CN220858020U - Photovoltaic solar frame - Google Patents
Photovoltaic solar frame Download PDFInfo
- Publication number
- CN220858020U CN220858020U CN202322655948.8U CN202322655948U CN220858020U CN 220858020 U CN220858020 U CN 220858020U CN 202322655948 U CN202322655948 U CN 202322655948U CN 220858020 U CN220858020 U CN 220858020U
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- buckling
- plate
- short
- vertical
- aluminum profile
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- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 claims abstract description 45
- 229910052782 aluminium Inorganic materials 0.000 claims abstract description 45
- 238000005452 bending Methods 0.000 claims description 8
- 239000004411 aluminium Substances 0.000 claims 1
- 238000004519 manufacturing process Methods 0.000 abstract description 12
- 230000000694 effects Effects 0.000 abstract description 4
- 239000002994 raw material Substances 0.000 abstract description 4
- 238000009434 installation Methods 0.000 description 8
- 230000003139 buffering effect Effects 0.000 description 3
- 229910000838 Al alloy Inorganic materials 0.000 description 2
- 208000027418 Wounds and injury Diseases 0.000 description 1
- 230000006378 damage Effects 0.000 description 1
- 208000014674 injury Diseases 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 238000004080 punching Methods 0.000 description 1
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- Photovoltaic Devices (AREA)
Abstract
The utility model discloses a photovoltaic solar frame body, which comprises an upper short side of an aluminum profile and a lower long side with a resisting flange, wherein the upper short side and the lower long side with the resisting flange are connected into a whole through a vertical side, the right side of the vertical side is provided with a middle short side with the lower resisting flange, the middle short side divides the aluminum profile into a containing groove and a buckling groove, four opposite double V-shaped notches are punched on the aluminum profile from top to bottom, the aluminum profile is bent at the double V-shaped notches to form a frame body, an aluminum profile buckling plate is buckled in the buckling groove at the joint of two free ends of the aluminum profile, the buckling plate comprises an upper buckling short plate and a lower buckling long plate and is connected into a whole through a buckling vertical plate, a supporting plate is vertically arranged between the upper buckling short plate and the lower buckling long plate, the upper buckling short plate is in interference fit with the vertical side and the resisting flange, and the lower buckling long plate is in interference fit with the upper resisting flange; by adopting the structure, the effects of improving the appearance quality of the product and the overall stability of the frame body, reducing the consumption of raw materials, reducing the cost and improving the production efficiency are realized.
Description
Technical Field
The utility model relates to a photovoltaic solar frame.
Background
At present, because the photovoltaic solar frame body is cuboid, each outer frame plate is split, a through groove for inserting angle codes is required to be arranged on the aluminum alloy section for manufacturing the frame body, each connecting part is required to be inserted in the through groove by using the angle codes and fixed to form the frame body, the production procedures are more, the aluminum alloy quality is high, the cost is high,
In addition, the junction between the frame boards takes place the dislocation easily for the product quality is poor, and connects the back external edge comparatively sharp, easily causes unnecessary injury to the operator.
Disclosure of utility model
The utility model aims to provide a photovoltaic solar frame body which can improve the appearance quality of a product and the overall stability of the frame body, reduce the consumption of raw materials, reduce the cost and improve the production efficiency.
The technical scheme of the utility model is a photovoltaic solar frame body, which comprises an aluminum profile 24 for manufacturing the photovoltaic solar frame body, and is characterized in that: the aluminum profile 24 comprises an upper short side 3 and a lower long side 2, wherein the right end of the lower long side 2 is provided with an upper resisting flange 6, the left ends of the upper short side 3 and the lower long side 2 are connected into a whole through a vertical side 1, the right side of the vertical side 1 and the lower part of the upper short side 3 are integrally provided with a middle short side 4, the right end of the middle short side 4 is provided with a lower resisting flange 5, the lower part of the upper short side 3, the upper right side of the vertical side 1 and the upper part of the middle short side 4 form a containing groove 8 for containing a solar photovoltaic panel, the lower part of the middle short side 4, the lower right side of the vertical side 1 and the upper part of the lower long side 2 form a buckling groove 9, four opposite double V-shaped cuts 17 are punched from top to bottom near the right side of the upper short side 3, the middle short side 4 and the lower long side 2, wherein a small V-shaped cut 18 is formed near one side of the vertical side 1, the tip ends of the opposite double V-shaped cuts 17 are integrally connected with the large V-shaped cuts 19, the aluminum profile 24 is bent at the double V-shaped cuts 17 to form a frame 20, two free ends of the aluminum profile 24 are adjacent and have a gap after bending, an aluminum profile buckling plate 10 is buckled in the buckling groove 9 at the joint of the two free ends of the aluminum profile 24, the buckling plate 10 comprises an upper buckling short plate 12 and a lower buckling long plate 13, the left ends of the upper buckling short plate 12 and the lower buckling long plate 13 are integrally connected through a buckling vertical plate 11, a supporting plate 16 is vertically arranged between the lower part adjacent to the right end of the upper buckling short plate 12 and the upper part of the lower buckling long plate 13, the upper buckling short plate 12 is buckled between the right side of the vertical edge 1 and the left side of the resisting flange 5 in interference fit, the lower buckling long plate 13 is buckled between the right side of the vertical edge 1 and the left side of the upper resisting flange 6 in an interference fit.
The technical scheme of the utility model can also be that a first tensioning arc 14 is arranged on the upper buckling short plate 12 and between the right side of the vertical edge 1 and the left side of the supporting plate 16.
The technical scheme of the utility model can also be that a second tensioning arc 15 is arranged on the lower buckling long plate 13 and between the right side of the supporting plate 16 and the upper resisting flange 6.
The technical scheme of the utility model can also be that the fastening vertical plate 11 is provided with a third tensioning arc 22.
The technical scheme of the utility model can also be that the lower part of the upper short side 3 is provided with at least one groove 7.
The technical solution of the present utility model may also be that a notch 23 is provided on the support plate 16 and at the lower portion of the upper fastening short plate 12.
The technical scheme of the utility model can also be that a convex block 21 is arranged at the lower part of the upper short side 3 and adjacent to the vertical side 1.
The utility model has the advantages that the left ends of the upper short side 3 and the lower long side 2 are connected into a whole through the vertical side 1, the right side of the vertical side 1 and the lower part of the upper short side 3 are integrally provided with the middle short side 4, the right end of the middle short side 4 is provided with the lower resisting flange 5, the lower part of the upper short side 3, the upper right side of the vertical side 1 and the upper part of the middle short side 4 form a containing groove 8 for containing a solar photovoltaic panel, the lower part of the middle short side 4, the lower right side of the vertical side 1 and the upper part of the lower long side 2 form a buckling groove 9, the upper short side 3, the middle short side 4 and the lower long side 2 are respectively provided with four opposite double V-shaped notches 17 from top to bottom in an adjacent way to the right side of the vertical side 1, wherein one side adjacent to the vertical side 1 is provided with a small V-shaped notch 18, the tip part of the opposite double V-shaped notch 17 is integrally connected with a large V-shaped notch 19, the aluminum profile 24 is bent at the double V-shaped notch 17 to form a rectangular frame 20, two free ends of the aluminum profile 24 are adjacent to each other and have a gap after bending, an aluminum profile buckling plate 10 is buckled in the buckling groove 9 at the joint of the two free ends of the aluminum profile, the buckling plate 10 comprises an upper buckling short plate 12 and a lower buckling long plate 13, the left ends of the upper buckling short plate 12 and the lower buckling long plate 13 are connected into a whole through a buckling vertical plate 11, a supporting plate 16 is vertically arranged between the lower part of the right end of the upper buckling short plate 12 and the upper part of the lower buckling long plate 13, the upper buckling short plate 12 is buckled between the right side of the vertical edge 1 and the left side of the resisting flange 5 and is in interference fit, and the lower buckling long plate 13 is buckled between the right side of the vertical edge 1 and the left side of the upper resisting flange 6 and is in interference fit; before the photovoltaic solar frame body is manufactured, the length of the aluminum profile is cut according to the required length of the photovoltaic solar frame body, four opposite double V-shaped cuts 17 are punched on the aluminum profile 24 at the required position by using special equipment, then the two double V-shaped cuts 17 of the aluminum profile 24 are bent to form a frame body 20, after bending, two free ends of the aluminum profile 24 are adjacent and have a gap, then an aluminum profile buckling plate 10 is buckled in the buckling groove 9 at the joint of the two free ends of the aluminum profile 24, as the upper buckling short plate 12 is buckled between the right side of the vertical edge 1 and the left side of the resisting flange 5 and is in interference fit, the lower buckling long plate 13 is buckled between the right side of the vertical edge 1 and the left side of the upper resisting flange 6 and is in interference fit, and the frame body 20 can form a deformation-free integral structure after bending, so that the effects of improving the appearance quality of products and the overall stability of the frame body, reducing raw material consumption and improving the production efficiency are achieved.
Drawings
FIG. 1 is a schematic structural view of an aluminum profile for manufacturing a photovoltaic solar frame according to the present utility model
FIG. 2 is a front view of FIG. 1
FIG. 3 is a schematic structural view of an aluminum profile fastening plate according to the present utility model
FIG. 4 is a front view of FIG. 3
FIG. 5 is a cross-sectional view of a photovoltaic solar frame of the present utility model
FIG. 6 is a schematic view of the structure of the double V-shaped body of the present utility model
Fig. 7 is a schematic structural view of a photovoltaic solar frame according to the present utility model
1, Vertical side, 2, lower long side, 3, upper short side, 4, middle short side, 5, lower resisting flange, 6, upper resisting flange, 7, groove, 8, holding groove, 9, fastening groove, 10, aluminum profile fastening plate, 11, fastening riser, 12, upper fastening short plate, 13, lower fastening long plate, 14, first tensioning arc, 15, second tensioning arc, 16, supporting plate, 17, double V-shaped notch, 18, small V-shaped notch, 19, large V-shaped notch, 20, frame, 21, boss, 22, third tensioning arc, 23, notch, 24, aluminum profile.
Detailed Description
According to the figures 1 to 7, the utility model relates to a photovoltaic solar frame body, which comprises an aluminum profile 24 for manufacturing the photovoltaic solar frame body, wherein the aluminum profile 24 comprises an upper short side 3 and a lower long side 2, the right end of the lower long side 2 is provided with an upper resisting flange 6, the left ends of the upper short side 3 and the lower long side 2 are connected into a whole through a vertical side 1, the right side of the vertical side 1 is integrally provided with a middle short side 4 at the lower part of the upper short side 3, the right end of the middle short side 4 is provided with a lower resisting flange 5, the lower part of the upper short side 3, the upper right side of the vertical side 1 and the upper part of the middle short side 4 form a containing groove 8 for containing a solar photovoltaic panel, the lower part of the middle short side 4, the lower right side of the vertical side 1 and the upper part of the lower long side 2 form a buckling groove 9, the upper short side 3, the middle short side 4 and the lower long side 2 are respectively provided with four opposite double V-shaped notches 17 from top to bottom in a punching manner near the right side of the vertical side 1, wherein one side near the vertical side 1 is provided with a small V-shaped notch 18, the tip parts of the opposite double V-shaped notches 17 are integrally connected with a large V-shaped notch 19, the aluminum profile 24 is bent at the double V-shaped notch 17 to form a rectangular frame 20, two free ends of the aluminum profile 24 are adjacent and have a gap after bending, an aluminum profile fastening plate 10 is fastened in the fastening groove 9 at the joint of the two free ends of the aluminum profile 24, the fastening plate 10 comprises an upper fastening short plate 12 and a lower fastening long plate 13, the left ends of the upper fastening short plate 12 and the lower fastening long plate 13 are integrally connected through a fastening vertical plate 11, a supporting plate 16 is vertically arranged between the lower part near the right end of the upper fastening short plate 12 and the upper part of the lower fastening long plate 13, the upper buckling short plate 12 is buckled between the right side of the vertical edge 1 and the left side of the resisting flange 5 in interference fit, and the lower buckling long plate 13 is buckled between the right side of the vertical edge 1 and the left side of the upper resisting flange 6 in interference fit; before manufacturing the photovoltaic solar frame, the length of the aluminum profile 24 is cut according to the required length for manufacturing the photovoltaic solar frame, and four opposite double V-shaped cuts 17 are punched on the aluminum profile 24 at the required position by using special equipment, then the two double V-shaped cuts 17 of the aluminum profile 24 are bent to form a frame 20, after bending, two free ends of the aluminum profile 24 are adjacent and have a gap, then an aluminum profile buckling plate 10 is buckled in the buckling groove 9 at the joint of the two free ends of the aluminum profile 24, and as the upper buckling short plate 12 is buckled between the right side of the vertical edge 1 and the left side of the resisting flange 5 and is in interference fit, the lower buckling long plate 13 is buckled between the right side of the vertical edge 1 and the left side of the upper resisting flange 6 and is in interference fit, and the frame 20 can be formed into a deformation-free integral structure after bending, so that the appearance quality of the frame product and the overall stability can be improved, the consumption of raw materials can be reduced, the production cost can be improved, and the production cost can be improved; the appearance quality and the overall stability of the frame body product can be further improved by using the shorter fastening plates 10 to be fastened at different positions of the frame body 20.
In addition, a first tightening arc 14 is arranged between the right side of the vertical edge 1 and the left side of the supporting plate 16 on the upper buckling short plate 12, a second tightening arc 15 is arranged between the right side of the supporting plate 16 and the upper resisting flange 6 on the lower buckling long plate 13, and when the solar photovoltaic panel is firstly inserted into the accommodating groove 8 and the upper short side 3 is placed on the operating platform during installation, when the buckled frame body 20 is buckled with the aluminum profile buckling plate 10, the upper buckling short plate 12 is firstly buckled on the lower part of the middle short side 4, and as the first tightening arc 14 is arranged between the right side of the vertical edge 1 and the left side of the supporting plate 16 on the upper buckling short plate 12, the buckling installation can be conveniently carried out, and after the installation, the upper buckling short plate 12 is in interference fit between the right side of the vertical edge 1 and the left side of the lower resisting flange 5, so that the upper buckling short plate 12 plays a role in tightening and plays a role in buffering deformation during installation; the notch 23 is arranged on the supporting plate 16 and at the lower part of the upper buckling short plate 12, then an external force is applied to the lower part of the vertical edge 1 by a tool, the supporting plate 16 can be prevented from being deformed according to the aluminum profile buckling plate 10, the lower buckling long plate 13 is arranged between the right side of the vertical edge 1 and the left side of the upper resisting flange 6, and the second tensioning arc 15 is arranged on the lower buckling long plate 13 and between the right side of the supporting plate 16 and the upper resisting flange 6, so that buckling installation is convenient, and after installation, interference fit is realized between the right side of the vertical edge 1 and the left side of the upper resisting flange 6, so that the tensioning effect is realized during use, and the buffering deformation effect is realized during installation; the third tensioning arc 22 is arranged on the buckling vertical plate 11, so that the buckling vertical plate can play a role in tensioning in vertical use and play a role in buffering deformation in installation. In addition, the lower part of the upper short side 3 and the position adjacent to the vertical side 1 are provided with the convex blocks 21, and as the four corners of the solar photovoltaic panel are right angles, the four corners of the frame 20 are arc-shaped, in order to prevent the four corners of the solar photovoltaic panel from contacting with the arc shape of the frame 20 and damaging the solar photovoltaic panel, the convex blocks 21 form right angles after being bent in the frame 20, and the four corners of the solar photovoltaic panel can be protected by arranging the convex blocks 21.
Claims (7)
1. A photovoltaic solar frame comprising an aluminium profile (24) for making a photovoltaic solar frame, characterized in that: the aluminum profile (24) comprises an upper short side (3) and a lower long side (2), an upper resisting flange (6) is arranged at the right end of the lower long side (2), the upper short side (3) and the left end of the lower long side (2) are connected into a whole through a vertical side (1), a middle short side (4) is integrally arranged at the right side of the vertical side (1) and at the lower part of the upper short side (3), a lower resisting flange (5) is arranged at the right end of the middle short side (4), a containing groove (8) for containing a solar photovoltaic panel is formed at the lower part of the vertical side (1) and at the upper part of the middle short side (4), a buckling groove (9) is formed at the lower part of the vertical side (4) and at the upper part of the lower long side (2), a V-shaped notch (17) is formed at the position of the vertical side (17) adjacent to the vertical side of the V-shaped notch, a V-shaped notch (17) is formed at the vertical side of the V-shaped notch (17) of the V-shaped profile, the V-shaped notch (17) is formed at the position of the V-shaped notch (17), after bending, two free ends of the aluminum profile (24) are adjacent and have a gap, an aluminum profile buckling plate (10) is buckled in the buckling groove (9) at the joint of the two free ends of the aluminum profile (24), the buckling plate (10) comprises an upper buckling short plate (12) and a lower buckling long plate (13), the left ends of the upper buckling short plate (12) and the lower buckling long plate (13) are connected into a whole through a buckling vertical plate (11), a supporting plate (16) is vertically arranged between the lower part of the right end of the upper buckling short plate (12) and the upper part of the lower buckling long plate (13), the upper buckling short plate (12) is buckled between the right side of the vertical edge (1) and the left side of the resisting flange (5) and is in interference fit, and the lower buckling long plate (13) is buckled between the right side of the vertical edge (1) and the left side of the upper resisting flange (6) and is in interference fit.
2. A photovoltaic solar frame as claimed in claim 1, wherein: the upper buckling short plate (12) is provided with a first tensioning arc (14) between the right side of the vertical edge (1) and the left side of the supporting plate (16).
3. A photovoltaic solar frame according to claim 1 or 2, characterized in that: the lower buckling long plate (13) is provided with a second tensioning arc (15) between the right side of the supporting plate (16) and the upper resisting flange (6).
4. A photovoltaic solar frame according to claim 3, characterized in that: the buckling vertical plate (11) is provided with a third tensioning arc (22).
5. The photovoltaic solar frame of claim 4, wherein: at least one groove (7) is arranged at the lower part of the upper short side (3).
6. A photovoltaic solar frame as claimed in claim 1, wherein: the support plate (16) is provided with a notch (23) at the lower part of the upper buckling short plate (12).
7. A photovoltaic solar frame as claimed in claim 1, wherein: a convex block (21) is arranged at the lower part of the upper short side (3) and adjacent to the vertical side (1).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322655948.8U CN220858020U (en) | 2023-09-28 | 2023-09-28 | Photovoltaic solar frame |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322655948.8U CN220858020U (en) | 2023-09-28 | 2023-09-28 | Photovoltaic solar frame |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN220858020U true CN220858020U (en) | 2024-04-26 |
Family
ID=90786847
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202322655948.8U Active CN220858020U (en) | 2023-09-28 | 2023-09-28 | Photovoltaic solar frame |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN220858020U (en) |
-
2023
- 2023-09-28 CN CN202322655948.8U patent/CN220858020U/en active Active
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