EP0674075B1 - Pivotal fitting - Google Patents

Abstract

The rotary fixture is for a pane or panel of a window or door and has a rotary bearing (1) connected with a frame, which via a connecting arm (7) pivotable around the rotary axis of the pane or panel is connected at least at two points with a fixture part (14) fixed to the pane or panel. The connecting arm is releasably connected with the fixture part fixed to the pane or panel, whereby the one of the releasable connections, pref. a connection in the area of the side of the pane or panel facing the rotary bearing, is formed as a securing connection. The connecting arm has a securing accommodation (11) and to the pane or panel a securing bolt (17) or similar is fitted in the securing accommodation and is displaceable in the release position against the force of a spring (22).

Description

The invention relates to a rotary fitting for a wing Window, a door or the like. With a connectable to a frame Pivot bearing for the wing and with a connecting arm, the frame side pivoted about the axis of rotation of the pivot bearing and which connecting arm is connected to the pivot bearing with a wing-side that can be firmly connected to the wing Fitting part in at least two places with the latter, this in In the direction of the wing plane with its long side opposite, is releasably connected, the connecting arm via one of the Detachable connections pivotable relative to the wing the wing and to cancel the pivoting mobility Can be swivel-locked on the wing via the other detachable connection is.

Such a rotary fitting is known from DE-A-40 40 233.

In addition, as is known, rotary fittings are used in which as a wing-fixed fitting part fitted into the sash rebate Fitting angle is provided. To assemble the wing, a riveted to the bracket and the wing to its connecting arm projecting on the frame-side pivot bearing facing side fixed to the pivot bearing. As a connecting element An axle pin is used, which in the installed position is the frame side Pivot bearing and the frame-side end of the connecting arm in parallel interspersed with the frame or sash level and the axis of rotation of the wing forms. For assembly, the axle pin is parallel to the sash or frame level in the aligned axle pin receptacles on the pivot bearing and on the frame-side end of the connecting arm inserted.

Accordingly, the wing assembly sets when using the last described rotary fittings that at least at the Assemble the pivot bearing with the frame-side attached to it End of the connecting arm is accessible and that in the area of So there is sufficient clearance available for the pivot bearing the axle pin outside the pivot bearing with the axle pin receptacles aligned and inserted into the recordings can. For mounting window or door sashes on the Hinged frame-side pivot bearings as well as for applications, in which the pivot bearing of immediately adjacent wall projections or ceiling is covered, these are fittings not suitable.

Based on the prior art according to DE-A-40 40 233 the invention has for its object to provide a fitting, which is easy to assemble and easy to assemble Disconnect the connection between the fixed to the wing Fitting part and the connecting arm allowed.

According to the invention, this object is achieved by the characterizing Features of claim 1 solved. Because the connection to Swivel-proof locking of the connecting arm as a quickly producible and detachable locking connection is formed increases the ease of installation. Because the latch on the connecting arm provided and the associated locking pin on the wing side Fitting part is guided, the connecting arm as band-like, narrow-building component are formed. To the Sashes, especially in the wing spars, can be locked and place the catch spring almost invisibly.

A preferred embodiment of the rotary fitting according to the invention is characterized in that on the locking pin in the wing plane over the side of the wing facing the pivot bearing above actuation approach is provided. The actuation approach for the locking bolt is for the mechanic of the window or Door leaf arranged easily accessible. Once one of the solvable Connections between the wing and the connecting arm made the wing is temporarily in its installed position kept the frame. The final determination of the wing can then done without tools. For this purpose, the actuation approach first by hand in the unlocking direction of the locking bolt to press and hold in this position. Subsequently can by aligning the wing of the locking pin in a position in alignment with the catch on the connecting arm to be brought. If the actuation approach is now released, so the locking bolt under the action of the locking spring in the Snap connection of the connecting arm.

Automatic, i.e. only by a relative movement of the connecting arm and wing, the snap connection can be in the case of a another preferred embodiment of the invention Manufacture rotary fitting in which one of the connecting arm Assigned actuation approach and in the direction of the unlocking movement of the locking bolt rising ramp is provided. Will when installing the wing at one point already on the Fitting part fixed to the sash, connecting arm and sash fixed pivoted relative to each other, so the run-up slope starts the connecting arm on the actuating approach of the locking pin. In the course of the further swiveling movement, the actuation approach slides along the ramp and moves the locking pin in its unlocked position. The snap-in receptacle is in alignment Arranged with the locking pin, the ramp must be the actuation approach release so that the locking pin under the effect of Can snap catch spring into the catch receptacle.

For technical reasons, it is advantageous that as An inclined surface is integrally formed on the connecting arm which is approximately at the level of the locking arm of the connecting arm front edge of the connecting arm ends.

After the locking pin has snapped into the locking seat of the connecting arm and after establishing the second detachable connection between the connecting arm and the fitting part that can be firmly connected to the wing the connecting arm is fixed to the wing so that it can pivot. In particular to compensate for production and / or assembly-related issues Tolerances may be required after the wing Adjust hinges to the frame. For this purpose, one advantageous embodiment of the rotary fitting according to the invention provided that the locking pin on the fixed to the wing fitting part in a substantially circular cylindrical guide is guided and that on the locking pin transverse to its longitudinal axis an eccentric disc connected to the locking bolt in a rotationally fixed manner is, over which the locking bolt on the inner wall of the Guide rotatably supported about its longitudinal axis. As a result of the described The locking bolt becomes eccentric when it rotates around its Longitudinal axis laterally shifted. Because the locking pin is in the installed position engages positively in the snap-in receptacle on the connecting arm, leads to a shift of the locking pin at the same time a change in position of the connecting arm articulated on the frame compared to the fitting part that can be firmly connected to the sash and as a result also to a relative movement between sash and frame and thus also to a change in the contact pressure between wings and frame so that the locking pin has a multiple function.

It also serves to adjust the wing that the connecting arm on the other, provided at a distance from the locking connection Connection point detachable with a slide is firmly connected to the wing fitting part, the slider on the fitting part that can be firmly connected to the wing in the direction of the connecting arm is guided and ascertainable and that the elements the locking connection between the connecting arm and the Have fitting part firmly connected to the wing game in the direction of the connecting arm. The measures described enable a defined relative shift between the wing and the connecting arm in its longitudinal direction. Associated with this relative shift is a relative movement between the frame and the over it the link arm hinged wing.

An exact and sensitive adjustment of the wing in the longitudinal direction the connecting arm is guaranteed when on the slider a nut thread is provided, which is with the thread one on the fitting part that can be connected to the sash rotatable but not displaceable held bolt is engaged, wherein on the bolt a holder for an operating tool is provided.

Another advantageous embodiment of the invention Fitting is characterized in that the actuation approach is provided with two resilient legs in the longitudinal direction of the locking pin grips around the locking pin. Is the locking bolt in its guide on the wing is accessible from the outside, so the actuation approach can be done with little effort slide onto the locking bolt. The assembly of the fitting this makes it much easier from its individual parts.

Is the actuation approach clipped tightly on the locking bolt while securing the locking pin against unwanted rotation, see above can the actuation approach in addition to its control function for the Locking bolts take on another function.

For axially immovable fixing of the actuation approach it serves the locking pin that the locking pin with one turn is provided for axially immovable clip attachment Leg of the actuation approach.

Fig. 1

das Drehlager sowie den Verbindungsarm eines Drehbeschlages für Fensterflügel in der Seitenansicht,

Fig. 2

das Drehlager und den Verbindungsarm nach Fig. 1 in der Draufsicht,

Fig. 3

das dem Drehlager und dem Verbindungsarm nach den Fign. 1 und 2 zugeordnete fest mit dem Flügel verbindbare Beschlagteil in einer geschnittenen Seitenansicht und

Fig. 4

das fest mit dem Flügel verbindbare Beschlagteil nach Fig. 3 in der Draufsicht.

The invention is explained in more detail below with the aid of schematic representations of an exemplary embodiment. Show it:

Fig. 1

the pivot bearing and the connecting arm of a rotating fitting for window sash in a side view,

Fig. 2

the pivot bearing and the connecting arm of FIG. 1 in plan view,

Fig. 3

that the pivot bearing and the connecting arm according to FIGS. 1 and 2 associated fitting part connectable with the wing in a sectional side view and

Fig. 4

3 in top view.

The rotary bearing 1 shown comprises a mounting bracket 2, of the mounting holes 3 on a vertical leg 4th and on a horizontal leg 5 with the corner area of the Fold of a frame, not shown, is screwed. Parallel to the vertical leg 4 is on the mounting bracket 2nd a bearing pin 6 is arranged, which also serves as an axis of rotation for one wing not shown serves.

The connection between the frame and sash is made using a connecting arm 7, the frame side on the bearing pin 6 is pivotally mounted. Near the bearing pin 6 is on the connecting arm 7 an angular plate 8 is formed. The angle plate 8 has a leg running parallel to the bearing pin 6 9, to which one protrudes into the drawing plane of FIG. 1 Inclined surface 10 connects. An elongated hole 11 is adjacent to that Angle plate 8 is provided in the connecting arm 7 and extends itself in its longitudinal direction. On its facing away from the pivot bearing 1 At the end, the connecting arm 7 carries a vertical insertion pin 12 with radial projections 13.

In Figs. 3 and 4 is shown an angular wing-fixed Fitting part 14, which is in the installed position in the corner area of the Wing rebate fitted and mounting holes 15 with the Wing is screwed. In a vertical leg 16 of the fitting part 14 is a locking pin 17 with a base body 18 and a locking projection 19 guided. Both the basic body 18 and the locking projection 19 are circular cylindrical; the locking projection 19 is eccentric to the base body 18th attached to this. In addition, the base body 18 the locking bolt 17 is provided with a radial actuation projection 20, through a lateral opening 21 in the vertical leg 16 of the fitting part 14 projects beyond the wing. In the snap direction the locking pin 17 is acted upon by a locking spring 22.

On a horizontal leg 23 of the fitting part 14 is one Insertion opening 24 with a substantially rectangular cross section intended. Below the insertion opening 24 is a sliding angle 25 with a bearing eye 26 in the longitudinal direction of the horizontal Leg 23 guided. In a nut thread 27 of Sliding angle 25 engages a screw bolt 28 which over a with a hexagon socket 29 provided relative to the fitting part 14 is rotatably but immovably held on this.

For assembly, the sash in question with the pre-assembled fitting part 14 delivered to the installation site. There will be first the pivot bearing 1 with the connecting arm pivotably mounted thereon 7 screwed to the frame in the corner area of the frame rebate. As an example, assume that the one shown in FIGS. 1 to 4 shown Swivel fitting only as an upper corner fitting for the Wing is used while storing the lower corner area a conventional corner fitting is used for the sash is coming.

For pre-assembly of the fitting part 14, this is with its horizontal Leg 23 and its vertical leg 16 in the recess provided for this purpose is used in the area of the sash rebate and screwed to the wing via the mounting holes 15. After the detent spring 22 in its inclusion on the vertical Leg 16 of the fitting part 14 has been introduced, the locking pin 17 in its leadership on the vertical leg 16 inserted. He is so against the force of the spring 22 pressed far into the vertical leg 16 until a turn 31 at the level of the lateral opening 21 of the vertical leg 16 lies. In this position of the locking pin 17, the actuation approach 20 with resilient legs 30 through the side Opening 21 be clipped onto the locking pin 17. To the the The actuation approach is supported by recess 31 facing radial surfaces 20 on the locking pin 17 in its longitudinal direction immovable from. Since the width of the actuating approach 20, in Fig. 3 measured perpendicular to the image plane, the width of the side Opening 21 on the vertical leg 16 corresponds and the Actuation approach 20 taut in the area via the resilient legs 30 the recess 31 is held on the locking pin 17 acts the actuation approach 20 of an unwanted rotation of the locking bolt around its longitudinal axis.

After the pivot bearing 1 with the pivotally mounted thereon at the installation location Connection arm 7 is mounted in the frame fold the wing to be assembled with the bottom corner fitting Frame connected. Then the wing with the wing fixed Fitting part 14 and the connecting arm 7 against each other in this way pivoted that the radial projections 13 on the insertion pin 11 of the connecting arm 7 within the cross section the insertion opening 24 on the horizontal leg 23 of the fitting part 14 lie. Now the insertion pin 12 can its circular cylindrical end in the bearing eye 26 on the glide angle 25 are pushed in. Become the wing or the wing-fixed Fitting part 14 and the connecting arm 7 further against each other pivoted, the radial projections 13 are relative to twisted the insertion opening 24 and thus protrude beyond laterally. In this way, the connecting arm 7 is after Kind of a bayonet lock on the fitting part 14 in the axial Direction of the insertion pin 12 secured.

With corresponding relative movement of the wing and the connecting arm 7 runs the actuating projection 20 of the locking pin 17 the sloping surface 10 serving as an inclined slope and slides then along this. Since the connecting arm 7 due the form fit between the radial projections 13 of the insertion pin 12 and the fitting part 14 in the axial direction of the Insert pin 12 is set, the locking pin 17 of the ramp 10 that is supported on the confirmation approach 20 moved against the force of the detent spring 22 in the unlocked position. In the unlocked position, the locking pin 17 lies over its entire Length within the vertical leg 16 of the fitting part 14. As a result, the connecting arm 7 can be around the male pin 12th be rotated until the elongated hole serving as a snap-in receptacle 11 is aligned with the locking projection 19 of the locking pin 17. In this position gives the ramp 10 the locking pin 17th free, so that this under the pressure of the detent spring 22 in the locking receptacle 11 of the connecting arm 7 and snap it on can lock the wing swivel-proof.

If necessary, adjust the sash in the installation position the locking projection 19 of the locking bolt provided with an internal hexagon 17 rotated about the axis of rotation of the base body 18. It changes the longitudinal axis of the locking projection 19 due to the eccentricity relative to the base body 18 and shifts the connecting arm 7, on which it is supported in the latching receptacle 11, opposite the wing. Since the connecting arm 7 over the Bearing pin 6 of the pivot bearing 1 is connected to the frame, results from the relative movement between the connecting arm 7 and the wing a relative movement between the wing and the Frame.

For adjusting the wing in the longitudinal direction of the connecting arm 7 the bolt 28 is by means of a hexagon socket of the head 29 engaging operating tool rotated. Dependent on from the direction of rotation of the bolt 28 Sliding angle 25 in the direction of the pivot bearing 1 or counter to this Direction shifted. The displacement of the sliding angle 25 is transmitted via the insertion pin supported in the bearing eye 26 12 on the connecting arm 7 and leads to a relative displacement of wing and connecting arm 7 in the longitudinal direction. The locking projection 19 migrates in the longitudinal direction of the locking receptacle 11. A corresponding relative displacement between wings and frame is the result.

Claims (10)

1. Rotary fitting for a sash of a window, of a door or the like, having a rotary bearing (1) for the sash, which bearing is connectable to a frame, and having a connecting arm (7), which is mounted at the frame end so as to be pivotable about the rotary axis of the rotary bearing, and which connecting arm (7) is detachably connected at at least t:wo locations to a fitting component (14) so as to lie opposite said component with its longitudinal side when viewed with respect to the direction of the sash plane, whilst connecting the rotary bearing (1) to said fitting component at the sash end, said component being securedly connected to the sash, the connecting arm (7) being pivotally retained on the sash via one of the detachable connections relative to the sash and being non-pivotaLly lockable on the sash via the other detachable connection so as to prevent pivotability, characterised in that the connection for the non-pivotal locking of the connecting arm (7) is configured as a locking connection, having a locking receiver (11) on the connecting arm (7) and a locking pin (17), which is guided on the fitting component (14) at the sash end transversely relative to the longitudinal direction of the connecting arm (7) and in the direction of the sash plane, said locking pin being associated with the locking receiver (11) and being displaceable in the unlocked position in opposition to the force of a spring (22).
2. Rotary fitting according to claim 1, characterized in that an operating extension (20), which protrudes in the sash plane beyond the side of the sash facing the rotary bearing (1), is provided on the locking pin (17).
3. Rotary fitting according to claim 2, characterised in that a leading inclination, which is associated with the operating extension (20) and ascends in the direction of the unlocking movement of the locking pin (17), is provided on the connecting arm (7).
4. Rotary fitting according to claim 3, characterised in that an inclined face (10) is shaped to fit on the connecting arm (7) as a leading inclination, said face terminating substantially on a level with the front edge of the connecting arm (7) when viewed in t.he locking direction of the connecting arm (7).
5. Rotary fitting according to one of the preceding claims, characterised in that the locking pin (17) is guided on the fitting component (14), which is securedly connectable to the sash, in a substantially circular-cylindrical guide, and in that an eccentric disc, which is non-rotatably connected to the locking pin (17), is provided on the locking pin (17) transversely relative to its longitudinal axis, the locking pin (17) being supported via said disc on the internal wall of the guide so as to be rotatable about its longitudinal axis.
6. Rotary fitting according to one of the preceding claims, characterised in that the connecting arm (7) is detachably connected to the fitting component (14), which is securedly connected to the sash, via a slider (25) at the other connection location, the slider (25) being displaceably and securably guided on the fitting component (14), which is securedly connectable to the sash, in the direction of the connecting arm (7), and in that the members of the locking connection between the connecting arm (7) and the fitting component (14), which is securedly connectable to the sash, have play in the direction of the connecting arm (7).
7. Rotary fitting according to claim 6, characterised in that a female screw thread (27) is provided on the slider (25), which thread is in engagement with the thread of a screw bolt (28), which is rotatably but non-displaceably retained on the fitting component (14) securedly connectable to the sash, a holder for an operating tool being provided on the screw bolt (28).
8. Rotary fitting according to at least one of claims 2 to 5, characterised in that the operating extension (20) is provided with two resilient portions (30) to surround the locking pin (17) non-displaceably in the longitudinal direction of the locking pin (17).
9. Rotary fitting according to claim 8, characterised in that the operating extension (20) is clipped tightly onto the locking pin (17) so as to prevent the locking pin (17) from accidentally rotating.
10. Rotary fitting according to claim 8 or 9, characterised in that the locking pin (17) is provided with a recess (31) for the axially non-displaceable clip-in securement of the portions (30) of the operating extension (20).

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