EP3163002B1 - Élément de liaison pour cadre de fenêtre et de porte - Google Patents

Élément de liaison pour cadre de fenêtre et de porte Download PDF

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Publication number
EP3163002B1
EP3163002B1 EP16196960.5A EP16196960A EP3163002B1 EP 3163002 B1 EP3163002 B1 EP 3163002B1 EP 16196960 A EP16196960 A EP 16196960A EP 3163002 B1 EP3163002 B1 EP 3163002B1
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EP
European Patent Office
Prior art keywords
profile
area
support
connecting element
region
Prior art date
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Active
Application number
EP16196960.5A
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German (de)
English (en)
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EP3163002A1 (fr
Inventor
Keith Chinn
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.)
Kawneer Aluminium Deutschland Inc
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Kawneer Aluminium Deutschland Inc
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Publication of EP3163002A1 publication Critical patent/EP3163002A1/fr
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    • 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
    • E06B3/96Corner joints or edge joints for windows, doors, or the like frames or wings
    • E06B3/964Corner joints or edge joints for windows, doors, or the like frames or wings using separate connection pieces, e.g. T-connection pieces
    • E06B3/9642Butt type joints with at least one frame member cut off square; T-shape joints

Definitions

  • the present invention relates to a connecting element for window and door frames and a profile arrangement.
  • window or door frames are assembled due to ease of manufacture and assembly of individual side profiles. These side profiles are connected at their ends, the corners of the frame, creating a frame of two longitudinal profiles and two cross sections. Often, the window area is additionally divided, so that rungs profiles must be connected to inner sides of the longitudinal or transverse profiles. Special fasteners are used to fasten these transom profiles to the longitudinal or transverse profiles.
  • Modern profile arrangements are usually made of an outer and an inner profile, which are made of aluminum and are connected by means of an insulating web due to their high thermal conductivity. In this way, heat transfer from the inside of the building via the profiles or via the profiles into the interior of the building can be kept as low as possible.
  • profile arrangements of different dimensions are installed in different window systems. In particular, the width of the insulating web, ie the distance between the outer and inner profile of the frame, is varied.
  • Known different connecting elements are thus used for different frames, according to the dimensions of the frame. In this way, a variety of different fasteners for a variety of different profile arrangements are necessary. The variety of parts leads to high production costs, and additional design costs are incurred when introducing new frames.
  • Another disadvantage of conventional fasteners is that they must be mounted with the longitudinal profiles before assembly of the cross sections.
  • the invention particularly relates to a connecting element for window and door frames, which has an insertion element, wherein the insertion element has an insertion region, which is shaped such that it can be inserted into a profile chamber of a transom profile of the window or door frame.
  • the connecting element has a support device which is arranged adjacent to the insertion element.
  • the support means comprises at least one support portion which is shaped such that it can be inserted into at least one guide rail of the rung profile.
  • side profiles and rungs profiles are designed as a hollow profiles for maximum heat insulation, the resulting cavity is referred to as a profile chamber.
  • connecting element is universally applicable by its design. This means that the connecting element is applicable in different window and door frames and / or in window and door frames with different dimensions.
  • the connecting element exerts a supporting function by the support means. Consequently, the stability of the window or door frame in general, and in particular the stability of the rungs profiles on the longitudinal or transverse profiles are improved.
  • a further advantage of the solution according to the invention is that an improved assembly-suitable design is provided by the support device and in particular by the support region of the support device.
  • the assembly is facilitated in particular by the at least one guide rail, since it acts as a guide for the entire connecting element during assembly.
  • the support device has a first and an additional, second support region, wherein each support region is assigned a separate holding region, and wherein the holding regions of the two support regions are preferably connectable to one another such that the support device is fork-shaped.
  • the holding region assigned to the first support region has a first length measured in its longitudinal direction
  • the holding region assigned to the second support region has a second length again measured in the longitudinal direction thereof, the first and second Length are different. In this way it is possible to select a support device as needed, depending on the distance of the guide rails of the rung profile.
  • the holding regions assigned to the individual support regions each have a length seen in the longitudinal direction with a center, wherein the support region is in each case arranged decentrally with respect to the center. If, in addition, each holding region has a first end region and an opposite second end region and the first end region of the holding region assigned to the first supporting region is connectable or connected optionally to the first or second end region of the holding region assigned to the second supporting region, the distance between the supporting regions can be variable be set.
  • the support device has at least one holding region and preferably two support regions.
  • the at least one holding region connects the two support regions such that the support device is fork-shaped.
  • the insertion element is arranged between the two support areas, so that the connecting element, as seen in the direction of insertion direction of the insertion element, is substantially T-shaped.
  • the stability of the construction is improved by the T-shaped arrangement.
  • a rotation of the rung profile about an axis which is parallel to the insertion direction of the insertion element is prevented.
  • a wobbling of the rung profile in the profile of the window or door frame can be prevented.
  • the insertion element has a base region, the base region having hooking regions which are shaped complementary to latching regions in a profile of the window or door frame.
  • the hooking portions are formed on a first and a second longitudinal side portion of the insert member, wherein the second longitudinal side portion is disposed opposite to the first longitudinal side portion.
  • the hooking areas of the base region of the insertion element are in this case particularly preferably designed such that they can be inserted both into the complementarily formed latching regions of the window or door frame and can also be latched by a pivoting movement into the said latching regions.
  • the insertion element of the connecting element further comprises at least one recess on a third longitudinal side region, which is arranged substantially perpendicular to the first two longitudinal side regions.
  • the insertion element on the said third longitudinal side region on a plurality of recesses.
  • the at least one recess preferably extends through the insertion element.
  • At least one of the recesses is shaped such that the recess can receive a fastening element.
  • the insertion element has a bore which extends along a center axis of the insertion element, the central axis of the insertion element extending substantially in the direction, preferably along, of the insertion direction of the insertion element.
  • a simple mounting option for fasteners is achieved. More specifically, a continuous bore allows, for example, that a screwdriver for fixing the fastener can be passed through the bore.
  • a fastening element can be guided through at least one region of the bore of the insertion element, wherein the insertion element can be fastened to the profile of the window or door frame, preferably detachably fastened, by means of the fastening element.
  • the connecting element can be fixed at a predetermined position on the side profile of the window or door frame. Wherein slipping of the connecting element in the side profile of the window or door frame is prevented.
  • the fastening element only has to be inserted in a region of the bore, preferably in an area adjacent to the profile, shorter fastening elements are required overall for fastening. In particular screws or pins are also suitable as fasteners at this point.
  • the insertion element of the connecting element has an upper region, which is formed opposite the base region.
  • the upper area has at least one chamfer on at least one side.
  • the chamfered connection element can be more easily inserted into a profile chamber of a transom profile. More specifically, the chamfers are chamfered edges which act as an insertion aid when inserting the connecting element in the profile chamber of the rung profile.
  • the support device and the insertion element are formed in several parts.
  • the support means is formed in two parts.
  • An advantage which results from such a modular construction is that a complicated production of a one-piece connecting element with complicated geometries is prevented. Also in the assembly advantages are achieved, especially in the two-part design of the support means, since the insertion element is mounted separately from the support means on the profile of the window or door frame.
  • the support portion of the support means comprises an integrally formed sliding block, the sliding block being complementary to a groove in a profile of the window or door frame.
  • the profile arrangement has at least one outer profile and at least one inner profile, wherein the at least one outer profile and the at least one inner profile are connected to one another by means of at least one insulating web.
  • the profile arrangement has a connecting element, which can be brought or brought into engagement with the at least one outer profile, wherein the connecting element is preferably a connecting element of a type already described.
  • the frame assembly has a further insertion element, which is engageable or brought into engagement with the at least one inner profile, wherein the further insertion element is preferably carried out substantially identical to the previously described insertion elements.
  • the profile arrangement in addition to the actual profiles on both a connecting element and a further insertion element.
  • the advantage of such an arrangement is that the rung profile can be fixed to two locally separate insertion elements.
  • the further insertion element is essentially a plug-in element of identical construction, production costs can be saved at this point.
  • the insertion element can be replaced or exchanged during assembly, since it is designed to be compatible with both profiles.
  • the assembly process is made simpler by identical insertion elements.
  • the profile arrangement further comprises at least one outer transom profile and at least one inner transom profile, wherein the at least one outer transom profile and the at least one inner transom profile are interconnected by means of at least one insulating web.
  • a profile chamber of the outer rung profile accommodates the insertion region of the connecting element and a profile chamber of the inner rung profile accommodates the insertion region of the further insertion element.
  • the connecting element is arranged on the outer profile and the further insertion element is arranged on the inner profile.
  • both the outer rung profile is connected by the connecting element with the outer profile, and the inner rung profile is connected by the insertion region of the further insertion element with the inner profile of the window or door frame.
  • a stable and advantageous fixation of both profiles is achieved.
  • the at least one further insulating web defines a further profile chamber, wherein the profile chamber of the outer rung profile and the profile chamber of the inner rung profile adjoin the further profile chamber such that the further profile chamber between, preferably centrally between, the professional chambers of the outer rung profile and the inner rung profile is arranged. Furthermore, the three profile chambers are arranged substantially in a row. The insertion region of the connecting element is received exclusively by the profile chamber of the outer transom profile and the insertion region of the further insertion element is received exclusively by the profile chamber of the inner transom profile.
  • the outer rung profile has at least one guide rail, wherein the at least one support region of the support device of the connection element is inserted or insertable in the at least one guide rail.
  • the outer transom profile preferably has two guide rails for two support regions of the connecting element, wherein the two guide rails are aligned substantially parallel to an extension direction of the profile chambers of the inner transom profile and the outer transom profile.
  • FIG. 1a to f show a perspective view of a connecting element 100 according to the invention for window and door frames, wherein the connecting element 100 has a push-in element 10 and a support means 20.
  • the insertion element 10 is elongate and extends along a central axis. Furthermore, the insertion element 10 has 4 longitudinal side areas.
  • the elongated shape of the insertion element 10 in this case positively influences the introduction of force in the component.
  • the insertion element 10 has a base region 11 and an insertion region 13. Hooking regions 12 are formed on the base region 11, wherein the hooking regions 12a, 12b are arranged on two opposite longitudinal side regions. Furthermore, 10 recesses 16 are formed in the insertion region 13 of the insertion element such that a plurality of passages from a longitudinal side region to an opposite longitudinal side region arise. The recesses 16 are preferably formed on longitudinal side areas, which are arranged substantially perpendicular to the hooking areas 12 having longitudinal side areas.
  • the insertion region 13 of the insertion element 10 has an upper region 14.
  • This upper region 14 is formed opposite the base region 11.
  • Chamfers 15 are formed on the upper region 14, wherein the chamfers 15 are preferably arranged on opposite longitudinal side regions and particularly preferably on the longitudinal lateral regions which have the hooking regions 12. Alternatively, another number of chamfers 15, preferably 4, may be arranged on the upper region 14.
  • the insertion element 10 has a bore 18, which is formed along the central axis of the insertion element 10.
  • the bore 18 passes through the entire insertion element 10 therethrough.
  • This fastening element 19 is arranged in a lower region of the bore 18, on the base region 11 of the insertion element 10.
  • the fastener 19 may be inserted through one of the recesses 16 first into the insertion member 10 and finally into the bore 18.
  • at least one of the recesses 16 also facilitates the mounting of the fastening element 19.
  • the fastening element 19 is preferably a screw, but in principle also pins or rivets are conceivable. Furthermore, the fastening element 19 can also extend through a plurality of recesses 16 or through the entire insertion element 10. Additionally or alternatively, a plurality of fastening elements 19 are conceivable.
  • the support device 20 of the connecting element 100 has a holding region 21 and a support region 23.
  • the support means 20 is formed in two parts. In this case, each of the two parts has a holding region 21 and a support region 23.
  • a support device with two support regions 23a, 23b and a common holding region 21.
  • the support portions 23a, 23b are formed sled-shaped, more specifically, they are slat-shaped. Accordingly, the support portions 23a, 23b extend in an extending direction with the side surfaces of the support portions 23a, 23b aligned parallel to the hooking portions 12 having longitudinal side portions of the insertion member 10 wider than the side surfaces of the support portions 23a, 23b which are parallel to the recesses 16 having longitudinal side portions are aligned. Accordingly, the support portions 23a, 23b are formed flat overall.
  • the support regions 23 likewise have chamfers 25. These chamfers 25 of the support portions 23 facilitate by their bevel later assembly.
  • the support regions 23 On at least one region of a side surface of the support regions 23, preferably on one of the narrower side surfaces, the support regions 23 have a gradation 24.
  • This gradation 24 also facilitates subsequent assembly or later assembly, since it acts as an introduction aid.
  • a centering during assembly is achieved by such a gradation.
  • a transom profile has a complementary to the gradation 24 running guide rail.
  • the gradations 24 may be formed as a spring, which are insertable into a groove formed on the guide rails complementary groove.
  • the support region 23 of the support device 20 or the support regions 23a, 23b of the support device 20 adjoin the holding region 21 at a lower region of the support region 23.
  • the support portion 23 and the holding portion 21 are integrally formed, but in principle, a modular structure is conceivable here.
  • the support regions 23a, 23b are arranged or can be arranged adjacent to the insertion element 10.
  • the insertion element 10 has a recess 17 on a longitudinal side region, which has the hooking region 12a.
  • the support device 20 is to be positioned such that a lower region of the holding region 21 or lower regions of the holding regions 21a, 21b rests or rest on the hooking region 12a of the longitudinal side region.
  • the holding regions 21 of the connecting element 100 may have a sliding block 22a, 22b or a slot-shaped surface area.
  • the sliding block 22a, 22b is preferably formed on a side which is opposite to the arranged on the insertion element 10 side is formed.
  • the sliding block 22 is embodied integrally with the holding regions 21.
  • a sliding block is thus understood in the integral design a kind of spring, which is feasible and / or inserted in a groove.
  • the support means 20 which is formed from two holding portions 21a, 21b and two support portions 23a, 23b, formed fork-shaped. More specifically, the two holding portions 21a, 21b are disposed adjacent to each other such that the sliding block 22a of the first holding portion 21a extends the sliding block 22b of the second holding portion 21b. In a direction perpendicular to the extending direction of the sliding blocks 22, the support portions 23a, 23b extend from the holding portions 21a, 21b, respectively.
  • the support means 20 is shaped like a two-pronged fork, with the support portions 23a, 23b representing the prongs.
  • the insertion element 10 is now aligned with the holding regions 21a, 21b of the support device 20 in such a manner that the insertion region 13 of the insertion element 10 is arranged or can be arranged between the support regions 23a, 23b, preferably centrally between the support regions 23a, 23b.
  • the male member extends in the same direction as the support portions 23a, 23b.
  • the support regions 23a, 23b and the insertion region 13 are flush at their upper ends.
  • FIG. 2a to d are different perspective views of a profile arrangement 300 with the connecting element 100 according to the invention FIG. 1 shown. Show more precisely FIG. 2a and 2c the profile assembly 300 in a disassembled state while FIG. 2 B and 2d show the same in an assembled condition.
  • the profile arrangement 300 consists of a side profile arrangement 310, a rung profile arrangement 320, a connecting element 100 and a further insertion element 10c.
  • the side profile assembly 310 has an outer profile 30 and an inner profile 40, which are connected by means of insulating webs 50a, 50b due to their high thermal conductivity. As a result, a heat transfer from the building interior over the profiles is kept as low as possible.
  • the outer profile 30 normally forms the Fasaden nurseen completion of the fixed part of a window or door frame, and the inner profile accordingly the inside-side fixed part of the said frame.
  • the rung profile 320 has a comparable structure.
  • the transom profile 320 consists of an outer transom profile 60, an inner transom profile 70 and connecting further insulating crosspieces 90a, 90b.
  • the outer transom profile 60 and the inner transom profile 70 have associated profile chambers 61 and 71.
  • a further profile chamber 91 is formed or defined by the insulating webs 90a and 90b.
  • the profiles 30, 40, 60 and 70 are made of metal, in particular aluminum, whereas the insulating webs 50 and 90 are made of heat-insulating material, such as plastic material.
  • the connecting element 100 is arranged on the outer profile 30.
  • the hooking regions 12b of the base region 11 of the connecting element 100 are brought into engagement with complementarily formed latching regions 31 of the outer profile 30.
  • the insertion element 10 itself can either be pushed onto the outer profile 30 for mounting or be attached by a pivoting movement.
  • a fastener 19 can fix the position of the male member 10 on the outer profile 30.
  • the support means 20 of the connecting element 100 is also attached to the outer profile 30. More specifically, the sliding block 22 of the holding portion 21 or the sliding blocks 22a, 22b of the holding portions 21a, 21b are brought into engagement with a complementarily formed groove 32 of the outer profile 30. This can also be realized by a sliding operation as well as by a pivoting operation.
  • the male member 10 and the support means 20 are each separately attached to the outer profile 30 attachable.
  • the two parts of the support device 20 are preferably pushed so far that touch the holding portions 21 a, 21 b behind the push-in element 10.
  • the male member 10 is supported on one longitudinal side by the hooking portion 12b by the complementarily formed latching portions 31 of the outer profile 30 and supported on the opposite longitudinal side by the hooking portion 12a of lower portions of the holding portions 21a, 21b.
  • a further insertion element 10c which is substantially identical in construction to the insertion element 10 of the connecting element 100, is arranged on the inner profile 40 of the side profile arrangement 310. Hooking portions 12c, 12d of the base portion 11c of the male member 10c are engaged with complementarily formed snap portions 41 of the inner profile 40.
  • the further insertion element 10c can also be attached to the inner profile 40 by a sliding movement as well as by a pivoting movement.
  • the further insertion element 10c has a fastening element 19, with which a further fixation on the inner profile 40 is achieved.
  • the insertion element 10 of the connecting element 100 and the further insertion element 10c are preferably arranged opposite each other. Wherein the further insertion element 10c, in contrast to the insertion element 10 has no adjacent support means 20.
  • the basic construction of the side profile arrangement 310 is comparable to that of the rung profile arrangement 320 already described.
  • the outer profile 30 and the inner profile 40 of the side profile assembly 310 also form profile chambers.
  • a further profile chamber is formed by the insulating webs 50a and 50b, wherein the profile chamber of the outer profile 30 and the profile chamber of the inner profile adjacent to the profiled chamber formed by the Isolierstegen 50 such that the formed profile chamber between, preferably centrally between, the profile chambers of the outer profile 30 and the inner profile 40 is arranged.
  • the three profile chambers form a row.
  • the side profile arrangement 310 is a longitudinal profile arrangement, the profile chambers are formed in a horizontal profile extension plane, the plane intersecting the profile chambers in the middle. Accordingly, if the side profile assembly 310 is a transverse profile arrangement, the profile chambers are formed in a vertical profile extension plane, the plane intersecting the profile chambers centrally.
  • the insertion elements 10, 10c now extend exactly in the direction of a normal of the profile extension plane. The insertion elements 10, 10c thus point in a direction perpendicular to the side profile assembly 310, preferably, they point in the direction of a window inside.
  • FIG. 2 B and 2d show the profile assembly 300 in an assembled form.
  • the connecting element 100 and the push-in element 10c are arranged or fastened to the side profile arrangement 310.
  • the transom profile arrangement 320 consisting of the outer transom profile 60, the inner transom profile 70 and the further insulating crosspieces 90, is pushed or pushed during assembly onto the insertion elements 10 and 10c.
  • the outer transom profile 60 has the profiled chamber 61 and the inner transom profile 70 has the profiled chamber 71.
  • the further profile chamber 91 is defined by the insulating webs 90a and 90b.
  • the profile chambers 61 of the outer rung profile 60 and the profile chamber 71 of the inner rung profile 70 adjoin the further profile chamber 91 such that the further profile chamber 91 is arranged between the profile chambers 61, 71 of the outer rung profile 60 and the inner rung profile 70.
  • the further profile chamber 91 is arranged centrally between the said profile chambers 61, 71.
  • the three profile chambers are arranged in a row or line.
  • the insertion elements 10 and 10c are designed such that the insertion region 13 of the connecting element 100 is received by the profile chamber 61 of the outer rung profile 60 and the insertion region 13c of the further insertion element 10c is received by the profile chamber 71 of the inner rung profile becomes. Respectively the profile chambers 61, 71 are adapted to such a recording.
  • the insertion region 13 of the connection element 100 is received exclusively by the profile chamber 61 of the outer rung profile 60 and the insertion region 13c of the further insertion element 10c is received exclusively by the profile chamber 71 of the inner rung profile 70.
  • the further profile chamber 91 which as already described is formed by the insulating webs 90a and 90b, does not have any push-in element 10, 10c and also no area or part of the push-in element 10, 10c or the connecting element 100.
  • the connecting element 100 or the push-in element 10c is currently designed in such a way that fastening or attachment to the rung profile arrangement 320 is made possible without contact or intervention with the further profile chamber 91.
  • the outer profile bar 60 is formed from a direction of insertion of the connecting element 100 seen substantially T-shaped. It follows that the rung profile arrangement 320 viewed from the same direction has a T-shape. The T-shape arises from the fact that the outer rung profile 60 has two guide rails, which are aligned substantially perpendicular to the extension direction of the profile chambers 61, 71. The extension direction of the profile chambers 61, 71 in this case points in the same direction as the insertion direction of the connecting element 100.
  • the two guide rails are adapted to receive the support device 20. More specifically, the support portions 23a, 23b of the support 20 are received. In this case, the gradation 24 of the support regions 23a slide, 23b preferably in a groove formed by the two guide rails.
  • FIG. 3a and 3b show a front view of a profile assembly 300 with connecting element 100 according to the invention in an assembled and a disassembled state.
  • the outer profile 30 has a latching region 31, which engages with the hooking region 12b of the connecting element 100. Furthermore, the outer profile 30 is additionally engaged via a groove 32 with the support means 20 of the connecting element 100 in engagement.
  • the connecting element 100 is connected by a fastening element 19, in this case by a screw, with the outer profile 30 and thus secured against slipping.
  • the further insertion element 10c is fastened to the inner profile 40 in a similar manner.
  • the inner profile 40 has two latching areas 41 which are in engagement with the latching areas 12c, 12d of the further plug-in element 10c.
  • the further insertion element 10c is fixed by a fastening element 19 on the inner profile 40.
  • the insertion elements 10, 10c have three recesses 17, wherein each of the upper region of the insertion regions 13, 13c closest recess 17 is adapted to receive a further fastening element 19c.
  • the rung profile arrangement 320 has two bores 80a and 80b. More specifically, a bore 80a in the region of the inner rungs profile 40 and a bore 80b in the region of the outer rungs profile 30 is formed such that after insertion of the insertion elements 10, 10c in the profile chambers 61 and 71, respectively, a further fastening element 19c can be guided through the bores 80a, 80b in such a way that it is received in each case by one of the recesses 16 in the upper region of the insertion regions 13, 13c and is preferably screwable there.
  • fastening elements 19c are thus pluggable in such a way that by means of the fastening elements 19c a detachable fastening of the insertion elements 10, 10c to the outer or inner transom profile 60, 70 is provided.
  • the support device 20 has a total of two mutually parallel support regions 23a, 23b. These support areas 23a, 23b are executed and designed to be inserted into a respective guide rail 62 of a transom profile.
  • the insertion direction is in the FIG. 4a and 4b indicated by the corresponding arrows.
  • each support region 23a, 23b is associated with a corresponding holding region 21a, 21b, to which the corresponding support region 23a, 23b is connected.
  • the holding portions 21a, 21b of the two support portions 23a, 23b are connected to each other via their end faces.
  • FIG. 4a and 4b schematically illustrated exemplary embodiment of the support device 20 according to the invention was characterized in particular by the fact that the respective support portions 23a, 23b are disposed decentralized with respect to their associated holding portion 21a, 21b. In this way, the distance of the support areas 23a, 23b to an end face of the respectively associated holding area 21a, 21b is greater in comparison to the distance to the opposite end area.
  • this distance is 22mm.
  • the distance between the support portions 23a, 23b (compared to the in FIG. 4a shown situation) and is for example 25 mm.

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  • Engineering & Computer Science (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Wing Frames And Configurations (AREA)
  • Securing Of Glass Panes Or The Like (AREA)

Claims (15)

  1. Élément de liaison (100) pour cadres de fenêtre et de porte, l'élément de liaison (100) comprenant ce qui suit:
    - un élément d'insertion (10) pourvu d'une zone d'insertion (13) qui est réalisée de manière à pouvoir être insérée dans une chambre profilée (61) d'un profilé de montant du cadre de fenêtre ou de porte; et
    - un moyen de soutien (20) qui est agencé de façon adjacente à l'élément d'insertion (10) et qui comprend au moins une zone de soutien (23) réalisée de manière à pouvoir être insérée dans au moins un rail de guidage du profilé de montant, dans lequel
    le moyen de soutien (20) comprend une première et une seconde zone de soutien (23a, b), une propre zone de retenue (21a, b) est associée à chaque zone de soutien (23a, b), les zones de retenue (21a, b) des deux zones de soutien (23a, b) pouvant être reliées de préférence du côté frontal de telle sorte que le moyen de soutien (20) est réalisé en forme de fourche,
    caractérisé en ce que
    la zone de retenue (21a) associée à la première zone de soutien (23a), mesurée dans sa direction longitudinale, présente une première longueur, la zone de retenue (21b) associée à la seconde zone de soutien (23b), mesurée dans sa direction longitudinale, présente une seconde longueur, et la première et la seconde longueur sont différentes, et
    le moyen de soutien (20) et l'élément d'insertion (10) sont formés en plusieurs parties.
  2. Élément de liaison (100) selon la revendication 1,
    dans lequel chaque zone de retenue (21a, b) présente une première zone frontale et une seconde zone frontale opposée, et la première zone frontale de la zone de retenue (21a) associée à la première zone de soutien (23a) est ou peut être reliée au choix à la première ou à la seconde zone frontale de la zone de retenue (21b) associée à la seconde zone de soutien (23b) ; et/ou la première zone frontale de la zone de retenue (21b) associée à la seconde zone de soutien (23b) est ou peut être reliée au choix à la première ou à la seconde zone frontale de la zone de retenue (21a) associée à la première zone de soutien (23a).
  3. Élément de liaison (100) pour cadres de fenêtre et de porte, l'élément de liaison (100) comprenant ce qui suit:
    - un élément d'insertion (10) pourvu d'une zone d'insertion (13) qui est réalisée de manière à pouvoir être insérée dans une chambre profilée (61) d'un profilé de montant du cadre de fenêtre ou de porte; et
    - un moyen de soutien (20) qui est agencé de façon adjacente à l'élément d'insertion (10) et qui comprend au moins une zone de soutien (23) réalisée de manière à pouvoir être insérée dans au moins un rail de guidage du profilé de montant, dans lequel
    le moyen de soutien (20) comprend une première et une seconde zone de soutien (23a, b), une propre zone de retenue (21a, b) est associée à chaque zone de soutien (23a, b), et les zones de retenue (21a, b) des deux zones de soutien (23a, b) peuvent être reliées de préférence du côté frontal de telle sorte que le moyen de soutien (20) est réalisé en forme de fourche,
    caractérisé en ce que
    chaque zone de retenue (21a) comprend une première zone frontale et une seconde zone frontale opposée, et la première zone frontale de la zone de retenue (21a) associée à la première zone de soutien (23a) est ou peut être reliée au choix à la première ou à la seconde zone frontale de la zone de retenue (21b) associée à la seconde zone de soutien (23b) ; et/ou la première zone frontale de la zone de retenue (21b) associée à la seconde zone de soutien (23b) est ou peut être reliée au choix à la première ou à la seconde zone frontale de la zone de retenue (21a) associée à la première zone de soutien (23a), et le moyen de soutien et l'élément d'insertion (10) sont formés en plusieurs parties.
  4. Élément de liaison (100) selon la revendication 3,
    dans lequel la zone de retenue (21a) associée à la première zone de soutien (23a), mesurée dans sa direction longitudinale, présente une première longueur, la zone de retenue (21b) associée à la seconde zone de soutien (23b), mesurée dans sa direction longitudinale, présente une seconde longueur, et la première et la seconde longueur sont différentes.
  5. Élément de liaison (100) selon la revendication 3,
    dans lequel les zones de retenue (21a, b) associées aux zones de soutien individuelles (23a, b) présentent chacune une longueur, vue en direction longitudinale, avec un centre, la zone de soutien (23a, b) étant agencée respectivement de façon décentrée par rapport au centre de la zone de retenue correspondante (21a, b).
  6. Élément de liaison (100) selon l'une des revendications 1 à 5,
    dans lequel le moyen de soutien (20) comprend au moins une zone de retenue (21) et de préférence deux zones de soutien (23), ladite au moins une zone de retenue (21) reliant les deux zones de soutien (23) de telle sorte que le moyen de soutien (20) est réalisé en forme de fourche, et l'élément d'insertion (10) étant agencé entre les deux zones de soutien (23).
  7. Élément de liaison (100) selon l'une des revendications 1 à 6,
    dans lequel l'élément d'insertion (10) comprend en outre une zone de base (11) qui comprend des portions d'accrochage (12) qui sont formés de façon complémentaire à des portions d'enclenchement (31) dans un profilé du cadre de fenêtre ou de porte, et de préférence les portions d'accrochage (12) sont formées sur une première et sur une seconde zone latérale longitudinale de l'élément d'insertion (10), la seconde zone latérale longitudinale étant agencée à l'opposé de la première zone latérale longitudinale.
  8. Élément de liaison (100) selon la revendication 7,
    dans lequel sur une troisième zone latérale longitudinale qui est agencée sensiblement perpendiculairement aux deux premières zones latérales longitudinales, l'élément d'insertion (10) présente au moins une échancrure (16), de préférence une pluralité d'échancrures (16), et ladite au moins une échancrure (16) s'étend de préférence à travers l'élément d'insertion et est réalisée pour recevoir un élément de fixation (19).
  9. Élément de liaison (100) selon l'une des revendications 1 à 8,
    dans lequel l'élément d'insertion (10) présente un perçage (18), le perçage (18) s'étendant le long d'un axe médian de l'élément d'insertion (10) qui s'étend sensiblement en direction, de préférence le long de la direction d'insertion de l'élément d'insertion (10).
  10. Élément de liaison (100) selon la revendication 9,
    dans lequel un élément de fixation (19) peut être mené à travers au moins une zone du perçage (18) de l'élément d'insertion (10), et l'élément d'insertion (10) peut être fixé, de préférence être fixé de façon détachable, sur le profilé du cadre de fenêtre ou de porte au moyen de l'élément de fixation (19).
  11. Élément de liaison (100) selon l'une des revendications 1 à 10,
    dans lequel l'élément d'insertion (10) comprend une zone supérieure (14) qui est réalisée à l'opposé de la zone de base (11), et la zone supérieure (14) présente au moins un chanfrein (15) sur au moins un côté.
  12. Élément de liaison (100) selon l'une des revendications 1 à 11,
    dans lequel le moyen de soutien (20) est formé en deux parties.
  13. Élément de liaison (100) selon l'une des revendications 1 à 12,
    dans lequel la zone de retenue (21) du moyen de soutien (20) comprend un coulisseau (22) formé intégralement, qui est réalisé de façon complémentaire à une gorge (32) dans un profilé du cadre de fenêtre ou de porte.
  14. Agencement de profilé (300) qui comprend ce qui suit:
    - au moins un profilé extérieur (30);
    - au moins un profilé intérieur (40), ledit au moins un profilé extérieur (30) et ledit au moins un profilé intérieur (40) étant reliés l'un à l'autre au moyen d'au moins une barrette isolante (50a, 50b),
    - un élément de liaison (100) selon l'une des revendications 1 à 13 qui peut être amené en engagement avec ledit au moins un profilé extérieur (30);
    - un autre élément d'insertion (10c) qui est de structure sensiblement identique à celle de l'élément d'insertion (10) défini par les revendications 1 à 13 et qui peut être amené en engagement avec ledit au moins un profilé intérieur (40).
  15. Agencement de profilé (300) selon la revendication 14, l'agencement de profilé (300) comprenant en outre de ce qui suit:
    - au moins un profilé de montant (60) extérieur;
    - au moins un profilé de montant (70) intérieur, ledit au moins un profilé de montant (60) extérieur et ledit au moins un profilé de montant (70) intérieur étant reliés au moyen d'au moins une autre barrette isolante (90a, 90b),
    dans lequel une chambre profilée (61) du profilé de montant (60) extérieur loge la zone d'insertion (13) de l'élément de liaison (100), et une chambre profilée (71) du profilé de montant (70) intérieur loge la zone d'insertion (13c) de l'autre élément de liaison (10c).
EP16196960.5A 2015-11-02 2016-11-02 Élément de liaison pour cadre de fenêtre et de porte Active EP3163002B1 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP15192539 2015-11-02

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EP3163002B1 true EP3163002B1 (fr) 2018-09-26

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EP (1) EP3163002B1 (fr)
ES (1) ES2702052T3 (fr)
PT (1) PT3163002T (fr)

Family Cites Families (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE8014866U1 (de) * 1980-06-04 1980-09-04 Schueco Heinz Schuermann Gmbh & Co, 4800 Bielefeld T-foermige verbindung zweier profile eines fensters oder einer tuer
DE4306420A1 (de) * 1993-03-02 1994-09-08 Schueco Int Kg T-Verbindung zwischen zwei Profilen
DE19828382C2 (de) * 1998-06-25 2003-03-27 Reichel Phi Gmbh Anordnung zum Befestigen eines einen Hohlquerschnitt aufweisenden Pfostens am Blendrahmen eines Fensters oder einer Türe aus Kunststoff oder Leichtmetall
DE102004014598B4 (de) * 2004-03-23 2006-07-27 Thyssen Schulte Gutmann Bausysteme Gmbh Stoßverbinder zur Verbindung von Profilen

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
None *

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ES2702052T3 (es) 2019-02-27
PT3163002T (pt) 2018-11-21

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