Metal roof floodlight node structure

By setting up a floodlight node structure on the metal roof, including horizontal keel, vertical keel and connectors, the installation of floodlights is realized, which solves the problems of complex installation, unsightly appearance and durability in the existing technology, and realizes the concealed setting and convenient installation of the lamps.

CN224338488UActive Publication Date: 2026-06-09THE THIRD CONSTR ENG CO LTD OF CHINA CONSTR SECOND ENG BUREAU

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
THE THIRD CONSTR ENG CO LTD OF CHINA CONSTR SECOND ENG BUREAU
Filing Date
2025-05-20
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing methods for installing floodlights on metal roofs are prone to aesthetic damage, have low durability, are complex to install, and are difficult to replace.

Method used

The structure adopts a metal roof floodlight node structure, including horizontal keel, vertical keel, connecting corner pieces, adapters and honeycomb aluminum panels. The floodlights are installed in a concealed manner, and the adapters and connectors are used to achieve convenient installation and positioning.

Benefits of technology

The concealed installation of floodlights ensures the overall aesthetics and durability of the metal roof while simplifying the installation process.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224338488U_ABST
    Figure CN224338488U_ABST
Patent Text Reader

Abstract

The utility model discloses a kind of metal roof floodlight node structures, include horizontal keel, vertical keel connected to horizontal keel, the connecting angle piece connected between horizontal keel and vertical keel, the adapter and the docking piece connected to the outer side of vertical keel, honeycomb aluminum plate connected to the docking piece and the floodlight set at the adapter place. By the setting of adapter, it is conducive to the floodlight set behind honeycomb aluminum plate hidden type setting, both ensure lighting and do not destroy the original metal roof modeling;By the setting of docking piece, it ensures the fixed installation of floodlight set and honeycomb aluminum plate, and also provides the installation base of convenient plug-in for adapter;Through the fixed connection of vertical keel, the overall fixation of floodlight set is guaranteed.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of floodlight node installation technology, and in particular to a floodlight node structure for metal roofs. Background Technology

[0002] In the design and construction of metal roofs, the installation of floodlights is a key focus, ensuring the subsequent illumination and aesthetics of the metal roof. Typical floodlight strip installation involves directly fixing the strips to the metal panel using specialized clamps or brackets. While convenient, this method is extremely unsightly and the strips have low durability. Some installations involve pre-installing light grooves in the metal roof, but this method is complex and difficult to replace. Therefore, a targeted design is needed to ensure that the light strips do not disrupt the integrity of the metal roof while providing effective lighting and easy installation and positioning. Utility Model Content

[0003] This utility model provides a metal roof floodlight node structure to solve technical problems such as concealed setting and convenient installation and positioning of metal roof floodlights.

[0004] To achieve the above objectives, the present invention adopts the following technical solution:

[0005] A metal roof floodlight node structure includes a horizontal keel, a vertical keel connected to the horizontal keel, a connecting corner piece connecting the horizontal keel and the vertical keel, a transition piece and a butt piece connected to the outside of the vertical keel, a honeycomb aluminum plate connected to the butt piece, and a floodlight fixture installed at the transition piece.

[0006] The honeycomb aluminum panels and vertical keels are staggered inside and out, with adapters and connecting parts installed at the intersections, and floodlights installed at the inside corners of the connecting parts.

[0007] Furthermore, the connecting corner piece includes a main component, a corner piece adjustment hole disposed on the main component, and a corner piece lower bolt or corner piece upper bolt passing through the corner piece adjustment hole;

[0008] The main component is an L-shaped corner piece, with corner piece adjustment holes provided on both the horizontal and vertical parts of the L-shaped corner piece; the lower corner piece bolt is connected to the adjustment hole on the horizontal part, and the upper corner piece bolt is provided to the adjustment hole on the vertical part.

[0009] Furthermore, the main component has two corner adjustment holes at both the horizontal and vertical parts. The horizontal part of the main component can be adjusted to connect with the horizontal keel, and the vertical part of the main component can be adjusted to connect with the vertical keel.

[0010] Furthermore, the adapter includes an L-shaped adapter main board, an adapter plug plate vertically connected to the top of the adapter main board, and an adapter pressure plate connected to the lower part of the adapter main board.

[0011] The horizontal part of the adapter motherboard is fixedly connected to the vertical keel by keel connecting nails, and the vertical part is set on the side close to the adjacent vertical keel.

[0012] Furthermore, both the adapter plate and the adapter pressure plate are positioned opposite to the horizontal portion of the adapter main board; the adapter plate is correspondingly connected to the mating component.

[0013] There is a height difference between the position of the adapter pressure plate and the horizontal part of the adapter main board; this height difference corresponds to the setting of the aluminum sealing plate, and the aluminum sealing plate is set between two adjacent vertical keels and its two ends are inserted between the adapter pressure plate and the vertical keel.

[0014] Furthermore, the connecting piece is an inverted F-shaped piece, with the vertical part fixedly connected to the honeycomb aluminum plate by plate nails, and the notches formed by the two horizontal parts corresponding to the insertion of the adapter plate.

[0015] Furthermore, the honeycomb aluminum panel includes a honeycomb main aluminum panel, an upper panel disposed on the top of the honeycomb main aluminum panel, and a lower panel disposed on the bottom of the honeycomb main aluminum panel; the end of the upper panel is inverted L-shaped, and the end of the lower panel is L-shaped; a horizontal gap is provided between the vertical parts of the upper panel and the lower panel, and the horizontal gap corresponds to the vertical part of the insertion adapter.

[0016] The beneficial effects of this utility model are reflected in:

[0017] This invention, through the design of the adapter, facilitates the concealed installation of floodlights behind the honeycomb aluminum panel, ensuring illumination without compromising the original shape of the metal roof. The connecting piece ensures the fixed installation of the floodlights to the honeycomb aluminum panel and provides a convenient insertion base for the adapter. The fixed connection of the vertical keel ensures the overall stability of the floodlights. Other features and advantages of this invention will be set forth in the following description and will be apparent in part from the description, or may be learned by practicing the invention. The main objectives and other advantages of this invention can be realized and obtained by means of the solutions specifically pointed out in the description. Attached Figure Description

[0018] Figure 1 This is a schematic diagram of the floodlight node structure for a metal roof;

[0019] Figure 2 This is a partial schematic diagram of the floodlight node structure of the metal roof;

[0020] Figure 3 This is a schematic diagram of the connection between the adapter and the docking part.

[0021] Attached reference numerals: 1-Horizontal keel, 2-Connecting corner piece, 21-Main main component, 22-Corner piece adjusting hole, 23-Corner piece lower bolt, 24-Corner piece upper bolt, 3-Vertical keel, 4-Aluminum sealing plate, 5-Adapter, 51-Adapter main board, 52-Adapter insert, 53-Adapter pressure plate, 6-Keel connecting nail, 7-Floodlight fixture, 8-Button piece, 9-Honeycomb aluminum plate, 91-Honeycomb main aluminum plate, 92-Upper plate surface, 93-Lower plate surface, 94-Plate connecting nail. Detailed Implementation

[0022] Taking an innovation center project as an example, the roof of Building #2 is made of metal. Because the roof is an elliptical, sloping roof, the metal roof is arranged circumferentially and vertically with joints. Within these joints, a metal roof floodlighting node structure is installed. For example... Figures 1 to 3 As shown, the metal roof floodlight node structure includes a horizontal keel 1, a vertical keel 3 vertically connected to the horizontal keel 1, a connecting corner piece 2 connecting the horizontal keel 1 and the vertical keel 3, a transition piece 5 and a mating piece 8 connected to the outside of the vertical keel 3, a honeycomb aluminum plate 9 connected to the mating piece 8, and a floodlight 7 installed at the transition piece 5.

[0023] In this embodiment, adjacent honeycomb aluminum panels 9 are directly provided with seams according to the shape design. The honeycomb aluminum panel 9 includes a honeycomb main aluminum panel 91, an upper panel 92 disposed on the top of the honeycomb main aluminum panel 91, and a lower panel 93 disposed on the bottom of the honeycomb main aluminum panel 91. The end of the upper panel 92 is inverted L-shaped, and the end of the lower panel 93 is L-shaped. A horizontal gap is provided between the vertical parts of the upper panel 92 and the lower panel 93, and the horizontal gap corresponds to the vertical part of the insertion adapter 5.

[0024] In this embodiment, the honeycomb aluminum panel 9 and the vertical keel 3 are staggered inside and out, and the intersection is provided with a transition piece 5 and a connecting piece 8, with a floodlight 7 installed at the inside corner of the connecting piece 8. The honeycomb aluminum panel 9 is 20mm thick.

[0025] The connecting corner piece 2 includes a main body 21, a corner piece adjustment hole 22 provided on the main body 21, and a corner piece lower bolt 23 or a corner piece upper bolt 24 passing through the corner piece adjustment hole 22.

[0026] In this embodiment, the main component 21 is an L-shaped steel corner piece. Both the horizontal and vertical parts of the L-shaped corner piece are provided with corner piece adjustment holes 22. The horizontal corner piece adjustment hole 22 corresponds to the insertion of a lower corner piece bolt 23, and the vertical corner piece adjustment hole 22 corresponds to the insertion of an upper corner piece bolt 24. The main component 21 has two corner piece adjustment holes 22 on both the horizontal and vertical sides. The horizontal part of the main component 21 is adjustablely connected to the horizontal keel 1, and the vertical part of the main component 21 is adjustablely connected to the vertical keel 3.

[0027] In this embodiment, the adapter 5 includes an L-shaped adapter main board 51, an adapter plug 52 vertically connected to the top of the adapter main board 51, and an adapter pressure plate 53 connected to the lower part of the adapter main board 51; the horizontal part of the adapter main board 51 is fixedly connected to the vertical keel 3 by the keel connecting nail 6, and the vertical part is located on the side close to the adjacent vertical keel 3.

[0028] In this embodiment, both the adapter plate 52 and the adapter pressure plate 53 are positioned opposite to the horizontal portion of the adapter main board 51; the adapter plate 52 is correspondingly inserted into the docking piece 8; there is a height difference between the position of the adapter pressure plate 53 and the horizontal portion of the adapter main board 51; this height difference corresponds to the setting of the aluminum sealing plate 4, and the aluminum sealing plate 4 is positioned between two adjacent vertical keels 3 with both ends inserted between the adapter pressure plate 53 and the vertical keel 3. The docking piece 8 is an inverted F-shaped piece, with its vertical portion fixedly connected to the honeycomb aluminum plate 9 by plate connecting nails 94, and the notches formed by the two horizontal portions corresponding to the insertion of the adapter plate 52.

[0029] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any changes or substitutions that can be conceived by those skilled in the art within the technical scope disclosed in the present utility model should be included within the protection scope of the present utility model.

Claims

1. A metal roof floodlight node structure, characterized in that, It includes a horizontal keel (1), a vertical keel (3) vertically connected to the horizontal keel (1), a connecting corner piece (2) connecting the horizontal keel (1) and the vertical keel (3), a transition piece (5) and a mating piece (8) connected to the outside of the vertical keel (3), a honeycomb aluminum plate (9) connected to the mating piece (8), and a floodlight (7) installed at the transition piece (5); The honeycomb aluminum plate (9) and the vertical keel (3) are arranged alternately inside and outside, and the transition piece (5) and the connecting piece (8) are provided at the intersection, and the floodlight (7) is installed at the inside corner of the connecting piece (8).

2. The metal roof floodlight node structure as described in claim 1, characterized in that, The connecting corner piece (2) includes a main body piece (21), a corner piece adjustment hole (22) provided on the main body piece (21), and a corner piece lower bolt (23) or a corner piece upper bolt (24) passing through the corner piece adjustment hole (22). The main component (21) is an L-shaped corner piece, and the horizontal and vertical parts of the L-shaped corner piece are respectively provided with corner piece adjustment holes (22); the corner piece adjustment hole (22) of the horizontal part is respectively connected to the lower corner piece bolt (23), and the corner piece adjustment hole (22) of the vertical part is respectively provided with the upper corner piece bolt (24).

3. The metal roof floodlight node structure as described in claim 2, characterized in that, The main component (21) has two corner adjustment holes (22) at both the horizontal and vertical parts. The horizontal part of the main component (21) is adjustable to the horizontal keel (1), and the vertical part of the main component (21) is adjustable to the vertical keel (3).

4. The metal roof floodlight node structure as described in claim 1, characterized in that, The adapter (5) includes an L-shaped adapter main board (51), an adapter plug (52) vertically connected to the top of the adapter main board (51), and an adapter pressure plate (53) connected to the lower part of the adapter main board (51). The horizontal part of the adapter motherboard (51) is fixedly connected to the vertical keel (3) by the keel connecting nail (6), and the vertical part is located on the side close to the adjacent vertical keel (3).

5. A metal roof floodlight node structure as described in claim 4, characterized in that, The adapter plate (52) and the adapter pressure plate (53) are both arranged opposite to the horizontal part of the adapter main board (51); the adapter plate (52) is connected to the docking piece (8) by insertion. There is a height difference between the position of the adapter plate (53) and the horizontal part of the adapter main plate (51); this height difference corresponds to the setting of the aluminum sealing plate (4), and the aluminum sealing plate (4) is set between two adjacent vertical keels (3) and its two ends are inserted between the adapter plate (53) and the vertical keel (3).

6. The metal roof floodlight node structure as described in claim 5, characterized in that, The docking part (8) is an inverted F-shaped part. The vertical part is fixedly connected to the honeycomb aluminum plate (9) by plate connecting nails (94), and the notches formed by the two horizontal parts are corresponding to the insertion of the adapter plate (52).

7. A metal roof floodlight node structure as described in claim 6, characterized in that, The honeycomb aluminum plate (9) includes a honeycomb main aluminum plate (91), an upper plate surface (92) disposed on the top of the honeycomb main aluminum plate (91), and a lower plate surface (93) disposed on the bottom of the honeycomb main aluminum plate (91); the end of the upper plate surface (92) is inverted L-shaped, and the end of the lower plate surface (93) is L-shaped; a horizontal gap is provided between the vertical parts of the upper plate surface (92) and the lower plate surface (93), and the horizontal gap corresponds to the vertical part of the plug-in adapter (5).