FR2869080A1 - Assembling and fixation system for structure e.g. veranda, has semi-clamps forming complete clamp after mounting and tightened on construction structures by rotating cams in holes provided on semi-clamps that have lugs or embossings - Google Patents

Abstract

The system has semi-clamps (1, 1a) for assembling and fixation on a tubular structure (7). The semi-clamps form a complete clamp after mounting and tightening on construction structures for their assembling and fixation. The semi-clamps are tightened on the structures by rotating cams in holes provided on the semi-clamps to approximately 90 degrees. The clamps have diametrically opposite lugs or embossings.

Description

2869080 -1-

  The present invention relates to a system for assembling and fast fastening by cams or eccentric, to easily construct and modify structures for extremely diverse uses such as: verandas, greenhouses, shelters, sunshades, furniture, shelves, stands, displays, coat hangers, flower pot holders or other, versatile supports for frames, panels, etc ... Each realization remains transformable as needed, without obligation of complete disassembly. They are elements of assembly and fixing ensuring the junctions of bars of modular constructions (structures). They also play the role of supports for all accessories completing the said constructions.

  The assembly elements existing at the current state of the art have very different designs: fastening screws on the structures, or clamping on structures, but also by screw and hinge possible. There are also rotational clamping of a cotter pin, but this pin tends a flexible collar over the fasteners to tighten them on the structures. They are in no way comparable to the system that is the subject of the present invention.

  The assembly elements object of the present invention, have more or less the form of collars adapting to the structures, and are composed of one or two, or x parts constituting an assembly assembly. In most cases, the structures consist of metal or plastic tubes, or massive wooden rods and rods, or any other materials. The assembly system object of the present invention, can adapt to all forms of structures; round bars or tubes, square or oval, or other. Each assembly assembly can be designed on the basic cam or eccentric principle in a single piece, but in this case the possible transformations are slower, because it is necessary to enter or leave the part in question, by an end of a structural element, possibly congested (insufficient opening of this part). The main interest of the system is to have at least two pieces (or x pieces according to needs). Indeed, in the current case of posts or structural sleepers already in place, the assembly and fixing parts in two, or x elements fit anywhere or without disassembly of other connections already made, which do not allow the passage and sliding of the new elements. This system allows the possibility to position freely, because it has no holes in the structures (dimensional positioning and even angular round structures). It should be noted that after assembly, it is always possible to make a safety fastening on the structures in case of heavy load. There would then be exceptionally bonding or drilling necklaces and structures, (fixing screws, rivets or other complements). The assembly and fastening elements object of the present invention can be obtained by plastic injection or other. They have holes or housing for cams, or eccentric immobilization.

  2869080 -2- These cams make it possible to instantly obtain a tight tension on the structures. These cams can be metallic, or plastic. In the manufacture of the elements, the principle consists in displacing the holes intended for the cams. When the elements are mounted but at rest not fixed, the corresponding holes are eccentric. To block the elements, the rotation of the cams refocuses the holes relative to each other, which strongly tends the elements, and strongly tighten on the structures. To facilitate understanding and illustrate a frequent case, the elements are represented in the various figures for round structures (often tubular). In the same spirit, assembling and fixing assemblies are represented in two elements, a typical case of use. of the system. It is obvious that in case of square structures, the holes and locking cams may be on the faces, or in the corners, etc. In addition, the shape of the holes must allow the easy introduction of the cams when the elements are at rest. The cams are of accessible shape for a wrench, which can be specific, monoblock or separate. The tightening is obtained by rotation of the or cams, rotation that is interesting to limit quarter turn (about 900), for the speed of execution. To ensure an exact rotation, and a blocking in the tight position, the holes may include a stop of rotation of the cams, which in this case have a well-marked oblong section rounded at the ends.

  The accompanying drawings illustrate the invention: FIGS. 1 and 2 (front view, seen from above) represent a half-collar (1) for assembly and fastening to a tubular structure (7) according to the invention. This demicollier (1) is shown opposite a second identical half-collar marked (1a) in rotation of 180 relative to the first. These half-collars have diametrically opposed lugs or bosses and are arranged so that they can be embedded as tenons and mortises for a strong mounting strength and good positioning; two on one side (3) at the bottom and (5) at the top, and a central opposite (4), where the assembly (4a) between (3 and 5) and (3a and 5a) of on both sides of (4). The bosses can be superimposed in larger numbers. The bosses of each half-collar comprise holes (2), and (2a) for the clamping carnes (9). These holes are slightly offset on the outside of the half-collars with respect to their axis, (axis of the structure 7). This offset is referenced (6). The bosses and holes therefore do not form hinges but could be designed as such, or partially for specific applications. The reference (8) may be an alignment allowance, with or without holes or housings for screw heads or other. Figure 3 details a hole (2) on a larger scale, to show the stop (12) for stopping cams in rotation. This stop secures the assembly. Figure 5 shows a cam section (9) on a larger scale too, The cams may include a lever for energetic clamping, or require a single key.

  On a larger scale, Figure 4 shows the holes (2) and (2a), when the collars are mounted at rest before tightening. The total eccentricity is twice the offset (6) or (6 ') between the axes (2') and (2a '). The axis (9a) is the axis of the cam (9). After tightening is the general axis. The eccentricity values depend on the basic materials (with or without elasticity). In the case of perfectly rigid materials, it is possible to compensate by flexible inserts between collars and structures (adhering clamping). Depending on the dimensional tolerances of the structures, the contact zone of the collars can be deformable (crush) when tightened. This zone allowing to accept dimensional differences can be reported or obtained in one piece, for example in molding necklaces. It is then a deformable profile under the clamping pressure (13) fig. 10, inside the collars (1). By way of example, the outside of these same collars (1) has been represented in this FIG. 10 with dovetail grooves (14) making it possible to snap all the elements of use of the system. that these elements have corresponding grooves. In all cases, the whole is positionnable at will on the structures. It is practical, fast and reliable for all modular buildings.

  The assembly and fixing elements may be bare (end-to-end connection of two tubes, structures, etc ...), Figures 1 and 2 thus represent simple half-collars. But they generally comprise legs or bosses, or various forms of junction (position, angle, number, etc ...), as well as holes, or other details allowing the desired uses and adaptations, in fact all constructions by structure links , and specific functions.

  By way of example: FIG. 6 represents a half-collar with a fixing soleplate, for fixing a structure (post) to the ground, to the wall, or the like, or to serve as a support for a plate or the like. FIG. 8 shows a half-square connection half-collar for two structural bars. This connection is made with two other single or specific half-collars. It could be oblique, longitudinally with respect to the half-base collar. Figure 9 shows the same type of link, but in duplicate. With two identical pieces for example, on a pole, we obtain four starts structures, generally 90. FIG. 7 shows a half-collar with soleplate parallel to the axis of structure, pierced or not, threaded or not, or having housings (10) and (11) for screw heads on the internal side (structural side). These parts allow to fix panels, or plates, or others. For example by using two identical parts can be made a closed double wall construction. In order not to be bothered at the corners of this construction with another wall at 90 of the first, it suffices to provide: either a wedge thickness between sole and panels to be fixed, so that the sole 90 can land without gene, either to use only asymmetrical shorter soles, (either side 10 only or side 11 only). This makes it possible to use another set of identical collars superimposed on the first on the structure, and oriented at 90 relative to the first. All these figures are only examples of use of the assembly system according to the invention. They are not limiting. These elements can be monoblocs according to figures, or reported.

  When an assembly system comprises only one cam, and if it is monobloc, are use is limited, because it can enter the structures only by their ends, (but it may be hinged to the opposite of the cam). The elements can also be in number greater than two, to form an assembly assembly possibly with polyvalent functions.

Claims (11)

-5-CLAIMS   Junction elements and support for fast-erecting modular constructions (1) Junction elements and support for modular quick-erect constructions, characterized by their designs in half-collars forming after mounting and clamping a complete collar on the structures of the construction for their assembly and their attachment.   2) Connecting elements and support for modular constructions quick assembly according to claim 1 characterized in that their clamping on the structures is obtained by the rotation of about 90 cams acting in housings provided for this purpose on the half collars .   3) Connecting elements and support for modular quick-erect constructions according to claim 1, characterized in that the collars can be equipped with any specific use accessories monobloc or reported such as: fastening soles, angular departures structures, supports fixing plates, panels or others.   4) junction elements and support for modular quick-erect constructions according to claim 2, characterized in that the housings for the cams are holes having an eccentration with respect to each other, between two elements or two parts d elements before clamping, this eccentricity being reduced to about zero by the action of cams clamping.   5) connecting elements and support for modular constructions fast assembly according to claims 2 and 4, characterized in that the holes of dimension approximately equal to the largest cam section dimension, have a particular shape, allowing the introduction of a cam and its rotation to a stop.   6) connecting elements and support for modular constructions fast assembly according to claims 2, 4 and 5, characterized in that the cams have an oblong section for traction action, thus clamping the collars on the structures by recentering the holes of the two elements or parts of elements concerned.   7) Connecting elements and support for modular constructions quick assembly according to claims 1, 2, 4, 5 and 6, characterized in that the elements of a junction assembly are generally two in number, so two half-collars with two cams, but may be constituted by a larger number possibly comprising a different number of cams. -6-CLAIMS   Junction elements and support for modular quick-erect constructions 8) connecting elements and support for modular constructions fast assembly according to claims 1, 2, 4, 5, 6 and 7 characterized in that they can be constituted by a single collar slightly open at rest, and whose holes are slightly eccentric for the same action of a single cam clamp.   9) Connecting elements and support for modular constructions fast assembly according to claims 1 and 2, characterized in that the system avoids drilling structures for screws, rivets or pins but accepts it as a complementary attachment after tightening and checking for very heavy loads.   10) Connecting elements and support for modular quick-erect constructions according to claims 1 and 2, characterized in that the cam quick-clamping system can, if desired, be used only on one side in the case of two half-collars, the opposite side being then modified and one of the two cams replaced by a pivot axis hinged with clamping by one side.   11) connecting elements and support for modular constructions fast assembly according to claims 1 and 2, characterized in that the bearing area of the collars on the structures may have a profile deformable superficially or comprise flexible elements monobloc or reported, for compensate for any dimensional deviations of the structures, and possibly increase the bonding adhesion.