Building equipment monitoring sensor array mounting bracket
By combining the main mounting rod, sliding rod, slider, and pressure rod, along with the design of adjustment knobs and connecting blocks, the problem of cumbersome installation of traditional building equipment monitoring sensor arrays is solved, enabling quick disassembly and installation, improving convenience and stability, while maintaining the aesthetics of the mounting bracket.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HANGZHOU WANZHAO TECH CO LTD
- Filing Date
- 2025-06-23
- Publication Date
- 2026-06-05
Smart Images

Figure CN224327744U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of building equipment monitoring sensor installation technology, specifically to a building equipment monitoring sensor array mounting bracket. Background Technology
[0002] Building equipment monitoring sensors are distributed throughout the building and can monitor the operating status of various equipment in real time and accurately, such as elevator vibration, air conditioning temperature and humidity, and water and electricity system pressure and flow. Once an abnormality occurs in the equipment, the sensors quickly capture and feed back the data so that managers can take timely maintenance measures to ensure the safe and stable operation of building equipment and improve the efficiency and quality of building management.
[0003] When installing building equipment monitoring sensors, traditional building equipment monitoring sensor array mounting brackets typically use bolts to fasten the monitoring sensors to the mounting bracket. This makes the daily replacement and repositioning of the monitoring sensors particularly cumbersome, requiring repeated drilling and disassembly, and also affecting the overall aesthetics of the mounting bracket. Utility Model Content
[0004] Based on this, the purpose of this utility model is to provide a mounting bracket for a building equipment monitoring sensor array, which allows for relatively quick disassembly and installation of the monitoring base, thereby improving the convenience of daily maintenance and relocation of the monitoring sensor. It also allows for quick disassembly and assembly of the monitoring base, thus avoiding repeated drilling on the mounting bracket and preventing damage to the mounting bracket.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a building equipment monitoring sensor array mounting bracket, comprising an array mounting frame, a mounting base, and a connecting block. An inner frame is fixed to the inner side of the array mounting frame, and several sets of main mounting holes are equally spaced inside the inner frame. Four sets of secondary mounting holes are arranged around the outer perimeter of each main mounting hole. A main mounting rod is fixed to the back of the mounting base and interlocks with the main mounting holes. Two sets of sliding grooves are opened inside the main mounting rod, and a sliding rod is slidably arranged inside the main mounting rod. Two sets of sliders are fixed to the outer side of the sliding rod and engage with the two sets of sliding grooves respectively. Two sets of pressure rods are fixed to the outer side of the sliding rod. A connecting block is rotatably arranged on the outer side of the sliding rod. The connecting block has a through groove and two sets of locking slots inside, arranged in a cross-shaped structure.
[0006] By adopting the above technical solution, the inner frame of the mounting bracket is used to support several sets of mounting bases. The mounting bases are used to provide installation space for the connecting blocks. The main mounting hole and the secondary mounting hole are used to provide insertion holes for the main mounting rod and the secondary mounting rod on the back of the mounting base, respectively. The main mounting rod provides a limiting function for the slider on the outside of the sliding rod through the internal sliding groove. The pressure rod can provide disassembly and clamping of the connecting block through the through groove and two sets of slots on the connecting block.
[0007] Furthermore, the mounting base has four sets of auxiliary mounting rods arranged in a circular array around the main mounting rod, which are respectively inserted into four sets of auxiliary mounting holes, and the rear ends of the four sets of auxiliary mounting rods are threaded with fastening nuts.
[0008] By adopting the above technical solution, the design of four sets of auxiliary mounting rods arranged in a circular array around the main mounting rod on the back of the mounting base significantly enhances the connection stability between the mounting bracket and the array mounting frame.
[0009] Furthermore, the sliding rod is internally threaded with an adjusting rod.
[0010] By adopting the above technical solution, the sliding rod can be moved by rotating the adjusting rod.
[0011] Furthermore, an adjustment knob is fixed to the back of the adjustment rod, and the size of the adjustment knob is smaller than the size of the main mounting hole.
[0012] By adopting the above technical solution, the design of the adjustment knob fixed on the back of the adjustment rod provides installers with a more convenient way of operation. The size of the adjustment knob is smaller than the size of the main mounting hole. This design ensures that the adjustment knob will not interfere with the main mounting hole or other parts of the array mounting bracket.
[0013] Furthermore, the front surface of the connecting block is fixed with four sets of connecting posts in a circumferential array, and the front surface of the four sets of connecting posts is fixed with a monitoring sensor mounting plate.
[0014] By adopting the above technical solution, the four sets of connecting columns fixed in a circular array on the front surface of the connecting block provide a stable and uniform support for the monitoring sensor mounting plate. The monitoring sensor mounting plate is fixed on the front surface of the four sets of connecting columns. This design makes the installation of the monitoring sensor more convenient and efficient.
[0015] Furthermore, the through groove is inserted into two sets of pressure rods, and the two sets of slots are respectively engaged with the two sets of pressure rods.
[0016] By adopting the above technical solution, the interlocking design of the through groove and the two sets of pressure rods facilitates the initial connection between the connecting block and the pressure rods. The interlocking design of the two sets of slots with the two sets of pressure rods further enhances the connection stability between the connecting block and the pressure rods.
[0017] In summary, the present invention has the following main advantages:
[0018] This utility model is designed with a main mounting rod, a sliding rod, a slider, and a pressure rod. The main mounting rod has a groove inside for the slider to engage and slide. The sliding rod slides inside the main mounting rod. At the same time, the sliding rod is threadedly connected to an adjusting rod. By rotating the adjusting rod, the sliding rod can slide inside the main mounting rod, thereby allowing the sliding rod to control the two sets of pressure rods at the outer end to move synchronously.
[0019] This invention, by setting a connecting block, a through groove, and a locking groove, allows the two sets of pressure rods at the outer end of the sliding rod to move. When the pressure rods move to their furthest point from the mounting base, the connecting block can be inserted into the pressure rod through the through groove. Then, the connecting block is rotated 90 degrees so that the locking groove on the connecting block corresponds to the two sets of pressure rods. After that, by rotating the adjusting rod, the sliding rod can be threaded into the adjusting rod, driving the pressure rods to move towards the mounting base, thereby allowing the two sets of pressure rods to engage and abut against the locking groove, thus fixing the connecting block. Attached Figure Description
[0020] Figure 1 This is a schematic diagram of the overall front view of the present invention;
[0021] Figure 2 This is a schematic diagram of the overall rear view structure of this utility model;
[0022] Figure 3 This is a schematic diagram of the connecting block of this utility model in its installed state;
[0023] Figure 4 This is a schematic diagram of the connecting block of this utility model in a disassembled state.
[0024] In the diagram: 1. Array mounting bracket; 2. Inner frame of the mounting bracket; 3. Main mounting hole; 4. Secondary mounting hole; 5. Mounting base; 6. Main mounting rod; 7. Secondary mounting rod; 8. Fastening nut; 9. Slide groove; 10. Sliding rod; 11. Sliding block; 12. Pressure rod; 13. Adjusting rod; 14. Connecting block; 15. Through groove; 16. Slot; 17. Connecting column; 18. Monitoring sensor mounting plate. Detailed Implementation
[0025] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings. The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain the present invention, and should not be construed as limiting the present invention.
[0026] Building equipment monitoring sensor array mounting bracket, such as Figures 1-4As shown, the system includes an array mounting frame 1, a mounting base 5, and a connecting block 14. An inner frame 2 is fixed to the inner side of the array mounting frame 1. Several sets of main mounting holes 3 are evenly spaced inside the inner frame 2. Four sets of secondary mounting holes 4 are arranged around the outer side of the main mounting holes 3. A main mounting rod 6 is fixed to the back of the mounting base 5 and is inserted into the main mounting holes 3. Two sets of sliding grooves 9 are opened inside the main mounting rod 6. A sliding rod 10 is slidably arranged inside the main mounting rod 6. Two sets of sliders 11 are fixed to the outer side of the sliding rod 10 and engage with the two sets of sliding grooves 9 respectively. Two sets of pressure rods 12 are fixed to the outer side of the sliding rod 10. A connecting block 14 is rotatably arranged on the outer side of the sliding rod 10. The connecting block 14 has a through groove 15 and two sets of slots 16 inside, arranged in a cross shape.
[0027] The modularity and standardization of the mounting structure are achieved by setting up the array mounting bracket 1, the inner frame of the mounting bracket 2, the main mounting hole 3, and the secondary mounting hole 4. At the same time, the plug-in cooperation between the main mounting rod 6 and the main mounting hole 3 ensures a stable connection between the mounting base 5 and the array mounting bracket 1, providing a stable support foundation for the entire mounting bracket. The sliding setting of the sliding rod 10 inside the main mounting rod 6, and the engagement and sliding of the slider 11 and the sliding groove 9, realize the flexible adjustment of the position of the pressure rod 12. The rotation setting of the connecting block 14 and the cross-shaped structure with through grooves 15 and slots 16 inside provide a more flexible and stable connection method for the mounting bracket.
[0028] See Figure 2 , Figure 3 and Figure 4 On the back of the mounting base 5 and around the main mounting rod 6, there are four sets of auxiliary mounting rods 7 arranged in a circular array, which are respectively inserted into four sets of auxiliary mounting holes 4. The rear ends of the four sets of auxiliary mounting rods 7 are threaded with fastening nuts 8.
[0029] Among them, the four sets of auxiliary mounting rods 7 are respectively inserted into the four sets of auxiliary mounting holes 4, forming a multi-point support structure, which effectively disperses the load borne by the inner frame 2 of the mounting frame and improves the stability of the overall structure. During installation, by rotating the fastening nut 8, it can be tightly fitted with the auxiliary mounting rod 7, thereby firmly fixing the mounting base 5 on the array mounting frame 1.
[0030] See Figure 3 and Figure 4 The sliding rod 10 is internally threaded with an adjusting rod 13;
[0031] The sliding distance of the sliding rod 10 inside the main mounting rod 6 can be precisely controlled by rotating the adjusting rod 13, thereby achieving fine adjustment of the position of the pressure rod 12.
[0032] See Figure 3 and Figure 4An adjustment knob is fixed to the back of the adjustment rod 13, and the size of the adjustment knob is smaller than the size of the main mounting hole 3;
[0033] During installation or adjustment, installers can directly drive the adjusting rod 13 by rotating the adjusting knob, thereby controlling the sliding of the sliding rod 10, without the need for additional tools or equipment. The adjusting knob can rotate freely during the installation or adjustment of the mounting bracket without being restricted or obstructed by surrounding structures. This design not only ensures the normal operation of the adjusting rod 13 but also improves the overall compactness and aesthetics of the mounting bracket.
[0034] See Figure 3 The front surface of the connecting block 14 is fixed with four sets of connecting posts 17 in a circular array, and the front surface of the four sets of connecting posts 17 is fixed with a monitoring sensor mounting plate 18.
[0035] The circular array layout allows the monitoring sensor mounting plate 18 to maintain balance under stress, avoiding stress concentration caused by single-point support. This improves the overall stability and reliability of the mounting bracket. Installers only need to fix the monitoring sensor on the mounting plate 18, and the monitoring sensor can be accurately installed in the required position through the stable connection between the connecting column 17 and the connecting block 14.
[0036] See Figure 3 and Figure 4 The through groove 15 is inserted into the two sets of pressure rods 12, and the two sets of slots 16 are respectively engaged with the two sets of pressure rods 12;
[0037] The installer can easily insert the pressure rod 12 into the through groove 15 to achieve quick positioning of the connecting block 14 and the pressure rod 12. After the pressure rod 12 is inserted into the through groove 15, the connecting block 14 is rotated to make the slot 16 engage with the pressure rod 12, which can ensure a firm connection between the connecting block 14 and the pressure rod 12.
[0038] The implementation principle of this embodiment is as follows: First, the array mounting bracket 1 is stably installed in the designated position. Then, the mounting base 5 is inserted and engaged with the four sets of auxiliary mounting rods 7 and main mounting rods 6 on the back of the array mounting bracket 1 through the four sets of auxiliary mounting holes 4 and main mounting holes 3 opened on the inner frame 2 of the mounting bracket. The mounting base 5 is then threadedly fastened to the auxiliary mounting rods 7 through the fastening nuts 8, thereby allowing the mounting base 5 to be stably installed on the inner frame 2 of the mounting bracket. Then, by rotating the adjusting rod 13, the sliding rod 10 can slide inside the main mounting rod 6. The sliding rod 10 engages with the two sets of sliding grooves 9 inside the main mounting rod 6 through the two sets of sliders 11 on the outside, thereby allowing the sliding rod 10 to slide inside the main mounting rod 6. The sliding rod 10 controls the two sets of pressure rods 12 at the outer end to move synchronously. Then, when the pressure rod 12 moves to the farthest point from the mounting base 5, the connecting block 14 can be inserted into the pressure rod 12 through the through groove 15. The connecting block 14 is rotated 90 degrees so that the slot 16 on the connecting block 14 corresponds to the two sets of pressure rods 12. Then, by rotating the adjusting rod 13, the sliding rod 10 is connected to the adjusting rod 13 by thread, which drives the pressure rod 12 to move towards the mounting base 5, so that the two sets of pressure rods 12 are engaged and pressed against the slot 16, thus fixing the connecting block 14. Finally, the monitoring sensor can be installed on the monitoring sensor mounting plate 18.
[0039] Although embodiments of the present invention have been shown and described, these specific embodiments are merely explanations of the present invention and are not intended to limit the invention. The specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples. After reading this specification, those skilled in the art may make modifications, substitutions, and variations to the embodiments as needed without departing from the principles and spirit of the present invention, provided that such modifications, substitutions, and variations are within the scope of the claims of the present invention and are protected by patent law.
Claims
1. A mounting bracket for a building equipment monitoring sensor array, characterized in that: Includes array mounting bracket (1), mounting base (5) and connecting block (14); The inner side of the array mounting frame (1) is fixed with an inner frame (2), and the inner frame (2) is provided with several sets of main mounting holes (3) at equal intervals. The outer side of the main mounting holes (3) is provided with four sets of auxiliary mounting holes (4). The back of the mounting base (5) is fixed with a main mounting rod (6) and is inserted into the main mounting hole (3). The inner side of the main mounting rod (6) is provided with two sets of sliding grooves (9), and the inner side of the main mounting rod (6) is provided with a sliding rod (10). The outer side of the sliding rod (10) is fixed with two sets of sliders (11), which are engaged and slid with the two sets of sliding grooves (9) respectively. The outer side of the sliding rod (10) is fixed with two sets of pressure rods (12). The outer side of the sliding rod (10) is provided with a connecting block (14). The inner side of the connecting block (14) is provided with a through groove (15) and two sets of slots (16), which are arranged in a cross shape.
2. The mounting bracket for the building equipment monitoring sensor array according to claim 1, characterized in that: The mounting base (5) has four sets of auxiliary mounting rods (7) arranged in a circular array around the main mounting rod (6), which are respectively inserted into four sets of auxiliary mounting holes (4). The rear ends of the four sets of auxiliary mounting rods (7) are threaded with fastening nuts (8).
3. The mounting bracket for the building equipment monitoring sensor array according to claim 1, characterized in that: The sliding rod (10) is internally threaded with an adjusting rod (13).
4. The mounting bracket for the building equipment monitoring sensor array according to claim 3, characterized in that: An adjustment knob is fixed to the back of the adjustment rod (13), and the size of the adjustment knob is smaller than the size of the main mounting hole (3).
5. The mounting bracket for the building equipment monitoring sensor array according to claim 1, characterized in that: The front surface of the connecting block (14) is fixed with four sets of connecting posts (17) in a circumferential array, and the front surface of the four sets of connecting posts (17) is fixed with a monitoring sensor mounting plate (18).
6. The mounting bracket for the building equipment monitoring sensor array according to claim 1, characterized in that: The through groove (15) is inserted into the two sets of pressure rods (12), and the two sets of slots (16) are respectively engaged with the two sets of pressure rods (12).