RU2602532C2 - Roof from solar panels - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, particularly to sloping roofs with solar panels. Building sloping roof with inner gutter system includes bearing supports with height, providing slope of rafters installed thereon towards internal gutter system, sill. Solar panels and collectors installation frame is attached to rafters, and mirror screens and/or solar panels and collectors installation frames are inclined attached to bulwarks inner surface and to posts along internal gutter system trays, ensuring their vertical position relative to solar panels and collectors installed on rafters, wherein solar panels and collectors are tightly connected to each other.

EFFECT: technical result consists in improvement of roof operational properties.

1 cl, 3 dwg

Description

The invention relates to construction, in particular to the construction of roofs and roofs, and is intended for the installation of solar panels and collectors for autonomous power supply, hot water supply and heating during construction and reconstruction of existing roofs on buildings and structures.

In modern construction, mainly three types of roofs are used, on which solar panels can be installed: a tent-pitched roof, a flat roof with a soft coating and a lightweight roof structure with a hard coating and a slope to the internal drain.

Known for the design of a pitched hipped roof (Construction of civil buildings / Ed. By M.S. Tupolev. -M.: Literature on construction, 1968, p. 93, 97). The advantage of installing solar panels on a normal pitched roof tent is the installation of solar panels directly on the existing floor without additional reconstructions, the use of free surface area of the roof. The main disadvantages of this design when installing solar panels is: violation of the roofing; the angle of incidence of sunlight does not provide the maximum use of solar energy during the day; wind and snow load; the danger of a solar battery falling under wind and snow loads; the formation of icicles with a temperature difference; complexity and danger to life, especially on high-rise buildings, during repair and cleaning, from pollution and snow, the surface of solar panels and collectors.

This disadvantage was eliminated by installing solar panels on a flat roof, where there is a parapet along the perimeter of the building, soft coating, internal drain (GOSSTROI USSR KRYMNIIIPREKT, Block section ordinary 67-0139 / 12к alb11). The advantage of installing solar panels and collectors on this design is: more efficient use of solar radiation; wind load protection; compliance with safety standards during operation and installation. The disadvantage of this design is the destruction of soft roofing during the installation and operation of solar panels and collectors; vaporization; the fragility of the soft coating, requiring constant repair. When repairing the soft coating of the roofing carpet, it is necessary to dismantle the solar panels, and then, after repairing the roofing, the installation of solar panels and collectors in the same place.

As a prototype adopted lightweight roof structure of the building, including: an internal drain; parapet around the perimeter of the building; thermal insulation coating; lightweight pitched roof construction with a hard coating, the overhang of which is located above the waterproofed tray of the internal drain, made with a slope to the funnel of the internal drain. (UA No. 45496, ЕВВ 7/00, E04D 13/00, 2000)

Signs of the prototype, coinciding with the essential features of the invention are: thermal insulation coating; parapet around the perimeter of the building; internal drain; lightweight construction of the pitched roof, which consists of support pillars, the height of which creates a slope of the roof slope; rafter legs; waterproofed tray of the internal drain, made with a slope to the funnel of the internal drain.

The reasons that impede the achievement of the technical result in the prototype when it is used to install solar panels are: an additional frame and mountings for solar panels, which during installation can lead to damage to the coating and leakage (delay) of rainfall under the hard roofing; rainfall between solar panels and hard roofing creates a vapor effect; additional costs for the installation of hard coating, the consumption of materials for hard coating; with an increase in the angle of incidence of sunlight (the angle of incidence and reflection is usually measured from the perpendicular to the surface) on the surface of solar panels mounted on the surface of a hard coating, with a bias towards the internal drain, the proportion of reflected (unused) solar energy increases.

The basis of the invention is the task: improving the construction of roofs of buildings for installing solar panels and collectors and increasing the efficiency of using solar radiation by excluding from the installation process the crates for hard coating, hard coating and replacing the hard coating of the pitched roof with solar panels and collectors hermetically connected to each other , which ensures the use of solar panels and collectors as roofing by installing solar panels and / or reflective wounds on parapets passing along the inner perimeter of the roof and on racks located along the gutter of the internal drain, from the side of unhindered removal of rain, vertically relative to the surface of solar panels mounted on rafters, which ensures the return of reflected sunlight to the surface of solar panels and collectors at an angle of incidence increasing the proportion of received solar radiation.

The problem is solved in that the roof of the building, including a heat-insulating coating, parapets passing along the perimeter of the building, and an internal drain, a lightweight pitched roof structure, which consists of support posts whose height creates a slope of the roof slope; rafter legs; waterproofed tray of the internal drain, made with a slope to the funnel of the internal drain, according to the invention, the roof of solar panels contains: a frame for installing solar panels mounted on rafters; a coating consisting of solar panels and collectors hermetically connected to each other; an inclined frame attached to the inner surface of the parapets and to the racks along the tray of the internal drain, from the side of the unimpeded removal of rainfall, ensuring the position of the mirror screens and / or solar panels and collectors mounted on the frame, vertically to the main surface of solar panels and collectors rafter legs; mirror screens, for example, direct and in the form of a hyperbola.

According to the invention, the roof of solar panels consists of support posts, the height of which provides a slope of the roof slope towards the waterproofed tray of the internal drain; rafter legs, which are attached to the support posts; frame for installing solar panels and collectors, mounted on rafters; coatings from solar panels and collectors hermetically interconnected; an inclined frame fixed along the inner perimeter of the building parapet and racks along the gutter of the internal drain, from the side of the unimpeded removal of precipitation, for installing mirror screens and / or solar panels and collectors on it. According to the invention, the roof contains mirror screens in the form of a hyperbola.

The implementation of the invention allows to provide the following technical result:

The widespread use of solar panels on the roofs of buildings and structures with an internal gutter as a source of energy supply and at the same time as a roof covering by replacing the hard cover with solar panels and collectors hermetically connected to each other.

The maximum use of solar energy, which falls on the surface of solar panels during the whole daylight, due to the optimal arrangement of mirror screens and / or solar panels and collectors vertically relative to solar panels and collectors mounted on rafters hermetically connected to each other, which allows the use of return reflected sunlight with a small fraction of transmitted (received) solar energy at an angle with an increased proportion of transmitted (received) solar energy.

Simplification of installation of the roof structure made of solar panels by reducing technological operations by eliminating from the installation process the crates for hard coating, the most rigid coating.

Protection of solar panels from wind load with the parapet of the building.

Increase in the area of solar panels and collectors on the roof due to their location in two planes.

Simplification of maintenance on damaged areas of solar panels and collectors due to the ease of replacement of its elements, for example, temporary replacement with hard coating elements.

Simplification of the operation of solar panels and collectors by providing free and safe access to remove dust and dirt from the surface of solar panels, hermetically interconnected through the trays of the internal drain.

Simplification of the removal of snow from the surface of solar panels by removing snow in the trays of the internal drain.

Reducing the cost of capital construction and reconstruction of buildings by reducing material consumption and labor intensity.

The possibility of mounting the roof of solar panels in different weather conditions allowed by safety equipment, as weather conditions do not affect the production technology of the proposed design.

The possibility of using this design in the reconstruction of the roofs of buildings with a soft coating without dismantling the old coating.

The possibility of placing equipment for solar panels and collectors, in the absence of a technical floor in the building structure, due to the use of the space between the insulating layer and the frame for solar panels and collectors.

The invention is illustrated by drawings:

In FIG. Figure 1 shows a section of the roof with one tray of the internal drainage, where a frame for attaching solar panels and collectors to it is attached to the rafter legs, an inclined frame located on the parapets along the inner perimeter of the building with fixed mirror screens and / or solar panels and collectors, ensuring their position vertically relative to solar panels mounted on rafters.

In FIG. 2 shows a section of a roof with three trays of an internal drain, where a frame and solar panels and collectors mounted on it are attached to the rafter legs, with mirror screens in the form of a hyperbola, which are located along the inner perimeter of the building parapet, and an inclined frame mounted on racks located along the tray internal drain (from the side of the unimpeded removal of precipitation) and solar panels and collectors attached to it.

In FIG. 3 shows a section through the roof of solar panels and collectors, illustrating the incidence and reflection of sunlight from the surface of solar panels and collectors located and fixed on rafters to the surface of mirror screens and / or solar panels and collectors located on a frame fixed to an internal vertical the surface of the parapets around the perimeter of the building.

The roof of solar panels includes: a parapet along the perimeter of building 1; thermal insulation coating 2; funnel of the internal drain 3; waterproofed tray of the internal drain 4; supporting racks 5, on which the rafters 6 are laid; frame 7 for installing solar panels and collectors, laid on rafters 6; pitched roof covering, consisting of solar panels and collectors 8, tightly interconnected; frame 9, mounted on the vertical inner surface of the parapet of the building; frame 10, mounted on a supporting rack 5 for the vertical installation of solar panels; hyperbole-shaped mirror screens 11.

Beam 12 falls on the surface of solar panels and collectors located on the parapets along the perimeter of the building at an angle with a small fraction of the transmitted (received) solar energy and is reflected on the horizontal surface of the coating of solar panels at an angle with an increased proportion of transmitted (received) solar energy.

Beam 13 falls to the surface from solar panels and collectors mounted on rafters with a maximum fraction of transmitted (received) solar energy.

Beam 14 falls to the surface from solar panels and collectors mounted on rafters with a minimum fraction of the transmitted (received) solar energy and is reflected on a mirror screen in the form of a hyperbole and returns to the surface from solar panels and collectors mounted on rafters, with an increased fraction of past (received) solar energy.

When installing the roof from solar panels, the waterproofed trays of the internal drain 4 are laid with a slope to the drain funnel 3 and perpendicular to the rafter leg 6. The rows of racks 5 are mounted on supporting heels that are installed on the heat-insulating coating 2. The rafters 5 are attached rafters 6. On the rafters legs 6 lay the frame 7 for installing solar panels and / or collectors 8, which consists of two or more parallel rows of metal profile located across the rafter legs fastened with metal erasers reap diagonally between the rafters to ensure the strength of the frame. On the inner surface of the parapets 1, passing along the perimeter of the building, a frame 9 is mounted for installing solar panels and collectors 8 and / or mirror screens, which consists of parallel rows of metal shelves attached to the parapet, a metal profile mounted on metal shelves, the length shelves determines the tilt of the frame. A frame 10 for mounting solar panels and collectors 8 and / or mirror screens, consisting of a series of shelves attached to the racks and directed towards the tray, rows of a metal profile fixed to the end part of the rafters, is mounted on racks 6 located along the tray of the internal drain; and on a metal shelf, while the length of the shelf determines the tilt of the frame. Mirror screens and / or solar panels and collectors 8 are fixed on the installed frame structure on the inner surface of the parapets to the frame 9, then a coating of solar panels and collectors 8 is fixed on the frame 7 and 10, while the solar panels and collectors are hermetically connected to each other. When mounting structures with mirror screens in the form of a hyperbola 11, the screens are mounted on the frame 9.

Claims (2)

1. The pitched roof of the building with an internal drain, including support racks with a height that ensures the slope of the rafters installed on them towards the internal drain, a parapet passing along the perimeter of the building, characterized in that a frame for attaching solar panels and collectors to it is attached and to the inner surface of the parapets and to the racks along the gutter of the internal gutter, frames are slanted for installing mirror screens and / or solar panels and collectors on them, providing them with laying vertically relative to solar panels and collectors mounted on rafters, while the solar panels and collectors are hermetically connected to each other. 2. The roof according to claim 1, characterized in that the mirror screens are made in the form of a hyperbola.

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