CN208349601U - Roof photovoltaic bracket - Google Patents

Abstract

The utility model discloses a kind of roof photovoltaic brackets, it include: one group of steel construction supporting leg, it is fixed on roof, one group of steel construction supporting leg includes two identical steel construction supporting legs, is located at below the high and low both ends of tilting photovoltaic module, comprising: bottom plate, its bottom for being located at steel construction supporting leg, the bottom plate two sides are welded with angle steel, and filled cavity is formed between the angle steel and bottom plate, are poured concrete；Support plate, its vertical welding is above bottom plate, including the first support plate perpendicular to photovoltaic module arrangement extending direction, and along second and third support plate of photovoltaic module arrangement extending direction, second and third described block support plate and the first support plate are welded into cross-shaped configuration；Top plate is welded in above the support plate, parallel with the bottom plate.The utility model is light-weight, intensity is high, stability is good, in the case where mitigating photovoltaic bracket self weight significantly, and is effective to ensure that the stability and Wind-Pressure Resistance ability of photovoltaic bracket；Manufacturing cost is low.

Description

Roof photovoltaic bracket

Technical field

The utility model relates to the technical fields of photovoltaic module installation.More specifically, the utility model relates to a kind of rooms Push up photovoltaic bracket.

Background technique

Roof photovoltaic bracket lower support position generallys use concrete buttress form, due to the heavier-weight of concrete, The load bearing stength on roof is required in this way it is just high, and the load bearing stength on roof when house is completed just it has been determined that cannot change. If the lower support part of photovoltaic bracket is all by the way of existing concrete buttress, just very possible is more than holding for roof Weight intensity.A kind of stability both having can guarantee lower support, the photovoltaic bracket that the weight of photovoltaic bracket itself can mitigate significantly again Largely by demand.

Utility model content

One purpose of the utility model is to solve at least the above problems, and provide the advantages of at least will be described later.

The utility model is to provide a kind of roof photovoltaic bracket there are one purpose, and the weight of itself is far smaller than existing There is the weight of concrete buttress, moreover it is possible to effectively guarantee the stability of photovoltaic bracket lower support.

In order to realize these purposes and other advantages according to the present utility model, a kind of roof photovoltaic bracket is provided, is wrapped It includes:

One group of steel construction supporting leg, is fixed on roof, and one group of steel construction supporting leg includes two identical steel constructions Supporting leg is located at below the high and low both ends of tilting photovoltaic module, comprising: and bottom plate is located at the bottom of the steel construction supporting leg, The bottom plate two sides are welded with angle steel, and filled cavity is formed between the angle steel and the bottom plate, are poured concrete；Support plate, Vertical welding is above the bottom plate, including the first support plate perpendicular to photovoltaic module arrangement extending direction, and along described Photovoltaic module arranges second and third support plate of extending direction, second and third described block support plate and the first support plate are welded into cross Type structure；Top plate is welded in above the support plate, parallel with the bottom plate.

Preferably, the roof photovoltaic bracket further include:

One group of concrete buttress, is fixed on roof, is formed by concrete casting, the pre-buried exposed steel plate in upper surface, institute Stating one group of concrete buttress includes two identical concrete buttress, is located at the lower section at the high and low both ends of tilting photovoltaic module.

Preferably, concrete buttress described in steel construction supporting leg described in two groups and one group forms a lower support unit, The lower support unit is arranged successively along photovoltaic module arrangement extending direction by certain spacing.

Preferably, the roof photovoltaic bracket further includes upper bracket, by tilt angle needed for photovoltaic module Setting, holds the photovoltaic module, by the lower support unit supports；The upper bracket includes: to be arranged in the steel knot Lower beam, upper beam, column above structure supporting leg and the concrete buttress, the column are vertically arranged in the steel construction branch Above leg and the concrete buttress, it is bolted on the lower beam, the upper beam is bolted on institute It states on column, the lower beam, upper beam extend along the photovoltaic module orientation；Perpendicular to the photovoltaic module arrangement side To the stringer and diagonal brace being obliquely installed, the column is bolted in the diagonal brace, is supported in the middle part of the stringer；Supporting beam, It is arranged along the photovoltaic module orientation and is bolted on the stringer, supports the photovoltaic module and institute State lower beam, the upper beam forms cross-brace；The stringer, the diagonal brace and the column are longitudinally constituting triangle Shape support；The lower beam and the steel construction supporting leg be bolted and the concrete buttress in pre-buried exposed steel Plate welding；The photovoltaic module is bolted in the supporting beam.

Preferably, the filled cavity of the steel construction supporting leg strikes off exposed face after pouring concrete.

Preferably, the filled cavity of the steel construction supporting leg is lined with rubber slab further below.

The utility model is include at least the following beneficial effects: it is light-weight, intensity is high, stability is good, mitigating photovoltaic significantly In the case that bracket is self-possessed, and it is effective to ensure that the stability and Wind-Pressure Resistance ability of photovoltaic bracket；Manufacturing cost is low.

The further advantage, target and feature of the utility model will be partially reflected by the following instructions, and part will also pass through Research and practice to the utility model and be understood by the person skilled in the art.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the utility model A-A sectional view；

Fig. 3 is steel construction supporting leg front view and left view in one embodiment of the utility model.

Specific embodiment

The following describes the utility model in further detail with reference to the accompanying drawings, to enable those skilled in the art referring to explanation Book text can be implemented accordingly.

It should be appreciated that such as " having ", "comprising" and " comprising " term used herein do not allot one or more The presence or addition of a other elements or combinations thereof.

As shown in Figures 1 to 3, the utility model provides a kind of roof photovoltaic bracket, comprising:

Fig. 2, shown in 3, one group of steel construction supporting leg 1 is fixed on roof.One group of steel construction supporting leg 1 includes two Identical steel construction supporting leg is located at below the high and low both ends of tilting photovoltaic module 4, comprising: bottom plate 105 is located at the steel The bottom of structure leg, 105 two sides of bottom plate are welded with angle steel 106, are formed between the angle steel 106 and the bottom plate 105 Filled cavity, adjusts the welding and assembling height of two sides angle steel 106, and the whole height of fine-tuning steel construction supporting leg 1 is intrinsic on roof to make up Difference in height guarantees the tilt angle of photovoltaic module 4, reaches expected transformation efficiency；The angle steel 106 and the bottom plate 105 it Between formed filled cavity 107, be poured concrete, effectively increase the stability of steel construction supporting leg 1；Support plate 102~104, Vertical welding is above the bottom plate 105, the first support plate 104 including arranging extending direction perpendicular to photovoltaic module 4, and The photovoltaic module 4 arranges second and third support plate 102,103 of extending direction, second and third described block support plate 102,103 with First support plate 104 is welded into cross-shaped configuration, and lightweight construction, intensity are good, at low cost, prolongs perpendicular to the arrangement of photovoltaic module 4 Wind pressure can effectively be resisted using the cross design of one block of steel plate by stretching direction, resist component because that North and South direction has inclination angle is right The bending stress that steel construction supporting leg 1 generates；Top plate 101 is welded in 102~104 top of support plate, with the bottom plate 105 is parallel.

Such as Fig. 2, the roof photovoltaic bracket in one of the embodiments, further include:

One group of concrete buttress 2, is fixed on roof, is formed by concrete casting, the pre-buried exposed steel plate in upper surface, institute Stating one group of concrete buttress 2 includes two identical concrete buttress, is located at below the high and low both ends of tilting photovoltaic module 4.

In one of the embodiments, shown in Fig. 1,2 groups of concrete buttress described in steel construction supporting leg 1 described in two groups and one group At a lower support unit, the lower support unit arranges extending direction along photovoltaic module 4 and successively arranges by certain spacing It arranges, there are two groups to be replaced in original every three groups of concrete buttress with the steel construction supporting leg 1, both can guarantee the intensity of photovoltaic bracket And stability, and mitigate the own wt of photovoltaic bracket significantly, to effectively solve the insufficient defect of roof load bearing stength.

It is shown in Fig. 2, the roof photovoltaic bracket further includes upper bracket 3 in one of the embodiments, is pressed The setting of tilt angle needed for photovoltaic module 4, holds the photovoltaic module 4, by the lower support unit supports；The top Bracket 3 includes: the lower beam 301 that 1 top of the steel construction supporting leg 1 and the concrete buttress is arranged in, upper beam 302, stands Column 306, the column 306 are vertically arranged in 2 top of the steel construction supporting leg 1 and the concrete buttress, are bolted On the lower beam 301, the upper beam 302 is bolted on the column 306, the lower beam 301, upper cross Beam 302 extends along 4 orientation of photovoltaic module；The stringer 304 being obliquely installed perpendicular to 4 orientation of photovoltaic module And the column 306 is bolted in diagonal brace 305, the diagonal brace 305, supports 304 middle part of stringer；Supporting beam 303, It is arranged along 4 orientation of photovoltaic module and is bolted on the stringer 304, supports the photovoltaic module, and The lower beam 301, the upper beam 302 form cross-brace；The stringer 304, the diagonal brace 305 and the column 306 are longitudinally constituting triangular support；The lower beam 301 and the steel construction supporting leg 1 are bolted and described mixed Pre-buried exposed steel plate welding in solidifying soil buttress 2；The photovoltaic module 4 is bolted in the supporting beam 303.Laterally Support uses triangular form using different fashioned iron, longitudinal bracing, effectively increases the rigidity and intensity of the upper bracket 3.

In one of the embodiments, as shown in figure 3, after the filled cavity 107 of the steel construction supporting leg 1 pours concrete Strike off exposed face.

Such as Fig. 3, the filled cavity 107 of the steel construction supporting leg 1 is lined with rubber slab 108 below in one of the embodiments,. On the one hand, the setting of the flexible rubber plate 108 can effectively increase stationarity of the steel construction supporting leg 1 on roof；Separately On the one hand, the flexible rubber plate 108 can prevent the steel construction supporting leg 1 from damaging roof membrane, to the waterproof layer on roof It plays a protective role.

It is not only in the description and the implementation although the embodiments of the present invention have been disclosed as above Listed utilization, it can be applied to various fields suitable for the present invention completely, for those skilled in the art, Other modifications may be easily implemented, therefore without departing from the general concept defined in the claims and the equivalent scope, this reality It is not limited to specific details and legend shown and described herein with novel.

Claims (6)

1. a kind of roof photovoltaic bracket characterized by comprising

One group of steel construction supporting leg, is fixed on roof, and one group of steel construction supporting leg includes two identical steel construction supporting legs, It is located at below the high and low both ends of tilting photovoltaic module, comprising: bottom plate is set to the bottom of the steel construction supporting leg, institute It states bottom plate two sides and is welded with angle steel, form filled cavity between the angle steel and the bottom plate, be poured concrete；Support plate is hung down It is directly welded in above the bottom plate, including the first support plate perpendicular to photovoltaic module arrangement extending direction, and along the light Second and third support plate of module arrangement extending direction is lied prostrate, second and third described block support plate is welded into cross with the first support plate Structure；Top plate is welded in above the support plate, parallel with the bottom plate.

2. roof photovoltaic bracket as described in claim 1, which is characterized in that further include:

One group of concrete buttress, is fixed on roof, is formed by concrete casting, the pre-buried exposed steel plate in upper surface, and described one Group concrete buttress includes two identical concrete buttress, is located at below the high and low both ends of tilting photovoltaic module.

3. roof photovoltaic bracket as claimed in claim 2, which is characterized in that mixed described in steel construction supporting leg described in two groups and one group Solidifying soil buttress forms a lower support unit, and the lower support unit is along photovoltaic module arrangement extending direction by between certain Away from being arranged successively.

4. roof photovoltaic bracket as claimed in claim 3, which is characterized in that further include upper bracket, by photovoltaic module institute The tilt angle setting needed, holds the photovoltaic module, by the lower support unit supports；The upper bracket includes: to set Lower beam, the upper beam, column above the steel construction supporting leg and the concrete buttress are set, the column is vertically arranged in Above the steel construction supporting leg and the concrete buttress, it is bolted on the lower beam, the upper beam passes through Bolt is fixed on the column, and the lower beam, upper beam extend along the photovoltaic module orientation；Perpendicular to the light The stringer and diagonal brace that volt module arrangement direction is obliquely installed, the diagonal brace are bolted the column, support the stringer Middle part；Supporting beam is arranged along the photovoltaic module orientation and is bolted on the stringer, supports the light Volt component and the lower beam, the upper beam form cross-brace；The stringer, the diagonal brace and the column are vertical To constituting triangular support；The lower beam and the steel construction supporting leg be bolted and the concrete buttress in Pre-buried exposed steel plate welding；The photovoltaic module is bolted in the supporting beam.

5. roof photovoltaic bracket as claimed in claim 4, which is characterized in that the filled cavity of the steel construction supporting leg pours mixed Exposed face is struck off after solidifying soil.

6. roof photovoltaic bracket as claimed in claim 5, which is characterized in that the filled cavity of the steel construction supporting leg pads further below There is rubber slab.