A quick mount photovoltaic panel device

By using the design of the slide box and sliding arm, combined with the elastic support system of the spring seat and pressure plate, the photovoltaic panel can be installed quickly and stably, solving the problems of low efficiency and poor stability in traditional installation methods, and improving the installation accuracy and power generation efficiency of the photovoltaic panel.

CN224401436UActive Publication Date: 2026-06-23FUJIAN ZHISHAN VOLT AMPERE INTELLIGENT TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FUJIAN ZHISHAN VOLT AMPERE INTELLIGENT TECH CO LTD
Filing Date
2025-07-04
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Traditional photovoltaic panel installation is cumbersome and time-consuming, with low installation efficiency. It is difficult to ensure the accuracy of the position and angle of the photovoltaic panels, and they are prone to loosening and falling off in complex environments, affecting power generation efficiency and increasing maintenance costs.

Method used

The design incorporates a sliding box and sliding arm, combined with an elastic support system of spring seats and pressure plates. Through the tight pressing of the sliding arm and the photovoltaic panel and the fixing of the fixing bolts, along with the precise positioning of the positioning holes and positioning columns, the photovoltaic panel can be installed quickly and stably.

Benefits of technology

Significantly shortens installation time, improves installation accuracy and stability, ensures photovoltaic panels remain stable in various environments, reduces maintenance costs, and enhances power generation efficiency and economic benefits.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to photovoltaic panel device technical field, and disclose a kind of quick installation type photovoltaic panel device, including mounting seat, four rectangular equidistant distribution slide rail box are fixedly connected in mounting seat outer side wall, the inner wall one end of slide rail box is slidably connected with sliding arm, the one end output of sliding arm extends to the inner wall one end of slide rail box, the top of mounting seat is fixedly connected with two equidistant distribution spring seat, the inner wall bottom of spring seat is fixedly connected with two springs, the top of spring is fixedly connected with pressboard, and the device is realized by the cooperation of above-mentioned structure, the quick, accurate installation of photovoltaic panel is realized, installation efficiency is effectively improved, installation accuracy and stability are guaranteed, the frequency of later maintenance and replacement is reduced, maintenance cost is reduced, with significant economic benefits and application value.
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Description

Technical Field

[0001] This utility model relates to the field of photovoltaic panel device technology, specifically a quick-installation photovoltaic panel device. Background Technology

[0002] Photovoltaic panels, as the core component of solar power generation systems, are semiconductor devices that directly convert sunlight into electricity. Against the backdrop of an increasingly severe energy crisis and growing environmental awareness, solar energy, as a clean and renewable energy source, has received widespread attention and vigorous promotion globally. With its advantages of high efficiency, environmental friendliness, and sustainability, photovoltaic panels are playing an increasingly important role in the energy sector, widely used in residential rooftop power generation, large-scale solar power plant construction, and power supply in remote areas. With the booming development of the photovoltaic industry, the number of installed photovoltaic panels has increased dramatically, making installation efficiency and quality key factors restricting the large-scale promotion and application of photovoltaic power generation systems. Rapid, efficient, and stable installation of photovoltaic panels can not only shorten project construction cycles and reduce installation costs but also ensure the stability and reliability of photovoltaic panels during long-term use, thereby guaranteeing the performance and benefits of the entire solar power generation system. Therefore, developing a photovoltaic panel device that enables rapid installation has significant practical implications and broad market prospects.

[0003] Traditional photovoltaic (PV) panel installation technology requires the use of numerous bolts, nuts, and other fasteners, involving complex procedures to secure each PV panel to the mounting bracket. This traditional method has many drawbacks, severely impacting installation efficiency and quality. From an efficiency standpoint, manual PV panel installation is tedious and time-consuming. Installers need to spend a significant amount of time on positioning, drilling, and tightening. Furthermore, due to the limitations of manual operation, it is difficult to ensure the precise installation position and angle of each PV panel, resulting in low installation efficiency and failing to meet the construction requirements of large-scale PV power generation projects. Therefore, we propose a rapid-installation PV panel device. Utility Model Content

[0004] To address the shortcomings of existing technologies, this invention provides a quick-installation photovoltaic panel device, which solves the aforementioned problems.

[0005] To achieve the above-mentioned objectives, this utility model provides the following technical solution: a quick-installation photovoltaic panel device, including a mounting base, four rectangularly equidistant slide rail boxes fixedly connected to the outer wall of the mounting base, a sliding arm slidably connected to one end of the inner wall of each slide rail box, an output end of one end of each sliding arm extending to one end of the outer wall of the slide rail box, two equidistantly distributed spring seats fixedly connected to the top of the mounting base, two springs fixedly connected to the bottom of the inner wall of each spring seat, and a pressure plate fixedly connected to the top of each spring.

[0006] Preferably, the top of the mounting base has four rectangularly equidistant positioning holes near the spring seat, and the positioning holes extend to the bottom of the mounting base.

[0007] Preferably, the top of the mounting base is provided with a photovoltaic panel, the top of the pressure plate and the bottom of the photovoltaic panel are tightly pressed together, and four positioning posts distributed in a rectangular shape are fixedly connected to the bottom of the photovoltaic panel.

[0008] Preferably, the bottom output end of the positioning post is inserted into one end of the inner wall of the positioning hole.

[0009] Preferably, the top of the inner wall of the output end of the sliding arm is tightly pressed against the top end of the photovoltaic panel.

[0010] Preferably, the top output end of the sliding arm is provided with a fixing bolt, and the bottom output end of the fixing bolt is inserted into the top of the photovoltaic panel.

[0011] Preferably, a mounting head is fixedly connected to the bottom of the mounting base.

[0012] Compared with the prior art, this utility model provides a quick-installation photovoltaic panel device, which has the following beneficial effects:

[0013] 1. This rapid-installation photovoltaic (PV) panel device offers a significant advantage over traditional PV panel installation techniques, which rely heavily on manual labor. Installers must manually drill holes and tighten bolts to secure the panels, a tedious and time-consuming process. For example, installing hundreds of PV panels in a medium-sized PV power plant using traditional methods could take weeks or even longer. This rapid-installation device, with its unique sliding rail box and sliding arm design, allows installers to simply push the sliding arm, utilizing its tight contact with the top of the PV panel, and then use fixing bolts to quickly secure it, eliminating the need for cumbersome drilling and bolt tightening. Simultaneously, the elastic support system of the spring seat and pressure plate enables rapid initial positioning and fixation of the PV panels. Actual testing shows that using this device to install a PV power plant of the same size significantly reduces installation time, effectively accelerating project progress and reducing time costs.

[0014] 2. This rapid-installation photovoltaic (PV) panel system, compared to traditional manual installation methods which are prone to significant errors, struggles to guarantee the precise installation position and angle of each panel. Even experienced installers are not immune to deviations, preventing the panels from receiving sunlight at the optimal angle and thus impacting power generation efficiency. The positioning holes and posts in this system provide a precise positioning reference for the PV panels. During installation, the positioning posts at the bottom of the PV panel accurately insert into the positioning holes on the mounting base, ensuring accurate panel positioning. Furthermore, the tight fit between the sliding arm and the top of the PV panel, along with the reinforcement of the fixing bolts, further ensures the stability and flatness of the PV panel installation. Compared to traditional methods, this system provides higher positioning accuracy for the PV panels, enabling better sunlight reception, maximizing power generation efficiency, and improving the overall power generation efficiency of the photovoltaic power station.

[0015] 3. This rapid-installation photovoltaic panel device differs from traditional photovoltaic panel installations that rely on bolts and other fasteners for fixation. In complex environmental conditions such as strong winds and earthquakes, these bolts can easily loosen or fall off, leading to damage or displacement of the photovoltaic panels. This not only affects power generation but also increases subsequent maintenance costs. This rapid-installation photovoltaic panel device employs multiple fixing methods. The elastic support system of spring seats and pressure plates provides stable bottom support for the photovoltaic panels, while sliding arms and fixing bolts securely fix the photovoltaic panels from the top, forming a robust overall structure. This structure effectively resists the impact of external environments, ensuring the photovoltaic panels remain stable under various harsh conditions. This significantly reduces the risk of damage due to unstable installation, decreases the frequency of subsequent maintenance and replacement, lowers maintenance costs, and improves the economic efficiency of the photovoltaic power station. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the structure of this utility model;

[0017] Figure 2 This is a cross-sectional view of the slide rail box of this utility model;

[0018] Figure 3 This is a schematic diagram of the bottom of this utility model.

[0019] In the diagram: 1. Mounting base; 2. Slide rail box; 3. Sliding arm; 4. Spring seat; 5. Spring; 6. Pressure plate; 7. Positioning hole; 8. Photovoltaic panel; 9. Positioning post; 10. Fixing bolt; 11. Mounting head. Detailed Implementation

[0020] 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.

[0021] Please see Figure 1-3 A quick-installation photovoltaic panel device includes a mounting base 1. Four rectangular, equidistantly distributed slide rail boxes 2 are fixedly connected to the outer wall of the mounting base 1. A sliding arm 3 is slidably connected to one end of the inner wall of the slide rail box 2. One output end of the sliding arm 3 extends to one end of the outer wall of the slide rail box 2. This structure, through the sliding design of the sliding arm 3, realizes flexible fixing and adjustment of the photovoltaic panel 8, enhancing the convenience and adaptability of installation. Two equidistantly distributed spring seats 4 are fixedly connected to the top of the mounting base 1. Two springs 5 ​​are fixedly connected to the bottom of the inner wall of the spring seats 4. A pressure plate 6 is fixedly connected to the top of the springs 5. This structure utilizes the elasticity of the springs 5 ​​to make the pressure plate 6 fit tightly against the bottom of the photovoltaic panel 8, providing stable support and ensuring the stability of the photovoltaic panel 8 during installation.

[0022] Furthermore, four rectangular equidistant positioning holes 7 are provided on the top of the mounting base 1 near the spring seat 4. The positioning holes 7 extend to the bottom of the mounting base 1. The design of the positioning holes 7 provides a precise positioning reference for the installation of the photovoltaic panel 8, ensuring the accuracy of the installation position and improving the installation efficiency.

[0023] Furthermore, the top of the mounting base 1 is provided with a photovoltaic panel 8, and the top of the pressure plate 6 is tightly pressed against the bottom of the photovoltaic panel 8. Four positioning posts 9 are fixedly connected to the bottom of the photovoltaic panel 8 in a rectangular and equidistant arrangement. The cooperation between the positioning posts 9 and the positioning holes 7 ensures the accurate positioning of the photovoltaic panel 8 on the mounting base 1, prevents offset or misalignment during the installation process, and improves the installation accuracy.

[0024] Furthermore, the bottom output end of the positioning column 9 is inserted into one end of the inner wall of the positioning hole 7. Through physical insertion, the connection between the photovoltaic panel 8 and the mounting base 1 is further strengthened, enhancing the stability of the installation and preventing the photovoltaic panel 8 from shifting or falling off during installation or use.

[0025] Furthermore, the top of the inner wall of the output end of the sliding arm 3 is tightly pressed against the top end of the photovoltaic panel 8, ensuring that the sliding arm 3 can provide stable and uniform pressure when fixing the photovoltaic panel 8, avoiding damage to the photovoltaic panel 8 due to uneven force, and enhancing the overall structural stability.

[0026] Furthermore, the top output end of the sliding arm 3 is provided with a fixing bolt 10, and the bottom output end of the fixing bolt 10 is inserted into the top of the photovoltaic panel 8. The design of the fixing bolt 10 provides an additional fixing point for the photovoltaic panel 8, which enhances the stability of the photovoltaic panel 8 in complex environments and extends the service life of the equipment.

[0027] Furthermore, the mounting base 1 is fixedly connected to the bottom of the mounting head 11. The mounting head 11 serves as the connection base, ensuring the standardization and convenience of photovoltaic panel 8 installation and providing convenient conditions for subsequent maintenance and upgrades.

[0028] Instructions for use

[0029] Structural Description: 1. Mounting Base 1: As the basic support structure of the entire device, it supports the photovoltaic panel 8 and other components. It is located at the bottom of the device and is directly or indirectly connected to other components.

[0030] 2. Slide rail box 2: Provides a sliding track for the sliding arm 3 to ensure that the sliding arm 3 can slide stably. It is fixedly connected to the outer wall of the mounting base 1 and is distributed in a rectangular equidistant pattern.

[0031] 3. Sliding arm 3: It presses the top of the photovoltaic panel 8 by sliding to fix the photovoltaic panel 8. It is slidably connected to one end of the inner wall of the slide rail box 2, and the output end of one end extends to one end of the outer wall of the slide rail box 2 and is tightly pressed with the top end of the photovoltaic panel 8.

[0032] 4. Spring seat 4: As a supporting structure for spring 5, it provides a stable mounting position for spring 5 and is fixedly connected to the top of mounting base 1, and is distributed at equal intervals.

[0033] 5. Spring 5: Utilizes elasticity to make the pressure plate 6 fit tightly against the bottom of the photovoltaic panel 8, providing stable support force, and is fixedly connected between the bottom of the inner wall of the spring seat 4 and the pressure plate 6;

[0034] 6. Pressure plate 6: Under the action of spring 5, it is tightly attached to the bottom of photovoltaic panel 8, providing support and assisting in fixing photovoltaic panel 8. It is located at the top of spring 5 and is tightly pressed against the bottom of photovoltaic panel 8.

[0035] 7. Positioning holes 7: provide a precise positioning reference for the installation of photovoltaic panels 8. They are opened at the top of the mounting base 1 near the end of the spring seat 4, and are distributed in a rectangular shape at equal intervals, extending to the bottom of the mounting base 1.

[0036] 8. Photovoltaic panel 8: As the core component of the device, it converts solar energy into electrical energy. It is installed on the top of the mounting base 1, with its bottom tightly pressed against the pressure plate 6 and one end of its top tightly pressed against the sliding arm 3.

[0037] 9. Positioning post 9: Used in conjunction with positioning hole 7 to ensure accurate positioning of photovoltaic panel 8 on mounting base 1, fixedly connected to the bottom of photovoltaic panel 8, with the bottom output end inserted into one end of the inner wall of positioning hole 7;

[0038] 10. Fixing bolt 10: As an additional fixing point for the photovoltaic panel 8, it enhances the stability of the photovoltaic panel 8 in complex environments. It is set at the top output end of the sliding arm 3 and the bottom output end is inserted into the top of the photovoltaic panel 8.

[0039] 11. Mounting head 11: Serves as a connection base to ensure the standardization and convenience of photovoltaic panel 8 installation. It is fixedly connected to the bottom of mounting base 1 and used to connect with the mounting base.

[0040] Working principle: First, the basic installation effect is achieved through the linkage of mounting base 1 and mounting head 11: the mounting head 11 is fixedly connected to the bottom of mounting base 1. As a connecting component with the installation foundation such as roof or ground, mounting head 11 can realize a stable connection between mounting base 1 and installation foundation, providing a stable platform for the subsequent installation of photovoltaic panel 8. Then, the initial fixing effect is achieved through the linkage of mounting base 1, spring seat 4, spring 5 and pressure plate 6: two equidistantly distributed spring seats 4 are fixedly connected to the top of mounting base 1, two springs 5 ​​are fixedly connected to the bottom of the inner wall of spring seat 4, and pressure plate 6 is fixedly connected to the top of spring 5. When the photovoltaic panel 8 is placed on top of the mounting base 1, the bottom output ends of the four rectangularly equidistantly distributed positioning columns 9 fixedly connected to its bottom are inserted into the inner wall of the positioning hole 7. The positioning hole 7 is opened at the top of the mounting base 1 near the spring seat 4 and extends to the bottom of the mounting base 1. At this time, the pressure plate 6 is tightly pressed against the bottom of the photovoltaic panel 8 under the elastic force of the spring 5, realizing the initial fixation of the photovoltaic panel 8 on the mounting base 1 and preventing it from moving at will. The mounting base 1, slide rail box 2, sliding arm 3 and fixing bolt 10 are linked to achieve a stable installation effect: four rectangularly equidistantly distributed slide rail boxes 2 are fixedly connected to the outer wall of the mounting base 1. A sliding arm 3 is slidably connected to one end of the inner wall of the slide rail box 2. The output end of one end of the sliding arm 3 extends to one end of the outer wall of the slide rail box 2. After the photovoltaic panel 8 is initially placed on top of the mounting base 1, the sliding arm 3 can be manually or with the aid of tools pushed to slide along the inner wall of the slide rail box 2 until the top of the inner wall of one output end is tightly pressed against the top end of the photovoltaic panel 8. At this time, the fixing bolt 10 is used to insert the bottom output end of the fixing bolt 10 into the top of the photovoltaic panel 8, further enhancing the connection stability between the photovoltaic panel 8 and the mounting base 1, achieving a fast and stable installation effect. The entire device achieves fast and stable installation of the photovoltaic panel 8 through the linkage and cooperation of the above-mentioned components. The mounting base 1, spring seat 4, spring 5, and pressure plate 6 form an elastic support system. When the photovoltaic panel 8 is placed on the mounting base 1, the bottom output end of the positioning post 9 is inserted into one end of the inner wall of the positioning hole 7, realizing the precise positioning of the photovoltaic panel 8 and the mounting base 1, preventing the photovoltaic panel 8 from shifting or misaligning during the installation process, and improving the installation accuracy and efficiency. Meanwhile, the elastic force of the spring 5 allows the pressure plate 6 to automatically adjust its height as the photovoltaic panel 8 is placed, ensuring that the pressure plate 6 and the photovoltaic panel 8 are tightly pressed together, providing stable support; the top of the inner wall of the output end of the sliding arm 3 is tightly pressed together with the top end of the photovoltaic panel 8, enhancing installation stability.

[0041] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A quick-installation photovoltaic panel device, comprising a mounting base (1), characterized in that: The mounting base (1) has four rectangular equidistant slide rail boxes (2) fixedly connected to its outer wall. A sliding arm (3) is slidably connected to one end of the inner wall of the slide rail box (2). The output end of one end of the sliding arm (3) extends to one end of the outer wall of the slide rail box (2). Two equidistant spring seats (4) are fixedly connected to the top of the mounting base (1). Two springs (5) are fixedly connected to the bottom of the inner wall of the spring seats (4). A pressure plate (6) is fixedly connected to the top of the springs (5).

2. The rapid-installation photovoltaic panel device according to claim 1, characterized in that: The mounting base (1) has four rectangular equidistant positioning holes (7) at the top end near the spring seat (4), and the positioning holes (7) extend to the bottom of the mounting base (1).

3. The rapid-installation photovoltaic panel device according to claim 1, characterized in that: The mounting base (1) is provided with a photovoltaic panel (8) on the top. The top of the pressure plate (6) is tightly pressed against the bottom of the photovoltaic panel (8). The bottom of the photovoltaic panel (8) is fixedly connected with four positioning columns (9) that are distributed in a rectangular shape at equal intervals.

4. The rapid-installation photovoltaic panel device according to claim 3, characterized in that: The bottom output end of the positioning column (9) is inserted into one end of the inner wall of the positioning hole (7).

5. A quick-installation photovoltaic panel device according to claim 3, characterized in that: The top of the inner wall of the output end of the sliding arm (3) is tightly pressed against the top end of the photovoltaic panel (8).

6. A quick-installation photovoltaic panel device according to claim 3, characterized in that: The top output end of the sliding arm (3) is provided with a fixing bolt (10), and the bottom output end of the fixing bolt (10) is inserted into the top of the photovoltaic panel (8).

7. The rapid-installation photovoltaic panel device according to claim 1, characterized in that: The mounting base (1) has a mounting head (11) fixedly connected to its bottom.