CN209345069U - A kind of plane roof distributed photovoltaic supporting structure - Google Patents

Abstract

The utility model discloses a kind of plane roof distributed photovoltaic supporting structures, the structure includes pedestal, the pedestal includes at least two one slide rails and the photovoltaic plate bracing frame that is arranged in a one-to-one correspondence with the sliding rail, one end of the sliding rail and one end of connecting rod are hinged, and the other end of the connecting rod and the parapet of plane roof are fixedly linked；The every sliding rail is respectively connected at least one set of ballast component；The ballast component includes backing plate, positioning plate and weight body, and the backing plate is abutted with plane roof, and the weight body is located at the positioning plate top.Structure provided by the present application, adjustable angular compliance optimum illumination angle.The waterproof layer for not destroying original roofing simultaneously is handled without secondary waterproof.Connecting parapet and ballast component, dual stress using sliding rail keeps photovoltaic bracket more stable.The use of backing plate not only makes roof load distribution more uniform, while reducing the steel using amount of steel construction, optimizes mounting process.

Description

A kind of plane roof distributed photovoltaic supporting structure

Technical field

The utility model relates to distributed photovoltaic power generation technical fields, more particularly to a kind of distributed light of plane roof Lie prostrate supporting structure.

Background technique

Carry out " Jin Taiyang " demonstration project from country in 2009 to declare publicly to greatly developing for nowadays distributed photovoltaic Opening new era of field of photovoltaic power generation in China." the distributed photovoltaic power generation of the June in 2013 of National Energy Board on the 25th publication Demonstration area programme of work " further clarified photovoltaic power generation subsidy policy, encourage various regions distributed photovoltaic project with " from from With " mode operation, distributed photovoltaic power generation is considered the opera involving much singing and action of the following domestic photovoltaic market development.With distributed photovoltaic electricity That stands largely builds up, and roofing selection is also more and more paid attention to supporting structure Scheme Choice.

In the case where bright and new photovoltaic power station builds tide, hiding is frequent power station substantiality safety problem.Point Cloth photovoltaic plant is built more also has a small amount of construction in the glazed roof of ordinarily resident in concrete roof.Due to distribution Main object be commercial business and industrial enterprises and industrial park roof, for commercial business and industrial enterprises, mainly concrete roof.

It is pressed when conventional photovoltaic rack construction using the scheme or tradition of bracket basis reinforcing bar and roof structure reinforcement welding The scheme of weight.Both schemes all can make concrete roof exterior waterproof coating be destroyed and lead to leak, while photovoltaic bracket base It is uneven that plinth and the roofing way of contact will lead to load assignment, unfavorable to roofing.It is laid on using traditional ballast formula photovoltaic bracket Inside protective layer, the top of roofing concrete structure is all laid on using heavy briquetting as photovoltaic bracket basis roof waterproof layer, directly It is placed on roofing.Although the biggish weight of quality is directly born against on waterproof layer in this way, not destroying roofing, the time is long, meeting Roof waterproof layer is damaged, while significantly reducing the safe clearance of roof load, photovoltaic bracket basis is still with roofing Point contact, discontinuity are unfavorable to roofing.

Utility model content

The utility model provides a kind of plane roof distributed photovoltaic supporting structure.

The utility model provides following scheme:

A kind of plane roof distributed photovoltaic supporting structure, comprising:

Pedestal, the pedestal include that at least two one slide rails and the photovoltaic panel being arranged in a one-to-one correspondence with the sliding rail support Frame, one end of the sliding rail and one end of connecting rod are hinged, and the other end of the connecting rod and the parapet of plane roof are fixed It is connected；The photovoltaic plate bracing frame include the first column, the second column, third column and end wall bracket, first column with And respectively lower end is detachably connected with the sliding rail second column respectively, offers and runs through on the tube wall of first column Its internal first through hole group is offered through its second internal sets of vias, the third upright post sleeve on the third column Loaded on inside first column and passing through pivot pin component and institute through the first through hole group and second sets of vias The first column is stated to be connected；Respectively upper end is hinged with the end wall bracket respectively for second column and the third column；

Ballast component, the every sliding rail are respectively connected at least one set of ballast component；The ballast component includes pad Plate, positioning plate and weight body, the backing plate are offered respectively with the positioning plate and are adapted to the sliding rail outer contoured shape The first groove and the second groove, the positioning plate is located at the backing plate top and first groove and second groove It is oppositely arranged the cavity to be formed for accommodating the sliding rail, the sliding rail position is in the cavity；The backing plate and plane roof It abuts, the weight body is located at the positioning plate top.

Preferred: the backing plate bottom is fixedly connected with rubber layer, and the backing plate passes through the rubber layer and the plane Roof abuts.

Preferred: the backing plate, positioning plate and configuration body are all made of concrete material and are made.

Preferred: the height of the cavity is not more than the height of the sliding rail.

Preferred: the first through hole group includes the multiple groups in a fixed spacing opened up along the first column length direction.

According to specific embodiment provided by the utility model, the utility model discloses following technical effects:

By the utility model, a kind of plane roof distributed photovoltaic supporting structure may be implemented, in a kind of realization side Under formula, which may include pedestal, and the pedestal includes at least two one slide rails and is arranged in a one-to-one correspondence with the sliding rail Photovoltaic plate bracing frame, one end of the sliding rail and one end of connecting rod are hinged, the other end of the connecting rod and plane roof Parapet is fixedly linked；The photovoltaic plate bracing frame includes the first column, the second column, third column and end wall bracket, described Respectively lower end is detachably connected with the sliding rail respectively for first column and second column, on the tube wall of first column It offers and is offered in its internal first through hole group, the third column through its second internal sets of vias, it is described Third upright post sleeve is loaded on inside first column and passes through the axis through the first through hole group and second sets of vias Pin assemblies are connected with first column；Second column and the third column respectively upper end respectively with the end wall bracket Hingedly；Ballast component, the every sliding rail are respectively connected at least one set of ballast component；The ballast component include backing plate, Positioning plate and weight body, the backing plate offer be adapted to the sliding rail outer contoured shape with the positioning plate respectively One groove and the second groove, the positioning plate is located at the backing plate top and first groove is opposite with second groove The cavity formed for accommodating the sliding rail is set, and the sliding rail position is in the cavity；The backing plate is abutted with plane roof, The weight body is located at the positioning plate top.Plane roof provided by the present application distributed photovoltaic supporting structure, can adjust Save angular compliance optimum illumination angle.The waterproof layer for not destroying original roofing simultaneously is handled without secondary waterproof.Connected using sliding rail Parapet and ballast component are connect, dual stress keeps photovoltaic bracket more stable.The use of backing plate not only makes roof load distribution more Add uniformly, while reducing the steel using amount of steel construction, optimizes mounting process.

Certainly, any product for implementing the utility model does not necessarily require achieving all the advantages described above at the same time.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Needed in attached drawing be briefly described, it should be apparent that, the accompanying drawings in the following description is only the utility model Some embodiments for those of ordinary skill in the art without creative efforts, can also be according to this A little attached drawings obtain other attached drawings.

Fig. 1 is a kind of structural representation of plane roof distributed photovoltaic supporting structure provided by the embodiment of the utility model Figure；

Fig. 2 is the cross-sectional view in the face A-A provided by the embodiment of the utility model.

In figure: sliding rail 1, connecting rod 2, the first column 3, the second column 4, third column 5, end wall bracket 6, pivot pin component 7, pad Plate 8, positioning plate 9, weight body 10, the first groove 11, the second groove 12, rubber layer 13, parapet 14, plane roof 15.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art's every other embodiment obtained, all belongs to In the range of the utility model protection.

Embodiment

It is a kind of plane roof distributed photovoltaic supporting structure provided by the embodiment of the utility model referring to Fig. 1, Fig. 2, As shown in Figure 1 and Figure 2, which includes pedestal, and the pedestal includes at least two one slide rails 1 and corresponds with the sliding rail 1 The photovoltaic plate bracing frame of setting, one end of the sliding rail 1 and one end of connecting rod 2 are hinged, the other end of the connecting rod 2 and flat The parapet 14 on face roof 15 is fixedly linked；The photovoltaic plate bracing frame includes the first column 3, the second column 4, third column 5 And end wall bracket 6, first column 3 and the respective lower end of second column 4 are detachably connected with the sliding rail 1 respectively, It offers on the tube wall of first column 3 and offers in its internal first through hole group, the third column 5 through it The second internal sets of vias, the third column 5 are set in 3 inside of the first column and by through the first through hole groups And the pivot pin component 7 of second sets of vias is connected with first column 3；Second column 4 and the third are vertical The respective upper end of column 5 is hinged with the end wall bracket 6 respectively；It, can be with by adjusting the link position of the first column 3 with third column 5 Adjusting of the simple and quick realization to end wall bracket angle, so as to reach the photovoltaic panel installed on end wall bracket be adapted to it is optimal Lighting angle.

Ballast component, the every sliding rail 1 are respectively connected at least one set of ballast component；The ballast component includes pad Plate 8, positioning plate 9 and weight body 10, the backing plate 8 offer and the 1 outer wheels profile of sliding rail respectively with the positioning plate 9 The first groove 11 and the second groove 12 of shape adaptation, the positioning plate 9 are located at 8 top of backing plate and first groove 11 It is oppositely arranged the cavity to be formed for accommodating the sliding rail 1 with second groove 12, the sliding rail 1 is in the cavity； The backing plate 8 is abutted with plane roof 15, and the weight body 10 is located at 9 top of positioning plate.Structure provided by the present application is removed Outside the truss connecting by surrounding with parapet, weight bearing bracket is also relied on.The weight bearing body of weight bearing bracket can be cement briquetting, To avoid it from destroying the pressure of roof waterproof layer, solar energy can be increased with the certain thickness backing plate of place mat in its lower section The contact area of bracket and roofing is lied prostrate, reduces support system to the pressure of roofing.Place mat backing plate is not only convenient for bracket installation, also just In further protection roof.Sliding rail can be fixed in groove by the groove on backing plate and positioning plate, and left and right position occurs in placement In situation.Connecting rod one end is fixedly linked with parapet, it is ensured that the position of connecting rod is fixed, sliding rail one end and connecting rod Hingedly, it is ensured that it can freely relatively rotate between the two, the sliding rail other end is free, under the effect of ballast component, Ke Yibao Demonstrate,prove it is abundant with pad contact, solve sliding rail both ends with parapet is fixed causes ballast component pressure unit sufficiently and influences fixation effect The problem of fruit.The positioning plate and weight body use split-type design, and appropriate weight can be selected according to the different weighing abilities on roof The weight body of amount, so that the supporting structure is more flexible and convenient when applying.Design split type simultaneously can guarantee each list simultaneously Body component overall weight is lighter, is conducive to carrying and installation and replacement.

Further, it is damaged to place backing plate to plane roof, the embodiment of the present application can also provide the pad 8 bottom of plate is fixedly connected with rubber layer 13, and the backing plate 8 is abutted by the rubber layer 13 with the plane roof 15.Having When system makees backing plate, positioning plate and weight body, the backing plate, positioning plate and configuration plate be all made of concrete material production and At.In order to allow the first groove and the second groove provided by the present application that sliding rail is carried out close clamping, the embodiment of the present application The height that the cavity can also be provided is not more than the height of the sliding rail.In order to facilitate adjust the first column and third column it Between relative distance so that achieve the purpose that end wall bracket height pitch adjustment, it is logical that the embodiment of the present application can also provide described first Hole group includes the multiple groups in a fixed spacing opened up along the first column length direction.

Photovoltaic bracket is connected on parapet of roofing and weight bearing cement block using truss structure, keeps photovoltaic bracket firmly solid It is scheduled on roofing.The change of force structure greatly reduces the quality of variable weights, while the use of cement backing plate increases photovoltaic The contact area of bracket and roof can effectively improve the safety of building but also load is uniformly distributed.

In short, plane roof provided by the present application distributed photovoltaic supporting structure, the adjustable best light of angular compliance Irradiation angle.The waterproof layer for not destroying original roofing simultaneously is handled without secondary waterproof.Parapet and ballast group are connected using sliding rail Part, dual stress keep photovoltaic bracket more stable.The use of backing plate not only makes roof load distribution more uniform, reduces simultaneously The steel using amount of steel construction, optimizes mounting process.

It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that There is also other identical elements in process, method, article or equipment including the element.

The above is only the preferred embodiment of the utility model only, is not intended to limit the protection model of the utility model It encloses.Any modification, equivalent substitution, improvement and etc. made within the spirit and principle of the present invention, are all contained in this reality With in novel protection scope.

Claims (5)

1. a kind of plane roof distributed photovoltaic supporting structure characterized by comprising

Pedestal, the pedestal include at least two one slide rails and the photovoltaic plate bracing frame that is arranged in a one-to-one correspondence with the sliding rail, institute One end of one end and connecting rod for stating sliding rail is hinged, and the other end of the connecting rod and the parapet of plane roof are fixedly linked； The photovoltaic plate bracing frame includes the first column, the second column, third column and end wall bracket, first column and described Respectively lower end is detachably connected with the sliding rail second column respectively, offers inside it on the tube wall of first column First through hole group, offer on the third column through its second internal sets of vias, the third upright post sleeve is loaded on institute It states inside the first column and by the pivot pin component and described first through the first through hole group and second sets of vias Column is connected；Respectively upper end is hinged with the end wall bracket respectively for second column and the third column；

Ballast component, the every sliding rail are respectively connected at least one set of ballast component；The ballast component includes backing plate, determines Position plate and weight body, the backing plate offer first be adapted to the sliding rail outer contoured shape with the positioning plate respectively Groove and the second groove, the positioning plate is located at the backing plate top and first groove is opposite with second groove sets The cavity to be formed for accommodating the sliding rail is set, the sliding rail position is in the cavity；The backing plate is abutted with plane roof, institute It states weight body and is located at the positioning plate top.

2. plane roof according to claim 1 distributed photovoltaic supporting structure, which is characterized in that the backing plate bottom It is fixedly connected with rubber layer, the backing plate is abutted by the rubber layer with the plane roof.

3. plane roof according to claim 2 distributed photovoltaic supporting structure, which is characterized in that the backing plate is determined Position plate and configuration body are all made of concrete material and are made.

4. plane roof according to claim 1 distributed photovoltaic supporting structure, which is characterized in that the height of the cavity Degree is not more than the height of the sliding rail.

5. plane roof according to claim 1 distributed photovoltaic supporting structure, which is characterized in that the first through hole Group includes the multiple groups in a fixed spacing opened up along the first column length direction.