CN219643826U - Fastening type fixed support system for solar photovoltaic panel - Google Patents

Abstract

The utility model discloses a fastening type fixed support system for a solar photovoltaic panel, which comprises a photovoltaic panel unit and a support base, wherein the photovoltaic panel unit comprises a photovoltaic panel and a photovoltaic frame coated on the edge of the photovoltaic panel, the support base is provided with a bearing edge for bearing the photovoltaic frame, the photovoltaic frame is provided with a first fastening part, and the bearing edge is provided with a second fastening part for being fastened with the first fastening part in a matching way. The support system has the advantages of simple structure, convenient installation, realization of small size and light weight of the frame, and reduction of manufacturing cost, transportation cost and material cost.

Description

Fastening type fixed support system for solar photovoltaic panel

Technical Field

The utility model mainly relates to a solar photovoltaic power generation technology, in particular to a fastening type fixed support system for a solar photovoltaic panel.

Background

Solar energy is energy generated by the continuous nuclear fusion reaction process of black seeds in the sun or on the surface. The solar energy has the advantages of sufficient resources, long service life, wide distribution, safety, cleanness, reliable technology and the like, and the application range is very wide because the solar energy can be converted into various other forms of energy. The power obtained from solar energy is obtained by performing photoelectric conversion by a solar cell.

When the existing solar photovoltaic panel is installed, the photovoltaic panel is installed in an aluminum frame firstly, then the aluminum frame is connected with a base through bolts, the molding cost of the aluminum frame is extremely high, the aluminum frame is easy to deform, the weight of the photovoltaic panel is large, and the photovoltaic panel falls off under the action of wind and rain after the solar photovoltaic panel is used for a long time.

In order to solve the stability problem of the aluminum frame, the prior art also proposes to replace the aluminum frame with a steel frame, and when the steel frame is connected with the base, a connecting edge extending out of the outline of the steel frame is formed on the steel frame to ensure the convenience of installation, so that the bolt is not interfered by the steel frame when being installed in a penetrating way. However, the connecting edge extending out of the outline of the steel frame does not play any role in the overall strength of the steel frame, but only plays a role in connection, while the extending part greatly increases the manufacturing cost of the steel frame, and in order to adapt to the connecting edge structure extending out of the outline of the steel frame, the overall size of the steel frame is increased, the material cost of the steel frame is further increased, and in addition, the bolt perforation mounting structure is extremely inconvenient in field mounting and affects the mounting efficiency.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide the fastening type fixed support system for the solar photovoltaic panel, which has the advantages of simple structure, convenient installation, small size and light weight of the frame, and can reduce the manufacturing cost, the transportation cost and the material cost.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a lock joint formula fixed support system for solar photovoltaic panel, includes photovoltaic panel unit and supporting pedestal, photovoltaic panel unit includes photovoltaic panel and cladding at the photovoltaic frame of photovoltaic panel border, supporting pedestal has the limit that bears that is used for bearing the photovoltaic frame, be equipped with first lock joint portion on the photovoltaic frame, bear the edge and be equipped with the second lock joint portion that is used for with first lock joint portion cooperation lock joint.

As a further improvement of the above technical scheme:

the first buckling part is arranged as a buckling table, and the second buckling part is arranged as a buckling groove or a buckling hole.

The photovoltaic frame comprises a splicing groove used for being coated on the edge of the photovoltaic panel, the top of the splicing groove is provided with a top edge in a molding mode, the side part of the top edge is provided with a side edge in a molding mode, the bottom of the side edge is provided with a bottom edge in a molding mode, and the buckling table is molded on the bottom edge.

The first buckling part is a vertical buckling table formed on the bottom edge, and the vertical buckling table is buckled with the second buckling part.

The bearing edge of the support base is provided with a sinking groove, the second buckling part is arranged in the sinking groove, and the bottom edges of the two sides of the vertical buckling table are clung to the bearing edge after the vertical buckling table is buckled with the second buckling part.

The second buckling part comprises a buckle with a buckling groove and a fastening bolt, the buckle is arranged in the sinking groove and is fixedly connected with the bottom of the sinking groove through the fastening bolt, and the vertical buckling table is buckled with the buckling groove of the buckle.

The second buckling part is provided with a buckling groove, the buckling groove is formed on the bearing edge, and the bottom edges of the two sides of the vertical buckling platform are clung to the bearing edge after the vertical buckling platform is buckled with the buckling groove.

The first buckling part is installed on the photovoltaic frame.

The photovoltaic frame comprises a splicing groove used for being coated on the edge of the photovoltaic panel, a top edge is formed in the top of the splicing groove, a side edge is formed in the side portion of the top edge, a bottom edge is formed in the bottom of the side edge, and the first buckling part is connected with the side edge in a fastening mode through a screw.

The first buckling part comprises a connecting plate and a vertical buckling table formed at the bottom of the connecting plate, the connecting plate is fixedly connected with the side edges through screws, and the vertical buckling table is buckled with the second buckling part.

The bearing edge is provided with a buckling hole, and the vertical buckling platform is buckled with the bearing edge after being extruded into the buckling hole.

The first buckling part is provided with a buckling hole, and the second buckling part is provided with a buckling table.

The photovoltaic frame comprises a splicing groove used for being coated on the edge of the photovoltaic panel, the top of the splicing groove is provided with a top edge in a molding mode, the side part of the top edge is provided with a side edge in a molding mode, the bottom of the side edge is provided with a bottom edge in a molding mode, and the buckling hole is formed in the bottom edge.

The bearing edge of the support base is provided with a sinking groove, the second buckling part is arranged in the sinking groove, and the bottom edges of the two sides of the buckling hole are clung to the bearing edge after the second buckling part is buckled with the buckling hole.

The second buckling part comprises a fastener with a convex buckle and a fastening bolt, wherein the fastener is arranged in the sinking groove and is in fastening connection with the bottom of the sinking groove through the fastening bolt, and the convex buckle is buckled with the buckling hole.

The bearing edge is provided with a buckling table in a forming mode, and after the buckling table is buckled with the buckling hole, the bottom edges of the two sides of the buckling hole are clung to the bearing edge.

Compared with the prior art, the utility model has the advantages that:

the utility model discloses a fastening type fixing and supporting system for a solar photovoltaic panel, which comprises a photovoltaic panel unit and a supporting base, wherein the photovoltaic panel unit comprises a photovoltaic panel and a photovoltaic frame coated on the edge of the photovoltaic panel, the supporting base is provided with a bearing edge for bearing the photovoltaic frame, a first fastening part is arranged on the photovoltaic frame, and a second fastening part for being fastened with the first fastening part in a matching way is arranged on the bearing edge. During installation, the support base is firstly erected and fixed, each photovoltaic frame is inserted and coated on the periphery edges of the photovoltaic panel to form photovoltaic panel units, light Fu Biankuang of the photovoltaic panel units is borne on the bearing edge of the support base, and at the moment, the first buckling parts on the photovoltaic frames and the second buckling parts on the bearing edge are matched and buckled with each other forcefully, so that the installation and fixation of the photovoltaic panel units are realized. Compared with the traditional structure, the photovoltaic panel unit is provided with the first buckling part on the photovoltaic frame and the second buckling part on the bearing edge, so that the buckling of the photovoltaic panel unit and the supporting base is realized, a bolt perforation mounting structure is not needed, and the mounting convenience and the mounting efficiency are greatly improved; because the first buckling part on the photovoltaic frame and the second buckling part on the bearing edge are matched and buckled, the connecting edge extending to the outside of the outline of the steel frame is not needed, so that the whole dimension of the photovoltaic frame can be reduced, the light weight of the photovoltaic frame and the photovoltaic panel unit after the photovoltaic frame is assembled is realized, the manufacturing cost and the transportation cost are reduced, and the material cost is saved.

Drawings

Fig. 1 is a schematic structural view of embodiment 1 of the present utility model.

Fig. 2 is a schematic view of the structure of a support base in embodiment 1 of the present utility model.

Fig. 3 is a schematic structural diagram of a photovoltaic frame in embodiment 1 of the present utility model.

Fig. 4 is a schematic structural view of embodiment 2 of the present utility model.

Fig. 5 is a schematic view showing the structure of a support base in embodiment 2 of the present utility model.

Fig. 6 is a schematic structural diagram of a photovoltaic frame in embodiment 3 of the present utility model.

Fig. 7 is a schematic structural view of embodiment 3 of the present utility model.

Fig. 8 is a schematic view showing the structure of a support base in embodiment 3 of the present utility model.

Fig. 9 is a schematic structural diagram of a photovoltaic frame in embodiment 3 of the present utility model.

Fig. 10 is a schematic structural view of embodiment 4 of the present utility model.

Fig. 11 is a schematic view showing the structure of a support base in embodiment 4 of the present utility model.

Fig. 12 is a schematic structural diagram of a photovoltaic frame in embodiment 4 of the present utility model.

Fig. 13 is a schematic structural view of embodiment 5 of the present utility model.

Fig. 14 is a schematic view showing the structure of a support base in embodiment 5 of the present utility model.

Fig. 15 is a schematic structural diagram of a photovoltaic frame in embodiment 5 of the present utility model.

The reference numerals in the drawings denote:

1. a photovoltaic panel unit; 11. a photovoltaic panel; 12. light Fu Biankuang; 121. a first fastening part; 1211. a connecting plate; 122. a plug-in groove; 123. a top edge; 124. a side edge; 125. a bottom edge; 2. a support base; 21. a carrying edge; 211. a second fastening part; 2111. a fastener; 2112. a fastening bolt; 212. sinking groove.

Detailed Description

The utility model will be described in further detail with reference to the drawings and the specific examples.

Example 1:

fig. 1 to 3 show a first embodiment of a fastening type fixing and supporting system for a solar photovoltaic panel according to the present utility model, where the supporting system includes a photovoltaic panel unit 1 and a supporting base 2, the photovoltaic panel unit 1 includes a photovoltaic panel 11 and a photovoltaic frame 12 wrapped around an edge of the photovoltaic panel 11, the supporting base 2 has a carrying edge 21 for carrying the photovoltaic frame 12, a first fastening portion 121 is disposed on the photovoltaic frame 12, and a second fastening portion 211 for fastening with the first fastening portion 121 is disposed on the carrying edge 21. During installation, the support base 2 is firstly erected and fixed, the photovoltaic frames 12 are inserted and coated on the periphery edges of the photovoltaic panel 11 to form the photovoltaic panel units 1, then the photovoltaic frames 12 of the photovoltaic panel units 1 are borne on the bearing edges 21 of the support base 2, and at the moment, the first buckling parts 121 on the photovoltaic frames 12 and the second buckling parts 211 on the bearing edges 21 are matched and buckled with each other forcefully, so that the installation and fixation of the photovoltaic panel units 1 are realized. Compared with the traditional structure, the photovoltaic panel unit 1 and the support base 2 are fastened by arranging the first fastening part 121 on the photovoltaic frame 12 and arranging the second fastening part 211 on the bearing edge 21, so that a bolt perforation mounting structure is not needed, and the convenience and the mounting efficiency of the mounting are greatly improved; because the first buckling part 121 on the photovoltaic frame 12 and the second buckling part 211 on the bearing edge 21 are matched and buckled, the connecting edge extending to the outside of the outline of the steel frame is not needed, so that the whole dimension of the photovoltaic frame 12 can be reduced, the light weight of the photovoltaic frame 12 and the photovoltaic panel unit 1 after being assembled is realized, the manufacturing cost and the transportation cost are reduced, and the material cost is saved.

In this embodiment, the first fastening portion 121 is configured as a fastening table, and the second fastening portion 211 is configured as a fastening slot or a fastening hole. In this structure, the first fastening portion 121 adopts a fastening table structure, and the second fastening portion 211 adopts a fastening groove or fastening hole structure matched with the first fastening portion, which is simple and reliable in structure and easy to implement.

In this embodiment, the photovoltaic frame 12 includes a plugging slot 122 for wrapping the edge of the photovoltaic panel 11, a top edge 123 is formed on the top of the plugging slot 122, a side edge 124 is formed on the side of the top edge 123, a bottom edge 125 is formed on the bottom of the side edge 124, and a buckling table is formed on the bottom edge 125. In this structure, the photovoltaic frame 12 is formed by the top edge 123, the side edge 124 and the bottom edge 125 into a U-shaped structure with the insertion groove 122, so that the light weight of small size is realized, and the buckling table is formed on the bottom edge 125 and buckled with the second buckling part 211 in a matched manner, so that the structure is simple and reliable.

In this embodiment, the first fastening portion 121 is a vertical fastening platform formed on the bottom edge 125, and the vertical fastening platform is fastened with the second fastening portion 211. The first buckling part 121 is provided with a vertical buckling table, after the vertical buckling table is buckled with the second buckling part 211, the buckling position of the photovoltaic frame 12 can be covered, and the installation is convenient and the aesthetic degree is improved.

In this embodiment, the carrying edge 21 of the supporting base 2 is formed with a sinking groove 212, the second fastening portion 211 is installed in the sinking groove 212, and the bottom edges 125 on two sides of the vertical fastening portion 211 are tightly attached to the carrying edge 21 after the vertical fastening portion is fastened with the second fastening portion 211. In this structure, second buckling parts 211 are provided in a plurality of, are installed on supporting base 2 in the sectional type along length direction to realize with photovoltaic frame 12 multiposition lock joint, improved joint strength, and bear the shaping on the limit 21 and have heavy groove 212 second buckling parts 211 to install in heavy groove 212, make vertical buckling platform and the base 125 of its both sides of second buckling parts 211 lock joint back hug closely with bear the limit 21, further improved the atress intensity.

In this embodiment, the second fastening portion 211 includes a fastening portion 2111 with a fastening groove and a fastening bolt 2112, the fastening portion 2111 is disposed in the sink 212 and is fastened to the bottom of the sink 212 by the fastening bolt 2112, and the vertical fastening platform is fastened to the fastening groove of the fastening portion 2111. In this structure, the fastener 2111 is mounted on the sink 212 by the fastening bolt 2112, and only the fastening operation is performed when the following photovoltaic frame 12 is mounted, thereby improving the convenience of mounting.

Example 2:

fig. 4 to 6 show a second embodiment of the snap-on fixed support system for solar photovoltaic panels of this utility model, which is substantially identical to embodiment 1, except that: in this embodiment, the second fastening portion 211 is configured as a fastening slot, and the fastening slot is formed on the carrying edge 21, and the bottom edges 125 on two sides of the vertical fastening platform are tightly attached to the carrying edge 21 after the vertical fastening platform is fastened to the fastening slot. In this structure, the vertical buckling stand is a primary member formed on the bottom edge 125, and the buckling groove is a primary groove on the bearing edge 21, so that no additional accessory is needed, and the structure is simple and reliable, and the cost is further reduced.

Example 3:

fig. 7 to 9 show a third embodiment of the snap-on fixed support system for solar photovoltaic panels according to the present utility model, which is substantially identical to embodiment 1, except that: in this embodiment, the first fastening portion 121 is mounted on the photovoltaic frame 12. The first fastening parts 121 are arranged in a plurality, and are installed on the photovoltaic frame 12 in a segmented mode along the length direction, so that multi-point fastening with the second fastening parts 211 is achieved, and the connection strength is improved.

In this embodiment, the photovoltaic frame 12 includes a plugging slot 122 for wrapping the edge of the photovoltaic panel 11, a top edge 123 is formed at the top of the plugging slot 122, a side edge 124 is formed at the side of the top edge 123, a bottom edge 125 is formed at the bottom of the side edge 124, and the first fastening portion 121 is fastened with the side edge 124 by a screw. In this structure, the photovoltaic frame 12 is formed by the top edge 123, the side edge 124 and the bottom edge 125 into a U-shaped structure with the insertion groove 122, so that the light weight of small size is realized, and the buckling table is formed on the bottom edge 125 and buckled with the second buckling part 211 in a matched manner, so that the structure is simple and reliable. The first fastening portion 121 is fastened to the side 124 by a screw, which is simple and reliable.

In this embodiment, the first fastening portion 121 includes a connecting plate 1211 and a vertical fastening platform formed at the bottom of the connecting plate 1211, where the connecting plate 1211 is fastened to the side 124 by a screw, and the vertical fastening platform is fastened to the second fastening portion 211. In this structure, after the vertical buckling platform is buckled with the second buckling part 211, the photovoltaic frame 12 can cover the buckling position, so that the installation is convenient, and the aesthetic degree is improved.

In this embodiment, the bearing edge 21 is formed with a fastening hole, and the vertical fastening platform is fastened with the bearing edge 21 after being extruded into the fastening hole. In this structure, the second fastening portion 211 is configured as a fastening hole, and the vertical fastening platform is fastened with the carrying edge 21 after being extruded into the fastening hole, so that the structure is simple and practical.

Example 4:

fig. 10 to 12 show a fourth embodiment of the snap-on fixed support system for solar photovoltaic panels of this utility model, which is substantially identical to embodiment 1, except that: in this embodiment, the first fastening portion 121 is configured as a fastening hole, and the second fastening portion 211 is configured as a fastening table. In this structure, the first fastening portion 121 is set as a fastening hole, the second fastening portion 211 is set as a fastening table, and after the fastening table and the fastening hole are fastened, the photovoltaic frame 12 can cover the fastening position, so that the installation is convenient, and the aesthetic degree is improved.

In this embodiment, the photovoltaic frame 12 includes a plugging slot 122 for wrapping the edge of the photovoltaic panel 11, a top edge 123 is formed on the top of the plugging slot 122, a side edge 124 is formed on the side of the top edge 123, a bottom edge 125 is formed on the bottom of the side edge 124, and a fastening hole is formed on the bottom edge 125. In this structure, the photovoltaic frame 12 is formed by the top edge 123, the side edge 124 and the bottom edge 125 into a U-shaped structure with the insertion groove 122, so that the light weight of small size is realized, and the buckling holes are formed on the bottom edge 125 to be matched and buckled with the buckling table, so that the structure is simple and reliable.

In this embodiment, the carrying edge 21 of the support base 2 is formed with a sink 212, the second fastening portion 211 is installed in the sink 212, and the bottom edges 125 at two sides of the fastening hole are tightly attached to the carrying edge 21 after the second fastening portion 211 is fastened to the fastening hole. In this structure, second buckling parts 211 are provided in a plurality of, are installed on supporting base 2 in the sectional type along length direction to realize with photovoltaic frame 12 multiposition lock joint, improved joint strength, and bear the shaping on the limit 21 and have heavy groove 212, second buckling parts 211 are installed in heavy groove 212, make the base 125 of its both sides hug closely with bear the limit 21 behind the knot hole and the second buckling parts 211 lock joint, further improved the atress intensity.

In this embodiment, the second fastening portion 211 includes a fastening portion 2111 with a male fastener and a fastening bolt 2112, where the fastening portion 2111 is disposed in the sink 212 and fastened to the bottom of the sink 212 by the fastening bolt 2112, and the male fastener is fastened to the fastening hole. In this structure, the fastener 2111 is mounted on the sink 212 by the fastening bolt 2112, and only the fastening operation is performed when the following photovoltaic frame 12 is mounted, thereby improving the convenience of mounting.

Example 5:

fig. 13 to 15 show a fifth embodiment of the snap-on fixed support system for solar photovoltaic panels of this utility model, which is substantially identical to embodiment 1, except that: in this embodiment, a fastening table is formed on the carrying edge 21, and after the fastening table is fastened with the fastening hole, the bottom edges 125 on two sides of the fastening hole are tightly attached to the carrying edge 21. After the buckling table and the buckling holes are buckled, the buckling positions can be covered by the photovoltaic frame 12, so that the installation is convenient, and the aesthetic degree is improved.

While the utility model has been described in terms of preferred embodiments, it is not intended to be limiting. Many possible variations and modifications of the disclosed technology can be made by anyone skilled in the art, or equivalent embodiments with equivalent variations can be made, without departing from the scope of the utility model. Therefore, any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present utility model shall fall within the scope of the technical solution of the present utility model.

Claims (16)

1. A lock joint formula fixed support system for solar photovoltaic panel, its characterized in that: including photovoltaic panel unit (1) and supporting base (2), photovoltaic panel unit (1) include photovoltaic panel (11) and cladding light Fu Biankuang (12) at photovoltaic panel (11) border, supporting base (2) have and are used for bearing light Fu Biankuang (12) bear limit (21), be equipped with first lock joint portion (121) on light Fu Biankuang (12), be equipped with on bearing limit (21) be used for with first lock joint portion (121) cooperation lock joint second lock joint portion (211).

2. The snap-in fixed support system for a solar photovoltaic panel of claim 1, wherein: the first buckling part (121) is arranged as a buckling table, and the second buckling part (211) is arranged as a buckling groove or a buckling hole.

3. The snap-in fixed support system for a solar photovoltaic panel of claim 2, wherein: the light Fu Biankuang (12) comprises a plugging groove (122) used for being wrapped on the edge of the photovoltaic panel (11), a top edge (123) is formed on the top of the plugging groove (122), a side edge (124) is formed on the side portion of the top edge (123), a bottom edge (125) is formed on the bottom of the side edge (124), and the buckling table is formed on the bottom edge (125).

4. The snap-in fixed support system for a solar photovoltaic panel of claim 3, wherein: the first buckling part (121) is a vertical buckling table formed on the bottom edge (125), and the vertical buckling table is buckled with the second buckling part (211).

5. The snap-in fixed support system for a solar photovoltaic panel of claim 4, wherein: the bearing edge (21) of the support base (2) is provided with a sinking groove (212), the second buckling part (211) is arranged in the sinking groove (212), and the bottom edges (125) on two sides of the vertical buckling platform are clung to the bearing edge (21) after the vertical buckling platform is buckled with the second buckling part (211).

6. The snap-in fixed support system for a solar photovoltaic panel of claim 5, wherein: the second fastening part (211) comprises a fastener (2111) with a fastening groove and a fastening bolt (2112), the fastener (2111) is arranged in the sinking groove (212) and is fastened and connected with the bottom of the sinking groove (212) through the fastening bolt (2112), and the vertical fastening table is fastened and connected with the fastening groove of the fastener (2111).

7. The snap-in fixed support system for a solar photovoltaic panel of claim 4, wherein: the second buckling part (211) is arranged as a buckling groove, the buckling groove is formed on the bearing edge (21), and the bottom edges (125) on two sides of the vertical buckling platform are clung to the bearing edge (21) after the vertical buckling platform is buckled with the buckling groove.

8. The snap-in fixed support system for a solar photovoltaic panel of claim 2, wherein: the first buckling part (121) is installed on the photovoltaic frame (12).

9. The snap-in fixed support system for a solar photovoltaic panel of claim 8, wherein: the light Fu Biankuang (12) comprises a plugging groove (122) used for being wrapped on the edge of the photovoltaic panel (11), a top edge (123) is formed at the top of the plugging groove (122), a side edge (124) is formed at the side part of the top edge (123), a bottom edge (125) is formed at the bottom of the side edge (124), and the first buckling part (121) is fixedly connected with the side edge (124) through a screw.

10. The snap-in fixed support system for a solar photovoltaic panel of claim 9, wherein: the first buckling part (121) comprises a connecting plate (1211) and a vertical buckling platform formed at the bottom of the connecting plate (1211), the connecting plate (1211) is fixedly connected with the side edge (124) through a screw, and the vertical buckling platform is buckled with the second buckling part (211).

11. The snap-in fixed support system for a solar photovoltaic panel of claim 10, wherein: the bearing edge (21) is provided with a buckling hole in a forming mode, and the vertical buckling platform is buckled with the bearing edge (21) after being extruded into the buckling hole.

12. The snap-in fixed support system for a solar photovoltaic panel of claim 1, wherein: the first buckling part (121) is provided with a buckling hole, and the second buckling part (211) is provided with a buckling table.

13. The snap-in fixed support system for a solar photovoltaic panel of claim 12, wherein: the light Fu Biankuang (12) comprises a plugging groove (122) used for being wrapped on the edge of the photovoltaic panel (11), a top edge (123) is formed on the top of the plugging groove (122), a side edge (124) is formed on the side portion of the top edge (123), a bottom edge (125) is formed on the bottom of the side edge (124), and the buckling hole is formed on the bottom edge (125).

14. The snap-in fixed support system for a solar photovoltaic panel of claim 13, wherein: the bearing edge (21) of the support base (2) is provided with a sinking groove (212), the second buckling part (211) is arranged in the sinking groove (212), and the bottom edges (125) at two sides of the buckling hole are clung to the bearing edge (21) after the second buckling part (211) is buckled with the buckling hole.

15. The snap-in fixed support system for a solar photovoltaic panel of claim 14, wherein: the second fastening part (211) comprises a fastener (2111) with a convex fastener and a fastening bolt (2112), the fastener (2111) is arranged in the sink (212) and is fastened and connected with the bottom of the sink (212) through the fastening bolt (2112), and the convex fastener is fastened and connected with the fastening hole.

16. The snap-in fixed support system for a solar photovoltaic panel of claim 13, wherein: the bearing edge (21) is provided with a buckling table in a forming mode, and after the buckling table is buckled with the buckling hole, bottom edges (125) on two sides of the buckling hole are clung to the bearing edge (21).