CZ19663U1 - Load-bearing structure of photovoltaic devices - Google Patents

Abstract

Support structure of photovoltaic devices is to be anchored on the drilling bases (8) advantageously in installing at unreinforced surfaces or to be anchored on the holders (12) in installing at reinforced surfaces. The structure consists of the rear leg (5), the front leg (9), the rear beam (4), the bottom beam (6), and the supporting beam (1). The rear beam (4) is situated vertically and the values of each internal angle in the triangle, consisting of the supporting beam (1), bottom beam (6), and the rear beam (4), are in the extent of 45° to 75°. The connection of the bottom beam (6) to the front leg (9) and/or the supporting beam (1) lies higher than the connection of the bottom beam (6) to the rear leg (5) and/or the rear beam (4).

Description

Supporting structure of photovoltaic systems

Technical field

The technical solution relates to a supporting structure for solar panels and falls within the field of mounting or supporting devices for solar panels.

BACKGROUND OF THE INVENTION

Supporting structures for solar panels are known in many variants and designs. Rigid structures generally have two legs which are connected to each other by at least one bottom profile and furthermore generally comprise at least one rear profile and a supporting profile. Longitudinal struts can be attached to the support profile connecting the individual structures to each other, whereby solar panels are then placed on these longitudinal struts. The structures are usually designed only from the static point of view, without significant effort to lighten the structure and save the material used.

Widely used are structures bolted on site from individual pipes or profiles. These individual tubes and / or profiles are joined by means of bolted connections and grips. However, this solution is relatively expensive due to the nature of the components used and, moreover, does not necessarily guarantee sufficient stability, for example when using larger solar panels.

A solid support structure enjoying industrial protection is, for example, the structure described in DE 20311967 U. Here, a metal support structure having a trapezoidal side view is described. The solar panels are fastened with screws to the top of the structure, which also rests on spacers. Below these spacers is a plastic base plate which is shaped to have flat areas separated by protruding semicircular portions. Spacers are mounted on these protruding semicircular portions. The plastic base plates may optionally be located below the ground surface and their edges may overlap one another. The disadvantage of this solution is, firstly, the shape of the metal bearing structure itself, which requires a relatively strong material, and secondly, the use of plastic baseplates, for which extensive earthworks are required.

The positioning structures used for different solar panel slopes in summer and winter months are also currently solved in many ways. One of them is described, for example, in DE 20319065 U. The construction here for several solar panels has as many legs as there are solar panels on the construction. The legs are connected by a horizontally placed pivot axis. Perpendicular to this pivot axis there are several rungs between which solar panels are inserted. The swivel bar then passes under the solar panels approximately halfway through their length. The disadvantage of this solution is the necessity of a large number of feet recessed into the ground, where one foot of the solar panel has one foot.

Another possible solution for the positioning of solar panels are devices adjustable in two axes (horizontal and vertical), so-called tractors. However, these are by their nature solved completely differently from the proposed supporting structure and are therefore not further described in this document.

Another known solution is described in document CZ 19145. The supporting structure described here consists of several profiles forming a triangle with two legs. This construction can be used as fixed or positioning. However, as specified herein, some variations and combinations of angles and component spacing are not allowed.

The proposed technical solution presents a stable load-bearing structure with maximum possible lightening. The structure is primarily designed to be rigid, but during production it can be made positional with minor modifications. All this has a positive impact on the final price of the product.

The structure can be used for installation on open areas or roof surfaces.

-1 CZ 19663 Ul

The essence of the technical solution

The main essence of the technical solution is to use the weakest parts of the structure in connection with maintaining the ideal distribution of angles in the structure, which allows maintaining the necessary load-bearing capacity and stability.

In the first solution, each inner angle in the triangle formed by the support profile, the bottom profile and the rear profile is between 45 ° and 75 °. The rear profile is vertically positioned and the bottom profile is situated such that its connection with the front leg and / or the support profile is higher than its connection with the rear leg and / or the rear profile.

The variant of the triangle in the construction does not comply with the angles described above and is specified by the horizontal profile situated horizontally, with a tolerance of ± 15 °. Its connection to the vertical rear profile is therefore at an angle of 90 ° ± 15 °.

In both variants, the basic triangular structure can be reinforced with additional struts. These struts can be designed either as internal struts within the triangle, or the struts can be located between the front leg and the support profile, or between the front and / or rear leg and the bottom profile. The additional struts reinforce the load-bearing structure in case of using weaker components or in case of expected strong weather conditions at the installation site.

In the support profile there are openings for the placement of clips used for attaching the longitudinal struts connecting the individual structures several meters apart. The solar panels are mounted on these longitudinal struts.

The designs according to the proposed technical solution are advantageously used in combination with drilling bases (see not yet published CZ PV 2008-522 of the same applicants).

If the drilling bases are located inaccurately in the ground (especially in stony ground) and their distance would not correspond to the pitch of the structure, it is possible to use an alternative solution of the base, where at least one leg is sliding along the bottom profile or the supporting profile. In this way it is possible to adjust the spacing of the legs for different distances of the drilling bases or possibly other columns or mounts.

Another variant of the construction is the positioning construction, which can be positioned so that the longitudinal axis of the supporting profile can be continuously adjusted in the range of approximately 30 ° to 50 ° relative to the horizontal, according to the customer's wishes. The positioning construction differs from the solutions described above in attaching the front leg and the rear leg to the rest of the structure. The rear leg is attached to the rest of the structure using a pivot pin. The pivot has its longitudinal axis of rotation situated horizontally, perpendicular to the bottom profile. The front leg is slidably attached to the bottom profile and / or support profile. The sliding attachment can be solved using a conventional screw clamp or with a positioning plate and a glider with a clamping plate. In this case, the positioning plate is rigidly connected to the bottom profile and / or the supporting profile, either from the bottom or top side. The positioning plate is provided with at least two pairs of holes such that the holes are on those two sides of the positioning plate that are parallel to the bottom profile. The front leg is fitted with a glider with a clamping plate at its upper end. The glider has a hemispherical shape or other convex shape on the side cross-section. Underneath the glider is a clamping plate in which there are two holes, one on each side. There are screws in both holes in the clamping plate, and the two screws each pass through one pair of holes in the positioning plate. The position of each pair of holes in the positioning plate during its production is selected with respect to the predefined required inclinations of the supporting profile (and hence of the solar panel) during the year. If the inclination of the solar panel is required, the screws are removed from a given pair of holes in the positioning plate and after the inclination guide, the screws are installed in another pair of holes in the positioning plate. The more pairs of holes in the positioning plate, the more positions the support structure can be adjusted. This solution enables simple and effective change of inclination, and thanks to predefined pairs of holes in the positioning plate, there is no need to measure

-2GB 19663 U1 of the newly adjusted tilt since the angles of the possible tilt are already determined by the individual pairs of holes in the positioning plate.

Similarly, a solution can be used where the front leg is attached to the remainder of the structure by means of a pivot pin and the rear leg is slidably mounted to the remainder of the structure by means of a screw clamp or by a positioning plate and a glider with a clamping plate.

BRIEF DESCRIPTION OF THE DRAWINGS

An exemplary embodiment of the proposed solution is described with reference to the drawings, in which: Fig. 1 - supporting structure with a slanted bottom profile, Fig. 2 - supporting structure with a slanted bottom profile and inner and lower strut, Fig. 3 - supporting structure Fig. 4 - supporting structure with horizontal lower profile, sliding rear leg, one inner strut and stiffeners, fig. 5 - positioning design of the supporting structure with one inner strut.

Examples of technical solution

Example 1

The supporting structure of the photovoltaic systems according to the proposed technical solution consists of a rear profile 4, a bottom profile 6 and a supporting profile 1. These three profiles form a triangular base of the supporting structure, supplemented by a rear leg 5 and a front leg 9. situated vertically. The bottom profile 6 is situated such that its connection with, in this case, the front leg 9, is higher than its connection with the rear profile 4. Each inner angle is in the range of 45 ° to 75 °. In this case, the internal angles are 55 °, 60 ° and 65 °. The rear leg 5 and the front leg 9 are in this case connected to the remainder of the structure by a fixed non-detachable connection. Four clamps 2 rest on the support profile 1. Longitudinal struts are fastened to the clamps 2 connecting the individual support structures to each other. The entire supporting structure rests on two drill bases 8. The inner diameter of the tubes forming the drill bases 8 is in this case larger than the outer diameter of the front leg 9 and the rear leg 5. The front leg 9 and the rear leg 5 are thus inserted into the drilling bases 8 and fixed Several Screws.

The described solution is evident from Fig. 1.

Example 2

The supporting structure of the photovoltaic systems according to the proposed technical solution consists of a rear profile 4, a bottom profile 6 and a supporting profile 1. These three profiles form a triangular base of the supporting structure, supplemented by a rear leg 5 and a front leg 9. vertically. The bottom profile 6 is situated horizontally, so its connection to the rear profile 4 is made at an angle of 90 °. The rear leg 5 is slidably attached to the rest of the support structure. Inside the triangle formed by the support profile J, the rear profile 4 and the bottom profile 6, there is one inner strut 16. Four retaining clips 2 rest on the support profile 1. Longitudinal struts connecting the structures to each other are fastened to the retainers 2. The entire supporting structure rests on two drilling bases 8. The inner diameter of the tube forming the first drilling base 8 in this case is larger than the diameter of the front leg 9. The outer diameter of the second drilling base 8 in this case is smaller than the inner diameter of the tube forming the rear leg 5. .

The described solution is evident from Fig. 4.

Claims (5)

PROTECTION REQUIREMENTS A supporting structure of photovoltaic devices, preferably for anchoring to drilling bases (8) when installed on unpaved surfaces, or for anchoring to fixtures (12) for installation on paved surfaces, wherein the structure consists of a rear foot (5), a front foot ( 9), rear profile 5 (4), bottom profile (6) and support profile (1), characterized in that the rear profile (4) is vertically situated, each inside angle in a triangle formed by the support profile (1), the bottom profile (6) and the rear profile the profile (4) has a size in the range of 45 ° to 75 ° and the connection of the lower profile (6) to the front leg (9) and / or the support profile (1) is higher than the connection of the lower profile (6) to the rear leg (5); / or rear profile (4). ío Photovoltaic support structure according to claim 1, characterized in that the connection of the rear leg (5) and / or the front leg (9) to the remaining part of the structure is displaceable. Photovoltaic support structure according to claims 1 and 2, characterized in that the front leg (9) and / or the rear leg (5) is fixed to the rest of the structure by means of a positioning plate (14) which is fixedly attached to the a lower profile (6) and / or k 15 is provided with at least two pairs of apertures on its longer opposite sides and that at the upper end of the front leg (9) and / or the upper end of the rear leg (5) there is a convex glider (15) provided with a clamping plate. one pair of holes, the front leg (9) and / or the rear leg (5) being connected to the positioning plate (14) by two 20 screws through both holes in the clamping plate and one pair of holes in the positioning plate (14). Supporting structure of photovoltaic systems according to claims 1 to 3, characterized in that: characterized in that the connection of the rear leg (5) and / or the connection of the front leg (9) to the rest of the structure is formed by a pivot (10) with a horizontal axis of rotation perpendicular to the lower profile (6). The support structure of the photovoltaic system according to claim 1, characterized in that the connection of the rear leg (5) and the front leg (9) to the rest of the structure is immovable. Supporting structure of photovoltaic devices according to claims 1 to 5, characterized in that the rear leg (5) and / or the front leg (9) is connected to the remainder of the structure by a releasable joint. 7. A photovoltaic device support structure according to claims 1 to 6, characterized in that at least one lower strut (17) is situated between the support profile (1) and the front leg (9). Supporting structure of photovoltaic installations according to claims 1 to 7, characterized in that between the lower profile (6) and the front leg (9) and / or between the lower profile (6) and At least one lower strut (17) is situated in the rear leg (5). Supporting structure of photovoltaic devices, preferably for anchoring to drill bases (8) when installed on unpaved surfaces, or for anchoring to fixtures (12) for installation on hard surfaces, wherein the structure consists of a rear foot (5), a front foot ( 9), a rear profile (4), a bottom profile (6) and a support profile (1), characterized in that: 40 the rear profile (4) is vertical, each inside angle in the triangle formed by the supporting profile (1), the bottom profile (6) and the rear profile (4) is between 45 ° and 75 ° And the connection of the lower profile (6) to the front leg (9) and / or the support profile (1) is higher than the connection of the lower profile (6) to the rear leg (5) and / or the rear profile (4), and A method according to claim 1, characterized in that at least one inner strut (16) is situated within the triangle formed by the bottom profile (6), the support profile (1) and the rear profile (4). The support structure of the photovoltaic system according to claim 9, characterized in that the connection of the rear leg (5) and / or the front leg (9) to the remainder of the structure is displaceable. Supporting structure of photovoltaic systems according to claims 9 and 10, characterized in that the front leg (9) and / or the rear leg (5) is attached to the rest of the structure by means of a positioning plate (14) which is fixedly attached to the lower leg. The profile (6) and / or the support profile (1) and on its longer opposite sides are provided with at least two pairs of holes and that at the upper end of the front leg (9) and / or the upper end of the rear leg (5) is a glider (15). ) of a convex shape, provided with a clamping plate with one pair of holes, the front leg (9) and / or the rear leg (5) being connected to the positioning plate (14) by two 15 screws through both holes in the clamping plate and one pair of holes in the positioning plate (14). Supporting structure of photovoltaic systems according to claims 9 to 11, characterized in that the connection of the rear leg (5) and / or the connection of the front leg (9) with the remaining part of the structure is formed by a pivot (10) with a horizontal axis of rotation on the bottom profile (6). The supporting structure of photovoltaic systems according to claim 9, characterized in that the connection of the rear leg (5) and the front leg (9) to the rest of the structure is immovable. Supporting structure of photovoltaic installations according to claims 9 to 13, characterized in that the rear leg (5) and / or the front leg (9) is connected to the remainder of the structure by a releasable joint. Supporting structure of photovoltaic systems according to claims 9 to 14, characterized in that at least one lower strut (17) is situated between the support profile (1) and the front leg (9). Supporting structure of photovoltaic installations according to claims 9 to 15, characterized in that between the lower profile (6) and the front leg (9) and / or between the lower profile (6) and At least one lower strut (17) is situated at the rear leg (5). A supporting structure of photovoltaic devices, preferably for anchoring to drilling bases (8) when installed on unpaved surfaces, or for anchoring to fixtures (12) for installation on paved surfaces, wherein the structure consists of a rear foot (5), a front foot ( 9), a rear profile (4), a bottom profile (6) and a support profile (1), characterized in that the triangle 35 formed by the bottom profile (6), the supporting profile (1) and the rear profile (4) is shaped such that the rear profile (4) is vertically oriented and its connection with the bottom profile (6) is at an angle of 90 ° ± 15 ° . A support structure of photovoltaic devices according to claim 17, characterized in that the connection of the rear leg (5) and / or the front leg (9) to the remaining part of the structure is displaceable. A support structure for photovoltaic installations according to claims 17 and 18, characterized in that the front leg (9) and / or the rear leg (5) is fixed to the remainder of the structure by means of a positioning plate (14) which is fixedly attached to the provided with at least two pairs of apertures on the lower profile (6) and / or on the support profile (1) and on its longer opposite sides, and that 19663 U1 at the upper end of the front leg (9) and / or the upper end of the rear leg (5) is a glider (15) of convex shape, provided with a clamping plate with one pair of holes, the front leg (9) and / or the rear leg (9). 5) is connected to the positioning plate (14) by two screws passing through both holes in the clamping plate and one pair of holes in the positioning plate (14), A supporting structure of photovoltaic systems according to claims 17 to 19, characterized in that the connection of the rear leg (5) and / or the connection of the front leg (9) to the rest of the structure is formed by a pivot pin (10) with a horizontal axis of rotation on the bottom profile (6). Supporting structure of photovoltaic systems according to claim 17, characterized in that the connection of the rear leg (5) and the front leg (9) to the rest of the structure is immovable. Supporting structure of photovoltaic installations according to claims 17 to 21, characterized in that the rear leg (5) and / or the front leg (9) is connected to the remainder of the structure by a releasable joint. Supporting structure of photovoltaic systems according to claims 17 to 22, characterized in that at least one lower strut (17) is situated between the support profile (1) and the front leg (9). Supporting structure of photovoltaic systems according to claims 17 to 23, characterized in that at least one lower one is situated between the lower profile (6) and the front leg (9) and / or between the lower profile (6) and the rear leg (5). strut (17). Supporting structure of photovoltaic devices, preferably for anchoring to drilling bases (8) when installed on unpaved surfaces, or for anchoring to fixtures (12) for installation on paved surfaces, wherein the structure consists of a rear foot (5), front foot ( 9), a rear profile (4), a bottom profile (6) and a support profile (1), characterized in that the triangle formed by the bottom profile (6), the support profile (1) and the rear profile (4) is shaped such that the rear profile (4) is vertically oriented and its connection to the bottom profile (6) is at an angle of 90 ° ± 15 ° and that within the triangle formed by the bottom profile (6), the support profile (1) and the rear profile (4) is at least one inner strut (16) located. A support structure of photovoltaic devices according to claim 25, characterized in that the connection of the rear leg (5) and / or the front leg (9) to the remaining part of the structure is displaceable. A support structure for photovoltaic devices according to claims 25 and 26, characterized in that the front leg (9) and / or the rear leg (5) is fixed to the remainder of the structure by means of a positioning plate (14) which is fixedly attached to the a lower profile (6) and / or to the support profile (1) and on its longer opposite sides provided with at least two pairs of holes, and that at the upper end of the front leg (9) and / or the upper end of the rear leg (5) ) of a convex shape, provided with a clamping plate with one pair of holes, the front leg (9) and / or the rear leg (5) being connected to the positioning plate (14) by two screws through both holes in the clamping plate and one pair of holes in the positioning plate ( 14). Photovoltaic support structure according to one of Claims 25 to 27, characterized in that the connection of the rear leg (5) and / or the connection of the front leg (9) to the rest of the structure is formed by a pivot (10) with a horizontal axis of rotation on the bottom profile (6). -6CZ 19663 Ul Photovoltaic support structure according to claim 25, characterized in that the connection of the rear leg (5) and the front leg (9) to the rest of the structure is immovable. Supporting structure of photovoltaic installations according to claims 25 to 29, characterized in that the rear leg (5) and / or the front leg (9) is connected to the rest of the structure 5 with a detachable connection. Supporting structure of photovoltaic systems according to claims 25 to 30, characterized in that at least one lower strut (17) is situated between the support profile (1) and the front leg (9). A support structure for photovoltaic installations according to claims 25 to 31, characterized in that between the lower profile (6) and the front leg (9) and / or between the lower profile (6) and the rear leg (5) is situated at least one lower strut (17). Supporting structure of photovoltaic systems according to claims 1 to 32, characterized in that the support profile (1) is supported in at least one connection with the rest of the structure by a reinforcement (3). The structure of photovoltaic installations according to claims 1 to 33, characterized in that the inner diameter of the tube forming the rear leg (5) and the front leg (9) is larger than the outer diameter of the drilling base (8) and / or the bracket (12). ). Supporting structure of photovoltaic systems according to claims 1 to 33, characterized in that the outer diameter of the tube forming the rear leg (5) and the front leg (9) is smaller than the internal 20 the diameter of the drilling base (8) and / or the grip (12).