HU230867B1 - Truss structure made of steel u-profiles or braced with steel t-profiles and wall structure with reduced thermal bridge made of said truss-grid - Google Patents

Description

U profile kvlakmnt. angular grid bracket reinforced with angularaccAaL or] steel and a hohtdmemes grid structure formed from this grid bracket, which in addition to providing greater stability and rigidity, has greater load-bearing capacity and allows for easy and fast thermal bridging structure can be implemented.

The use of large-scale residential buildings is very widespread in the construction industry. Many variations of these are alkali-glazed, especially for pole posts, but the use of a grid support is also used, for example, in jaax or other buildings. Your application is a group of lattice support structures, where U-profiles, located at a distance, are connected to each other by flat irons with different geometric distributions; however, these lattice support designs are not sufficiently stable and have less load bearing capacity.

ρ _:

The state of the art is described in U.S. Patent Application Serial No. UI 90, incorporated herein by reference. t-kmyoscn for civil engineering structures. .The solution contains '1' 's / ehcryú colors e> I' mesKema mesh stick. Between the stems of the belt, with a perpendicular to it, I-node elements, and to the node elements there are rm> ruda \ welded from a 1-segment, the outer shafts of the collar to the edge of the belt number, i inner hedgehog. and they are welded to the elements of esmnóporu! I have connected the stems of the .V food v -.> the stem of our food is in the outer boundary planes of the truss bracket <..s i nodes are the old 'shit'; at the edges of the stems, their blunt or heel spears. the stems are inscribed with a s. <u'quarter.

EP 2,417,308. European Patent Specification discloses a method for constructing buildings, in which the lattice support elements are interlocked so that the enclosed void space is continuously extended on the floor structure i via the opposed wall structures and is thereby injected into the enclosed impact space a. insulating material, and thus a connected snow visor.oh rueg is formed inside the sky structure.

It is described above. and the solutions applied in practice, hanging on to their design; they do not ensure proper stability and high load-bearing capacity of the fiber support, nor do they provide adequate insulation of the truss support.

The object of the present invention was to provide a lattice support structure that provides greater stability and rigidity than the prior art lattice support designs. it also has a higher load-bearing capacity and also enables you to easily and quickly grow a tree / broom v \ x ecv ^. > 2 meuvmosi ininos.

SUMMARY OF THE INVENTION It is understood that, when placed parallel to one another, elongated profile members or steel members 1 are fixed so that they close to the orofile base board. and the arcuate elements are welded to a sheet A for its cutting edges <iz cgyA i picin, and optionally for its base plate. along the other cutting edges of the other l Prnhl horns and optionally .ikiplapi.ihe ··· are welded; stitched! for recording, and consecutive s / ogaeel elunok and T acd demek egvmasko- ··. with their cutting edges and their apexes for rotation. lovabm 'a.' with the help of a lattice stubble trained in this way, our hohidmemes' .akikai brain trainer u. Thus, the outer profiles of the E-profiles of the lattice retainer are provided with a nose tape-ang / in'ink and .-. rac.-O-rails are mounted perpendicular to the number of lower IJ profiles fixed to the substrate by their carrier plates * -vivorousas are fixed to lattice upper TVs and lattice upper TVs. and then the elements of the lattice stumps on the bodyshells of the beams of the U are then milled and then the interior of the trained wall is filled with heat-insulating material. then uz wall covered with gypsum board inside, and khahht heat insulation on the outside, then the target is achieved.

The talúhnany is full of profile Ruiakoitoit. lattice bracket reinforced with saga edge elements, which are interlocked; <Emlun. from the parallel profiles l and the connecting elements between the two U profiles <'li Character / pie. Itogv is defined as one of the V profiles of the truss

·· $ Λ cross section ·· ', the edges of the angled elements with the base plate of the U profile are so fixed that the angular steel elements hang in pairs with their cutting surfaces: U pro! This section of the angles of the angled elements is formed in a form-locking manner with the U-profile legs, and at this section they are welded together by welds, and the same angular steel elements are "e>". alongside the tits, the lattice tutor is mounted on the base plate of the other L ^: profile in such a way that the element with the following angle is inserted along this cutting edge, oh-like. that the vertices of these two angular cable elements meet and that this part of the angles of the angular steel members is fitted with a shape-modem to the legs of this O profile and is secured thereto by welding seams, and the fastening of the angular cable elements veglezars of profiles are multi-colored. and »the quality of the profile of the lattice roof is made of beige with a strong ribbon.

Thus, the present invention is a lattice braced with l-steel elements formed with a profile 1 ', which is a jcUemzoie that is made from the elements of which the two profiles are partitioned so that the uc.m-i < a defined cross-section of one of Uio's profile cross-sections / l ptophilic base tpUn.x \ is placed along the l-acel element's cutting edges, so that the plane of the crossbones of the Γ-aeel's bottom is the profile's basic types <hair toss and this is the culmination point of our trained shit meals, e ^ the f-ccel elements for the profile l are welded along the edges of their stems to the base of the l prolii. and the body </ felememck edge edge with welded corners \ cm to the inner surfaces of the legs of the profile l 'roll / use. a 1-aee „icrnek m-aJk w. »'Cet .1 for the other l profile of the lattice tasto, they sit on the röaz'tes, eb n'cdo'i hogs e ^z en ^?. Ga <t les lie on the inner surface of the rravk l profile's motherboard, and their ki's. -.yds. their edges menlec would be in contact with the kerch / tolemo'cut similar to the following T-steel elements, and the stems of the sag-steel elements would be welded with a welding seam to lorûr rogzite 'onto the profile board of profile II, and · .- 'menus with Kgc ^ / Asi seams to the inner surface of the corners of profile l.' recorded. es and f-iee elements are fixed on the L profiles by this snake brother. and the? I profiles are recorded and the grid holders are recorded. profile boards. I have a long strip of ^ etclo attached to the jo you.

According to a preferred embodiment of the invention, the Γ-steel elements are formed at one end with cutting edges and at the other end with different cutting edges.

Another advantageous embodiment of the present invention is the angle angle 30 '-60' · preferably 45 'of the angular elements fixed in the truss and the steel I feed.

The invention thus relates to a lattice support structure of a lattice support, which is made up of casing elements fixed to the lattice supports and of a heat-insulating material which provides space.

It is characterized by the pre-formed substrate, ten. the lower U profiles are fixed to the outer horse wall of the building and the inner dividing walls. and .v lower profiles 11, the lattice supports are perpendicular to the base U profiles of the lower U profiles, which are secured via their end closures esuvamzussaí, other lattice supports wgenc kotj'o.A 'a.og tös. ^ cvu auv- \ s ' ^! e to l p10fi.ok.es and at right-angled joints of the demkvugu corners or T-node wall designs, the angles <>'lv modem are fixed so that the angles are secured to the bottom faces of the lower U-profile and upper 1.1 shafts in known manner , and at the junction wall joints T, in the lower V prolii and the outer profile legs, there are notch designs to achieve the positioning of these angles and. in the case of a wooden structure so produced. ? ·. motilpa> e ^ aer i '. <sho o \ v íe nlctenc kcml' ehogzítesic the cladding elements and on the spot the walls are filled with insulating material.

Another advantageous embodiment of the present invention is that, in the case of the interior part of the building, plasterboard panels are fastened to the cladding elements.

In a further preferred embodiment of the invention, hos / igetcles are fastened to the cladding elements of the exterior of the building.

The invention will now be described with reference to the following figures:

Figure 1 illustrates a possible embodiment of a truss according to the invention using an angled member. perspective view.

Figure 2 illustrates another possible embodiment of a truss support according to the invention using a T-steel member. perspective view.

Figure 3 illustrates a further possible embodiment of the lattice support according to the invention. ie, pe'-gaming on ic>. nc / etóem

Figure 4 is a perspective view of a possible embodiment of a bowl construction made of a lattice support according to the invention.

Figure 5 is an A-A view of Figure 4.

Fig. 6 is a perspective view of a possible embodiment of a truss structure made of a lattice support according to the invention.

Figure 7 is a view B-B of Figure 6.

Fig. 8 is a gx e t of a wall structure of the lattice support according to the invention. 'í.ií'j

The 9th uhun shows a possible implementation of the talahnany s'eimt hnhidmentus talsíCrke / et and the connected iodem design.

In Fig. 10, a further embodiment of the thermal bridge joint according to the invention and its associated slab design is shown in Figure 10.

Figure 11 illustrates a fu ^ eAe / u and a ke according to the invention. borsi) ibdem junction design.

Fig. 1 shows a perspective view of a possible embodiment of the lattice support according to the invention using an angled member; Figs. Fxz show the 2 U profiles of the lattice support 1 with opposing baseplate 3 and legs 4. Opposite 2 l .; The angular steel members 5 are fixed between the profiles so that the two angular steel members 5 fall along the inner x xagasi edges of the base plate 3 of one of the profiles 2 Ό. In this way, the angled eclips 5 live 7 with the base plate 3 of the 2 l profile and close at an angle, and the points 9 of their cutting edges 8 and their vertexes 9 meet. As shown, the angular steel members 5 are secured to the inner surface of the legs 4 of the U 2 profile by the welding seams 12 along the outer edges 6 of its legs.

The figure clearly shows that the other cutting edges 10 of the angular steel members 5 are fixed to _the max 2 l profile, so that these cutting edges 10 are on the base plate 3 of the other 2 V profile.

internal IdfiE-icrv for SMEs id. ve luc saga'-i uoí and the 11. s / eer formed by the edges of the f · .- / arai stone edges of their sheaves · ό 'angled element similarly with the vertex II, Γ.' e ^ nben a / 5 svgaeeh »-. o The horns have a rocking stone but along with the welding nails 12, they are molded into the inner surface of the 4 horns of the other 2 l profile.

M ^:: 3 · 0 '·· -π·''is preferably 45

Figure 2 illustrates another possible embodiment of a truss bar using a T-steel element. perspective view. The illustration shows the. 2 U profiles of grid 1 with opposing base plate 3 and shafts 4. Between the opposing 2 U profiles, the T-steel members 13 are fixed so that they fit on the inner face of one of the base plates 3 of one of the 2 U proli, the two T-steel members shoot along their cutting edges, such that 13 T-steel elements 15 cross members. its plane is the angle of inclination of 2 U pro) 3 sheets «. and the legs of the 14 are formed with 16 cutting edges: 17 of their vertices ρο a o-sx e.

As shown in Fig. A, kg- the steel elements 13 Z to the 2 U have welded seams 12 along the cutting edges of their legs 14! they are secured to the inner surfaces of the legs 4 of the 2 profile and the welding seams 12 along the outer edges of the cross members 15.

The figure clearly shows that the other cutting edges 18 of the T-steel members 1.3 are fixed to the other 2 U profiles such that these cutting edges 18 lie on the inner surface of the base plate 3 of the other 2 (profile J). along their cutting edges, the following T-steel members 13 are in contact with similarly formed cutting members 18 of their cross-members 15. In this case, 12 welds 12 are secured to the base plate 3 of the 2 U proli and has a '2;».?'. \ s; there is a reason, = '<m- Ί -t un bcEo fe'aletcihe / log / iles'u The a ^: ~ 30 ° -6U ° preferably 45 °

Figure 3 shows a further possible embodiment of a lattice grinder according to the present invention. Tacel element aikjkr.aAueiv d. perspective view. The figure shows the profiles of the bow 2 formed by the base plate 3 and the legs 4 which are opposed to the lattice support. The 13 T-steel elements were fixed between opposite dhdy c / d 2 U profiles, so that? It is seen that the plane of the cross members 15 of the T-steel members 13 is inclined at an angle to the base plate 3 of the 2 U profile. Further, the T-steel members 13 have their right-angled cutting edges 19, 2 l; They are joined by their edges perpendicular to the 4 legs of the profile.

In the figure, hm? ..-, rag- .ra l-f-.ra 4 <e ^ ex a 2 l pratllho are secured to each other and to the base plate 3 of the 2 U profile by means of 12 welding seams along their cut edges 19 of their horns 14 and 12 welds along the outer edges of the cross members 15. ο o7> '1Λ \ v I iö f ux ura' tv <.

The figure clearly shows that the second cutting edges 18 of the T-13 aeél elements are the other two U-recorded, so that _v? 18 en \ AGA and DOI bear against the inside of the profile ma.4k 2 L 3 mainboard . and .t 5, along the cutting edges 18, the following elements 13 l-ueí touch the cutting edges 18 of their k-keprati 15 kerexzidcm.

In this case, the H-locks of the '3' l-ace elements are fixed at 12 welding waits at 18> tg.-.si before, .ü.c -, - is the base arc of the 2 bow prolii 3. and 15 liters are loaded with stitches a. I pufii! raaramuk for fixing internal fehiletdhcz.

A / α 3ιη'-ορ- mind 45 '

Figure 4 is a perspective view of a possible embodiment of a wall structure made of a lattice support according to the invention. The figure shows the lower profiles 2ü which are placed on the substrate and fixed in a known manner. es a 24 lower legs 24 of the lower b profiles MV, e Muíse * t es> V a ro _v txo * 2 ^ Jap ap e. az: acM> starters d wdtvantxam 22 lattice brackets fixed by 22 screws. The other ends of the lattice supports 1 are also secured to the upper U-profiles 30 by means of the screw 22.

It is clear from the figures that the heel design is formed in such a way that. adjacent but perpendicular lattice supports 1 are not located at the ends of the lower IJ profile 20. since the angles 26 are fixed here on the inside. And the same 2o angle is placed on the outside. These angle rods 26 are again twisted against the legs 24 of the lower U profile 20 and the upper U profile 30.

Fig. 5 is a view of Fig. 4. The figure shows the perpendicular lower U profiles 20 which are perpendicular to each other at their edges, formed by miter cuts and secured to the substrate in a known manner. As can be seen in the figure, on the other side of the fe caymasn nuro'cec'4helsC '! \ Cdo rarsarstarts are not placed at the ends of the 20 a \ o U prole. Mass! here, the bracket 26 is secured on the inner side, such that the bracket 26 is fitted and fixed in a known manner to the inner surface of the legs 24 of the lower V profile 20 by means of a twist.

The other outer bracket 26 is disposed at the ends of the lower profile 20, such that the bracket 26 is positioned in a manner corresponding to the inner surface of the legs 24 of the lower V proli 20 and is known to be bolted by a screw 28.

Further, a thermal insulating tape 25 is fixed on the outer surface of the baseplates 3 of the profiles 11 of the trusses 2.

Fig. 6 is a perspective view of a possible embodiment of an Esomog I of a trolley car according to the invention,

Figure 7 is a perspective view of B-B of Figure 6.

The figure shows the T node. This is one of the 20 deceivers in action. U profile is another. It is placed and secured perpendicular to the lower 20 U-profiles. to the socket. At this a suitable distance is provided by means of twisting 22 of the ratchet holders 1 and then of the upper part of the trusses 1. ses-ro l. profiles.

\> t ^ ti \ cros ac ^ na ^, η u e <e - ¹ 2, rol profiles 10 / cs a 3p fcfeo

The angles 26 are fastened to the U-profiles by croxarizing 28, in this case the moorion tip is in this case the continuously running lower U-profile at the pivot 24 where two other notches 2 (1) are formed perpendicularly connected thereto. we can insert it through the notch and fix the 26 angle irons.

It is understood that the angles 26 are fixed in the same manner as the upper props 30.

Figure 8 illustrates a possible embodiment of a wall structure made of a lattice support according to the invention.

The figure shows the lattice support 1 in this case with stiffening elements with angular edges 5, which lattice support 1 is located below the lower t 20 ^! prolyi, while attached at the top to the upper U-profile 30, in the case of bz, · .ζ l «tcsostano 2 I profiles with .25 thermal insulation tape clUtxa. Λζ The covering element 29 is fastened to the upper part of the inner lattice support 1 and, after the vapor barrier foil 40, the gypsum board 33

The lattice stubble outer space for an adult uc xu ti anchorage is the loop 29 and then the thermal insulation 31.

The figure shows that the lattice support 1 and the wall section formed underneath it are filled with heat-insulating material 32.

In the figure, ianato nity is also the closure of the Ά hohtemv xznkuo togua and the end 21 of the lattice support 1.

Figure 9 illustrates a possible embodiment of a snow-free lattice construction according to the invention and a slab connected thereto. The figure shows the wall of Figure 8. vrunmmt a? 34 I beams placed there, which also have to do with 32 insulation materials

The aura is tin. that the 34 l beams will be winter-hardened by the building board 38; and will starve to these 35 straps. to which the wrapper 36 is fastened.

Fig. 10 shows a heat-insulating wall bracket according to the invention and a slab connected thereto, showing the main ne s ta-1 * V of the bracket 8 from the bracket. \ suv eh íafezerkemtic helve / cp 31

I beams, with their insulating area 32 covered with heat insulation material 32, and with the heat insulation material 31 on the beams 34 1, it is shown that the upper telescopes of the beams of the 34 I beams are seated with the bottom panels 35 x This is done by securing the 3o cladding elements. Two cushions are placed perpendicular to one another .'5 pads are disposed. The cushion 35 has a gap-filling role with a thickness of 1 beams and feet, and is rigidly fixed with 35 rows of plasterboard. In the plane between the two 35 pillow trees, the degree of narazaio is completed

Figure 11 illustrates the construction of a junction wall structure and an intermediate slab. \ a t '. x v \ ό l ι, χ »ο.ι la.? \ etu rubelse / Cd * <- l beams, a wall structure made of a repeatedly latticed support.

In the case of the bowlmenn senna i lattice bracket egs le.ictSi.ge '·', first the proper metLtoc.i kt'itmtoL agusa is the hogae .nemei ^1. , So that one of their ends is the 8 shift e.e doe 'a. «Α \ as Lx g, ι vx _K sv_'ik of 10 cutting edges

? Λ 8, i0 cutting audkrtásanai vgy Eick ^v Kia's is <akitasra leave for that one case Ebony truss elements szögiem 5 ⁷ HCC what the slope close to the U-2 3 motherboard Kepo,

Lzt's Followers.,.! for one of the "l prolii time, l.mte't space is fixed in pairs, with the angular eclectic elements 5, with their four cutting fillers 8, they are placed on the base plate of the profile 2 13 y y. elements with 6 numbers o / en χ / akasz.i ahik / aro mouon '.l ctos.cJik for 2 V pro'll 4 stems and 1 in this section? ltege </ '. evening sewing belt mg' pike cause.

^{Ϊ Ζί} _{ .ν *? ' ^ωνη ' ^{! y> uh e / vr>} ' ^ Togacel elements Align with their other 10 cutting edges to the motherboard 3 of another 2 U profile placed opposite to the previous 2 1 'profin. Maid brain.me/ets the bevwet'i along the cutting edge of the next 5 slogans b.), Place it. in such a way that the 1.1 esuespmus of the aoou kel 5 word elves come together

At this point, this portion of the legs 6 of the angular steel members 5 is sealed to the legs 4 of this profile 2, and is secured thereto by welding seams 12.

/ When assembling the lattice support l as above, both ends. 21 end closures. in such a way. that the flat iron used for the end closure 21 is perpendicular to each of the 2 l prolioles

Finally, the fabulous I dance, as above, has 2 outer faces on each of the 3 baseplates of both IJ profiles 2? with insulation tape Shirts el.

In another possible embodiment of the lattice support according to the invention, first I write "utgk e'o n" ..on exage ^ 'a, I' -ece el vk. <! X rmeon, that one of them is an iron? emsK mcg.ce ov j \ eml sck & »m the other end of the 18 edges of the cutting edges \ 10.18 v ugari edges jjakskn.is also found that the respective lattice holders fall in ^; 3 f-steel elements 1 * lubricating elements what are the angles of the 2 zár profile 3 sub & plupfehu. in comparison.

b n followed by. the T-steel elements 13 are fixed in pairs at one of the pre-measuring positions of one of the U profiles 2 so that they are placed by their cutting face 16 at their apex 17 at the base 17 of the profile. -Steel Elements I5 TwistedThis section of ours will be shape-forming ii? ed \. 2 U profile for 4 stems. and in this section, they are secured with 12 welding seams.

The flavor of these 13 T-steel elements along their other 18 cutting edges is the same. it is glued to the motherboard 3 of another 2 U profile parallel to the previous 2 IJ profile. Then, on the same surface, place the next T-steel member 13 along its cutting edge 18. such that the two T-steel members 13 touch each other along their cutting edges 18

This section of the cross members 15 of the T-steel members 13 is then form-locked to the legs 4 of this 2 U profile and secured thereto by welding seams 12, and both T-steel members 13 along the cutting edges 18 of the legs 14 fixed to its motherboard al 'weld ^ vauanaL

When the lattice support l is assembled as described above, both ends are provided with 21 end closures. such that the flat iron used for the end closure 21 is perpendicular to both 2 U profiles.

Finally, the base plate of each of the 2 U profiles of the base plate 3, assembled as above, is exterior (provided with a dielectric strip 25)

For the above ΰ-mertc'.cti solution, we are on a mesmerizing journey. 3, which is shown in Fig. 3, is k-ulak.tusul ss, which is I 'l-.n, J ». lenek one 'egei fi) cutting edge while the other end 18 utgas' d el l.erúhuk out alas uasr?

One possible application of the thermal lattice wall structure according to the invention is the use of a lattice lattice .f.k.mna.usa. twice □. · for lowering and lowering the U profiles 20 in a known way. This is when the exterior io walls and interior partition walls of the building are designed as planned.

The applied lower profile 20 and upper 30 'profiles are milled _; ? in a workshop, and if necessary, for example, in the case of fake windows, it is made with gcr \ agas. to ensure that only the appropriate incidents and recordings are made on site. Where appropriate, the user. 20 al <c V profiles vs 3u letso U profiles 23 motherboards az p <«n * i \ n i><i i ''. . I \ λ * μ'χ '.artos two. * vk .uu leste .. un xk.il, these are supplied with Joie welding screws. that the hdysmom can be easily configured with the kgrglikihih csasarnzás mode.

Subsequently, the 24 lugs of the lower profile profiles 2u are exposed and are perpendicularly heated to the base plate of the lower L proie 20 through the end closures 21 of the lugs 1 and the screws 22 are secured by their lower points to the other ends of the lugs U profiles. maid is fastened from the 22 screws segusegevv, the taste followers are ί derek-z yt: sa; \ oku.d or the ⁵ node tab designs deteks / ι <_u, -v. tko re, what .e / ^ se 2osxg.'sj _r flavors 2 are acidic to the inner surfaces of the 24 legs of the <> 30 upper> profile are smeared with a drop of rain / .ites node 1 & 1 connections. For this, hug5 can be formed on the heiso edges of the corners 24 by the angles 2o, whereby the lower U prolii 20 and the upper l prolii 30 are to be formed by a notch 24.

The positioning of the angles 26 makes it possible to rog the sides of the walls in the proper way, as shown in abc. strive to be placed at the corners: I hold the grid, nogv let them fasten the 29 covering elements

By positioning the angular irons 26, it is solved that the outer surfaces of the corner protrusions o megíe c'o. gge kttou-r ebocuun a '9 huaa elea ^ ka \ lne i 26 threads in all 20 lower C profi'rev. amid the '0 top (they have to be fired at profile properly bored ip'e> 2 ^' η Ιο o Oiek army vo. ekem ^ get htzörettan re.

Like the ones below. I got a good deal on the 2 ye profiles of their villages, I raesostart. of the motherboards of the motherboard in a known manner, for example, by fastening the cladding members 29. Thereafter, the walls of the walls are filled with heat insulation material, and the lower U profile 20 and the bridges 41 of the bridges 41 are placed outside the upper l · pronl 2 · + legs.

To this tracker "i 1 ik'k on so A *" 'cn> i' falls on the rail "i> kfö" m For example, data is plastered. and the outside of the outside is provided with thermal insulation S1.

A kunok ut.ai M «! Asitm _; tdsze: \ e.reieMC ^ erly to place the slab. do you read me? The beams of 34 1 are found by the founders of the oO upper proline. The beams 34 are disclosed for lower timber industry so talak'.ene kcm'iKk; ^ ht. _? e. \ 's ~ e fe'u> reil a oS éouőkpuk. The beams of the 34 I beams are made of cushion trees 42, in order to provide even gates. Maid the vapor barrier foil 40 is affixed to the 42 parnafA, and then crosses the ty? purnatcldR '/ kcrühiuk for attaching the 35 cushion trees to which regionA i beAo t «, n» t re bi.'M v re, e iols ^ζ οιaer g'ps / ka ^r Km sheets

Vvgu. a.ili gereroax Rozi * makes 12 nos'igeiem umavgul is expended. The slab created in this way is kvpe / .iet. zaro slabs., .imcly with a ty-foil insulating layer, and a monon known for Arii: a zare rcteg But with a brain to build this slab new levels can take e'he ^! ve to.

The solution of the present invention would achieve. that the rails formed in this way have a higher subcomparity and load bearing capacity at present / v'ti lattice emskh-v kp ^ s', and this. Allows application of angles and T-sections with smaller cross-sections. they can be used to create a non-heat bridge timber structure.

.ovabbi e of'vc \ re \ yvoi'-u i tg '^ zereen' -'ere tcuA V '^ application of the building nails., can be precisely assembled in such a way that almost all components are assembled on site.

Claims (7)

SATURDAY CLAIMS: Lattice bracket reinforced with angular elements I (which are formed with a profile), which are opposed to each other in parallel to each other and are formed from 1 'pr <and elongated lance 1' prufih connecting elements, characterized in that the lattice bracket {I) is defined by kereszímetszeteben. with the base plate of the U-profile (2), the walls are fixed in a locking manner with the tilting angles of the elements (5) and (5) in front. that color <pawl elements ¢ 5: in booze. the cutting faces (u $) of the U profile (2) on their motherboard (t?) are at their vertex / iles / tes ^ -l in the 'bg / suc' way. where the xzögacé 'v leys; 5) the number (Oi form of this section) is offspring of the I ^! profile (2) for the legs (iá). and in this section into your welding products! i) 12) (fixed together, and though these angled members (.5) their other cutting members (10) are fitted to the * 2 '»motherboard of the other prole II of the lattice support (J) ¢ 3:. the same s / og steel element (?) cutting; edge reset: <J0: wow matched, principle modem is that the angle spnm (II) of this nail is contacting each other and the angles of the angles ¢ 5) this section of its shit (o) fits in this t ^! profile (2) for studs (4), eseu with welding seam 02: are mounted. and '• zug.ieel elements ¢ 5: togzfiese welding on l' profiles (?); stitched «12: is formed and the ends of the 1 'profiles (2) are finished.iuts ¢ 21: kend rogzuS's .. e ^ the lattice tat te fi) on both Γ piofiljatiu.k (2t motherboard. 3: knlso ielfileèere heat insulation tape < 2 ?: has a clot. 2. The lattice support formed by profile I, a rigid net lattice support with 1-acetate elements, in the form of a profile I located in a carbon fiber, parched with the profile, characterized in that the lattice support (1) is a U profile (2). cross-section of the U profile (2: <. aplnp auak í '>:? í é o klalekie v.m.kn, with two 1 - <,> el c understandings along ¢ 1 ^ ^ igo e'k, such that the Γ-steel elements fi 3: the plane (15) of the transverse axes with the base plate of the U-profile (2) ¢ 5} a, if the tla'filter is closed, ex a. elek bt trained SZTNHM 00106802 their peaks d7) are in contact with each other. es a 1 -.κνί eiemd> (Γν a <l pmfibo ^ í2j for their stems {i 4} vaga.á in principle (along with the horse xamav l'ege- ^ nes 'is here.'. (12) the l πγ · μΙ { my motherboards / (3) and kems / telentemel · ife) along the extreme eV legest-vaiial.okkai (there are .a, 1 'pmúl t'} s / anim.ik (4) bedo ⁺ ddeh mez logz ive i l-.ue are the other cutting edges of tmi (1XI are fixed to the other l prolnia> 2} of the lattice rhIo 111. oh way, these cutting edges of hoex are tlX) the inner part of the ni.mík l ptophile (?) board (X) leksilen leks / enek winter sems / idemcik d5) their cutting elements fit along d X) .the following l-aed fall (J3 '> similar way dkep-'cn keíe.siciemiik d ^' cutting elements <JXJ. and a I ~ aVl (lú v <u.'e.si edges (1V rescue heaes / body or wheel (12)) (aligned to 1 stems (14) elements (3k eb swinging elements d5X bellows nwudi are iscgV'Vtcsi proül (2> with basic seams (12) of the l -uee elements <m'í iou / ne.se the d fdületcre insulating * zitlag (2Ή is hanging / jtxc '. X 2nd demand pony s / erinti lattice taito. characterized by it. that the I-steel elements (one end of I H with cutting edges <18 ») are formed, while the other end is formed with cutting edges (IV). Lattice bracket according to claim X / I- ', characterized in that the lattice tanks (J) are clog / neo smgaeel elements (5i T steel elements ¢ 131 u inclination 30'60 preferably 45 °). 5 \ z Requirements 1-4 pmm <k according to any one of kkJakuou trays holndmvntes lah / etke / ct kiahikmis. which you record for rmsos docs from imikem elements, valumii c terei kndio bos / metelo ausaebd crafted: s.-: with that. so that the pro-fluk (? 0i waxes per mg and the d -'-o-lics i20) is swallowed (2'4) co. these amelxes end / others <.21} kctesz? esuxamzass (221 have rogzttxe. v> other end of raesoákalos (1) x unnak raixttxe esav aro zas'kd <22'ia ielso 1 'profiles <3bk and right angles xagx a I nnopunh fai designs right angles xail floating aUe. s / ogwarts (in vi oh mode, sorry a ^ / ogwires i '©) .5 / bottom Γ proiil {20j C a eho l ριοίΐ,> 01 horns {24} beho ielidibibcz are known in the way v'> av cinema iogzthe. ex a I vsnmopont · wall esaÜakt> znaL aha l pro! <21 © and the top ptophile {50} In the Pb k notched <2 ~) these s / ögx.ixak {2f © are made cs. / igv Joalhroti kJ '/ dkí xn {' set the framemaker {1) 1 'profiles <2) motherboards (3) exterior and beb' >> would do emg icg / iive the hmlvlo elements (.20) and belv the inside of the bowls are hos / jgeiek 'amacgal t' 2l are kololivc Semifinals / shadows of a 6 V 'point of interest characterized by. bngv for building elements on the interior of the building (2) drywall sheets (. '»>}. 7, 6 The claim s / erinn i'als. characterized by hogv {.2} hosvig (311 xan fixed) on the casing on the outer space of / epule.