RU180850U1 - ENERGY GENERATING FACADE - Google Patents

Abstract

The utility model relates to the facade cladding of buildings, and in particular to mounted energy-generating ventilated facades based on solar panels. The energy-generating facade contains remote brackets, bearing guides fixed to them and solar panels mounted on the guides. The brackets are configured to control the length of the stem. The guides are made horizontal and provided with longitudinal grooves in which the edges of the solar panels are installed. The utility model allows to increase the adaptability of the facade to the particular installation conditions. 3 s.p. f-ly, 4 ill.

Description

The utility model relates to the facade cladding of buildings, namely to ventilated ventilated energy-generating facades based on solar panels.

Facing the dilapidated walls of buildings with aesthetically attractive decorative panels, especially in a metropolis, is rapidly gaining popularity. All kinds of fasteners and sets are widely represented on the market, allowing to build durable and economical hinged ventilated facades in the shortest possible time. At the same time, modular alternative energy facilities based on solar panels are rapidly gaining momentum: solar power plants are installed on the roofs of cottages, balconies, cars, etc. The combination of these technical solutions allows us to simultaneously satisfy both practical and aesthetic requirements.

The prior art energy-generating facade, containing remote brackets mounted on them bearing rails and mounted on the rails of the solar panel (see patent EP2631389, CL E04F 13/08, publ. 08.28.2013). The disadvantages of the known device are the complexity and high cost of manufacture and installation, due to the need to manufacture custom solar panels with fasteners to the rails, as well as low energy efficiency when installed on buildings with poor (in terms of light) geographical orientation of the facade planes.

The technical problem is the creation of a simple and economical design that allows us to assemble a highly efficient and reliable energy-generating facade from the standard spare parts on the market, on the basis of which it is possible to make a hinged ventilated cladding of a building. The technical result consists in increasing the adaptability of the facade to the particular installation conditions.

The problem posed is solved, and the technical result is achieved by the fact that in the energy-generating facade containing external brackets, bearing guides mounted on them and solar panels mounted on the guides, the brackets are configured to control the length of the extension, and the guides are horizontal and provided with longitudinal grooves in which the edges of the solar panels are installed. Each bracket is preferably formed by a fixed part, attached to the wall of the building, and provided with a latch movable part, on which the guide is fixed. The movable part can be made in the form of a L-shaped profile or in the form of a rod with a spherical head.

Figure 1 presents a General view of the proposed facade in the form of one modular element;

figure 2 - hinged ventilated facade in the form of several modular elements;

figure 3 - mounting rail on the L-shaped profile;

figure 4 - mounting the guide on the rod with a spherical head.

The proposed modular hinged ventilated energy-generating facade covers the entire surface of the building / structure in whole or in part and consists of brackets 1 with adjustable spacing, supporting horizontal guides 2 and a set of solar panels 3. The front side can additionally be equipped with conventional cladding panels (on drawings not shown). The edges of the panels 3 on three sides are fixed in the longitudinal groove 4 formed by the profile of the guide 2. In case of joint installation of several facade elements, adjacent guides 2 can be made at the same time in the form of an I-profile (see figure 2).

This design without any modifications allows you to use absolutely any model of solar panels 3 on the market to form the facade. Moreover, the ability to adjust the extension length of the brackets 1 allows not only to compensate for irregularities in the wall of the building (curvature of the installation plane can lead to premature failure of panels 3), but also to vary the angle of installation of panels 3 relative to it in accordance with local lighting conditions. By selecting the optimal orientation of the panels 3 in a particular area, it is possible to achieve maximum power generation efficiency for any location of the building.

In the case of small correcting orientation angles (up to 10-15 °), conventional aluminum brackets for curtain walls, consisting of a fixed T-shaped part 5, attached by anchors to the wall of the building, and a movable part 6 in the form of a shaped profile (see Fig. 3), to which a U-shaped guide 2 is drawn by a bolt 2. A locking bolt or a self-tapping screw 7 can be used as a locking lock for the relative positions of parts 5 and 6. In this case, the plane of the facade can be leveled by tightening steel rails 2, and reference planes nonparallel portions 5 and 6 backlash is offset angle T-shaped profile.

If it is necessary to install the panels 3 at a large angle to the wall surface, then an aluminum or plastic rod with a spherical or hemispherical head 8 can be used as the movable part 6 (the width of the head can be compensated by the formation of the protrusion 9 in the profile of the guide 2).

The collection of the proposed curtain wall facade is as follows.

Empirical or computational methods preliminarily determine the optimal spatial orientation angle of the solar panels 3. On the building wall, the fixed parts 6 of the extreme brackets 1 are mounted, and the movable parts 5 are mounted on the guides 2 of the design length. Then, the movable parts 5 are fixed in the fixed so so that due to the ratio of the lengths of the extreme brackets 1, the guides 2 lie in the optimal plane defined in the previous step. If necessary, along the length of the guides 2 additionally install intermediate brackets 1 of the corresponding length. After that, between the guides 2, the panels 3 are inserted into the grooves, connected to each other and connected to energy-removing equipment.

The proposed design can be easily adapted to any geometric dimensions of the selected solar panels, local lighting features, unevenness of the bearing wall and other installation conditions.

Claims (4)

1. Energy-generating facade containing remote brackets, bearing rails mounted on them and solar panels mounted on rails, characterized in that the brackets are designed to control the length of the extension, and the rails are horizontal and provided with longitudinal grooves in which the edges of the solar panels are mounted. 2. The energy-generating facade according to claim 1, characterized in that each bracket is formed by a fixed part, attached to the wall of the building and provided with a latch movable part, on which the guide is fixed. 3. The energy-generating facade according to claim 2, characterized in that the movable part is made in the form of a L-shaped profile. 4. The energy-generating facade according to claim 2, characterized in that the movable part is made in the form of a rod with a spherical head.

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