EP1754841A2 - Profilé isolant - Google Patents

Profilé isolant Download PDF

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Publication number
EP1754841A2
EP1754841A2 EP06017039A EP06017039A EP1754841A2 EP 1754841 A2 EP1754841 A2 EP 1754841A2 EP 06017039 A EP06017039 A EP 06017039A EP 06017039 A EP06017039 A EP 06017039A EP 1754841 A2 EP1754841 A2 EP 1754841A2
Authority
EP
European Patent Office
Prior art keywords
profile
inner seal
insulator
insulator profile
support
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
EP06017039A
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German (de)
English (en)
Other versions
EP1754841B1 (fr
EP1754841A3 (fr
Inventor
Rainer Vögele
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
Original Assignee
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.)
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Publication date
Application filed by Raico Bautechnik GmbH filed Critical Raico Bautechnik GmbH
Publication of EP1754841A2 publication Critical patent/EP1754841A2/fr
Publication of EP1754841A3 publication Critical patent/EP1754841A3/fr
Application granted granted Critical
Publication of EP1754841B1 publication Critical patent/EP1754841B1/fr
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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 an insulator profile between a pressing strip which is supported on the outer edge of a facade element and a supporting profile of a supporting profile construction, for example a façade or light roof construction.
  • the invention further relates to an existing support profiles, in particular posts and bars support profile construction, for example, for facades and the like.
  • facade elements are held by a pressing bar on the support profile construction and between the support profile and the facade element, an inner seal is provided.
  • facades for example, opaque facade filling elements or insulating glass panes are used.
  • the facade elements are attached in the edge region of the support profile construction, for which a pressing bar or the like is provided. This connection area is important in terms of thermal insulation, since the good thermal insulation properties of the insulating glass ends in the edge region.
  • the European Patent 1,020,578 describes an insulating element which is arranged in the gap space between two adjacent glass panes or filler panels of a facade.
  • the insulating element disclosed herein is inserted in the receiving channel, which receives the fastening means of the pressing bar.
  • a disadvantage of this configuration is that the inner seal is interrupted and forms a recess in the region of the receiving channel, and therefore no continuous sealing plane is available in the interior of the facade.
  • a continuous sealing level exists on the inside of the facade element, which the support profiles facing.
  • This sealing plane is formed either by a continuous inner seal or the insulator profile is part of the inner seal.
  • the insulator profile at least partially overlaps or covers the inner seal
  • overlap is to be understood here so that the insulator profile between the inner seal and the pressing bar is arranged, so the insulator profile in the installed state, the inner seal at least partially covers.
  • overlapping is also very broadly to be understood, especially in the manner in which it is formed in the drawing, in which the insulator profile and the inner seal, especially in the hut- or U-shaped structure, at least laterally partially covered.
  • the proposed positive or material connection between the insulator profile and the inner seal two synonymous synergistic supporting effects are achieved.
  • the positive or cohesive bond between insulator profile and inner seal improves the sealing effect in any case, especially when the insulator profile has to take over sealing tasks, for example, if the inner seal consists of several elements.
  • the positive-fit or cohesive bond also leads to a significant improvement in the mechanical stability.
  • the simple frictional attachment of the insulator profile is uncertain, since the clamping forces are insufficient to ensure that the insulator profile remains in position.
  • the dimensional tolerances in the seals are too large to use a reliable functioning, only non-positive bond between the inner seal and Insolatorprofil with reasonable certainty.
  • an exact alignment of the insulator profile is necessary for a proper sealing or thermal insulation effect, by a correspondingly firm connection, the is achieved by the inventively proposed positive or cohesive connection is ensured.
  • the positive connection is produced directly or indirectly between insulator profile and the inner seal.
  • a direct positive connection is understood an arrangement in which the insulator profile and the inner seal itself, without additional aids, learn a direct positive connection.
  • Such a configuration is, for example, a clip connection arranged between the insulator profile and the inner seal.
  • an additional element for example, a screw, clamp or the like is achieved, which positively with at least one and / or other part.
  • a direct positive connection is realized by a arranged between the insulator profile and the inner seal clip connection.
  • a clip connection is realized in such a way that an often spring-bearing element, for example a nose, engages in a corresponding recess, snaps, engages or clipping.
  • an often spring-bearing element for example a nose
  • the insulator profile carries a protruding nose without thickening, which engages in a corresponding recess of the inner seal. Since the nose is arranged on the strip-like leg of the insulator profile, the nose is also somewhat resilient or held under prestress.
  • the inner seal has a corresponding thickening or nose, which engages in a corresponding recess on the insulator profile.
  • the necessary for the latching elasticity of the two aforementioned variants can be derived either from the elasticity of the inner seal or from the elasticity of the Isolatorprofiles.
  • these two can also interact with their elasticity in the context of the invention.
  • the insulator profile is provided on its side facing the inner seal with a toothing and thus achieves a direct positive connection with the inner seal.
  • the insulator profile is formed as a reversed U, which engages over the inner seal, for example in the region of the receiving channel.
  • the insides of this U of the insulator profile now have a toothing, preferably a barb-like toothing and claw or bite into the elastic sealing material of the inner seal.
  • the multiple row of teeth causes an additional sealing effect, especially if in the U, the gap of the two abutting seal parts of the inner seal is located.
  • the solution according to the invention also comprises at least one screw, clamping bolt, nail and / or clamp, which is provided by which the insulator profile is held on the inner seal, wherein the screw, clamping bolt, nail and / or clamp either a connection between the insulator profile and the inner seal produces or the screws, clamping bolt, nail and / or clamp the insulator profile attached to the support section or to elements of the support profile or between the insulator profile and inner seal a Velcro is provided.
  • the aforementioned variants are part of the advance, which is realized indirectly as with other aids.
  • the invention leaves it open whether the screw, clamping bolt, nail and / or clamp between the insulator and the inner seal are used for a positive connection or with the aforementioned fasteners, for example, a compound of the insulator profile on the inner seal in the support profile or for example Receiving channel takes place as part of the supporting profile.
  • positive engagement is also understood that a sufficient bonding force between the insulator profile and the inner seal is impressed, for example, by a separate fastener, which leads to a secure hold of the insulator profile on the inner seal on the one hand and on the other hand to an additional sealing effect , If necessary, this force is so great that a form-fitting bond, that is to say an alignment of the contours of the insulator profile and the inner seal, which interacts accordingly, takes place.
  • a Velcro connection that is to say a Velcro strip, which cooperates with a corresponding adhesive tape
  • the two interacting sides of the insulator profile or the inner seal each have a part of the Velcro strip, which together form the Velcro connection. Due to the Velcro, which is formed by a plurality of barb-like elements that engage in loop elements, here the positive engagement is given.
  • a material connection between the insulator profile and inner seal by an integral formation of the insulator profile with the inner seal, in particular by a coextrusion or is formed by an adhesive bond.
  • a cohesive connection the insulator profile and the inner seal are actually only separated by destruction of one or the other element again.
  • Such an arrangement is of course mechanically stable and easy to position and also tight.
  • Such an arrangement can be achieved, for example, by a coextrusion process in which the inner seal consisting of a relatively softer plastic material is extruded as a profile in a common extrusion process with the insulator profile made of a harder plastic, each of the same type.
  • the processes for coextrusion are well known.
  • the insulator profile and the inner seal are each made separately and then joined together, for example by an adhesive bond.
  • an adhesive bond for example, a punctual adhesive connection already suffices.
  • a variant is included, in which a full-surface longitudinal adhesive bond (parallel to the longitudinal extent of the supporting profile) is used.
  • the gap between the insulating glass panes or between the support section and the pressing bar is reduced and / or subdivided and already thereby deteriorates the heat transfer by convection, which also leads to an improvement of the thermal insulation.
  • the above-described intermediate space is also often described as a rebate space which is arranged between the glass panes or insulating glass panes.
  • care is taken to ensure that the material of the insulator profile has relatively poor thermal conductivity, so as to further improve the thermal insulation.
  • the insulator profile has heat-insulating, ie insulating effects.
  • the insulator profile also improves the leadership of the fastener for fastening the pressing bar.
  • the insulator profile extends in the direction of the pressing bar parallel to this and is, for example, U- or H-like or similar, whereby a screw inserted into a bore of the pressing strip then already experiences a guide in the longitudinal direction of the profile.
  • the arrangement according to the invention achieves that, for example when horizontally installed in a latch, a seam separation takes place, which is favorable with regard to the formation or discharge of condensed water.
  • the insulator profile carries a rebate seal, which seals the gap between the pressing bar and the insulator profile.
  • a significant further advantage of the invention is that the insulator profile is fixed to or on the inner seal.
  • This embodiment of the invention results in a captive in production or on the site. As a captive while the fact is considered that the insulator is reliably arranged on the inner seal, so the assembly of the inner seal with the insulator profile and this can not be accidentally forgotten.
  • the inventive design leads to the fact that when unscrewing the mounting screws for the pressing bars no lifting of the insulator profile. This creates no gap between the insulator profile and the seal.
  • the invention is both in one-piece inner seals as well as in multi-part inner seals, for example, two-part or multi-part seals usable.
  • the insulator profile carries an insulating part.
  • the insulating part has the additional task of improving the thermal insulation in the rebate area.
  • the insulator profile is often made of a relatively hard material, for example a plastic material.
  • the combination with an insulation part optimized with regard to the thermal insulation property largely reduces the air space or intermediate space or rebate space, whereby the air circulation in this area is prevented or greatly reduced and thus leads to a corresponding improvement in the thermal insulation.
  • the insulating part is formed for example as a sealing lug or as an insulating element. Both variants are part of the invention, that is, the insulating part can be formed both as a sealing lug, so as a strip-like, relatively flexible element, or formed as, for example, made of foamed material existing insulating element.
  • the sealing flags as Dämmteil also the space between the insulator profile and the end faces of the facade elements and / or divided between the insulator profile and the pressing bar and the formation of air circulation, which causes a heat transfer, prevents or reduces.
  • lateral sealing lugs for example as a one-piece design on the insulator profile, preferably made of soft plastic (softer than the hard plastic of the insulator profile), reaches the subdivision of the air space and thus leads to a suppression of air circulation.
  • the soft plastic has on the one hand a certain flexibility and on the other hand a low thermal conductivity.
  • the insulating part consists for example of soft plastic or good insulating foam.
  • the insulating part is formed as an insulating element.
  • the insulating element extends in particular between the insulator profile and the pressing bar and fills this area of the intermediate space.
  • the insulating element consists of a material that has a high thermal insulation property, such as polyurethane or polystyrene.
  • the support profile is designed as a wood, aluminum or steel profile.
  • the invention can be used in any embodiment of a facade, for example in wood, aluminum or steel facades, the invention is not limited to a special material.
  • the support profile has or carries a receiving channel for receiving fastener strip holding fasteners.
  • the pressing bar is fastened by a plurality of fastening means, for example fastening screws on the support profile.
  • this is a receiving channel provided, said receiving channel is integrally disposed on the support profile, so for example in an aluminum facade in the aluminum support profile, which has been produced in an extrusion process, has been incorporated with.
  • the support profile carries a separate second part, namely a receiving channel, which then for example also consists of a different material than the support profile. It is thus possible, for example, to attach a receiving channel made of aluminum to a supporting profile made of wood.
  • the fastening means engage directly in the support profile, for example, cut corresponding screws in a support profile also formed wood and so hold the press bar.
  • the receiving channel is U-shaped. Seen in section, the receiving channel is U-shaped, wherein the opening of the U is oriented in the direction of the pressing bar.
  • the inner wall of the U so the inside of the legs, a corresponding ribbing, which cooperates with the threads of the mounting screw.
  • the receiving channel may have any other shape, wherein the receiving channel is formed like a profile, so it should also be referred to as a receiving channel profile in the context of the invention.
  • a box-like receiving channel profile in which the fastening screws and other fastening means, for example rivets and so on, intervene.
  • the receiving channel extends in particular into the intermediate space which exists between the adjacently arranged facade elements. Especially this gap is a weak point in the thermal insulation.
  • the receiving channel is covered by the inner seal and sealed and ultimately carries the insulator profile. Therefore, the receiving channel takes on a variety of tasks, he not only forms the abutment for the mounting screws, but also serves as a "foundation" or mounting base for the insulator profile, which is for example placed clamped on the inner seal and on the outer sides of the U-shaped or box-shaped receiving channel profile is supported.
  • other possibilities according to the invention are also provided, for example separate fastening strips on the inner seal or fastening strips on the support profile, on which the insulator profile is supported, or held and guided.
  • the insulator profile engages over the inner seal.
  • the insulator profile is fixed in the outer wall of the inner seal. This is done for Example in that a recess is provided on the inner seal and on the inner wall of the insulator profile, whereby a clip mechanism is formed by the resilient movement in particular of the protruding mounting leg of the insulator profile, on which the elevation is arranged.
  • the insulator profile has no hollow chambers, that is formed without a chamber.
  • the design of the insulator profile is chosen so that it has such a small cross-section that it sets no air circulation and so no heat transfer occurs. But it is also possible that the insulator profile is closed by other elements that do not belong to the insulator profile, and thus forms a closed volume.
  • the insulator profile has one or more longitudinal chambers or hollow chambers, but whose cross-section is dimensioned so that a heat transfer by convection does not take place.
  • the invention proposes that the insulator profile is held on the region of the inner seal which surrounds the attachment channel.
  • the insulator profile is held on the region of the inner seal which surrounds the attachment channel.
  • the inner seal consists of two or more parts.
  • the insulator profile is now arranged so that it covers the gap.
  • an additional sealing effect is sought by the material or positive connection, which is particularly favorable in a multi-part inner seal.
  • the gap is then below the insulator profile, the insulator profile assumes the task of the sealing level in this area.
  • the inner seal is formed like a hat.
  • This hat-like structure results, for example, in a vertical section to the longitudinal extent of the inner seal.
  • the central region of the inner seal engages over the attachment channel, theitichen ends or lateral areas form a Fassadenelementabdichtung which is arranged between the facade element and the support profile (in particular on the inside of the facade element).
  • This embodiment is possible both in a one-piece as well as a multi-part inner seal. Cleverly, however, it is sufficient to provide a two-part inner seal, as shown in FIG.
  • the invention is, however, not limited thereto.
  • the invention is illustrated schematically in the drawing.
  • the invention is shown schematically in particular in Fig. 1a.
  • the support profile is marked.
  • This is designed for example as an aluminum profile, it is designed in one piece with the receiving channel 7, as it is, for example, in an extrusion or extrusion in aluminum feasible.
  • the aluminum profile shown here but other materials can be used, for example, a steel or wooden support profile.
  • the support profile 1 is located in the support profile construction usually on the inside facing side.
  • the Support profile 1 carries facade elements 6, which are formed here, for example, as insulating glass panes.
  • the insulating glass panels are usually made of two glass panes, which are spaced by a spacer.
  • the inner seal 4 is provided between the facade element 6 and the support section 1, the inner seal 4 is provided.
  • the facade elements 6 are held by the pressing bar 2 on the support section 1.
  • fastening means 8 are provided, which presses the pressing bar 2 against the facade elements 6 and thus holds on the support section 1.
  • the fastening means 8 is provided, for example, as a fastening screw, it engages in a receiving channel 7 of the support section 1.
  • the receiving channel 7 may be formed integrally with the support section or be realized as a separate element, for example, as a tower-like receiving channel 7 (for Example with a wooden construction).
  • the receiving channel is U-shaped in section.
  • the outer seal 15 Between the pressing bar 2 and the facade element or the insulating glass pane 6 is the outer seal 15. On the outside is located on the pressing bar 2, a cover strip. 2
  • the inner seal 4 is integrally formed in the embodiment shown here and hat-shaped. In this case, the middle, raised region 18 covers the receiving channel 7, which likewise projects into the intermediate space 17.
  • the construction of the inner seal is substantially symmetrical, in the edge area the sealing area 19 is provided, which in particular seals the intermediate area between the supporting profile 1 and the facade element 6.
  • the middle portion and the sealing portion 19 are connected by L-type connecting portions 20.
  • the entire inner seal 4 is formed profiled and strip-like and naturally extends along the edge of the facade element. 6
  • the hat-like configuration of the inner seal 4 serves to cover the receiving channel 7.
  • the receiving channel 7 is U-shaped in section, but it can also be realized differently. By standing in the receiving channel 7 in the intermediate space 17 of this gap or seaming space 17 is already reduced accordingly and thereby reduces the area to be insulated accordingly.
  • the insulator profile 5 is seen in section, at least in the lower region U-shaped, such that this U alsstülpbar or attachable to the central region 18 of the hat seal. On the whole, this is U-shaped or H-shaped or similar, wherein the specific embodiment of a U- or H-shape is derived, or sub-areas U- or H-like.
  • the fixation of the insulator profile 5 on the inner seal 4 is designed such that the downwardly projecting Mounting leg 12, 12 'between them receive the hat-shaped central region 18 of the inner seal 4. Since this central region 18 in turn bears against the receiving channel 7, the insulator profile 5 ultimately protects itself indirectly from the receiving channel 7. The central region 18 can not escape, this is applied to (a U-shaped) receiving channel 7 at.
  • a thickening 13 is provided (see Figure 1 c).
  • This thickening 13 is provided on the inner seal 4 facing side like a nose.
  • the inner seal 4 carries on its side facing the insulator 5 side, in the central region 18 a recess 14 which cooperates with the thickening 13, for example in the manner of a clip connection.
  • the recess 14 is located at the end of the connecting region 20 or at the beginning of the central region 18 in the region of the inner seal 4, which is oriented substantially parallel to the longitudinal extension of the mounted fastener 8 in the installed position.
  • the arrangement is chosen so that when mounting the insulator profile 5 on the inner seal 4, the insulator 5 is pushed onto the web-like central region 18 until the thickening 13 engages in the recess 14 and holds einkrallend.
  • the advantage of this embodiment is in particular that the groove-like recess 14 can be incorporated in the manufacture of the inner seal 4 in a simple manner.
  • the thickening 13, which protrudes as a strip-like heel or nose, can also be provided in the insulator profile produced in an extrusion process. However, this results in a mechanically strong Connection that ensures that the insulator profile is not lost, for example during assembly or transport.
  • the insulator profile 5 is H-shaped or similar, wherein the upper region of the insulator profile is narrower than the lower region of the seating area that overlaps the central region 18 of the inner gasket 4.
  • the insulator profile 5 is constructed substantially symmetrically, wherein the guidance of the fastening screw 8 is facilitated by an angular configuration of the intermediate struts 21.
  • the intermediate struts 21 connect the two side parts 22, 22 ', which form the fastening legs 12, 12' in the lower region.
  • the angular configuration of the intermediate struts 21 is chosen so that the angle goes in the direction of the receiving channel 7. The angle is preferably in the middle.
  • the height of the insulator profile 5 can be selected.
  • a comparatively thin insulating glass pane 6 is provided; in the right-hand embodiment (FIG. 1 b), this is thicker.
  • the insulator profile 5 is correspondingly adjustable in height.
  • it then has a plurality of intermediate struts 21, the lowest Intermediate strut 21 is located at a plurality of points or edges or over the entire area on the central region 18 of the inner seal 4.
  • the intermediate strut 21 is penetrated in sections by the fastening means 8, usually the fastening means 8, for example the fastening screws 8, are inserted at a distance of 20 to 30 cm.
  • the advantage of these edges or edges 24, 24 ' is particularly clear in the embodiment of Figure 2.
  • the insulator profile 5 is U-shaped in the direction of the pressure bar 2 and forms a receptacle 10.
  • a rebate seal 25 can be used, wherein the rebate seal 25 has a sidecut which cooperates with the inwardly projecting edges 24, 24 'in such a way in that the seam seal 25 is fixed and held.
  • the seam seal 25 seals the insulator profile 5 from the pressure bar 2 down.
  • the seam seal 25 is symmetrical and has two sealing strips 26, 26 '.
  • retaining strips 40, 40 ' are provided on the support section 1 side. These retaining strips 40, 40 'engage in corresponding recesses 41, 41' of the inner seal 4, which are provided in the sealing region 19 on the support profile 1 side facing.
  • the arrangement of the retaining strips 40, 40 ' can be provided both on the support section 1 as well as on a receiving channel 7 forming profile, which is carried out independently of the support section 1, so as a separate component.
  • FIG. 3 shows the use of sealing lugs 31, 31 '.
  • the sealing lugs 31, 31 ' divide the gap 17 on.
  • the result is a partial gap 33, 33 ', wherein the configuration of this partial gap 33, 33' is dimensioned so that as possible no heat transfer (for example, by convection) sets.
  • Another advantage of the invention lies in the fact that between the sealing lug 31, 31 'and the side or end face 16, 16' of the facade elements 6, 6 ', a small gap 35 remains.
  • the arrangement is such that this gap results, whereby a bending stress of the sealing lance 31, 31 'in particular in the connection region 34, where the sealing lug 31, 31' to the side part 22, 22 'and the mounting leg 12, 12' connects, is avoided , Such mechanical stress could otherwise lead to tearing or breaking off of the sealing lug.
  • the gap that results is small so that little or no air circulation results. If the intermediate space 17 is subdivided by a plurality of sealing lugs 31 (not shown here), the result is a type of labyrinth seal with an even lower tendency to convection and higher, that is, better insulating effect.
  • the insulating member 30 is integrally formed with the insulator profile 5.
  • the insulating part 30, here designed as a sealing lug 31, is for example made of a soft plastic to give a certain flexibility, whereas the cooperating with the inner seal 4 insulator profile 5 made of harder plastic, for example, hard plastic, to a certain mechanical stability For example, to have for screwing the mounting screws 8.
  • the rigidity of the insulator profile 5 also results in a secure connection or fixation of the insulator profile 5 on the inner seal 4.
  • the insulating part 30 as a separate from the insulator profile 5 component, for example as a slip-on form.
  • a Aufsteckprofil is attached, for example, to the insulator profile 5 and subdivided in a suitable manner also the gap 17.
  • the insulating part itself is formed in several parts, ie from a Plural of each attachable sealing flags, for example.
  • the insulator profile 5 is H-shaped or similar in section and has only one intermediate web 21. According to the invention, therefore, an insulator profile 5 is provided that is equipped with one or more intermediate webs 21.
  • the gap 17 is thereby reduced by further, strip-like elements that can be used with the insulator profile 5, for example, at the receptacle 10. However, such additional parts (not shown) do not count toward the insulator profile 5.
  • FIG. 4 shows a U-like configuration of the insulator profile 5.
  • This U-shaped configuration is oriented with its opening just the other way round, as the U-shaped configuration of the receiving channel 7.
  • the U -shaped embodiment of the receiving channel 7 is used for pressing bar 2 and a preferred variant of the invention.
  • the insulator profile 5 carries in this embodiment, another variant of the insulating part 30.
  • the insulating part 30 is formed as an insulating element 32, which seen in cross-section large areas of the intermediate space 17 fills.
  • the strip-like insulating element 32 has lateral ribs 36 which, forming a gap or forming no gap, lie directly against the sides or end faces 16, 16 'of the facade elements 6.
  • the insulating element 32 shown here is also applied to the pressing bar 2 and is optionally pressed by this against the insulator profile 5, or the insulator profile is fixed by the insulating element 32 on the hat-shaped central region 18 of Inner seal 4 postponed. Air gaps are thereby avoided, a circulation suppressed.
  • the insulating element 32 is preferably made of a foamed material, for example polystyrene or polyurethane and the like, as is customary for example for thermal insulation elements in use.
  • the insulator profile 5 and the insulating element 32 are each designed as a separate component and connected to each other, for example, by a bond 37 in the contact surfaces. But it is also possible, even the insulating element 32, as well as the sealing lug 31 shown here, integrally formed with the insulator profile 5 and so that insulating member 30 to realize.
  • the intermediate space 17 is subdivided by the ribs 36 and the sealing lug 31 into a multiplicity of individual partial intermediate spaces 33, the cross-sectional area of which, if possible, is so small that no air circulation is established.
  • the rib-like design of the insulating element 32 provides a certain tolerance compensation in the insulating element 32, protruding material of the ribs 36 is then pushed away laterally, the resulting partial spaces thereby somewhat reduced, but does not hinder the assembly.
  • the invention can also be realized with a support profile 1 designed as a stretch post 45.
  • the support profile 1 consists of two profile parts 50, 51 which are movable relative to each other so that they can stretch slightly. This is realized in that, for example, a profile part 52 of the first post half 50 engages in a groove-like recess 53 of the second post half 51.
  • the two post halves 50, 51 each also have a retaining strip 40, 40 'for the inner seal 4.
  • the inner seal 4 is also divided, that is, the inner seal 4 consists of several elements, in the example shown here of two halves.
  • the gap 46 is located in the center plane, in the region of the axis of symmetry. It is located below the web 21 of the Isolatorprofiles 5.
  • the arrangement is chosen so that the clip connection or fixation of the insulator profile 5 on the inner seal 4 is so strong and reliable that no moisture can penetrate through the seal. This is achieved by correspondingly narrow tolerances in the design of the insulator profile 5.
  • the insulator profile 5 is formed as described in Figure 1a.
  • FIG. 6a shows a further variant according to the invention.
  • the fastening means 8 for example a screw
  • the pressing bar 2 is held in the receiving channel 7 and thus holds the facade elements 6.
  • FIG. 6a also shows the use of an indirect positive connection by the fastening screw 80.
  • the fastening screw 80 is screwed into the insulator profile 5.
  • the insulator profile shown here 5 "rides” on the inner seal 4.
  • the hat-shaped inner seal 4 spans the receiving channel 7 and on this saddle-like configuration of the inner seal 4, the Befest Trentsschenkenl 12, 12 'of the insulator 5 are placed.
  • the insulator profile 5 with respect to the legs 12, 12 'in the direction of the pressing bar 2 slightly receding side parts 22, 22' on. These side parts 22, 22 'are connected by two intermediate struts 21, which are here V-shaped.
  • a dovetail guide 53 formed by the above C-type endings, in which the insulating element 32 is inserted with a clamping clamped such that the foot 38 of the insulating element in the dovetail guide 53rd is held.
  • the insulating element 32 fills the gap up to the pressing bar 2 and divides this gap.
  • a screw head of the screw 80 is arranged in the bottom of the dovetail guide 53, which is formed by the upper web 21, a screw head of the screw 80 is arranged.
  • the insulator profile 5 is screwed through the inner seal 4 into the receiving channel 7, a parallel to the support profile extending screw.
  • the same fastening technique is used as for the pressing bar 2 by the fastening screw 8.
  • By screwing the screw 80 a corresponding holding force between the insulator profile 5 and the inner seal 4 is generated.
  • This solid composite which results in particular by the cutting of the threads in the walls of the receiving channel 7 (positive engagement), is a possible variant of the indirectly formed positive connection according to the invention.
  • a clip connection is additionally arranged.
  • These two measures clip connection and screw with screw 80
  • clip connection and screw with screw 80 can optionally also be used simultaneously, but often only one or the other variant is provided.
  • Fig. 6b corresponds to the arrangement of Fig. 1c.
  • the double design with direct and indirect positive locking can be favorable, for example, for mounting purposes.
  • the V-shaped configuration of the intermediate strut 21 leads to a corresponding guidance of the fastening screw 8 or 80 to be screwed, since it wishes to penetrate this at the lowest point of the V-shaped intermediate strut 21 and thus experiences a corresponding guidance.
  • the underlying intermediate strut 21, which rests directly on the inner seal 4 is also V-shaped and aligns in the same way the preciselycardende screw 8, 80 from. This allows the screw 8, 80 safely and reliably in the screw of the receiving channel 7. The same is of course possible with appropriate nails or bolts.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Civil Engineering (AREA)
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EP06017039.6A 2005-08-17 2006-08-16 Profilé isolant Active EP1754841B1 (fr)

Applications Claiming Priority (1)

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DE200520013103 DE202005013103U1 (de) 2005-08-17 2005-08-17 Tragprofilkonstruktion mit Isolatorprofil

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EP1754841A2 true EP1754841A2 (fr) 2007-02-21
EP1754841A3 EP1754841A3 (fr) 2008-01-09
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GR1006160B (el) * 2007-06-12 2008-11-25 Αλκο Ελλας Αβεε Αλουμινιου Τροπος στεγανωσης μεταξυ προφιλ τραβερσας και προφιλ κολονας
CN103510642A (zh) * 2012-06-15 2014-01-15 上海德意达门窗有限公司 一种节能型铝木复合幕墙
EP2743421A1 (fr) 2012-12-14 2014-06-18 SCHÜCO International KG Façade ou toit vitré, profilé isolant et procédé de fabrication d'un profilé isolant
EP2787139A1 (fr) * 2013-04-02 2014-10-08 Alcoa Aluminium Deutschland, Inc. Élément d'isolation résistant au feu
CN107626455A (zh) * 2017-10-30 2018-01-26 佛山市南海九洲普惠风机有限公司 一种高绝缘度的电场结构
EP4310267A1 (fr) * 2022-07-18 2024-01-24 HUECK System GmbH & Co. KG Façade ou toit vitré avec un profilé de verrouillage ou de poteau

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DE202007015301U1 (de) 2007-11-03 2009-03-19 Raico Bautechnik Gmbh Tragkonstruktion, insbesondere für Fassaden und Wintergärten
CN102865014A (zh) * 2011-09-06 2013-01-09 苏州苏明装饰有限公司 多功能隐框窗系统

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EP1020578A2 (fr) 1999-01-18 2000-07-19 SCHÜCO International KG Elément d'isolation situé dans la fente entre deux panneaux vitrés ou de remplissage d'une façade ou d'une toiture vitrée

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EP0702114B1 (fr) * 1994-09-13 2000-02-09 Gerhard Kaese Ensemble d'éléments de fixation pour bardage à façades
DE19830087C2 (de) * 1998-07-06 2000-09-14 Gutmann Hermann Werke Gmbh Gebäudefassade oder Dachfassade mit einem Rahmenwerk aus Pfosten und Riegeln
DE29918219U1 (de) * 1999-04-09 2000-08-17 Raico Bautechnik GmbH, 87746 Erkheim Fassade für ein Niedrig-Energiehaus
DE20016913U1 (de) * 2000-09-30 2000-12-28 Schüco International KG, 33609 Bielefeld Im Glasfalz einer Fassade oder eines Lichtdaches vorgesehene Trägereinheit
DE20319975U1 (de) * 2003-02-28 2004-07-08 Raico Bautechnik Gmbh Fassade mit Dämmblock
DE20319566U1 (de) * 2003-12-17 2004-07-15 EVG Bauprofil System Entwicklungs- und Vermarktungsgesellschaft mbH Brandschutzfassade
EP1643049B1 (fr) * 2004-10-04 2016-05-25 Raico Bautechnik GmbH Construction avec profilés porteurs

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EP1020578A2 (fr) 1999-01-18 2000-07-19 SCHÜCO International KG Elément d'isolation situé dans la fente entre deux panneaux vitrés ou de remplissage d'une façade ou d'une toiture vitrée

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GR1006160B (el) * 2007-06-12 2008-11-25 Αλκο Ελλας Αβεε Αλουμινιου Τροπος στεγανωσης μεταξυ προφιλ τραβερσας και προφιλ κολονας
CN103510642A (zh) * 2012-06-15 2014-01-15 上海德意达门窗有限公司 一种节能型铝木复合幕墙
EP2743421A1 (fr) 2012-12-14 2014-06-18 SCHÜCO International KG Façade ou toit vitré, profilé isolant et procédé de fabrication d'un profilé isolant
DE102012112279A1 (de) 2012-12-14 2014-07-03 SCHÜCO International KG Fassade oder Lichtdach, Isoliersteg und Verfahren zum Herstellen eines Isoliersteges
EP2787139A1 (fr) * 2013-04-02 2014-10-08 Alcoa Aluminium Deutschland, Inc. Élément d'isolation résistant au feu
CN107626455A (zh) * 2017-10-30 2018-01-26 佛山市南海九洲普惠风机有限公司 一种高绝缘度的电场结构
CN107626455B (zh) * 2017-10-30 2024-03-19 佛山市南海九洲普惠风机有限公司 一种高绝缘度的电场结构
EP4310267A1 (fr) * 2022-07-18 2024-01-24 HUECK System GmbH & Co. KG Façade ou toit vitré avec un profilé de verrouillage ou de poteau

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Publication number Publication date
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DE202005013103U1 (de) 2006-12-28
EP1754841A3 (fr) 2008-01-09

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