Photovoltaic track quick-mounting structure

By setting a spring-loaded buckle structure on the photovoltaic track and support, and utilizing the cooperation between the pin head and the connecting hole, the photovoltaic track can be installed quickly, solving the problem of low installation efficiency in the existing technology.

CN224367764UActive Publication Date: 2026-06-16MIBET (XIAMEN) NEW ENERGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
MIBET (XIAMEN) NEW ENERGY CO LTD
Filing Date
2025-06-18
Publication Date
2026-06-16

AI Technical Summary

Technical Problem

Existing photovoltaic track installations are inefficient, requiring tools and multiple turns of the bolt assembly.

Method used

The photovoltaic track adopts a spring-loaded structure. The track side wall has mounting holes, and the pin head of the spring-loaded track is clearance-fitted with the connection hole on the support side wall. By pushing the photovoltaic track, the pin head retracts and inserts into the mounting hole, achieving rapid installation.

Benefits of technology

It enables rapid installation of photovoltaic tracks without the need for tools, thus improving installation efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of photovoltaic track quick-mounting structures, it includes photovoltaic track and photovoltaic support;Photovoltaic support has two opposite support side walls, the inner side surface of each support side wall is cooperated with at least one deformable elastic buckle, elastic buckle has movable pin head, support side wall is correspondingly provided with the connecting hole for pin head to be worn to the outside of support side wall, pin head and connecting hole gap cooperation;Photovoltaic track has two opposite track side walls, and the two track side walls of photovoltaic track are respectively at the outside of the two support side walls of photovoltaic support, and track side wall is correspondingly provided with the mounting hole for the pin head of elastic buckle insertion for elastic buckle.The utility model can conveniently and quickly install photovoltaic track to photovoltaic support.
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Description

Technical Field

[0001] This utility model relates to the photovoltaic field, and in particular to a photovoltaic track quick-installation structure. Background Technology

[0002] Existing photovoltaic modules are generally supported and fixed by photovoltaic tracks, which are installed on photovoltaic brackets. Currently, photovoltaic tracks are usually installed on photovoltaic brackets using bolt assemblies. This requires tools to work with the bolt assemblies and the bolts or nuts to be turned multiple times, resulting in low installation efficiency.

[0003] In view of the above problems, it is necessary to study a photovoltaic track quick-installation structure that can conveniently and quickly install the photovoltaic track onto the photovoltaic support. Utility Model Content

[0004] The purpose of this utility model is to provide a quick-installation structure for photovoltaic tracks, which can conveniently and quickly install photovoltaic tracks onto photovoltaic supports.

[0005] To achieve the above objectives, the solution of this utility model is:

[0006] A photovoltaic track quick-installation structure includes a photovoltaic track and a photovoltaic support. The photovoltaic support has two opposing support sidewalls, and the inner surface of each support sidewall is fitted with at least one deformable spring clip. The spring clip has a movable pin head, and the support sidewall is provided with a corresponding connecting hole for the pin head to pass through to the outer side of the support sidewall. The pin head and the connecting hole are clearance-fitted. The photovoltaic track has two opposing track sidewalls, which are respectively located outside the two support sidewalls of the photovoltaic support. The track sidewalls are provided with mounting holes corresponding to the spring clips for the pin head of the spring clip to be inserted.

[0007] The photovoltaic support has a support top wall connecting two support side walls, and the photovoltaic track has a track top wall connecting two track side walls, with the track top wall located above the support top wall.

[0008] The photovoltaic support also has two support legs connected to the two support side walls respectively, and the two support legs support the two track side walls of the photovoltaic track respectively.

[0009] The connecting hole is an elongated hole, and the length direction of the connecting hole is parallel to the axis of the photovoltaic support.

[0010] The end of the pin of the snap fastener is spherical.

[0011] Each support sidewall has two spring clips fitted on its inner side.

[0012] The spring clip includes a connector, an elastic body, and a pin. The two ends of the elastic body are respectively connected to the pin and the connector. The connector is fixedly connected to the inner side of the support sidewall.

[0013] The spring clip's connecting body is welded to the inner side of the support sidewall.

[0014] The elastic body of the snap fastener is bent or the elastic body is bent and connected to the connector.

[0015] The spring-loaded connector, elastic body, and pin are arranged sequentially along the axial direction of the photovoltaic support.

[0016] With the above solution, when the photovoltaic track is to be installed on the photovoltaic support, firstly, the photovoltaic track is placed against the photovoltaic support, so that the two sidewalls of the photovoltaic track are respectively on the outside of the two sidewalls of the photovoltaic support; then, the photovoltaic track is pushed along the axial direction of the photovoltaic support, so that the two sidewalls of the photovoltaic track press the pins of the spring clips that mate with the two sidewalls of the photovoltaic support, causing the pins to retract into the connecting holes of the support sidewalls; when the photovoltaic track moves to the point where the mounting holes of the two sidewalls of the photovoltaic track are aligned with the pins of the spring clips that mate with the two sidewalls of the photovoltaic support, the spring clips reset, causing the pins of the spring clips to insert into the corresponding mounting holes of the sidewalls of the track, at which point the photovoltaic track is installed on the photovoltaic support.

[0017] As can be seen from the above, the entire installation process from photovoltaic track to photovoltaic support is very convenient and fast, and no tools are required. Attached Figure Description

[0018] Figure 1 This is a schematic diagram of the structure of the photovoltaic track of this utility model.

[0019] Figure 2 This is a schematic diagram of the structure of the photovoltaic support of this utility model.

[0020] Figure 3 This is a schematic diagram of the spring-loaded buckle of this utility model.

[0021] Figure 4 This is a schematic diagram illustrating the cooperation between the photovoltaic bracket and the spring clip of this utility model. Figure 1 .

[0022] Figure 5 This is a schematic diagram illustrating the cooperation between the photovoltaic bracket and the spring clip of this utility model. Figure 2 .

[0023] Figure 6 This is a schematic diagram of the installation of the photovoltaic track and photovoltaic support of this utility model.

[0024] Figure 7 This is a schematic diagram showing the connection between the photovoltaic track and the photovoltaic support of this utility model.

[0025] Label Explanation:

[0026] Photovoltaic track 1, track sidewall 11, mounting hole 111, track top wall 12.

[0027] Photovoltaic support 2, support side wall 21, connecting hole 211, support top wall 22, support foot 23.

[0028] 3. Spring clip, 31. Pin, 32. Connector, 33. Detailed Implementation

[0029] To further explain the technical solution of this utility model, the following detailed description is provided through specific embodiments.

[0030] like Figures 1 to 7 As shown, this utility model discloses a photovoltaic track quick-installation structure, which includes a photovoltaic track 1 and a photovoltaic support 2. The photovoltaic support 2 has two opposing support sidewalls 21, and the inner surface of each support sidewall 21 is fitted with at least one deformable spring buckle 3. The spring buckle 3 has a movable pin head 31. The support sidewall 21 is correspondingly provided with a connecting hole 211 for the pin head 31 to pass through to the outer side of the support sidewall 21. The pin head 31 is clearance-fitted with the connecting hole 211 so that the pin head 31 can enter and exit the connecting hole 211. The photovoltaic track 1 has two opposing track sidewalls 11. The two track sidewalls 11 of the photovoltaic track 1 are respectively located outside the two support sidewalls 21 of the photovoltaic support 2, and the track sidewalls 11 are correspondingly provided with mounting holes 111 for the pin head 31 of the spring buckle 3 to be inserted.

[0031] Cooperate Figure 6 As shown, when the photovoltaic track 1 is to be installed onto the photovoltaic support 2, firstly, the photovoltaic track 1 is placed against the photovoltaic support 2, so that the two track sidewalls 11 of the photovoltaic track 1 are respectively located outside the two support sidewalls 21 of the photovoltaic support 2; then, the photovoltaic track 1 is pushed along the axial direction of the photovoltaic support 2, so that the two track sidewalls 11 of the photovoltaic track 1 press against the pins 31 of the spring clips 3 that engage with the two support sidewalls 21 of the photovoltaic support 2, causing the pins 31 to retract into the connecting holes 211 of the support sidewalls 21; when the photovoltaic track 1 moves to the point where the mounting holes 111 of the two track sidewalls 11 of the photovoltaic track 1 are aligned with the pins 31 of the spring clips 3 that engage with the two support sidewalls 21 of the photovoltaic support 2, the spring clips 3 reset, allowing the pins 31 of the spring clips 3 to insert into the corresponding mounting holes 111 of the track sidewalls 11, at which point the photovoltaic track 1 is installed onto the photovoltaic support 2. As can be seen from the foregoing, the entire installation process of the photovoltaic track 1 onto the photovoltaic support 2 is very convenient and quick, and does not require the use of tools.

[0032] In an embodiment of this utility model, the photovoltaic support 2 has a support top wall 22 connecting two support side walls 21, and the photovoltaic track 1 has a track top wall 12 connecting two track side walls 11, with the track top wall 12 positioned above the support top wall 22. Furthermore, the photovoltaic support 2 also has two support legs 23 respectively connected to the two support side walls 21. The two support legs 23 respectively support the two track side walls 11 of the photovoltaic track 1, allowing the photovoltaic track 1 to rest against the photovoltaic support 2. The mounting holes 111 of the track side walls 11 are flush with the connecting holes 211 of the support side walls 21, ensuring that during installation, the photovoltaic track 1 can be moved to a position where the mounting holes 111 of the two track side walls 11 of the photovoltaic track 1 are aligned with the pin heads 31 of the spring clips 3 that engage with the two support side walls 21 of the photovoltaic support 2.

[0033] In this embodiment of the invention, the connecting hole 211 is an elongated hole, and the length direction of the connecting hole 211 is parallel to the axial direction of the photovoltaic support 2. This allows the connecting hole 211 to provide sufficient space for the pin head 31, so that when the photovoltaic track 1 is pushed along the axial direction of the photovoltaic support 2, the two track sidewalls 11 of the photovoltaic track 1 can respectively press the pin head 31 of the spring clip 3 that engages with the two support sidewalls 21 of the photovoltaic support 2, causing the pin head 31 to retract into the connecting hole 211 of the support sidewall 21. Furthermore, the end of the pin head 31 of the spring clip 3 can be spherical, allowing the track sidewall 11 to smoothly press the pin head 31 of the spring clip 3.

[0034] In an embodiment of this utility model, the spring clip 3 may include a connecting body 32, an elastic body 33, and a pin 31. The connecting body 32 is fixedly connected to the inner side surface of the support sidewall 21. The two ends of the elastic body 33 are respectively connected to the pin 31 and the connecting body 32. The elastic body 33 is elastic, allowing the pin 31 to move. Specifically, the connecting body 32 of the spring clip 3 can be welded to the inner side surface of the support sidewall 21, so that the connection between the spring clip 3 and the support sidewall 21 is stable and will not damage the outer side surface of the support sidewall 21; and the elastic body 33 of the spring clip 3 is bent to make the elastic body 33 elastic (e.g., Figure 3 (As shown). It should be noted that the elastomer 33 can be a sheet-like structure and the elastomer 33 can be bent and connected to the connector 32, which also makes the elastomer 33 elastic.

[0035] In the embodiments of this utility model, the connecting body 32, elastic body 33 and pin head 31 of the snap fastener 3 are arranged sequentially along the axial direction of the photovoltaic support 2; thus, when the photovoltaic track 1 is pushed along the axial direction of the photovoltaic support 2 so that the two track sidewalls 11 of the photovoltaic track 1 can press the pin head 31 of the snap fastener 3 that is engaged with the two support sidewalls 21 of the photovoltaic support 2, the elastic body 33 can deform smoothly so that the pin head 31 retracts into the connecting hole 211 of the support sidewall 21.

[0036] In this embodiment of the invention, each sidewall 21 of the photovoltaic support 2 has two spring clips 3 fitted on its inner side. This arrangement allows the photovoltaic support 2 to be connected to two photovoltaic tracks 1 (e.g., Figure 7 As shown in the figure, this means that the two photovoltaic tracks 1 can be connected through the photovoltaic support 2.

[0037] In the embodiments of this utility model, the photovoltaic support 2, the photovoltaic track 1 and the spring buckle 3 can be made of metal. The photovoltaic support 2 and the photovoltaic track 1 can be formed by extrusion process and combined with punching process to set the corresponding connection hole 211 and mounting hole 111; while the spring buckle 3 can be formed by sheet metal process.

[0038] The above embodiments and figures are not intended to limit the product form and style of this utility model. Any appropriate changes or modifications made by those skilled in the art should be considered as not departing from the patent scope of this utility model.

Claims

1. A photovoltaic track quick-installation structure, characterized in that: Including photovoltaic tracks and photovoltaic supports; The photovoltaic support has two opposing support sidewalls. The inner surface of each support sidewall is fitted with at least one deformable spring clip. The spring clip has a movable pin. The support sidewall is provided with a corresponding connecting hole for the pin to pass through to the outer side of the support sidewall. The pin and the connecting hole are fitted with a clearance fit. The photovoltaic track has two opposing track sidewalls, which are located on the outside of the two support sidewalls of the photovoltaic support, and the track sidewalls are provided with mounting holes for inserting the pin of the snap fastener.

2. The photovoltaic track quick-installation structure as described in claim 1, characterized in that: The photovoltaic support has a support top wall connecting two support side walls, and the photovoltaic track has a track top wall connecting two track side walls, with the track top wall located above the support top wall.

3. The photovoltaic track quick-installation structure as described in claim 1 or 2, characterized in that: The photovoltaic support also has two support legs connected to the two support side walls respectively, and the two support legs support the two track side walls of the photovoltaic track respectively.

4. The photovoltaic track quick-installation structure as described in claim 1, characterized in that: The connecting hole is an elongated hole, and the length direction of the connecting hole is parallel to the axis of the photovoltaic support.

5. The photovoltaic track quick-installation structure as described in claim 1 or 4, characterized in that: The end of the pin of the snap fastener is spherical.

6. The photovoltaic track quick-installation structure as described in claim 1, characterized in that: Each support sidewall has two spring clips fitted on its inner side.

7. The photovoltaic track quick-installation structure as described in claim 1, characterized in that: The spring clip includes a connector, an elastic body, and a pin. The two ends of the elastic body are respectively connected to the pin and the connector. The connector is fixedly connected to the inner side of the support sidewall.

8. The photovoltaic track quick-installation structure as described in claim 7, characterized in that: The spring clip's connecting body is welded to the inner side of the support sidewall.

9. The photovoltaic track quick-installation structure as described in claim 7, characterized in that: The elastic body of the snap fastener is bent or the elastic body is bent and connected to the connector.

10. The photovoltaic track quick-installation structure as described in claim 7, characterized in that: The spring-loaded connector, elastic body, and pin are arranged sequentially along the axial direction of the photovoltaic support.