FR2898144A1 - Hexahedral structure for forming living place, has universal and assisting connectors for assembling tubes with specific length and made of stainless steel, and heavy bolt for assembling large section tube part on small section tube - Google Patents

Abstract

The structure has an universal connector and an assisting connector (7) for assembling metal tubes with a length of 3 meters and made of stainless steel 316L, where the connectors are formed in a section of the tubes so as to receive the tubes. The assisting connector has a small section tube part welded on a large section tube and pierced with four holes, and a large section tube part with a window. A heavy bolt (13) assembles the large section tube part on a small section tube.

Description

The present invention relates to a hexahedral structure capable of stopping

  the heat of the sun including zenithal, to stop the horizontal wind, to stop the diagonal rain, while letting in the light, the look, and the air. The present invention represents an improvement to blinds, curtains and screens for sunscreen, windscreen screens, particularly patents filed with the INPI under number 05 11429, 06 01023, 06 01738. Everyone wants to have a house in the open air, a house in the country, a house in the south, a house in the sun. But arrived on the spot everyone notices the inconvenience, not to mention the nuisance of the rain in the country houses, the nuisance of the wind in the houses in the open air, the nuisance of the sun in the houses in the south, when many of these nuisances are not to be deplored at the same time. For example, sun and wind of the mistral, rain and wind of noroît. To protect themselves from these nuisances, solutions already exist, but they all have disadvantages: We build a covered terrace, and we are in the shade, and we see nothing through the walls imposed to protect the wind, and it's too hot under the tiled roof. We build a veranda, and we get too hot when there is a bit of sun, and we have the feeling of choking behind the tight windows. And all these solutions are expensive, long to implement, require administrative permissions often refused, and of course can not be carried with the next move. We know windbreak screens that do not provide protection against the sun. Horizontal sun shades are known which do not withstand the wind and provide no protection against wind or protection against driving rain. None of the current protections provides enough protection against the inseparable nuisances of the house in the countryside, the sun, the outdoors, dream of 30 all. The structure according to the invention offers the completely new characteristic of being able to build a living surface in which one is protected from the heat even of the full sun, in which one is sheltered from the rain, sheltered from the winds even violent, and this without being in the shade, without being behind an opaque wall hiding the landscape, while letting the light through, while letting the fresh air of the countryside pass.

  And this for a very, very affordable price compared to existing solutions through the use of standard elements of the trade, and this in a near immediate time, and this without any maintenance or any fastidious size and this with a pleasant esthetics, and this without random and often annoying administrative permissions. The structure according to the invention makes it possible to remedy all these drawbacks:> and this without building permit, without foundations, without civil engineering, without tiling, without specialized personnel, without delays, without competition, with a perfectly modular system, adaptable to All dimensions According to a first feature of the invention, the structure shown allows to wear horizontal or inclined flexible screens to protect themselves from the sun, to wear vertical screens in the four cardinal directions to protect themselves from the wind, and even screens to protect themselves from the same beating rain. The existing canvases allow to protect the sun by letting the light and the eye, to protect themselves from the wind and rain and this without being opaque or completely waterproof. For this the structure according to the invention consists of frames in the form of parallelograms, consisting of pieces of tubes all of the same section and two lengths only connected together by only two types of connectors: universal connectors and articulated shoulder connectors.

  The structure according to the invention was chosen by using tubes which slide into other slightly larger tubes. For example 35 mm tubes outside sliding in tubes of 40 mm, 1.5 wall thickness. The tubes of the trade are all sold and delivered in length of 6 meters by the 25 merchants of materials and irons local. The structure according to the invention will therefore be all sub-multiple of 6 meters and preferably in length of 3 meters that can fit into all vans. The length of 6 meters is also the manufacturing length of all the extruded aluminum profiles 30, it is also a multiple of the size of the weavings of the cloths which are generally in 1 meter 50 and 3 meters. According to a particular embodiment, we use to build our hexahedral structures articulated shoulder connectors according to reference (7) of the attached diagram. These articulated shoulder connectors will transform the wind pushing forces into a weighing force towards the ground or will cause the pushing forces to change direction, this will in particular allow to obtain a vault effect to extend the length of the beam. horizontal superior without the presence of a vertical pole. In the particular embodiment, it is very interesting to ensure that all the legs of forces have the same length of 2 meters.

  The length of 2 meters is a sub-multiple of 6 meters, so there is no drop, on the other hand, there are no other special parts to provide, we have bars of 3 meters or bars of 2 meters, which is very nice and comfortable and simple for editing. Thus, according to the invention, one can build very large structures of protections against the sun, wind and rain by using no component that is longer than 3 meters. Indeed, lengths greater than 3 meters have many disadvantages and transport risks. According to a particular embodiment of the present invention, it will be used to make the frame of the structure of the square tube of 35 mm section in thickness 2 mm. To make the connectors we will use a square tube with a section of 40 mm and a thickness of 1.5 mm. Thus according to reference (5) of the attached diagram, it is found that the 35mm square tube outside slides perfectly inside a square tube 40 mm wall thickness 1.5. The attached diagram illustrates the composition of the articulated shoulder connector (7). We can see that this articulated connector is composed of a piece of tube of the big section on which one comes weld perpendicularly a piece of tube of the small section. In this welded piece we just drill 4 perpendicular holes 2 to 2.

  On this piece with 4 holes, we just put a piece of tube of the big section in which we opened a window. The piece of large section tube and the window tube are assembled by a large bolt (13) of the same section as all other bolts. This assembly makes it possible to obtain connectors capable of connecting two tubes in the same plane (7A) and also with the same parts to connect tubes in perpendicular planes. According to a particular characteristic of the present invention, it has been planned to make all the connectors buttressing. Regarding our universal connector reference (10) on our diagram attached, the connector is composed of pieces of square tubes of large section interconnected by buttresses all similar. The universal reference connector (10) of the attached diagram is thus composed of 3 reference buttresses (6) of the attached diagram, welded to pieces of tubes of the same length. The reference tubes (10 C), of our attached diagram, are all of the same length. This greatly facilitates mass production. The disadvantage of universal connectors is that they only allow connections perfectly online. However, for pipe connections that are not in the same angle, the universal reference connector (7) of the attached diagram, allows to perform all the functions that one wishes. Indeed, the articulated shoulder connector is sliding, its large fixed part in 40 mm tube slides very easily on the inner tube. This allows a very easy assembly of the legs of forces that one wants to constitute. The advantage of this articulated shoulder connector is that it allows all connections whatever the angles and lengths to be connected together.

  This feature of the present invention is that it allows for legs of forces to strengthen the horizontal beam of a pergola by removing the central vertical carrier pole which allows to have a large entrance without central post. If one wishes to remove the tube at the center of a large structure without a central post, it is possible to fix vine posts in the universal connector; these vine posts will simply sink into the crossed soil. On concrete or solid structures, it will also be possible to use large pegs that prevent the universal connectors from moving. One of the features of the present invention is that all guy lines capable of retaining the poles supporting the webs receiving the thrust of the wind have been removed. For this purpose the reference force legs (8), of our attached diagram, transform the horizontal thrust into vertical weighing. This weighing is applied on the ground support bars. These ground grab bars can have any desired lengths. Generally, we use 3 meter grab bars with a range of 1 meter on the side where the wind comes from and a range of 2 meters with the wind back. The system according to the invention also makes it possible to put larger ground support bars and even to use 3-meter force legs for 3-meter posts, which makes it possible to withstand the most violent winds. .

  One of the features of the present invention is that all the components are assembled together by simply clamping the outside of the inner tubes of 35 mm section for example against the inside of the outer tubes of 40 mm section constituting the connectors. This tightening is performed by large reference bolts (13) installed in the center of the output of the connector. The output of the connectors will be 80 mm (2 times 40 mm) for a 40 mm tube and this so as to have the best distribution of pressure forces through an angle of 90. In order to facilitate the assembly and in the context of the present invention, a single diameter of bolts will be used, for example 16 mm for 35/40 mm tube. The disproportionate size of this bolt offers the following advantages: - The large diameter bolt exerts a pushing force on the inner tube while a bolt of much smaller diameter could cause breakthrough work. - The use of a very large bolt requires the use of a very large key which has the consequence that even insufficient effort on the part of the fitter will always cause sufficient effort to ensure a good tightening. While with a small key, insufficient effort will not bring the minimum tightening. the use of a bolt of large diameter is that it determines the use of a large nut; this large nut (24 mm for a 16 mm bolt) is much easier to weld than a bolt of smaller section. The attachment surface of a large bolt is therefore greater on the tube which determines a better quality of the bolt hanging on tube so a better quality of fixing the set.

  According to one particular characteristic of the invention, it can be seen that the hexahedral structure can be transformed into a complex structure, for example simply a series of windbreak panels or a series of windbreak panels associated with one or two pergolas or a series of windbreaks in different directions to follow the contours of a garden not necessarily rectangular.

  The structure according to the invention is particularly intended for the realization of outdoor living volumes in which one can be sheltered from the sun, wind and rain and this for a very interesting price.

Claims (6)

  : 1 / Hexahedral structures designed to stop the heat of the sun, including zenith, to stop the horizontal wind, to stop the most diagonal, while letting the light, the gaze, and letting the air through, and this, thanks to different fabrics carried by parallelepipedic structures characterized in that these structures are composed of only 2 lengths of commercial metal tubes assembled together by only two connectors, a universal connector and an articulated shoulder connector, connectors made in the section of tube allowing them just to receive the tubes of the structure itself which can slide there easily (5). 2 / hexahedral structures according to claim 1 / characterized in that one uses to build entirely a single length of tubes 3 meters (2) in multiple of 6 meters bars delivered by all merchants materials or irons. In addition, the length of 6 meters is the manufacturing length of all extruded aluminum profiles. The dimension of 6 meters is also a multiple of the weaving dimension of the canvases which are generally in 1 meter 50 and 3 meters. 3 / hexahedral structures according to claim 1 / characterized in that one uses for their construction the articulated shoulder connector (7) for transforming the forces of wind thrust into the weighing force towards the ground (6). Thanks to the legs of forces all the same length of 2 meters (3), in multiple of the bars of 6 meters delivered by all the merchants of materials or irons. 4 / hexahedral structures according to the preceding claims, characterized in that one uses to build any component of a length greater than 3 meters (4). 5 / hexahedral structures according to the preceding claims, characterized in that is used for example for frames a square metal tube of 35 mm section thickness of 2 mm which slides easily (5) in the connectors made of square tubes of 40 mm in 1.5 mm wall thickness. 6 / hexahedral structures according to the preceding claims, characterized in that the articulated shoulder connectors (7) are composed on the one hand of a tube of the large section, for example 40 mm on which is welded a piece of tube of the small section in which one drilled 4 perpendicular holes 2 to 2 and another piece of tube of big section in which one opened a window. The window tube is assembled on the small section tube by a large bolt (13) of the same section as all other bolts. When we want a connector to connect tubes in the same plane, we assemble the window tube in the direction of the main tube (7A). When a perpendicular connection is desired, the window tube is assembled perpendicular to the main tube (7B) 7 / Hexahedral structures according to the preceding claims, characterized in that all the connectors work in abutment so as to change the thrust forces in weighing force (6), whether on the universal connectors (10) in which all the buttresses are similar and cut at 45 degrees, or on the struts (8) on which the length of tube to be used can to be adapted (8). 8 / Hexahedral structures according to the preceding claims, characterized in that the connections of components in an angle of 90 degrees are achieved through articulated shoulder connectors (7) which can slide on the tubes to which the connection is to be made (7C) ; this feature greatly facilitates the assembly of a tube length that may be different depending on the requested function. 9 / hexahedral structures according to the preceding claims, characterized in that the struts intended to transform the horizontal thrusts into vertical thrusts may be of any length depending on the transformation of the expected effort or the aesthetic concerns expected, being admitted that the length of two meters is appropriate in the majority of cases. 10 / hexahedral structures according to the preceding claims, characterized in that the struts and the connectors are used to remove the central vertical carrier pole which allows to have a large input. For this, we install two struts (9) in support of the top bar of the structure that will prevent the top bar to bend. The same force bars (9) and (8A) make it possible to eliminate the annoying central tube in large dimensions. In this case we can strengthen the ground resistance. 11 / hexahedral structures according to the preceding claims, characterized in that all the perpendicular tubes of the structure are interconnected by a single model of universal connectors (10A) connected by buttresses all similar (6) consisting of 3 lengths of similar outer tubes (10C) and these universal connectors allow to realize all parallelepiped versions in multiples of 3 meters: 3x3 meters, 3x6 meters, 9x12 meters, etc ... 12 / Hexahedral structures according to the preceding claims for working under pressure of the wind, to be protected from the sun, from the rain, characterized in that the forces of wind thrusts are supported by ground support bars (11) of the same dimension as all sides of the structure (11A ) and that the outgoing portion of the universal connector (10) can be distributed according to the strengths of the strongest winds. This arrangement also allows to install a strut on each side of the vertical post (11B + 11A) if we fear winds on both sides (Mistal // Marin). 13 / hexahedral structures according to the preceding claims for protection from wind, sun, rain, characterized in that all the assemblies of all components are made by simply clamping the outside of the inner tubes of small section, 35 mm for example, used to build the structure against the inside of the outer tube, 40 mm for example, constituting all the connectors. 14 / hexahedral structures according to the preceding claims characterized in that all assemblies of all components are made through large bolts (13) which are installed in the center of an output of the connectors which will be: each side 10 times the section of the tube. Thus, the bearing length of the inner tube on the outer tube will be 80 mm (13) so with an angle of 90 degrees. One single dimension, for example 16 mm, will be used for all the tightenings envisaged over the entire structure. The use of a disproportionate bolt size (13) is claimed because this very large bolt size requires the use of a very large wrench that determines a strong clamping even if the negligent fitter does not tighten much head of his screw. In addition, the application surface of the force of the tip of the bolt will be greater and thus the thrust force of the screw will not be a breakthrough effort, which would be the case with a bolt of small diameter. The use of a disproportionately sized bolt is claimed because it determines the use of a very large nut that is easier to weld on the very thin wall of the connector tube. 15 / hexahedral structures according to the preceding claims characterized in that it can be content to reduce it to a flat structure or composed of several successive and non-aligned planes so as to constitute a simple windbreak in several directions both for follow the outline of a non-rectangular property or to protect against wind coming from several directions. Thanks to the components according to the present invention can even be formed side by side windbreak then a pergola and another windbreak in another direction. 16 / hexahedral structures according to the preceding claims for simultaneously stopping the heat of the sun, wind and rain characterized in that they are entirely made of 316 L stainless steel tube so as to be able to withstand the corrosion not only of the edge of sea, but also to the corrosion of soil loaded with fertilizer. 1.0 15 20 25 30 3. 5