CN202948959U - Magnesium alloy frame of photovohaics module - Google Patents

Abstract

The utility model relates to a frame of a photovohaics module and particularly relates to a magnesium alloy frame of a photovohaics module, which solves the problem that Due to the adoption of the magnesium alloy frame, the problem that a photovohaics module is overlarge in entire weight and overhigh in long-distance transportation cost due to the overlarge weight of the frame of the photovohaics module can be solved. The magnesium alloy frame of the photovohaics module comprises four side frames and the cross sections of the four side frames are consistent in shape. The four side frames are connected end to end, wherein every two adjacent frames are mutually vertical and an L-shaped right-angle plate is connected between every two adjacent frames. The inner side surfaces of the two ends of each L-shaped right-angle plate are provided with a row of engagement teeth respectively. The two ends of each L-shaped right-angle plate are respectively connected with one ends of adjacent frames through two rows of engagement teeth. Both the frames and the L-shaped right-angle plate are made of magnesium alloy. The magnesium alloy frame is used for fixing and supporting photovohaics modules.

Description

The magnesium alloy frame of photovoltaic cell component

Technical field

The utility model relates to the photovoltaic cell component frame, specifically a kind of magnesium alloy frame of photovoltaic cell component.

Background technology

The photovoltaic cell component frame is mainly used in the capital equipment of photovoltaic generation---the fixing and support of photovoltaic cell component.Under the prior art condition, the structure of photovoltaic cell component frame generally includes four end to end frames, and the four edges frame all adopts the materials such as aluminium alloy, steel to make.Practice shows, the weight of the photovoltaic cell component frame of employing said structure is generally excessive, generally way excessive, far away cost of transportation is too high for the overall weight that causes thus photovoltaic cell component, and then cause photovoltaic generating system can't be installed on some building, factory building, house, thereby the development of restriction photovoltaic generation.Based on this, be necessary existing photovoltaic cell component frame is carried out architecture advances, cause the overall weight of photovoltaic cell component excessive to solve because the weight of photovoltaic cell component frame is excessive, the too high problem of way far away cost of transportation.

Summary of the invention

The utility model causes the overall weight of photovoltaic cell component excessive in order to solve because the weight of photovoltaic cell component frame is excessive, the too high problem of way far away cost of transportation, and a kind of magnesium alloy frame of photovoltaic cell component is provided.

The utility model is to adopt following technical scheme to realize: the magnesium alloy frame of photovoltaic cell component comprises the four edges frame; The section configuration of four edges frame is consistent, and the four edges frame is end to end; Every two adjacent frames are mutually vertical, and are connected with a L shaped L-square between every two adjacent frames; The two ends medial surface of L shaped L-square respectively is provided with row's engaging tooth; The two ends of L shaped L-square are connected with an end of two adjacent frames by two row's engaging tooths respectively; The frame of described frame for adopting magnesium alloy to make; The L shaped L-square of described L shaped L-square for adopting magnesium alloy to make.

during use, due to magnesium alloy have high-strength light characteristics (its proportion only for steel 1/4th, for aluminium alloy 2/3rds), therefore compare with existing photovoltaic cell component frame, the magnesium alloy frame of photovoltaic cell component described in the utility model is by adopting magnesium alloy substitution of Al alloy, the materials such as steel, effectively alleviated own wt, effectively alleviated thus the overall weight of photovoltaic cell component, effectively reduce the way far away cost of transportation of photovoltaic cell component, and then make photovoltaic generating system can be installed on various building, factory building, the house, thereby promoted the development of photovoltaic generation.

The utility model efficiently solve because the weight of photovoltaic cell component frame is excessive cause the overall weight of photovoltaic cell component excessive, the too high problem of way far away cost of transportation, be applicable to the fixing of photovoltaic cell component and support.

Description of drawings

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the structural representation of L shaped L-square of the present utility model.

Fig. 3 is the section configuration schematic diagram of frame of the present utility model.

In figure: 1-frame, 2-L shape L-square, 3-engaging tooth.

Embodiment

Embodiment one

The magnesium alloy frame of photovoltaic cell component comprises four edges frame 1; The section configuration of four edges frame 1 is consistent, and four edges frame 1 is end to end; Every two adjacent frames 1 are mutually vertical, and are connected with a L shaped L-square 2 between every two adjacent frames 1; The two ends medial surface of L shaped L-square 2 respectively is provided with row's engaging tooth 3; The two ends of L shaped L-square 2 are connected with an end of two adjacent frames 1 by two row's engaging tooths 3 respectively; The frame of described frame 1 for adopting magnesium alloy to make; The L shaped L-square of described L shaped L-square 2 for adopting magnesium alloy to make;

In the present embodiment, the frame of described frame 1 for adopting magnadure to make; The L shaped L-square of described L shaped L-square 2 for adopting magnadure to make.

Embodiment two

The magnesium alloy frame of photovoltaic cell component comprises four edges frame 1; The section configuration of four edges frame 1 is consistent, and four edges frame 1 is end to end; Every two adjacent frames 1 are mutually vertical, and are connected with a L shaped L-square 2 between every two adjacent frames 1; The two ends medial surface of L shaped L-square 2 respectively is provided with row's engaging tooth 3; The two ends of L shaped L-square 2 are connected with an end of two adjacent frames 1 by two row's engaging tooths 3 respectively; The frame of described frame 1 for adopting magnesium alloy to make; The L shaped L-square of described L shaped L-square 2 for adopting magnesium alloy to make;

In the present embodiment, the frame of described frame 1 for adopting magnesium-manganese alloy to make; The L shaped L-square of described L shaped L-square 2 for adopting magnesium-manganese alloy to make.

Embodiment three

The magnesium alloy frame of photovoltaic cell component comprises four edges frame 1; The section configuration of four edges frame 1 is consistent, and four edges frame 1 is end to end; Every two adjacent frames 1 are mutually vertical, and are connected with a L shaped L-square 2 between every two adjacent frames 1; The two ends medial surface of L shaped L-square 2 respectively is provided with row's engaging tooth 3; The two ends of L shaped L-square 2 are connected with an end of two adjacent frames 1 by two row's engaging tooths 3 respectively; The frame of described frame 1 for adopting magnesium alloy to make; The L shaped L-square of described L shaped L-square 2 for adopting magnesium alloy to make;

In the present embodiment, the frame of described frame 1 for adopting magnesium zinc zircaloy to make; The L shaped L-square of described L shaped L-square 2 for adopting magnesium zinc zircaloy to make.

Claims (4)

1. the magnesium alloy frame of a photovoltaic cell component, is characterized in that: comprise four edges frame (1); The section configuration of four edges frame (1) is consistent, and four edges frame (1) is end to end; Every two adjacent frames (1) are mutually vertical, and are connected with a L shaped L-square (2) between every two adjacent frames (1); The two ends medial surface of L shaped L-square (2) respectively is provided with row's engaging tooth (3); The two ends of L shaped L-square (2) are connected with an end of two adjacent frames (1) by two row's engaging tooths (3) respectively; The frame of described frame (1) for adopting magnesium alloy to make; The L shaped L-square of described L shaped L-square (2) for adopting magnesium alloy to make.

2. the magnesium alloy frame of photovoltaic cell component according to claim 1, is characterized in that: the frame of described frame (1) for adopting magnadure to make; The L shaped L-square of described L shaped L-square (2) for adopting magnadure to make.

3. the magnesium alloy frame of photovoltaic cell component according to claim 1, is characterized in that: the frame of described frame (1) for adopting magnesium-manganese alloy to make; The L shaped L-square of described L shaped L-square (2) for adopting magnesium-manganese alloy to make.

4. the magnesium alloy frame of photovoltaic cell component according to claim 1, is characterized in that: the frame of described frame (1) for adopting magnesium zinc zircaloy to make; The L shaped L-square of described L shaped L-square (2) for adopting magnesium zinc zircaloy to make.

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