FI81162C - Procedure for erecting a building structure - Google Patents

Description

81162

Method for erecting the structure - Construction of the structure of the structure

The invention comprises a method for joining beams and connecting parts into a structure.

According to the method of the present invention, to erect a structure, the first base plate is attached to the base of the structure, the first structural element is articulated to the first base plate, the free end of the first structural element is raised and fixed to the second structural element, the free end of the second structural element is raised and and the free end of the last structural member is attached to a second base plate attached to the base of the structure to provide a first arcuate structure, the method being characterized by further erecting at least one similar arcuate structure parallel to the aforementioned arcuate structure. the ends and the free ends of the additional arch structure or structures shall be connected by means of braces before the free ends are lifted and that the the adjacent ends of the structural elements are rigidly fastened to each other by means of connecting parts.

The structural element used in the present invention may comprise an expanded extruded beam, preferably a metal, containing a cavity portion at each end of the profiled web portion, which web portion is cut at predetermined intervals between the profiles and expanded.

The structural element may be provided along its upper edge with channels adapted to receive the thickened edge of the resilient cover member.

The invention also uses a connecting part, which may be an H-shaped body, the column part of the body being adapted to settle against the ends of the structural elements in use, and the arms adapted to receive the ends of the structural elements in use.

The arms of the H-shaped body and the ends of the structural elements are preferably provided with holes for bolts.

The base connecting portions may be H-shaped in cross-section, but other H-shaped connecting portions may preferably be provided with at least one lug on the side of the H, which is preferably shaped simultaneously with the H-shaped body. The lug preferably comprises two channel delimiting walls adapted to receive a ridge between them.

The connecting part may preferably comprise a flange located on the outer surface of the H-shaped body and which may be provided with means, preferably an opening, for fastening the cross-support elements.

A base connection part is also used, which comprises an extruded hollow tube which fits between the branches of the H-shaped connection parts, which connection part is integral with the wide base.

The base can be attached to the ground, base or the like.

The above structure and method for erecting it are very well suited for larger industrial and agricultural buildings or for large temporary structures. However, structural elements and connecting parts can be reduced to assemble permanent or temporary residential buildings.

In one such solution, the connecting parts are adapted to allow the beams to be hinged to a position in which the beams, in stripped form but still connected at their ends, are located next to each other. The rafters are preferably hollow beams and are dimensioned so that they can receive the ends of the beams inside in a stripped form, using a device for connecting the axle to the flat structure thus formed to provide a towed vehicle.

The invention will be explained in more detail below with reference to the accompanying drawing, in which:

Fig. 1 is a schematic side view of an arcuate structure according to the invention;

Fig. 2 shows a part, namely a connection part of the device, seen from above;

Fig. 3 is a section of an unexpanded extruded beam;

Fig. 4 is a section of an expanded beam;

Fig. 5 is a side view of a portion of the expanded bar;

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Fig. 6 is an end view of the base connection part; and

Fig. 7 is an end view of a lightweight temporary structure.

The structure shown in Figure 1, the arcuate structure 10 5 is part of a structural unit or the frame of a building and comprises a plurality of structural elements or beams 12 supported by base plates 14. The beams 12 are connected together by connecting parts 16. The arches 10 are erected in pairs, each arch of the pair being connected to another arc 10 by means of braces 18 (shown in cross section in Figure 1), the braces being the same beams used to assemble the arch 10 with the difference that the ends of the braces are cut at right angles. cut off at a predetermined 15 angle. This angle, of course, depends on the curvature of the arc.

The arch is erected as follows:

Platform 11 will be completed. This is normally a flat construction site covered with concrete, 20 and the base slabs 14 are placed in place. The first pair of beams 12a is articulated to the respective base plates 14 by nuts and bolts 20.

Beams 12a are allowed to lean against the ground as Iites. The connecting portions 16 are then connected to the ends 25 of the beams 12a as follows, and the stem 18 between the beams 12a is connected to the connecting portion 16. A further pair of beams 12b is then attached so that each beam 12b in this pair is connected to a corresponding connecting portion. To this end, the free ends of the interconnected beams 12a are lifted off the ground so that the following or additional beams 12b can be rigidly attached to them. It is obvious that the beams 12a do not need to be raised to their final position, but only need to be raised high enough so that the left ends of the beams 12b can rest against the ground.

4,81162 A further pair of connecting parts 16 is then attached to the free ends of the beams 12b, which are then raised sufficiently so that the next beams 12c can be connected to them, whereby the lifting device is moved from the ends of the first beams 12a to the ends of the second beams 12b.

In this way, the entire arch structure 10 is erected only by raising the free ends of each pair of connected beams so that the next beam can be attached thereto 10 until the last pair of beams 12d is secured in place. The arch structure 10 can then be rigidly attached to the first base plate by means of a bolt-15 path 23.

In this way, a plurality of arch structures can be erected according to a predetermined plan to provide a building frame consisting of interconnected pairs of arch structures. The pairs of arch-20 structures thus formed can be connected together by means of braces or cross-members starting from flanges 30 projecting from the connecting parts 16.

The schematic side figure 1 does not show the lattice structure of the cross-members, which is described in more detail below.

The connecting part 16 is shown in more detail in Fig. 2, in which the H-shaped extruded body comprises two pairs of branches 24 projecting on each side of the cross post 25. The H-shaped body 24 is cut to the desired length depending on the depth of the beams 12, the ends of which fit between the arms 24 on each side of the beam rod 25. To secure the connecting portion 16 to the beams 12, bolts and nuts 26 are placed in appropriate locations in the drilled holes in the on-teloprofile of the beam 12 and in the arms 24 of the H-shaped body.

At the same time, two I: 5 81162 channel formations 27, one on each side of the H-shaped body, are extruded into the H-shaped profile. The channel formations 27 comprise two walls 28 to which the rafters 18 fit, which are of the same type as or equivalent to the arch beams 12.

The walls 28 in fact form lugs for supporting the ore beams 18 and are provided with holes drilled in suitable places for bolts and nuts 19 which also pass through the hollow profiles of the beams 18.

In addition to the extruded branches 24 and the lugs 10 28, on each side of the connecting parts 16 there are washers 30 provided with openings 32 for cross-members or support bars extending between the pairs of arch structures in the finished building frame and between individual arch structures if necessary. It will be appreciated that when the arch structures of a pair are joined together by means of braces extending between them without cross-supports, and when the cross-members are between adjacent pairs of arch structures, lugs 28 are required on one side of the H-shaped body only, while flange 30 is required on the H-20. on the opposite side of the song.

The beams 12 are made of aluminum by extrusion, which in Figure 3 comprises a profiled web portion 34 and cavity profiles 36, 38 at each end. The upper cavity profile 38 is preferably provided with a double-sided ka-25 hub portion, the purpose of which is shown below.

To obtain the shape shown in Figures 4 and 5, the profiled web portion 34 is cut between the profiles at predetermined intervals depending on the final shape of the beam. The cuts 30 between adjacent profiles are staggered and mechanical devices are then attached to the profiles at the cavity profiles, which then pull the cavity profiles apart to expand the web portion into the diamond shape shown in Figure 5. This method is well known and disclosed in several South African patents of Jury and 35 Spiers (Pty) Ltd.

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The beams 12 of the arch structures and the beams 18 of the ores are similar or similar to each other, as stated above. The ends of the beams 12 are cut at an angle, the magnitude of which, of course, depends on the desired arc-5 of the arch structure, while the ends of the orgy beams 18 are cut at right angles to their longitudinal axis.

Fig. 5 also shows a side view of the connecting part 16 and fastened to the groove 18, from which it can be seen how the bulkhead pa 30 on the other side of the connecting part 16 fits between the cross-members 34a formed by the expanded web part of the beam.

As an alternative to the base plate 14, the base connection plate 114 shown in Fig. 6 can be used. This connection part corresponds in dimension to the end of the beam 12 so that it fits between the branches of the connection part 16. The base connection plate 114 comprises a wide base plate 114a with a hollow profile protrusion 146 which fits between the arms of the H-shaped body, as mentioned above.

The protrusion 146 is provided with jig bores as are the other components of the system for bolts. The base slab may be provided with ground nails (not shown) which can be cast onto the concrete slab 100 of the building.

Figure 7 shows a lightweight structure 200 that utilizes the principles of the invention. The structure-25 comprises beams 202, connecting parts 204 and ors 206.

The fabric cover 208 is applied to the posts 210 over the structure. Pins or nails 212 are used to secure the wires that hold the posts in place, and pins of the same type hold the base plates 214 and pal-30 kit 202 in place.

The structure 200 can be disassembled and converted into a trailer by removing only a few of the bolts of the connecting parts and folding the still attached beams together at their free ends into a zig-zag shape. The hinged beams 35 are lowered flat and the channel-shaped rafters 206 I: 7 81162 are pushed over the ends and connecting parts of the beams and fastened in place by means of bolts to form a flat structure. The axle assembly and the drawbar assembly (not shown) are secured in place by bolts 5a, whereby the structure becomes a trailer assembly on which the fabric cover and other goods can be loaded. This structure 200 is useful as a temporary garage, tent or the like.

Once the structure has been erected and all the arches of the frame of the building 10 are firmly fastened together, the frame can be covered with a conventional sheet material, such as roof tiles. Alternatively, elastic webs, plastic impregnated fabric or synthetic textile can be used. Before placing them on the structure, the covers must be provided with rope-reinforced edges or similarly reinforced edges along two sides, which are then drawn into channels 42 and 20 44 running along the upper cavity profiles 38 of the beams 12 of two adjacent arch structures. to the opposite channels of the arch structure 10 to cover the space between the adjacent arch structures 10. Properly designed leading edges can be used to pull the covers into the channels 42 and 44 from one side of the body over the other to the other side by means of ropes. If a suitably sized rope-reinforced edge is used, the joints between the beams 12 and the covering material are watertight.

It is obvious that the structural elements and connecting parts according to the invention can be manufactured as a mass product, and they can be fastened together with bolts without erecting racks and the like. In addition, due to the simple structure of the elements used, they can be erected largely using unskilled labor. The construction method and equipment used are particularly suitable for its very temporary buildings, as the construction

Claims (2)

8 81162 and the building frame can be quickly dismantled and re-erected in another location. A method of erecting a structure, wherein the first base plate (14) is attached to the base of the structure, the first structural element (12a) is articulated to the first base plate (14), the free end of the first structural element (12a) is raised and fixed to the second structural element (12b), the free end of the second structural element (12b) is raised and fixed to yet the second structural element (12c) and extended in this way, and the free end of the last structural element (I2d) is fixed to a second base plate (14) fixed to the base of the structure. further characterized in that at least one similar arch structure is erected parallel to the former arch structure, that the free ends of the structural elements of the first arch structure and the free ends of the additional arch structure or structures are connected to each other before the free ends are lifted and that the adjacent ends of the structural elements of the structure are rigidly fastened to each other by means of connecting parts (16). Method according to claim 1, characterized in that connecting parts (16) are used, each of which comprises an H-shaped body, the web part of H being against the ends of the structural elements (12) and the branches of H receiving the structure ends of the elements (12). i, 9 81162 L. For use in the construction of a construction (14a) for the construction of a construction element (12a) for the construction of a construction element (14), the construction of the construction element (14) 12a) lymphatics and bindings with a second construction element (12b), with free-standing construction elements and a second construction element (12c) and with a second-hand construction element (12c) ) on the basis of the above-mentioned construction plate (14), on the other hand, on the basis of the image of the structure of the structure, for the construction of the construction and the construction of the construction elements (de) The structure (s) are mounted on the flywheel of the flywheel (18) as a cross-section of the flywheel and the internal means of the construction of the flywheel (16). 2. A method according to claim 1, which comprises a connecting body (16), which can be connected to an H-format plate, the colors of which are H: and which are connected to the construction elements (12) and H : ets ben mottar ändarna av konstruktionselementen (12).