BR202019010877U2 - CONSTRUCTIVE ARRANGEMENT INTRODUCED IN LOCKING AND SEALING PROFILE FOR CONSTRUCTIVE ELEMENTS - Google Patents

Abstract

the present utility model refers to a profile (100) comprising a support and sealing region (110), a flow region and (120) and a locking and sealing region (130), whose set of edges (111 , 121, 122, 123, 112, 131, 132) forms a watertight cradle for photovoltaic elements (f), in which the edges (121, 122, 123) of the flow region (120) form a chute for the flow of fluids .

Description

CONSTRUCTIVE ARRANGEMENT INTRODUCED IN LOCKING AND SEALING PROFILE FOR CONSTRUCTIVE ELEMENTS Application field

[001] The present utility model belongs to the field of mechanical engineering, notably of building elements, and electrical engineering, notably support structures, especially support for photovoltaic modules.

Introduction

[002] The present utility model refers to a locking and tightness profile intended for fixing photovoltaic panels to compose different construction elements.

State of the art

[003] There are different profiles for fixing photovoltaic panels and the like, for example, the profile described by patent document number BR 10 2015 003368 0, which reveals a profile for fixing a photovoltaic system that comprises an upper wall with a rail primary with primary cavity, a side wall with a secondary rail with secondary cavity; a lower wall; and removable means for closing the free ends of the upper and lower walls in order to define an internal channel in the central region between the upper, lateral, lower walls and the removable means. The profile proposed by BR 10 2015 003368 0, however, does not guarantee the watertightness of the assembled set, as it does not have an adequate shape to allow the sealing, much less the flow of water from rain or weather and even maintenance and washing procedures. . In addition, its construction does not optimize material distribution and is costly in terms of manufacturing.

[004] Another example of the state of the art of nature profiles treated here is represented by the patent document CN202839668, which reveals and describes a structure of a rail for fixing the solar panel, which comprises a rail formed by a profile of variable length, where the track is provided with two accommodation spaces whose openings are facing the top and the side respectively. An accommodation cavity is formed externally in the side wall, so that the cabling of the solar panel can be placed in that accommodation cavity and closed, being prevented from being exposed to a severe external environment. As in the previous example, the profile revealed by document CN202839668 also does not guarantee the watertightness of the assembled set due to its shape and is also not concerned with water drainage. In addition, while increasing the safety of the cabling, its construction is complex, which costs its manufacture and material costs.

[005] There is, therefore, space for an improved constructive arrangement introduced in a locking and tightness profile for fixing photovoltaic panels and composing a watertight constructive structure.

Objectives of the utility model

[006] The purpose of the present utility model is to provide a constructive arrangement according to the characteristics of the independent claim number 1 of the attached claim table.

Brief description of the figures

[007] For a better understanding and visualization of the object of the present utility model, it will now be described with reference to the attached figures, representing the functional improvement obtained, in which, schematically:
Figure 1: shows a frontal view of a profile according to the utility model, highlighting the support and tightness region;
Figure 2: shows another front view of a profile according to the utility model, highlighting the flow region;
Figure 3: shows another front view of a profile according to the utility model, highlighting the locking and tightness region;
Figure 4: shows a front view of a profile according to the utility model, detailing the edges and surfaces;
Figure 5: shows a front view of two profiles according to the utility model;
Figure 6: shows a side view of a profile according to the utility model;
Figure 7: shows a front view of a photovoltaic element mounted between two profiles according to the utility model; and
Figure 8: shows a front view of two photovoltaic elements mounted between profiles according to the utility model.

Detailed description of the utility model

• (i) Uma região de suporte e estanqueidade (110);
• (ii) Uma região de escoamento (120); e
• (iii) Uma região de travamento e estanqueidade (130).

[008] The attached figures show a profile (100) according to the utility model, which comprises:

• (i) A support and tightness region (110);
• (ii) A flow region (120); and
• (iii) A locking and tightness region (130).

[009] The support and tightness region (110) comprises two support edges (111, 112) that form support faces to support and eventually fix at least one element to be supported. The support and tightness region (110), therefore, limits the downward vertical movement of the element to be supported.

[010] Opposite faces (111a, 112a) can also serve to fix other elements or simply serve to fix the profile (100) to a substrate (S).

[011] The flow region (120) comprises a first vertical edge (121), a bottom edge (122) and a second vertical edge (123) that together form a three-sided chute for the flow of fluids that eventually need to be disposed of. Each of the opposite faces (121a, 122a, 123a) can serve to fix other elements or they can simply serve to fix the profile (100) to a substrate (S), the opposite face of background (122a) being especially suitable to serve interface between the profile (100) and the substrate (S). The flow region (120) therefore limits the vertical downward movement of the entire profile (100).

[012] The locking and tightness region (130) comprises a vertical edge (131) and a top edge (132), which, together with the second supporting edge (111, 112), form a frame or clamp to accommodate the element to be supported. The locking and tightness region (130), therefore, limits the upward vertical movement and the horizontal movement of the element to be supported.

[013] Its opposite vertical face (131a) can also serve to fix other elements or it can simply serve to fix the profile (100) to a substrate (S), but, especially, it serves to fix a profile (100) to a second profile (100), by joining their opposite vertical faces (131a).

[014] The opposite top face (132a) can also serve to fix other elements or simply serve to fix the profile (100) to a substrate (S).

[015] For purposes of definition, an element to be supported according to the present utility model can be a photovoltaic element (F) and / or a structural element and / or a support element or the like, alone or in combination , including sheets, tiles, plates, floors and other suitable elements.

[016] A substrate (S) according to the present utility model can be any substrate suitable for the application, having characteristics compatible with the fixing means, mass (weight) to be supported, materials used (for example, to prevent corrosion galvanic) and other application conditions, which may be, but not limited to, a floor, a slab, a frame, a ceiling, an armed structure, in short, any substrate suitable for profiles (100) of the nature described here.

[017] Fixing means according to the utility model are suitable means for application, for example, but not limited to glues, adhesives, screws, nails, clamps, weld, rivets and other means suitable for profiles (100) nature described here.

[018] The profile material (100) formed by the set of edges (111, 121, 122, 123, 112, 131, 132) can be any suitable material, preferably light and suitable for the application, including, but not limited to metal sheets, plastic sheets, extruded, injected, sintered or forged metals, extruded or injected thermoplastics, elastomers in general and any other suitable materials such as metal and / or aluminum profiles and / or their alloys, alone or together.

[019] The length or longitudinal measure of a profile (100) has no limitations.

[020] The first supporting edge (111) and the second supporting edge (112) have a width or transversal measure such that the second supporting edge (112) has a width that corresponds to a value between 0.5 and 2 times, preferably 1 times the width of the first supporting edge (111).

[021] The edges (121, 122, 123) of the flow region have a width or transversal measure such that they are preferably equal. However, the vertical edges (121, 123) can have a measurement such that it corresponds to a value between 1 and 2 times, preferably 1.1 times the width of the bottom edge (122).

[022] The top edge (132) of the locking and tightness region (130) has a width or transversal measure such that it corresponds to a value between 0.5 and 2 times, preferably 1 time the width of the first supporting edge ( 111) and no less than a measure equivalent to a value between 20 and 40%, preferably 30% of the vertical edge (131), which, in turn, must be of a size appropriate to the height or thickness of the element to be supported, for example, at the height of a photovoltaic element (F).

[023] Therefore, the set of edges (111, 121, 122, 123, 112, 131, 132) forms a watertight cradle for photovoltaic elements (F) which, in addition, has a lower rail formed by the faces (121, 122 , 123) of the flow region (120).

Final considerations

[024] It is evident that the measures and relationships between measures described for the present constructive arrangement may vary according to the dimensioning of the profile (100).

[025] Exhaustive practical tests, however, have shown that these dimensions and their relationships are highly efficient and effective in the safety and practicality provided by the profile (100).

[026] In addition, the constructive disposition of the present utility model and the referred measures and their relations, are highly reliable and reproducible.

Conclusion

[027] As can be inferred from the description above, the constructive disposition according to the present utility model surpasses the state of the art solutions, being an object of practical use, perfectly susceptible to industrial application, which presents a new disposition, involving inventive act and resulting in functional improvement in its use.

Claims (1)

Constructive arrangement introduced in locking and tightness profile for construction elements, in which said profile (100) is characterized by comprising

• (i) a support and tightness region (110),
• (ii) a flow region (120) and
• (iii) a locking and sealing region (130), whose set of edges (111, 121, 122, 123, 112, 131, 132) forms a watertight cradle for photovoltaic elements (F), in which the edges (121, 122, 123) of the flow region (120) form a chute for the flow of fluids.

Images