RO201200057U1 - Solar system mountable supporting structure - Google Patents

Abstract

The invention relates to a mountable supporting structure of a solar system which, together with the fastening elements by which it is detachably mounted, makes up the supporting part of the solar panel systems of solar power stations. According to the invention, the mountable supporting structure consists of a slanting beam () which is detachably joined, by a rear articulated link (), to a rear leg () fixed on a rear pin (), and by a front articulated link (), to a front leg (), fixed on a front pin (), the said front articulated link () being, at the same time, detachably joined to the rear pin () by means of a spacing bar () adjustable in length, the joint being made using a detachable clamp ().

Description

RO 2012 00057 U1

Load-bearing structure for a solar system Field of the invention

The invention relates to the portable structure of a solar system which, together with the fastening elements by which it is removably connected, constitutes the supporting part of the solar panels of the solar power plants.

State of the art, various solutions of bearing structures for solar panels are known. For example, the solid bearing structure, according to German utility model no. No. 20311967, is constituted by base elements in the form of a trapezium. The solar panels are bolted to the sloping upper arms of these trapezoidal elements, placed on the spacers. Below the spacers are the plastic base plate, which is shaped so that the flat areas are separated by protruding semicircular parts. The spacers are then fixed on these prominent semicircular elements. Plastic bases may eventually be placed under the surface of the soil, and their edges may overlap. The disadvantage of this solution is, on the one hand, the shape of the metal bearing structure itself, requiring relatively robust components, and on the other hand the use of plastic base plates for which relatively large earthworks are required.

The load-bearing structure with adjustable position, which allows the setting of a different angle of inclination of the solar panels in the winter and summer months, is the subject of another German utility model no. 20319065. The structure shown here is formed by a separate leg for each solar panel. The individual legs are connected by a horizontally oriented rotating axis passing through the solar panels, approximately halfway through them. The disadvantage of this solution lies in the need for a large number of legs buried in the ground, which is given by the above-mentioned construction principle, each panel being mounted by a leg buried in the ground. in the context of both solutions described above, the load-bearing structure according to the Czech utility model no. 19145 seems to be the right one. This 1 RO 2012 00057 U1 structure consists of the rear leg, the front leg, the rear spacing bar, the oblique spacing bar and the carrier profile. The inner angles in the triangle formed by the carrier profile, the rear and the oblique spacing bars are 600 with a tolerance of ± 5 °, the distance between the top of the rear distal bar and the center line is less than the distance between the lower part of a the rear spacing bar and the center axis, and at the same time the oblique spacing bar is located so that the front leg joint with the oblique spacing bar is higher than the joint of the oblique spacing bar with the rear leg. The contribution of this construction lies in the effort to achieve rigidity through an optimal training solution and not through the robustness of each piece of the structure. This effort, however, is reflected negatively in the minimum variability of the structure. For example, connecting the front foot directly to the locking section of the carrier profile with the oblique spacing bar makes it very difficult, in practice almost eliminates, the possibility of changing the position of the construction according to the rough terrain. As far as the above-mentioned deficiencies of the known structures are concerned, in the current situation, the most perfect structure is the solar system carrier according to the Czech utility model No.19791. This structure, as well as a series of load-bearing structures known in advance, is composed of a oblique beam, which is joined with the front leg, and by means of the vertical and oblique spacing bars simultaneously and with the rear leg, and which supports the elements of the longitudinal beams of the solar panels. A new element of the solution, however, consists in the fact that the oblique beam is in the lower part directly joined and dismountable with the front leg body, while its upper part is detachably joined with the naked body of the rear leg by means of the vertical spacing bar. This joint area is then interconnected by means of the oblique beam oblique beam in the place above the oblique beam joint area with the anterior foot. The oblique beams can also be fastened by interconnecting the oblique spacing bar through the center spacing bar. This oblique beam is furthermore made of open profile C, the anterior leg and the rear leg are formed of hollow bodies, especially in the form of tubes. The oblique and possibly vertical skirt and the center spacing bar are advantageously made from hollow profiles. the removable joint of the oblique beam with the front leg can then be advantageously made of 2

RO 2012 00057 U1 an open base C-shaped body, in the groove of which there is a return screw, movable in the direction of the oblique beam orientation. in the case of the structure according to the Czech utility model no. 19791 it is mentioned that due to the unique joining of the oblique beams directly to the front foot (outside any stiffening spacer), it is possible to base the structure so that the effect of the rough terrain is totally eliminated. in practice, however, it is shown that this declared variability does not always have to be sufficient, and even with this structure, rough terrain can cause problems. This is due to the fact that besides the removable joints of some components of the structure, solid joints (Fixed) are also used in other components. Another disadvantage of this solution is that the elements of the solid (non-demountable) structure must be delivered and transported assembled, which requires larger spaces for transportation.

Exposure of the invention

Summary of the invention

Removing the aforementioned deficiencies contributes to the mounting structure of the solar system according to the invention. The essence of the invention consists in the fact that this structure is made up of the oblique bead which is removably joined by a rear articulated rear leg attached to the rear collar and by an anterior articulated link with the front leg fixed to the front collar. At the same time, the anterior articulated link is coupled with the rear collar via the adjustable length bar. the coupling of the spacer bar with the rear collar is advantageously provided by the removable brace.

The oblique beams, the rear leg and the front leg of the removable load-bearing structure are advantageously formed from hollow profiles, and the length adjustable spacing bar of a pair of hollowed and length-adjustable profiles.

On the upper side of the oblique beams are advantageously attached the load-bearing profiles with the C-shaped section.

The hinged joints may advantageously be formed from flat holes provided with clamps fixed to the underside of the oblique beams which are removably joined by screws with the orifices provided on the ends of the front leg 3

RO 2012 00057 U1 of the posterior foot.

Attaching the rear foot to the rear collar and / or attaching the front foot to the front collar is height-adjustable.

The main contribution of the bearing structure of the solar system according to the invention consists in the fact that it is fully solved as a mounting structure in which the joining of the building elements is realized with removable articulated connections. This allows, on the one hand, maximum installation variability of the structure, with the possibility of adapting to the most demanding lands, and on the other hand, an easy and space-free transportation of the structure, completely disassembled, with the possibility installation at the installation site itself.

Explanations drawings

In order to clarify the essence of the invention, the attached drawings are illustrated, which are: FIG. 1 is a schematic diagram of the mounting structure of the solar system according to the invention; 2 - details of the detachable articulated link.

Example of achievement

The load-bearing structure for a solar system as an embodiment (see Figure 1) consists of the oblique beam 1 which is removably coupled by the rear articulated link 9 with the rear leg 3 fixed to the rear collar 6 and the articulated link the front 8 with the front leg 4 fixed to the front collar 7. The anterior articulated link 8 is simultaneously removably coupled to the rear collar 6 by means of the adjustable length bar 5. The engagement of the spacer bar 5 with the rear collar 6 is achieved by removable bracelets 10.

The oblique beams 1, the rear leg 3 and the front leg 4 are formed of hollow profiles and the length adjustable spacing bar 5 is formed by a pair of hollowed and length-adjustable profiles.

On the upper side of the oblique beams 1 the carrier profiles 2 with the C-shaped section are then attached.

The articulated links, the anterior articulated link 8 (see details in Figure 4

IV RO 2012 00057 U1 2) and the rear articulated link 9 are formed by flat holes provided with clamps fixed to the underside of the oblique beams 1 which are removably connected by screws with the orifices provided on the ends of the foot 3 of the foot posterior 4.

The rear footrest clips 3 on the rear collar 6 and the front footrest fasteners 4 on the front collar are adjustable in height. 5

Claims (7)

A bridging structure for a solar system, characterized in that it consists of an oblique beam (1) which is removably connected by a rear articulated connection (9) to the rear leg (3) ), fastened to the rear collar (6) and by an anterior articulated connection (8) with the front leg (4) fastened to the front collar (7), the articulated link (8) the rear collar (6) by means of a length adjustable spacing bar (5). A mounting structure according to claim 1, characterized in that the coupling of the spacer bar (5) with the rear collar (6) is realized by means of a removable brace (10). Mounting structure according to claim 1, characterized in that the oblique beams (1), the rear leg (3) and the front leg (4) are formed of hollow profiles. A mountable load-bearing structure according to claim 1, characterized in that the coupling of the spacer bar (5) is formed by a pair of hollow profiles and fixed in length. 5. A mounting structure according to claim 1, characterized in that the support profiles (2) with the C-shaped cross-section are fixed to the upper side of the oblique beams (1). A mounting structure according to claim 1, characterized in that the articulated links (8, 9) are formed by flat holes provided with clamps fixed to the lower side of the oblique beams (1), which are removably connected by screws with the holes provided on the front legs (3) and the rear leg (4), respectively. 7. A mounting structure according to claim 1, characterized in that the fixing of the foot (3) to the rear collar (6) and / or the fixing of the front leg (4) to the front collar (7) are adjustable in height. 7