Photovoltaic module transport device

By designing a photovoltaic module transport device, which utilizes pulleys and load-bearing clips to achieve stable transport of photovoltaic modules on the support purlins, the problem of wasted manpower and collisions during photovoltaic module installation is solved, thereby improving construction efficiency and safety.

CN224466772UActive Publication Date: 2026-07-07SINOHYDRO BUREAU 14 CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SINOHYDRO BUREAU 14 CO LTD
Filing Date
2025-05-29
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

The installation of photovoltaic modules requires two people to lift the panels, which leads to slow construction progress, waste of human resources and safety hazards. Furthermore, pushing the panels directly may damage them and affect power generation efficiency.

Method used

A photovoltaic module transport device is designed, including a transport bracket, pulleys and a carrier. The pulleys are bolted to the bottom of the bracket. The first wheel contacts the top surface of the photovoltaic bracket purlin, and the second wheel abuts against the front side of the purlin. The carrier is provided with a push rod connecting block on the outside, so as to realize the stable transport of photovoltaic modules on the bracket purlin.

Benefits of technology

It reduces the intensity of manual handling, avoids component bumps and damage, and significantly improves installation efficiency and construction safety.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224466772U_ABST
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Abstract

The utility model relates to photovoltaic module installation technical field, propose a kind of photovoltaic module conveying device, including transport support, pulley and bearing card;Transport support is rectangular frame, four pulleys are equipped in bottom, pulley is connected in support bottom by bolt, its first wheel body and photovoltaic support purlin top surface contact, second wheel body and photovoltaic support purlin front side surface abut;Transport support side wall is set up sliding slot, bearing card both ends are equipped with V-shaped recessed groove roller and are embedded in sliding slot sliding, bearing card outside is equipped with push rod connecting block to facilitate external push rod to push;Transport support top angle steel is equipped with hard rubber pad block, to buffer antiskid. Realized the stable transport of photovoltaic module on support purlin, reduce artificial handling intensity, avoid component knock damage, significantly improve installation efficiency and construction safety.
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Description

Technical Field

[0001] This utility model relates to the field of photovoltaic module installation technology, and in particular to a photovoltaic module transport device. Background Technology

[0002] According to the engineering construction requirements, during the installation of photovoltaic modules, two people are needed to lift the photovoltaic panels to the top of the photovoltaic support. When the photovoltaic modules are installed at a high position, a gantry scaffold is required, which requires two people to move them, resulting in slow construction progress and waste of human resources. At the same time, the gantry scaffold poses safety hazards and also poses the risk of the photovoltaic modules being bumped or knocked over. If the photovoltaic modules are placed directly on the purlins of the photovoltaic support and pushed upwards, the photovoltaic modules will be bumped or knocked over, causing damage to the photovoltaic modules and directly affecting the power generation efficiency.

[0003] Therefore, there is an urgent need for a photovoltaic module transportation device to reduce construction costs and improve construction efficiency. Utility Model Content

[0004] The purpose of this invention is to address the shortcomings of existing technologies by providing a photovoltaic module transportation device to reduce construction costs and improve construction efficiency.

[0005] To achieve the above objectives, the present invention adopts the following technical solution:

[0006] A photovoltaic module transport device includes: a transport bracket mounted on a photovoltaic support purlin, a plurality of pulleys mounted at the bottom of the transport bracket, and a carrier clip slidably connected to the transport bracket; the transport bracket is a rectangular frame and slides along the length of the photovoltaic support purlin; the carrier clip slides along the length of the transport bracket, and a push rod connecting block is provided on the outer side of the carrier clip;

[0007] The pulley includes: a bracket fixedly connected to the bottom of the transport support, a first wheel body and a second wheel body rotatably connected to the bracket; the bracket includes a first connecting rod, a second connecting rod perpendicular to the first connecting rod, and a connecting platform; the end of the first connecting rod is rotatably connected to the first wheel body, the end of the second connecting rod is rotatably connected to the second wheel body, and the connecting platform abuts against the bottom of the transport support.

[0008] Preferably, the transport support is formed by welding four parallel angle steels into a rectangular frame, and a groove is provided on the side wall along the length of the rectangular frame. Rollers are provided at both ends of the bearing card, and the rollers are placed in the groove.

[0009] Preferably, the surface of the roller body is provided with a V-shaped groove, which abuts against the sliding groove.

[0010] Preferably, the angle steel along the length of the transport bracket is provided with a rigid rubber pad, and the upper surface of the rigid rubber pad abuts against the bottom surface of the bearing card.

[0011] Preferably, the first wheel abuts against the top surface of the photovoltaic support purlin, the second wheel abuts against the front side of the photovoltaic support purlin, and the width of the second wheel surface is greater than the length of the C-shaped steel opening of the photovoltaic support purlin.

[0012] Preferably, the bracket is provided with a connecting hole that passes through the second connecting rod and the connecting platform, and a bolt is fitted inside the connecting hole.

[0013] Preferably, the push rod connecting block is a cylindrical protrusion.

[0014] The present invention discloses a photovoltaic module transport device, which has the following beneficial effects.

[0015] This utility model includes a transport bracket, pulleys, and a load-bearing clip. The transport bracket is a rectangular frame with four pulleys at the bottom, which are bolted to the bottom of the bracket. The first pulley contacts the top surface of the photovoltaic bracket purlin, and the second pulley abuts against the front side of the photovoltaic bracket purlin. The transport bracket has grooves on its side walls, and the load-bearing clip has V-shaped grooved rollers at both ends that slide within these grooves. A push rod connecting block is provided on the outside of the load-bearing clip for external push rod operation. Hard rubber pads are installed on the top angle steel of the transport bracket for cushioning and anti-slip purposes. This design achieves stable transport of photovoltaic modules on the bracket purlins, reduces manual handling intensity, avoids module damage from impacts, and significantly improves installation efficiency and construction safety. Attached Figure Description

[0016] Figure 1 This is a side view of a photovoltaic module transport device.

[0017] Figure 2 This is a top view schematic diagram of a photovoltaic module transport device.

[0018] Figure 3 for Figure 1 A magnified view of a portion of point A in the middle.

[0019] Figure 4 for Figure 1 A magnified view of a portion of point B in the middle.

[0020] In the attached diagram: 1. Hard rubber pad; 2. Slide groove; 3. Pulley; 301. Bracket; 302. First wheel body; 303. Second wheel body; 304. First connecting rod; 305. Second connecting rod; 306. Connecting platform; 307. Bolt; 4. Photovoltaic bracket purlin; 5. Transport bracket; 6. Push rod connecting block; 7. Roller; 8. Bearing clip. Detailed Implementation

[0021] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.

[0022] In the description of this utility model, it should be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model. Example 1

[0023] Reference Figure 1 and Figure 2 As shown, a photovoltaic module transport device includes: a transport bracket 5 disposed on a photovoltaic support purlin 4, a plurality of pulleys 3 disposed at the bottom of the transport bracket 5, and a carrier 8 slidably connected to the transport bracket 5; the transport bracket 5 is a rectangular frame and slides along the length direction of the photovoltaic support purlin 4; the carrier 8 slides along the length direction of the transport bracket 5, and a push rod connecting block 6 is provided on the outer side of the carrier 8; in this embodiment, the carrier 8 is made of angle steel.

[0024] Preferably, in this embodiment, the push rod connecting block 6 is a cylindrical protrusion, and the push rod is directly sleeved with the push rod connecting block 6 during use.

[0025] like Figure 3 As shown, the pulley 3 includes: a bracket 301 fixedly connected to the bottom of the transport bracket 5, a first wheel body 302 and a second wheel body 303 rotatably connected to the bracket 301; the bracket 301 includes a first connecting rod 304, a second connecting rod 305 perpendicular to the first connecting rod 304, and a connecting platform 306; the end of the first connecting rod 304 is rotatably connected to the first wheel body 302, the end of the second connecting rod 305 is rotatably connected to the second wheel body 303, and the connecting platform 306 abuts against the bottom of the transport bracket 5. In this embodiment, there are four pulleys 3.

[0026] It should be noted that the first wheel body 302 is a bearing, and the inner ring of the bearing is interference-fitted with the first connecting rod 304. The first connecting rod 304 is provided with a limiting platform; the second wheel body 303 is sleeved with the second connecting rod 305 by bolts 5, and the second wheel body 303 can rotate along the axis of the second connecting rod 305.

[0027] Preferably, in this embodiment, the first wheel 302 abuts against the top surface of the photovoltaic bracket purlin 4, and the second wheel 303 abuts against the front side of the photovoltaic bracket purlin 4. The width of the wheel surface of the second wheel 303 is greater than the length of the C-shaped steel opening of the photovoltaic bracket purlin 4 to prevent the second wheel 303 from getting stuck in the C-shaped steel opening.

[0028] Preferably, in this embodiment, the bracket 301 is provided with a connecting hole that passes through the second connecting rod 305 and the connecting platform 306, and a bolt 307 is fitted inside the connecting hole. The bracket 301 is connected to the transport bracket 5 through the bolt 307. Example 2

[0029] Based on Example 1, such as Figure 1 , Figure 2 and Figure 4 As shown, Figure 2 The direction of the arrow in the middle is the direction of movement of the transport bracket 5. Preferably, in this embodiment, the transport bracket 5 is welded into a rectangular frame by four parallel angle steels. A groove 2 is provided on the side wall along the length of the rectangular frame. Rollers 7 are provided at both ends of the bearing card 8 and are placed in the groove 2.

[0030] Preferably, in this embodiment, the surface of the roller 7 is provided with a V-shaped groove, which abuts against the sliding groove 2.

[0031] Preferably, in this embodiment, a hard rubber pad 1 is provided on the angle steel along the length of the transport bracket 5, and the upper surface of the hard rubber pad 1 abuts against the bottom surface of the bearing card 8.

[0032] When using this photovoltaic module transport device to transport photovoltaic modules, first determine the spacing of the pulleys 3 according to the length of the photovoltaic bracket purlin 4, and install the pulleys 3. After installing the pulleys 3, slide the carrier card 8 down to the bottom of the transport bracket 5, place the photovoltaic module in the space of the transport bracket 5 above the carrier card 8, above the hard rubber pad 1, and then use the push rod sleeve to push the photovoltaic module to the required installation position. The workers on the photovoltaic bracket purlin 4 can then install the photovoltaic module. This effectively solves the investment cost of traditional two-person panel lifting, and also solves the problems of bumps and damages caused by handling during the panel lifting process, as well as low construction efficiency.

[0033] The above are merely preferred embodiments of this utility model, but the scope of protection of this utility model is not limited thereto. Substitutions may include replacements for some structures, devices, or method steps, or they may be complete technical solutions. Equivalent substitutions or modifications made based on the technical solution and inventive concept of this utility model should all be covered within the scope of protection of this utility model.

Claims

1. A photovoltaic module conveying device, characterized in that, include: The transport bracket (5) is mounted on the purlin (4) of the photovoltaic support, a number of pulleys (3) are mounted at the bottom of the transport bracket (5), and a carrier card (8) is slidably connected to the transport bracket (5); the transport bracket (5) is a rectangular frame and slides along the length of the purlin (4) of the photovoltaic support; the carrier card (8) slides along the length of the transport bracket (5), and a push rod connecting block (6) is provided on the outside of the carrier card (8); The pulley (3) includes: a bracket (301) fixedly connected to the bottom of the transport bracket (5), a first wheel body (302) and a second wheel body (303) rotatably connected to the bracket (301); the bracket (301) includes a first connecting rod (304), a second connecting rod (305) perpendicular to the first connecting rod (304), and a connecting platform (306); the end of the first connecting rod (304) is rotatably connected to the first wheel body (302), the end of the second connecting rod (305) is rotatably connected to the second wheel body (303), and the connecting platform (306) abuts against the bottom of the transport bracket (5).

2. The photovoltaic module conveying device according to claim 1, characterized in that, The transport support (5) is welded into a rectangular frame by four parallel angle steels. A groove (2) is provided on the side wall of the rectangular frame along its length. Rollers (7) are provided at both ends of the bearing card (8). The rollers (7) are placed in the groove (2).

3. A photovoltaic module conveying device according to claim 2, characterized in that, The roller (7) has a V-shaped groove on its surface, which abuts against the slide groove (2).

4. A photovoltaic module conveying device according to claim 2, characterized in that, The transport support (5) has a rigid rubber pad (1) on its longitudinal angle steel, and the upper surface of the rigid rubber pad (1) abuts against the bottom surface of the bearing card (8).

5. A photovoltaic module conveying device according to claim 1, characterized in that, The first wheel (302) abuts against the top surface of the photovoltaic bracket purlin (4), and the second wheel (303) abuts against the front side of the photovoltaic bracket purlin (4). The width of the wheel surface of the second wheel (303) is greater than the length of the C-shaped steel opening of the photovoltaic bracket purlin (4).

6. A photovoltaic module conveying device according to claim 1, characterized in that, The bracket (301) is provided with a connecting hole that passes through the second connecting rod (305) and the connecting platform (306), and a bolt (307) is fitted inside the connecting hole.

7. A photovoltaic module conveying device according to claim 1, characterized in that, The push rod connecting block (6) is a cylindrical protrusion.