WO2013150219A1 - Removable assembly device for profile members - Google Patents

Description

 Removable assembly device for profile elements

The invention relates to a dismountable assembly device for ensuring a mechanical connection of a first profile element to a peripheral framework consisting of at least one second profile element extending substantially transversely with respect to the first profile element. .

 This invention can notably find its application in the assembly of the rack elements used for storing and transporting bottles of liquefied petroleum gas, and in particular for assembling the side bars intended to enclose the bottles peripherally. This example is in no way limiting to the scope of the invention, which more broadly relates to the assembly based on profile elements of lightweight modular structures, such as verandas, tent frames, etc.

 The traditional devices for dismountable assembly of profile elements, in particular metal, between them are generally made by screwing by means of screw elements or screw-nut. It is necessary to ensure the individual tightening of each screw or nut to obtain good mechanical rigidity of the frame. In the case of a frame delivered in kit, the establishment of screws and nuts is long and often tedious and the assembly deteriorates rapidly during its assembling and frequent disassembly.

 Also known assembly pieces of complementary shapes, may be attached to the ends of each profile elements and intended to fit into one another by providing between them a recess for the establishment of a connecting member, such as wedge, key, etc. This type of mechanical connection is however relatively complex to implement.

Also, an object of the invention is to remedy at least in part the disadvantages set out above, by proposing an improved removable assembly device for profile elements between them, which is simple and quick to implement, while guaranteeing assembly and disassembly under satisfactory conditions. To this end, the device of the invention, moreover, conforming to the generic definition given in the preamble above, is essentially characterized in that it comprises a groove formed along an edge of the second profile element and a elastically deformable tenon arranged at one end of the first profile element and adapted to be housed at least partially in the groove in a locking position, the resiliently deformable pin being able to cooperate with an inner face of at least one side wall of the groove, defining a bearing surface against which the resiliently deformable tenon bears when it is accommodated in the groove in the locking position, in which the resiliently deformable pin is in compression against the at least one bearing surface , leading to a locking of the post in the throat by jamming effect.

 According to other advantageous features of the assembly device according to the invention, taken separately or in combination:

 in the blocking position, the elastically deformable post is taken in compression against two bearing surfaces, each formed by a lateral wall of the groove;

 in the blocking position, the end of the first profile element comprises an abutment surface opposite to the bearing surface relative to the resiliently deformable post and biased against the opposite side wall of the groove by the resiliently deformable post; ;

 - That the resiliently deformable pin is able to slide through the groove without interaction with the side walls thereof, in a first arrangement of the first profile element, and is adapted to be brought into the locking position during the passage from the first profile member of the first disposition to a second angularly offset arrangement with respect to the first disposition in a circular direction of rotational displacement of the first profile member about a longitudinal axis of the first profile member;

the first profile element undergoes a 90 ° rotation about its longitudinal axis during the passage from the first to the second disposition; the resiliently deformable pin comprises a cam-shaped head fixed to the end of the first profile element and extending in a plane perpendicular to the longitudinal axis of the first profile element;

 the elastically deformable pin is made of an elastomer material of rubber or polyurethane type;

 the resiliently deformable pin consists of at least one strip spring made of a metallic or composite material;

 the second profile element has a U-shaped section forming said groove.

 Other characteristics and advantages of the invention will emerge clearly from the description which is given hereinafter, by way of indication and in no way limitative, with reference to the appended drawings, in which:

 - Figures 1 and 1A respectively illustrate, schematically, a perspective view in section along the axis AA of Figure 1, a removable assembly device according to a first embodiment of the invention, in blocking configuration of the first profile element on the second profile element;

 FIGS. 2 and 2A respectively show, schematically, a perspective view in section along the axis BB of FIG. 2 of a demountable assembly device according to a second embodiment of the invention; in blocking configuration of the first profile element on the second profile element; and

 FIGS. 3 and 3A respectively show, schematically, a perspective view in section along the axis AA of FIG. 3 of a demountable assembly device according to a third embodiment of the invention; in an unblocked configuration of the first profile element on the second profile element;

 FIGS. 4 and 4A respectively show, schematically, a perspective view in section along the axis AA, of the third embodiment of the invention, in the locking configuration of the first profile element on the second element of FIG. profile.

The dismountable assembly device shown in the various figures comprises a first section element 10, presenting itself under the shape of a polygonal uniform section bar, for example rectangular or square, but can also be circular. This first profile element 10 is intended to be assembled on a frame comprising at least one second profile element 20, in an assembly configuration where the first and second profile elements 10 and 20 extend substantially transversely relative to one another. to the other,

 The first and second profile elements 10 and 20 may for example consist of metal profile elements, plastic or composite.

 According to the invention, the removable assembly of the first profile element 10 with at least the second profile element 20 is formed by means of a groove 21 with side walls 22 and 23, formed along an edge of the second section member 20, and a pin 12, arranged at one end 11 of the first profile member 10 and for penetrating the groove 21. The second section 20 constituting the frame has a U-shaped section forming the groove 21 in which is intended to be housed the stud 12. This groove 21 can accommodate the pin 12 in a locking position along the groove 21, thus making it possible to assemble between the two profile elements 10 and 20.

 In particular, the pin 12 is provided to be elastically deformable and has a shape adapted to the dimensions of the groove 21, allowing the pin 12 elastically deformable, when housed in the groove 21 in the locking position, to be taken in compression against at least one of the side walls 22, 23 of the groove, thus leading to a locking of the pin 12 in the groove 21 by jamming effect, thanks to the elasticity of the material in which the post is made 12. Preferably , the resiliently deformable pin 12 is made of elastomeric material, for example rubber or polyurethane. Alternatively, it may also be envisaged to make the pin 12 in the form of at least one strip spring sheet metal material or composite.

In the embodiment illustrated in Figures 1 and 1A, the elastically deformable pin 12 is in the form of a rubber piece having a parallelepiped shape, with an inner surface 121 and an outer surface 122. Alternatively, the windshield could present a crown shape. The resiliently deformable pin 12 is fixed at the level of the end 11 of the first profile element 10, so that the inner surface 121 is in contact with the outer periphery of the end 11 of the profile element 10, while the outer surface 122 is intended for come cooperate with an inner face of the side walls 22 and 23 of the groove 21, respectively 221 and 231, each defining a bearing surface against which bears the resiliently deformable tenon by its outer surface 122, when introduced in the groove 21. The assembly method according to this embodiment is as follows. The resiliently deformable pin 12 is first engaged by pressure in the groove 21 at a free end 24 of the groove 21, with elastic deformation thereof, and is forced into the groove 21 to the desired position, corresponding to the locking position, in which the resiliently deformable pin 12 is compressed between the bearing surfaces defined by the internal faces 221 and 231 of the lateral walls 22 and 23 of the groove 21, thus ensuring the mechanical connection by wedging between the two profile elements 10 and 20. The force sliding elastically deformable pin 12 in the groove 21, as illustrated by the vertical arrow pointing downwards in Figure 1, is for example made in striking the first profile element 10 using a suitable tool such as a mallet, for example, to bring the stud 12 resiliently deformable from the free end 24 of the groove 21 where it is introduced to the desired blocking position along the groove 21.

FIGS. 2 and 2A illustrate another embodiment of the dismountable assembly of the first profile element 10 on the second profile element 20. This embodiment differs from the previous embodiment by mounting the resiliently deformable pin 12 at the level of the second profile element 10. of the end 11 of the first profile element 10. According to this embodiment, the resiliently deformable post 12 is in the form of a rubber part comprising a body 123 of generally parallelepipedal shape and a lateral protrusion having a surface of 124. The resiliently deformable pin 12 is fixed laterally at the end 11 of the first profile element 10 so that the contact surface 124 is able to face one of the bearing surfaces formed by the faces. 221 and 231 of the side walls 22, 23 of the groove 21, when the tenon 12 In particular, the first profiled element 0 has a U-shaped section comprising two lateral wings 101, 102 connected substantially at right angles to an abutment surface 103 of the first profiled element. 10. The body 123 of the resiliently deformable post 12 is housed in the space between the two lateral wings 101 and 102, and is held in place between the lateral wings 101 and 102 by the elasticity of the material in which it is made, while that the contact surface 124 projects laterally towards the free ends of the lateral flanges 101 and 02, opposite and parallel to the abutment surface 103.

 The assembly method then consists in pressing the end Ί 1 of the first profiled element 10 equipped with the resiliently deformable stud 12 in the groove 21 at the free end 24 thereof, so that the surface contact 124 of resiliently deformable tenon 12 abuts for example against the bearing surface formed by the inner face 231 of the side wall 23 of the groove 21, while the abutment surface 103 of the first profile element 10 disposed at the opposite of the bearing surface of the tenon elastically deformable relative to the latter, is biased in support by the pin 12 resiliently deformable against the inner face 221 of the opposite side wall 22 of the groove 21. Then, the same way as for the previous embodiment, the resiliently deformable pin 12 is forcibly slid along the groove 21 to the desired position, corresponding to the position of blo cage, wherein the resiliently deformable pin 12 is in compression against the bearing surface defined by the inner face 231 of the side wall 23 of the groove 21, while the abutment surface 103 is urged against the inner face 221 of the opposite side wall 22, thereby providing the mechanical connection between the two profile members 10 and 20. This force-sliding, as illustrated by the downward-pointing vertical arrow in FIG. 2, can also be achieved by striking the first profile element 10 using a suitable tool such as a mallet, for example, to bring the pin 12 resiliently deformable from the free end 24 of the groove 21 where it is introduced to the desired locking position along the gorge 21.

Another embodiment of the removable assembly between the first profile element 10 and the second profile element 20 is now be described with reference to FIGS. 3, 3A, 4 and 4A. This embodiment differs from the above in particular in the manner of operating the wedging of the tenon elastically deformable in the groove 21 in the locking position. According to this embodiment, the resiliently deformable pin 12 is shaped such that it is able to slide freely through the groove 21 without interaction with the inner faces 221 and 231 of the side walls 22 and 23 thereof, when the first profile member 10 at the end of which it is mounted is in a first arrangement of the first profile member 10, while it is adapted to be brought into the locking position where it is blocked by jamming in the throat 21, when the first profile member 10 passes from the first disposition to a second disposition. This second arrangement of the profiled element 10, allowing the blocking of the resiliently deformable post 12 in the groove 21, is angularly offset relative to the first arrangement, in a circular direction of displacement by rotation of the first profile element 10 around its longitudinal axis AA.

 To do this, the resiliently deformable pin 12 comprises a cam-shaped head 125 fixed to the end 11 of the first profile element 10 so as to extend in a plane perpendicular to the longitudinal axis AA of the first profile element. 10. In the exemplary embodiment, the first profile element 10 is for example in the form of a square hollow tube. The resiliently deformable post 12 in particular has a head 125 of ovoid shape in the embodiment and further comprises a body 126 of generally parallelepipedal shape, which projects perpendicularly to the head 125 and which is intended to be inserted into the hollow tube at the end 11 of the first profile member 10, so that the head 125 projects at the outlet of the hollow tube.

The removable assembly between the first and second profile elements according to this embodiment is then made in the following manner. The resiliently deformable tenon 12 is introduced into the groove 21 by its head 125 of ovoid shape, while the first profile element 10 is placed in the first arrangement, in which the minor axis (perpendicular to the major axis) of the head 125 of ovoid shape of the resiliently deformable post 12 is disposed substantially transversely to the groove 21. the length of the minor axis of the head 125 is such that, thus introduced into the groove 21, the head 125 of the resiliently deformable post 12 can slide freely along the groove 21 without interaction with the internal faces 221 and 231 of the side walls 22 and 23 of the groove 21, as illustrated in Figures 3 and 3A. Then, once the locking position along the groove 21 reached, is rotated by force of 90 ° to the first profile member 10 about its longitudinal axis AA, illustrated by the arrow in Figure 3, for the placed in the second arrangement, in which the long axis of the head 125 of ovoid form of the resiliently deformable post 12 is disposed substantially transversely to the groove 21. The length of the major axis of the head 125 is such that the head 125 of the tenon 12 deformable resiliently abuts with elastic deformation against the inner faces 221 and 231 of the side walls 22 and 23 of the groove 21. In this way, the resiliently deformable post 12 is compressed by its head 125 between the surfaces of support defined by the internal faces 221 and 231 of the side walls 22 and 23 of the groove 21, thus ensuring the mechanical connection by wedging between the two profile elements 10 and 20.

Claims

1. Removable assembly device for ensuring a mechanical connection of a first profile element (10) to a peripheral framework consisting of at least one second profile element (20) extending substantially transversely relative to the first element of profile (10), characterized in that it comprises a groove (21) formed along an edge of the second profile element (20) and a resiliently deformable pin (12) arranged at one end (11) of the first profile element ( 10) and adapted to be housed at least partially in the groove (21) in a locking position, the resiliently deformable pin (12) being able to cooperate with an inner face (221, 231) of at least one side wall ( 22, 23) of the groove (21), defining a bearing surface against which the pin (12) elastically deformable when it is housed in the groove (21) in the locking position, in which the tenon (12) elastically deformable is in compression against said at least one bearing surface, leading to a locking of the tenon (12) elastically deformable in the groove (21) by jamming effect.  2. Device according to claim 1, characterized in that, in the locking position, the resiliently deformable pin (12) is compressed against two bearing surfaces, each formed by the inner face (221, 231) of a side wall (22, 23) of the groove (21).  3. Device according to claim 1, characterized in that, in the locking position, the end (11) of the first profile element (10) has an abutment surface (103) opposite to the bearing surface relative to the pin (12) elastically deformable and biased against the inner face (221) of the opposite side wall of the groove (21) by the tenon (12) elastically deformable. 4. Device according to any one of the preceding claims, characterized in that the pin (12) elastically deformable is able to slide freely through the groove (21) without interaction with the internal faces (221, 231) of the side walls. (22, 23) thereof, in a first arrangement of the first profile element (10), and is adapted to be brought into the locking position during the passage of the first profile element (10) of the first arrangement at a second arrangement angularly offset from the first disposition in a circular direction of rotation displacement of the first profile member (10) about a longitudinal axis (A-A) of the first profile member (10).  5. Device according to claim 4, characterized in that the first profile member (10) rotates 90 ° about its longitudinal axis (A-A) during the passage from the first to the second disposition.  6. Device according to any one of claims 4 or 5, characterized in that the pin (12) elastically deformable comprises a head (125) cam-shaped fixed to the end (11) of the first profile element and s extending in a plane perpendicular to the longitudinal axis (AA) of the first profile element (10).  7. Device according to any one of the preceding claims, characterized in that the pin (12) elastically deformable is made of an elastomer material of rubber or polyurethane type.  8. Device according to any one of claims 1 to 6, characterized in that the pin (12) resiliently deformable consists of at least one strip spring strip of a metallic or composite material.  9. Device according to any one of the preceding claims, characterized in that the second profile element (20) has a U-shaped section forming said groove (21).