CZ2371U1 - Supporting frame - Google Patents

Description

The technical solution relates to a supporting frame, in particular as a basic supporting element of prefabricated wooden buildings.

BACKGROUND OF THE INVENTION

So far, the load-bearing structures of wooden buildings are made in several ways. The basic method is a classic beam binding. It is demanding on the consumption of solid wood of good quality and at the same time demanding on craftsmanship. Assembly preparation outside the construction space is practically impossible. The second method is to use prefabricated trusses of triangular shape. However, their construction is such that it is not possible to use the attic space, otherwise it is necessary to build higher side walls to achieve the necessary clearance. Another way is to use glued wooden roof beams, connected mostly by metal building elements. These beams are demanding for joining in the ridge section and require high quality timber for production. They are suitable for bridging larger spans of buildings, but most demanding on technological equipment, lumber processing, production and assembly. However, all these methods are quite expensive and time consuming to install.

The essence of the technical solution

These drawbacks are largely eliminated by the supporting frame, in particular as a basic supporting element of prefabricated timber buildings, according to the present invention, which consists in that the beams are formed by assembling offset side blanks on the upper part and side blanks on the lower part secured by beams. interconnection and reinforcement in the ridge part by means of a collet, the sides being secured by insertion into the uprights, also formed with offset blanks, connected by the inner parts and the central part with reinforcing strips.

The supporting frame according to this technical solution enables easy and quick building of roof and side cladding of buildings, while. use of standard quality timber and without the need for special machinery. The handling of the individual parts is very easy and their transport to the construction site can also be carried out without any particular problems. The structure of the supporting frame is strong and sufficiently load-bearing, because the connection of longer billet surfaces ensures great stability. Moreover, the structure of the supporting frame is very variable, both in length and width of the building. The webs can be higher or lower depending on the need and purpose, the width of the building changes by stretching or shortening the beams, while the working angles of cutting do not change, so it can be used in the production of the same templates. The free profile of the interior of the building increases the space and significantly improves the ventilation of the interior space.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 shows the support frame in general view, FIG. 2 shows the web structure, FIG. 3 shows the structure of the beam, and FIG. 4 shows the structure of the collet. FIG. 5 shows a detail of the joining of the beams in the ridge part, and FIGS.

Examples

The support frame, as shown in FIG. 1, consists of the webs 1 of the inserted beams 2, which are connected in the ridge part and additionally reinforced 3. 2. The web 7 according to FIG. The outer blanks 11, the inner blanks 12 and the inner blanks 15 are circumferentially the same, the central bean 14 being extended along the web X by the thickness of the beating material. The lower edge of the center piece 14 is the same as the inner pieces V1, the outer blanks 11 and the inner blanks 12, while the upper part 13 in the central piece 14 is pushed below the edge of the inner parts 15 by the material thickness.

The beam 2 according to FIG. 3 is composed of an upper part 21 and a lower part 27 interleaved and connected by bolts 26. The right side blank 22 on the top part 21 and the right side blank 23 of the bottom part 27 are longer than the left side blank 24 the top panel 21 and the left side blank 25 of the bottom panel 27.

This extension of the right side allows the two beams 2 to be joined by simply mirroring and overlapping each other, as shown in Fig. 5. The upper and lower panels 21 and 27 are extended from the structure of the beam 2 again by the thickness of the beating material. and undersize the ceiling between the frames, creating a continuous flat surface.

The beams 2 are secured in the ridge part by means of a collet 3, which consists of two lower panels 31, two upper panels 32, interconnected by an inner frame 34 and a central frame 33, which is again extended by the material thickness towards the collet 3 and below the edge. lower parts 31.

The connection of the individual parts of the supporting frame is very simple. The lower part of the beam 2 is inserted into the free space of the web 11, between the outer blanks 11 and the inner blanks 12, so that the lower part 27 fits between the inner blanks 15 until the edge of the outer blanks 11 and inner blanks 12 coincides with the upper edge of the right side blank 22 and left side blank 24 from beam 2. The connection is made by nailing and bolting the bolts. The two pairs of connected beams 2 with the webs are always turned against each other and the beams 2 are connected in their crest part by insertion and offset. The ridge part is then reinforced by sliding the collet 3, which fits into the offset lower part 27 of the beam 2. The connection is again carried out by nailing or screwing.

The transverse interconnection of the support frames is accomplished by charging the intermediate plates between the extended central parts 14, the upper parts 21, the lower parts 27 and the central frame 33. These intermediate plates then serve simultaneously as roof and ceiling battens.

Industrial applicability

The supporting frame according to the technical solution can be used for construction of agricultural and industrial halls, or for roofs of residential buildings. Their high variability and at the same time the use of common lumber can significantly affect their use in the implementation of the farm buildings.

Claims (1)

PROTECTION REQUIREMENTS A supporting frame, in particular as a basic supporting element of prefabricated timber buildings, characterized in that the beams (2) are formed by assembling offset side cuts (22,24) on the upper part (21) and side cuts (23,25) on the bottom part (27), secured by anchors (26), allowing interlocking and reinforcement in the ridge part by means of a collet (3), secured at the sides by insertion into webs (1) also formed with offset blanks (11, 12) connected by internal parts ( 15) and a central part (14) with reinforcing strips (16).