High-rise building facade decoration structure with energy consumption collection function
By designing a placement frame and fixing components, the cracking problem of decorative panels during the installation of energy consumption collection equipment was solved, enabling stable installation and convenient maintenance of the energy consumption data collector, and improving the stability and durability of the decorative panels.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIANGSU JINSHANG DECORATION DESIGN ENG CO LTD
- Filing Date
- 2025-07-14
- Publication Date
- 2026-07-14
AI Technical Summary
Existing decorative panels are prone to cracking when energy consumption collection equipment is installed due to the insertion of metal parts, which affects normal use.
The system employs a combination structure of a placement frame, fixing components, and an energy consumption data collector. Through the design of sliders, square boxes, and springs, the energy consumption data collector is securely installed. Knobs and positioning stakes further enhance connection stability and prevent loosening or displacement.
It effectively prevents the decorative panel from loosening and shifting due to vibration and other factors, ensuring the stable installation of the energy consumption data collector. It combines aesthetics and functionality, and facilitates the maintenance and replacement of the equipment.
Smart Images

Figure CN224495644U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of building facade technology, specifically a high-rise building facade decoration structure with energy consumption collection function. Background Technology
[0002] Decorative panels, commonly known as panels, are decorative boards made by precisely slicing solid wood boards into thin veneers of about 0.2mm thickness, using plywood as the base material, and then gluing them together. They have a decorative function on one side.
[0003] Currently, existing decorative panels have devices with energy consumption collection functions installed on their surface and are fixed by expansion bolts. However, due to the characteristics of the decorative panel's own structure, inserting metal parts can cause cracking, which is detrimental to the normal use of the decorative panel. Utility Model Content
[0004] To address the problem that existing decorative panels are inconvenient for assembling energy consumption monitoring equipment, this utility model provides a high-rise building facade decoration structure with energy consumption monitoring functionality.
[0005] In view of the above problems, the technical solution proposed by this utility model is as follows:
[0006] A high-rise building facade decoration structure with energy consumption collection function includes a decorative panel, a placement frame installed on one side of the decorative panel, and a fixing component inside the placement frame; an energy consumption data collector connected to one side of the fixing component, the fixing component including a slider, square boxes installed on both sides of the slider, anti-detachment blocks slidably connected inside the two square boxes, one end of the anti-detachment block extending into the interior of the placement frame, and a spring connected inside the square box, one end of the spring connected to one side of the anti-detachment block.
[0007] Furthermore, the placement frame includes a frame body, with screw holes on both sides of the frame body, and a knob is threaded into the screw holes. One end of the knob is connected to a positioning post.
[0008] The beneficial effect of adopting the above-mentioned further solution is that the knob of the placement frame can drive the positioning pile to rotate and adjust its position by connecting it with the screw hole, so that the positioning pile can be inserted into the positioning hole of the anti-detachment block, further enhancing the connection stability between the fixing component and the placement frame, and ensuring that the energy consumption data collector will not loosen or shift in the complex environment outside the high-rise building.
[0009] Furthermore, the outer wall of the anti-detachment block is provided with positioning holes that engage with the positioning stake.
[0010] The beneficial effect of adopting the above-mentioned further solution is that it makes the connection between the fixing component and the placement frame tighter, the two fit together precisely, avoids relative displacement caused by vibration and other factors, and ensures the stable installation of the energy consumption data acquisition device.
[0011] Furthermore, a notch is provided on one side of the outer wall of the frame to match the slider.
[0012] The beneficial effect of adopting the above-mentioned further solution is that it can guide the slider to enter the placement frame quickly and accurately during installation, thereby playing a positioning role. At the same time, it can also limit the range of motion of the slider within the placement frame, prevent it from shifting, and ensure that the fixing components are installed in place.
[0013] Furthermore, the energy consumption data collector includes a collector body, a fixing plate connected to one side of the collector body, screws inserted into the side of the fixing plate, and the fixing plate connected to one side of the slider by the screws.
[0014] The beneficial effect of adopting the above-mentioned further solution is that it can firmly fix the collector body on the fixed component, effectively prevent the collector from falling off during use, and ensure the normal operation of energy consumption data collection.
[0015] Furthermore, a signal interface is provided on the outer wall of the collector body.
[0016] The beneficial effect of adopting the above-mentioned further solution is that it can be used to connect external devices or transmission lines, making it convenient to transmit the collected energy consumption data to the data processing center or other terminal devices, so as to realize real-time monitoring and analysis of energy consumption data.
[0017] Furthermore, the decorative panel has strip-shaped openings at its four corners, and a gasket is attached to the side of the decorative panel near the strip-shaped opening. The gasket includes a sheet body, and the outer wall of the sheet body has a hollowed-out groove.
[0018] The beneficial effects of adopting the above-mentioned further solution are that the strip-shaped opening can provide installation space for bolt fasteners during installation, the hollow groove 6002 of the gasket can increase the contact friction between the gasket and the mounting surface, prevent the decorative panel from sliding during installation, and at the same time the gasket can also play a buffering role, avoiding damage caused by direct contact between the decorative panel and the mounting surface, and improving the stability and durability of the decorative panel after installation.
[0019] Furthermore, the top surface of the anti-detachment block is provided with a groove.
[0020] The beneficial effect of adopting the above-mentioned further solution is that the slot provides the operator with a point of force application. When installing or removing the energy consumption data acquisition device, the anti-detachment block can be easily pushed by moving the slot to overcome the spring force, so that the anti-detachment block retracts or extends out of the square box, making the operation more labor-saving and convenient, and improving the efficiency of equipment installation and maintenance.
[0021] Compared with the prior art, the beneficial effects of this utility model are:
[0022] This high-rise building facade decoration structure with energy consumption collection function facilitates the installation of energy consumption collection equipment by using a placement frame, fixing components, and an energy consumption data collector. This effectively avoids damage to the structure itself. The slider of the fixing component allows for easy installation and positioning within the placement frame. Springs in the side boxes push anti-detachment blocks into the placement frame, firmly fixing the energy consumption data collector to the decorative panel and preventing it from falling. When disassembly is needed, pressing the anti-detachment blocks overcomes the spring force, allowing for easy removal of the collector for maintenance and replacement. Integrating the energy consumption data collector within the placement frame of the decorative panel does not occupy additional space, enabling the high-rise building facade to achieve both decorative and energy consumption data collection functions, combining aesthetics and functionality. Attached Figure Description
[0023] Figure 1 An assembly diagram of a high-rise building facade decoration structure with energy consumption collection function provided by this utility model;
[0024] Figure 2 A schematic diagram of an energy consumption data collector for a high-rise building facade decoration structure with energy consumption collection function provided by this utility model;
[0025] Figure 3 A schematic diagram of a placement frame structure for a high-rise building facade decoration structure with energy consumption collection function provided by this utility model;
[0026] Figure 4 A schematic diagram showing the unfolded components of a fixed component for a high-rise building facade decoration structure with energy consumption collection function provided by this utility model;
[0027] Figure 5 This utility model provides a schematic diagram of a gasket structure for a high-rise building facade decoration structure with energy consumption collection function.
[0028] In the diagram: 100, decorative panel; 200, energy consumption data collector; 2001, collector body; 2002, fixing plate; 2003, screw; 2004, signal interface; 300, placement frame; 3001, frame body; 3002, notch; 3003, screw hole; 3004, knob; 3005, positioning post; 400, fixing component; 4001, slider; 4002, square box; 4003, spring; 4004, anti-detachment block; 4005, positioning hole; 4006, slot; 500, strip opening; 600, gasket; 6001, sheet body; 6002, hollow groove. Detailed Implementation
[0029] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0030] Please see Figures 1-5 This utility model provides a technical solution: a high-rise building facade decoration structure with energy consumption collection function, including a decorative panel 100, a placement frame 300 installed on one side of the decorative panel 100, and a fixing component 400 inside the placement frame 300; an energy consumption data collector 200 connected to one side of the fixing component 400, the fixing component 400 including a slider 4001, square boxes 4002 respectively installed on both sides of the slider 4001, anti-detachment blocks 4004 slidably connected inside the two square boxes 4002 respectively, one end of the anti-detachment block 4004 extending into the interior of the placement frame 300, and a spring 4003 connected inside the square box 4002, one end of the spring 4003 connected to one side of the anti-detachment block 4004. The slider 4001 of the fixing component 400 facilitates installation and positioning within the placement frame 300, and the springs 4003 in the two square boxes 4002 push the anti-detachment blocks 4004 to extend into the placement frame 300. Inside, the energy consumption data collector 200 can be firmly fixed to the decorative panel 100 to prevent it from falling off. When disassembly is required, press the anti-detachment block 4004 to overcome the spring force, and the collector can be easily removed, which facilitates the maintenance and replacement of the equipment. The energy consumption data collector is integrated into the placement frame of the decorative panel without taking up extra space, so that the facade of the high-rise building can realize energy consumption data collection while having a decorative function, combining aesthetics and functionality.
[0031] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0032] As an embodiment of this utility model, the placement frame 300 further includes a frame body 3001. Screw holes 3003 are respectively provided on both sides of the frame body 3001. A knob 3004 is threadedly connected inside the screw holes 3003. One end of the knob 3004 is connected to a positioning post 3005. The knob 3004 of the placement frame 300, through its threaded connection with the screw holes 3003, can drive the positioning post 3005 to rotate and adjust its position, thus engaging the positioning post 3005 into the positioning hole 4005 of the anti-detachment block 4004. This further enhances the connection stability between the fixing component and the placement frame, ensuring that the energy consumption data collector will not loosen or shift even in complex environments outside high-rise buildings. The outer wall of the anti-detachment block 4004 has positioning holes 4005 that engage with the positioning post 3005, making the connection between the fixing component and the placement frame tighter and more precise, avoiding relative displacement caused by vibration and other factors, and ensuring the stable installation of the energy consumption data collector.
[0033] As an embodiment of this utility model, the outer wall of the frame 3001 is further provided with a notch 3002 that matches the slider 4001. During installation, the notch can guide the slider to enter the placement frame quickly and accurately, thereby playing a positioning role. At the same time, it can also limit the range of motion of the slider in the placement frame, prevent it from shifting, and ensure that the fixing components are installed in place.
[0034] As an embodiment of this utility model, the energy consumption data collector 200 further includes a collector body 2001. A fixing plate 2002 is connected to one side of the collector body 2001. Screws 2003 are inserted through the side of the fixing plate 2002. The fixing plate 2002 is connected to one side of the slider 4001 through the screws 2003, which can firmly fix the collector body 2001 on the fixing component, effectively preventing the collector from falling off during use and ensuring the normal operation of energy consumption data collection. The outer wall of the collector body 2001 is provided with a signal interface 2004, which can be used to connect external devices or transmission lines, so as to facilitate the transmission of the collected energy consumption data to the data processing center or other terminal devices, and realize the real-time monitoring and analysis of energy consumption data.
[0035] As an embodiment of this utility model, further, the four corners of the decorative panel 100 are respectively provided with strip-shaped openings 500, and a gasket 600 is adhered to the side of the decorative panel 100 near the strip-shaped openings 500. The gasket 600 includes a sheet body 6001, and the outer wall of the sheet body 6001 is provided with a hollow groove 6002. The strip-shaped opening can provide installation space for bolt fasteners during installation. The hollow groove 6002 of the gasket can increase the contact friction between the gasket and the mounting surface, prevent the decorative panel from sliding during installation, and at the same time, the gasket can also play a buffering role, avoiding direct contact between the decorative panel and the mounting surface and causing damage, thereby improving the stability and durability of the decorative panel after installation.
[0036] As an embodiment of this utility model, the top surface of the anti-detachment block 4004 is provided with a groove 4006. The groove 4006 provides a force point for the operator. When installing or disassembling the energy consumption data collector, the anti-detachment block can be easily pushed by moving the groove to overcome the spring force, so that the anti-detachment block retracts or extends out of the square box. The operation is more labor-saving and convenient, and the efficiency of equipment installation and maintenance is improved.
[0037] Specifically, the working principle of this high-rise building facade decoration structure with energy consumption collection function is as follows: During use, the decorative panel 100 is fixed to the building facade with bolts through the four corner slots 500. The hollow groove 6002 of the gasket 600 increases friction and buffers, ensuring the stable installation of the decorative panel. The collector body 2001 of the energy consumption data collector 200 is connected to the slider 4001 of the fixing component 400 through the fixing plate 2002 and screws 2003. During installation, the slider 4001 slides into the placement frame 300 along the notch 3002 of the frame 3001. During the process, the anti-detachment block 4004 is pressed to overcome the elastic force of the spring 4003 and retract into the square box 4002. After it is in place, the spring pushes the anti-detachment block to extend, achieving initial fixation. Then, the knob 3004 is rotated to drive the positioning pile 3005 to rotate, so that it is locked into the positioning hole 4005 of the anti-detachment block 4004, further reinforcing the connection. During operation, the data collector 2001 connects to external devices or lines via signal interface 2004 to transmit the collected energy consumption data to terminals such as processing centers for real-time monitoring and analysis. When maintenance or replacement of the data collector is required, the operator moves the anti-detachment block 4004 by moving the top slot 4006, pushing the anti-detachment block into the square box, and simultaneously rotating the knob 3004 to release the locking of the positioning stake, thus easily removing the data collector.
Claims
1. A facade decoration structure for high-rise buildings with energy consumption collection function, characterized in that, include: A decorative panel (100) is provided with a placement frame (300) on one side, and a fixing component (400) is provided inside the placement frame (300). An energy consumption data acquisition device (200) is connected to one side of the fixing component (400). The fixing component (400) includes a slider (4001). Square boxes (4002) are respectively installed on both sides of the slider (4001). Anti-detachment blocks (4004) are slidably connected inside the two square boxes (4002). One end of the anti-detachment block (4004) extends into the interior of the placement frame (300). A spring (4003) is connected inside the square box (4002). One end of the spring (4003) is connected to one side of the anti-detachment block (4004).
2. The high-rise building facade decoration structure with energy consumption collection function according to claim 1, characterized in that, The placement frame (300) includes a frame body (3001), and screw holes (3003) are respectively opened on both sides of the frame body (3001). A knob (3004) is threaded inside the screw hole (3003), and a positioning post (3005) is connected to one end of the knob (3004).
3. A high-rise building facade decoration structure with energy consumption collection function according to claim 2, characterized in that, The outer wall of the anti-detachment block (4004) is provided with a positioning hole (4005) that engages with the positioning post (3005).
4. A high-rise building facade decoration structure with energy consumption collection function according to claim 3, characterized in that, The outer wall of the frame (3001) has a notch (3002) that matches the slider (4001).
5. A high-rise building facade decoration structure with energy consumption collection function according to claim 1, characterized in that, The energy consumption data collector (200) includes a collector body (2001), a fixing plate (2002) is connected to one side of the collector body (2001), and screws (2003) are inserted through the side of the fixing plate (2002). The fixing plate (2002) is connected to one side of the slider (4001) by the screws (2003).
6. A high-rise building facade decoration structure with energy consumption collection function according to claim 5, characterized in that, The outer wall of the collector body (2001) is provided with a signal interface (2004).
7. A high-rise building facade decoration structure with energy consumption collection function according to claim 1, characterized in that, The decorative panel (100) has strip openings (500) at its four corners. A gasket (600) is attached to the side of the decorative panel (100) near the strip opening (500). The gasket (600) includes a sheet body (6001), and a hollow groove (6002) is formed on the outer wall of the sheet body (6001).
8. A high-rise building facade decoration structure with energy consumption collection function according to claim 1, characterized in that, The top surface of the anti-detachment block (4004) is provided with a groove (4006).