CN217824800U - Splicing solar photovoltaic frame - Google Patents

Abstract

The utility model discloses a solar photovoltaic frame that can splice, first stand and second stand respectively have two, link to each other through first connecting rod and first bracing piece between two first stands, link to each other through second connecting rod and second bracing piece between two second stands, wherein the outside of the first stand of one side and second stand all is provided with first inserted bar, first slot has been seted up to the first stand and the second stand of opposite side, main bracing has a plurality of and parallel arrangement each other, main bracing links to each other with first bracing piece and second bracing piece respectively, the crossbeam has a plurality of and parallel arrangement each other, the crossbeam sets up in the upper surface of main bracing, crossbeam one end is provided with the second inserted bar, the second slot has been seted up to the crossbeam other end, the utility model discloses rational in infrastructure, can realize the concatenation of two or more solar photovoltaic frames to connection stability improves greatly, can increase or reduce according to the actual demand simultaneously, flexibility and application scope improve greatly.

Description

Splicing solar photovoltaic frame

Technical Field

The utility model relates to a solar photovoltaic frame technical field specifically is a solar photovoltaic frame that can splice.

Background

Most of the current solar photovoltaic racks correspond to the solar photovoltaic panels one to one, and when a large number of solar photovoltaic panels are needed, the solar photovoltaic racks are also independently arranged and have poor stability, so that an improved technology is urgently needed to solve the problem in the prior art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a solar photovoltaic frame that can splice can realize the concatenation of two or more solar photovoltaic frame to connection stability improves greatly, can increase or reduce according to the actual demand simultaneously, and flexibility and application scope improve greatly, with the problem of proposing in solving above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a splicing solar photovoltaic frame comprises a base, a main inclined strut and a cross beam;

the base comprises first stand columns and second stand columns, wherein the first stand columns and the second stand columns are respectively provided with two, the two first stand columns are connected through a first connecting rod and a first supporting rod, the two second stand columns are connected through a second connecting rod and a second supporting rod, the adjacent first stand columns and the adjacent second stand columns are connected through a third connecting rod, first inserting rods are arranged on the outer sides of the first stand columns and the second stand columns on one side, first inserting grooves are formed in the first stand columns and the second stand columns on the other side, the first inserting rods on one side of the first stand columns, the first inserting grooves formed in the other first stand columns and the first connecting rods are located on the same axis, the first inserting rods on one side of the second stand columns, the first inserting grooves formed in the other second stand columns and the second connecting rods are located on the same axis, and the first inserting rods are matched with the corresponding first inserting grooves;

the main inclined struts are arranged in parallel and are respectively connected with the first supporting rod and the second supporting rod;

the crossbeam has a plurality of and mutual parallel arrangement, the crossbeam sets up in the upper surface of main bracing, crossbeam one end is provided with the second inserted bar, the second slot has been seted up to the crossbeam other end, second inserted bar and the second slot that corresponds are located the same axis, second inserted bar and second slot phase-match.

Preferably, the utility model provides a pair of solar photovoltaic frame that can splice, wherein, first inserted bar is along radially having seted up first pinhole, head rod and second connecting rod are linked together with the first slot that corresponds, head rod and second connecting rod are close to first slot one end and have all seted up the second pinhole, second pinhole and first pinhole phase-match.

Preferably, the utility model provides a pair of solar photovoltaic frame that can splice, wherein, the second inserted bar has radially seted up the third pinhole, the crossbeam is located second slot department and has seted up the fourth pinhole, fourth pinhole and third pinhole phase-match.

Preferably, the utility model provides a pair of solar photovoltaic frame that can splice, wherein, be provided with vertical stiffener between third connecting rod and the main bracing that corresponds.

Preferably, the utility model provides a pair of solar photovoltaic frame that can splice, wherein, be provided with the enhancement down tube between first stand and the main bracing that corresponds.

Preferably, the utility model provides a pair of solar photovoltaic frame that can splice, wherein, the length of stand is greater than the length of second stand.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) Wherein the first stand and the second stand outside of one side all are provided with first inserted bar, the second slot has been seted up to the first stand and the second stand of opposite side, crossbeam one end is provided with the second inserted bar, the other end is provided with the second slot, when two solar photovoltaic frame interconnect, peg graft each other through first inserted bar and first slot, second inserted bar and second slot are pegged graft each other, accessible pivot is fixed afterwards, realize the concatenation of two or more solar photovoltaic frame, and connection stability improves greatly.

(2) Because but between first inserted bar and the first slot, but between second inserted bar and the second slot is plug structure, can increase or reduce according to actual demand, flexibility and application scope improve greatly.

Drawings

FIG. 1 is a left side view of the structure of the present invention;

FIG. 2 is a right side view of the structure of the present invention;

FIG. 3 is a schematic view of the front view structure of the present invention;

fig. 4 is a plurality of schematic connection states of the present invention.

In the figure: the vertical type support frame comprises a first upright 1, a second upright 2, a first connecting rod 3, a first support rod 4, a second connecting rod 5, a second support rod 6, a third connecting rod 7, a first inserting rod 8, a first slot 9, a main inclined support 10, a cross beam 11, a second inserting rod 12, a second slot 13, a first pin hole 14, a second pin hole 15, a third pin hole 16, a fourth pin hole 17, a longitudinal reinforcing rod 18 and a reinforcing inclined rod 19.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention;

it should be noted that, in the description of the present invention, it is to be noted that the terms "inside", "outside", "upper", "lower", "both sides", "one end", "the other end", "left", "right", and the like indicate the directions or positional relationships based on the directions or positional relationships shown in the drawings, and are only for convenience of description and simplification of the present invention, and do not indicate or imply that the device or element referred to must have a specific direction, be constructed and operated in a specific direction, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a splicing solar photovoltaic frame comprises a base, a main inclined strut 10 and a cross beam 11; the base comprises first upright columns 1 and second upright columns 2, the first upright columns 1 and the second upright columns 2 are respectively provided with two, the two first upright columns 1 are connected through first connecting rods 3 and first supporting rods 4, the two second upright columns 2 are connected through second connecting rods 5 and second supporting rods 6, the adjacent first upright columns 1 and the adjacent second upright columns 2 are connected through third connecting rods 7, the lengths of the upright columns are greater than that of the second upright columns 2, the outer sides of the first upright columns 1 and the second upright columns 2 on one side are respectively provided with a first inserting rod 8, the first upright columns 1 and the second upright columns 2 on the other side are provided with first slots 9, the first inserting rods 8 on one side of the first upright columns 1, the first slots 9 opened by the other first upright columns 1 and the first connecting rods 3 are positioned on the same axis, the first inserting rods 8 on one side of the second upright columns 2, the first slots 9 opened by the other second upright columns 2 and the second connecting rods 5 are positioned on the same axis, the first inserting rods 8 are matched with the first pin holes 9 corresponding to the first pin holes 9, the first connecting rods 14 are arranged at one end of the first connecting rods 14, and the second connecting rods 14 are communicated with the first slots 5, and the second slots 14; a plurality of main inclined struts 10 are arranged in parallel, the main inclined struts 10 are respectively connected with the first support rod 4 and the second support rod 6, a longitudinal reinforcing rod 18 is arranged between the third connecting rod 7 and the corresponding main inclined strut 10, and a reinforcing inclined rod 19 is arranged between the first upright post 1 and the corresponding main inclined strut 10; crossbeam 11 has a plurality of and mutual parallel arrangement, crossbeam 11 sets up in main bracing 10's upper surface, crossbeam 11 one end is provided with second inserted bar 12, second slot 13 has been seted up to the crossbeam 11 other end, second inserted bar 12 and the second slot 13 that corresponds are located the same axis, second inserted bar 12 and second slot 13 phase-match, third pinhole 16 has been seted up along radial to second inserted bar 12, crossbeam 11 is located second slot 13 department and has seted up fourth pinhole 17, fourth pinhole 17 and third pinhole 16 phase-matches.

The assembly method and the use principle are as follows: firstly, respectively welding a first connecting rod 3 and a first supporting rod 4 between two first upright columns 1, respectively welding a second connecting rod 5 and a second supporting rod 6 between two second upright columns 2, then welding a third connecting rod 7 between the adjacent first upright columns 1 and the second upright columns 2, respectively welding a main inclined support 10 with the first supporting rod 4 and the second supporting rod 6, and then welding a cross beam 11 on the upper surface of the main inclined support 10 to complete the assembly. When the photovoltaic panel is used, the photovoltaic panel is arranged on the upper surface of the cross beam 11. During splicing, two adjacent solar photovoltaic frames are connected with each other, the first inserting rod 8 of one solar photovoltaic frame is inserted into the first slot 9 of the other solar photovoltaic frame, the pin shaft penetrates through the first pin hole 14 of the first inserting rod 8, the first connecting rod 3 and the second pin hole 15 of the second connecting rod 5, the second inserting rod 12 of the cross beam 11 of one solar photovoltaic frame is inserted into the second slot 13 of the cross beam 11 of the other solar photovoltaic frame, and the pin shaft penetrates through the third pin hole 16 of the second inserting rod 12 and the fourth pin hole 17 of the cross beam 11 to complete connection, as shown in fig. 4. The utility model discloses it is rational in infrastructure, wherein the first stand 1 and the second stand 2 outside of one side all are provided with first inserted bar 8, the first stand 1 and the second stand 2 of opposite side have seted up second slot 13, crossbeam 11 one end is provided with second inserted bar 12, the other end is provided with second slot 13, when two solar photovoltaic framves are interconnected, peg graft each other through first inserted bar 8 and first slot 9, second inserted bar 12 and second slot 13 peg graft each other, subsequently can fix through the pivot, realize the concatenation of two or more solar photovoltaic framves, and the connection stability improves greatly; because the first inserted link 8 and the first slot 9, the second inserted link 12 and the second slot 13 are all pluggable structures, the number of the pluggable structures can be increased or decreased according to actual requirements, and the flexibility and the application range are greatly improved.

The details of the present invention are well known to those skilled in the art.

Finally, it is to be noted that: although the present invention has been described in detail with reference to the embodiments, those skilled in the art will understand that the technical solutions of the present invention can be modified and replaced with other solutions without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention.

Claims (6)

1. The utility model provides a solar photovoltaic frame that can splice which characterized in that: comprises a base, a main inclined strut (10) and a cross beam (11);

the base comprises first stand columns (1) and second stand columns (2), the first stand columns (1) and the second stand columns (2) are respectively provided with two, the two first stand columns (1) are connected through first connecting rods (3) and first supporting rods (4), the two second stand columns (2) are connected through second connecting rods (5) and second supporting rods (6), the adjacent first stand columns (1) and the second stand columns (2) are connected through third connecting rods (7), the outer sides of the first stand columns (1) and the second stand columns (2) on one side are respectively provided with first inserting rods (8), the first stand columns (1) and the second stand columns (2) on the other side are provided with first inserting grooves (9), the first inserting rods (8) on one side of the first stand columns (1), the first inserting grooves (9) opened by the other first stand columns (1) and the first connecting rods (3) are positioned on the same axis, the first inserting rods (8) on one side of the second stand columns (2), the first inserting rods (9) and the second connecting rods (5) are positioned on the same axis, and the first inserting rods (8) and the second stand columns (2) are matched with the first inserting rods (9);

the main inclined supports (10) are arranged in parallel, and the main inclined supports (10) are respectively connected with the first supporting rod (4) and the second supporting rod (6);

crossbeam (11) have a plurality of and mutual parallel arrangement, crossbeam (11) set up in the upper surface of main bracing (10), crossbeam (11) one end is provided with second inserted bar (12), second slot (13) have been seted up to crossbeam (11) other end, second inserted bar (12) and second slot (13) that correspond are located the same axis, second inserted bar (12) and second slot (13) phase-match.

2. The spliceable solar photovoltaic rack according to claim 1, wherein: the first pin hole (14) is formed in the first inserting rod (8) in the radial direction, the first connecting rod (3) and the second connecting rod (5) are communicated with the corresponding first slot (9), the second pin hole (15) is formed in one end, close to the first slot (9), of the first connecting rod (3) and the second connecting rod (5), and the second pin hole (15) is matched with the first pin hole (14).

3. The spliceable solar photovoltaic rack according to claim 1, wherein: the second insert rod (12) is provided with a third pin hole (16) along the radial direction, the cross beam (11) is positioned in the second slot (13) and provided with a fourth pin hole (17), and the fourth pin hole (17) is matched with the third pin hole (16).

4. The spliceable solar photovoltaic rack according to claim 1, wherein: and a longitudinal reinforcing rod (18) is arranged between the third connecting rod (7) and the corresponding main inclined strut (10).

5. The spliceable solar photovoltaic rack of claim 1, wherein: and a reinforcing diagonal rod (19) is arranged between the first upright column (1) and the corresponding main diagonal brace (10).

6. The spliceable solar photovoltaic rack of claim 1, wherein: the length of the upright is greater than that of the second upright (2).

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