BG4408U1 - System for vertical installation of photovoltaic panels - Google Patents

Abstract

The system for vertical installation of photovoltaic panels is composed of at least two main vertical load-bearing trusses (6) each one consisting of two metal profiles (6.1) and (6.2), wherein in one of their ends these metal profiles (6.1) and (6.2) are connected and contract an angle (Alpha) in the range of 10 to 90 degrees. The other ends of the metal profiles (6.1) and (6.2) are fixed to plates on a base (12) mounted on a fundament (5). The metal profiles (6.1) and (6.2) are braced to each other with horizontal ribs (7). On metal profile (6.1) there are at least two load-bearing plates (9) welded at a distance of at least 80 cm which carry load-bearing profiles (4). Frames made of metal profiles (2) with photovoltaic panels (1) are mounted at a certain angle (Beta) on the load-bearing profiles (4) by means of lower plates (3) and upper plates (10). The angle (Beta) is in the range of 10 to 55 degrees. The upper plates (10) are secured to lateral plates (8) mounted on the metal profile (6.1).

Description

Field of technique

The present utility model relates to a system for vertical mounting of photovoltaic panels that will find application in the field of electricity generation from solar radiation.

Prior art

The installation of solar panels is of key importance for the correct design and normal operation of photovoltaic systems. Mounting systems provide the necessary structural support to keep the solar panels at the optimal angle, but they can also have an impact on the overall temperature of the system. The cooling mechanism is different depending on the choice of construction. Ground-mounted solar panels, for example, are more easily cooled than rooftop installations because they have better airflow on both sides, which affects the temperature control of the solar panels and their efficiency. The large-scale use of solar energy for electricity production requires equipping large areas with facilities to "capture" the sun's rays in regions where the sun's radiation is strongest. From the point of view of scale, large platforms are economically more profitable, but when they are located in solar parks, there is a possibility of mutual shading. In addition, the panels, which are located on large platforms, must also be mounted on heavier metal structures to be resistant to winds, which prevents their use for building roofs.

In the photovoltaic panel mounting systems known in practice, the panels are mounted horizontally on frames of metal profiles, and the frames themselves are mounted at an angle to supporting beams and columns. No system is known for vertical mounting of photovoltaic panels that allows the panels to be located in a small area and at a high height.

Technical nature of the utility model

The task of the utility model is to create a system for vertical installation of photovoltaic panels, which provides increased production of electricity per unit area, is lightweight and simplified, and has a long period of operation.

The task was solved by creating a system for vertical installation of photovoltaic panels, which includes photovoltaic panels mounted on frames of metal profiles, which frames are mounted at an angle to supporting profiles. According to the useful model, the system is composed of at least two main supporting vertical trusses, consisting of two metal profiles each, which are connected at one end and make an angle α in the range of 10 to 90 ^o , and at the other end, the metal profiles are attached to base plates, mounted to foundation. In between, the metal profiles are reinforced with horizontal ribs. At least two supporting plates are welded to one of the metal profiles, at a distance of at least 80 cm, on which the supporting profiles are fixed. The metal profile frames with the photovoltaic panels are mounted at an angle β to the supporting profiles through the lower and upper plates, the angle β being in the range from 10 to 55 ^o . The top planks are attached to side planks mounted to the same metal profile.

In a variant embodiment, two or three frames of metal profiles with photovoltaic panels lying in one plane are installed between each two main supporting vertical trusses of the supporting plates.

In another alternative embodiment, two or three frames of metal profiles with photovoltaic panels are installed between each two main supporting vertical trusses of the supporting plates, forming an angle between them, and the frames of metal profiles are mounted on a common supporting frame, by means of two reinforcing metal profiles .

The task was solved by creating a second system for vertical installation of photovoltaic panels, which includes photovoltaic panels mounted on frames of metal profiles, which frames are mounted at an angle to supporting profiles. According to the useful model, the system is composed of at least two main supporting vertical trusses, consisting of two metal profiles each, which are connected at one end and make an angle α in the range of 10 to 90 ^o , and at the other end, the metal profiles are attached to base plates, mounted to foundation. In between, the metal profiles are reinforced with horizontal ribs. At least two supporting plates are welded to both metal profiles, at a distance of at least 80 cm, on which the supporting profiles, located opposite to each other, are established. The metal profile frames with the photovoltaic panels are mounted at an angle β to the supporting profiles through the lower and upper plates, the angle β being in the range from 10 to 55 ^o . The upper planks are attached to side planks mounted to the corresponding metal profile.

In a variant implementation of the second system for vertical installation, the supporting plates are welded to the metal profiles at the same level, relative to the ground surface.

In another version of the second vertical installation system, the supporting plates are welded to the metal profiles in a staggered manner, relative to the earth's surface, the photovoltaic panels are double-sided and reflectors are installed under the supporting profiles.

An advantage of the established vertical mounting systems is that the construction and placement of the solar panels takes up much less space than the known horizontal solar power plants, thus providing increased electricity production per unit area. It is also an advantage that it is possible to arrange the panels at a high height, with enough space between them, thus they are not shaded, they are cooled better, which further increases their efficiency, and they are more resistant to wind.

Explanation of the attached figures

The present utility model is illustrated in the attached figures, where:

Figure 1 is a side view of a system for vertical mounting of photovoltaic panels, with one-sided orientation of the panels, according to the utility model;

Figure 2 is a side view of the system for vertical mounting of photovoltaic panels, with two-sided orientation of the panels located at one level, according to the utility model;

Figure 3 is a side view of the system for vertical mounting of two-sided photovoltaic panels, with two-sided orientation of the panels staggered, according to the utility model;

Figure 4 is a front view of the system of Figure 1, without photovoltaic panels installed;

Figure 5 is a top view of one row of the system of Figure 1, with two photovoltaic panels arranged in one plane;

Figure 6 is a top view of one row of the system of Figure 1, with two photovoltaic panels positioned at an angle;

Figure 7 is a top view of one row of the system of Figure 1, with three photovoltaic panels positioned at an angle; and

Figure 8 is a schematic diagram of a system for the vertical installation of two-sided photovoltaic panels, with a two-sided orientation of the panels, where the supporting truss is filled with only one metal profile.

Examples of implementation of the utility model

The created system for the vertical installation of photovoltaic panels, shown in figures 1 and 4, is composed of at least two main supporting vertical trusses 6, consisting of two metal profiles 6.1 and 6.2 each, which are connected at one end and form an angle α in range from 10 to 90 ^o , and at its other end, the metal profiles 6.1 and 6.2 are attached to base plates 12, mounted on the foundation 5. The main supporting vertical trusses 6 are connected to each other by anti-wind connections 13, and the metal profiles 6.1 and 6.2 in between are strengthened with horizontal ribs 7.

In a preferred embodiment, the angle α is 20 ^o , and the metal profile 6.2 is perpendicular to the earth's surface.

At least two supporting plates 9 are welded to the metal profile 6.1, at a distance of at least 80 cm, and in a preferred embodiment, the supporting plates 9 are welded at the levels of the horizontal ribs 7, for greater stability of the structure. Depending on the height of the construction, it is possible to have up to 10 supporting plates 9.

On the supporting plates 9, supporting profiles 4 are established, to which, through the lower and upper plates 3 and 10, metal profile frames 2 with photovoltaic panels 1 are mounted at an angle β. The upper plates 10 are attached to side plates 8, mounted on the metal profile 6.1 . The angle β is in the range from 10 to 55 ^o , and in a preferred embodiment it is 30 ^o .

In a variant embodiment shown in figure 5, between each two main supporting vertical trusses 6, on each row of the system, two or three frames of metal profiles 2 with photovoltaic panels 1 lying in one plane are mounted on the supporting plates 9. In this variant implementation of the system, the photovoltaic panels 1 are oriented to the south.

In another variant embodiment, shown in figure 6, between each two main supporting vertical trusses 6, on each row of the system, two frames of metal profiles 2 with photovoltaic panels 1, closing an angle between them, are mounted on the supporting plates 9. The frames of metal profiles 2 are mounted on a common supporting frame 17, by means of two reinforcing metal profiles 15 and 16. In this variant implementation of the system, the photovoltaic panels 1 have a southeast-southwest orientation.

In a third variant embodiment, shown in figure 7, between each two main supporting vertical trusses 6, on each row of the system, three frames of metal profiles 2 with photovoltaic panels 1, forming an angle between them, are mounted on the supporting plates 9. The frames of metal profiles 2 are mounted on 4 common supporting frame 17, by means of two strengthening metal profiles 15 and 16. In this variant implementation of the system, the photovoltaic panels 1 are oriented southeast-south-southwest.

A second system for the vertical installation of photovoltaic panels has also been created, shown in figures 2 and 3, which is composed of at least two main supporting vertical trusses 6, consisting of two metal profiles 6.1 and 6.2 each, which are connected at one end and form an angle α in the range from 10 to 90 ^o , and at its other end the metal profiles 6.1 and 6.2 are attached to base plates 12 mounted on foundation 5. In a preferred embodiment, the angle α is 20 ^o . The main supporting vertical trusses 6 are connected to each other by anti-wind connections 13, and the metal profiles 6.1 and 6.2 are strengthened to each other by horizontal ribs 7.

At least two supporting plates 9 are welded to both metal profiles 6.1 and 6.2, at a distance of at least 80 cm, and in a preferred embodiment, the supporting plates 9 are welded at the levels of the horizontal ribs 7, for greater stability of the structure . Depending on the height of the structure, it is possible to have up to 10 supporting plates 9 on each of the metal profiles 6.1 and 6.2. On the supporting plates 9, supporting profiles 4, located opposite to each other, are established. To the supporting profiles 4, through lower and upper plates 3 and 10, frames of metal profiles 2 with photovoltaic panels 1 are mounted at an angle β. The upper plates 10 are attached to side plates 8, mounted to the corresponding metal profile 6.1 or 6.2. The angle β is in the range from 10 to 55 ^o , and in a preferred embodiment it is 30 ^o .

In a preferred embodiment of the vertical mounting system shown in Figures 2 and 3, the photovoltaic panels 1 are oriented east-west.

In a variant embodiment shown in figure 2, the supporting plates 9 are welded to the metal profiles 6.1 and 6.2 at the same level, relative to the ground surface.

In another variant embodiment, shown in figure 3, the supporting plates 9 are welded to the metal profiles 6.1 and 6.2 staggered, relative to the ground surface. The photovoltaic panels 1 used are double-sided and reflectors 11 are mounted under the supporting profiles 4, which reflect the sun's rays and direct them to the back of the opposite double-sided photovoltaic panel

With the orientation of the photovoltaic panels 1 east - west at sunrise and sunset, the system will produce electricity both from the sun's rays directly falling on the photovoltaic panels 1 and from the sun's rays reflected and directed by the reflectors 11 .

Variant implementations of the vertical installation system are also possible, with a two-sided orientation of the panels, where the supporting truss is filled with only one metal profile, for example as shown in figure 8.

In all the above-described embodiments of the created systems for vertical installation of photovoltaic panels, it is possible to mount wheels to the base plates 12, by means of which the structure can be easily moved.

The created systems for vertical installation of photovoltaic panels can be placed next to the facades of buildings, along fences, in open parking lots, on agricultural areas and others, occupying much less space than existing photovoltaic power plants with horizontally placed solar panels.

Claims (6)

1. A system for vertical mounting of photovoltaic panels, comprising photovoltaic panels mounted on frames of metal profiles, which frames are mounted at an angle to supporting profiles, characterized in that the system is composed of at least two main supporting vertical trusses (6) , consisting of two metal profiles (6.1) and (6.2) each, which are connected at one end and make an angle (alpha) in the range of 10 to 90 ^o , and at the other end the metal profiles (6.1) and (6.2 ) are attached to base plates (12), mounted to foundation (5), and in between the metal profiles (6.1) and (6.2) are strengthened with horizontal ribs (7), whereby to the metal profile (6.1), on distance of at least 80 cm, at least two supporting plates (9) are welded, on which the supporting profiles (4) are established, to which the metal frames are mounted at an angle (beta) by means of lower and upper plates (3) and (10) profiles (2) with the photovoltaic panels (1), the angle (beta) being in the range of 10 to 55 ^o , where the top plates (10) are fixed to side plates (8) mounted on the metal profile (6.1). 2. A system for the vertical installation of photovoltaic panels, according to claim 1, characterized in that between each two main supporting vertical trusses (6) of the supporting plates (9), two or three frames of metal profiles (2) with photovoltaic panels (1) lying in one plane. 3. A system for the vertical installation of photovoltaic panels, according to claim 1, characterized in that between each two main supporting vertical trusses (6) of the supporting plates (9), two or three frames of metal profiles (2) with photovoltaic panels (1) forming an angle between themselves, the frames of metal profiles (2) being mounted on a common supporting frame (17) by means of two reinforcing metal profiles (15) and (16). 4. A system for vertical mounting of photovoltaic panels, comprising photovoltaic panels mounted on frames of metal profiles, which frames are mounted at an angle to supporting profiles, characterized in that the system is composed of at least two main supporting vertical trusses (6) , consisting of two metal profiles (6.1) and (6.2) each, which are connected at one end and make an angle (alpha) in the range of 10 to 90 ^o , and at the other end the metal profiles (6.1) and (6.2 ) are attached to the base plates (12), mounted to the foundation (5), and between the metal profiles (6.1) and (6.2) horizontal ribs (7) are strengthened, whereby both metal profiles (6.1) and (6.2), at a distance of at least 80 cm, are welded at least two supporting plates (9) on which the supporting profiles (4) are established, oppositely located to each other, as to the supporting profiles (4) through a lower and upper plates (3) and (10) are mounted at an angle (beta) to the frames of metal profiles (2) with the photovoltaic panels (1), whereby the upper plates (10) are fixed to side plates (8) mounted to the respective metal profile (6.1) or (6.2), the angle (beta) being in the range from 10 to 55 ^o . 5. System for vertical installation of photovoltaic panels, according to claim 4, characterized in that the supporting plates (9) are welded to the metal profiles (6.1) and (6.2) at the same level, relative to the ground surface. 6. A system for vertical installation of photovoltaic panels, according to claim 4, characterized in that the supporting plates (9) are welded to the metal profiles (6.1) and (6.2) in a staggered manner, relative to the ground surface, and the photovoltaic panels (1) are double-faced and reflectors (11) are mounted under the supporting profiles (4).