GR1009575B - Self-ventilated pergola furnished with parallel beams - Google Patents

Abstract

Novelty: a self-ventilated pergola composed of the beams 2 wherein fit the polycarbonic sheets 1 via the connection base 3 and the connecting and holding support 4. The other side of said beams are supported on a column via the beam’s casing 6. The connection base 3 is adapted between the beams 2 and creates a top void space receiving the supporting and holding connector 4 of the sheets 1. The sheets 1 are set in parallel disposition and leave a void space for the air to pass through while impeding the water passage due to the presence of the supporting and holding connector 4; these sheets 1 are set in parallel to the beam 2 and at constant distance with respect to the width of said sheets. A sealing plug 5 is placed at the upper end of the supporting and holding connector 4. Purpose: to simultaneously provide water tightness, sun shading, natural lighting and aeration.

Description

DESCRIPTION

Pergola of parallel beams self-ventilating

The invention refers to a pergola which consists of columns and beams on which sheets (1) of polycarbonate are fitted with adjustment, so as to provide self-ventilation and protection from the rain. The beams (2) are placed opposite each other, have a square, rectangular or round shape, with recesses in which the connection base (3) is placed.

The other side of the beams can be supported with a column through a beam holder (6). Between the beams (2) is fitted the connection base (3) which creates a gap at the top so as to receive the supporting and holding joint (4) of the sheets (1) of polycarbonate as one end holds the sheet (1) polycarbonate while its other end receives the same shaped sheet (1) of polycarbonate by snapping.

The support and retention link (4) of those connected to the schematic node - with the connection base (3) are placed together and at fixed distances every 600mm, which are related to the length of the beams (2) and by extension the sheets (1) ) of polycarbonate.

The sheets (1) are parallel to each other, are horizontal or inclined according to the placement of the beams (2), leave a gap between them and are placed parallel to the beam (2) with a fixed distance that is related to the width of the leaves (1). The fixed distance allows a space parallel to each other as wide as the width of the body of the supporting and retaining link (4) while at the same time it has an opposite semi-circular end so that they create due to the schematic connection between them, a space so that air can penetrate while at the same time do not pass water.

The connection base (3) consists of solid aluminum profiles with a cross-section of 11 mm x 38 mm each, in a cross (T) configuration (3) with a maximum opening of 24 mm x 38 mm and a length of 50 mm. The two beam profiles (2) are connected to each other through the connection base (3) so that they form a single support beam with a total cross-section of 50 mm x 40 mm. The connection base (3) is placed every 600 mm. The total length of the beam is 6.00 meters with the possibility of extension to a multiple length. On each solid aluminum cruciform joint (T) (3) is placed the curved T support and retaining joint (4) of maximum dimensions 54 mm x 40 mm x 11 mm which holds the solid polycarbonate cover sheets (1) through the corner slot which he possesses. The solid polycarbonate cover sheet (1) has a thickness of 1mm to 6mm, a width of 50mm to 800mm and an inverted P shape with the turn at the edges being 28mm high. The length of the solid polycarbonate cover sheets (1) is 6.00 meters and they are placed parallel to and on either side of the curved T-shaped support and retention joint (4) which holds them on the beams (2). Solid polycarbonate cover sheets (1) are made of almost unbreakable polycarbonate which is 250 times stronger than glass of equivalent thickness.

It combines excellent mechanical impact resistance, acoustic insulation and high clarity and sharpness which makes it excellent in demanding applications. Due to the double-sided protection against UV radiation it has, it does not allow the penetration of UV radiation into the coverage area. A 40mm wide U-shaped sealing cap (5) is placed at the upper end of the convex T-shaped support and retention link (4) which has a slot.

The natural ventilation of the installation space is achieved by the gaps of 600mm each between the parallel facing connecting beams (2) throughout the length between the double cladding while depending on the number and color of the polycarbonate sheets (1) the desired percentage of natural lighting is ensured / shading. The whole structure is held together with joists (6) or aluminum corner connectors (foil).

The invention is shown in the following drawings. Drawing 1 shows the solid polycarbonate cover sheet while drawing 2 shows the two beam profiles. Drawing 3 shows the cross-shaped connection base, while drawing 4 shows the curved T-shaped supporting and holding joint. Drawing 5 shows the U-shaped sealing cap, while drawing 6 shows the beam holder that holds the structure. Drawing 7 shows the assembly of the various parts that make up the self-ventilating pergola of parallel beams.

An advantage of the present invention due to the gaps of 600mm each between the beams (2) along the entire length is the natural ventilation of the installation area and ensuring the desired percentage of natural lighting / shading. It provides tightness with simultaneous shading, natural lighting and ventilation. Protects from the intense heat caused by sunlight with protection from UV radiation and ozone from the sun's reflection. It saves energy resources by reducing energy costs while at the same time creating a pleasant and functional space.

Claims (10)

1. The self-ventilating pergola of parallel beams consists of beams (2), which are square, round or rectangular in shape with recesses in which the connection base (3) is placed, which creates a gap in the upper part that receives the support and retention joint (4), which has a mounting slot for a waterproofing cover (5), of the sheets (1) of polycarbonate as one end holds the sheet (1) while its other end snaps on the sheet (1) of the same shape, allowing the self-ventilating pergola to be in continuous ventilation with simultaneous rain protection, to provide sufficient support to the leaves (1) and an improved aesthetic appearance. 2. The self-ventilating pergola of parallel beams according to claim 1 is characterized in that the beams (2) have recesses in which the connecting base (3) is placed. 3. The self-ventilating pergola of parallel beams according to claim 1 is characterized in that the connecting base (3) creates a gap in the upper part which receives the support and holding joint (4). 4. The self-ventilating parallel beam pergola according to claim 1 and 3 is characterized in that the support and retaining joint (4) has a slot for fitting a sealing cap (5). 5. The self-ventilating pergola of parallel beams according to claim 1 and 3 is characterized in that the supporting and retaining joint (4) has an opposite semi-circular end creating a gap between the sheets (1) so that air can pass through while at the same time water cannot pass through. 6. The self-ventilating pergola of parallel beams according to claim 1 is characterized in that the leaves (1) are in a parallel position to each other, are horizontal or inclined according to the placement of the beams (2), leave a gap between them and are placed parallel on the beam (2) with a fixed distance which is related to the width of the leaves (1). 7. The self-ventilating pergola of parallel beams according to claim 1, 2 and 3 is characterized in that the connecting base (3) consists of a solid aluminum profile, with a cross-shaped configuration (T) connecting the two beam profiles (2) and forming a single support beam. 8. The self-ventilating pergola of parallel beams according to claim 1, 2 and 3 is characterized in that on each solid cross-shaped aluminum joint (t) (3) is placed the support and retaining joint of convex T shape (4) which holds the solid polycarbonate cover sheets (1) through the corner slot it has. 9. The self-ventilating pergola of parallel beams according to claim 1, 2, 3 and 4 is characterized in that the natural ventilation of the installation space is achieved by the gaps between the parallel facing link beams (2) along the length between the double webbing while with carbon sheets (1) it is also ensured. 10. The self-ventilating pergola is also equipped with joists (6) or corner connectors depending on the number and color of the desired percentage of natural lighting / shade¬ n beams according to claim 1 compared to aluminum (plating).