjusting assembly includes a rotating bevel gear, an adjusting handle, and an adjusting bevel gear. The bottom rod is rotatably connected to the rotating bevel gear, the other end of which is fixedly connected to the top frame. The bottom rod is rotatably connected to the adjusting handle extending into it. The adjusting handle is fitted with an adjusting bevel gear that meshes with the rotating bevel gear.
[0011] Preferably, a monitoring component is installed on the top frame; the monitoring component includes a mounting base, a camera, and a protective shell. The mounting base is installed on the top frame, the camera is mounted on the mounting base, and the protective shell, which is adapted to the signal cable on the outside of the camera, is hinged to the mounting base.
[0012] Preferably, a vibration sensor is mounted on the top frame, and a speaker electrically connected to the vibration sensor is also mounted on the top frame.
[0013] Preferably, a solar panel is installed on the top frame, and the solar panel is electrically connected to the vibration sensor speaker and the camera.
[0014] Compared with the prior art, the beneficial effects of this utility model are:
[0015] Through extensive research, the inventors discovered that the problem was not with the structure or materials of the connection, but rather with the fact that the connection point was exposed to the external environment. Rainwater would seep into the gaps in the connection, and ultraviolet rays from the sun would accelerate the aging of the connection components, thus leading to the aforementioned problems.
[0016] Therefore, this invention raises the overall height of the device above the ground by using a base plate, thereby preventing ground water from seeping into the connection point. It also covers the connection point with a base box, thereby isolating it from external factors such as rainwater and sunlight that would accelerate the corrosion of the connection point, thus reducing damage to the device from external factors and providing reliable basic support for the normal operation of the monitoring equipment. Attached Figure Description
[0017] The specific embodiments of this utility model will be further described in detail below with reference to the accompanying drawings, wherein:
[0018] Figure 1 This is a schematic diagram of the present invention;
[0019] Figure 2 This is a cross-sectional view of the bottom box of this utility model;
[0020] Figure 3 This is an enlarged view of point A of this utility model;
[0021] Figure 4 This is a top sectional view of the bottom box of this utility model;
[0022] Figure 5 This is a cross-sectional view of the adjustment component of this utility model;
[0023] Figure 6 This is a cross-sectional view of the monitoring component of this utility model.
[0024] In the picture:
[0025] 1. Base box; 101. Temperature sensor; 102. Humidity sensor; 103. Sealing ring; 104. Mounting hole; 105. Base plate; 106. Sealing collar; 2. Fixing assembly; 21. Fixing plate; 22. Push wedge block; 23. Fixing nut; 3. Base rod; 4. Adjusting assembly; 41. Rotating bevel gear; 42. Adjusting handle; 43. Adjusting bevel gear; 5. Top frame; 6. Monitoring assembly; 61. Mounting base; 62. Camera; 63. Protective shell; 7. Vibration sensor; 8. Speaker; 9. Solar panel. Detailed Implementation
[0026] The preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood that the preferred embodiments described herein are for illustration and explanation only and are not intended to limit the present invention.
[0027] like Figures 1-6 As shown, a multifunctional monitoring pole device of this utility model includes a base box 1 and a base plate 105. The base plate 105 is located above an external ground stake, and the threaded rod of the external ground stake extends through the base plate 105 to its top. The base box 1 is provided with a fixing component 2 for connecting with the threaded rod of the external ground stake. A sealing ring 103 is installed at the bottom of the base box 1. A bottom rod 3 extending to its top is installed inside the base box 1. A sealing collar 106 is installed between the base box 1 and the bottom rod 3.
[0028] Furthermore, a temperature sensor 101 and a humidity sensor 102 are installed inside the bottom box 1.
[0029] Temperature sensor 101 can monitor the temperature around the base box 1 in real time, while humidity sensor 102 can detect the humidity around the base box 1. Through the coordinated operation of these two sensors, the temperature and humidity environment around the base box 1 can be understood in a timely manner. If the temperature and humidity exceed the suitable range required for normal operation of the equipment, corresponding measures can be taken in time to extend the service life of the equipment and ensure the stable operation of the monitoring pole device.
[0030] Furthermore, the bottom box 1 has an installation hole 104 with a diameter larger than that of the external ground pile threaded rod; the fixing component 2 includes a fixing plate 21, a push-tightening wedge block 22 and a fixing nut 23. The bottom box 1 has fixing plates 21 located on both sides of the external ground pile threaded rod. Each fixing plate 21 is equipped with a push-tightening wedge block 22. The external ground pile threaded rod is threadedly connected to a fixing nut 23 that is compatible with the push-tightening wedge block 22.
[0031] The mounting hole 104 in the base box 1 has a diameter larger than that of the external ground pile threaded rod, facilitating the installation of the ground pile threaded rod through the base box 1 and improving installation convenience. In the fixing assembly 2, the fixing plate 21 is set on both sides of the external ground pile threaded rod, serving as a positioning and initial fixing function. Under the action of the fixing nut 23, the wedge block 22 can move towards the ground pile threaded rod and fit tightly, using the inclined surface principle of the wedge block to firmly clamp the ground pile threaded rod between the fixing plates 21. This design achieves reliable fixing of ground pile threaded rods of different diameters through mechanical structure, and the fixing effect is firm and stable, adaptable to various complex installation environments and ground piles of different specifications, ensuring the stability and reliability of the entire monitoring pole installation.
[0032] Furthermore, the adjustment assembly 4 includes a rotating bevel gear 41, an adjustment handle 42, and an adjustment bevel gear 43. The bottom rod 3 is rotatably connected to the rotating bevel gear 41, the other end of which is fixedly connected to the top frame 5. The bottom rod 3 is rotatably connected to the adjustment handle 42 extending into it. The adjustment handle 42 is equipped with the adjustment bevel gear 43 that meshes with the rotating bevel gear 41.
[0033] One end of the rotating bevel gear 41 is rotatably connected to the base rod 3, and the other end is fixedly connected to the top frame 5. When the rotating bevel gear 41 rotates, it drives the top frame 5 to rotate synchronously, thereby changing the angle of the top frame 5. The adjusting handle 42 is rotatably connected to the base rod 3 and extends into it, facilitating operation by the operator on the ground. The adjusting bevel gear 43 installed on the adjusting handle 42 meshes with the rotating bevel gear 41. By rotating the adjusting handle 42, the operator can drive the adjusting bevel gear 43 to rotate, which in turn drives the rotating bevel gear 41 to rotate, ultimately achieving precise adjustment of the angle of the top frame 5. This adjustment method using bevel gear transmission is compact, has high transmission efficiency, is convenient and labor-saving to operate, and can adjust the angle of the top frame 5 relatively accurately, meeting the diverse needs for monitoring angles in different monitoring scenarios.
[0034] Furthermore, a monitoring component 6 is installed on the top frame 5; the monitoring component 6 includes a mounting base 61, a camera 62 and a protective shell 63. The mounting base 61 is installed on the top frame 5, the camera 62 is installed on the mounting base 61, and the protective shell 63, which is adapted to the signal line on the outside of the camera 62, is hinged to the mounting base 61.
[0035] The protective shell 63 is hinged to the mounting base 61 and is compatible with the signal cable on the outside of the camera 62. It can protect the signal cable of the camera 62, preventing it from being damaged by external forces, wear, rain erosion, etc., thus extending the service life of the signal cable and ensuring the stability of the signal transmission of the camera 62. At the same time, it also protects the camera 62 itself to a certain extent, improving the overall reliability and durability of the monitoring component 6.
[0036] Furthermore, a vibration sensor 7 is installed on the top frame 5, and a speaker 8 electrically connected to the vibration sensor 7 is also installed on the top frame 5.
[0037] Vibration sensor 7 is installed on the top frame 5 and can monitor the vibration of the top frame 5 in real time. When the top frame 5 vibrates abnormally due to external forces such as strong winds or impacts, vibration sensor 7 can quickly detect the vibration signal and transmit the signal to the speaker 8 electrically connected to it. Upon receiving the signal, speaker 8 immediately sounds an alarm to alert nearby personnel and also notifies relevant maintenance personnel to check and handle the situation promptly. This prevents damage to the monitoring pole device or disruption of normal monitoring operations caused by abnormal vibration of the top frame 5, thus serving as an early warning and protective measure for the equipment.
[0038] Furthermore, a solar panel 9 is installed on the top frame 5, and the solar panel 9 is electrically connected to the vibration sensor 7, the speaker 8, and the camera 62.
[0039] Solar panel 9 is mounted on the top frame 5, fully utilizing solar energy, a clean energy source, to generate electricity. Solar panel 9 is electrically connected to vibration sensor 7, speaker 8, and camera 62, providing power to these devices. This design reduces dependence on external power sources, lowers wiring and electricity costs, and is particularly suitable for remote areas or locations with limited access to mains power. Furthermore, solar energy, as a clean energy source, aligns with environmental protection principles and reduces carbon emissions. In the event of a power outage or other emergencies, the energy stored in solar panel 9 can still power the equipment, ensuring the continuous operation of the monitoring pole device, improving its independence and reliability, and ensuring that monitoring operations are not affected by power supply issues.
[0040] The working principle of this multifunctional monitoring pole device is as follows:
[0041] First, the base plate 105 is installed above the external ground stake. Then, the fixing component 2 at the bottom of the base box 1 is connected to the threaded rod of the external ground stake above the base plate 105. With the cooperation of the fixing plate 21, the wedge block 22 and the fixing nut 23, the entire device is firmly fixed to the ground. The mounting hole 104 facilitates the insertion of the ground stake. The sealing ring 103 can be connected to the threaded rod of the external ground stake through the fixing nut 23. This allows the sealing ring 103 to be pressed tightly against the base plate 105, thereby preventing external impurities from entering the interior of the base box 1.
[0042] The temperature sensor 101 and humidity sensor 102 inside the base box 1 monitor the surrounding environment in real time and can also ensure the normal operation of the internal components; the base rod 3 serves as the main support, and the adjustment component 4 between it and the top frame 5 can flexibly adjust the angle of the top frame 5 by rotating the adjustment handle 42, which causes the adjustment bevel gear 43 to drive the rotating bevel gear 41 to rotate.
[0043] In the monitoring component 6 on the top frame 5, the mounting base 61 fixes the camera 62, and the protective shell 63 protects the camera signal line to ensure stable acquisition of monitoring images; when the vibration sensor 7 detects abnormal vibration of the top frame, it triggers the speaker 8 to sound an alarm; at the same time, the solar panel 9 on the top frame converts solar energy into electrical energy to power the camera, vibration sensor, speaker and other equipment, achieving energy self-sufficiency and ensuring that the device can work continuously and stably in various environments.
[0044] 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 way. Therefore, any modifications, equivalent changes, and alterations 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 scope of the technical solution of the present utility model.
Claims
1. A multifunctional monitoring pole device, comprising a base box (1) and a base plate (105), characterized in that: The base plate (105) is located above the external ground pile, and the threaded rod of the external ground pile extends through the base plate (105) to its top; The bottom box (1) is provided with a fixing assembly (2) for connecting with the external ground pile threaded rod. A sealing ring (103) is installed at the bottom of the base box (1). The bottom box (1) is equipped with a bottom rod (3) extending to its top. A sealing collar (106) is installed between the bottom box (1) and the bottom rod (3).
2. The multifunctional monitoring pole device according to claim 1, characterized in that: The bottom box (1) is equipped with a temperature sensor (101) and a humidity sensor (102).
3. The multifunctional monitoring pole device according to claim 1, characterized in that: The bottom box (1) has an installation hole (104) with a diameter larger than that of the external ground pile thread rod. The fixing component (2) includes a fixing plate (21), a push-tightening wedge block (22) and a fixing nut (23). The bottom box (1) is provided with fixing plates (21) located on both sides of the external ground pile threaded rod. Each fixing plate (21) is provided with a push-tightening wedge block (22). The external ground pile threaded rod is threadedly connected with a fixing nut (23) that is compatible with the push-tightening wedge block (22).
4. The multifunctional monitoring pole device according to claim 1, characterized in that: The bottom rod (3) is movably connected to the top frame (5), and an adjustment component (4) for adjusting the angle of the top frame (5) is provided between the bottom rod (3) and the top frame (5).
5. The multifunctional monitoring pole device according to claim 4, characterized in that: The adjustment assembly (4) includes a rotating bevel gear (41), an adjustment handle (42), and an adjustment bevel gear (43). The bottom rod (3) is rotatably connected to the rotating bevel gear (41) whose other end is fixedly connected to the top frame (5). The bottom rod (3) is rotatably connected to the adjustment handle (42) extending into it. The adjustment handle (42) is equipped with the adjustment bevel gear (43) that meshes with the rotating bevel gear (41).
6. The multifunctional monitoring pole device according to claim 5, characterized in that: A monitoring component (6) is installed on the top frame (5); The monitoring component (6) includes a mounting base (61), a camera (62) and a protective shell (63). The mounting base (61) is mounted on the top frame (5), the camera (62) is mounted on the mounting base (61), and the protective shell (63) is hinged to the mounting base (61) to be adapted to the signal line on the outside of the camera (62).
7. The multifunctional monitoring pole device according to claim 4, characterized in that: A vibration sensor (7) is installed on the top frame (5), and a speaker (8) electrically connected to the vibration sensor (7) is installed on the top frame (5).
8. The multifunctional monitoring pole device according to claim 5, characterized in that: A solar panel (9) is installed on the top frame (5), and the solar panel (9) is electrically connected to the vibration sensor (7), the speaker (8), and the camera (62).