Embedded installation photovoltaic component support
Technical field
The utility model relates to a kind of embedded installation photovoltaic component support.
Background technology
At present, for border component, existing installation form is also many:
1, briquetting is installed, and for existing border component, when after support installation, assembly is placed on crossbeam on request, utilizes assembly briquetting to push down assembly " A " face, and its assembly is fixed on support.
2, assembly " C " face is installed, and in the time of installation component, the installing hole that utilizes component vendor to design on its assembly, is arranged on assembly crossbeam, reaches the object of fixation kit.
But above two kinds of mounting meanss, its complex structure, materials'use is many, the artificial trouble of installing, applicability is not strong.
Utility model content
Technical problem to be solved in the utility model is the defect that overcomes prior art, and a kind of embedded installation photovoltaic component support is provided, and it not only can improve its applicability and stability, and can reduce materials'use cost and artificial installation cost.
In order to solve the problems of the technologies described above, the technical solution of the utility model is: a kind of embedded installation photovoltaic component support, it comprises front column, rear column, cant beam, intermediate connector, front bracing element and rear bracing element, one end of front column and rear column is all fixedly connected on basis, ground, one end of described cant beam is bearing on front column, the other end is bearing on rear column, described intermediate connector is fixedly connected on the center bottom of cant beam, one end of described front bracing element is arranged on the bottom of front column, the other end is connected on intermediate connector, one end of described rear bracing element is arranged on the bottom of rear column, the other end is connected on intermediate connector, the embedded guide rail of multiple paired settings is installed on described cant beam, the both sides of embedded guide rail are respectively arranged with the right embedding slot of the left embedding slot of a side end that can setting-in photovoltaic module and the end side of can setting-in adjacent photovoltaic module.
The mode of a kind of embedded guide rails assembling on cant beam is further provided, bolt assembly is installed on cant beam, on described embedded guide rail, be provided with bolt slot, described embedded guide rail was arranged on cant beam by bolt assembly and coordinating of bolt slot.
The mode of another kind of embedded guide rails assembling on cant beam is further provided, cant beam briquetting is installed on cant beam, described embedded guide rail is clamped between cant beam briquetting and cant beam.
Further, in order to facilitate installation component cable, save the use of the cable mouth of pipe, be provided with the notch of placing modules cable on embedded guide rail, and on notch, be provided with assembly cable and put into passage, assembly cable is put into and on passage, is provided with plug.
Further, between adjacent rear column, be connected with column brace.
Adopt after technique scheme, photovoltaic module can traverse, also can place vertically, the downside of photovoltaic module lifts slightly, utilize photovoltaic module upside to embed the left embedding slot of embedded guide rail, then handle component downside is to pressing down, make the right embedding slot that assembly downside can parallel another embedded guide rail of insertion, move down assembly, make photovoltaic module fit tightly lower square guide rail, such structure not only can improve its applicability and stability, and can reduce materials'use cost and artificial installation cost; In addition, designed notch and the plug of placing modules cable on embedded guide rail, assembly cable can be put into notch, has saved the use of the cable mouth of pipe.
Brief description of the drawings
Fig. 1 is the structural representation of embedded installation photovoltaic component support of the present utility model;
Fig. 2 is the left view of Fig. 1;
Fig. 3 is the scheme of installation of photovoltaic module of the present utility model;
Fig. 4 is the structural representation of embedded guide rail of the present utility model.
Embodiment
For content of the present utility model is more easily expressly understood, according to specific embodiment also by reference to the accompanying drawings, the utility model is described in further detail below.
As shown in Figures 1 to 3, a kind of embedded installation photovoltaic component support, it comprises front column 1, rear column 2, cant beam 3, intermediate connector 4, front bracing element 5 and rear bracing element 6, one end of front column 1 and rear column 2 is all fixedly connected on basis, ground, one end of cant beam 3 is bearing on front column 1, the other end is bearing on rear column 2, intermediate connector 4 is fixedly connected on the center bottom of cant beam 3, one end of front bracing element 5 is arranged on the bottom of front column 1, the other end is connected on intermediate connector 4, one end of rear bracing element 6 is arranged on the bottom of rear column 2, the other end is connected on intermediate connector 4, the embedded guide rail 7 of multiple paired settings is installed on cant beam 3, the both sides of embedded guide rail 7 are respectively arranged with the right embedding slot 7-2 of the left embedding slot 7-1 of a side end that can setting-in photovoltaic module and the end side of can setting-in adjacent photovoltaic module.
Be arranged on two kinds of versions on cant beam 3 for embedded guide rail 7 below: the one,, on cant beam 3, bolt assembly is installed, on embedded guide rail 7, be provided with bolt slot, embedded guide rail 7 was arranged on cant beam 3 by bolt assembly and coordinating of bolt slot; The 2nd,, cant beam briquetting 3-1 is installed on cant beam 3, embedded guide rail 7 is clamped between cant beam briquetting 3-1 and cant beam 3.
In order to facilitate installation component cable, save the use of the cable mouth of pipe, on embedded guide rail 7, be provided with the notch 7-3 of placing modules cable, and on notch 7-3, be provided with assembly cable and put into passage, assembly cable is put into and on passage, is provided with plug 8.
Between adjacent front column 1, be connected with column brace 9.
Between adjacent rear column 2, be connected with column brace 9.
The flange of front column 1 and rear column 2 is arranged on basis, ground, and cement pre-fabricated panel, cement pile foundation, spiral ground pile etc. can be set on basis, ground; Front column 1 and rear column 2 are installed respectively, then cant beam sub-assembly is installed, cant beam sub-assembly comprises cant beam 3, front bracing element 5, rear bracing element 6 and intermediate connector 4; Install successively by above-mentioned requirements, embedded guide rail is arranged on cant beam 3 on request, after agent structure installation, rear column brace is installed.
This embedded installation photovoltaic component support is installed for ground system and flat roof, and in the time that its assembly array is larger, monolithic element guide rail consumption use amount is lower.
This embedded installation photovoltaic component support, for the roofing of the tiling assembly of light-steel roofing, villa watt, bituminized shingle, utilizes this design, timbering material, manually all greatly reduces.
Operation principle of the present utility model is as follows:
Photovoltaic module can traverse, also can place vertically, the downside of photovoltaic module lifts slightly, utilize photovoltaic module upside to embed the left embedding slot 7-1 of embedded guide rail 7, then handle component downside is to pressing down, and makes the right embedding slot 7-2 that assembly downside can parallel another embedded guide rail of insertion, move down assembly, make photovoltaic module fit tightly lower square guide rail, such structure not only can improve its applicability and stability, and can reduce materials'use cost and artificial installation cost; In addition, designed notch 7-3 and the plug of placing modules cable on embedded guide rail 7, assembly cable can be put into notch 7-3, has saved the use of the cable mouth of pipe.
Above-described specific embodiment; technical problem, technical scheme and beneficial effect that the utility model is solved further describe; institute is understood that; the foregoing is only specific embodiment of the utility model; be not limited to the utility model; all within spirit of the present utility model and principle, any amendment of making, be equal to replacement, improvement etc., within all should being included in protection range of the present utility model.