EP1911923A2 - Latte isolante - Google Patents

Latte isolante Download PDF

Info

Publication number: EP1911923A2
Authority: EP; European Patent Office
Prior art keywords: heat; strip; insulating strip; insulating; gap
Prior art date: 2006-10-13
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 Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.): Withdrawn

Application number

EP07020051A

Other languages

German (de)

English (en)

Other versions

EP1911923A3 (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.)

2006-10-13

Filing date

2007-10-12

Publication date

2008-04-16

2007-10-12 Application filed by Raico Bautechnik GmbH filed Critical Raico Bautechnik GmbH

2008-04-16 Publication of EP1911923A2 publication Critical patent/EP1911923A2/fr

2010-08-25 Publication of EP1911923A3 publication Critical patent/EP1911923A3/fr

Status Withdrawn legal-status Critical Current

Images

Classifications

- E—FIXED CONSTRUCTIONS
- E06—DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
- E06B—FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
- E06B3/00—Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
- E06B3/54—Fixing of glass panes or like plates
- E06B3/5409—Means for locally spacing the pane from the surrounding frame
- E—FIXED CONSTRUCTIONS
- E06—DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
- E06B—FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
- E06B3/00—Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
- E06B3/04—Wing frames not characterised by the manner of movement
- E06B3/263—Frames with special provision for insulation
- E06B3/2632—Frames with special provision for insulation with arrangements reducing the heat transmission, other than an interruption in a metal section
- E06B2003/26332—Arrangements reducing the heat transfer in the glazing rabbet or the space between the wing and the casing frame
- E—FIXED CONSTRUCTIONS
- E06—DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
- E06B—FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
- E06B3/00—Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
- E06B3/54—Fixing of glass panes or like plates
- E06B3/58—Fixing of glass panes or like plates by means of borders, cleats, or the like
- E06B3/62—Fixing of glass panes or like plates by means of borders, cleats, or the like of rubber-like elastic cleats
- E06B2003/6238—Fixing of glass panes or like plates by means of borders, cleats, or the like of rubber-like elastic cleats having extra functions
- E06B2003/6244—Fixing of glass panes or like plates by means of borders, cleats, or the like of rubber-like elastic cleats having extra functions with extra parts sealing against the bottom of the glazing rebate or against the edge of the pane

Definitions

the invention relates to a heat-insulating strip which is arranged in a gap between the frame profile of a window, a door or a facade and a surface element inserted into the frame profile.
the invention has set itself the task of improving the described prior art.
the invention is achieved by a heat-insulating strip for, in particular subsequent insertion or insertion into a gap between the frame profile of a window, a door or a facade and a surface element used in the frame profile, for example an insulating glass, wherein the heat-insulating strip at least over the thickness of the surface element extends and carries at least one protruding leg at least either in the region of the surface element or in the region of the frame profile.
the invention also includes a use of a heat-insulating strip as described for subsequent insertion into the gap between the frame profile of a window, a door or a facade and a surface element used in the frame profile, for example an insulating glass pane.
the invention relates to a window consisting of a frame formed from frame profiles for receiving a surface element, such as an insulating glass, in particular the frame profiles angled connect to each other, and between the frame profile and the surface element a glass seal is provided and on the glass seal opposite side of the surface element, a glass strip can be arranged and in the gap between the frame profile and the surface element, a heat-insulating strip, in particular as described, is arranged, in particular can be inserted.
a surface element such as an insulating glass
the invention also includes a method for producing a window in a door or a facade, wherein initially the surface element is inserted into the frame formed by the frame profile and optionally secured with spacer blocks, afterwards in the gap between the frame profile and the surface element, for example Insulating glass, a heat-insulating strip optionally as described, is inserted, and then the glazing bar is mounted or fitted with the heat-insulating bar glass bar is mounted such that the heat-insulating bar in the gap between the frame profile and the surface element, for example, an insulating glass.
a method for producing a window in a door or a facade wherein initially the surface element is inserted into the frame formed by the frame profile and optionally secured with spacer blocks, afterwards in the gap between the frame profile and the surface element, for example Insulating glass, a heat-insulating strip optionally as described, is inserted, and then the glazing bar is mounted or fitted with the heat-insulating bar glass bar is mounted such that the heat-insulating bar in the gap between the frame profile and the surface element, for example, an
the invention proposes to mount the heat-insulating strip only when the surface element, that is to say the insulating glass pane, is already inserted in the frame.
the heat insulation is improved in the frame especially in the highly sensitive edge region of a facade element.
An additional advantage is that the proposed thermal barrier strip requires less material and thus saves resources.
thermoelectric strip can be inserted or inserted loosely, with a certain play in the gap.
the heat-insulating strip can optionally be easily and quickly mounted on site by a specialist fitter in a designated gap of the window frame.
a playless design would complicate the installation.
On separate mounting options, etc. can be omitted, since the gap after the inserted thermal insulation strip is covered by the glass strip, and the heat insulation strip is thus securely mounted.
a variant according to the invention is characterized in that the heat-insulating strip has at least one connection region for a retaining connection of the heat-insulating strip to the surface element or the glass seal or the insulating web of the frame profile.
the heat insulation strip has one or more limbs not only on one side, but in a variant according to the invention on each side, relative to the surface element and the frame profile.
the legs are arranged longitudinally to the heat-insulating strip. They thus form a drainage channel with a corresponding outflow channel of possibly occurring condensed water.
the heat-insulating strip has one or more insulation chambers, which are arranged inside the heat-insulating strip and / or join next to the leg, in particular as a ventilation channel.
This has the advantage that a thermal insulation is even more efficient, as well as a moisture or ventilation barrier.
Such an isolation chamber closes already with only one leg, which is arranged for example centrally on the Dämmmann on. This one leg already divides the fold area. The effect will of course be better if several legs are provided.
the isolation chamber can be open on one side. However, the isolation chamber is preferably limited to the glass pane or the insulating bar and thus completed.
the cross-section of the isolation chamber is up to about 1 cm 2 , in particular up to 1.5 cm 2 .
the insulation chamber is thus formed by the thermal insulation strip with at least one spaced leg and the inner side of the insulating web or the inside of the frame profile or the thickness of the surface element.
the cross-sectional area is still sufficiently low to allow no convection.
the at least one leg of the heat-insulating strip is barb-shaped seen in cross-section, preferably formed in the insertion direction.
the inclination of the at least one leg results in a certain mobility of the legs and a slight inclination, whereby tolerances of the gap can be compensated.
a particularly advantageous and efficient heat-insulating strip is formed from a substantially rectangular base body with laterally projecting legs.
the first leg surface adjoins the gap in the insertion direction of the heat-insulating strip at an obtuse angle to the surface of the base body.
the protruding legs have a reliable strength and operation
the femoral head is designed to be narrower than the leg of the leg.
the femoral head is located at the protruding end of the body and is thus furthest away and the leg of the leg is located on the body and thus forms the transition to the body.
the leg surfaces run in the femoral head area pointed or trapezoidal preferably together.
the width of the heat-insulating strip in particular, is slightly smaller than the width of the gap to be filled by the heat-insulating strip. It follows that a small gap remains between the femoral head and the frame profile or the side surface of the surface element. There is thus no frictional connection.
the width of the thermal barrier strip may be greater than the width of the gap.
a heat-insulating ledge in the insertion direction has a holding area for connection to the glazing bead.
This holding area can be either non-positive or positive or cohesive type.
the glazing bead may therefore have a receiving groove for the heat-insulating ledge foot or, in a preferred embodiment, the holding region may be formed as a longitudinal groove.
the groove is formed parallel or at an angle, in particular at right angles to the extension in the gap direction of the gap of the base body.
the heat insulation strip foot extends in the longitudinal direction of the gap on the frame profile. In the In the middle of the width of the thermal insulation strip base, the groove is located in the direction of the thermal insulation element head.
the heat-insulating ledge foot is preferably wider than the gap.
the heat-insulating ledge foot at least partially fills the space delimited by the glazing bead.
the holding area has a clip, adhesive or Velcro connection. This adhesive or Velcro connection cooperates with corresponding counter-elements at the other end.
a front lying thermal insulation head is provided on the heat insulation strip in the insertion.
the heat-insulator head has angularly converging side surfaces which are preferably triangular in cross-section.
the side surfaces can converge pointed or trapezoidal in a narrow strip.
the wedge-shaped thermal insulation head can also be inserted at a smaller gap.
the top edge of the thermal insulation head is narrower than the width of the body.
the heat-insulating edge head rests against a lug projecting from the region of the gap, in particular a lug of the glass seal.
a further thermal insulation and moisture insulation is created, which also serves as a holding position limit for the thermal insulation strip.
the thermal insulation strip can thus be made more compact and shorter with less material.
the flag can protrude into the gap. It can lie outside the surface element at the height of the glass sheet lying on it and stand in the gap.
the flag can either be formed continuously or be provided only in sections.
the flag may be formed as a separate component or integrally connected to the glass seal.
the thermal insulation head may preferably have a connection region.
the connecting region interacts with the lug, the glass seal or the edge region of the surface element.
connection region is formed by a wide leg, which is able to be applied to the outer edge of the surface element. This can for example be positive.
the side of the insulating strip facing the insulating web or a limb can have a connecting region for a connection have the insulating web.
the insulating webs are webs that connect an outer and inner shell and together form a frame profile.
connection area can have a clip, adhesive or Velcro connection.
Clip-in is particularly advantageous for elastic elements when the one element is harder, for example the insulating strip, and the heat-insulating strip is somewhat softer.
the thermal insulation head can be seen in the longitudinal direction of the insulating strip, spaced interruptions. Thus, a drain of condensed water in an isolation chamber between an outer shell and the heat-insulating strip is possible.
the heat-insulating strip is preferably produced from an elastic plastic, in particular a foam, a foam with closed pores, polystyrene or polyurethane or the like. This material is inexpensive and good heat insulating.
the material is advantageously made of such a material, so that the heat-insulating strip is sufficiently elastic and kinkable to be inserted into the gap in the corner region of the frame profile.
the invention also relates to the use of a heat-insulating strip with features described above for subsequent insertion into the gap between the frame profile of a window, a door or a façade and a surface element inserted into the frame profile, for example an insulating glass pane.
the thermal insulation strip After the facade element in the frame profile was inserted in one of the last steps, the thermal insulation strip is subsequently used.
the heat-insulating strip is therefore not yet available in the frame profile before the surface element is used.
the invention as described above relates to a window consisting of a frame formed from frame profile for receiving a surface element, such as an insulating glass, in particular the frame profiles connect at an angle to each other, wherein between the frame profile and the surface element is provided a glass seal and on the side facing away from the glass seal of the surface element, a glass strip can be arranged and in the gap between the frame profile and the surface element a heat-insulating strip, in particular arranged with the features described above, in particular can be inserted.
a surface element such as an insulating glass
a window is understood to mean both a fixed window and a window with a movable door leaf.
the term “window” is thus to be understood in a broad sense.
the heat-insulating strip is loosely held inside by the glass strip.
the heat-insulating strip is loosely inserted in the gap and secured against falling out through the glass strip.
the heat-insulating strip is held by the glass seal or a lug provided on the glass seal or interacting with the glass seal.
the flag may be integrally formed with the glass seal or be provided as a separate component.
the frame profile has an inner shell and an outer shell, which are connected to one another by at least one insulating web.
the insulating web has a cooperating with the connection region of the heat-insulating strip area, in particular an undercut, a projection or the like on. There is thus a positive connection between the thermal insulation strip and insulating web. It may also be provided a Velcro or adhesive connection, which may optionally provide a cohesive connection.
the invention is characterized in a variant in that the height of the heat-insulating strip, which extends at least over the thickness of the surface element, at least equal to the distance between the inner edges of the inner and outer shell.
the glass strip In order to position the heat-insulating strip exactly in the profile frame of a window, the glass strip has a holding web, which engages in a groove of the heat-insulating strip, this holding.
a glass bead seal between the glass strip and the surface element is arranged.
the glass bead seal holds the heat-insulating strip.
One foot of the heat-insulating strip at least partially fills the space delimited by the glazing bead, if necessary, of the glazing bead seal and the surface element. Thus, an improved insulation is created.
two frame profiles are joined together at an angle in the corner region of the window and the gap is angled in the longitudinal direction in the corner and the heat-insulating strip is inserted on one side of the bend following in the gap and the heat-insulating covers the joint area.
the invention is characterized in that the surface element is supported on the frame profile by means of spacer blocks provided in the gap, and the heat-insulating strip fills the gap bounded by two spacer blocks.
the thermal insulation strip can rest on the spacer block. The thermal insulation strip is not pushed by the spacer block.
the invention also relates to a method for producing a window, a door or a facade, as described above, wherein initially the surface element is inserted into the frame formed by frame profiles and optionally secured with spacer blocks, afterwards in the gap between the frame profile and the Surface element, for example, an insulating glass pane, a heat insulating strip, preferably with features described above, is inserted, and then the glazing bar is mounted or one with the heat-insulated, preferably with features described above, glazing bar is mounted such that the heat-insulating in the gap between the Frame profile and the surface element, for example, an insulating glass, stands.
An essential advantage of the invention is that the assembly of the thermal insulation strip takes place only after the onset of the surface element.
the heat-insulating strip eg during transport of the window, the door or the facade element is lost or damaged.
the components are stored unprotected in wind and weather and the known in the art thermal insulation strips are full of water, as they are already on the components are grown. This can be reliably avoided by the proposal according to the invention.
the thermal insulation strips are not exposed to adverse weather conditions.
the advantage of the second variant, in which the heat-insulating strip is already connected to the glazing bead, is that a two-stage work step is reduced to one-stage.
the heat-insulating strip is thus, in contrast to previously known methods, set after the onset of the surface element in the frame.
a further particularly preferred variant of the method provides that the heat-insulating strip in the corner region of the gap, in which two frame profiles are joined to one another at an angle, the heat-insulating strip is inserted angled into the gap following the course of the gap.
joining is meant any type of connection, such as welding, gluing, screwing and so on.
the heat-insulating strip is loosely inserted from above, with play in the gap, and the heat-insulating strip is secured against falling out of the gap by the mounted glass strip.
the invention is shown schematically in the drawing.
Fig. 1 shows a window 4 according to the invention in a plan view, wherein the window is made of a plurality of frame profiles 8, 8a, 8b, 8c, which are arranged at right angles to each other and thus form the frame 9.
the surface element 10 for example, an insulating glass pane, inserted.
a gap 5 is formed, in which the heat-insulating strip 6 is inserted.
planar element or the insulating glass pane 10 prefferably held at a distance by means of spacer blocks 7 relative to the frame 9 or to be connected to the frame 9.
spacer blocks 7 serving as a glass support are provided on the lower frame profile 8a.
spacer blocks 7 at the upper right corner each arranged at right angles to each other frame profiles 8, 8c and prevent Diagonalverschub or diagonal offset of the surface element 10.
the spacer blocks 7 also prevent the release or falling out of the insulating glass 10 from the frame.
the substantially uniformly circumferential gap 5 results between the surface element 10 and the frame 9.
the heat-insulating strip 6 is inserted here into the gap 5.
the heat-insulating strip is made of an elastic plastic, in particular a foam, preferably with closed pores, such as polystyrene or polyurethane or the like.
the frame profile 8 is seen in section, as shown for example in Figures 2, 4, 5, 6 and 7, made of an outer shell 1 and an inner shell 2, which are connected by a plurality of insulating bars 3, here are two pieces.
the outer shell 1 or inner shell 2 is made of aluminum or the like or a hard plastic, for example, and the insulating web 3 is made of hard plastic.
the frame profile 8 may therefore preferably be a window, glare or sash made of an aluminum composite profile.
the surface element 10, for example an insulating glass pane abuts against the outer shell 1 via a glass seal 11. On the inside, the insulating glass pane 10 is held by the glass strip 12, wherein the glass strip 12 rests against the surface element 10 through a glass bead seal 13.
the glass strip 12 is held by a tool-free clip connection to the inner shell 1.
the thermal insulation strip 6 is, as shown in FIG. 2, inserted into the gap 5 and has a substantially rectangular base body 14, are provided on the laterally projecting legs 15.
the front end of the thermal insulation strip 6, the thermal insulation head 16 is not completely on the outer edge of the outer shell 1, it remains a space 17. This is additionally limited by a flag 18, which is integrally connected to the glass seal 11 in the example , The thermal insulation head 16 is at the flag 18 at us thus includes the space formed as an isolation chamber 17 a.
the heat-insulating strip has on the side of the surface element 10 and the frame profile 8 in each case three legs 15, 19 which, viewed in cross-section, are barb-shaped with respect to the base body 14, so that they secure the heat-insulating strip 6 against slipping out.
the first leg surface of each leg 15 thus forms an obtuse angle to the surface of the main body in the insertion direction.
Each leg head 15b is narrower than the leg base 15a integrally connected to the main body 14.
the width W B of the heat-insulating strip is greater than the gap width S B of the gap 5.
each insulation chamber is 67 to approximately 1 cm 2 , in particular to 1.5 cm 2 .
the main body 14 is formed substantially rectangular, wherein the heat-insulating bar head 16 is formed semi-circular in cross-section. Side surfaces 66 of the thermal insulation head 16 are therefore rounded. The uppermost edge 61 of the heat-insulating strip head 16 is narrower than the width G B of the base body 14.
a thickened heat insulation strip foot 69 At the opposite end of the thermal insulation strip head 16 from the base body 14 is a thickened heat insulation strip foot 69, the lateral, projecting from the base 14 surface parallel to the legs 15 extends.
the thermal insulation strip foot 69 also seals the positive transition of the insulating strip 3 to the aluminum inner shell 2.
the heat-insulating ledge 69 fills the space 25 delimited by the glazing bead 12 at least partially.
leg head 15b of the thermal insulation strip 6 ends as a seal in the positive connection region of the insulating strip 3 with the aluminum outer shell 1.
the insulating web 3 is made for heat insulation of a thermally insulating hard plastic.
the thermal insulation strip foot 69 may also be wider than the gap 5 in order to create a non-positive retaining connection of the thermal insulation strip 6.
the glass seal 11 is positively inserted into a designated C-shaped groove.
the glass bead seal 13 is also secured by a positive connection with the glass strip 12.
the glass strip 12 is clipped to the inner shell 2.
the heat-insulating strip 6 is in each case sufficiently elastic and bendable to be insertable in the corner region of the gap 5 from the frame 9.
the heat-insulating strip 6 on the surface element 10 are inserted laterally as an inner boundary and as an outer boundary in the frame 9.
FIG. 3 shows the inventive thermal insulation strip 6 from FIG. 2 in a plan view.
the thermal insulation strip 6 is seen in the longitudinal direction of the thermal insulation head 16, preferably at regular intervals, with interruptions 16 a formed.
the sections interruptions 16a which can also be referred to as recesses, ensure a pre-chamber drainage on the aluminum outer shell 1. It is also the main body 14 with the protruding webs 15 and heat-insulating foot 69 visible.
the front heat-insulating head 16 is located on the inside of the outer shell 1.
the front edge of the thermal insulation head 16 is partially excluded by interruptions 16a, as shown in Fig. 3.
the base body 14 in contrast to the main body according to FIG. 2, extended, so that the distances of the protruding legs 15 to each other increase.
the base body 14 thus extends with the heat-insulating strip head 16 from the inside of the outer shell 1 to the same position of the heat-insulating strip foot 69 according to FIG. 2.
the air chambers or the ventilation channel 65 also serves for dehumidifying between the heat-insulating strip 6 and the surface element 10 or the frame profile 8 .
the width W B of the heat-insulating strip 6 is less than the gap width S B and by the legs 15, 19 not adjacent to the insulating glass 10 or on the insulating bar 3, the heat-insulating strip 6 has in its heat-insulating foot 69 a groove 63, in a retaining web 22 of the glass strip 12 engages.
the heat-insulating strip 6 is formed from the height H ago so that it is at least as long as the distance between the inner surfaces of the outer shell 1 and the inner shell 2. This also also improves the thermal insulation, because the transmission of cold outside air in this critical area is minimized.
Three legs 15 are arranged on the side 60 and on the surface element 10 on the insulating strip 6.
three legs 19 are formed on the side 68 to and on the frame section 8 and insulating web 3 on the insulating strip 6.
the thermal insulation head 16 is formed in this embodiment, seen in cross-section triangular.
the side surfaces 66 converge at the heat insulating head 16 at an angle.
the thermal insulation head 16 could also be referred to as wedge-shaped. This has the advantage that the surface element 10 is displaced when inserting the heat-insulating strip 6 in order to provide the heat-insulating strip 6 with the required gap width S B.
the width W B of the heat-insulating strip 6 is smaller than the gap width S B.
the glass seal 11 has a projection or a slightly projecting lug 18, into which the heat-insulating strip head 16 can snap in or snap in as a connecting region 51 due to its triangular shape.
a further retraction movement of the thermal insulation strip 6 against the insertion direction E is not possible.
the complete connection with the groove 63 and the holding web 22 in the thermal insulation strip foot 69 ensures a safe Positioning of the thermal insulation strip 6.
the thermal insulation panel head 16 is equipped with a right to the right, that is, the surface element 10, protruding wider, designed as legs 56 latching lug which engages behind the glass sheet 10 and thus finds a positive fit.
the leg 56 thus forms a connecting region 51, which rests on the outer edge of the surface element 10.
the Wäremdämm advisornkopf 16 thus engages.
the counter element is the extremely rigid and solid surface element 10, which is not as compliant as the shortened lug 18 of the glass seal 11 according to FIG. 5.
the glass seal 11 does not extend to the end of the surface element 10, in contrast to FIG. 5
the glass seal 11 is the same as the glass seal 11 according to the embodiment of Fig. 4.
the substantially triangular heat-insulating head 16 is wider and elongated not only toward the surface member 10 but also toward the insulating ridge 3 side that the head of the leg abuts up to a retaining web of the outer shell 1 which is extended to the insulating web 3.
the remaining legs 15, 19 are, as in the embodiment according to FIG. 5, formed smaller in width W B than the width S B of the gap 5.
the width G B of the main body 14 is substantially identical in all embodiments shown.
the glass strip 12 with the glass bead seal 13 is clipped to the inner shell 2. Also, a positive retaining portion 62 with a groove 63 in the heat insulation strip foot 69 and a holding web 22 on the glass strip 12 is formed identically.
a similar arrangement is selected as in Fig. 6, except that the legs 15 are arranged here on one side, on the side on which the surface element 10 is located.
the insulating strip 3 facing side region of the thermal insulation strip 6 has a connecting portion 35 for connection to the insulating strip 3.
This connection area 35 with the insulating bar 3 may be positively formed with latching grooves and snap hooks, it may also be formed as clips, adhesive or Velcro connection.
the heat-insulating strip 6 thus remains in its position after a single installation. A subsequent delay of the thermal insulation strip 6 is substantially avoided even at later different expansions of the materials.
the insulating strip 6 may therefore be previously plugged into the holding area 62 on the glass strip 12 and be inserted together with the glass strip 12 in one operation, the glass strip 12 is clipped at the same time at the end.
the glass bead seal 13 is already mounted on the glass strip 12.
the heat-insulating strip 6, after the surface element 10 has been placed on the glass seal 11, are inserted and then the glass strip 12 is inserted with its retaining web 22 in the groove 63 of the thermal insulation strip 6 and clipped to the inner shell 2 accordingly.
the holding portion 62 is shown in Figs. 5 to 7 as a tongue and groove connection and may have a clip, adhesive or Velcro connection.
the thermal insulation strip head 16 has, as in FIG. 6, an extended leg 56 as a latching nose which bears against the edge of the surface element 10.

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Engineering & Computer Science (AREA)
Civil Engineering (AREA)
Structural Engineering (AREA)
Securing Of Glass Panes Or The Like (AREA)
Special Wing (AREA)

EP07020051A 2006-10-13 2007-10-12 Latte isolante Withdrawn EP1911923A3 (fr)

Applications Claiming Priority (2)

Application Number	Priority Date	Filing Date	Title
DE102006049104		2006-10-13
DE102006061655A DE102006061655A1 (de)	2006-10-13	2006-12-27	Wärmedämmleiste

Publications (2)

Publication Number	Publication Date
EP1911923A2 true EP1911923A2 (fr)	2008-04-16
EP1911923A3 EP1911923A3 (fr)	2010-08-25

Family

ID=38962884

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
EP07020051A Withdrawn EP1911923A3 (fr)	2006-10-13	2007-10-12	Latte isolante

Country Status (2)

Country	Link
EP (1)	EP1911923A3 (fr)
DE (1)	DE102006061655A1 (fr)

Cited By (5)

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FR2951766A1 (fr) *	2009-10-26	2011-04-29	Ouest Alu	Menuiserie avec vitrage pour baie de batiment, et profils pour la confection d'une feuillure de vitrage
FR3002264A1 (fr) *	2013-02-21	2014-08-22	Daniel Kamennoff	Intercalaire de coupure thermique pour vitrage
EP2886777A1 (fr)	2013-12-19	2015-06-24	Deceuninck NV	Profil de complément pour un cadre de fenêtres et cadre de fenêtres avec un tel profil
EP2698494A3 (fr) *	2012-08-17	2016-10-12	SCHÜCO International KG	Cadre pour une fenêtre et élément d'isolation
US10294714B2 (en)	2015-06-24	2019-05-21	Milgard Manufacturing Incorporated	Fenestration assembly

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Publication number	Priority date	Publication date	Assignee	Title
DE202010013227U1 (de)	2010-12-29	2012-04-03	SCHÜCO International KG	Flügel- und/oder Blendrahmen eines Fensters, einer Tür o.dgl.
DE202013100102U1 (de)	2013-01-10	2013-02-22	SCHÜCO International KG	Wärmedämmleiste und Rahmenprofil für ein Fenster, eine Tür, eine Fassade oder ein Lichtdach mit einem Flächenelement
DE202013100101U1 (de)	2013-01-10	2013-02-22	SCHÜCO International KG	Wärmedämmleiste und Rahmenprofil für ein Fenster, eine Tür, eine Fassade oder ein Lichtdach
CN105822185A (zh) *	2016-05-19	2016-08-03	沈阳乐道铝建筑系统有限公司	一种隔热条及保温型材

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Publication number	Priority date	Publication date	Assignee	Title
DE3406018A1 (de) *	1984-02-20	1985-08-29	Ritter Aluminium Gmbh, 7300 Esslingen	Dichtungsprofil, insbesondere fuer fenster-, tuer- und fassadenkonstruktionen
DE8814757U1 (de) *	1988-11-26	1989-01-12	Muskat, Helmut W., 2000 Hamburg	Zusammendrückbares Dichtungsprofil
CH678747A5 (en) *	1989-08-21	1991-10-31	Hartmann & Co Ag	Hinging facade window - has blocking portion pressing glazing via channel-section against supporting seal
DE4212587A1 (de) *	1992-04-15	1993-10-21	Wicona Bausysteme	Wärmegedämmtes Verglasungssystem o. dgl.
DE4321702A1 (de) *	1993-06-30	1995-01-19	Hueck Eduard Gmbh Co Kg	Rahmen für ein Fenster, eine Tür oder Fassade
FR2725753A1 (fr) *	1994-10-14	1996-04-19	Soc Et Des Profiles D Aluminiu	Fenetre ou autre element d'huisserie muni d'un appui de vitrage en fond de chambranle
DE19539244C1 (de) *	1995-10-21	1996-10-02	Broekelmann Aluminium F W	Profilsystem für Dach- und Fassadenkonstruktionen
DE29809323U1 (de) *	1998-05-23	1998-08-13	Götz GmbH, 71636 Ludwigsburg	Fenster- oder Türkonstruktion mit einem Rahmen und einer randseitig daran gehaltenen Ausfachung
AU5213800A (en) *	1999-05-21	2000-12-12	Woschko, Gabriele	Profile configuration for interrupting a heat conducting bridge between an innerside and an outer side
DE20008681U1 (de) *	2000-05-13	2001-09-20	Illbruck Gmbh, 51381 Leverkusen	In einem Rahmen eingesetzte Scheibe
DE10145616A1 (de) *	2001-09-15	2003-04-17	Wicona Bausysteme Gmbh	Einbruchhemmender Rahmen
ITMI20020556A1 (it) *	2002-03-15	2003-09-15	Hydro Aluminium Systems Spa	Elemento di supporto per un vetro o per un pannello di un telaio di un serramento
DE202004004098U1 (de) *	2004-03-16	2004-07-29	Sedlmaier, Martin	Verbesserte Glasfalzdämmung mit Hartschaumprofilen
GB2414265B (en) *	2004-05-21	2007-10-31	Architectural & Metal Systems	Bead attachment device
DE202004012332U1 (de) *	2004-08-05	2004-10-07	Aluplast Gmbh	Träger zum Aussteifen von Kunststoff-Hohlprofilen für Fenster- oder Türrahmen
DE202005004338U1 (de) *	2005-03-17	2005-05-25	SCHÜCO International KG	Wärmedämmleiste für einen Glasfalz

2006
- 2006-12-27 DE DE102006061655A patent/DE102006061655A1/de not_active Withdrawn
2007
- 2007-10-12 EP EP07020051A patent/EP1911923A3/fr not_active Withdrawn

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
FR2951766A1 (fr) *	2009-10-26	2011-04-29	Ouest Alu	Menuiserie avec vitrage pour baie de batiment, et profils pour la confection d'une feuillure de vitrage
EP2698494A3 (fr) *	2012-08-17	2016-10-12	SCHÜCO International KG	Cadre pour une fenêtre et élément d'isolation
FR3002264A1 (fr) *	2013-02-21	2014-08-22	Daniel Kamennoff	Intercalaire de coupure thermique pour vitrage
EP2770150A1 (fr) *	2013-02-21	2014-08-27	KAMENNOFF, Daniel	Intercalaire de coupure thermique pour vitrage
EP2886777A1 (fr)	2013-12-19	2015-06-24	Deceuninck NV	Profil de complément pour un cadre de fenêtres et cadre de fenêtres avec un tel profil
US10428573B2 (en)	2013-12-19	2019-10-01	Deceuninck Nv	Stiffening add-on profile for window frame and window frame comprising same
US10294714B2 (en)	2015-06-24	2019-05-21	Milgard Manufacturing Incorporated	Fenestration assembly
US10774581B2 (en)	2015-06-24	2020-09-15	Milgard Manufacturing Llc	Fenestration assembly

Also Published As

Publication number	Publication date
EP1911923A3 (fr)	2010-08-25
DE102006061655A1 (de)	2008-04-17

Publication	Publication Date	Title
EP1911923A2 (fr)	2008-04-16	Latte isolante
DE2523244A1 (de)	1975-12-11	Bausatz fuer gebaeude
CH699766B1 (de)	2014-05-15	Rahmenanschlussteil zur Befestigung an einem Rahmen.
WO2010063297A1 (fr)	2010-06-10	Système de retenue pour vitres isolantes
DE202005004338U1 (de)	2005-05-25	Wärmedämmleiste für einen Glasfalz
EP1026357B1 (fr)	2004-08-11	Profilé d'encadrement pour fenêtres ou portes en bois-métal
EP1754841B1 (fr)	2013-12-18	Profilé isolant
DE102012010028A1 (de)	2013-11-21	Rahmenanordnung für ein sektionaltorpaneel
EP1978171B1 (fr)	2014-05-07	Façade avec montants et traverses en construction modulaire
DE10223038B4 (de)	2004-09-16	Fassadenkonstruktion mit einem durch ein Dichtelement abgedichteten riegelseitigen Isolierprofil
DE69026501T2 (de)	1996-11-28	Fenster, tür oder ähnliche abschlüsse
EP0191190A2 (fr)	1986-08-20	Fenêtre ou porte ou vitrage fixe avec une vitre à l'épreuve des projectiles
EP3045649B1 (fr)	2017-06-28	Élement de feuillure de fenetre ou de porte
DE951040C (de)	1956-10-18	Fenster mit zwei oder mehr in Abstand voneinander gehaltenen Scheiben
EP0746658B1 (fr)	1997-12-03	Dispositif isolant pour façades
DE102004036265A1 (de)	2005-06-30	Befestigungselement für mehrteilige Rahmen für Fenster oder dergl.
DE202013100101U1 (de)	2013-02-22	Wärmedämmleiste und Rahmenprofil für ein Fenster, eine Tür, eine Fassade oder ein Lichtdach
AT506900B1 (de)	2010-12-15	Fassadenplattentragkonstruktion
DE2750351A1 (de)	1979-05-31	Profilkonstruktion
WO2010006626A1 (fr)	2010-01-21	Baguette de couverture
DE20112394U1 (de)	2002-01-17	Glasscheibe mit einer Randdichtung
DE1959702U (de)	1967-05-03	Fenster oder tuer mit freistehendem zargenrahmen und beweglichem fluegelrahmen je aus einem holzrahmen und einem damit verbundenen metall- oder kunststoffrahmen.
DE3941753C2 (fr)	1992-12-17
DE3134742A1 (de)	1983-03-03	"fenster- oder tuerfluegel"
AT510161B1 (de)	2012-02-15	Vorrichtung zur verbindung von wandteilen

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