EP2400094B9 - Agencement de ferrure - Google Patents

Agencement de ferrure Download PDF

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Publication number
EP2400094B9
EP2400094B9 EP11005032.5A EP11005032A EP2400094B9 EP 2400094 B9 EP2400094 B9 EP 2400094B9 EP 11005032 A EP11005032 A EP 11005032A EP 2400094 B9 EP2400094 B9 EP 2400094B9
Authority
EP
European Patent Office
Prior art keywords
axis
lever
articulated lever
articulated
rotation
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
EP11005032.5A
Other languages
German (de)
English (en)
Other versions
EP2400094A2 (fr
EP2400094B1 (fr
EP2400094A3 (fr
Inventor
Peter Sodamin
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.)
Maco Technologie GmbH
Original Assignee
Maco Technologie GmbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from AT0104210A external-priority patent/AT510093A1/de
Application filed by Maco Technologie GmbH filed Critical Maco Technologie GmbH
Priority to PL11005032T priority Critical patent/PL2400094T3/pl
Publication of EP2400094A2 publication Critical patent/EP2400094A2/fr
Publication of EP2400094A3 publication Critical patent/EP2400094A3/fr
Application granted granted Critical
Publication of EP2400094B1 publication Critical patent/EP2400094B1/fr
Publication of EP2400094B9 publication Critical patent/EP2400094B9/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05DHINGES OR SUSPENSION DEVICES FOR DOORS, WINDOWS OR WINGS
    • E05D15/00Suspension arrangements for wings
    • E05D15/48Suspension arrangements for wings allowing alternative movements
    • E05D15/52Suspension arrangements for wings allowing alternative movements for opening about a vertical as well as a horizontal axis
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05DHINGES OR SUSPENSION DEVICES FOR DOORS, WINDOWS OR WINGS
    • E05D15/00Suspension arrangements for wings
    • E05D15/48Suspension arrangements for wings allowing alternative movements
    • E05D15/52Suspension arrangements for wings allowing alternative movements for opening about a vertical as well as a horizontal axis
    • E05D15/5214Corner supports
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05DHINGES OR SUSPENSION DEVICES FOR DOORS, WINDOWS OR WINGS
    • E05D15/00Suspension arrangements for wings
    • E05D15/48Suspension arrangements for wings allowing alternative movements
    • E05D15/52Suspension arrangements for wings allowing alternative movements for opening about a vertical as well as a horizontal axis
    • E05D15/5211Concealed suspension fittings
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05DHINGES OR SUSPENSION DEVICES FOR DOORS, WINDOWS OR WINGS
    • E05D3/00Hinges with pins
    • E05D3/06Hinges with pins with two or more pins
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES E05D AND E05F, RELATING TO CONSTRUCTION ELEMENTS, ELECTRIC CONTROL, POWER SUPPLY, POWER SIGNAL OR TRANSMISSION, USER INTERFACES, MOUNTING OR COUPLING, DETAILS, ACCESSORIES, AUXILIARY OPERATIONS NOT OTHERWISE PROVIDED FOR, APPLICATION THEREOF
    • E05Y2900/00Application of doors, windows, wings or fittings thereof
    • E05Y2900/10Application of doors, windows, wings or fittings thereof for buildings or parts thereof
    • E05Y2900/13Type of wing
    • E05Y2900/148Windows

Definitions

  • the invention relates to a fitting arrangement for wings of windows, doors or the like, as described in claim 1.
  • a hinge device for windows and doors having a fixed frame and a movable frame in which the hinge device comprises first and second support members, a main lever, a secondary lever and a connecting rod.
  • the first support member is fixed to the fixed frame and has a main axis of rotation and an orthogonal aligned to the main axis of rotation slide.
  • the second support element is attached to the movable frame.
  • the main lever forms with the secondary lever and the connecting rod a scissor member for the limited pivotal movement of the movable frame.
  • the main lever in turn has a first end region, an intermediate region and a second end, wherein the first end region of the main lever is rotatably mounted with respect to the main axis arranged in the support element.
  • the secondary lever has a first end, a second end and an intermediate region, wherein the first end of the secondary lever is displaceably mounted with respect to the sliding guide formed in the first support element.
  • the intermediate region of the secondary lever is rotatably connected to the intermediate region of the main lever via a second axis, wherein this second axis is aligned parallel to the main axis of rotation.
  • a third axis is provided, about which the second support member is rotatable.
  • the connecting rod is rotatably mounted with its first end.
  • the second end of the connecting rod has a fourth axis and is rotatably supported about the second support member.
  • the fourth axis is parallel to the third axis.
  • the main axis of rotation is in turn formed by an elongate pivot-pivot pin whose length is substantially greater than the diameter of the pivot-pivot pin.
  • the rotary pivot pin is supported at its two ends in the first support member.
  • the main lever has a C-shaped pivot portion which extends parallel to the main axis of rotation and engages the pivot pin at least two axially spaced portions.
  • a door hinge for a food transport container in which a door base part is arranged on the door to be opened.
  • a housing base part On the housing of the food transport container, a housing base part is arranged.
  • a first and second pivot arm is arranged, which are each mounted pivotably about mutually parallel pivot axes both on the door base part and on the housing base part.
  • the two pivot arms When opening and closing the hinge, the two pivot arms cross each other. Due to the staggered arrangement of the individual pivot arms associated pivot axes a controlled opening movement is achieved at a door opening angle of the hinge of 270 °.
  • a window with rotatable, especially tilt-turn window sash known.
  • the window sash of the window is rotatably connected to an above and below each located in the region of its vertical axis of rotation pivot bearing with the fixed window frame. This is done by concealed upper and lower turn-tilt bearing shears, which are additionally designed to be tiltable about a lower horizontal axis.
  • the window sash is suspended weight-relieving on its stop side, which is located on the side of the rotation axis, via a tension element which is fastened to the inside and fastened to the inside of the window frame leg with its upper end.
  • the disadvantage here is that when not properly adjusted strain relief the bearing shears can be damaged. In addition, additional components are necessary to carry out the load transfer.
  • the EP 1 614 844 A2 discloses a hinge assembly for sliding folding doors, which comprises a multi-axis hinge consisting of two mutually coupled bearing plates. The associated bearing blocks are mounted on one side of the respective sliding folding wings.
  • a hidden door hinge which is composed of four hingedly coupled hinge leaves.
  • GB 1 057 765 A discloses a hinge in which the two middle articulated levers are designed to be kinked to allow the articulated lever arrangement to be guided around a front edge of the frame.
  • the present invention has for its object to provide a fitting arrangement for wings of windows or doors, which is designed as a completely concealed fitting and this allows a direct load transfer of the casement.
  • the articulated levers connected to one another via the articulated axles allow a direct transfer of load towards the support element fastened to the fixed frame, whereby additional support means can be dispensed with.
  • additional support means can be dispensed with.
  • the first toggle lever has a C-shaped main body with spaced apart in the direction of its hinge axes upper and lower legs, which are interconnected via a connecting web, wherein the two legs form a space between facing sides, and wherein by the at the ends the legs arranged, common bearing of the second hinge lever can be pivoted into the space formed.
  • a space-saving variant of the fitting arrangement is achieved.
  • the distance of the movable frame away from the fixed frame can be additionally increased, whereby a better integration of the entire fitting arrangement is possible as completely concealed fitting. Due to the design of the two legs and the two legs passing through the hinge axis at the ends of a two-section and thus stable storage for the load transfer is created for the second toggle lever.
  • first hinge axis When the first hinge axis is formed in the connecting web, a continuous, stable mounting of the first hinge lever in the region of the common axis of rotation is achieved in the support element. Furthermore, but also the entire stability of the first articulated lever can be increased.
  • the second articulated lever is arranged between the two limbs of the first articulated lever and the second articulated lever is almost entirely formed in the position pivoted completely between the two limbs Freiraum added.
  • the two legs of the first articulated lever serve as a bearing and the second articulated lever causes additional distancing in the pivoted position of the movable frame relative to the fixed frame causes.
  • a compact design of the entire fitting arrangement is achieved even when completely pivoted position.
  • the second articulated lever in which the second articulated lever is supported in the direction of its first articulation axis on the lower leg of the first articulated lever, a stable mounting and guidance of the second articulated lever is achieved on the first articulated lever.
  • the second articulated lever between its two ends and in the vertical direction with respect to its axis of articulation has a width which corresponds approximately to a clear width between the second end of the first articulated lever and its connecting web, in turn, a complete Recording of the second articulated lever achieved within the clearance of the first articulated lever, which not only high support forces can be absorbed in the fully pivoted position of the fitting assembly, but also with minimum space requirements, a stable bearing assembly can be created.
  • a fitting arrangement can be formed in the smallest space with low structural strength, which is used as a completely concealed fitting and in which the predefined clearance gauge serves to accommodate the two articulated levers. So not only a directed load transfer is achieved but achieved by the interlocking of the toggle lever a small footprint.
  • first toggle lever at its first end and in a top receiving portion facing at least one recess and thereby at least one articulated arm with the first hinge axis forms, which articulated arm in cooperation with the in the receptacles of Supporting element arranged axis of rotation forms a first hinge assembly is achieved on the first hinge lever in cooperation with the support member 7 a multi-section hinge assembly in the region of the common axis of rotation and hinge axis and still allows sufficient space for the Einschwenkhik of the first articulated lever defined in the upper recording free clearance profile.
  • the first toggle lever has at least one further recess at its second end and in a further section axially spaced from the upper receptacle and at least one further articulated arm forms with the second articulated axis, which articulated arm in cooperation with the second articulated lever arranged in the first hinge axis forms a second hinge assembly, as in a staggered staggered but staggered arrangement, the two bearings on the one hand to the support element and on the other hand can be created to the second articulated lever with minimal space requirements.
  • joint arrangement formed between the two articulated levers is additionally stiffened and thus created in spite of the small footprint, a stable and, above all, jam-proof joint arrangement.
  • a support element for supporting the movable frame is arranged, the possibility is created, a targeted load transfer, starting from the movable frame through the two articulated levers on the arranged on the fixed frame support member perform.
  • This support element forms the base point for the rotational movement of the movable frame during the opening and closing movement and the base point for the tilting movement of the frame to achieve the tilting position of the window or the door.
  • the fitting arrangement comprises a second supporting device which can be fastened to the movable frame, by means of which the movable frame is supported on the first supporting device, a predefined support of the movable frame is provided on the stationary frame via the second supporting device.
  • a sliding guide is formed, which is aligned orthogonally with respect to the axis of rotation of the support member, allows a limitation of the opening angle of the movable frame relative to the fixed frame.
  • the embodiment according to claim 12 or 13 is advantageous, since a determination of the opening and closing curve of the movable frame relative to the fixed frame can be achieved with low resources. This can be used in conjunction with the fitting arrangement to perform a controlled opening and closing movement.
  • a steering lever in its second end portion has a pin-shaped guide element, which is designed to engage in a formed in the second support device guide, as this prevents unwanted pivotal movement of the movable frame relative to the fitting assembly can be.
  • a fitting arrangement 1 for windows or doors wherein the fitting assembly 1 is designed as a completely concealed fitting in the form of a so-called turn-tilt fitting.
  • the window or door has a fixed frame 2 and a movable frame 3.
  • the fixed frame 2 may also be referred to as a floor, which is fixedly arranged in a building opening and supported therein.
  • the movable frame 3 is also referred to as a wing.
  • the Bergriff hinge arrangement can be selected.
  • the fitting or the fitting arrangement 1 can in turn comprise a plurality of assemblies or component groups, as will be described in more detail below.
  • the fitting arrangement 1 comprises, as the first possible assembly, at least the corner bearing 4 shown here, which, depending on the size of the window, serves for complete load transfer of the movable frame 3 designed as a wing.
  • the fitting assembly 1 as here the corner bearing 4, a fixed to the fixed frame 2 or fastened thereto support device 5.
  • a second or further support device 6 is arranged on the movable frame 3 in the first support device 5 facing corner region, which also referred to as a support angle can be.
  • the supporting angle or the further support device 6 forming this is in turn connected to the movable frame 3 or wing.
  • a relative displacement or displacement of the movable frame 3 relative to the fixed frame 2 is performed here in the region of the further support device 6 and takes place in a known manner.
  • An adjustment can take place both in the vertical direction and in the horizontal direction, so as to be able to perform an exact adjustment of the casement with respect to the fixed frame 2.
  • a support member 7 which is fixed in a fold on the fixed frame 2, in particular screwed.
  • the support element 7 in turn comprises an axis of rotation 8 and in the direction of the axis of rotation 8 spaced from each other upper and lower receptacles 9, 10. Between the two receptacles 9, 10 extends a longitudinal web 11, which connects the two receptacles 9, 10 together.
  • the longitudinal web 11 and the two receptacles 9, 10 form an integral component, wherein the two receptacles 9, 10 project beyond the longitudinal web 11 in the direction of the window opening.
  • the axis of rotation 8 is arranged or received in alignment with one another in both receptacles 9, 10 and thus forms a two-part bearing for a first toggle lever 12.
  • the axis of rotation 8 and thus the bearing for the first toggle lever 12 is arranged in a pivoting direction facing end portion 13 in the two receptacles 9, 10. This end portion 13 is thus arranged inside closer to the movable frame 3.
  • the first articulated lever 12 has an approximately C-shaped base body 14, which in turn comprises upper and lower legs 15, 16 and a connecting web 17 connecting the two legs.
  • the first toggle lever 12 has in a plane oriented perpendicular to the axis of rotation 8 spaced apart first and second ends 18, 19. In the region of the first and second ends 18, 19 of the first articulated lever 12, this has a first and second hinge axis 20, 21.
  • the two joint axes 20, 21 are aligned parallel to the axis of rotation 8 of the support element 7.
  • the first end 18 is mounted with its first hinge axis 20 rotatably about the axis of rotation 8 of the support member 7.
  • first hinge axis 20 of the first articulated lever 12 extends in a direction parallel to the connecting web 17 therethrough.
  • first hinge axis 20 is formed in the connecting web 17.
  • the second hinge axis 21 of the first articulated lever 12 is arranged in alignment in the two legs 15, 16.
  • the two legs 15, 16 also form here with the connecting web 17 a preferably one-piece component, wherein between the two legs 15, 16 and between facing sides thereof a space 22 is recessed or formed.
  • the connecting web 17 a preferably one-piece component, wherein between the two legs 15, 16 and between facing sides thereof a space 22 is recessed or formed.
  • the first support device 5 also comprises a second articulated lever 23 with first and second ends 24, 25 distanced in the vertical direction with respect to the rotation axis 8.
  • the second articulated lever 23 has a first articulation axis 26, the second articulated lever 23 is rotatably supported at its first end 24 via the first hinge axis 26 extending through the first end 24 at the second hinge axis 21 arranged at the second end 19 of the first hinge lever 12.
  • the formed in the two legs 15 and 16 second hinge axis 21 and extending in the first end 24 of the second articulated lever 23 first hinge axis 26 are preferably formed by a common bearing pin, which passes through both the legs 15, 16 and the second hinge lever 23.
  • both the support member 7 with its axis of rotation 8 and the joint axes 20, 21 and 26 of the two pivot levers 12, 23 a vertical orientation.
  • the first articulated lever 12 in the direction of its first hinge axis 20 has a longitudinal extent 27 which corresponds to a distance 28 between the two receptacles 9, 10 almost.
  • the longitudinal extent 27 should only be selected slightly shorter than the distance 28 in usual manufacturing tolerances to allow a safe pivoting of the first articulated lever 12 about the axis of rotation 8 of the support member 7 between the two receptacles 9, 10. It is advantageous that thereby a sufficient guidance accuracy and thus height adjustment of the two interacting components can be achieved. Furthermore, this also allows an unobstructed opening movement of the movable frame 3 relative to the fixed frame 2.
  • the two mutually distanced receptacles 9, 10 of the support member 7 form a receiving space 29, in which the first toggle lever 12 can be pivoted into it.
  • the dimension of the two receptacles 9, 10 and the receiving space 29 formed therebetween is formed such that when fully pivoted position of the first articulated lever 12 in the receiving space 29, this is almost completely included in this.
  • This is understood to mean that seen in cross-section in a direction perpendicular to the axis of rotation 8, the upper and / or lower receptacle 9, 10, optionally deducting the space required for the longitudinal web 11, defines a clearance space, which corresponds to the cross section of the receiving space 29.
  • this bounded clearance space of the articulated lever 12 may preferably be fully pivoted.
  • the first articulated lever 12 is seen in the direction of its first hinge axis 20 at its first end 18 with its connecting web 17 supported thereon.
  • the first toggle lever 12 has between its two ends 18, 19 and in the vertical direction with respect to its hinge axes 20, 21, a width 30 which corresponds approximately to a width 31 of the support member 7 in the same direction. This ensures that, when the first articulated lever 12 is fully pivoted into the receiving space 29, the two ends 18, 19 are arranged to extend approximately flush with longitudinal side surfaces 32, 33 of the supporting element 7.
  • the first support device 5 For a compact design of the first support device 5 is achieved.
  • the second articulated lever 23 can preferably be fully pivoted within the above-described clearance of the support member 7.
  • the second articulated lever 23 further has, in its second end 25, a supporting element 34, via which, if appropriate with the interposition of the second supporting device 6, the movable frame 3 is supported or mounted on the stationary frame 2.
  • the second articulated lever 23 has a height 35 which corresponds to almost a clear width 36 between the two legs 15, 16 of the first articulated lever 12. Again, in turn, to pay attention to a corresponding, dimensional vote, on the one hand to avoid too much play and on the other hand to perform a sufficient height guidance and proper pivoting movement.
  • the second articulated lever 23 is seen in the region of its first end 24 in the direction of its first articulation axis 26 seen supported on the lower leg 16 of the first articulated lever 12 thereto.
  • the second articulated lever 23 between its two ends 24, 25 and in the vertical direction with respect to its hinge axis 26 has a width 37, which in approximately one clear width 38 between the second end 19 and the connecting web 17 of the first articulated lever 12 corresponds.
  • the first Articulated lever 12 pivot about the axis of rotation 8 of the support member 7 between the two receptacles 9, 10.
  • the second end 19 of the first articulated lever 12 is located with its second articulation axis 21 in the region of the longitudinal axis 32 opposite the axis of rotation 8.
  • the second articulated lever 23 is at its first end 24 and the first articulation axis 26 arranged there is about the second Joint axis 21 of the first articulated lever 12 pivotally and can be pivoted so in completely pivoted position of the corner bearing 4 of the fitting assembly 1 and thus with the window closed or door closed in the free space 22. Then, the second end 25 of the second articulated lever 23 of the rotation axis 8 of the support member 7 is disposed adjacent. In this compactly folded position or position of the two articulated levers 12, 23 within the clearance of the support member 7, only the second articulated lever 23 arranged support member 34 for supporting the second support device 6 project beyond the outer cross section of the support member 7.
  • the load transfer of the movable frame 3 is thus carried out starting from the second support device 6 toward the support member 34, the second articulated lever 23 and the first toggle lever 12 toward the support member 7, which in turn is mounted fixed to the fixed frame 2.
  • a scissors assembly with scissor levers may be provided, as will be described below.
  • the supporting element 7 is assigned to the side facing away from the receiving space 29 side of the lower receptacle 10, a support member 39, in particular connected to this.
  • the support member 39 is formed in the present embodiment as a flat profile, which is preferably aligned at right angles with respect to the longitudinal extent of the support member 7 thereto. In order for an assembly of the first support device in a corner region of the fixed frame is possible.
  • the fitting assembly 1 further includes a lever 40 and a steering lever 41.
  • the lever 40 in turn a first and second end region 42, 43, wherein an intermediate region 44 is defined between these two end regions 42, 43.
  • the adjusting lever 40 is displaceably guided with its first end region 42 in a sliding guide 45 formed in the supporting part 39.
  • the sliding guide 45 may be formed, for example, as a slot, wherein the sliding guide is aligned orthogonally with respect to the axis of rotation 8 of the support member 7.
  • a first axis 46 is formed or provided which is rotatably connected to the support element 34 of the second articulated lever 23.
  • the support member 34 has for receiving or supporting and rotatable mounting of the second support device 6 on a pivot axis 47 and forms them.
  • the arrangement or mutual alignment of the first axis 46 of the actuating lever 40 is aligned or coaxial with the pivot axis 47 of the support member 34.
  • a mutually axially aligned guidance of the support member 34 with the second end portion 43 of the actuating lever 40 is reached.
  • the steering lever 41 cooperating with the adjusting lever 40 comprises a first and a second end section 48, 49, wherein a second axle 50 is formed or arranged in the first end section 48 of the steering lever 41.
  • the arrangement and orientation of the second axis 50 is selected such that it is aligned with respect to the axis of rotation 8 of the support element. 7 is aligned.
  • this has an unspecified release here, so as to provide a receiving gap between the support member 39 and the lower receptacle 10.
  • the steering lever 41 has between its two end portions 48, 49 and a further intermediate portion 51.
  • both the first, second and third axes 46, 50 and 52 are aligned parallel to each other and parallel to the axis of rotation 8 of the support element 7 aligned.
  • a pin-shaped guide element 53 is still provided or arranged in the second end portion 49 of the steering lever 41, which is provided for engagement in a formed in the second support device 6 guide groove 54. Due to the interaction of the guide element 53 with the guide groove 54 in the second support device 6, the opening angle and thus the relative pivotal movement of the movable frame 3 relative to the fixed frame 2 can be limited or fixed.
  • the adjusting lever 40 is slidably mounted with its end portion 42 in the sliding guide 45.
  • the axis 46 is arranged, which is rotatably connected to the support member 34, not shown here, of the second articulated lever 23.
  • the steering lever 41 is connected with its first portion 48 about the second axis 50 pivotally connected to the support member 39.
  • the two intermediate regions 44, 51 of the actuating lever 40 and steering lever 41 these are rotatably coupled to each other via the third axis 52.
  • the arranged in the first end portion 48 axis 50 of the steering lever 41 is preferably aligned with the axis of rotation 8 of the support member 7 arranged or formed by a common rotary-bearing pin.
  • a recess 55 which is approximately semicircular is arranged, which engages in a locking pin 56 in the closed state of the movable frame 3 (of the wing). This is done by a Einscherterrorism. In order for a burglary inhibition of the corner bearing 4 of the fitting assembly 1 can be achieved. If the fixing bolt 56 is formed eccentrically, this can additionally be used to adjust the wing contact pressure.
  • wing relief device 57 serves to support the load transfer of the movable frame 3 during its pivotal movement about the defined by the support member 34 pivot axis 47.
  • Such wing relief devices 57 may in turn be part of the fitting assembly 1 and be used depending on the size of the wing and its own mass , It would also be a multiple arrangement of such wing relief devices 57 possible, so as to be able to form large wings with a high intrinsic mass mobile.
  • the arranged on the fixed frame 2 and supported thereon support member 7 with its two receptacles 9, 10 and the two receptacles 9, 10 connecting longitudinal web 11 is provided.
  • the support element 7 in turn also has the axis of rotation 8 about which the first articulated lever 12 is pivotally or rotatably mounted with its first end 18.
  • the first articulated lever 12 is formed here by the approximately C-shaped base body 14, which includes the upper and lower legs 15, 16 and the two legs 15, 16 connecting connecting web 17.
  • the space 22 formed between the two legs 15, 16 serves to receive the second articulated lever 23 in its pivoted-in position.
  • the second hinge axis 21 is formed, about which the second hinge lever 23 is pivotally mounted with its first end 24 and the first hinge axis 26 arranged there.
  • the support member 7 and the two hinge levers 12, 23 form the first support device 5 on the fixed frame 2.
  • On the movable frame 3 is another Support device 58 supported thereon.
  • a coupling element 59 is provided, which forms the mechanical connection between the support device 58 and the supporting frame 5 arranged on the fixed frame 2 during the opening pivoting movement of the wing.
  • a setting device not shown, allows readjustment of the two support devices 5, 58 to each other in order to perform the relative displacements or adjustments made in the corner bearing 4 between the fixed frame 2 and the movable frame 3 also.
  • the coupling element 59 and / or the second articulated lever 23 may be assigned its own adjustment unit with which the adjustment work can be carried out.
  • a vertical and / or horizontal adjustment is provided in order to achieve an optimal weight distribution between the hinge assemblies of the fitting assembly 1 (corner bearing 4 and wing relief device 57).
  • a guide assembly 60 is formed, which may be formed for example by a dovetail guide or a differently shaped sliding or the like.
  • a locking or snap element can be provided.
  • the arranged in the upper corner scissors bearing for additional limitation of the opening movement of the movable frame 3 is analogous to the previously formed scissor assembly with the lever 40 and and steering arm 41 and the two levers supporting support member 39 form.
  • Fig. 7 to 9 is another and if necessary. for independent embodiment of an assembly as a corner bearing 4 of the fitting assembly 1, in particular their support device 5, shown, again with the same parts the same reference numerals or component names as in the preceding Fig. 1 to 6 be used. In order to avoid unnecessary repetition, the detailed description in the previous ones will be used Fig. 1 to 6 referred or referred.
  • This embodiment of the assembly shown here as a corner bearing 4 of the fitting assembly 1 in turn serves to pivot the movable frame 3 relative to the fixed frame 2 relative thereto, which in turn is also a completely hidden fitting in the form of a so-called turn-tilt fitting is.
  • the fitting arrangement 1 in this case again comprises the corner bearing 4, which, depending on the size of the window, serves for completely transferring the load of the movable frame 3 designed as a wing toward the stationary frame 2.
  • the corner bearing 4 in turn comprises the between the two frames 2, 3 arranged support devices 5, 6, wherein the detailed description refers here only to the mounted on the fixed frame 2 or supported thereon support device 5.
  • the support device 5 comprises the support element 7 which is fixed in a fold on the fixed frame 2, in particular screwed thereto. Furthermore, the support device 5 still comprises the two articulated levers 12, 23, with which, starting from the movable frame 3, if necessary with the interposition of the second support device 6, the entire window load is removed via the two articulated levers 23, 12 towards the support element 7. In this case, the support element 7 is aligned in the usual position of use with its axis of rotation 8 in the vertical direction and secured to the fixed frame 2.
  • the support element 7 in turn comprises the axis of rotation 8 and in its upper end region the upper receptacle 9.
  • the longitudinal web 11 extends in the direction of the longitudinal axis 8 towards the other end portion of the support element 7.
  • To achieve a multi-layered storage is distanced from the upper receptacle 9 at least one further receptacle 63, but preferably a plurality of these receptacles 63 arranged on the longitudinal web 11.
  • the axis of rotation 8 is arranged in alignment or coaxially starting from the upper receptacle 9 in the other receptacles 63 and received by these.
  • the further or the further receptacles 63 can also be viewed in the manner of pivoting or articulating eyes, which are penetrated by the axis of rotation 8. Again, in turn, the axis of rotation 8 and thus the bearing for the first articulated lever 12 in one of the Aufschwenkcardi end facing 13 in the receptacles 9, 63 are arranged. This end region 13 is thus arranged on the inside closer to the movable frame 3.
  • the first toggle lever 12 seen in the direction of the axis of rotation 8, has a longitudinal extension which is somewhat shorter than the entire longitudinal extent of the carrier element 7 in the same direction. Seen in the vertical direction with respect to the axis of rotation 8, the articulated lever 12 in turn has its two mutually distanced ends 18, 19 with the joint axes 20, 21 formed thereon or received thereon. These two joint axes 20, 21 are aligned parallel to the axis of rotation 8, wherein the first end 18 is rotatably mounted with its axis of rotation 20 again about the axis of rotation 8 of the support element 7 or pivotally.
  • the first joint axis 20 forms with the axis of rotation 8 a first joint arrangement.
  • the main body 14 of the first articulated lever 12 accommodating the articulation axes 20, 21 is approximately flat-profile-like in the direction of the longitudinal extent of the articulation axes 20, 21, the base body 14 being recesses in the region of its two ends 18, 19 distanced from one another in the vertical direction relative to the axis of rotation 8 64, 65 or breakthroughs.
  • this has at least the recess 64, but preferably at least one further recess 65, so as to provide a free space for receiving the at least one receptacle 63 of the support element To create 7 and thus be able to form part of the joint assembly. Due to the axial distancing of the first receptacle 63 from the upper receptacle 9 in the direction of the axis of rotation 8 and the arrangement of the recess 64 in the first articulated lever 12, this has at least one first articulated arm 66 in the region of the first end 18.
  • a further receptacle 63 for extending the axis of rotation 8 in the axial direction on the support element.
  • This further receptacle 63 is arranged distanced from the first receptacle 63 in the axial direction thereof. In this space between the two receptacles 63 protrudes another articulated arm 67 in the region of the first end 18 between the two receptacles 63 into it.
  • the preferably bolt-shaped axis of rotation 8 continuously as a common pivot pin.
  • the hinge axis 20 in the first end 18 of the first articulated lever 12 even further on the further recess 65 in the base body 14.
  • an alternately interlocking hinge-joint-like bearing between the support member 7 and the first pivot lever 12 is achieved in the region of the axis of rotation 8 and the hinge axis 20.
  • deducting the cross section of the longitudinal web 11 defines a clearance profile, in which the first articulated lever 12 and preferably also the further articulated lever 23 is almost completely absorbed in completely pivoted position thereof.
  • the first toggle lever 12 can be completely pivoted into the clearance space.
  • the second articulated lever 23 is completely pivoted into the clearance space.
  • the storage for the second articulated lever 23 In order to pivot the second articulated lever 23 in the closed position of the support device 5 - ie at fully pivoted position or position of the movable frame 3 with respect to the fixed frame 2 - in the previously defined clearance profile, the storage for the second articulated lever 23 However, the side facing away from the upper receptacle 9 in the region of the first articulated lever 12 is formed in the region of the second end 19.
  • the mutually engaging joint parts between the first and second toggle levers 12, 23 may be formed depending on the loads to be removed.
  • the first toggle lever 12 in the region of its second end 19 on the side facing away from the upper receptacle 9 on another side recess 68, which serves to form the common bearing between the first pivot lever 12 and the second pivot lever 23.
  • further articulated arms 69, 70 are formed in the second end 19, in which the common articulation axis 21 of the first articulated lever 12 is arranged or formed.
  • the second articulated lever 23 can engage with its first end 24 into the recess 68 between the two articulated arms 69, 70 and thus form the further articulated arrangement.
  • the second articulated lever 23 has, in its first end 24 facing the first articulated lever 12, an additional recess 71 into which the second articulated arm 70 of the first articulated lever 12 engages.
  • the articulated arms 72, 73 are formed on both sides of the recess 71 of the second articulated lever 23 in its first end 24, which define or receive the articulation axis 26 of the second articulated lever 22.
  • the hinge axis 26 of the second articulated lever 23 comes in alignment or coaxial alignment with the second hinge axis 21 of the first articulated lever 12 and thus forms the further hinge assembly in the manner of a Hinge joint.
  • attention must be paid to a corresponding dimensional design and the tolerances.
  • the support member 34 is seen in the vertical direction with respect to the rotation axis 8 during the opening or pivoting movement of the movable frame 3 relative to the fixed frame 2 from within the fixed frame 2 in a swinging direction Seen outside the floor cross section located position pivoted.
  • the stationary frame 2, referred to as a fixed floor is considered in its strength in a plane oriented in the vertical direction with respect to the axis of rotation 8.
  • the support member 34 is in the closed position of the corner bearing 4 within the floor cross-section and is pivoted when opening in a position on the opening side of the movable frame 3 facing side outside of the floor cross-section. In normal operation case and arrangement of the two frames 2, 3, this is usually the building inside opening direction.
  • the two frames 2, 3 are shown in a cross-section in the vertical direction with respect to the axis of rotation 8 in the closed position to each other in order to better illustrate the arrangement of the support devices 5, 6 for forming the corner bearing 4.
  • the fixed frame 2 has a thickness 74 in the plane aligned perpendicular to the axis of rotation 8 and in the passage direction of a building opening.
  • the relative to the fixed frame 2 to movable frame 3 is pivotally mounted in its Aufschwenkraum towards the building inside by means of the corner bearing 4 or adjustable.
  • the fixed frame 2 viewed in the direction of the thickness 74, has a frame inside 75 and a frame outside 76.
  • the movable frame 3 has on its side facing the fixed frame 2 a groove-shaped recess 77, in which the support device 6 of the corner bearing 4 can be used.
  • An average of the width of the groove-shaped depression 77 in the direction of the thickness 74 is seen at a distance 78 in FIG vertical direction with respect to the frame inner side 75 of these arranged distant.
  • this distance 78 has a dimension of usually 9 mm or 13 mm.
  • the formation of the support device 5 is to be selected accordingly.
  • the distance 78 provided in an extent of 9 mm.
  • That in the Fig. 7 and 8th illustrated embodiment of the support device 5 is formed for the distance 78 in the order of 13 mm.
  • the distance depends on the window geometry and can also be chosen differently.
  • Fig. 9 is the support device 5 according to the Fig. 7 and 8th shown in an open position to better illustrate the collision-free opening or pivoting of the movable frame 3 relative to the fixed frame 2 can.
  • the fitting assembly 1 To support the movable frame 3 in its tilted position relative to the fixed frame 2, the fitting assembly 1 in a known manner also trained and cooperating scissor lever, which have not been described here and are usually located in the upper corner of the two frames 2, 3.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Hinges (AREA)

Claims (14)

  1. Agencement de ferrure (1) pour des vantaux de fenêtres, de portes ou similaires avec un cadre stationnaire (2) et un cadre (3) déplaçable par rapport à celui-ci, qui inclut au moins un premier dispositif de soutien (5) à fixer sur le cadre stationnaire (2), dans lequel le premier dispositif de soutien (5) comprend un élément porteur (7) avec un axe de rotation (8) et plusieurs récepteurs (9, 10, 63) à distance les uns des autres en direction de l'axe de rotation (8) et recevant l'axe de rotation (8), les récepteurs étant reliés les uns aux autres via une barrette allongée (11) et dépassant au-delà de la barrette allongée (11), un premier levier articulé (12) avec une première et une seconde extrémité (18, 19) à distance l'une de l'autre en direction perpendiculaire par rapport à l'axe de rotation (8), ainsi qu'un premier et un second axe d'articulation (20, 21), qui sont orientés parallèlement à l'axe de rotation (8) de l'élément porteur (7) et la première extrémité (18) est capable de rotation avec son premier axe d'articulation (20) autour de l'axe de rotation (8) de l'élément porteur (7), et inclut un second levier articulé (23) avec une première et une seconde extrémité (24, 25) à distance l'une de l'autre en direction perpendiculaire par rapport à l'axe de rotation (8), ainsi qu'un premier axe d'articulation (26),
    dans lequel le second levier articulé (23) est monté avec sa première extrémité (24), via le premier axe d'articulation (26) s'étendant à travers la première extrémité (24), sur le second axe d'articulation (21) agencé à la seconde extrémité (19) du premier levier articulé (12), dans lequel l'élément porteur (7) du dispositif de soutien (5) inclut un récepteur supérieur ainsi qu'un récepteur inférieur (9, 10), qui sont à distance l'un de l'autre en direction de l'axe de rotation (8) et forment entre eux une chambre de réception (29) pour le premier levier articulé (12), le premier levier articulé (12) comprend un corps de base en forme de C (14) avec un bras supérieur et un bras inférieur (15, 16) à distance l'un de l'autre en direction de ses axes d'articulation (20, 21) et ces bras sont reliés l'un à l'autre via une barrette de liaison (17), dans lequel les deux bras (15, 16) forment entre des côtés tournés l'un vers l'autre un espace libre (22), et dans lequel le second levier articulé (23) est agencé entre les deux bras (15, 16) du premier levier articulé (12), caractérisé en ce que le second levier articulé (23) est reçu, dans sa position entièrement rabattue, pratiquement entièrement dans l'espace libre (22) formé entre les deux bras (15, 16).
  2. Agencement de ferrure (1) selon la revendication 1, caractérisé en ce que l'axe de rotation (8) de l'élément porteur (7) est agencé en affleurement dans les récepteurs (9, 10, 63) ainsi que dans une zone terminale (13), tournée dans la direction de pivotement en ouverture, de l'élément porteur (7).
  3. Agencement de ferrure (1) selon l'une au moins des revendications précédentes, caractérisé en ce que l'espace libre (22) est délimité au moins localement entre les deux bras (15, 16) ainsi que la barrette de liaison (17) avec une barrette en forme de plaque (62), et/ou en ce que le premier axe d'articulation (20) est réalisé dans la barrette de liaison (17).
  4. Agencement de ferrure (1) selon l'une au moins des revendications précédentes, caractérisé en ce que le premier levier articulé (12) est soutenu, vu en direction de son premier axe articulé (20), dans sa première extrémité (18) avec sa barrette de liaison (17) ou avec le bras inférieur (16), au récepteur inférieur (10) de l'élément porteur (7).
  5. Agencement de ferrure (1) selon l'une au moins des revendications précédentes, caractérisé en ce que le second levier articulé (23) présente, en direction de son premier axe d'articulation (26), une hauteur qui correspond pratiquement à une largeur libre (36) entre les deux bras (15, 16) du premier levier articulé (12).
  6. Agencement de ferrure selon l'une au moins des revendications précédentes, caractérisé en ce que le second levier articulé (23) est soutenu, vu en direction de son axe d'articulation (26), au niveau du bras inférieur (16) du premier levier articulé (12), et/ou en ce que le second levier articulé (23) présente, entre ses deux extrémités (24, 25) et en direction perpendiculaire par rapport à son axe d'articulation (26), une largeur (37) qui correspond approximativement à une largeur libre (38) entre la seconde extrémité (19) du premier levier articulé (12) et sa barrette de liaison (17).
  7. Agencement de ferrure (1) selon l'une au moins des revendications 2 à 6,
    caractérisé en ce que, dans un plan orienté perpendiculairement à l'axe de rotation (8), un profil d'espace libre est défini par le récepteur supérieur (9) en soustrayant la section transversale de la barrette allongée (11), profil dans lequel le premier levier articulé (12) est reçu pratiquement entièrement lorsque celui-ci est dans sa position entièrement pivotée en rétraction, et/ou en ce que dans un plan orienté perpendiculairement à l'axe de rotation (8), un profil d'espace libre est défini par le récepteur supérieur (9) en soustrayant la section transversale de la barrette allongée (11), profil dans lequel le second levier articulé (23) est reçu pratiquement entièrement lorsque celui-ci est dans sa position entièrement pivotée en rétraction.
  8. Agencement de ferrure (1) selon l'une au moins des revendications 2 à 7, caractérisé en ce que le premier levier articulé (12) comporte à sa première extrémité (18) ainsi que dans un tronçon tourné vers le récepteur supérieur (9), au moins un évidement (64, 65) et en ce qu'il se forme ici au moins un bras articulé (66, 67) avec le premier axe d'articulation (20), ledit bras articulé (66, 67) formant, en coopération avec l'axe de rotation (8) reçu dans les récepteurs (9, 63) de l'élément porteur (7), un premier agencement articulé, et/ou en ce que
    le premier levier articulé (12) comporte à sa seconde extrémité (19) ainsi que dans un autre tronçon à distance du récepteur supérieur (9) en direction axiale, au moins un autre évidement (68), et en ce qu'il se forme ici au moins un autre bras articulé (70) avec le second axe d'articulation (21), ledit bras articulé (70) formant, en coopération avec le premier axe de rotation (26) agencé dans le second levier articulé (23), un second agencement articulé.
  9. Agencement de ferrure (1) selon l'une au moins des revendications précédentes, caractérisé en ce que le second levier articulé (23) comporte à sa première extrémité (24) au moins un évidement (71), et en ce qu'il se forme ici au moins deux bras articulés (72, 73) avec le premier axe d'articulation (26).
  10. Agencement de ferrure (1) selon l'une au moins des revendications précédentes, caractérisé en ce que le premier levier articulé (12) comporte entre ses deux extrémités (18, 19) ainsi qu'en direction perpendiculaire par rapport à ses axe d'articulation (20, 21), une largeur (30) qui correspond approximativement à une largeur (31) de l'élément porteur (7) dans la même direction, et/ou en ce que
    entre le premier dispositif de soutien (5) à fixer sur le cadre stationnaire (2) et un autre dispositif de soutien (58) à fixer sur le cadre mobile (3) est agencé un élément de couplage (59) qui, dans la position entièrement pivotée en rétraction des deux leviers articulés (12, 23), est guidé de manière à pouvoir basculer en rétraction et en déploiement en direction radiale via un agencement de guidage (60) agencé entre le second levier articulé (23) et l'élément de couplage (59), et/ou en ce que
    dans la seconde extrémité (25) du second levier articulé (23) est agencé un élément de soutien (34) pour le soutien du cadre mobile (3).
  11. Agencement de ferrure (1) selon l'une au moins des revendications précédentes, caractérisé en ce que celui-ci comprend en outre un second dispositif de soutien (6) à fixer sur le cadre mobile (3), via lequel le cadre mobile (3) est soutenu sur le premier dispositif de soutien (5), et/ou en ce que
    sur le côté, opposé au récepteur supérieur (9), de l'élément porteur (7), est agencée une pièce de soutien (39) et en particulier un guidage coulissant (45) est réalisé dans la pièce de soutien (39), guidage qui est orienté perpendiculairement par rapport à l'axe de rotation (8) de l'élément porteur (7).
  12. Agencement de ferrure (1) selon l'une au moins des revendications précédentes, caractérisé en ce que celui-ci inclut en outre un levier de positionnement (40), lequel comporte une première et une seconde zone terminale (42, 43), de sorte que la première zone terminale (42) du levier de positionnement (40) est guidée en déplacement dans le guidage coulissant (45), et en ce que dans la seconde zone terminale (43) est ménagé un premier axe (46) qui est relié en rotation avec l'élément de soutien (34).
  13. Agencement de ferrure (1) selon l'une au moins des revendications précédentes, caractérisé en ce que celui-ci comprend en outre un levier directeur (41), lequel comprend un premier et un second tronçon d'extrémité (48, 49), tels que dans le premier tronçon d'extrémité (48) du levier directeur (41) est réalisé un second axe (50) qui est orienté en alignement par rapport à l'axe de rotation (8) de l'élément porteur (7), en particulier dans lequel le levier directeur (41) comporte dans son second tronçon d'extrémité (49) un élément de guidage (53) en forme de tenon, qui est réalisé en vue d'un engagement dans une gorge de guidage (54) ménagée dans le second dispositif de soutien (6).
  14. Agencement de ferrure (1) selon la revendication 12 en association avec la revendication 13, caractérisé en ce que le levier de positionnement (40) et le levier directeur (41) sont reliés l'un à l'autre en rotation autour d'un troisième axe (52) dans des zones intermédiaires (44, 51) qui se recouvrent mutuellement.
EP11005032.5A 2010-06-22 2011-06-21 Agencement de ferrure Active EP2400094B9 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PL11005032T PL2400094T3 (pl) 2010-06-22 2011-06-21 Układ okuć

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
AT0104210A AT510093A1 (de) 2010-06-22 2010-06-22 Beschlaganordnung
AT0138410A AT510094A1 (de) 2010-06-22 2010-08-17 Beschlaganordnung

Publications (4)

Publication Number Publication Date
EP2400094A2 EP2400094A2 (fr) 2011-12-28
EP2400094A3 EP2400094A3 (fr) 2014-07-02
EP2400094B1 EP2400094B1 (fr) 2016-08-17
EP2400094B9 true EP2400094B9 (fr) 2016-10-26

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ID=44464812

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EP11005032.5A Active EP2400094B9 (fr) 2010-06-22 2011-06-21 Agencement de ferrure

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EP (1) EP2400094B9 (fr)
AT (1) AT510094A1 (fr)
PL (1) PL2400094T3 (fr)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE202012000155U1 (de) * 2012-01-10 2013-04-23 Maco Technologie Gmbh Beschlaganordnung
CN104895460A (zh) * 2015-06-30 2015-09-09 瑞安市坚圣门窗五金有限公司 一种门窗外开上悬装置

Family Cites Families (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE104257C (fr)
US625678A (en) * 1899-05-23 Hinge
GB1057765A (en) * 1964-05-25 1967-02-08 Sai Kheong Kwan Improvements in or relating to hinges
DE3906794A1 (de) 1989-03-03 1990-09-06 Bilstein August Gmbh Co Kg Fenster mit einem drehbeweglichen, insbesondere drehkippbeweglichen fensterfluegel
DE3915502A1 (de) * 1989-05-12 1990-11-15 Roland Dipl Ing Knauer Scharnier-einrichtung
ITTO20040437A1 (it) 2004-06-28 2004-09-28 Savio Spa Dispositivo di incernieramento per serramenti
DE202004010622U1 (de) * 2004-07-06 2004-09-09 Siegenia-Aubi Kg Drehlagervorrichtung

Also Published As

Publication number Publication date
PL2400094T3 (pl) 2017-04-28
EP2400094A2 (fr) 2011-12-28
EP2400094B1 (fr) 2016-08-17
AT510094A1 (de) 2012-01-15
EP2400094A3 (fr) 2014-07-02

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