EP1978171A2 - Façade avec montants et traverses en construction modulaire - Google Patents

Façade avec montants et traverses en construction modulaire Download PDF

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Publication number
EP1978171A2
EP1978171A2 EP08006190A EP08006190A EP1978171A2 EP 1978171 A2 EP1978171 A2 EP 1978171A2 EP 08006190 A EP08006190 A EP 08006190A EP 08006190 A EP08006190 A EP 08006190A EP 1978171 A2 EP1978171 A2 EP 1978171A2
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EP
European Patent Office
Prior art keywords
profile
insulator
insulator profile
module
facade
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP08006190A
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German (de)
English (en)
Other versions
EP1978171A3 (fr
EP1978171B1 (fr
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Raico Bautechnik GmbH
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Raico Bautechnik GmbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Raico Bautechnik GmbH filed Critical Raico Bautechnik GmbH
Publication of EP1978171A2 publication Critical patent/EP1978171A2/fr
Publication of EP1978171A3 publication Critical patent/EP1978171A3/fr
Application granted granted Critical
Publication of EP1978171B1 publication Critical patent/EP1978171B1/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B2/00Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
    • E04B2/88Curtain walls
    • E04B2/96Curtain walls comprising panels attached to the structure through mullions or transoms
    • E04B2/967Details of the cross-section of the mullions or transoms

Definitions

  • the invention relates to a facade, a facade module of this facade and an insulator profile, which is used in particular in the aforementioned facades.
  • facade filling elements for example glass panes and the like.
  • This procedure is well known in the art.
  • This approach assumes that a glass only on the façade can be used when the basic structure formed by posts and bars consists.
  • This has the effect that the actual construction of the facade at the construction site is made of a plurality of individual components, which is naturally relatively expensive and also dangerous. This also leads to a considerable effort, since the building must be fully scaffolded from the outside, since the windows are to mount with their considerable weight from the outside.
  • the facade consists of individually prefabricated facade modules. These façade modules are already completely glazed. Since these works can be prepared workshop side, the cost price of such facades are naturally much lower. Also, the effort to mount such elements on the site, is less, since they can be lifted into the building with appropriate cranes. Between the individual modules remains a constructional and assembly-related gap, which is afterwards to close. The solutions known here do not satisfy. On the one hand, this results in an optical inhomogeneity on the outside as well as on the inside, since the fields of the facade modules are subdivided differently than the connection area to the neighboring module. On the other hand, the gap between the individual facade modules constitutes a risk of leakage.
  • the present invention has set itself the task of improving the prior art.
  • the invention initially proposes an insulator profile which has a connection area in order to cooperate with a profile, in particular the fastening channel of a façade or module profile, and the insulator profile has a contact surface which is suitable for the direct or indirect abutment of a facade filling element, in particular one Insulating glass pane, serves.
  • the glass sheet or the Fassaden colllelement is held in a conventional manner by a pressing bar arranged on the outside.
  • an insulator profile is now provided which performs this task at least for the transport of the facade module from the workshop to the site.
  • the insulator profile according to the invention then serves to considerably improve the insulating effect, especially in the edge region of the facade filling elements or glass panes.
  • An indirect installation of a facade filling element on the abutment surface of the insulator profile is understood to mean an arrangement in which a seal, for example an outer seal, is provided between the abutment surface and the facade filling element.
  • a seal for example an outer seal
  • Variant also be waived, which then leads to an immediate investment of Fassaden Strukturllemias on the contact surface of the insulator profile.
  • connection region has a foot, which is configured in particular U-shaped or realized as Einsteckfuss.
  • the foot is U-shaped and is a corresponding designed base or strip-like fastening channel positioned so that the legs of the foot rest on the outside of the channel.
  • the foot is realized as Einsteckfuss and tubular or tube-like and has a certain elasticity. This allows the Einsteckfuss can be pressed by clamping between two legs of the longitudinal mounting channel and also finds such a secure fit.
  • additional fastening screws are provided for fastening the insulator profile.
  • At least one clamping leg on the inside of the foot on a nose-like bar which acts like a clip connection and engages snapping into the corresponding opposite parts of the module profile or mounting channel.
  • the isolation chamber has an opening and thus forms a groove-like recess.
  • a seal can be used.
  • the arrangement of this opening is preferably on the façade or module profile opposite end of the insulation profile.
  • the opening can be understood as a surface having a surface normal. Cleverly, this includes an angle, in particular a right angle, with the longitudinal extent of the clamping leg, but this can alternatively also be considered perpendicular to the installation direction of the insulator profile on the module profile or substantially parallel to a plane parallel to the facade filling element level.
  • the insulator profile according to the invention has a multiplicity of functions.
  • it is also used simultaneously as a pressure bar, in particular in the completely assembled facade.
  • On a separate addition to be attached pressure bar can be omitted after this proposal. This saves material accordingly.
  • a cover strip can be arranged with the known means, which then also covers the gap resulting between the facade modules visually but also technically (waterproof).
  • the insulator profile is formed in section substantially at an angle, in particular L-angled, and a first leg has the connection region and a second leg has the abutment region.
  • L-angled or generally angled configuration of the insulator profile the invention is not determined in any way, it can, for example, find a U- or C-shaped profile as insulator profile use.
  • the first leg occupying the connection area preferably extends at right angles to the plane formed by the facade filling element.
  • the second leg is against this substantially parallel to this plane defined by the Fassaden hypothesis.
  • the second leg has on its side facing away from the foot at its leg end a receiving groove.
  • the opening of this receiving groove is, for example, parallel to the level of Fassaden Strukturllmaschines or at an angle or at right angles thereto.
  • This receiving groove is, for example, at the area remote from the kink of the L-like insulator profile area intended. Equivalent to this embodiment is an arrangement in which a longitudinal web or strip, in particular for fastening and / or sealing purposes on the second leg is arranged in the same way.
  • reference 212 in FIG Fig. 5 referenced for the positioning of the receiving groove.
  • a cover strip attached.
  • the cover strip covers the resulting between the facade modules gap, advantageously, a clamping rubber is inserted into the receiving groove, which on the one hand provides a sufficient secure attachment of the cover and on the other hand by its elasticity also compensates for corresponding dimensional tolerances.
  • the second leg is bounded on its side facing away from the foot by longitudinally extending strips.
  • the fixing plate is preferably made of metal and is arranged flush with and embedded in the upper region of the insulator profile.
  • This fixing plate is preferably made of short pieces and is used for stable prefixing of the glass during transport and are designed so that they do not need to be removed.
  • the fixing plates which are arranged in quite a large number on the insulator profile, also a mounting base for the pressure bar.
  • the insulator profile in particular the first leg, which is oriented at an angle, in particular at right angles to the façade filling plane, carries a fastening which serves for the arrangement of an inner seal.
  • This attachment is for example as a fastening groove or as a fastening web realizable.
  • the inner seal is located between the façade or module profile arranged on the inside and the facade filling element. It is achieved by a secure seal between the rebate and the module profile.
  • this arrangement is easy to install, since the individual elements can be gradually installed with each other.
  • the isolator profile is subsequently screwed into the module profile or its fastening channel and at the same time acts as a pressure bar, whereby a ready transportable element is created.
  • the object of the invention is achieved by a facade module, which consists of frame-like module profiles, the facade module at least one Fassaden colllelement, in particular an insulating glass, having between Fassaden hypothaladen and the module profiles an inner seal is disposed and the Fassaden hypothaladen hypothaladen hypothaladen hypothaladen hypothaladen hypothalamic hormone (SBA), SBA, SBA, SBA, SBA, SBA, insulating glass, having between Fassaden hypothaliana
  • the insulator profile in the façade module also belonging to the invention it is achieved that a ready-to-build and also transportable façade module is available, the insulator profile arranged over the entire edge length of the façade filling element not only fulfilling a holding task, but at the same time also providing transport protection Façade filling element or the glass pane just at the sensitive edges.
  • Fassaden alternum As far as subsequently is often spoken only of an insulating glass or glass, so this does not limit the invention to this particular application. However, there are always all possible Fassaden alternlletti, regardless of what design and material, thereof also includes and described according to the invention.
  • the insulator profile is held non-positively and / or positively on the module profile.
  • a variety of different variants are available. This can be done, for example, by clipping, clamping, by fastening screws, gluing, etc.
  • the insulator profile acts as a pressure bar and is held by fastening screws positively on the module profile and in particular secures the Fassaden Strukturllelement during transport.
  • the structure of the facade module according to the invention is considerably simplified by this proposal, since the separate arrangement of a pressure bar is not necessary.
  • the insulator profile surprisingly takes over this additional task and can also meet this problem mechanically. The result is a well transportable, largely finished pre-assembled object that is factory-prepared and as a finished component in the building only to install.
  • a separate from the insulator profile pressure bar is provided, which is held with fastening screws form-fitting on the module profile and in particular secures the Fassaden hypollelement during transport.
  • the arrangement in this variant is chosen so that the fastening and isolation task is in turn distributed over two components.
  • each façade module itself has a completely effective pressure bar.
  • the invention is very variable insofar as the task of the pressure bar is taken over in a first variant according to the invention of the insulator profile.
  • a pressure bar is used, which is screwed over the insulator profile on this and holds the pressure bar on the isolatorprofil with its contact surface the Fassaden hypollelement.
  • each facade module has its own pressure bar, either actually objectively or functionally coupled with the insulator profile.
  • a common pressure bar provided that covers the two adjacent and together tightly acting insulator profiles of two adjacently arranged facade modules and secures.
  • the invention proposes that the pressure bar has a receiving groove in which a clamping rubber can be inserted.
  • the receiving groove is cleverly oriented in each case so that it is directed to the Fassadenhellemia.
  • the grooves of adjacent preseleists are oriented in opposite directions, a clamping rubber, which is used there, is suitable for fastening the cover strip and also allows appropriate tolerance compensation in the transverse direction.
  • a sealing profile or sealing strip is provided between the insulator profile and pressure bar.
  • This sealing tape or sealing profile increases the tightness and is used in particular in arrangements in the roof area to achieve a high density.
  • a façade which consists of at least two adjacently arranged facade modules, preferably as described, consists, with a pressing bar is disposed over the gap between the facade modules.
  • the pressing bar is therefore provided jointly for two adjacent facade modules and leads to the advantage that the outer appearance of the facade according to the invention, although it consists of individual prefabricated facade modules, does not differ from the appearance of a designed as a mullion-transom facade construction.
  • This moreover, opens up the possibility of outstripping and subdividing the façade module defined by the frame of the module profiles with the corresponding post and beam profiles in the usual way and thus of resorting to proven components and procedures.
  • the invention also achieves an improvement in the tightness of the façade according to the invention, wherein the outer pressing strip also reliably and reliably covers the gap existing between the façade modules by design and thus also seals them. Since the pressing bar is usually made of plastic, hard plastic or metal, this is also sufficient impact rain.
  • the facade modules are each mounted, but they can due to the simplicity of Work (no heavy glass panes have to be inserted into the façade from the outside) via a work basket, for example a lifting platform.
  • the insulator profile proposed according to the invention initially results in a considerable improvement of the thermal insulation in the gap region of the facades according to the invention. It serves to pre-fix the insulating glass panes, especially for transport. It cleverly picks up the outer glass seal, the outer seal. Since the entire assembly work is carried out in the workshop, assembly errors are significantly lower and the production of the elements is absolutely weather-independent. As is known, a workshop-side production is always cheaper than a site-side creation of the component.
  • the cover strip is held directly or by a clamping rubber inserted in a receiving groove by a respective insulator profile acting as a pressure bar.
  • a respective insulator profile acting as a pressure bar.
  • the isolator profile additionally takes over the task of the pressure bar, a separate pressure bar is not provided in this case.
  • the insulator profile pressure strips are symmetrically to each other longitudinally extending together and cleverly in a erfindunsdorfen variant each have a receiving groove for receiving a clamping rubber, which alternatively holds the cover strip clamping elastically or snapping with barbs.
  • the cover strip covers the resulting between the two modules gap.
  • the invention comprises several objects, namely the insulator profile, the facade and the facade module.
  • the insulator profile namely the insulator profile, the facade and the facade module.
  • feature combinations are used are conceivable, listed individually, but partially described only in one or the other subject.
  • this does not limit the invention and the application in any way only to this case described here in a particular case, features that are described in connection with the insulator profile are, of course, to be combined in the context of the facade or façade module as well as features that Façade module are described, can also be used on the facade or in the insulator profile.
  • features that are described only in connection with the facade nevertheless, to be regarded as disclosed with the insulator profile or the facade module. All of these combinations are the subject of the invention and the disclosure of this application.
  • insulator profile 1 is shown schematically.
  • the insulator profile 1 is preferably made of a hard plastic, for example polyvinyl chloride or polyamide. It is, as shown here, integrally formed, but it can also consist of several components.
  • the illustrated insulator profile is already configured with two seals, the seal 28 and the outer seal 70.
  • the insulator profile 1 is produced as an extruded component, as described, for example, in US Pat Fig. 2 is shown.
  • insulator profile is formed substantially L-like and has a vertically oriented here second leg 204 and a horizontally oriented here first leg 203.
  • connection region 2 in the lower region of the second leg 204.
  • the connection area is used holding the insulator profile, for example, positive or non-positive, to connect to the mounting channel of a facade or module profile.
  • the connecting region 2 has a U-shaped foot 20, wherein the opening of the U is oriented downwards.
  • the U is formed by two clamping legs 22, 22 ', which are interconnected by a web 21.
  • a recess 201 is provided in the web 21, which is formed like a channel. It serves as a guide for screwed through the insulator profile 1 screws.
  • the thus formed foot 20 is attached, for example, to a fastening channel 40 such that the clamping legs 22, 22 engage over the fastening channel 40 on the outside.
  • a substantially square cross-section insulation chamber 26 connects. It is limited at the bottom by the web 21 and at the top by an intermediate wall 25. Sideways side walls 24, 24 'are provided. The side walls 24, 24 'go over into the clamping legs 22, 22'. Above this first isolation chamber 26 is a second isolation chamber 26 ', which in turn is bounded by two partitions 25 and by the side wall 24 and 24''. The right side wall 24 is angled, such that the second leg 204 tapers in the middle or upper region. The result is a trapezoidal in cross-section insulation chamber 26 '.
  • this partition wall has a groove-like recess 201, which serves as the lower recess to a better guide for satisfacfanende screws.
  • this second isolation chamber 26 ' is again followed by an isolation chamber 26''. This is limited above by the head wall 202 and below by the intermediate wall 25.
  • the isolation chamber is defined by a groove-like opening 206 (better in FIG Fig. 2 seen) opened so that a groove-like recess 27 results.
  • the opening 206 allows that in the recess 27 a seal 28 (see. Fig. 1 ) can be inserted.
  • the seal 28 closes the opening 206 again and there is a circulation-free and well-insulating isolation chamber 26 ''.
  • the opening 27 is to be assumed as an imaginary area between the respective ends of the wall parts 200.
  • On this imaginary surface is the normal 209 (dashed in Fig. 2 drawn in) vertically.
  • This standard 209 is pointed or obtuse with the clamping legs 22 and 22 ', in particular at right angles.
  • the effective direction of the seal 28, based on the leg extension defined.
  • the upper isolation chamber 26 '' with the opening 206 is already at the upper end of the second leg 204 and thus in the head portion 29 of the Isolatorprofiles 1. Parts of this second Isolation chamber 26 '' but also belong to the first leg 203 which is arranged to extend substantially horizontally or at right angles to the second leg 204.
  • the first leg 203 extends to the right, wherein the thickness of the leg 203 is slightly smaller than the foot width of the foot 20 and also slightly narrower than the width of the second leg in the upper region after the taper by the oblique arranged side wall 24 ''.
  • the contact surface 3 is provided, which directly or indirectly with the Fassaden hypochllelement 7 (in Fig. 1 . 2 not shown) interacting.
  • the insulator profile 1 acts here as a glass retaining strip.
  • the underside of the first leg 203, which faces the downwardly projecting second leg 204, has a Aufnalzman extract for the attachment of an outer seal 70.
  • the receiving arrangement is formed as a receiving groove 207.
  • the opening 206 is bounded by strip-like wall parts 200, which, as shown for example in FIG Fig. 1 is shown, engage in corresponding grooves of the seal 28.
  • the strip-like wall parts 200 act as back gripping strips for holding the seal 28.
  • a similar arrangement is also provided in the receiving groove 27, which is also C-like, as the recess 27. Again, there are ribs 208 which engage in corresponding recesses of the seal 70.
  • the facade filling element When installed, the facade filling element, not shown, is located on the side at which the first leg 203 protrudes laterally beyond the foot 20. It is the task of the contact surface 3, to hold the underlying facade filling element or the insulating glass pane.
  • the advantage of the embodiment according to the invention is that the insulator profile shown here can be used both with right projecting or to the left projecting first leg 203. The profile may then only be installed in reverse.
  • the head wall 202 is thinner, as the underlying first partition 25.
  • the slightly smaller wall thickness does not impair the good insulating effect of the Isolatorprofiles 1, but has the advantage that fixing screws through the top wall 202 therethrough can be sunk to allow for example on a resting on the top surface 210 Preßelf a rich concern. Since the insulator profile is preferably produced in an extrusion process, the variation of the wall thicknesses is not a technical problem.
  • the cross section of the various isolation chambers 26 is chosen to be relatively small. In addition to the here horizontally extending partition walls 25, of course, perpendicular partition walls are conceivable to achieve a further subdivision. It has proven to be advantageous to limit the cross-sectional area of the isolation chambers to about 1 cm 2, so as to avoid the formation of a negative Lucaszirkulatiön that promotes heat transfer.
  • the recesses 27 or receiving groove 207 which are closed by the seals 28 and 70, respectively, also act as isolation chambers in the sense of the invention.
  • the fastening channel of the profile there are several possibilities.
  • a frictional connection for example, the resilient action of the clamping legs 22, 22 'used.
  • a clip connection (which would be a variant of a positive connection) are used, as for example in Fig. 4 is indicated.
  • the leg has an inwardly projecting nose-like strip and thus forms part of a clip connection with a groove in the inner seal 71st
  • this also constitutes a positive connection or retention of the connecting region of the insulator profile 1 with a profile, in particular the fastening channel or ringlcanal a facade or module profile.
  • insulator profiles 1 are used. For example, this can be seen very clearly in the two different application examples Fig. 3 and 4 ,
  • Fig. 3 . 4 is shown in section the edge region of a facade module according to the invention.
  • the façade module consists of frame-like arranged module profiles 4, wherein the facade module at least one Fassaden colllelement 7, 7 ', in particular an insulating glass pane having. Between the Fassaden hypotensus 7 'and the module profile 4, an inner seal 71 is arranged.
  • the Fassaden colllelement 7 is held by the insulator profile 1 on the module profile 4 non-positively and / or positively.
  • Fig. 3 . 4 is the terminal area of a facade according to the invention, consisting of the two adjacently arranged facade modules according to the invention shown.
  • the crescent-shaped sealing surface 212 of the seal 28 bulges outwardly, so that it closes the opening 206 'of the left insulator profile 1' nevertheless tight and insulating.
  • the existing due to the assembly gap or gap 42, 43 between the two insulator profiles 1, 1 ' is reliably sealed by this arrangement.
  • a plurality of recesses 27 are provided one above the other on the insulator profile and optionally one or both lying at a height recesses 27, 27 'of the insulator profiles 1, 1' each carry a seal 28 and so give a labyrinth-sealing system.
  • the gap 43 in the region of the two insulator profiles 1 is thereby securely and reliably closed.
  • the invention also provides that cleverly a common Preßelf 5 is installed.
  • the pressing bar 5 is thereby screwed alternately into one or preferably into both fastening channels 40 or screw channels 40.
  • fastening channel 40 which also holds, for example non-positively and positively, with the connection region 2 of the insulator profiles 1, 1 'cooperates.
  • the U-shaped foot 20 of the insulator profiles 1 on the other way oriented U-shaped screw 40 or mounting channel 40 plugged or attached and, for example, by a clip connection with a barb arrangement or due to elastic action of the clamping legs 22, 22 'fixed sufficiently fixed thereto.
  • the insulator profiles 1 with further fastening screws 41 in the module profile 4, for Example in the mounting channel 40 be screwed and thus give a secure, stable connection for transportation.
  • the advantage of the invention is, in particular, that the longitudinal screw channel or fastening channel 40 is supplied to a multiple utilization. He holds not only the insulator profile 1, be it encompassing by clamping action or screwed with mounting screws 41, but also takes in a known manner, the mounting screws whose screw heads 51 press the pressing bar 5 against the profile.
  • the pressing strip rests snugly on the top surface 210 of the upper shorter first leg 203, a full-surface pressing of the insulator profile 1 on the one hand against the profile 4 and on the other hand directly or indirectly by the contact surface 3 and the optionally provided thereon outer seals 70 to the Façade filling.
  • the result is a very stable and tight attachment of the facade modules with each other.
  • the integral pressure bar 5 completely covers the gap 43 between the two Tsolatorprofilen 1, 1 'and acts as an additional sealing level, especially if this is the back, for example, equipped with a rubber pad, etc.
  • the pressing bar 5 has on its side facing away from the facade filling elements a snap-in or clip connection for easy pressing a cover strip 50th
  • Another essential advantage of the invention is, in particular, that although this is a façade modules made from different prefabricated façade modules, the appearance of the finished façade according to the invention corresponds exactly to that of a façade made in a conventional post and beam construction.
  • the invention therefore combines the conceptually very popular design concept post-and-beam façade with the very favorable production method of a modular façade. There are no optical or design restrictions necessary.
  • the sealing surfaces are not directly exposed to weathering, but are protected by the pressure bar 5 and the cover 50.
  • the invention provides that the gap 42 lying between the two profiles 4, 4 'is closed on the inside of the facade by a spring 52.
  • the spacing of the two profiles 4, 4 ' is also intended to provide corresponding compensation lengths due to thermal expansion.
  • grooves 43, 43 ' are incorporated in the profiles 4, 4' in the region facing the inside, into which are inserted essentially U-shaped clamping rubbers 44 which hold the spring 52 by clamping, but longitudinally movably.
  • the construction according to the invention of the facade modules is not fixed to a design of the module profiles made of metal, preferably for example extruded aluminum profile.
  • the invention can be realized in the same way in any sandwich combinations or even in steel profiles or wood profiles.
  • the resulting half-post arrangement also allows for certain tolerances a certain length correction or a mounting dimension.
  • Fig. 4 shows Fig. 4 in that, in addition to the sealing area 72 between the facade filling element 7 and the profile 4, the inner seal 71 has a sealing part 73 which extends from the edge of the profile 4 inwards over the fastening channel or screw channel 40 and pulled down on the side of the fastening channel 40 facing the gap 42 is.
  • the insulator profile 1 is placed in this embodiment on this seal member 73 and forms in composite with the inner seal 71 an additional sealing plane. Penetrating water is thus reliably kept away from the mounting channel 40.
  • the L-like insulator profile on the outside also carries the outer seal 70 as described. Another difference between the two variants after Fig. 3 and 4 results from the fact that the web 21 in the insulator profile after Fig.
  • Fig. 5 is a comparison to the comparable variant Figure 4 yet a slightly different, erfindunssiee variant shown.
  • the variant shown here combines the task of isolator profile 1 with the task of pressure bar 5 in an integrally formed component. That causes a separate pressure bar, as in Fig. 3 and 4 is used, here is no longer necessary.
  • the insulator profile 1 used here has even more special features. Enlarged is this insulator profile 1 in Fig. 8 out drawn.
  • the foot is 20 in contrast to the one in Fig. 1 shown insulator profile designed differently, namely, it is realized as Einsteckfuss 211. It is easy to see that this hose-like plug-in foot 211 clampingly engages in the gap defined by the two walls of the fastening channel 40 and is held positively and frictionally. In addition, the insulator profile 1 is held by the fastening screw 51. This results in a space-saving arrangement of the mounting foot.
  • the inner seal 71 which is arranged between the Fassaden Strukturllelement and the profile 4, has a sealing flap 74, the edge strips on the attachment 215 seals tight. By impressing the edge strip of the sealing flap 74 in the attachment 215, a watertight connection between the inner seal 71 and the insulator profile 1 was produced.
  • a receptacle 212 which is realized here as a receiving groove.
  • the recording can also be realized as a Leist or bridge.
  • the receptacle 212 allows a firm connection of the cover strip 50 to the insulator profile.
  • a clamping rubber 213 is provided in the receiving groove 212.
  • Fig. 6 shows the somewhat similar structure of the insulator profile as Fig. 5
  • the insulator profile after Fig. 6 is as Fig. 9 increases out drawn.
  • the difference between the insulator profile after 8 and 9 respectively Fig. 5 and 6 lies in the fact that in the variant Fig. 6 a Einsteckfuss 211 is provided, but no recording or receiving groove 212. This is realized here in the pressure bar 5, 5a.
  • the opening of the receiving groove is again parallel to a plane defined by the facade filling surface.
  • the receiving grooves 212a and 212b of the left and right pressing bars 5a, 5b are oriented in opposite directions. Both receiving grooves 212a, 212b, each receive a clamping rubber 213a, 213b, on. They work together to keep the cover strip 50 safe and reliable, but easy to assemble and disassemble.
  • a sealing strip 14 is provided between the pressure bar 5 and the insulator profile 1.
  • Fig. 7 is an insulator profile 1 in use, as shown in Fig. 10 is shown. It essentially corresponds to the insulator profile after Fig. 9 (So with plug 211 and attachment 215 for the inner seal 71).
  • Fig. 11 shows an insulator profile 1, which similar to the solution according to Fig. 12 respectively Fig. 1 , without a fixing 215 is equipped.
  • FIGS. 13 and 12 lies in that Fig. 12 on the first leg 204 in the upper region (at the bend) the AufEnglishung 27, the at Fig. 13 does not exist.
  • Fig. 6 forms in an alternative of the invention between the two abutting pressure strips 5a, 5b, a gap which is covered only by the cover strip 50.
  • the clamping rubber 213a, 213b also serves to seal.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Load-Bearing And Curtain Walls (AREA)
  • Securing Of Glass Panes Or The Like (AREA)
EP20080006190 2007-03-30 2008-03-29 Façade avec montants et traverses en construction modulaire Active EP1978171B1 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE202007004788 2007-03-30

Publications (3)

Publication Number Publication Date
EP1978171A2 true EP1978171A2 (fr) 2008-10-08
EP1978171A3 EP1978171A3 (fr) 2012-01-25
EP1978171B1 EP1978171B1 (fr) 2014-05-07

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Application Number Title Priority Date Filing Date
EP20080006190 Active EP1978171B1 (fr) 2007-03-30 2008-03-29 Façade avec montants et traverses en construction modulaire

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Country Link
EP (1) EP1978171B1 (fr)
DE (1) DE202008004373U1 (fr)
DK (1) DK1978171T3 (fr)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2319999B1 (fr) * 2009-11-07 2015-07-29 HUECK GmbH & Co. KG Façade à éléments
CN116811943A (zh) * 2023-07-28 2023-09-29 中车南京浦镇车辆有限公司 一种可调节卡接结构、集成侧墙模块安装方法

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE202009007782U1 (de) * 2009-06-03 2009-09-17 Lindner Fassaden Gmbh Befestigungsvorrichtung für Fassadenelemente
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EP1978171B1 (fr) 2014-05-07

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