WO2011147428A1 - Élément permettant de produire une lame de porte sectionnelle, procédé de fabrication dudit élément, lame de porte sectionnelle et porte sectionnelle - Google Patents

Élément permettant de produire une lame de porte sectionnelle, procédé de fabrication dudit élément, lame de porte sectionnelle et porte sectionnelle Download PDF

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Publication number
WO2011147428A1
WO2011147428A1 PCT/EP2010/003190 EP2010003190W WO2011147428A1 WO 2011147428 A1 WO2011147428 A1 WO 2011147428A1 EP 2010003190 W EP2010003190 W EP 2010003190W WO 2011147428 A1 WO2011147428 A1 WO 2011147428A1
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WO
WIPO (PCT)
Prior art keywords
profile
component according
boundary surface
insulating body
edge
Prior art date
Application number
PCT/EP2010/003190
Other languages
German (de)
English (en)
Inventor
Michael Brinkmann
Original Assignee
Hörmann KG Brockhagen
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 Hörmann KG Brockhagen filed Critical Hörmann KG Brockhagen
Priority to PCT/EP2010/003190 priority Critical patent/WO2011147428A1/fr
Publication of WO2011147428A1 publication Critical patent/WO2011147428A1/fr

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Classifications

    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window 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
    • E06B3/32Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing
    • E06B3/48Wings connected at their edges, e.g. foldable wings
    • E06B3/485Sectional doors

Definitions

  • the invention relates to a component for producing a sectional sheet with an outer peripheral surface of the component forming and at least partially made of a metallic material outer shell, facing away from the outer boundary surface of the outer shell inner boundary surface of the outer shell insulator and having at least two profile segments, a in the mounted state, a longitudinal edge of the insulating body facing the adjacent component, in the edge profile running perpendicular to the outer boundary surface, a method for producing such components, a sectional door made of such components, and a sectional door having such a sectional door leaf.
  • Sectional doors have along a predetermined by a guide rail path between a closed position and an open position movable door leaf, which consists of a plurality of along the predetermined path of successively arranged and perpendicular to the predetermined path extending hinge axes joints having interconnected components.
  • the guide rail assembly usually has a closing position of the door leaf defining approximately in the vertical direction extending rectilinear portion, the opening position of the door leaf defining and extending approximately horizontally rectilinear portion and the two rectilinear portions interconnecting arcuate portion. During the door leaf movement takes place in the region of the arcuate portion pivotal movement between adjacent components of the sekom- tion sheet.
  • the panels are usually provided with special edge profiles.
  • edge profiles are specified, for example, in EP-A-0304642 and EP-A-0370376.
  • the disclosure of these documents with regard to the shape of the edge profiles of individual components of a sectional sheet or individual sectional alto panels is hereby incorporated by explicit reference into this description.
  • the outer surfaces of the individual panels usually have a profiling or embossing with which the overall visual impression of the door is determined and which increases the stability of the components.
  • Sectional doors are commonly used for closing openings in exterior walls of buildings. In many cases, it is important to ensure a satisfactory thermal insulation when the door is closed.
  • the components or Sekomaltorpaneele used for the production of sectional doors usually have an insulating body which bears against one of the outer boundary surface of an outer shell of the components usually formed of a metallic material facing away from the inner boundary surface of the outer shell.
  • This insulating body is usually fixed by an integral with the outer shell profile segment in its position relative to the shell and not only serves for thermal insulation, but also leads to increase the stability of the components.
  • the insulating body can also be covered on its side facing away from the shell boundary surface of a cover, so as to damage the To avoid insulating body.
  • Corresponding components are specified, for example, in EP-A-0304642.
  • profile segments are executed on two opposite and approximately mutually parallel edges of the outer shell integral with the outer shell.
  • Each of these profile segments has at its edge facing away from the outer boundary surface on an approximately parallel to the outer boundary surface of the shell extending edge lug, which is foamed into the insulating body.
  • the cover assemblies of these known components are provided at their opposite and approximately mutually parallel edges with profile segments having an approximately parallel to the outer boundary surface of the outer shell extending edge lug, which is also foamed into the insulating body. In this case, a distance is maintained between the edge lugs of the individual profile segments in the thickness direction, which is bridged to avoid direct contact of the edge lug of the insulating body.
  • a strip of steel withdrawn from a supply roll for forming the desired profile segments passes through a roll former having a number of forming rollers arranged in succession along a predetermined conveying path and rotating about axes perpendicular to the conveying path.
  • a the insulating body in the form of insulating foam, esp. Polyurethane foam, forming liquid is filled.
  • the shell is then covered with a cover assembly formed by an inner shell and also usually made by cold forming a steel strip while the foam is being formed.
  • the insulating foam forming liquid can be sprayed by stationary application nozzles on the intermediate product in the form of the outer shell, wherein the amount of liquid sprayed per time is controlled in dependence on the conveying speed of the shells.
  • a flat cover assembly is advantageously used in the form of an inner shell of the type described above, which is substantially parallel to the Extending outer surface of the intermediate product and is attached immediately after the application of the insulating foam forming liquid.
  • DE 10 2007 004 081 A1 describes a refinement of the components known from EP-A-0370376 in which an edge profile is subjected to weakening processing which reduces its cross-sectional area in at least one sectional plane extending parallel to the outer surface. Although this can improve the insulating performance of the known devices, it has been found that the stability of the devices is unduly compromised by the weakening processing.
  • this object is achieved by a development of the known from EP-A-0304642 devices, which is characterized essentially in that the profile segments are arranged without contact overlapping in the thickness direction with the interposition of a separation region of the insulator.
  • the profile segments are thus arranged such that there is a plane parallel to the outer boundary surface cutting plane which intersects both profile segments, being arranged between the cutting lines of this cutting plane with the profile segments of the separation region of the insulating body.
  • the profile segments overlap in the thickness direction.
  • This overlap ensures sufficient stability because the shear forces required to separate the profile segments are particularly high in the separating region of the insulating body.
  • the overlap in the thickness direction does not lead to the occurrence of the above-described and the dimensional stability of the components influencing transverse forces on the profile segments during the manufacturing process, so that the desired dimensional accuracy can be achieved without excessive manufacturing costs.
  • the profile segments overlap in the thickness direction over at least 5%, preferably at least 10% of the total thickness of the component, wherein it is preferred in view of the required material cost if the profile segments over 40% or less, preferably 20 % or less, overlap the overall thickness of the device.
  • a further increase in the stability of the components can be achieved if an edge region of one of the profile segments between two successive in Torblattdickenraum receiving areas of the other profile segment is arranged, wherein a gap between the edge region and the receiving areas is bridged by the separation region of the insulating body.
  • the second profile segment is preferably designed so that, starting from one of the outer boundary surface facing away from the inner surface of the insulator in the thickness direction about 20% or more, preferably 40% or more and 90% or less, esp 70% or less, more preferably 50% or less, of the total thickness of the insulator extends.
  • the stability of the second profile segment can be increased in that at least one of the outer boundary surface facing edge, which is preferably arranged between the receiving portions of the first profile segment, folded back on itself.
  • the hinges used for producing the articulated connection between individual components are attached on the inner boundary surface of inventive components for producing a sectional sheet.
  • the hinges are fastened to the components by means of tapping screws.
  • it has proved to be expedient in terms of ensuring a reliable attachment of the hinge lugs of the hinges, when the second profile segment has a fitting on the inner surface of the insulating and at least twice, preferably three or more times, folded back on itself attachment area, which provides a secure hold for serving for fastening the hinge plate tapping screws.
  • the twofold refolding results in a two-day structure
  • the threefold refolding gives a three-layer structure of the attachment area.
  • a further increase in the strength of the screw connection can be achieved if the total thickness of the fastening region is increased by the fact that between two layers of the second profile segment folded back on themselves in the fastening a distance is formed.
  • a position of the attachment region preferably the position of the attachment region facing the outer boundary surface, can be profiled to form a cavity.
  • the inner surface of the insulating body is also covered with a metal shell.
  • the second profile segment is expediently designed, if appropriate together with the fastening region, in one piece with an inner shell covering the inner surface of the insulating body.
  • Inner and outer shell can be realized in a preferred embodiment of the invention as sheet metal shells from a cold-profiled steel sheet.
  • both the inner and the outer shell can have two profile segments formed integrally therewith on edges that are opposite each other and approximately parallel to each other, of which each only over a part of the total thickness of the device extends.
  • an edge of the component formed by the profile segments prefferably has a convex surface area, possibly extending over a step, starting from the outer boundary surface toward the inner surface, whereby the profile segment formed by the profile segments formed edge of an adjacent component may have a possibly over a nose-shaped transition region extending from the outer boundary surface toward the inner surface extending and possibly approximately complementary to the convex surface area running concave surface area, so that the convex and the concave surface area at least in the course of Part of the arcuate transition between the rectilinear portions of the guide rails while avoiding a gap formation with a gap width of 10 mm or more, preferably 5 mm or more, to each other vorb eig attire.
  • the profile segments it has proven expedient for the profile segments to overlap in the convex and in the concave surface area so as to provide a stable support area at the vertex of the convex or concave surface area on which successive components in the door leaf closure state and / or or can support each other during assembly, without that thereby exerted excess pressure on the arranged between the overlapping regions of the profile segments separation region of the insulating body.
  • the stability of a sectional sheet formed from successive components with respect to wind loads can be increased by the fact that the convex surface area merges into a recess overlapped by the second profile segment and / or the concave surface area in a possibly executed approximately complementary to the indentation and overlapped by the second profile segment projection passes.
  • the receiving areas arranged on one of the profile segments form an open (above) and embedded in the insulating V-groove, in which the edge of the other profile segment from above ( below).
  • the complete foaming of the cavity formed between the metal shells of the component can be ensured particularly reliably if the receiving areas are advantageously arranged integrally with the inner shell second profile segment, while on the preferably integrally formed with the outer shell first profile segment extending only approximately parallel to the outer shell and the inner surface of the component facing edge region is arranged, which engages in the receiving region of the second profile segment.
  • a foam-forming material is introduced into the outer shell resting on the outer boundary surface, which expands to form foam. If the outer shell is profiled only to form a simple edge area and possibly concave and convex surface areas, the foaming is hardly hindered, esp.
  • the overlap region between the first profile segment and the second profile segment can be foamed without noteworthy obstacle in the Torblattdickenraum.
  • the gap to be maintained between the individual profile segments and to be filled at least partially by the separating region of the insulating body can be particularly well maintained if a spacer is arranged between the individual profile segments, which can also form an outer boundary surface of the component.
  • This spacer is with regard to the desired isolation effect expediently made of a material with low thermal conductivity, such as a plastic.
  • the spacer bridged a distance between the profile segments, esp. Between two approximately parallel to the outer boundary surface profile segment areas in the Torblattdickenraum, because the profile segments so in the course of installation can be reliably positioned before completion of the foaming process.
  • the positionally accurate arrangement of the profile segments can be further facilitated if the spacer materially connected to one of the profile segments, preferably both profile segments, in particular. Glued.
  • the spacer may also be formed at least partially from a resilient material, such as rubber or a foam adhesive tape.
  • sectional elements The penetration of dust and / or moisture in the space sealed by sectional elements according to the invention produced sectional elements can be reliably prevented if a seal is arranged on the Torblattau builtseite facing profile segment, the seal can be particularly easily fixed to the profile segment, if the first Profile segment has a longitudinally extending, preferably arranged in the convex surface region and designed to receive the seal groove into which a sealing strip can be inserted, which is covered in the closed state of Sektio- nalvorblatts produced from the invention components of the concave surface area.
  • sectional shutters produced from components according to the invention can be facilitated if the convex surface area and the concave surface area on their sides facing away from the Torblatt outside edges approximately perpendicular to the Torblattau touchseite extending support areas, wherein the same components can be arranged supporting one another at the support areas.
  • a sectional door panel according to the invention comprises a plurality of hinge elements articulated to each other in parallel to the edge profiles of the type described above, while a sectional door comprises a sectional door panel and a rectilinear section defining the closed position, an opening position determining, approximately horizontally extending rectilinear portion and a rectilinear portions interconnecting arcuate portion comprising guide rail assembly.
  • a method for producing such components is essentially characterized in that an outer panel comprising the first profile segments, in particular steel sheet or steel strip, and an inner panel forming the second profile segments , Especially steel sheet or steel strip, preferably made by cold forming of the steel strip, filled a suitable for forming the insulating liquid or pasty, preferably self-foaming material in the resting on the outer boundary surface outer shell and then approximated the inner shell while maintaining a predetermined distance to the outer shell is, wherein the inner shell and the outer shell are connected to each other while maintaining the predetermined distance by means of the insulating body.
  • the predetermined distance can be maintained particularly reliably if the inner shell, esp.
  • Inner shell and outer shell are connected without direct contact.
  • it is necessary to perform the settling process of the inner shell to the outer shell positionally accurate since a self-centering is not possible because of the lack of contact between inner shell and outer shell.
  • the inner shell of the outer shell can be approximated from above as a continuous steel strip and thereby supported by a possibly suitably profiled supporting device, such as a support roller. With the support roller deflections of the inner shell can be reduced in the course of the settling and accurate guidance of the settling process can be achieved.
  • Fig. 1 is a sectional view of successive edges of components according to a first embodiment of the invention.
  • Fig. 2 is a sectional view of inventive components according to a second embodiment of the invention.
  • the components 10, 20 illustrated in FIG. 1 comprise an outer shell 100, which forms the outer boundary surface of the components 10, 20, of a profiled steel sheet and an inner shell 200, which forms the inner boundary surface of the components 10, 20, of a profiled sheet steel.
  • the components 10, 20 are hinged together by means of a hinge connection 30 with respect to a plane perpendicular to the plane of the paper hinge axis.
  • a foam core 14 of a self-foaming two-component foam in particular. Polyurethane foam arranged.
  • the outer shell 100 in its upper edge region in the drawing, merges via a gradation 110 which projects back in the direction of the inner shell 200 into a convex surface area designated as a whole by 120.
  • a groove 122 for receiving a seal 124 is formed in the convex surface portion 120.
  • the outside of the convex surface area 120 having profiled segment goes in the direction of the inner shell 200 in a V-shaped groove 130, which is bounded by a torblattau touch solution receiving portion 132 and a torblattinnen solutionen receiving portion 134, wherein the receiving portion 134 edge in a respect to the receiving portion 134 for Increasing the stability slightly upwardly cranked edge region 136 passes.
  • the outer boundary surface 102 of the outer shell 100 merges via a nose-like transition region 140 into a concave surface area designated overall by 150, which forms part of the door leaf outer-side profile segment at the lower edge of the component 10, 20 which is approximately complementary to the convex surface region 120 is executed.
  • the concave surface area 150 passes over an approximately parallel to the Outer boundary surface 102 extending transition region 152 into a downwardly open V-shaped groove 160, which has a torblattau touch solution receiving portion 162 and a torblattinnen solutionen receiving portion 164, wherein the torblattinnenseiti- ge receiving portion 164 to increase the stability in a downwardly cranked edge region 166 passes.
  • the inner shell 200 has in its upper and lower edge regions to form a three-layer structure on three times folded back on itself mounting portions 210, which serve to fix the required for attaching the hinges 30 tapping screws 32.
  • a distance 212 is released, which is formed by profiling the outer layer 214.
  • the total thickness of the attachment region 210 is increased and the fixing of the self-tapping screws 32 on the attachment regions 210 is favored.
  • the inner shell 200 merges at its upper edge into a recess 220, which in turn merges into a support surface 240 running perpendicular to the outer boundary surface 102.
  • the support region 240 merges via an inclined towards the outer boundary surface 102 sloping down transition region 250 in a folded back on itself edge region 260 which extends approximately parallel to the outer boundary surface 102 and engages from above into the groove 130 so that between the Receiving areas 132 and 134 and the edge portion 260 is formed by a separation region of the insulating body 40 filled gap. In this way, a metallic contact between inner shell 200 and outer shell 100 in the region of the profile segments is avoided.
  • the inner shell 200 merges below its fastening region 210 formed at the lower edge region into a stepped region 270 designed to be complementary to the indentation 220.
  • This step region 270 forms the beginning of the profile segment integrally formed on the lower edge of the inner shell 200, which merges into a support region 280 oriented perpendicular to the outer boundary surface 102, which rests on the support region 240 in the closed position of the door leaf.
  • the support region 280 merges via an obliquely downwards in the direction of the Torblattau combinseite 102 sloping transition region 285 in a folded back on itself edge region 290, between the receiving areas 162 and 164 of downwardly open groove 160 projects from below. Between the receiving regions 162 and 164 and the edge region 290, a space filled by a separating region of the insulating body 40 is formed so as to avoid metallic contact between the inner shell 200 and the outer shell 100 at the lower edge of the components 10, 20. Upon the occurrence of a wind suction on the outer boundary surface 102, the edge regions 136 and 166 are urged against the self-curving edge regions 290 and 260, respectively.
  • the insulator 40 arranged therebetween is compressed and a metallic contact between inner shell 200 and outer shell 100 is prevented even when wind loads occur, at the same time ensuring sufficient stability of the overall arrangement in the event of wind loads.
  • an air gap 300 is formed, which promotes the insulating effect of a sectional sheet prepared from components 10, 20 according to the invention.
  • the overall arrangement of the edge profiles of components 10, 20 essentially corresponds to the overall arrangement of the edge profiles of the components described in EP-A-0370376, wherein the first profile segment extending from the door leaf outer side 102 in the direction of the door leaf inner side covers approximately 60% of the total thickness of the component 10, 20, while also extending the second projecting from the Torblattinnenseite profile segment over about 60% of the total thickness of the profile segment, so that an overlap in the thickness direction over about 10% of the profile thickness results. Due to the special shape of the engaging in the grooves 130 and 160 edge regions 136 and 166 a particularly good stability of the overall arrangement is ensured.
  • the overlapping of the profile segments takes place in the area of the convex and concave surface areas, so that the support areas 240 and 280 ensure good support of successive panels in the crown area of the convex or concave surface area in the closed state shown in the drawing.
  • the illustrated in Fig. 2 embodiment of the invention differs essentially by the explained with reference to FIG. 1 embodiment, that by the receiving areas 162 ' , 164 ' , 132 'and 134 ' limited, downwards or upwards open approximately V-shaped grooves 130 ' and 160 ' are attached to the inner shell 200 and arranged on the outer shell 100 from above and from below into the grooves 130 ' and 160 ' engaging edge regions.
  • the inner shell 200 at the top the indentation 220 folded back on itself to form a transition region 250 extending approximately parallel to the outer boundary surface 102.
  • the lower edge of the transition region 250 merges to form the upwardly open groove 130 ' in a gate inner side receiving region 134 ' , to which the torblattau dry mixede receiving portion 132 'connects.
  • the inner shell 200 passes over an upwardly extending and approximately parallel to the outer boundary surface 102 extending transition region 285 in the torblattinnen solutionen receiving area 164 ', to which the torblattau call mixede receiving area 162 ' connects.
  • a downwardly open groove 160 ' is limited.
  • the first profile segment formed integrally with the outer shell 100 has, following the convex surface region 120, a support region 280 ' extending approximately perpendicular to the outer boundary surface 102, against which an approximately parallel to the outer boundary surface 102 and folded back on itself at its lower edge Edge region 260 'connects, which is aligned from above in the direction of the upwardly open groove 130'.
  • the inner shell 200 on the inner side of the door leaf adjoins the concave surface region 150 has a support region 240 ' , which bears against the support region 280 ' in the closed state of a door leaf produced from components 10, 20 according to the invention in FIG approximately perpendicular to the Torblattau chatseite 102 runs.
  • an edge region 290 ' which is folded back on itself at its upper end and extends from the support region 240 ' in the direction of the downwardly open groove 160 ' is formed.
  • a spacer 410 is attached between the gate outer side facing away from boundary surface of the edge region 290 ' and the Torblattau type facing boundary surface of the transition region 285.
  • a spacer 400 is disposed between the boundary surface of the edge region 260 ' facing away from the door leaf outer side and the boundary surface of the transition region 250 facing the door leaf outer side.
  • the spacer 410 is adhesively bonded on the one hand to the boundary surface of the edge region 290 ' facing away from the door leaf outer side and on the other hand to the boundary surface of the transition region 285 facing the door leaf outer side.
  • the spacer 400 is also provided with the boundary surface of the edge region 260 ' facing away from the door leaf outer side and with the outside of the door leaf glued facing boundary surface of the transition region 250.
  • the spacers 400 and 410 are in the embodiment of the invention shown in the drawing of a compliant material executed. They may, for example, be realized in the form of a foam adhesive tape. By the spacers 400 and 410, the insulating effect of inventive components 10, 20 is not affected because the spacers 400, 410 are made of a thermally insulating material.
  • components 10, 20 shown in FIG. 2 has proved to be particularly simple, because the foam-forming material filled into the inner shell 200 without hindrance by the profile segments in the between the support areas 240 ' and 280' and the grooves 130 ' and . 160 ' formed space can flow. This favors a gapless foaming of the components 10, 20 which, in the embodiment of the invention explained with reference to FIG. 1, prevent the transition region 152 or the groove 130 'in a hindering manner.

Abstract

La présente invention concerne un élément (10, 20) permettant de produire une lame de porte sectionnelle qui présente une couche extérieure (100) au moins partiellement en matériau métallique, formant une surface de délimitation extérieure (102) de l'élément (10, 20), un corps isolant (40) qui est placé sur la surface de délimitation intérieure de la couche extérieure (100) opposée à la surface de délimitation extérieure (102) de la couche extérieure (100), ainsi qu'un profilé de bord qui présente au moins deux segments de profilés et qui, lorsqu'il est monté, chevauche un bord longitudinal du corps isolant (40) faisant face à l'élément voisin (10, 20) dans le sens de l'épaisseur qui s'étend perpendiculairement à la surface de délimitation extérieure (102). Les segments de profilé sont placés dans le sens de l'épaisseur de manière à se chevaucher sans contact et une zone de séparation du corps isolant (40) est intercalée entre eux.
PCT/EP2010/003190 2010-05-26 2010-05-26 Élément permettant de produire une lame de porte sectionnelle, procédé de fabrication dudit élément, lame de porte sectionnelle et porte sectionnelle WO2011147428A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/EP2010/003190 WO2011147428A1 (fr) 2010-05-26 2010-05-26 Élément permettant de produire une lame de porte sectionnelle, procédé de fabrication dudit élément, lame de porte sectionnelle et porte sectionnelle

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/EP2010/003190 WO2011147428A1 (fr) 2010-05-26 2010-05-26 Élément permettant de produire une lame de porte sectionnelle, procédé de fabrication dudit élément, lame de porte sectionnelle et porte sectionnelle

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WO2011147428A1 true WO2011147428A1 (fr) 2011-12-01

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102012013256A1 (de) * 2012-07-03 2014-05-08 Hörmann KG Brockhagen Paneel zum Herstellen eines Sektionaltorblatts und Verfahren zum Herstellen eines Paneels

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0370376A2 (fr) * 1988-11-25 1990-05-30 Hörmann KG Brockhagen Vantail de porte
EP0405675A1 (fr) * 1989-06-30 1991-01-02 Hallington B.V. Panneaux de construction emboîtables et porte sectionnelle composée par de tels panneaux
DE8915709U1 (fr) * 1988-01-27 1991-05-29 Niemetz Torsysteme, 8601 Koenigsfeld, De

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE8915709U1 (fr) * 1988-01-27 1991-05-29 Niemetz Torsysteme, 8601 Koenigsfeld, De
EP0370376A2 (fr) * 1988-11-25 1990-05-30 Hörmann KG Brockhagen Vantail de porte
EP0405675A1 (fr) * 1989-06-30 1991-01-02 Hallington B.V. Panneaux de construction emboîtables et porte sectionnelle composée par de tels panneaux

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102012013256A1 (de) * 2012-07-03 2014-05-08 Hörmann KG Brockhagen Paneel zum Herstellen eines Sektionaltorblatts und Verfahren zum Herstellen eines Paneels
EP2682554B1 (fr) * 2012-07-03 2016-08-10 Hörmann KG Brockhagen Panneau pour la fabrication d'un panneau de porte sectionnelle et procédé de fabrication d'un panneau

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