EP0360024A1 - Pivot fitting or pivot-tilting fitting for windows, doors or the like - Google Patents

Abstract

A pivot fitting or pivot-tilt fitting for windows, doors or the like comprises a lower pivot-tilt bearing (12) and an upper pivot bearing (10), the two bearings being respectively designed with two links (40, 42) for the displacement of the pivot axis (54) during the pivoting opening of the opening frame (26). To relieve the links of the weight of the opening frame, it is proposed that the opening frame (26) be supported on the stationary frame (20) via a device (160) independent of the links (40, 42) of the two pivot bearings (10, 12). <IMAGE>

Description

The invention relates to a turn fitting or turn-tilt fitting of windows, doors or the like with a fixed frame and a sash frame, which is rotatably mounted on the fixed frame about a vertical axis of rotation and optionally tiltable about a horizontal tilt axis
a lower pivot bearing, possibly in the form of a turn-tilt bearing, which connects the fixed frame to the sash frame in the area of a lower corner of the fixed frame,
- An upper pivot bearing, which connects the fixed frame in the area of an upper corner of the fixed frame with the sash frame, or with an extension arm coupled to the sash frame, the two pivot bearings each being designed with at least two links for shifting the axis of rotation when opening to rotate of the casement in the direction perpendicular to the frame plane of the fixed frame.

Such a fitting is known (DE-B2-21 13 665, DE-C1-34 42 364, DE-A1-36 01 278, EP-A2-204 267, DE-A1-32 23 451, US-A-18 88 345). The handlebar construction provided on the upper and lower pivot bearing ensures that the pivot axis is displaced in front of the fixed frame when the sash frame is opened, so that a sash flap of the sash frame covering the rebate space between the fixed frame and sash frame when the sash frame is closed does not collide when the sash is opened comes with the fixed frame. In this case, all the fitting parts can be accommodated in the rebate space with the casement closed, that is to say concealed by the wing flap, which ensures a pleasing appearance. A disadvantage of the known constructions is, in particular, that the handlebars with larger wing weights
are exposed to considerable bending stresses. The handlebars may bend and thus become stiff and the fitting may not function properly. One could think of making the handlebars and their articulated connections correspondingly more mechanically stable, but this leads to an increase in the installation space required.

The invention has for its object to provide a fitting of the type mentioned, which ensures reliable function with a compact structure even with larger sash weights.

This object is achieved in that the casement, in particular the revolving casement, is supported on the fixed frame by means of a device which is independent of the links of the two pivot bearings.

This device could be formed, in particular in the case of a pure rotary fitting, by an element acting between the sash frame and the fixed frame and thereby being subjected to tension. However, it is preferably provided that the device comprises a support rod which is supported at one end on the fixed frame in the region of the lower pivot bearing and at the other end on the frame leg of the casement frame, which is parallel to the pivot axis and parallel to the axis of rotation. The support rod, which is loaded under pressure, transfers the wing forces to the lower corner bearing when opening and turning, relieving the strain on the handlebars of the two pivot bearings. In the case of the particularly preferred turn-tilt fitting, the support rod can be retained unchanged even when the sash is opened.

It is preferably provided that the support rod is supported on an angled support tab of a frame-side corner bearing part, preferably on the vertical leg of a frame-side corner bearing angle. In the case of a turn-tilt fitting, a particularly simple construction is ensured in that the support rod is mounted such that it can be tilted on the support tab. The support rod can then easily participate in the tilting movement of the wing.

Characterized in that when the sash frame is closed, the support tab in the direction of the axis of rotation is opposite an extension arranged in the area of the corresponding lower sash frame corner, an anti-lift device is obtained when the sash is in the tilt position. If you try to lift the sash in the area of the corner bearing, the extension immediately comes to rest on the support tab.

A simple structure, in particular in the case of the usual fitting structure with a faceplate, ensures that the support rod is supported on a support bracket, which is preferably attached to a sash faceplate.

To adjust the sash frame (support rod) it is preferably provided that the support angle is adjustable in the direction parallel to the axis of rotation, and that the support angle is supported on an adjusting screw. In order to permit the tilting movements of the support rod relative to the sash frame when the sash is opened or tilted, the support bracket is rotatably mounted.

Characterized in that the support rod on the support bracket is captive and preferably attached essentially rigid, you get a pre-assembly unit from support rod, support bracket and if applicable, face plate without the risk that the support rod will be lost.

It is further proposed that the support rod is provided at its lower end with a pin which can be inserted into a bore in the support tab and which preferably tapers conically towards the end of the pin.

On the one hand, these measures make it easier to assemble the sash, since for this purpose the support rod pre-assembled on the sash frame is only to be inserted into the bore of the support flap; on the other hand, the preferred conical tapering of the pin end ensures that the support rod can perform the required tilting movements when opening or tilting the wing relative to the frame-fixed support tab.

When the sash is opened in rotation, the upper end of the support rod pivots around the lower frame-fixed support point. In order to achieve the lowest possible lowering of the upper end of the support rod and thus the sash frame when the sash is rotated open, it is proposed that the support rod be supported at a point on the lower pivot bearing, possibly the support tab, which is made from a to the frame plane of the fixed frame parallel center plane of the lower pivot bearing is offset towards the casement. Due to the offset of the support point, there is a slight increase in the frame at the beginning of the opening movement until the support rod is vertical; the sash frame is lowered slightly in the course of the further opening movement.

In order to obtain a well-defined handlebar movement with possibly high closing pressure when closing the wing, it is known (DE-B2-21 13 665) to have both handlebars cross each other and at the crossing point by means of a universal joint to be connected to one another in an articulated manner, one of the two links, the guide link, being connected to a pivot frame part on the fixed frame side and with a pivot bearing part on the sash frame side, if necessary, raising arm, in each case via a swivel joint, and the other link, the control link, with the pivot frame part on the fixed frame side and with the sash frame side Pivot bearing part, optionally extension arm, is connected via a sliding swivel joint. In the known fitting, however, this means that double installation depth in the rebate space (in the direction perpendicular to the sash frame plane) is required. So that the various joints do not come into conflict with one another in this known arrangement, the fixed frame-side joints are offset from the sash frame-side joints into the rebate space (FIG. 1).

In order to ensure a compact structure, in particular a small installation depth of the fitting, with such a fitting, it is proposed that when the sash is closed, all swivel joints and sliding swivel joints are at least approximately in a plane parallel to the plane of the frame, that the control arm is in the area between the universal joint and a of the two swivel joints with a bend in the direction of the pivot bearing part carrying the relevant swivel joint is designed in accordance with the thickness of the guide link, that the guide link is also designed with a bend in accordance with the thickness of the control link, but in the opposite direction, that with the wing closed is in the direction perpendicular to the frame plane next to the offset of the control arm. These features can be implemented in addition or also independently of the measures described above in connection with the support device. Due to the offset according to the invention, the two joints following the offset can be swivel joint and sliding swivel joint one above the other (in the direction parallel to the frame plane and perpendicular to the Handlebar longitudinal directions) can be arranged; they can therefore also lie in a plane parallel to the frame plane, which permits a corresponding narrow construction of the handlebar arrangement with a small installation depth.

The measure that at least one of the two links, preferably both links, is provided in the area of the respective offset with a recess that is open in the direction perpendicular to the plane of the frame for receiving the other link also contributes to this. Except for the two recesses, the two links have a width that is essentially the same as the desired installation depth (perpendicular to the frame plane) and are therefore sufficiently stable.

A slight offset, corresponding to the thickness of a bearing pin head, is obtained in that the fixed frame-side pivot bearing part is provided with an offset corresponding to the thickness of a bearing pin head in the region of its sliding swivel joint, and in that the control link and the guide link each have an essentially identical offset are. This creates freedom of movement for the bearing pin head without having to mill the sash frame.

Simplified assembly of the sash on the fixed frame is ensured by the fact that in the case of the turn-tilt bearing (corner bearing) in the area of the sash frame end of the control arm and / or the guide link, a driver pin is attached, which engages in a corresponding pin receiving opening of a sash frame side support part. The handlebar cross can therefore be completely pre-assembled on the casement. The sash can then be placed on the pegs.

A conical taper of the driver pin enables the tilting movement of the wing without the need for tiltable rivets, as are known, for example, from DE-A1-36 01 278, with the disadvantage of difficult manufacture with corresponding precision.

To adjust the position of the sash frame in the horizontal direction parallel to the sash frame plane, relative to the fixed frame, it is proposed that the carrier part on the sash frame is designed to be adjustable in the direction parallel to the lower horizontal sash frame leg. It is preferably provided here that a stop bracket is rigidly attached to the sash frame corner, the horizontal leg of which is formed with a sliding guide for the carrier part and the vertical leg of which is supported by an adjusting screw on an extension of the carrier part.

The invention also relates to a window or a door or the like comprising:
- a fixed framework,
a wing frame which is attached to the fixed frame so as to be rotatable about a vertical axis of rotation,
a lower pivot bearing which couples the fixed frame to the casement in the area of a lower corner of the fixed frame,
- An upper pivot bearing which couples the fixed frame in the area of an upper corner of the fixed frame to the sash frame, the two pivot bearings each being designed with at least two links for shifting the axis of rotation when the sash frame is opened in rotation.
Such windows or doors can, but do not have to, have additional functions, in particular the tilting function. In order to ensure reliable turning function even with larger leaf weights, it is proposed that one of the handlebars of the two pivot bearings independent device for transmitting the weight of the casement to the fixed frame is provided when the casement is opened.

This device can comprise an element which acts between the sash frame and the fixed frame and is loaded under tension. However, it is also possible for the device to comprise a support rod which acts between the casement frame and the fixed frame and is loaded under pressure.

The invention is explained below using a preferred embodiment with reference to the drawing.

• Fig. 1 eine Seitenansicht eines oberen Drehlagers mit Ausstellarm bei geschlossenem Flügel;
• Fig. 2 eine Draufsicht auf die Anordnung gemäß Fig. 1 bei drehgeöffnetem Flügel;
• Fig. 3 eine teilweise geschnittene Seitenansicht eines Ecklagers samt Abstützeinrichtung;
• Fig. 4 eine Ansicht der Anordnung gemäß Fig. 3 mit Blickrichtung entsprechend dem Pfeil IV bei drehgeöffnetem Flügel;
• Fig. 5 einen Detailschnitt nach Linie V-V in Fig. 3 und
• Fig. 6 einen Detailschnitt nach Linie VI-VI in Fig. 3.

It shows:

• Figure 1 is a side view of an upper pivot bearing with extension arm with the wing closed.
• FIG. 2 shows a top view of the arrangement according to FIG. 1 with the sash open;
• Figure 3 is a partially sectioned side view of a corner bearing together with the support device.
• Fig. 4 is a view of the arrangement of Figure 3 looking in the direction of arrow IV with the wing open.
• Fig. 5 shows a detail section along line VV in Fig. 3 and
• 6 shows a detail section along line VI-VI in FIG. 3.

The turn-tilt fitting to be described below with reference to the figures consists of an upper pivot bearing 10 shown in FIGS. 1 and 2, one in the following as Corner bearing 12 designated lower pivot bearing, which also serves as a tilting bearing, and a support device 160 for relieving the pivot bearing 10 and the corner bearing 12, in particular when the sash is open or pivoted. An upper horizontal leg 16 and a vertical leg 18 on the axis of rotation of a fixed frame 20 are indicated in FIG. 2. An upper horizontal leg 22 and a vertical leg 24 near the axis of rotation of a casement 26 can also be seen. A lower horizontal leg 28 of the casement and a lower horizontal leg 30 of the fixed frame 20 are shown in section in FIGS. 5 and 6. A circumferential casement overlap 32, which covers all fitting parts invisibly from the outside when the casement is closed, can be seen in FIGS. 2, 4, 5 and 6, and is indicated in FIG. 3 with a dash-dot outline.

So that when the sash frame 26 is opened in rotation, the overlap 32 which is in contact with the fixed frame 20 when the sash is closed, or is only at a small distance from it, does not strike the fixed frame 20 in the region of the vertical axis of rotation, both in FIGS 2 shown upper pivot bearing 34 and the lower corner bearing 36 are provided with an equally designed handlebar cross 38.

Each handlebar cross 38 consists of a guide link 40 and a control link 42, which are connected to each other via a simple pivot joint 44, hereinafter referred to as a universal joint 44, with a vertical pivot axis 46. The guide link 40 is connected to the fixed frame 20 via a swivel joint 48 with a vertical axis 50, and to the sash frame 26 likewise via a swivel joint 52 with a vertical axis 54. The axis 54 can be referred to as the axis of rotation of the leaf 26; she wanders while shooting Opening or closing of the wing 26 along an arc 56 lying in the horizontal plane about the axis 50.

The control arm 42, on the other hand, is coupled to the fixed frame 20 or to the sash frame 26 via a sliding rotary joint 58 or 60. In the case of the upper swivel joint 10, an elongated hole 66 is formed in the horizontal leg 62 of a screw-on bracket (64) attached to the fixed frame and parallel to the longitudinal direction of the upper horizontal leg 16 of the fixed frame 20, which extends into the area of the angle bend of the screw-on bracket 64 and a guide pin 68 records. This protrudes from the top of the control arm 42 and overlaps the longitudinal edges of the elongated hole 66 with a bolt head 70. As shown in FIGS. 1 and 2, the section of the leg 62 of the screw bracket 64 formed with the elongated hole 66 is downward in accordance with the thickness of the Bolt head 7 cranked. In the frame rebate inner circumferential surface of the fixed frame 20, there is therefore no need to mill out to accommodate the bolt head 70 which can be displaced along the elongated hole 66.

In order to obtain the compact structure of the upper swivel joint with handlebar cross 38 shown in FIGS. 1 and 2 with a small installation depth a (see FIG. 2) and installation height b (see FIG. 1), the links 40 and 42, as well as in the case of the pivot bearing 10 also an extension arm 72 connected to the handlebars on the sash frame with corresponding crankings. Furthermore, the guide link 40 is provided in the area between the universal joint 44 and the swivel 48 with a laterally open recess 76 and with an offset 80 in this area corresponding to the material thickness of the two links 40 and 42, so that the one with a corresponding laterally open recess 74 and one Bend 82 in the same area, but with the opposite bend direction Control link 42 arrives in parallel position with guide link 40 when the wing is closed. Here, the two recesses 74, 76, the recess depth of which essentially corresponds to half the handlebar width c, engage in one another, so that the two handlebars overlap in plan view. In the side view according to FIG. 1, due to this construction, the order of the guide and control link is then reversed after the bends 80, 82. The installation depth a therefore corresponds to the guide link width c.

The sliding swivel joint 60 on the raising arm 72 is formed with an elongated hole 84 extending in the longitudinal direction of the extending arm, in which in turn a guide pin 86 rigidly connected to the control link 42 is mounted so as to be longitudinally displaceable.

When the closed wing is opened for rotation, the control link 42 ensures that the guide link 40 and thus also the axis of rotation 54 assume a precisely defined spatial position at a certain opening angle. When the sash is rotated and closed, greater force, if required, can also be achieved on the basis of this positive control of this guide link 40.

When the above-described fitting is designed as a turn-tilt fitting, the opening arm 72, which is rigidly fixed to the sash when the sash is closed or opened, is released to tilt the window so that it can be pivoted out of the sash frame level up to a maximum opening angle. For example, as shown in FIG. 3 of DE-AS 21 13 665, for this purpose the end of the extension arm 72 on the sash frame side can be movably attached in a sliding-rotation guide 6 on the sash frame, with the opening angle being limited by an auxiliary arm 3.

The basic structure of the corner bearing 12 with respect to the handlebar 38 there corresponds to the configuration described above with reference to FIGS. 1 and 2. It is hereby achieved that the axis of rotation 54 of the wing defined by the two handlebar crosses 38 (swivel joint of the guide link 40 on the wing frame side) remains vertically oriented or is always shifted in parallel. Instead of the screw-on bracket 64, there is now a corner bearing bracket 90 with a swivel joint 48 for the guide link 40 and sliding swivel joint 58 for a connection to the control link 42. A support part 92, which has an elongated hole recess, takes the place of the extension arm 72 94 is designed to receive a driver pin 96 projecting from the control link 42, and with a bore 98 for receiving a second driver pin 100 projecting from the guide link 40. The driver pin 100 is conically tapered towards the top to allow the wing to open tilting ( Fig. 5). The driver pin 96 is only tapered at its free end in order to facilitate insertion into the elongated hole recess 94 during wing assembly. Otherwise, it is cylindrically shaped in order to ensure solid mechanical guidance within the slot opening 94 when the sash is rotated and opened. In order to also allow the sash to be tilted open, the elongated hole recess 94 is extended laterally at its end remote from the axis of rotation 54 in such a way that side windows 102 form. When the sash is tilted open, the driver pin 96 at least partially penetrates one of the two windows 102 (FIG. 6).

The carrier part 92 can be designed to be displaceable on the sash frame 26 in the horizontal direction parallel to the sash frame plane (double arrow A in FIG. 3) in order to enable the setting of a rebate clearance between vertical frame legs of the fixed frame and the sash frame. For this purpose, the carrier part 92 is in the area its end remote from the axis of rotation is slidably attached to a supporting body 52 fixed to the casement. The support body 52 consists of a plate 108 lying in an outer groove step 104 of a correspondingly graduated casement groove 106, which is riveted to a reduced-diameter spacer bolt 110 with a subsequently enlarged collar 112. The spacer bolt 110 is provided with a through hole 114 into which a fastening screw, not shown in FIG. 3, can be inserted. The support part 92 is provided in the area of the support body 52 with mutually parallel recesses 115 and 116 on the top and bottom of the support part 92, for receiving the diameter-enlarged collar 112 and the plate 108. The bolt 110 is in one between the two recesses 115, 116 extending slot 118 mounted in the direction of the double arrow A slidably.

The carrier part 92 is also mounted on a stop bracket 120 in the direction A. The stop bracket 120 covers the corresponding wing frame corner to which it is rigidly screwed (through opening 122 for the fastening screw, not shown). A pin projection 126 projecting downward on the horizontal leg 124 of the stop bracket 122 serves as a linear guide for the carrier part 92. For this purpose it is riveted, for example, to a ring 128 with an enlarged diameter at its lower end. This ring 128 penetrates an elongated hole 130 in a bottom 132 of the support part 92 which is designed like a trough in this area. Furthermore, the top of the ring 128 lies against the underside of two webs 134 which extend along the longitudinal edges of the elongated hole.

At its end located in the area of the axis of rotation 54, the carrier part 92 is formed with an upwardly projecting extension 140, which receives both the already mentioned, downwardly open bore 98 and one horizontally extending adjusting screw 142 (indicated by dashed lines in Fig. 3) cooperates, which is additionally supported on the vertical leg 144 of the stop bracket 120. The adjusting screw 142 can, for example, be rotatably but axially immovably fixed on the vertical leg 144 and cooperate with its external thread with an internal thread provided in the extension. A rotation of the adjusting screw 142 results in a corresponding displacement of the carrier part 92 in one direction or the other (double arrow A).

When using a faceplate 150 located in the outer groove step 104 on the vertical leg 24 of the casement 26 near the axis of rotation, the lower end thereof can be screwed directly to the vertical leg 144 of the stop bracket 120. For this purpose, a fastening screw 152 indicated in FIG. 5 can be used, which penetrates both the faceplate 150 and the vertical leg 122. 5 also shows the adjusting screw 142 and the bore 98 receiving the pin 100 when the sash is open. A circumferential seal 154 attached to the casement provides a seal between the casement and the fixed frame when the casement is closed.

Accordingly, FIG. 6 shows how the pin 96 partially penetrates one of the two windows 102 when the sash is open.

A pin 156 indicated at the left end of the corner bearing angle 90 and projecting upwards can be connected to an opening rod which limits the rotation opening angle and is provided between the fixed frame and the sash frame and can serve as a locking pin.

In order to relieve the two handlebar crosses 38 of the sash weight, in particular when the sash is turned and tilted open, the support device 160, which can be seen in FIGS. 3 and 4 and which acts between the sash frame 26 and the fixed frame 20, is provided. This is formed by a support rod 162 which is supported with its upper end on a support bracket 164 on the casement side and with its lower end on the corner bearing bracket 90.

The support bracket 164 is mounted on the vertical faceplate 150 so as to be displaceable in the vertical direction. This is indicated in FIG. 3 by a faceplate slot hole 166 which passes through a guide pin 168 protruding from the support bracket 164 in the horizontal direction. The upper end of the vertical leg of the support bracket 164 is supported on an adjusting screw 170, which in turn passes through an abutment 172 rigidly attached to the faceplate 150. The support rod 162 is rigidly connected to the horizontal leg 174 of the support bracket 164, in particular by appropriate riveting. The mentioned bolt 168 allows the support angle to pivot about the bolt axis 176. Such a pivoting movement occurs when the wing is opened, as will be explained in the following.

The upper end of the vertical leg 178 of the corner bracket 90 is formed with an inwardly angled support tab 180 (toward the casement 26), which in turn is provided with a bore 192 for receiving a pin 194 at the lower end of the support rod 162. As clearly shown in FIG. 4, the bore 192 in the support tab 180 is laterally offset from the longitudinal center plane 196 of the corner bearing bracket 90 in the direction of the casement. Furthermore, the pin 194 and / or the bore 192 is correspondingly conical in order to permit the tilting movement of the support rod 162 that occurs when the screw is opened.

When the wing is closed, the upper end of the support rod 162 is located approximately in the longitudinal median plane 196. This results in the starting position 162 ′ of the support rod, indicated in FIG. 4 with a broken outline, slightly inclined to the left. If the sash is now opened for rotation, the support rod 162 finally pivots into the position 162˝ inclined to the right in FIG. 4, the support rod now being oriented vertically. The result is that the sash frame, which is supported on the support rod 160, subsequently performs a slight lowering movement when the sash is rotated and opened after an initial slight lifting movement. The two handlebar crosses 38 are always relieved of the wing weight.

The fitting of the fitting described above is expediently carried out as follows:

The carrier part 92 is mounted on the support body 52 and the stop bracket 120 with the aid of corresponding fastening screws in the lower corner region of the casement 26. At the same time, the faceplate 150 together with the support device 160 (support bracket 164 with support rod 162; abutment 172 including adjusting screw 170) is fixed in the vertical outer groove step. It has proven to be sensible to first turn the adjusting screw 170 down until the adjustment path of the support bracket 164 is exhausted. On the upper horizontal frame leg 16 of the fixed frame 20, the screw-on bracket 64 together with the handlebar 38 and the raising arm 72 are mounted, the end of the raising arm not shown on the sash frame being initially not yet connected to the upper edge of the wing. Now the fixed frame-side corner bracket 90 together with the handlebar cross 38 is mounted. Before the sash frame 26 is inserted, the lower guide link 42 is pivoted out by approximately 60-90%, so that the driver pin 100 extends into the plane of the drawing in FIG. 3 perpendicular direction in front of the angled support tab 180.

When the sash frame 26 is inserted, the support rod 162 is then inserted with its lower pin 194 into the bore 192 of the support tab 180, as a result of which the sash frame is then supported on the corner bearing bracket 90 via the support device 160.

By turning the adjusting screw 170 in the abutment 172 upwards, the sash frame is now lowered until the driver pin 100 dips into the bore 98 and the driver pin 96 into the elongated hole recess 94. The extension arm 72 is then fixed on the upper wing edge. This can be done by turning a hammer head, not shown, attached to a latchable tab on the sash arm end.

In the rotary open position, the sash frame can be adjusted using the adjusting screw 142. The angled support tab 180, in conjunction with the extension 140 opposite it in the downward direction, forms an anti-lift device for the sash frame in the tilted position.

Because of the structure described above, control arms and control arms are largely relieved of the sash weight. The wing is inevitably pressed against the frame when it is closed, so that pressing lugs on the extension arm, which engage in recesses on the inside or rear frame, can be omitted. No additional locking in the area of the corner bearing is required. In the swivel-open position, the sash can simply be lifted out for assembly or maintenance purposes. In the tilt position, however, the casement is secured against lifting out. When the wing is closed it is from only the operating handle is visible to the fittings, which contributes to an improved appearance. The two handlebar crosses require little installation space.

Claims (24)

1. Rotary fitting of windows, doors or the like with a fixed frame (20) and a casement (26) which is attached to the fixed frame (20) rotatably about a vertical axis of rotation (54)
a lower pivot bearing which connects the fixed frame (20) in the area of a lower corner of the fixed frame (20) to the casement (26),
- An upper pivot bearing (10), which binds the fixed frame (20) in the area of an upper corner of the fixed frame (20) with the casement (26),
wherein the two pivot bearings (10, 12) are each formed with at least two links (40, 42) for ver Storage of the axis of rotation (54) when the sash frame (26) rotates in the direction perpendicular to the frame plane of the fixed frame (20), characterized in that the sash frame (26) on the fixed frame (20) via one of the links (40,42 ) of the two rotary bearings (10, 12) supports independent device (160). 2. Turn-tilt fitting of windows, doors or the like with a fixed frame (20) and a sash frame (26) which is rotatably mounted on the fixed frame (20) about a vertical axis of rotation (54) and tiltable about a horizontal tilt axis , full
a lower pivot bearing in the form of a turn-tilt bearing (12) which connects the fixed frame (20) in the region of a lower corner of the fixed frame (20) with the casement frame (26),
- An upper pivot bearing (10), which connects the fixed frame (20) in the region of an upper corner of the fixed frame (20) with an extension arm (72) coupled to the sash frame (26), the two pivot bearings (10, 12) are each formed with at least two links (40, 42) for displacing the axis of rotation (54) when the sash frame (26) rotates in the direction perpendicular to the frame plane of the fixed frame (20), characterized in that the sash frame (26) is on the fixed one Frame (20) is supported by a device (160) which is independent of the links (40, 42) of the two pivot bearings (10, 12). 3. Fitting according to claim 1 or 2, characterized in that the revolving sash frame (26) is supported on the fixed frame (20). 4. Fitting according to one of the preceding claims, characterized in that the device (160) comprises a support rod (162) which at one end on the fixed frame (20) in the region of the lower pivot bearing and at the other end on the pivot bearing, parallel to the axis of rotation (54) Frame leg (24) of the casement (26) supports. 5. Fitting according to claim 4, characterized in that the support rod (162) is supported on an angled support tab (180) of a frame-side corner bearing part, preferably on the vertical leg of a frame-side corner bearing bracket (90), optionally with tiltable mounting of the support rod (162 ) on the support tab (180). 6. Fitting according to claim 5, characterized in that when the wing frame is closed, the support tab (180) in the direction of the axis of rotation (54) is opposite an extension (140) arranged in the region of the corresponding lower wing frame corner. 7. Fitting according to one of claims 4 to 7, characterized in that the support rod (162) is supported on a support bracket (164), which is preferably attached to a sash cover rail (150). 8. Fitting according to claim 7, characterized in that the support bracket (164) in the direction parallel to the axis of rotation (54) is adjustable. 9. Fitting according to claim 8, characterized in that the support bracket (164) is supported on an adjusting screw (170). 10. Fitting according to one of claims 7 to 9, characterized in that the support bracket (164) is rotatably mounted. 11. Fitting according to claim 10, characterized in that the support rod (162) on the support bracket (164) is captive and preferably attached substantially rigid. 12. Fitting according to at least one of claims 5 to 11, characterized in that the support rod (162) is provided at its lower end with a pin (194) which can be inserted into a bore (192) of the support tab (180), and which preferably tapers towards the end of the pin. 13. Fitting according to at least one of claims 5 to 12, characterized in that the support rod (162) is supported at a location of the lower pivot bearing, possibly the support tab (180), which consists of a central plane parallel to the frame plane of the fixed frame ( 196) of the lower pivot bearing is offset in the direction of the casement (26). 14. Fitting according to at least one of the preceding claims or the preamble of claim 1, wherein the two links of each pivot bearing cross each other and are articulated at the intersection by means of a universal joint (44), and one of the two links, the guide link (40), with a fixed frame-side pivot bearing part (64, 90) and, in the case of the pivot fitting, with a sash frame side Pivot bearing part (92) or, in the case of
Turn-tilt fitting, with an extension arm (72) each connected via a swivel joint (48, 52) and the other link, the control link (42), with the fixed frame-side pivot bearing part (64.90) and with the sash-side pivot bearing part (92 ) or with the extension arm (72), each connected via a sliding swivel joint (58, 60), characterized in that when the sash is closed, all swivel joints (48, 52) and sliding swivel joints (58, 60) are at least approximately in one are parallel to the plane of the frame, that the control link (42) in the area between the universal joint (44) and one of the two pivot joints (48, 52) with an offset corresponding to the thickness of the guide link (40) in the direction of the pivot bearing part carrying the relevant pivot joint is formed, and that the guide link (40) is also formed with a bend according to the thickness of the control link, but in the opposite direction, which when the Fl is in the direction perpendicular to the frame plane next to the offset of the control link (42). 15. Fitting according to claim 14, characterized in that at least one of the two links, preferably both links (40, 42) is provided in the region of the respective offset with a recess (74, 76) open in the direction perpendicular to the plane of the frame, for receiving of the other driver. 16. Fitting according to claim 14 or 15, characterized in that the fixed frame-side pivot bearing part (64.90) is provided in the region of its sliding pivot joint (58) with an offset corresponding to the thickness of a bearing bolt head (70), and that Control link (42) and the guide link (40) are each formed with an essentially identical offset. 17. Fitting according to at least one of claims 14 to 16, characterized in that a driver pin (96, 100) is attached to the turn-tilt bearing (corner bearing 12) in the area of the wing frame end of the control arm (42) and / or the guide arm (40) , which engages in a corresponding pin receiving opening (94, 98) of a wing part on the casement part (92). 18. Fitting according to claim 17, characterized in that the driver pin (100) tapers conically towards the pin end. 19. Fitting according to claim 17 or 18, characterized in that the carrier part (92) on the casement (26) in the direction (A) parallel to the lower horizontal casement leg (28) is adjustable. 20. Fitting according to claim 19, characterized in that a stop bracket (120) is rigidly attached to the sash corner, the horizontal leg (124) is formed with a displacement guide for the carrier part (92) and the vertical leg (122) via an adjusting screw (142) is supported on an extension (140) of the carrier part (92). 21. Turn-fitting or turn-tilt fitting of windows, doors or the like with a fixed frame (20) and a casement (26) which on the fixed frame (20) can be rotated about a vertical axis of rotation (54) and possibly around a horizontal tilt axis is tiltably attached, comprising
a lower pivot bearing, possibly in the form of a turn-tilt bearing (12), which connects the fixed frame (20) in the region of a lower corner of the fixed frame (20) with the casement frame (26),
- An upper pivot bearing (10), which connects the fixed frame (20) in the region of an upper corner of the fixed frame (20) with the sash frame (26), or with a stay arm (72) coupled to the sash frame (26) ,
wherein the two pivot bearings (10, 12) are each formed with at least two links (40, 42) for displacing the axis of rotation (54) when the sash frame (26) opens in the direction perpendicular to the frame plane of the fixed frame (20), characterized in that that the sash frame (26), in particular the revolving sash frame (26), is supported on the fixed frame (20) via a device (160) which is independent of the links (40, 42) of the two pivot bearings (10, 12). 22. Window or door or the like, comprising:
- a fixed frame (20),
a wing frame (26) which is attached to the fixed frame (20) so as to be rotatable about a vertical axis of rotation (54),
- A lower pivot bearing (12), which couples the fixed frame (20) in the area of a lower corner of the fixed frame (20) with the casement, an upper pivot bearing (10), which the fixed frame (20) in the area of an upper corner of fixed frame (20) coupled to the sash frame (26), the two pivot bearings (10, 12) each being formed with at least two links (40, 42) for displacing the axis of rotation (54) when the sash frame (26) is opened in rotation ,
characterized in that a device (160), independent of the links (40, 42) of the two pivot bearings (10, 12), for transmitting the weight of the sash frame (26) to the fixed frame (20) when the sash frame (26) is open in rotation is provided. 23. Window or door or the like. According to claim 22, characterized in that the device comprises an element acting between the casement frame and the fixed frame and loaded under tension. 24. Window or door or the like. According to claim 22, characterized in that the device (160) comprises a support bar (162) acting between the casement frame (26) and the fixed frame (20) and loaded under pressure.

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