Solar street lamp quick installation structure

By using a single-bolt locking mechanism for the photovoltaic panel and a sliding rail guide + snap-fit ​​+ single-screw locking design for the lamp, the installation process of solar streetlights is simplified, solving the problems of low installation efficiency and poor safety, and achieving fast and reliable connection.

CN224498341UActive Publication Date: 2026-07-14HANGZHOU BOSHANG SHENGXIN ENERGY TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HANGZHOU BOSHANG SHENGXIN ENERGY TECH CO LTD
Filing Date
2025-08-05
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

The installation process of existing solar streetlights is inefficient, complicated, and poses safety hazards. Traditional bolt fixing methods may loosen under high-frequency vibration or extreme weather conditions, affecting the stability of the lights and resulting in low maintenance efficiency.

Method used

The design employs a single-bolt locking mechanism for the photovoltaic panel and a sliding rail guide + snap-fit ​​+ single-screw locking mechanism for the lamp. The installation process is simplified by using T-shaped connecting nails and recessed sliding rails, while the locking mechanism ensures the lamp is securely fixed.

Benefits of technology

It significantly shortens installation time, reduces the risks of working at heights, improves installation efficiency, and ensures the reliability and stability of connections.

✦ Generated by Eureka AI based on patent content.

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Abstract

Disclosed is a solar street lamp quick installation structure, comprising a street lamp mounting frame, a lamp and a solar photovoltaic panel; the street lamp mounting frame comprises a main rod and a support rod arranged on the main rod; wherein the lamp is provided with at least two T-shaped structure designed connecting nails, the support rod is provided with an access hole, and the connecting nail is inserted into the access hole and then slides horizontally to fix the lamp on the support rod; the support rod is further provided with a locking piece, and the locking piece is screwed in to press the top of the connecting nail to wedge it with the inner wall of the access hole. The single bolt locking of the photovoltaic panel and the slide rail guiding, clamping and single screw locking of the lamp greatly simplify the installation process, significantly reduce the installation time of each component, and shorten the overall installation time by several times compared with the traditional structure. The residence time and complex operation of workers on the aerial work platform are significantly reduced, and the safety risk of aerial work is effectively reduced.
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Description

Technical Field

[0001] This application relates to the field of solar street light technology, and more specifically, to a rapid installation structure for solar street lights. Background Technology

[0002] Solar streetlights, as an energy-saving and environmentally friendly public lighting facility, are widely used in roads, courtyards, parks, and other scenarios due to their advantages such as utilizing clean and renewable energy, eliminating the need for complex cable laying, and flexible installation locations. Their basic structure typically includes lighting fixtures, solar photovoltaic panels that power the system, and mounting frames (such as light poles or wall supports) that support both.

[0003] However, the installation process of existing solar streetlights generally suffers from low efficiency, complex operation, and high safety requirements. Traditional photovoltaic panels are typically fixed directly to support poles or brackets using multiple sets of bolts and complex connectors. Installation requires multiple people or the use of high-altitude work equipment to tighten multiple bolts one by one, a time-consuming and labor-intensive process. The connection between the light fixture and the support pole (support rod) also usually relies on multiple bolts for fastening. In high-altitude environments, accurately aligning the mounting holes of the light fixture with the fixing holes on the support pole is difficult in itself, requiring operators to repeatedly adjust the position, which is time-consuming and poses safety hazards. Commonly used bolt fixing methods may loosen under high-frequency vibration or extreme weather conditions, affecting the stability of the light fixture. In addition, installing or replacing light fixtures requires completely disassembling multiple fasteners, resulting in low maintenance efficiency.

[0004] Therefore, there is an urgent need for an innovative solar street light installation structure that can significantly simplify the installation steps of photovoltaic panels and lamps, reduce operational difficulty and danger, improve installation efficiency, facilitate the optimization and adjustment of the photovoltaic panel angle during and after installation, and ensure a firm and reliable connection. Utility Model Content

[0005] To achieve at least one of the aforementioned advantages or other advantages and objectives, according to one aspect of this application, a rapid installation structure for solar streetlights is provided. The single-bolt locking of the photovoltaic panel and the sliding rail guidance + snap-fit ​​+ single-screw locking design of the lamp greatly simplify the installation process and significantly reduce the installation time of each component; the overall installation time can be shortened several times compared to traditional structures. This significantly reduces the time workers spend on high-altitude work platforms and the complexity of operations, effectively reducing the safety risks of working at heights.

[0006] Another advantage of this application is that it provides a quick installation structure for solar street lights, wherein the recessed slide rail on the support pole provides a clear guide path for the installation of the light fixture; during installation, simply insert the T-shaped connecting nail on the mounting part of the light fixture into the slide rail, and the light fixture can be easily slid for initial positioning, which completely solves the problem of precise hole alignment at high altitudes in traditional solutions.

[0007] To achieve at least one of the aforementioned advantages or other advantages and objectives, according to one aspect of this application, a rapid installation structure for a solar street light is provided, comprising a street light mounting frame, a luminaire, and a solar photovoltaic panel; the street light mounting frame includes a main pole and support poles disposed on the main pole; wherein...

[0008] The lamp is provided with at least two T-shaped connecting pins, and the support rod is provided with an access hole. The connecting pins are inserted into the access hole and then slide laterally to fix the lamp to the support rod.

[0009] The support rod is also equipped with a locking element, which, when screwed in, presses down on the top of the connecting nail to wedge it tightly against the inner wall of the access hole.

[0010] In the quick-installation structure for solar streetlights according to this application, the access hole includes a circular hole and a strip hole communicating with the circular hole, and the connecting nail is embedded in the inner wall of the strip hole.

[0011] In the quick installation structure for solar streetlights according to this application, the support rod is provided with a recessed slide rail, the access hole is located inside the slide rail, and the connecting pin is connected to the access hole after sliding along the slide rail and aligning.

[0012] In the quick-installation structure for solar streetlights according to this application, the light fixture includes a light-emitting part and a mounting part connected to the support rod, the mounting part is provided with a limiting protrusion, and the limiting protrusion is embedded in the slide rail.

[0013] In the quick-installation structure for solar streetlights according to this application, the end of the locking member is designed with a tapered structure, and when the locking member rotates, the end of the locking member presses against the end of the connecting nail.

[0014] In the rapid installation structure for solar streetlights according to this application, the solar photovoltaic panel includes a connecting frame and a photovoltaic panel disposed within the connecting frame, and the connecting frame is detachably connected to the main pole.

[0015] In the rapid installation structure for solar streetlights according to this application, the connecting frame includes a fixed frame and a connector connected to the fixed frame, the connector being fitted onto the main pole and connected by bolts.

[0016] In the rapid installation structure for solar streetlights according to this application, the main pole is provided with a ring-shaped fixing groove, and the end of the bolt is embedded in the fixing groove.

[0017] In the quick-installation structure for solar streetlights according to this application, strip-shaped ribs are provided on the inner wall of the fixing groove.

[0018] The further objectives and advantages of this application will become fully apparent from the following description and accompanying drawings.

[0019] These and other objects, features and advantages of this application are fully apparent from the following detailed description, the accompanying drawings and the claims. Attached Figure Description

[0020] Figure 1 The illustration shows a perspective view of a quick-installation structure for a solar street light according to an embodiment of this application.

[0021] Figure 2 The illustration shows a perspective view of the connection between the luminaire and the support pole in a quick-installation structure for a solar street light according to an embodiment of this application.

[0022] Figure 3 The figure shows a cross-sectional view of the connection between the luminaire and the support pole in a quick-installation structure for a solar street light according to an embodiment of this application.

[0023] Figure 4 The illustration shows a partial view of the support structure of a quick-installation structure for a solar street light according to an embodiment of this application.

[0024] Figure 5 The illustration shows a perspective view of a luminaire with a quick-installation structure for a solar street light according to an embodiment of this application.

[0025] Figure 6 The figure shows an exploded view of the main pole and connector of the quick-installation structure for a solar street light according to an embodiment of this application. Detailed Implementation

[0026] The following description is intended to disclose this application and enable those skilled in the art to implement it. The embodiments described below are merely examples, and other obvious modifications will be apparent to those skilled in the art. The basic principles of this application defined in the following description can be applied to other embodiments, modifications, improvements, equivalents, and other technical solutions that do not depart from the spirit and scope of this application.

[0027] It is understood that the term "a" should be understood as "at least one" or "one or more", that is, in one embodiment, the number of an element can be one, while in another embodiment, the number of the element can be multiple, and the term "a" should not be understood as a limitation on the number.

[0028] While ordinal numbers such as "first," "second," etc., will be used to describe various components, there is no limitation on which components are used here. The term is used only to distinguish one component from another. For example, a first component may be referred to as a second component, and similarly, a second component may be referred to as a first component, without departing from the teachings of the application concept. The term "and / or" as used herein includes any and all combinations of one or more of the associated listed items.

[0029] The terminology used herein is for the purpose of describing various embodiments only and is not intended to be limiting. As used herein, the singular form also includes the plural form, unless the context clearly indicates otherwise. It will also be understood that the terms “comprising” and / or “having” as used in this specification specify the presence of the described features, numbers, steps, operations, components, elements or combinations thereof, without excluding the presence or addition of one or more other features, numbers, steps, operations, components, elements or groups thereof.

[0030] As per the instruction manual Figures 1-6 As shown in the figure, this application embodiment provides a quick-installation structure for solar streetlights, which aims to significantly simplify the installation process, reduce operational difficulty, and effectively improve installation efficiency. Specifically, the quick-installation structure for solar streetlights mainly consists of three parts: a streetlight mounting frame 10, a lamp 20, and a solar photovoltaic panel 30.

[0031] Specifically, the street light mounting bracket 10, as the core support structure, can be a vertically fixed light pole, or in other embodiments, a metal bracket anchored to the wall with expansion bolts (the illustrations in this paper use a light pole structure as an example). The bottom of the street light mounting bracket 10 is fixed to a precast concrete component embedded in the ground with bolts, thus allowing the street light mounting bracket 10 to stand upright on the roadside. The street light mounting bracket 10 further includes two key parts: a main pole 11 and a support pole 12. The main pole 11 is dedicated to supporting and fixing the solar photovoltaic panel 30, while the support pole 12 serves as the mounting fulcrum for the light fixture 20.

[0032] In this embodiment, the solar photovoltaic panel 30 is quickly connected to the main pole 11 via its attached connecting frame 31. The solar photovoltaic panel 30 includes the connecting frame 31 and the photovoltaic panel 32. The photovoltaic panel 32 is mounted and fixed to the connecting frame 31, and then the connecting frame 31 is fixed to the main pole 11. Specifically, the connecting frame 31 includes a square fixing frame 311 and a connector 312. The photovoltaic panel 32 itself is installed inside the fixing frame 311, typically secured with bolts to ensure stability. The back of the fixing frame 311 is connected to the aforementioned connector 312, which is designed with a specific angle between itself and the fixing frame 311, ranging from 30° to 60°. This ensures that the photovoltaic panel maintains the necessary tilt angle during final installation to optimize light collection efficiency.

[0033] like Figure 6 As shown, a fixing groove 111 is located near the end of the main rod 11. Striped ribs 1111 are machined on the inner wall of the fixing groove 111 to enhance friction. A screw hole 3121 is provided on the connector 3122, and a bolt 3122 is screwed into the screw hole 3121. After the connector 312 is fitted onto the support rod 12, the screw hole 3121 aligns with the fixing groove 111. Then, the bolt 3122 is tightened so that it embeds into the fixing groove 111, and the end of the bolt 3122 abuts against the ribs 1111 in the fixing groove 111. This frictional force achieves a stable connection between the connector 31 and the main rod 11. This method achieves a seamless connection and requires only simple bolt tightening to fix the photovoltaic panel. During the fixing process, the connector can be rotated according to the installation area to adjust the photovoltaic panel's alignment with the sun, thereby improving solar irradiance. Furthermore, this installation method is simple and easy to operate.

[0034] like Figures 2-5 As shown, the support rod 12 serves as a branch of the main rod 11, and the lamp 20 is mounted on the support rod 12. Specifically, the lamp 20 includes a light-emitting part 21 and a mounting part 22, wherein the mounting part 22 is connected to the support rod 12. The mounting part 22 is provided with at least two connecting pins 221 with a T-shaped cross-section. The support rod 12 has two access holes 121, each access hole 121 consisting of a circular hole and a strip hole connected to each other. The diameter of the circular hole is the same as the size of the top of the connecting pin 221. During installation, the top of the connecting pin 221 is first inserted into the circular hole, and then pushed laterally so that the part below the top of the connecting pin 221 is engaged in the area of ​​the strip hole, thereby achieving the initial connection between the mounting part 22 and the support rod 12.

[0035] A recessed slide rail 122 is provided on the support rod 12, and the access hole 121 is located within this slide rail 122. When installing the lamp, the connecting pin 221 can be placed in the slide rail 122 first, and then the mounting part 22 can be slid along the slide rail 122. When the connecting pin 221 moves to the position of the access hole 121, its top is inserted into the circular hole, and then pushed laterally to make the pin shaft engage with the strip hole area, completing the initial connection. The slide rail 122 design simplifies the alignment and installation process of the lamp. Furthermore, a limiting protrusion 222 is provided on the mounting part 22. After the initial installation is completed, the limiting protrusion 222 is engaged with the slide rail 122, thereby achieving a limiting and fixing between the mounting part 22 and the support rod 12.

[0036] A locking element 123 is also provided on the support rod 12. This locking element 123 is a screw that screws into the support rod 12, and its end is designed with a tapered structure. Correspondingly, the top of the connecting pin 221 is also tapered. When the screw is tightened, the tapered structure at its end moves downwards and presses against the tapered surface of the connecting pin's top. This action forces the connecting pin to expand outwards, causing its shank portion to wed tightly into the inner wall of the access hole, thereby achieving a secure lock.

[0037] It should be noted that in the apparatus and method of this application, the components or steps in different embodiments can be disassembled and / or recombined without departing from the principles of this application. These disassemblies and / or recombinations should be considered as included within the concept of this application.

[0038] The basic principles of this application have been described above with reference to specific embodiments. However, it should be noted that the advantages, benefits, and effects mentioned in this application are merely examples and not limitations, and should not be considered as essential features of each embodiment of this application. Furthermore, the specific details disclosed above are for illustrative and facilitative purposes only, and are not limitations. These details do not limit the application to the necessity of employing the aforementioned specific details for implementation.

Claims

1. A rapid installation structure for a solar street light, comprising a street light mounting frame, a lamp, and a solar photovoltaic panel; characterized in that, The street light mounting frame includes a main pole and support poles mounted on the main pole; wherein The lamp is provided with at least two T-shaped connecting pins, and the support rod is provided with an access hole. The connecting pins are inserted into the access hole and then slide laterally to fix the lamp to the support rod. The support rod is also equipped with a locking element, which, when screwed in, presses down on the top of the connecting nail to wedge it tightly against the inner wall of the access hole.

2. The rapid installation structure for solar streetlights according to claim 1, characterized in that, The access hole includes a circular hole and a strip-shaped hole communicating with the circular hole, and the connecting pin is embedded in the inner wall of the strip-shaped hole.

3. The rapid installation structure for solar streetlights according to claim 1, characterized in that, The support rod is provided with a recessed slide rail, and the access hole is located inside the slide rail. The connecting pin slides along the slide rail and is aligned with the access hole.

4. The rapid installation structure for solar streetlights according to claim 3, characterized in that, The lamp includes a light-emitting part and a mounting part connected to the support rod. The mounting part is provided with a limiting protrusion, which is embedded in the slide rail.

5. The rapid installation structure for solar streetlights according to claim 1, characterized in that, The locking member has a tapered end design, which presses against the end of the connecting pin when the locking member rotates.

6. The rapid installation structure for solar streetlights according to claim 3, characterized in that, The solar photovoltaic panel includes a connecting frame and a photovoltaic panel disposed within the connecting frame, and the connecting frame is detachably connected to the main pole.

7. The rapid installation structure for solar streetlights according to claim 6, characterized in that, The connecting frame includes a fixed frame and a connector connected to the fixed frame. The connector is fitted onto the main rod and connected by bolts.

8. The rapid installation structure for solar streetlights according to claim 7, characterized in that, The main rod is provided with a ring-shaped fixing groove, and the end of the bolt is embedded in the fixing groove.

9. The rapid installation structure for solar streetlights according to claim 8, characterized in that, The inner wall of the fixing groove is provided with strip-shaped ribs.