EP0432380B1 - Hinge, especially tilting and turning fitting for windows, doors or similar - Google Patents

Abstract

What is provided is a hinge for windows, doors or the like, which can be used as a turn-and-tilt corner joint and which has a bearing block 8 arranged on the room-confronting end face of the case frame or jamb frame and equipped, at one end of the holding plate (16), with a bearing lug for the turnable and/or tiltable reception of a bearing bolt for a hinge part located on the wing. From the holding plate 16 extends an angle piece 14 which has a supporting leg 18 resting on the room-confronting end face of the case frame or jamb frame and a fastening leg 19 engaging over on the same side as the rebate face of the latter. The fastening leg 19 can be anchored to the rebate face of the case frame or jamb frame via screws, preferably by means of clamping pieces. The bearing block 13 can be brought via its holding plate 16 releasably and positively into coupling engagement with the supporting leg 18 of the angle piece 14, in such a way that the angle piece 14 can be fixed to the holding plate 16 in two positions rotated through 180 DEG parallel to the plane of its supporting leg 18. <IMAGE>

Description

The invention relates to a hinge, in particular a turn-tilt corner joint, for windows, doors or the like. With a bearing block arranged on the room-side end face of the frame or cane frame, which has a holding plate at one end with a bearing eye or with bearing cheeks has a rotatable and / or tiltable receptacle for a hinge part for a wing-side hinge part, the holding plate being detachably and positively in coupling engagement with the supporting surface of the fastening part and the fastening part being able to be fixed on the holding plate in two positions which are turned through 180 ° parallel to the plane of its supporting surface and the bearing block with the holding plate and bearing eye or bearing cheeks is designed symmetrically with respect to a vertical plane which is normally oriented with respect to the glare or floor frame plane,

Such a hinge designed as a tilt-and-turn corner joint is already known from DE-A-27 13 011 for attachment to a blind or stick frame made of solid profiles, in particular wooden profiles. The fastening part, which is designed as a relatively chunky block, must be inserted into a correspondingly large and deep cutout in the corner region of the frame or stick frame, which is open to the frame rebate peripheral surface.

Bearing block and fastening part of this known hinge are indeed suitable in one and the same design for optional right and left hinging because the holding plate of the bearing block can be detachably and positively connected to the supporting surface of the fastening part in two positions turned by 180 ° parallel to the plane of this supporting surface.

However, since the fastening part for its stop in the corner region of the frame or frame requires a relatively large milling, the known hinge is not for use in connection with windows, Doors or the like. Suitable, in which the frame or stick frame is assembled from plastic or light metal hollow profiles.

EP-A1-0 290 362 discloses a hinge for windows, doors or the like which can also be used as a tilt-and-turn corner joint and which, in one and the same embodiment, is suitable for both right-hand and left-hand hinging and is connected with plastic or light metal hollow profiles can be used.

Here, the bearing block to be installed on the frame is provided with a fastening part designed as an angle piece, which has a support leg resting on the face-side end face of the frame or stick frame and a fastening leg which overlaps the folding surface of the same, the fastening leg via screws with the aid of clamps on the folding surface of the glare - or to anchor the floor frame.

However, this known hinge has the disadvantage that the bearing block to be assigned to the frame or stick frame for the intended possibility of optional right and left hinging as a whole is symmetrical to a horizontal plane oriented on the frame or stick frame plane, and in each case at its ends facing away from one another must be provided with a bearing eye or a pair of bearing cheeks. This results in a bulky and material-intensive design of the bearing block, in which only one bearing eye or a pair of bearing cheeks is used in practice, although two bearing eyes or pairs of bearing cheeks are present.

While in the hinge according to EP-A1-0 290 362 the bearing block arranged on the room-side end face of the frame or stick frame can be anchored to the fold surface of the frame or stick frame by means of screws only with the aid of clamping pieces, it is the case with the hinge DE-A-27 13 011 also possible if necessary, the bearing block without the additional Fastening part and without attaching a cutout directly to the room end face of the frame or stick frame, which then serve as a fastener

Engage screws in the face-side face of the frame or floor frame and interact with countersunk holes in the holding plate via their countersunk heads.

The object to be achieved with the invention is to provide a hinge of the generic type, in which the bearing block to be assigned to the frame or frame can be provided with the interposition of a fastening part without the need for milling, if this frame or frame is assembled from hollow profiles .

This aim is achieved according to the invention in that the fastening part is designed as an angle piece which has a support leg resting on the room-side end face of the frame or frame and a fastening leg which overlaps the folding surface thereof, and wherein the fastening leg via screws with the aid of clamping pieces on the folding surface of the blind frame or stick frame is anchored in that the angle piece with its support leg and its attachment leg is designed symmetrically with respect to a horizontal plane oriented at right angles on the blind or stick frame plane, that the support leg of the angle piece is formed on the rear side - that is, on the side facing the frame. contains transverse to its symmetry plane profile channel, the cross-sectional shape of which is matched to the cross-section of the holding plate of the bearing block, on the one hand on the holding plate of the bearing block and on the other hand on the support legs of the elbow in the area of the profile channel complementary to each other Coupling members are formed and can be brought into positive engagement with one another transversely to the load direction, and that on the one hand the holding plate of the bearing block and on the other hand the support leg of the angle piece are to be held in a releasable connection with one another.

An advantage of such a hinge according to the invention is that the bearing block can also be fastened there by omitting the angle piece only via its holding plate by means of screws on the frame or stick frame, by the screws engaging directly in the face end face of the frame or stick frame and then over their countersunk heads cooperate with countersunk holes in the mounting plate of the bearing block.

It has proven particularly useful if the holding plate of the bearing block and the support leg of the angle piece are to be held in a releasable connection with one another by means of a screw.

Finally, a configuration is also possible in which the holding plate of the bearing block carries two peg-like projections on its end face, while the angle piece in its supporting leg contains two matching engagement holes, and in which the holding plate has a threaded hole and the supporting leg in the middle between the peg-like projections of the contra-angle handpiece has a countersunk hole in the center between the engagement holes, into which the connecting screw can be inserted. Such a design makes it possible to manufacture the angle piece from a piece of material separated from an extruded profile, while the bearing block with the holding plate and bearing eye or bearing cheeks can be produced as a die-cast molded part.

If both the angle piece and the bearing block are formed by die-cast molded parts, it is of course also possible to provide the pin-like projections on the back of the support leg of the angle piece and to arrange the matching engagement holes in the holding plate of the bearing block.

The hinge part according to the invention can be attached to the window frame or frame of a window, a door or the like in the area of the folded surfaces of the frame profile in question by screwing the fastening leg passing through the fastening leg of the contra-angle piece directly into bores or holes provided on the folded surface .

However, a clamp fastening is preferably used, in which the fastening screws penetrating the fastening leg of the contra-angle handpiece interact with clamping plates which engage in undercut profile channels formed on the folded surface of the frame profile in order to enter into a positive locking connection therewith.

If hinges of the generic type are intended not only to allow the right-hand or left-hand hinged or frame frame fittings, but also to have a simple and inexpensive, but nevertheless stable design, then an essential feature of the invention is that the holding plate and bearing block are independent manufactured from each other and then connected to each other by screwing and / or riveting.

It proves to be particularly expedient if the holding plate engages with its longitudinal edges between two edge webs on the rear of the bearing block. In this way, the bearing block in the embodiment of the inventive concept can be made of die-cast metal, e.g. made of a zinc or brass alloy, while the holding plate is made as a stamped and stamped part from sheet steel.

If the holding plate of the bearing block carries two peg-like projections on its end face, while the angle piece in its support leg contains two matching engagement holes, then it is particularly advantageous if the peg-like projections are formed by step-shaped forms of the holding plate.

The holding plate can also be provided with through-holes for receiving rivets located on the rear of the bearing block between its edge webs and / or countersunk screws engaging in the same.

A simple way of adjusting the position of the sash relative to the frame or frame, while ensuring that the change in position only ever occurs in the desired direction, is basically achieved in that the essentially rotationally symmetrical inner contour of the chuck is enclosed by an outer contour is, which has two mutually perpendicular planes of symmetry on which the chuck has different dimensions, and that the inner contour of the joint part is at least approximately complementary to the outer contour of the chuck.

Such a configuration of the chuck ensures that it can only be inserted into the joint part serving to receive it in two positions rotated by 180 ° relative to one another, with only a very specific directional orientation resulting in both possible rotational positions.

According to the invention, an embodiment has proven itself in which the outer contour of the chuck and the inner contour of the joint part are essentially long or oval. Instead, however, it is also possible to provide the outer contour of the chuck and the inner contour of the joint part with an approximately rectangular limitation.

In many cases, it can also prove to be expedient if the outer contour of the chuck is provided with protrusions lying on at least one of the two planes of symmetry, for example knobs or bumps or depressions, for example depressions, which have complementarily shaped depressions or protrusions on the inner contour of the Joint part are assigned.

For the intended position adjustment between the sash and frame, it is important that the central axis of the inner contour is offset on the chuck in the direction of a plane of symmetry - eccentrically - to the longitudinal axis of an outer contour common to the two planes of symmetry.

In a further development according to the invention, the lining piece can have the shape of a pot or cup and - as an inner contour - include a ball socket or the like, which forms a receptacle for a spherical end section of the hinge pin or pin.

A continuous axial adjustment of the chuck is also useful if, according to the invention, the chuck rests on a threaded plug that is axially adjustable in the joint part. So that, if necessary, a slight pushing out of the chuck from the inner contour of the joint part is made possible, the threaded plug can be provided with a coaxial passage, in particular a polygonal channel, which enables the passage of an ejector pin and the insertion of a socket wrench for turning the threaded plug.

Another important embodiment is that the lining piece consists of wear-resistant and possibly high-temperature resistant plastic material, in particular polyamide.

Finally, it is also provided that the joint part forming the receptacle for the lining piece, in particular the corner bracket fixed to the frame, is formed by a molded part made of die-cast metal, for example die-cast zinc or brass.

Fig. 1

in schematisch vereinfachter Stirnansicht ein aus Metall- oder Kunststoff-Hohlprofilen zusammengebautes Fenster, bei dem der Flügel am Blend- bzw. Stockrahmen über ein oberes und ein unteres Scharnier aufgehängt ist und dabei das untere Scharnier insbesondere ein Drehkipp-Eckgelenk bildet,

Fig. 2

etwa in natürlicher Größe den in Fig. 1 mit II gekennzeichneten Bereich, wobei lediglich das für Rechtsanschlag eingerichtete Rahmenbeschlagteil des Drehkipp-Eckgelenks zu sehen ist,

Fig. 3

Das Rahmenbeschlagteil nach Fig. 2 teils im Schnitt und teils in der Draufsicht entsprechend der Linie III - III,

Fig. 4

das Rahmenbeschlagteil nach Fig. 2, jedoch in seinem Zusammenbau für Linksanschlag,

Fig. 5

teils im Schnitt und teils in der Draufsicht entlang der Linie V - V das Beschlagteil nach Fig. 4, die

Fig. 6 bis 8

die beiden wesentlichen Einzelteile des Rahmenbeschlagteils zum Drehkipp-Eckgelenk in drei verschiedenen Ansichten bzw. Schnitten,

Fig. 9

etwa in natürlicher Größe und im Vertikalschnitt den Lagerbock und die Halteplatte des Rahmenbeschlagteils eines anderen Scharniers vor ihrer Verbindung,

Fig. 10

eine Draufsicht der aus Fig. 9 ersichtlichen Teile des Rahmenbeschlagteils und eines zugehörigen Winkelstücks,

Fig. 11

einen der Fig. 9 entsprechenden Vertikalschnitt durch das zusammengebaute Rahmenbeschlagteil,

Fig. 12

eine Draufsicht auf das Rahmenbeschlagteil nach Fig. 11 mit dem zugehörigen Winkelstück,

Fig. 13

das Rahmenbeschlagteil nach Fig. 11 in Rückansicht,

Fig. 14

teilweise im Schnitt das Rahmenbeschlagteil eines Drehkipp-Eckgelenks,

Fig. 15

das Rahmenbeschlagteil nach Fig. 14 teils im Schnitt und teils in der Draufsicht entsprechend der Linie XV - XV,

Fig. 16

das Rahmenbeschlagteil in Pfeilrichtung XVI der Fig. 14 gesehen, die

Fig. 17 bis 19

in Ansicht von vorne, im Längsschnitt und in der Draufsicht sowie in größerem Maßstab eine erste Ausführungsform eines Futterstücks für das Scharnier nach den Fig. 14 und 15 sowie die

Fig. 20 bis 22

in Ansicht von vorne, im Längsschnitt und in der Draufsicht eine andere Ausführungsform eines Futterstücks in größerem Maßstab.

Exemplary embodiments of the subject matter of the invention are shown in the drawing. Show it

Fig. 1

in a schematically simplified front view, a window assembled from metal or plastic hollow profiles, in which the sash is suspended from the frame or frame via an upper and a lower hinge and the lower hinge in particular forms a tilt and turn corner joint,

Fig. 2

approximately in natural size, the area marked II in FIG. 1, only the frame fitting part of the tilt-and-turn corner joint set up for the right-hand stop being visible,

Fig. 3

2 partly in section and partly in plan view according to the line III - III,

Fig. 4

2, but in its assembly for left stop,

Fig. 5

partly in section and partly in plan view along the line V - V the fitting part according to FIG. 4, the

6 to 8

the two essential individual parts of the frame fitting part for the tilt and turn corner joint in three different views or sections,

Fig. 9

approximately in natural size and in vertical section the bearing block and the holding plate of the frame fitting part of another hinge before their connection,

Fig. 10

9 shows a plan view of the parts of the frame fitting part and an associated angle piece, as can be seen in FIG. 9,

Fig. 11

9 a vertical section through the assembled frame fitting part,

Fig. 12

11 shows a plan view of the frame fitting part according to FIG. 11 with the associated angle piece,

Fig. 13

11 in the rear view,

Fig. 14

partly in section the frame fitting part of a turn-tilt corner joint,

Fig. 15

14 partly in section and partly in plan view according to the line XV - XV,

Fig. 16

seen the frame fitting part in the direction of arrow XVI of FIG. 14, the

17 to 19

in view from the front, in longitudinal section and in plan view and on a larger scale, a first embodiment of a lining piece for the hinge according to FIGS. 14 and 15 and the

20 to 22

in front view, in longitudinal section and in plan view, another embodiment of a chuck on a larger scale.

In Fig. 1 of the drawing, a window 1 is shown schematically, which has a frame or stick frame 2 and a wing 3, which are each composed of metal or plastic hollow profiles. The wing 3 is rotatably suspended on the frame 2 at least about a lateral, upright hinge axis 4-4. Preferably, however, it can also be mounted so that it can be tilted about a lower, horizontal axis 5-5 on the frame 2, so that the wing 3 is effective as a tilt and turn wing. 1, a lower hinge 6, which is designed as a tilt-and-turn corner joint 6, and an upper hinge 7, which is known in a manner known per se with a tilt-and-turn device between wing 3 and Glare or stick frame 2 works together.

The hinge designed as a tilt and turn corner joint 6 is formed by a frame fitting part 8 and a wing fitting part 9. Similarly, the hinge 7 also consists of a frame fitting part 10 and a wing fitting part 11.

The frame fitting part 10 and the wing fitting part 11 of the hinge 7, as well as the wing fitting part 9 of the hinge acting as a turn-tilt corner joint 6, can be designed in terms of construction in such a way that they are required for installation on the window 1 or alternatively both for a right-hand stop and can also be used for left-handed use. But this is at least not readily possible with the frame fitting part 8 of the hinge designed as a tilt-and-turn hinge 6 if its attachment to the frame or frame 2 is to be carried out with the aid of an angle piece 14, which rests on the end face of the frame or frame 2 resting support leg 18 and a fastening leg 19 overlapping the fold surface of the frame 2, the latter being to be anchored to the fold surface of the frame 2 by means of screws.

A comparison of FIGS. 2 and 3 with FIGS. 4 and 5 of the drawing makes it easy to see why the frame fitting part 8 as a tilt and turn corner joint 6 executed hinge with its above-described design with one-piece design is not suitable for optional right and left hinges. This is because, on the one hand, the bearing eye 12 of the bearing block 13 seated on the room-side end face of the frame 2 has to be at the intersection of the two hinge axes 4-4 and 5-5, but on the other hand the angle piece 14 serving to anchor the frame fitting part to the folding surface of the frame or stick frame 2 must overlap, there is an unconditional requirement that the bearing block 13 and the angle piece 14 must have a considerable offset position in the vertical direction relative to each other. This in turn results in the necessity that the angle piece 14 must connect to the bearing block 13 for a right-hand stop on one side (FIGS. 2 and 3) and for a left-hand stop on the other side (FIGS. 4 and 5).

Both FIGS. 2 to 5 and FIGS. 6 to 8 of the drawing can now be seen that in the frame fitting part 8 special precautions are taken for the hinge designed as a tilt-and-turn hinge 6, which uses its optional right and left hinges and enable the same components.

6 to 8 of the drawing it can clearly be seen that a retaining plate 16 connects in one piece to the upper end of the bearing block 13 in continuation of its flat back surface 15.

6 and 8 that the bearing block 13 with the holding plate 16 and bearing eye 12 or bearing cheeks is designed symmetrically with respect to a vertical plane 17-17 which is normally oriented with respect to the glare or floor frame plane.

According to FIGS. 6 to 8, the angle piece 14 has a support leg 18 resting on the room-side end face of the frame 2, and a fastening leg 19 which overlaps the fold surface of the frame 2 and is thereby one on the plane or frame level right-angled horizontal plane 20-20 designed symmetrically, as can be seen in FIGS. 6 and 7.

About its holding plate 16, the bearing block 13 is releasably form-fit with the support leg 18 of the elbow 14 in coupling engagement, in such a way that the elbow 14 can be fixed in two positions parallel to the plane of its support leg 18 by 180 ° on the holding plate 16, as 2 on the one hand and FIGS. 4 and 5 on the other hand.

In order to make the two different coupling positions of the bearing block 13 with the angle piece 14 possible in a simple manner, the support leg 18 of the angle piece 14 has a profile channel 21 molded into the rear. This extends transversely to the plane of symmetry 20-20 and its cross-sectional shape is matched to the cross-section of the holding plate 16 of the bearing block 13, as can be clearly seen from FIG. 8 and also from FIGS. 3 and 5.

By the interaction of the holding plate 16 with the profile channel 21, the bearing block 13 and the angle piece 14 in each of the two possible coupling connections (see on the one hand FIGS. 2 and 3 and on the other hand FIGS. 4 and 5) in one to the plane of the frame 2 parallel horizontal direction rigidly aligned.

To achieve a load-bearing connection between the holding plate 16 of the bearing block 13 and the support leg 18 of the angle piece 14, special precautions are again taken. There are namely, on the one hand, on the holding plate 16 of the bearing block 13 coupling members 22, which are designed, for example, as pin-like projections protruding from their end face. On the other hand, the support leg 18 of the angle piece 14 is equipped in the area of its profile channel 21 with complementary coupling members 23 which e.g. consist of engagement holes.

The coupling members 22 and 23, namely the pin-like projections 22 and the holes 23, extend not only transversely to the longitudinal direction of the holding plate 16 and the profile channel 21, but also transversely to the plane the holding plate 16 and the support leg 18, so that they can be held in positive engagement with one another transversely to the direction of loading of the bearing block 13 in that the support leg 18 of the angle piece 14 comes to rest on the room-side end face of the frame 2 .

An optimal, releasable form-fit connection between the bearing block 13 and the angle piece 14 can, however, be created in that on the one hand the holding plate 16 of the bearing block 13 and on the other hand the support leg 18 of the angle piece 14 are additionally clamped together by means of a screw 24.

For this purpose, the holding plate 16 is provided centrally between its pin-like projections 22 with a threaded hole 25, while a countersunk hole 26 is located centrally between the engagement holes 23 of the support leg 18, as can be seen in FIGS. 6 and 7. The screw 24 received on the one hand by the countersunk hole 26 and on the other hand by the threaded hole 25 brings about a secure bracing between the holding plate 16 of the bearing block 13 and the support leg 18 of the angle piece 14 in the direction of engagement of the complementary coupling members 22 and 23.

In the embodiment of the frame fitting part 8 described above, the bearing block 13 can be made with its holding plate 16 as a die-cast molded part made of metal, while the angle piece 14 can be produced particularly inexpensively from a section of a metallic extruded profile.

However, if the angle piece 14 is also manufactured as a die-cast molded part, then, in contrast to the exemplary embodiment described above, there is also the possibility of exchanging the coupling elements 22 and 23, that is to say the pins 22 and the holes 23, on the support leg 18 of the angle piece 14 or on the Provide holding plate 16 of the bearing block 13.

The spatial shape of the coupling members 22 and 23 can also be changed in this case without any problems compared to the exemplary embodiment shown.

9 to 13 of the drawing shows that the holding plate 16 and bearing block 13 of the frame fitting part 8 are also manufactured independently of one another and can subsequently be connected to one another by a screw connection 27 and / or rivet 28.

The screw connection 27 is formed by a countersunk screw 30 penetrating a countersunk through hole 29 of the holding plate 16 and an engagement thread 31 in the bearing block 13. To form the riveting 28, the holding plate 16 has a countersunk through hole 32, while a rivet pin 33 is integrally formed on the rear of the bearing block 13. In addition, the bearing block 13 is provided on its rear side with two edge webs 34, between which the holding plate 16 engages with its longitudinal edges 35.

It has proven useful to make the bearing block 13 with its edge webs 34 and the rivet pins 33 in one piece from die-cast metal, e.g. to produce from a zinc or brass alloy, while the holding plate 16 can be produced in a particularly advantageous manner as a stamped and stamped part made of sheet steel.

On the holding plate 16, the pin-like projections serving as coupling elements 22 can preferably be formed by step-shaped forms, as can be clearly seen in FIGS. 1 and 3.

While in the embodiment of the frame fitting part 8 shown in FIGS. 9 to 13 of the drawing, the connection between the bearing block 13 and the holding plate 16 is made on the one hand by a screw connection 27 and on the other hand by a rivet 28, there is of course also the possibility of using connecting elements either to provide two screw connections 27 or two rivets 28.

If there is a countersunk hole where the peg-like projections 22 are located on the holding plate 16, then it is also possible to to fix the frame fitting part 8 lying on its holding plate 16 lying on the room-side end face of the frame. In such a case, the angle piece 14 with its support leg 18 and its fastening leg 19 spanning the folded surface is not required.

9 to 12 of the drawing it can be seen that the bearing block 13 of the frame fitting part 8 to form the bearing eye 12 uses a chuck 36, for example made of wear-resistant plastic material, which is inserted into a receptacle 37 which, for example, has an oval inner contour , into which the complementary outer contour of the chuck 36 fits. The chuck 36 is supported on a screw member 38, which in turn is rotatably held in an internal thread 39 of the bearing block 13 and is axially adjustable. It is thereby possible to continuously adjust the chuck 36 and consequently the bearing socket forming the bearing eye 12 therein for the hinge pin of the associated wing fitting part in the vertical direction.

Instead of the bearing block 13, bearing cheeks can also be provided, in which a hinge pin is held by a tilting bearing pin.

According to FIGS. 14 to 16 of the drawing, the frame fitting part 108 of the hinge designed as a tilt-and-turn corner joint 106 is designed as a bearing block 113 provided with a bearing eye 112, which is essentially on the face side face of the frame 2 at the intersection of the two joint axes 4-4 and 5-5 is arranged, but thereby receives its anchoring via an angle piece 114, which overlaps to the folded surface of the frame 2 - not shown in FIGS. 14 to 16.

It is essential for the frame fitting part 108 of the tilt-and-turn corner joint 6 that can be seen in FIGS. 14 to 16 that the inner contour of a bearing eye 112 in its bearing block 113 serving as the joint part is a special piece of lining 115 records, which preferably consists of wear-resistant and possibly also high-temperature resistant plastic material, in particular polyamide. But it can also be made from a bearing metal, such as bronze.

At least the bearing block 113 and a connecting tab 116 of the frame fitting part 108 adjoining it can be produced as a molded part from die-cast metal, for example zinc or brass die-casting. it can then be connected to the connecting tab 116 of the frame fitting part 108 by means of a hole / pin connection 117, 118 and a clamping screw 119.

In alignment with the longitudinal axis of the bearing eye 112, the bearing block 113 of the frame fitting part 108 contains an internal thread 120, in which a threaded plug 121 engages rotatably and axially displaceably.

This threaded plug 121 is equipped with a coaxial passage, in particular a polygonal channel 122, which enables the insertion of a socket wrench which is adapted in its outline shape in order to carry out the axial displacement of the plug 121 in the bearing block 113 by appropriate rotation.

The chuck 115 accommodated in the bearing eye 112 rests on the upper end of the threaded plug 121. The chuck 115 can thus be adjusted in its vertical position within the bearing eye 112 by the axial displacement of the threaded plug 121.

14 and 16 in particular that the chuck 115 has a pot or cup shape, which - as an inner contour - includes a ball socket 123 or the like, which can accommodate a spherical end section of a hinge pin or pin, which can on - only shown in Fig. 1 of the drawing - wing fitting part 9.

The special feature of the frame fitting part 108 shown in FIGS. 14 to 16, for example for the tilt-and-turn corner joint 6, is that the chuck 115 in the area above its ball socket 123 or the like has an essentially rotationally symmetrical, namely cylindrical, inner contour 124 15, while it has an outer contour 125 which has two mutually perpendicular planes of symmetry 126-126 and 127-127, as can be clearly seen in FIG.

On the two planes of symmetry 126-126 and 127-127, the outer contour 125 of the chuck 115 has different dimensions from one another. The dimension is made larger in the direction of the plane of symmetry 126-126 than in the direction of the plane of symmetry 127-127.

The inner contour of the bearing eye 112 in the bearing block 113 is at least approximately complementary to the outer contour 125 of the chuck 115, so that it can accommodate the chuck 115 in two positions rotated by 180 ° to one another.

From Fig. 15 it can be seen that the outer contour 125 of the chuck 115 and the inner contour of the bearing eye 112 in the bearing block 113 can be made long or oval in an advantageous manner. 14 to 16, the plane of symmetry 126-126, on which the chuck 115 and the bearing eye 112 have the largest dimension, extends parallel to the fastening plane of the frame fitting part 108, because there is a position adjustment of the sash arrives in the direction parallel to the frame level.

In another case, the plane of symmetry 126-126 assigned to the largest dimension of the lining piece 115 and bearing eye 112 can also extend at right angles to the fastening plane of the frame fitting part 108, namely when value is placed on adjusting the position of the sash relative to the window frame transversely to the window frame plane.

In some cases, there is of course also the possibility of designing the outer contour 125 of the chuck 115 and the inner contour of the bearing eye 112 in the bearing block 113 to be approximately rectangular.

15, the outer contour of the chuck 115 is with projections lying on the plane of symmetry 126-126, e.g. Bumps 128 provided, which complementary recesses, such as troughs 129, are assigned to the inner contour of the bearing eye 112.

As a result, an additional rotational position securing of the chuck 115 in the bearing eye 113 is obtained.

17 to 19 of the drawing, a chuck 115 is shown on a larger scale by itself.

It is clear that the central axis 130 of the cylindrical inner contour 24 assigned to the ball socket 123 or the like is aligned with the longitudinal axis of the outer contour 125 common to the two planes of symmetry 126-126 and 127-127 on this chuck 115.

Since the inner contour of the bearing eye 112 in the bearing block 113 of the outer contour 125 of the chuck 115 is complementary, in this case the central axis 130 of the ball socket 123 or the like or the inner contour 124 always remains in the axial alignment with the bearing eye 112, regardless of which one both possible rotational positions, the chuck 115 in the bearing eye 112 of the bearing block 113 is also occupying.

The chuck 115 according to FIGS. 14 to 16, shown enlarged in FIGS. 20 to 22 of the drawing, differs from that according to FIGS. 17 to 19 in that the central axis 130 of the - cylindrical - associated with the ball socket 123 or the like. Inner contour 124 in the direction of the plane of symmetry 126-126 is axially offset - that is to say eccentrically - to the longitudinal axis 131 of its outer contour 125 common to the two planes of symmetry 126-126 and 127-127.

Depending on which of the two possible 180 ° rotational positions the chuck 115 according to FIGS. 20 to 22 is inserted into the bearing eye 112 of the bearing block 113, the central axis 130 of the ball socket 123 or the like and the associated inner contour 124 are therefore located either on the right or on the left next to the vertical axis of the frame fitting part 108 on the plane of symmetry 126-126.

Depending on the rotational position of the chuck 115 in the bearing eye 112 of the bearing block 113, the sash 3 to the frame 2 of the window 1 can be adjusted in position parallel to the frame level by twice the amount of the eccentricity 132. Therefore, if chucks 115 are kept ready, which are equipped with different eccentricities 132 between the axes 130 and 131, then the position of the lateral, upright hinge axis 4 - 4 for the wing 3 can be compared by simply exchanging the chucks 115 on the bearing block 113 of the frame fitting part 108 the frame 2 can be adjusted accordingly.

To distinguish the pieces of feed 115 with different eccentricities 132, it is advantageous if these pieces of feed are given different colors. For example, it would be conceivable to produce the chuck 115 without eccentricity 132, as shown in FIGS. 17 to 19, from colorless or natural-colored plastic, while, on the other hand, the chuck 115 with the greatest eccentricity 132 could then be colored black . For all eccentricity measures 132 in between, other colors could then be used for identification.

Claims (11)

1. A hinge, more particularly a turn-tilt corner hinge, for windows, doors or the like, the hinge having on the room-side end face of the fixed frame (2) of the door or window or the like a mounting (13) having at one end a retaining plate (16) having a bearing lug (12) or bearing cheeks for the rotatable and/or tiltable reception of a bearing pin for a hinge part (9) arranged on the moving member, hereinafter called panel, of the window or door or the like, the retaining plate (16) being in releasable and positive coupling engagement with the support surface of the fixing part (14), the same being locatable on the retaining plate (16) in two positions parallel to the plane of the last-mentioned support surface and offset by 180° from one another, the mounting (13) with the retaining plate (16) and bearing lug (12) or bearing cheeks being symmetrical of a vertical plane (17-17) normal to the plane of the fixed frame (2),
   characterised in that
   the fixing part (14) is an angle member (14) having: a support arm (18) engaging the room-side end face of the fixed frame (2); and a fixing arm (19) which overlaps towards the rebated surface of the support arm (18) and which-is secured by way of screws with the interposition of clamping elements to the last-mentioned rebated surface,
   the angle member (14) with its support arm (18) and its fixing arm (19) is designed to be symmetrical of a horizontal plane (20-20) perpendicular to the plane of the fixed frame (2),
   the support arm (18) of the angle member (14) is formed on its back - i.e., on the side facing the fixed frame (2) - with a profiled channel (21) which extends transversely to the plane of symmetry (20-20) of the angle member (14) and whose cross-sectional shape is adapted to the cross-section of the mounting retaining plate (16),
   the latter and the angle member support arm (18) are formed near the profiled channel (21) with companion coupling members (22, 23) engageable positively with one another transversely to the load direction,
   and the retaining plate (16) and the angle member support arm (18) are adapted to be interconnected releasably (25, 26).
2. A hinge according to claim 1,
   characterised in that
   the retaining plate (16) of the mounting (13) and the support arm (18) of the angle member (14) are adapted to be held together releasably (25, 26) by way of a screw (24).
3. A hinge according to claim 1 and/or 2,
   characterised in that
   the mounting retaining plate (16) has on its end face two pin-like projections (22) while the angle member (14) is formed in its support arm (18) with two companion apertures (23), and the retaining plate (16) is formed centrally between the pin-like projections (22) with a tapped aperture (25) while the angle member support arm (18) is formed centrally between the apertures (23) with a countersink (26) into which the connecting screw (24) is introducible.
4. A hinge according to one or more of claims 1 to 3,
   characterised in that
   the retaining plate (16) and mounting (13) are produced independently of one another, then interconnected by screwing (27) and/or riveting (28).
5. A hinge according to claim 4,
   characterised in that
   the retaining plate (16) engages by way of its longitudinal edges (35) between two edge webs (34) on the back of the mounting (13).
6. A hinge according to claim 4 and/or 5,
   characterised in that
   the mounting (13) is a metal die-casting, for example, of a zinc or brass alloy, while the retaining plate (16) is a punched and pressed part made of steel sheet.
7. A hinge according to any of claims 4 to 6,
   characterised in that
   the mounting retaining plate (16) has on its end face two pin-like projections (22) while the angle member (14) is formed in its support arm (18) with two companion apertures (23), the retaining plate (16) is formed centrally with a tapped aperture (25) between the projections (22) and the angle member support arm (18) is formed centrally between the apertures (23) with a countersink (26) into which the connecting screw (24) is introducible,
   and the projections (22) take the form of stepped outward pressings of the retaining plate (16) unitary therewith.
8. A hinge according to any of claims 4 to 7,
   characterised in that
   the retaining plate (16) is formed with through apertures (29, 32) to receive rivet pins (33) disposed on the back of the mounting (13) between the edge webs (34) and/or has countersunk screws (30) engaging in screwthreading (31) of the mounting (13).
9. A hinge according to one or more of claims 1 to 8,
   characterised in that
   a hinge part (9) for the panel (3) and a hinge part (8) for the frame (2) are interconnected by way of a hinge pin and a lining member (115) which is engaged releasably and reversibly in a push connection with the hinge part (8, 113) in a manner to rotate positively therewith is disposed between the hinge pin and at least one (8) of the hinge parts (8, 9),
   the substantially rotationally symmetrical inside contour (124) of the lining member (115) has engaging around it an outside contour (125) having two symmetry planes (126 - 126 and 127 - 127) perpendicular to one another, on which planes the lining member (115) has dimensions different from one another, and the inside contour (112) of the hinge part (8, 113) is at least substantially complementary to the outside contour (125) of the lining member (115).
10. A hinge according to claim 9,
    characterised in that
    the outside contour (125) of the lining member (115) and the inside contour (112) of the hinge part (8, 113) in shape resemble a substantially rounded oblong or an oval.
11. A hinge according to claim 9 and/or 10,
    characterised in that
    the central axis (130) of the inside contour (124) is disposed on the lining member (115) axially offset - eccentricatly (132) - in the direction of a symmetry plane (125-125) relatively to the longitudinal axis (131) of its outside contour (125), the longitudinal axis (131) being common to the two symmetry planes (126-126 and 127-127), the lining member (115) - preferably - being of dished or cup shape and - as inside contour (124) - enclosing a spherical socket (123) or the like adapted to receive a spherical end part of the hinge pin; and the lining member (115) rests, conveniently, on a screwthreaded plug (121) axially adjustable in the hinge part (8, 113); and is made of wear-resistant and possibly high temperature resistant plastics, more particularly polyamide.

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