CN105871313A - Flexible roof photovoltaic subassembly installing structure - Google Patents

Abstract

The invention relates to a flexible roof photovoltaic subassembly installing structure. A rubber pad layer is laid on a local part on the existing roof; strip-shaped steel plates are arranged on the rubber pad layer; keels are arranged on the local part above the strip-shaped steel plates; press blocks are arranged on the keels; photovoltaic subassemblies are arranged at the two sides of the keels and are fixed by the press blocks. The flexible roof photovoltaic subassembly installing structure has the beneficial effects that the roof structure is not damaged; the load is locally increased; the whole structure installing system is connected into a whole piece, so that the whole structure enabled to be stable; the influence generated by the wind load is resisted together; mold opening is realized through aluminum alloy installing keels, so that the bottom surfaces of the keels are in a clamp buckle form and buckle the steel plates so that the steel plates are fixed and are firmly connected without moving; in the longitudinal direction, angle steel cold reinforcing processing is used at the two sides of the steel plates to realize the connection with length direction of angle steel screw bolts, so that the whole system is connected into a whole which is stable and firm in the longitudinal direction. In the transverse direction, all steel plates are sealed by aluminum plates, so that the influence on the whole system structure under the wind load negative wind pressure condition is reduced.

Description

A kind of flexible roof photovoltaic component mounting structure

Technical field

The present invention relates to a kind of roofing photovoltaic component installation structure, particularly relate to a kind of flexible roof photovoltaic component mounting structure.

Background technology

Current increasing solar photovoltaic power plant is built on original armored concrete and steel structural plant roof, due to it, can to install Roof Resources at present the most fairly limited through years development, when the most installable roofing designs the most originally, for controlled investment cost, do not considered that roofing can set up load, therefore design surplus capacity is few, partly and also not considering to install photovoltaic system in building roof way, roofing layer way is only heat-insulation layer and waterproof roll (flexible roof way).Therefore in the case, in order to build power station at roofing again, meet structure design strength and stability requirement again, it is necessary to reduce roof structure as far as possible and increase heavy burden.Conventional steel structure workshop roof boarding all uses angle to speed type profiled sheet, but minority roof building way can use the flexible roof structure of laying water-proof coiled material on heat-insulation layer, original photovoltaic module is installed and is laid, and uses aluminium alloy to install Os Draconis and speeds to be connected with roof boarding angle by fixture.

Summary of the invention

It is an object of the invention to overcome deficiency of the prior art, it is provided that a kind of rational in infrastructure, bear a heavy burden the flexible roof photovoltaic component mounting structure light, intensity is high.

This flexible roof photovoltaic component mounting structure, on existing roofing, rubber spacer is laid in local, arranges strip steel plate on rubber spacer, and above strip steel plate, local arranges Os Draconis, described Os Draconis are provided with briquetting, and photovoltaic module is shelved on Os Draconis both sides and utilizes briquetting fixed thereto.

As preferably: longitudinally use angle steel to carry out bolt fastening drawknot between described strip steel plate.

As preferably: described strip steel plate arranges laterally across strip steel plate end that otic placode is oblique utilizes pull bar and parapet side steel column to carry out drawknot.

As preferably: described strip steel plate carries out drawknot at ridge two slope aspect of existing roofing by flanging steel plate, and utilize end minor face angle steel to arrange waist hole to carry out Bit andits control.

As preferably: described strip steel plate longitudinal end keeps out the wind envelope in fact by Bolted angle connection aluminium sheet.

As preferably: described Os Draconis are buckle-type aluminium alloy joist.

As preferably: between described strip steel plate, longitudinally spaced employing angle steel carries out bolt fastening drawknot.

As preferably: described strip steel plate is perpendicular to ridge direction.

The invention has the beneficial effects as follows:

One, integral structural system mounting technique: be summarised as: do not destroy roof structure, local increases load, and total installation system is linked to be full wafer, it is ensured that total is stable, the impact that common opposing wind load produces.

Two, aluminium alloy is installed Os Draconis and is snapped connection with steel sole plate: by aluminium alloy installation Os Draconis die sinking, makes Os Draconis bottom surface buckle pattern, clasps steel plate fixed thereto and firmly connect, will not produce movement.

Three, crossbar structure uses angle steel cold working bolt drawknot: longitudinally uses in steel plate both sides angle steel cold rnning admittedly to process and is connected to angle steel bolt with long, make longitudinal direction whole system be connected stablize firm.

Four, lateral ends aluminium sheet envelope is real: between Heng Xiang, each steel plate uses aluminium sheet to be sealed, to reduce in the case of wind load bears blast whole system structure influence (note: excellent to low parapet is applicable).

Five, ridge drawknot processes: use cold working angle steel to fix with flanging thin plate bolt in ridge steel plate end, to control to be moved by produced by Wind effects, it is ensured that whole system will not tensile failure.

Accompanying drawing explanation

Fig. 1 is longitudinal direction schematic diagram of the present invention；

Fig. 2 is the horizontal schematic diagram of the present invention；

Fig. 3 is the partial enlarged drawing of Fig. 2；

Fig. 4 is Os Draconis and briquetting part longitudinal direction schematic diagram；

Fig. 5 is Os Draconis and briquetting parts transversely schematic diagram；

Fig. 6 is aluminium sheet and angle steel part longitudinal direction schematic diagram；

Fig. 7 is aluminium sheet and angle steel parts transversely schematic diagram；

Fig. 8 is otic placode and channel-section steel part longitudinal direction schematic diagram；

Fig. 9 is otic placode and channel-section steel parts transversely schematic diagram；

Figure 10 is angle steel and angle steel part longitudinal direction schematic diagram；

Figure 11 is angle steel and angle steel parts transversely schematic diagram；

Figure 12 is the horizontal schematic diagram of flanging sheet steel sections.

Description of reference numerals: rubber spacer 1, pull bar 2, otic placode 3, strip steel plate 4, channel-section steel 5, steel column 6, Os Draconis 7, briquetting 8, aluminium sheet 9, angle steel 10, flanging steel plate 11, photovoltaic module 12, roofing 13.

Detailed description of the invention

Below in conjunction with embodiment, the present invention is described further.The explanation of following embodiment is only intended to help and understands the present invention.It should be pointed out that, for those skilled in the art, under the premise without departing from the principles of the invention, it is also possible to the present invention is carried out some improvement and modification, these improve and modify in the protection domain also falling into the claims in the present invention.

This flexible roof photovoltaic component mounting structure, on existing roofing 13, rubber spacer 1 is laid in local, arranges strip steel plate 4 on rubber spacer 1, and above strip steel plate 4, local arranges Os Draconis 7, described Os Draconis 7 are provided with briquetting 8, and photovoltaic module 12 is shelved on Os Draconis 7 both sides and utilizes briquetting 8 fixed thereto.Angle steel 10 is longitudinally used to carry out bolt fastening drawknot between described strip steel plate 4.Described strip steel plate 4 arranges laterally across strip steel plate 4 end that otic placode 3 is oblique utilizes pull bar 2 and parapet side steel column 6 to carry out drawknot.Described strip steel plate 4 carries out drawknot at ridge two slope aspect of existing roofing 13 by flanging steel plate 11, and utilizes end minor face angle steel to arrange waist hole to carry out Bit andits control.Described strip steel plate 4 longitudinal end connects aluminium sheet 9 by angle steel 10 and keeps out the wind envelope in fact.Described Os Draconis 7 are buckle-type aluminium alloy joist 7.Between described strip steel plate 4, longitudinally spaced employing angle steel 10 carries out bolt fastening drawknot.Described strip steel plate 4 is perpendicular to ridge direction.

Owing to the feature of flexible roof is the combination that roofing 13 upper strata is only heat-insulation layer and waterproof layer, roofing 13 surface opposed flattened, but surface is soft after bearing a heavy burden, and should not too much increase load, structure also cannot be fixedly connected with photovoltaic module 12.Just can must be installed by technical finesse.One. by locally laying 3mm rubber spacer 1 (for not destroying roofing top layer) above waterproof layer again, it is provided above 3mm strip steel plate 4 (increase and bear a heavy burden), above strip steel plate 4, local arranges buckle-type aluminium alloy joist 7 (see Fig. 4 and Fig. 5), photovoltaic module 12 surrounding is shelved on Os Draconis 7 both sides and utilizes briquetting 8 fixed thereto, two. longitudinally use 50*3 angle steel 10 to carry out bolt fastening drawknot (Figure 10 and Figure 11 is shown in cold working connection) between overall strip steel plate 4, three. entirety arranges the otic placode 3 oblique 50*5 of utilization pull bar 2 laterally across strip steel plate 4 end and carries out drawknot (see detail drawing 3) with parapet side steel column 6.Four. ridge two slope aspect carries out drawknot by flanging steel plate 11, and utilizes end minor face angle steel to arrange waist hole to carry out Bit andits control (see Figure 12), and five. avoid making structure draw under Wind effects bad.Longitudinal strip steel plate 4 end utilizes aluminium sheet 9 to keep out the wind and seals in fact, reduce the wind load impact (see detail drawing 5) on total system to try one's best.

The flexible roof photovoltaic component mounting structure of the present invention, within roofing increase load can control 15kg/m2, both considered to reduce to greatest extent to roofing additional load, also take into account flexible roof structure mounting technique and process technique, guarantee that roof sections structural system solderless connects, keep photovoltaic system at the firm of roofing and bearing capacity, enable roofing photovoltaic power station properly functioning, it is ensured that the safe handling of former roof heat insulation waterproof system.If able to major part covers steel structural roof, can be greatly increased utilize original steel structural roof erection space, beneficially photovoltaic industry can build the power station recycling to roofing resource.

Claims (8)

1. a flexible roof photovoltaic component mounting structure, it is characterised in that lay rubber blanket in the upper local of existing roofing (13) Layer (1), arranges strip steel plate (4) on rubber spacer (1), and local, strip steel plate (4) top arranges Os Draconis (7), institute Stating Os Draconis (7) and be provided with briquetting (8), photovoltaic module (12) is shelved on Os Draconis (7) both sides and utilizes briquetting (8) fixed thereto.

Flexible roof mounting structure the most according to claim 1, it is characterised in that: vertical between described strip steel plate (4) Bolt fastening drawknot is carried out to using angle steel (10).

Flexible roof mounting structure the most according to claim 1, it is characterised in that: described strip steel plate (4) laterally leads to Cross strip steel plate (4) end and arrange that otic placode (3) is oblique utilizes pull bar (2) and parapet side steel column (6) to carry out drawknot.

Flexible roof mounting structure the most according to claim 1, it is characterised in that: described strip steel plate (4) is existing Ridge two slope aspect of roofing (13) carries out drawknot by flanging steel plate (11), and utilizes end minor face angle steel to arrange waist hole to enter Line displacement controls.

Flexible roof mounting structure the most according to claim 1, it is characterised in that: the longitudinal end of described strip steel plate (4) Portion connects aluminium sheet (9) by angle steel (10) and keeps out the wind envelope in fact.

Flexible roof mounting structure the most according to claim 1, it is characterised in that: described Os Draconis (7) are clip type aluminium Alloy Os Draconis (7).

Flexible roof mounting structure the most according to claim 2, it is characterised in that: between described strip steel plate (4) longitudinally Interval uses angle steel (10) to carry out bolt fastening drawknot.

Flexible roof mounting structure the most according to claim 1, it is characterised in that: described strip steel plate (4) is perpendicular to Ridge direction.