CN208623596U - Photovoltaic power station support system - Google Patents

Abstract

The utility model relates to photovoltaic power plant bracket systems, and in particular to a kind of photovoltaic power station support system.The photovoltaic power station support system includes the first photovoltaic frame and the second photovoltaic frame；The side of the first photovoltaic frame and the side of the second photovoltaic frame are hinged, and the other side of the other side of the first photovoltaic frame and the second photovoltaic frame is respectively articulated with one end of rod assembly；Shape in an angle, and is connected with cant beam between the first photovoltaic frame and the second photovoltaic frame lower surface between first photovoltaic frame and the second photovoltaic frame.The photovoltaic power station support system total and installation process, do not raise tile, can be avoided and damage to original roof structure.

Description

Photovoltaic power station support system

Technical field

The utility model relates to photovoltaic power plant bracket systems, and in particular to a kind of photovoltaic power station support system.

Background technique

Conventional photovoltaic power station support system has the disadvantage in that it mostly using the bracket of hook guide rail One, application range is narrow, is only limited to using under conditions of roof sheet tile can be raised, tile raises rear fixed hook, then solid Surely it is used for the guide rail of mounting assembly.Second, application conditions require height, for the roof that tile can be raised, under tile Square structure requires very high, it is necessary to be that thickness reaches necessarily required concrete or intensity reaches necessarily required wooden frame, relatively thin position The place of setting is so that bracket is difficult to deeply influence the stability of bracket installation.Third, damaged to roofing original structure, due to Tile raises rear fixed hook, and hook dimensions and tile height have differences, cause tile can not revert to it is original fit state, Making roofing, there are waters, the risk of leak.Fourth, later period maintenance difficulty is big, in hook guide track system, the material of guide rail is aluminium The bolt material of alloy, connection hook and guide rail is stainless steel, and after bolt pulls tight, deformation occurs for guide rail, leads to the later period more It changes guide rail or maintenance power station difficulty increase is very big.

Summary of the invention

In order to solve the deficiencies in the prior art, the utility model provides a kind of photovoltaic power station carriage support System.The photovoltaic power station support system whole installation process, does not raise tile, can be avoided and makes to original roof structure At damage.

According to the technical solution of the novel offer of this practicability, a kind of photovoltaic power station support system, the distribution Photovoltaic power plant bracket system includes the first photovoltaic frame and the second photovoltaic frame；The side of the first photovoltaic frame and the second photovoltaic frame Side is hinged, and the other side of the other side of the first photovoltaic frame and the second photovoltaic frame is respectively articulated with one end of rod assembly；First Shape in an angle, and is connected between the first photovoltaic frame and the second photovoltaic frame lower surface tiltedly between photovoltaic frame and the second photovoltaic frame Beam.

Further, the rod assembly has multiple, and multiple rod assembly compartment of terrain are hinged on the first photovoltaic frame or second Photovoltaic frame edge.

Further, the rod assembly includes pull rod, column and adjustable base, and one end of the pull rod is hinged on first The side of photovoltaic frame or the second photovoltaic frame；It is axially spaced to be equipped with mounting hole on the side wall of the adjustable base, the column One end is accordingly mounted in the mounting hole, and the other end of column is hinged on pull rod.

Further, the first photovoltaic frame and the second photovoltaic frame include into the multiple tracks girder and multiple tracks of array arrangement Crossbeam, the crossbeam intersect with girder, and crossbeam and girder are fixed at intersection location；Girder one end on first photovoltaic frame and Girder one end on second photovoltaic frame is hinged, the girder other end on the girder other end and the second photovoltaic frame on the first photovoltaic frame It is respectively articulated with one end of rod assembly.

Further, the cant beam is all connected between two girders being often hinged.

From the above it can be seen that photovoltaic power station support system provided by the utility model and prior art phase Than having following advantages: first, can reduce photovoltaic power station to the installation requirement on roof, widening installation range. Second, can remove since installation photovoltaic power station is destroyed caused by roofing.Third, can reduce power station later period maintenance work Make difficulty.

Detailed description of the invention

Fig. 1 is the first embodiment structure schematic diagram of the utility model.

Fig. 2 is second of embodiment structure schematic diagram of the utility model.

Fig. 3 is the structural schematic diagram of rod assembly in the utility model.

1. the first photovoltaic frame, 2. second photovoltaic framves, 3. rod assemblies, 310. pull rods, 320. columns, 330. is adjustable Pedestal, 4. cant beams, 5. mounting holes, 6. girders, 7. crossbeams.

Specific embodiment

For the purpose of this utility model, technical solution and advantage is more clearly understood, below in conjunction with specific embodiment, and Referring to attached drawing, the utility model is further described.Wherein identical components are presented with like reference characters.It needs Illustrate, word "front", "rear" used in the following description, "left", "right", "up" and "down" refer to the side in attached drawing To.The word "inner" used and "outside" refer respectively to the direction towards or away from geometric center of specific component.

A kind of photovoltaic power station support system is arranged in house roof, for photovoltaic panel is disposed thereon and incite somebody to action House roof is transformed into photovoltaic top, and common house roof includes the first slope surface and the second slope surface, first slope surface and second One of ridge is formed at slope surface connected position.

The first embodiment: photovoltaic power station support system is symmetrical structure comprising: the first photovoltaic frame 1 With the second photovoltaic frame 2.The side of the first photovoltaic frame 1 and the side of the second photovoltaic frame 2 are hinged, the first photovoltaic frame 1 it is another Side and the other side of the second photovoltaic frame 2 are respectively articulated with one end of rod assembly 3.During installation, the first photovoltaic frame 1 and Two photovoltaic framves 2 are laid in respectively above the first slope surface of house roof and the second slope surface, and the first photovoltaic frame 1 and the second photovoltaic frame Shape is in an angle between 2.The other end of the rod assembly 3 is fixed on the front and back below house eaves by expansion bolt and stands On face wall.The rod assembly 3 supports the support system jointly, so that roof structure is avoided damage to, due to usual eaves The front and back facade wall thickness of lower section is thicker, therefore the utility model is suitable for various condition houses to build photovoltaic top.

In order to enable the rod assembly 3 can be uniformly dispersed the first photovoltaic frame 1 and the second photovoltaic frame 2 gravity and Rod assembly 3 is enabled more securely to support the support system, the drawing of hinged first photovoltaic frame 1 and the second photovoltaic frame 2 Bar assembly 3 has multiple, and multiple rod assemblies 3 are spaced apart.The rod assembly 3 includes pull rod 310, column 320 and adjustable bottom Seat 330, one end of the pull rod 310 are hinged on the side of the first photovoltaic frame 1 or the second photovoltaic frame 2, the pull rod 310 it is another End is fixed in the front and back vertical plane wall below house eaves by expansion bolt；One end of the column 320 is mounted on adjustable bottom On seat 330, the other end of column 320 is hinged on pull rod 310.The adjustable base 330 can be mounted under the eaves in house, It is axially spaced to be equipped with mounting hole 5 on the side wall of adjustable base 330, one end of column 320 is mounted on the installation by correspondence The adjusting of 320 length of column is realized in hole 5.

In order to improve the stability between the first photovoltaic frame 1 and the second photovoltaic frame 2 being installed in place, the first photovoltaic frame Be connected with cant beam 4 between 1 and 2 lower surface of the second photovoltaic frame, the cant beam 4 have it is a plurality of, it is a plurality of to be spaced apart.

Second of embodiment:

The first photovoltaic frame 1 and the second photovoltaic frame 2 include into the multiple tracks girder 6 and multiple tracks crossbeam 7 of array arrangement, The crossbeam 7 intersects with girder 6, and crossbeam 7 is fixed at intersection location with girder 6.Girder 6 on the first photovoltaic frame 1 6 one end of girder on one end and the second photovoltaic frame 2 is hinged；On 6 other end of girder and the second photovoltaic frame 2 on first photovoltaic frame 1 6 other end of girder be respectively articulated with one end of rod assembly 3, another point of the rod assembly 3 is fixed on by expansion bolt In front and back vertical plane wall below house eaves.

In order to enable the rod assembly 3 can be uniformly dispersed the first photovoltaic frame 1 and the second photovoltaic frame 2 gravity and Rod assembly 3 is enabled more securely to support the support system, the drawing of hinged first photovoltaic frame 1 and the second photovoltaic frame 2 Bar assembly 3 has multiple, and multiple rod assemblies 3 are spaced apart.The rod assembly 3 includes pull rod 310, column 320 and adjustable bottom Seat 330, one end of the pull rod 310 are hinged on the side of the first photovoltaic frame 1 or the second photovoltaic frame 2, the pull rod 310 it is another End is fixed in the front and back vertical plane wall below house eaves by expansion bolt；One end of the column 320 is mounted on adjustable bottom On seat 330, the other end of column 320 is hinged on pull rod 310.The adjustable base 330 can be mounted under the eaves in house, It is axially spaced to be equipped with mounting hole 5 on the side wall of adjustable base 330, one end of column 320 is mounted on the installation by correspondence The adjusting of 320 length of column is realized in hole 5.

In order to improve the stability between the first photovoltaic frame 1 and the second photovoltaic frame 2 being installed in place, two masters being hinged Cant beam 4 is connected between beam 6.

Illustrate the installation process of the utility model by taking second of embodiment of the utility model as an example:

Girder 6 is divided into several groups by step 1 in pairs, and 6 two ends of girder in every group are hinged, and girder 6 is another Hold one end of hinged rod assembly 3.

Step 2, every group of girder 6 is set to above house roof, and the other end of rod assembly 3 is fixed under house eaves In the front and back vertical plane wall of side.

Step 3 rotates girder 6 and rod assembly 3 in every group, so that forming a folder between two girders 6 in every group Angle, the angle of angle is identical between the angle and the first slope surface of house roof and the second slope surface, and two girders 6 respectively with The first slope surface of house roof is parallel with the second slope surface.

Step 4 behind the position for adjusting the girder 6 in every group, connects cant beam 4 between two girders 6.

Step 5, the column 320 on adjusting yoke component 3, so that one end of column 320 is mounted on adjustable bottom by correspondence The adjusting of 320 length of column is realized in mounting hole 5 on seat 330.

Adjustable base 330 is mounted below the eaves in house by step 6.

Step 7 repeats step 1 to step 6, multiple groups girder 6 is mounted side by side.

Step 8 is transversely mounted crossbeam 7 on girder 6, and fixes at intersection location in crossbeam 7 and girder 6.

It should be understood by those ordinary skilled in the art that: the foregoing is merely specific embodiment of the utility model and , it is not intended to limit the utility model, all any modifications within the purport of the utility model, made, change equivalent replacement Into etc., it should be included within the scope of protection of this utility model.

Claims (5)

1. a kind of photovoltaic power station support system, which is characterized in that the photovoltaic power station support system includes the One photovoltaic frame (1) and the second photovoltaic frame (2)；It is mutually cut with scissors with the side of the second photovoltaic frame (2) side of the first photovoltaic frame (1) It connects, the other side of the other side of the first photovoltaic frame (1) and the second photovoltaic frame (2) is respectively articulated with one end of rod assembly (3)；First Between photovoltaic frame (1) and the second photovoltaic frame (2) shape in an angle, and the first photovoltaic frame (1) and second photovoltaic frame (2) following table Cant beam (4) are connected between face.

2. photovoltaic power station support system as described in claim 1, which is characterized in that the hinged rod assembly (3) Have multiple, multiple rod assembly (3) compartment of terrain are hinged on the first photovoltaic frame (1) or second photovoltaic frame (2) edge.

3. photovoltaic power station support system as described in claim 1, which is characterized in that the rod assembly (3) includes Pull rod (310), column (320) and adjustable base (330), one end of the pull rod (310) are hinged on the first photovoltaic frame (1) or The side of two photovoltaic framves (2)；It is axially spaced to be equipped with mounting hole (5) on the side wall of the adjustable base (330), the column (320) one end is accordingly mounted in the mounting hole (5), and the other end of column (320) is hinged on pull rod (310).

4. photovoltaic power station support system as described in claim 1, which is characterized in that the first photovoltaic frame (1) and Second photovoltaic frame (2) includes into the multiple tracks girder (6) and multiple tracks crossbeam (7) of array arrangement, the crossbeam (7) and girder (6) it intersects, crossbeam (7) is fixed at intersection location with girder (6)；Girder (6) one end and second on first photovoltaic frame (1) Girder (6) one end on photovoltaic frame (2) is hinged, on girder (6) other end and the second photovoltaic frame (2) on the first photovoltaic frame (1) Girder (6) other end be respectively articulated with one end of rod assembly (3).

5. photovoltaic power station support system as claimed in claim 4, which is characterized in that two girders being often hinged (6) cant beam (4) are all connected between.