Photovoltaic bracket
Technical field
The present invention relates to a kind of photovoltaic bracket, particularly a kind of photovoltaic bracket.
Background technology
By the impact of photovoltaic overall situation, nearly 2 years large-scale photovoltaic plant projects are in rapid expansion, and the competition between enterprise grows in intensity.This wherein, the construction of photovoltaic plant also needs to consider its photovoltaic bracket used practicality etc. structurally.
Be mostly to be bolted or portion's mode such as welding simply connects between all parts of existing photovoltaic bracket, it can only play the simple supporting role to photovoltaic module installation rack.But, in use we find, splicing efficiency between all parts of photovoltaic bracket is not high, not too be convenient to on-the-spot construction and installation, and, after these parts have spliced, in use all can there is certain construction error, for the appearance of this error, existing structure can not be in use adjusted, if need to regulate, splicing or again change a support again after needing to dismantle, this error cannot be evaded rapidly in construction, the efficiency of regulating error is low and cost is high, these shortcomings also have impact on the practicality of photovoltaic bracket to a certain extent.
Summary of the invention
Object of the present invention is exactly for the problems referred to above, provides a kind of photovoltaic bracket that can improve practicality.
To achieve these goals, the invention provides following technical scheme: photovoltaic bracket, be installed on ground, for installing and supporting photovoltaic module installation rack, this photovoltaic bracket comprises the carrier unit that multiple transverse direction is arranged side by side, and this carrier unit each comprises:
Two columns, it is perpendicular to ground and be arranged in parallel, and this two column has different height;
One cant beam, its oblique erection is also removably connected on two above-mentioned columns by the first adaptor, the column that the quantity of this first adaptor is corresponding above-mentioned;
One diagonal brace, it is arranged between the rear column in above-mentioned cant beam and two above-mentioned columns, and its both ends are removably connected on this cant beam respectively by the second adaptor and the 3rd adaptor is slidably connected on this column;
The first above-mentioned adaptor, the second adaptor and the 3rd adaptor all comprise: body, and it is hollow cylindrical, for sheathed and be installed on above-mentioned column and cant beam; Peristome, it is stretched out by the relative both sides of above-mentioned body and is formed, for being installed on above-mentioned column and diagonal brace;
Above-mentioned column, cant beam and diagonal brace all offer the installing hole of multiple peristome, the first adaptor and the second adaptor for installing fixing above-mentioned 3rd adaptor, on the peristome of the 3rd adaptor, the first adaptor and the second adaptor, also correspondence offers installing hole;
Above-mentioned column also offers at least one for installing the strip installing hole of the body of above-mentioned 3rd adaptor, on the body of the 3rd adaptor, also correspondence offers strip installing hole.
Further, above-mentioned column, cant beam and diagonal brace are that aluminium section bar is made.
Again further, above-mentioned column, cant beam and diagonal brace make surface and sealing pores by sandblasting, oxidation and nickel sulfate solution.
Further, one end that above-mentioned column is connected with cant beam is inclined-plane, and it cuts sth. askew in the peristome of above-mentioned first adaptor.
Again further, one end that above-mentioned diagonal brace is connected with column is inclined-plane, and it cuts sth. askew in the peristome of above-mentioned 3rd adaptor.
Further, above-mentioned installing hole is offered along the longitudinal center line of above-mentioned column, cant beam and diagonal brace.
Further, above-mentioned carrier unit also comprises leg, the corresponding above-mentioned pillar of its quantity, and above-mentioned pillar to be connected on this leg and to be installed on ground by this leg.
The beneficial effect of above technical scheme is adopted to be:
Photovoltaic bracket provided by the present invention is compared with existing photovoltaic bracket, it has novel structure, this structure mainly includes multiple carrier unit, this carrier unit mainly includes two columns, one cant beam and a diagonal brace, wherein, two columns have differing heights and be arranged in parallel perpendicular to ground, the oblique erection of cant beam is also removably connected on two columns by the first adaptor, diagonal brace is arranged between the rear column in cant beam and two columns, and its both ends are removably connected on cant beam respectively by the second adaptor and the 3rd adaptor is slidably connected on this column, first adaptor, second adaptor and the 3rd adaptor all include body in hollow cylindrical and the relative both sides by body and to stretch out the peristome formed, body is for sheathed and be installed on column and cant beam, peristome is for being installed on column and diagonal brace, in order to coordinate the peristome of the 3rd adaptor, the installation of the first adaptor and the second adaptor, column, cant beam and diagonal brace all offer multiple installing hole, and in order to coordinate the body of the 3rd adaptor can be slidably connected on column, the body of the 3rd adaptor and column also offer strip installing hole, can see from above-mentioned difference technical characteristic, because the structural design of each carrier unit is comparatively simply compact, the object of saving material can be reached, diagonal brace add the overall steadiness that also can improve support, what is more important, present invention adds the first adaptor, second adaptor and the 3rd adaptor, it has custom-designed structure, when needing to regulate the position of each parts with adjustment construction error, only need to unclamp a little be installed on the 3rd adaptor body and column on strip installing hole in part (as screw etc.), then the 3rd position of adaptor on column is adjusted, and do not need to pull down the parts such as screw and carry out adjusting and can adjust its required position arrived with dynamic component, just can facilitate in construction like this and promptly complete the adjustment to construction error, the efficiency of regulating error is high and cost is low, and by the first adaptor, second adaptor and the 3rd adaptor, splicing efficiency between all parts is high, also to be more convenient for construction and installation, therefore, comprehensively above-mentioned advantage, photovoltaic bracket of the present invention achieves more excellent practicality compared to existing photovoltaic bracket.
Accompanying drawing explanation
Fig. 1 is photovoltaic bracket of the present invention structural representation in embodiment 1.
Fig. 2 is the enlarged drawing in A portion in Fig. 1.
Fig. 3 is photovoltaic bracket of the present invention stereogram in embodiment 1.
Fig. 4 is photovoltaic bracket of the present invention scheme of installation in embodiment 1.
Fig. 5 is the first adaptor of photovoltaic bracket of the present invention, the second adaptor and the 3rd adaptor structural representation in embodiment 1.
Wherein, 1. cant beam 14. diagonal brace 141. the 3rd inclined-plane 15. first, column 121. second inclined-plane 13., carrier unit 11. first column 111. first inclined-plane 12. second adaptor 16. second adaptor 17. leg 18. the 3rd pillar 19. second diagonal brace 21. body 22. peristome 23. installing hole 231. strip hole 3. ground 4. photovoltaic module installation rack 5. the 3rd adaptor.
Embodiment
The preferred embodiment of the present invention is described in detail below in conjunction with accompanying drawing.
The present embodiment is most preferred for implementing the utility model.As Figure 1-4, photovoltaic bracket in the present embodiment, be installed on ground 3, for installing and supporting photovoltaic module installation rack 4, this photovoltaic bracket comprises the carrier unit 1 that six transverse directions are arranged side by side, this carrier unit 1 each comprises: the first column 11 and the second column 12, and it is perpendicular to ground and be arranged in parallel, and the height of the first column 11 is higher than the second column 12; One cant beam 13, its oblique erection is also removably connected on the first column 11 and the second column 12 respectively by two the first adaptors 15, and the mode that connected mode can be removably connected by screw etc. connects; One diagonal brace 14, it is arranged between cant beam 13 and the first column 11, and its both ends are removably connected to cant beam 13 respectively by the second adaptor 16 and the 3rd adaptor 5 is slidably connected on the first column 11, the mode that the mode of removably connecting can be removably connected by screw etc. connects; As shown in Figure 5, the first above-mentioned adaptor 15, second adaptor 16 and the 3rd adaptor 5 all comprise: body 21, and it is hollow cylindrical, for sheathed and be installed on the first column 11, second column 12 and cant beam 13; Peristome 22, it is stretched out by the relative both sides of body 21 and is formed, for being installed on the first column 11, second column 12 and diagonal brace 14; As Figure 1-3, on the peristome above-mentioned the first column 11, second column 12, cant beam 13 and diagonal brace 14 all offering the peristome of multiple installing hole the 23, three adaptor 5 for installing peristome, the first adaptor 15 and the second adaptor 16 of fixing the 3rd adaptor 5, the first adaptor 15 and the second adaptor 16, also correspondence offers installing hole 23; First column 11 also offers one for strip hole the 231, three adaptor 5 of the body of the 3rd adaptor 5 is installed body on also correspondence offer strip hole 231.This photovoltaic bracket is compared with existing photovoltaic bracket, it has novel structure, this structure mainly includes six carrier units, this carrier unit mainly includes the first column 11, second column 12, one cant beam 13 and a diagonal brace 14, wherein, first column 11 and the second column 12 have differing heights and be arranged in parallel perpendicular to ground, the oblique erection of cant beam 13 is also removably connected on the first column 11 and the second column 12 by two the first adaptors 15, diagonal brace 14 is arranged between cant beam 13 and the first column 11, and its both ends are removably connected on cant beam 13 respectively by the second adaptor 16 and the 3rd adaptor 5 is slidably connected on the first column 11, first adaptor 15, second adaptor 16 and the 3rd adaptor 5 all include body 21 in hollow cylindrical and the relative both sides by body 21 and to stretch out the peristome 22 formed, body 21 is for sheathed and be installed on the first column 11 and cant beam 13, peristome 22 is for being installed on the first column 11 and diagonal brace 14, in order to coordinate the peristome of the 3rd adaptor 5, the installation of the first adaptor 15 and the second adaptor 16, first column 11, second column 12, cant beam 13 and diagonal brace 14 all offer multiple installing hole 23, and in order to coordinate the body of the 3rd adaptor 5 can be slidably connected on the first column 11, the body of the 3rd adaptor 5 and the first column 11 also offer strip hole 231, can see from above-mentioned difference technical characteristic, because the structural design of each carrier unit 1 is comparatively simply compact, the object of saving material can be reached, diagonal brace 14 add the overall steadiness that also can improve support, what is more important, present invention adds the first adaptor 16, second adaptor 16 and the 3rd adaptor 5, it has custom-designed structure, when needing to regulate the position of each parts with adjustment construction error, only need to unclamp a little be installed on the 3rd adaptor 5 body and the first column on strip hole 231 in part (as screw etc.), then the position of the 3rd adaptor 5 on the first column 11 is adjusted, and do not need to pull down the parts such as screw and carry out adjusting and can adjust its required position arrived with dynamic component, just can facilitate in construction like this and promptly complete the adjustment to construction error, the efficiency of regulating error is high and cost is low, and by the first adaptor 15, second adaptor 16 and the 3rd adaptor 5, splicing efficiency between all parts is high, also to be more convenient for construction and installation, therefore, comprehensively above-mentioned advantage, photovoltaic bracket of the present invention achieves more excellent practicality compared to existing photovoltaic bracket.
As shown in Figure 1, above-mentioned installing hole 23 can also be offered along the longitudinal center line of the first column 11, second column 12, cant beam 13 and diagonal brace 14.So more be convenient to the construction error regulating each parts.
Above-mentioned the first column 11, second column 12, cant beam 13 and diagonal brace 14 can also be made for aluminium section bar.In conjunction with the feature that aluminium section bar hot melt extruded is shaping, then in conjunction with the structural design of this support, compared to existing material, as carbon steel etc., material property is better, and cost is also relatively low, has certain economy.
Above-mentioned the first column 11, second column 12, cant beam 13 and diagonal brace 14 can also pass through sandblasting, oxidation and nickel sulfate solution and make surface and sealing pores.In conjunction with the employing of aluminium section bar, better decay resistance can be provided for this support, increase the service life, and support also can be made visually to obtain better aesthetic property.
As shown in Figure 1, the first above-mentioned column 11 and one end that the second column 12 is connected with cant beam 13 respectively can also form the first inclined-plane 111 and the second inclined-plane 121, and this first inclined-plane 111 and the second inclined-plane 121 are cut sth. askew in the peristome of the first adaptor 15.First inclined-plane 111 and the second inclined-plane 121 can play spacing effect firmly to cant beam 13 and the first column 11, second column 12, avoid the parts such as bolt to shear stressed risk.
Continue as shown in Figure 1, one end that above-mentioned diagonal brace 14 is connected with the first column 11 can also form the 3rd inclined-plane 141, inclined-plane the 141, three and cut sth. askew in the peristome of the 3rd adaptor 5.3rd inclined-plane 141 can play spacing effect firmly to diagonal brace 14 and the first column 11, avoids the parts such as bolt to shear stressed risk.
Continue as shown in Figure 1, above-mentioned carrier unit can also comprise two legs 17, first column 11 and the second column 12 and to be connected on this leg 17 and to be installed on ground by this leg 17.Can install and protect the first column 11 and the second column 12 by constructability.
Above-described is only the preferred embodiment of the present invention, it should be pointed out that for the person of ordinary skill of the art, and without departing from the concept of the premise of the invention, can also make some distortion and improvement, these all belong to protection scope of the present invention.