FR2560622A2 - Timber truss beam - with external fixing - I-beam and frame cladding. - Google Patents

Abstract

Device for timber truss beams with external fixing and frame cladding. The invention relates to a building frame device constructed by means of truss beams enabling the fixing of its cladding. It consists of truss I-beams having an upper part 1 and a lower part 2 which are assembled on the uprights 3 arranged in a V shape and perforated at their ends 4 and 5 in order to receive links (slings) 7 around the rods 6 on and below these beams. These rods 6 which jut out considerably act as supports for fastening the cladding panels. The device according to the invention is particularly intended for frames of a building.

Description

a / The present invention relates to wooden lattice beams with external fixing - t-beam and frame covering.

 bl This addition no. 1, to the application for Patent of invention no. 83.

09314 filed on June 1, 1983, concerns these truss beams to simplify assembly, reinforce them and complete their use by the fitting of frames.

c / In the device which was described there, one saw there a lattice beam with upper and lower fibers without any perforation, connected between them by cross-pieces perforated each three times in the direction of the axis of the beam. These upper and lower perforations on the crosspiece each received a bolt. There were then on and under the beam threaded axes projecting from each side of the beam. A sling (with end loop) formed an almost diamond-shaped belt on these bolt heads and on the end of the axes around the upper or lower fiber to be fixed.

 This required a central mounting line with stops. In the event of one of the slings breaking, all of the crosspieces could fall apart by a chain reaction. In addition, there was no question of being able to lengthen these beams or of prestressing them, or to reinforce the assemblies of beams on the ridge or on the gantry side. Nothing was foreseen either as a roofing element or suspended ceiling between beams.

 The device according to the invention makes it possible to remedy these drawbacks. The reinforced upper and lower fibers (wider) give the beam an r-shaped section. These upper and lower fibers are held on the crosspieces by means of the same slings on the same upper and lower axes. But these slings pass laterally with respect to the beam through the intermediate uprights, which eliminates the intermediate mounting rope and its stops: each attachment by sling becoming independent. This beam can also be prestressed by a lower cable between the ends of the beam which can be reinforced as well as the central crosspieces by plating of panels or sheets even folded. These reinforcements improve the connections between beams on ridge or on side of gantry or between beams perpendicular.

 According to a variant, these beams are produced in r by passing the sling laterally through the first upright to bolt laterally on the second upright bypassing the ends of steel bars placed perpendicularly on and under the beams. These bars can then extend widely and serve to fix panels (heat-insulated or not) with flat attachment tabs which can also be folded in r enZ.

Figure 1 shows the plan view of the beam (upper part)
Figure 2 and 3 shows the elevation view and the section of the beam.

 Figure 4 shows two beams assembled by a ridge.

 Figure 5 shows the mounting detail of the previous view with the addition of cover and ceiling.

 Figure 6 shows the assembly of vertical and horizontal beams.

 The device shown in Figure 1-2-3 comprises the elements of a beam whose upper fiber 1 and lower 2 are wider than the uprights 3; which gives the beam an I-shaped section - see fig. 3; and increases its resistance. The uprights 3 in v are perforated at their ends 4 and 5 - this laterally with respect to the axis of the beam. On and under the beam are placed threaded axes 6 projecting from each side. A sling 7 crosses two upper uprights, bypasses one end of an axis 6 and bolts onto the other end of this axis by blocking the upper horizontal part 1 of the beam. The attachment of the lower part 2 is similar to it.

We can replace the threaded pins 6 with a largely protruding pin 8 and bolt the ends of the sling 9 on the second upright. To reinforce the beam at the ends, triple the thickness of the uprights 10 with sheet metal if necessary; this also allows the fixing of perpendicular beam 12 by angles 13 bolted; these reinforcements are supplemented where necessary by perforated sheets 14 or folded sheets
15 in L adapting to the angle of the ridge or to the beam connections to be made such as that of a vertical leg 16 - fig. 6 - with an almost horizontal beam 17. A stopper 18 on the crosspieces 3 and nails
19 pressed between these stops prevents the uprights 3 from sliding on the fibers 1 and 2. A cable 20 stretched between the ends of the lower fiber 2 on an L or C foot 21 preloads this beam.

It is also possible to increase the diameter of the axes 6, of the slings 7 or to pass several slings through the same orifice 22 - fig. 5 - or around the same axis 23. The holes through which the slings pass must be fitted with the end of the tube or protective flanges 24. By bolting the holes 4 and 5 you can pass a sling at each end of the axes 6 8. When a beam must be extended, the connection is made by oblique staircase 25 or sawtooth 26 with extra thickness of wood 27, all 25 + 26 + 27 glued to the elements 1 or 2; if necessary, two perforated L folded sheets with sling 7 - 9 complete this connection. To complete the cladding of a frame thus made, the panels 28 are slid along the axes 8 with flat 29, C-shaped iron, or Z-shaped 31, thus realizing the ceilings of the underlays or roof coverings.

 This device makes it possible to produce wooden frames for the building as well as their complete interior and exterior cladding.

Claims (6)

CLAIMS Device according to claim 1 of the patent 83  09314 from 0p06-83, for r truss beam structure characterized in that it comprises a top part 1 and a bottom part 2 with uprights 3 perforated at their ends 4 and 5 and perforated laterally with respect to the longitudinal axis of the beam, assembled on the axes  6 installed projecting laterally on and under the beams in the extension of the uprights 3; elements 1-2 and 3 being assembled by sling 7 with end loop on axis 6  2 / Device according to claim 1 characterized in that the assembly of elements 1-2-3 can also be done by passing a sling 9 with end loop in the upper perforation 4 of the first upright, this sling 9 then bypassing the two ends of the projecting axis  8 is fixed on each side of the bolt passed through the upper perforation  4 of the second amount 3-.  3 / Device according to claims 1 and 2 characterized in that the means for reinforcing these lattice beams: these means are: either uprights 3 thicker (10 + 3 + 10) if necessary flanked by sheets 11 (perforated, folded if necessary ) with protective tube or flange 24 in the perforations 4 and 5; either slings 7 - 9 and axes 6  8 of a larger diameter; either uprights 3 with stop 18 and nails 19 driven in 1 and 2; either a cable 20 stretched between the ends of the lower part 2 of the beam by means of Dates in

 or in r 21 /; or finally several slings in the same orifice 22  4 / Device according to claims 1-2-3 characterized in that one assembles: either a perpendicular beam 12 on another beam- by means of L-shaped angle 13 bolted to the reinforcements 20 and 11 thereof; either two beams forming a ridge by means of 14 14 perforated sheets, folded if necessary; or a vertical beam 16 on a horizontal beam 17, this also by means of sheets 14 15 perforated and folded on demand.  5t Device according to claim 1 characterized in that to lengthen an I-shaped truss: either cut the ends of the elements (1 + 1) (2 + 2) to be connected or in oblique staircase 25 or in sawtooth 26 with reinforcement 27 if necessary. The whole being glued, that is to say 25 + 25 + 27 or 26 + 26 +27 and by encircling these collages by sheets  14 15 and slings 7 9 on axes 6. 8 or finally by making the elements 1 and 2 in traditional glued laminate.  6 / Device according to claim 1 characterized in that to dress this frame externally and internally we use the overhanging pins 6 8 on which are fixed panels 28 with riveted fixing lugs, flat 29 or E 30 or Z 31.