JP3138733U - Integrated molded high-strength aluminum alloy solar cell module frame - Google Patents

Abstract

A monolithic high-strength aluminum alloy solar cell module frame is provided which ensures fixation and has a high anti-external force strength.
An integrally formed high-strength aluminum alloy solar cell module including a frame, and the frame is composed of several edge frame members. The edge frame member includes a first side plate, a first side plate, and a second side plate. A second side plate 12 and an inner plate 13 are provided, an arcuate reinforcing housing 14 is provided between the first side plate 11 and the second side plate 12, and a fit is provided between the second side plate 12 and the inner plate 13. The tank 15 is provided, and the edge frame member 10 prevents external force by the reinforcing casing 14, and the solar cell plate 20 is fixed and fixed by the fixing tank 15, and the fixing is ensured and the effect of giving high anti-external force strength is obtained. Can play.
[Selection] Figure 1

Description

The present invention relates to an integrally formed high-strength aluminum alloy solar cell module frame, and in particular, to a technical field belonging to an edge frame for fixing and fixing a solar cell plate.

A known solar cell module frame is as shown in FIGS. 5 and 6, a support plate 31 is soldered in the frame body 30, and a U-shaped plate body fitting portion is provided below the frame body 30. When the solar cell plate 20 is provided and used, the solar cell plate 20 is fitted into the plate body fitting portion 32 provided below the frame body 30 to fix the solar cell plate 20.

Although it exhibits the effect of the solar cell module frame, the following problems still exist.
(1) Uncertain fixation: It is fixed by fixing the solar cell plate by the U-shaped plate body fitting portion, and there is a gap after the solar cell plate is put into the U-shaped plate body fitting portion. Therefore, it becomes uncertain fixation.
(2) Anti-external force strength is weak: The support plate is attached to the frame body by solder joints. When the frame body is pulled or subjected to pressure action, the solder joints between the support plate and the frame body are supported. Since it cannot be broken, cracks occur in the support plate and the frame body, and the original effect is not exhibited.

In view of the above-mentioned problems, the present invention improves the problem that the known solar cell module frame cannot effectively fix the solar cell plate and the external strength is weak. Was completed.

In order to solve the above problems, the present invention is an integrally formed high-strength aluminum alloy solar cell module frame, which includes a frame 1. The frame 1 is composed of several edge frame members 10. The edge frame member 10 is provided with a first side plate 11, a second side plate 12, and an inner plate 13, and the first side plate 11 to the second side plate are provided. A reinforcing housing 14 having an arc shape is provided between 12. Further, a fitting tank 15 is provided between the second side plate 12 and the inner plate 13, and when used, the solar cell plate is fitted into the fitting tank 15 of the edge frame member 10. The edge frame member effectively prevents external force by the action of the reinforcing casing 14, and the fitting tank 15 effectively fixes and fixes the solar cell plate. The frame is made of a high-strength aluminum alloy, and achieves the effect of ensuring high fixation and high external force strength.

The effects of the present invention are as follows.
(1) <Secure fixing>
It is provided with stereotactic projections on both sides of the fitting tub, that is, on the end faces of the second side plate and the inner plate, and when the solar cell plate is fitted into the fitting tub, the upper and lower sides of the solar cell plate are Since it is pressed and fixed by the stereotaxic protrusion, the entire fixing is ensured.
(2) <Good anti-external force strength>
The reinforcing frame is integrally installed between the first side plate and the inner plate, so that the edge frame member effectively prevents external force, and when the frame is pulled or has a pressure action, the reinforcing frame is By effectively supporting the stress, the frame does not cause deformation or cracking and has good anti-external force strength.

In order for the members of the jury to understand the structure, features, and effects of the present invention in more detail, the drawings are attached to the preferred embodiments and the following detailed explanation is added. However, the embodiment described with reference to the drawings is used for the description of the present invention, and is not limited to a single application for the registration of a utility model.

FIG. 1 to FIG. 3 show a three-dimensional assembly view, an exploded view, and a cross-sectional view of an integrally molded high-strength aluminum alloy solar cell module frame of the present invention. It includes a frame 1, which is constituted by a combination of several edge frame members 10. The edge frame member 10 is provided with a first side plate 11 and a second side plate 12, and an inner plate 13 is provided between the first side plate 11 and the second side plate 12 at an end close to the second side plate 12, Between the first side plate 11 and the inner plate 13, an arcuate reinforcing casing 14 is provided, and between the second side plate 12 and the inner plate 13, a fitting tank 15 is provided, and the second side plate 12. And the stereotactic fitting convex parts 120 and 130 are respectively installed in the fitting tank 15 inside direction place of the inner plate 13 end face.

The frame 1 is made of a high-strength aluminum alloy (7050, 7075, 7150, 7175, 7475).

The integrally formed high-strength aluminum alloy solar cell module frame of the present invention is completed by a combination of the above structures.

FIG. 2 and FIG. 3 show a three-dimensional exploded view of local components and a cross-sectional view of an integrally formed high-strength aluminum alloy solar cell module frame of the present invention. That is, when the solar cell plate 20 is fitted into a fitting tank 15 provided on the edge frame member 10, the upper and lower both sides of the solar cell plate 20 are positioned on the second side plate 12 and the inner plate 13. , 130 and the edge frame member 10 effectively prevents external force by the reinforcing frame 14 provided between the first side plate 11 and the inner plate 13, so that the fixing is ensured. Achieve the effect of giving high anti-external force strength.

FIG. 4 shows an embodiment reference diagram of the integrally formed high-strength aluminum alloy solar cell module frame of the present invention. For this purpose, a screwing hole 16 is provided at the outer side of the coupling end of each edge frame member 10, and when the edge frame members 10 are coupled, the threaded parts 160 are screwed and fixed so that each edge frame member 10 is fixed. When joined, a sealed square frame 1 is formed, achieving the effect of ensuring fixation.

In summary, the present invention surely achieves the above-mentioned effects and objectives and meets the requirements for registration of utility models.

It is a three-dimensional assembly drawing of the present invention. It is a three-dimensional exploded view of a local component of the present invention. It is sectional drawing of the local component of this invention. It is a reference figure of the Example of this invention. It is a reference drawing of a well-known solar cell frame. It is sectional drawing of a well-known solar cell frame.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Frame 10 Edge frame member 11 1st side board 12 2nd side board 120 Localization fitting convex part 13 Inner board 130 Localization fitting convex part 14 Reinforcement housing 15 Fitting tank 16 Screw hole 160 Screw part 20 Solar cell board 30 Frame body 31 Support plate 32 Plate body fitting part

Claims (4)

An integrally formed high-strength aluminum alloy solar cell module frame including a frame, and the frame is configured by joining several edge frame members, and the edge frame member includes a first side plate and a second side plate. Provided, an inner plate is provided between the first side plate and the second side plate, an integrated reinforcing body is provided between the first side plate and the inner plate, and a retaining tub is provided between the second side plate and the inner plate. A monolithic high-strength aluminum alloy solar cell module frame, characterized in that a stereotactic fitting convex portion is provided at each of the second side plate and the inner plate end face facing the inside of the fitting tank. 2. The integrally formed high-strength aluminum alloy solar cell module frame according to claim 1, wherein the strengthened casing between the first side plate and the inner plate has an arc shape and is recessed inward. A screw hole is provided at the outer end of the edge of the edge frame member, and when the edge frame members are connected, the edge frame member is formed into a square frame by being screwed and fixed by screw parts. The integrally formed high-strength aluminum alloy solar cell module frame according to claim 1, The integrally formed high-strength aluminum alloy solar cell module frame according to claim 3, wherein the threaded component is a screw.