EP3348757B1 - Device for fixing a pivoting device - Google Patents

Description

The present invention relates to a device for locking a pivotable device, such as a door, a window or the like, and to an arrangement of a device for locking a pivotable device on a door or on a window.

Devices of the type in question are known from the prior art. For example, in the prior art there are door locks which are in the form of a screw on the abutment, i.e. the floor, fixed body are formed, against which the door bumps. In addition, door locks are known, which are fastened to the door or the door leaf by means of screws. They are actuated by moving a locking bolt in the direction of the abutment until it engages with the abutment. However, the problem with these devices is that the screwing to the abutment or the door leaf causes damage in the form of drilled holes. In addition, it is particularly problematic in the case of the door locks fastened to the door leaf that areas around the door lock are contaminated due to the actuation of the door lock.

The CN 102 235 128 A , DE 10 2008 051 406 A1 , U.S. 4,805,948 A and U.S. 2,898,140 A concern door stoppers that are screwed onto the surface of a door and have a wedge that can be wedged under a door.

The U.S. 1,606,149 A , U.S. 1,915,795 A and U.S. 6,120,072 A relate to door stops with a fastening part for fastening to the surface of a door and a rotating body, the end of which has a support element in order to be brought into engagement with the floor in a position next to the door.

The US-2005/0193520 A1 relates to a door stop with a fastening element encompassing the bottom edge of the door and a stop element pivotably arranged on one side of the fastening element.

It is an object of the present invention to provide a device for locking a pivotable device, such as a door, a window or the like, and a corresponding arrangement of a device for locking a pivotable device on a door or a window, which is easy to operate, is reliable in operation and allows attachment without causing damage to the door or window.

This object is achieved by a device for ascertaining a pivotable device, such as a door, a window or the like, with the features of claim 1. Preferred embodiments result from the dependent claims.

According to the invention, a device for fixing a pivotable device, such as a door, a window or the like, is provided, comprising a fastening unit with a fastening region for fastening the device to an edge of the pivotable device, an actuating unit which can be pivoted or rotated in a pivoting plane is mounted on a fastening unit bearing area of the fastening unit, the actuating unit having a stop element, the stop element having a bearing surface which is convexly curved in or along a pivot plane. The device can thus be designed as a locking device and serves to determine the position of a pivotable device. In this respect, the device can not only act like a door stop in a specific position of the pivotable device, but can also act in any position or angular position of the pivotable device. In contrast to door closers or door openers, however, the locking device does not exert any force on the pivoting device in its opening or opening Closing direction, so that the locking device according to the invention differs from a door closer or opener with regard to the forces acting on it. The pivotable device is in particular a door, ie a door leaf or leaf or a window or its window leaf. It goes without saying that the device can also be used on similar elements which can be pivoted. In order to fasten the device to the pivotable device, it has a fastening unit which is designed to enable the device to be fixed or mounted or fastened to an edge of the pivotable device. When the pivotable device is designed as a door or window, it points this has a circumferential, face-oriented surface that forms the edge. Furthermore, the device has an actuation unit with a stopper element, which is used to be brought into engagement with an abutment. The abutment is preferably the (floor) of a door or a window sill for a window. By engaging the stopper element with the Abutment is caused to prevent displacement of the pivoting device. The engagement of the stopper element with the abutment is particularly positive and / or non-positive and / or frictional. Furthermore, the actuation unit is mounted on the fastening unit. The bearing is designed in such a way that the actuating unit can be rotated or pivoted about an axis of rotation in relation to the fastening unit, ie the bearing is expediently designed as a pivot bearing. For this purpose, the fastening unit has a fastening unit storage area which, in a preferred embodiment, is formed in one piece or in one piece with the fastening area. The actuation unit is displaced relative to the fastening unit by rotation in a swivel plane, so that the axis of rotation is perpendicular to the swivel plane. The rotation of the actuating unit in such a way that the stopper element is brought closer to the fastening unit, ie in the direction of a locking position, means that the stopper element can be brought into engagement with the abutment. For this purpose, the stopper element has a contact surface which, in the locking position, is in contact with the abutment in some areas. The bearing surface is advantageously convexly curved in or along the pivot plane.

The fastening unit bearing area is preferably formed by a cylinder jacket surface extending perpendicularly to the swivel plane, preferably a bolt. The cylinder jacket surface or the point of curvature of the cylinder jacket surface can be arranged in the center of the fastening unit when viewed in a profile direction. However, it goes without saying that an off-center arrangement is also possible. The profile direction corresponds essentially to the direction or longitudinal extension of the fastening unit along or parallel to the pivot axis of the pivotable device. The profile direction is thus parallel to the swivel plane or perpendicular to the axis of rotation of the actuating unit. In a particularly advantageous embodiment, the fastening unit bearing area is formed by a pin or bolt, with the outer lateral surface of which the actuating unit can be brought into engagement. The bolt can extend parallel or coaxial to the axis of rotation of the actuating unit.

Furthermore, the fastening unit bearing area is preferably formed by at least one, preferably two walls spaced apart from one another perpendicular to the pivot plane, which preferably extend or extend essentially parallel to the pivot plane. The wall or the wall (s) particularly expediently extend substantially perpendicularly away from a base of the fastening region in an opposite direction to legs of the fastening region extending away from the base. Alternatively, the wall or walls can also extend away from one of the legs of the fastening region. The wall itself serves as a fastening unit storage area and thus represents that functional part of the fastening unit on which the actuating unit is mounted, i.e. via which the actuating unit transfers or transmits a force into the fastening unit. In a particularly advantageous embodiment, two walls are provided which are spaced apart from one another perpendicular to the pivot plane. It is particularly advantageous here if the two walls extend essentially parallel to one another so that their distance is constant. Particularly expediently, the wall (s) extend essentially parallel to the swivel plane. "Essentially parallel" here means that manufacturing tolerances deviating from parallelism are included, so that there is a non-parallelism of up to +/- 3 °. In a particularly preferred embodiment, the walls can be designed to be resilient to one another, so that in order to fix the actuating unit, they can be spaced further apart in regions in order to accommodate a corresponding latching element or a corresponding engagement area of the actuating unit.

The wall or the walls of the fastening unit storage area expediently each have a first engagement area with which the actuating unit is or can be brought into engagement for the pivotable mounting, the first engagement area preferably extending along an arc of a circle. The first engagement area is expediently designed such that it enables a positive and / or non-positive engagement with the actuating unit. For this purpose, the first engagement area advantageously has corresponding engagement surfaces. In a particularly preferred embodiment, the first engagement area extends in particular its engagement surfaces, along an arc. The circular arc preferably has a center of curvature which lies on the axis of rotation of the actuating unit. The curvature of the arc is constant. The circular arc of the first engagement region advantageously has a radius of curvature in a range from 11 mm to 28 mm, in particular 14 mm to 20 mm. The first engagement area, in particular its engagement surfaces, can expediently be designed as a groove or projection which advantageously extends in or parallel to the pivot plane. Furthermore, the first engagement region advantageously extends over an arc angle of 90 ° to 180 °, in particular 110 ° to 140 ° and / or an arc dimension or an arc length of 20 mm to 48 mm, in particular 28 mm to 40 mm.

Advantageously, the wall or walls of the fastening unit storage area each have an outer edge which is convexly curved in the pivot plane, preferably with a constant radius of curvature. The outer edge here represents that edge of the wall which is oriented away from the fastening area. The outer edge is particularly preferably curved in a circular or arc-shaped manner and particularly expediently has a center of curvature which lies on the axis of rotation of the actuating unit.

In a preferred embodiment, the actuation unit has an actuation unit storage area, via which the actuation unit is mounted on the fastening unit storage area. The actuating unit storage area is designed such that it enables guidance with or in relation to the fastening unit storage area along a curved path, in particular a circular path. The actuating unit storage area thus enables power transmission from the actuating unit to the fastening unit and, at the same time, relocability between the actuating unit and fastening unit.

The actuating unit bearing area is preferably formed by a cylindrical jacket surface extending perpendicular to the swivel plane, preferably a recess or undercut. Viewed in the swivel plane, the cylinder surface can form a circular arc which spans an arc angle which is preferably greater than 180 ° and is particularly preferably between 190 ° and 220 °. In particular by an angle greater than 180 °, the cylinder jacket surface thus represents an undercut for receiving a corresponding cylinder jacket surface, for example formed by a bolt, of the fastening unit storage area. In an alternative embodiment, the cylinder jacket surface can form an arc that spans an arc angle that is smaller than 180 ° and is preferably between 40 ° and 80 °. This embodiment is particularly preferred when the actuating unit storage area (or its second engagement area) engages with a fastening unit storage area (or its first engagement area) which extends along an arc with an arc angle of 90 ° to 180 °, in particular 110 ° to 140 ° and / or an arc measure or an arc length of 20 mm to 48 mm, in particular 28 mm to 40 mm.

Furthermore, the actuating unit bearing area is preferably formed by at least one, preferably two walls spaced apart from one another perpendicular to the swivel plane, which preferably extend or extend essentially parallel to the swivel plane. Thus, the actuation unit storage area can be formed by only a single wall, which is arranged or can be arranged between the walls of the fastening unit storage area. Advantageously, however, the actuating unit storage area has two walls, which can also be arranged between the two walls of the fastening unit storage area. However, it is also understood that the one or two walls of the fastening unit storage area can be arranged between the two walls of the actuation unit storage area. The two walls are advantageously spaced apart perpendicular to the pivot plane. It is particularly advantageous here if the two walls extend essentially parallel to one another so that their distance is constant. The wall (s) particularly expediently extends essentially parallel to the swivel plane. "Essentially parallel" here means that manufacturing tolerances deviating from parallelism are included, so that there is a non-parallelism of up to +/- 3 °. In a particularly preferred embodiment The walls can be designed to be resilient to one another, so that the distance between the walls of the actuating unit storage area can be changed in certain areas in order to fix the actuating unit in order to accommodate a corresponding latching element or a corresponding engagement area of the fastening unit.

The wall or the walls of the actuating unit storage area expediently has a second engagement area with which the fastening unit storage area is or can be brought into engagement for pivotable mounting, the second engagement area preferably extending along an arc of a circle. It is particularly advantageous here if the first engagement area of the wall of the fastening unit storage area and the second engagement area of the wall of the actuation unit storage area are essentially congruent to one another. It is particularly advantageous here, when viewed along a displacement path of the walls, that the geometries of the first and / or second engagement region remain or are constant. The second engagement area is expediently designed in such a way that it enables a positive and / or non-positive engagement with the fastening unit. For this purpose, the second engagement area advantageously has corresponding engagement surfaces. In a particularly preferred embodiment, the second engagement area, in particular its engagement surfaces, extends along an arc. The circular arc preferably has a center of curvature which lies on the axis of rotation of the actuating unit. The curvature of the arc is constant.

The wall of the actuating unit bearing area advantageously has an outer edge which is concavely curved in the pivot plane, preferably with a constant radius of curvature. The outer edge of the wall of the actuating unit storage area advantageously extends over an arc angle between 40 ° and 80 °.

In a preferred embodiment, one of the first or second engagement regions is designed as a projection and the other of the engagement regions is designed as a recess, that are designed to interlock. The projection and the recess particularly preferably have the geometry of an arc of a circle. It is particularly advantageous here if the central angle or circular arc angle of the projection or recess of the first engagement area is greater than that of the second engagement area. For example, a ratio of the arc angle of the second engagement area to the first engagement area between 0.3 and 0.7, in particular 0.4 and 0.6, is preferred, since an optimal relationship between the stability of the connection between the actuating unit and the fastening unit on the one hand and the degree on the other hand the pivotability of the actuating unit can be achieved.

According to the invention, the fastening region is formed from a base and two legs extending transversely away from the latter, the legs preferably being of essentially the same length. When viewed in the profile direction, the fastening area can essentially form a U-shaped cross section. The profile direction is expediently parallel to the swivel plane. The profile direction and the axis of rotation of the actuating unit thus form a plane which is expediently perpendicular to the swivel plane. The fastening area can be designed as a rail, by means of which it is possible to arrange the fastening unit on a door rebate. The extent of the base between the two legs is in particular greater than the distance from two opposite surfaces of the pivotable device on which the device is to be fixed. The legs preferably protrude in the same direction from the base. It is preferred here if the legs extend essentially parallel to the swivel plane. However, it is also possible for one or both legs to extend at an angle of less than 90 °, particularly preferably between 85 ° and 89 °, to the base in such a way that the free ends of the legs are closer to one another than the legs at the base of one another are spaced.

According to the invention, the fastening unit storage area is provided or arranged on the base. When the fastening unit bearing area is arranged on one of the legs, the pivot plane is transverse, in particular perpendicular, to the extent of both legs of the fastening area. When the fastening unit storage area is arranged on the The base is thus the swivel plane transverse, in particular perpendicular, to the extension of the base of the fastening region and / or the legs, on the other hand, are expediently essentially parallel to the swivel plane and do not cut them.

The fastening unit is preferably designed such that it can be brought to bear against two opposing surfaces of the pivotable device. The opposite surfaces of the pivotable device are - in particular in the case of a design as a door leaf - the spaced and oppositely oriented door leaf surfaces or the spaced and oppositely oriented surfaces of a door rebate. In this respect, the frontally oriented edge of the pivotable device is provided or arranged on the outer circumference of the opposite surfaces of the pivotable device. It is particularly advantageous that the fastening unit is designed such that it can be brought to bear against the two opposite surfaces. In other words, the device for fixing the pivotable device can be fixed on the opposite surfaces by means of the fastening unit, in that the fastening unit introduces oppositely oriented forces on the opposite surfaces and thus clamps the device on the pivotable device.

Advantageously, the fastening unit has a counter element which can be displaced, preferably translationally, relative to the fastening region, in particular one of the legs, such that the pivotable device can be clamped with or between it. The counter element can particularly advantageously be fixed or stored on one of the legs in such a way that the counter element can be displaced in relation to the fastening region, in particular the other of the legs. The direction of displacement is preferably parallel to the extension of the base. The direction of displacement of the counter element when the fastening unit bearing area is formed at the base of the fastening area can particularly advantageously be parallel to the axis of rotation of the actuating unit or at an angle of up to +/- 5 °. However, it is special when the fastening unit storage area is arranged on one of the legs It is advantageous if the direction of displacement of the counter element lies essentially parallel to the pivoting plane of the actuating unit or deviates from it by at most +/- 5 °. The counter element is designed or arranged in such a way that - in the assembled state of the device - it is arranged between the pivotable device and the fastening area, in particular one of the legs. Thus, when the counter element is moved away from the adjacent leg, the pivotable device arranged in the fastening region, for example the U-shaped region formed by the legs and the base, can be clamped between the counter element and the fastening region or its leg. In other words, one leg of the fastening area engages with one of the opposite surfaces of the pivotable device and the counter element with the other of the opposite surfaces of the pivotable device.

Advantageously, the fastening area, in particular one of the legs, has a support surface for contacting one of the opposite surfaces and the counter element has a contact surface for contacting the other of the opposite surfaces, the support surface and the contact surface being aligned essentially parallel to one another, and wherein the Support surface is preferably arranged or arranged at a distance between 10 mm and 20 mm, preferably between 12 mm and 17 mm, to the contact surface. The support surface of the fastening area or of the leg advantageously protrudes transversely from the base of the fastening area. The support surface can advantageously be inclined at an angle between 85 ° and 89 ° to the base such that the free end of the support surface is inclined towards the opposite leg. This ensures an even more secure fastening of the fastening unit to the pivotable device. The counter element has an abutment surface essentially opposite the support surface. The support surface and the contact surface are advantageously aligned essentially parallel to one another. "Essentially parallel" here means that deviations of up to 5 ° are to be understood as "substantially parallel", which is caused in particular by a non-rectangular arrangement of the support surface to the base of the fastening area. Additionally or alternatively, however, the contact surface of the counter element can also be arranged in this way be that its free end, spaced further from the base of the fastening region, is inclined towards the supporting surface of the opposite leg. Here, too, the inclination of the contact surface of the counter element to the base of the fastening area can lie at an angle between 85 ° and 89 °. The support surface and the contact surface are at a distance which is bridged by the base of the fastening area. The distance is advantageously between 10 mm and 20 mm, particularly preferably between 12 mm and 17 mm. This particularly advantageously allows great flexibility in the thickness or strength of that region of the pivotable device on which the device is arranged.

A friction-increasing layer is advantageously provided on the support surface and / or the contact surface. The layer can extend over the entire support surface and / or contact surface. Alternatively, however, the layer extends only over partial areas, in particular in the case of the contact surface. The friction-increasing layer can be designed as a materially formed coating with the support and / or contact surface or as separate elements. It is particularly advantageous if, in particular, the friction-increasing layer of the support surface is designed as a separate element which can be detached from the leg of the fastening region and can be connected to the leg via a positive and / or non-positive connection. Finally, the friction-increasing layer can also be designed in such a way that the support and / or contact surface is subjected to a surface treatment or is equipped by means of a specific surface geometry.

Furthermore, the counter element preferably has a threaded bore, with which a displacement element is in engagement or can be brought, which can be arranged or arranged in a supporting manner on the fastening region, in particular one of the legs. The threaded bore of the counter element is formed on its inner peripheral surface with a thread, which is preferably a left-hand thread. A displacement element can be brought into engagement with the thread of the threaded bore and can be supported on the fastening area, in particular one of the legs. So it is preferred that the displacement element is supported on the leg opposite the support surface. Therefor the leg has a recess or a hole, which preferably has a smaller diameter than the threaded bore of the counter element. In order to be able to fix the device on both sides of a pivotable device, ie to allow left and right installation, it is preferred if both legs of the fastening area are provided with a corresponding hole or a corresponding recess. The holes or recesses of the legs are particularly advantageously symmetrical and / or collinear or concentric relative to an axis which is parallel to the axis of rotation or pivoting plane. It goes without saying that it is expedient for left / right installation if the recesses or holes in the legs have the same geometric configuration.

The displacement element is preferably designed as a screw which has a radial collar or an annular radial recess for abutment against the fastening region, in particular one of the legs. The screw thus consists of a threaded area and a support surface, which is preferably circumferential by providing a radial collar or recess. The circular, radial recess can in particular be formed by reducing the cross section of the screw. The support surface, which is formed by the collar or recess, serves to rest against the leg, whereas that area of reduced diameter of the screw can protrude into or through the recess or the hole in the leg. In the area with the reduced radius, the screw preferably has an engagement area for actuating the screw on the end face.

The stopper element is preferably wedge-shaped and preferably has a counter surface which is essentially opposite the bearing surface and is designed to be supported on the fastening unit, in particular the fastening region or a section thereof. When viewed in the direction of the axis of rotation, the counter surface is in the form of a circular arc and has a center of curvature which advantageously lies on the axis of rotation of the actuating unit. The counter surface can be on the fastening area, in particular when the actuating unit is shifted into a locking position on the Support the fastening unit. For this purpose, it is particularly advantageous if the counter surface is concave in a cross section lying on the axis of rotation, particularly preferably has a V-shaped configuration. Correspondingly, a counter bearing surface provided on the fastening unit can have a convex, in particular V-shaped projection, so that the stopper element can be guided optimally when the actuating unit is pivoted. The wedge of the stopper element, ie the wedge angle, is preferably in the range between 10 ° and 22 °, in particular between 13 ° and 18 °.

The axis of rotation of the actuation unit and the center of curvature of the support surface of the stopper element are preferably spaced apart from one another. So it is particularly preferred if - viewed in the swivel plane - the axis of rotation of the actuation unit closer to the support surface or base of the fastening area, and thus the swiveling device, and closer to that of the abutment, i.e. Bottom, adjacent area of the fastening area lies as the center of curvature of the contact surface of the stopper element.

The actuating device is expediently pivotable between an open position and a locking position. In the open position, the stopper element is brought into a position or a position in which it is not in engagement with the abutment, for example the floor, so that in the open position the device for fixing the pivotable device is inactive or is overridden. The actuating unit can be pivoted from the open position into the locking position via an intermediate position. In the locking position of the actuation unit, a thicker part of the wedge-shaped stopper element is seen to bear against the fastening unit than seen in the pivoting plane than in the open position, so that the stopper element lying under the fastening unit is bridged. Thus, in the locking position, the stopper element is in a position or position in which it is in engagement with the abutment. A fixing device for fixing and / or holding and / or forcing the actuating unit in the or the open position is preferably provided, which acts between the fastening unit and the actuating unit, the fixing device preferably comprising a spring element or a projection which is designed to engage in an undercut, wherein the projection is preferably provided on one and the undercut on the other of the elements actuating unit and fastening unit. It is also possible to provide a spring element, such as a helical spring, which or its ends are fastened to the fastening unit and the actuating unit. As a result, the actuation unit can be biased into an open position.

It goes without saying that the further advantages and features of the device according to the invention for fixing a pivotable device and its preferred embodiments can also be used in the arrangement according to the invention of a device on a door or a window.

Fig. 1

eine Seitenansicht einer Ausführungsform der erfindungsgemäßen Vorrichtung in der Offen-Position;

Fig. 2

eine Seitenansicht einer Ausführungsform der erfindungsgemäßen Vorrichtung in der Feststellposition;

Fig. 3

eine perspektivische Explosionsdarstellung einer Ausführungsform der erfindungsgemäßen Vorrichtung;

Fig. 4

eine perspektivische Darstellung einer Ausführungsform der erfindungsgemäßen Betätigungseinheit;

Fig. 5

eine perspektivische Darstellung einer weiteren nicht erfindungsgemäßen Vorrichtung;

Fig. 6

eine perspektivische Darstellung einer weiteren nicht erfindungsgemäßen Vorrichtung.

Further advantages and features of the invention result from the following description of preferred embodiments of the device according to the invention for determining a pivotable device. Show it:

Fig. 1

a side view of an embodiment of the device according to the invention in the open position;

Fig. 2

a side view of an embodiment of the device according to the invention in the locking position;

Fig. 3

a perspective exploded view of an embodiment of the device according to the invention;

Fig. 4

a perspective view of an embodiment of the actuating unit according to the invention;

Fig. 5

a perspective view of another device not according to the invention;

Fig. 6

a perspective view of another device not according to the invention.

In the Figures 1 to 4 a preferred embodiment of a device according to the invention for determining a pivotable device is shown. This comprises a fastening unit 2 and an actuation unit 4.

The fastening unit 2 comprises a fastening region 6 and a fastening unit storage region 8. The fastening region 6 serves to fix the device on an edge of a pivotable device 100. The fastening region 6 essentially has the shape of a U-shaped rail and is supported by a base 10 formed, from which two legs 12, 14 protrude. The fastening area 6, or the U-shaped rail, extends in the profile direction T.

The fastening unit 2 also has a counter element 16 which can be displaced relative to the opposite leg 12 along a displacement direction V such that the pivotable device 100 can be clamped between the leg 12 and the counter element 16. For this purpose, the leg 12 has a support surface 18 for bearing against one of two opposite surfaces 102, 104 of the pivotable device 100. The counter element 16 likewise has a contact surface 20 facing the support surface 18, which serves for contact with the other of the opposite surfaces 102, 104.

In order to shift the counter element in the direction of displacement V to the fastening area 6 or the legs 12, 14, a threaded bore 22 is provided in the counter element 16, in the thread of which a displacement element 24 engages. The displacement element 24 is designed as a screw which has a radial recess 26 which can be brought into abutment on a surface of the leg 14 which is opposite the leg 12 and surrounds a hole 28. The Hole 28 has a smaller diameter than the threaded bore 22.

Preferably, the leg 12 also has a hole 28, which is identical in its position and geometry to the hole 28 of the leg 14.

The support surface 18 is formed with a friction-increasing layer 30 in the form of a separate element, the base surface of which essentially corresponds to that of the counter element 16. The friction-increasing layer 30 has on its rear end a projection which is designed to engage in a hole 28 in the leg 12 in order to position the friction-increasing layer 30.

The fastening unit storage area 8 of the fastening unit 2 serves to mount the actuation unit 4 in such a way that the actuation unit 4 can be pivoted or rotated about a rotation axis R in a pivot plane S. In the embodiment shown, the fastening unit storage area 8 is formed by two walls spaced apart from one another perpendicular to the swivel plane S and extending parallel to the swivel plane S. The walls 32 are delimited by an outer edge 34 which is convexly curved in the pivot plane S with a constant radius of curvature.

The actuation unit 4 has an actuation unit bearing area 36 which is formed by two walls 36 spaced apart from one another perpendicular to the pivot plane S and extending essentially parallel to the pivot plane S.

To move the operating unit 4 between an open position ( Figure 1 ) and a locking position ( Figure 2 ) to pivot, the fastening unit bearing area 8 has a first engagement area 38 on its walls 32. Correspondingly, the walls 38 of the actuating unit bearing area 36 each have a second engagement area 42. The first engagement area 40 and the second engagement area 42 are advantageously congruent to one another in their geometric configuration In the embodiment shown, the first engagement area 40 is designed as a projection directed toward the respective opposite wall 32, while the second engagement area 42 is designed as an outwardly oriented recess. It is advantageous that the two engagement areas 40, 42 run along an arc whose center of curvature lies on the axis of rotation R.

The actuation unit also has a stop element 44 with a support surface 46 which is convexly curved along the pivot plane S. Opposite the bearing surface 46, the stopper element 44 has a counter surface 48 which can be supported on the fastening unit 2, in particular a section 50 which projects therefrom.

In order to hold the actuation unit 4 in the open position, a fixing device is provided which is formed from a projection 52 which is provided on the fastening unit 2. The projection 52 is designed to engage in a corresponding undercut 54 of the actuating unit 4.

As especially in the Figures 1 and 2 It can be seen that a work space 108 is formed between the pivotable device 100 and the base serving as an abutment 106, a larger proportion of the stopper element 44 being arranged in the work space 108 in the locking position than in the open position.

In Figure 5 a further device not according to the invention is shown. In this embodiment, however, the fastening unit bearing area 8 is arranged on the leg 14 of the fastening area 6, while the base 10 of the fastening area 6 extends over the edge 110 of the pivotable device.

In Figure 6 a further device not according to the invention is shown. In this, the fastening unit bearing area 8 is designed as a bolt 56 extending perpendicular to the swivel plane S. The actuating unit bearing area 36 is designed as a congruent to the bolt 56 Undercut 58 is formed, which in the embodiment shown has a circular segment shape, which has an opening angle of less than 180 °, so that the actuating unit bearing area can be clipped onto the bolt 56 as it were.

Furthermore, in contrast to FIG. 5, the base 10 of the fastening region 6 does not extend below the pivotable device 100, but laterally around the edge 110 of the pivotable device 100.

Reference symbol list:

• 2 fastening unit
• 4 operating unit
• 6 fastening area
• 8 Fastening unit storage area
• 10 base
• 12 legs
• 14 legs
• 16 counter element
• 18 support surface
• 20 contact surface
• 22 threaded hole
• 24 displacement element
• 26 Radial recess
• 28 holes
• 30 Friction-increasing layer
• 32 wall
• 34 outer edge
• 36 Actuator storage area
• 38 wall
• 40 First area of intervention
• 42 Second area of intervention
• 44 stopper element
• 46 contact surface
• 48 counter surface
• 50 Excellent section
• 52 head start
• 54 undercut
• 56 bolts
• 58 undercut
• 100 Swiveling device, door
• 102 Opposite surface
• 104 Opposite surface
• 106 abutments
• 110 work space
• T profile direction
• R axis of rotation
• S swivel plane
• V Direction of displacement

Claims (14)

1. Device for locking a pivoting device such as a door, window or the like, comprising
   a fixing unit (2) having a fixing portion (6) for fixing the device to an edge of the pivotable device,
   an actuating unit (4), which is mounted pivotably or rotatably in a pivoting plane (S) on a fastening unit bearing area (8) of the fastening unit (2),
   wherein the actuating unit (4) has a stopper element (44),
   wherein the stopper element (44) has a support surface (46) which is convexly curved in or along the pivot plane (S),
   characterised in that
   the fastening area (6) has the shape of a U-shaped rail and is formed from a base (10) and two legs (12, 14) extending transversely away from the latter, wherein the mounting unit bearing portion (8) is provided on the base (10).
2. Device according to claim 1, wherein the fastening unit bearing area (8) is formed by at least one, preferably two, wall(s) (32) spaced apart perpendicularly to the pivot plane (S), which preferably extends or extend substantially parallel to the pivot plane (S).
3. Device according to claim 2, wherein the wall (32) has a first engagement region (40) with which the actuating unit (4) for pivotable mounting is engaged or can be brought into engagement, and wherein the first engagement region (40) preferably extends along an arc of a circle.
4. Device according to one of the preceding claims, wherein the actuating unit (4) has an actuating unit bearing area (36), via which the actuating unit (4) is mounted on the fastening unit bearing area (8).
5. Device according to claim 4, wherein the actuating unit bearing area (36) is formed by a cylinder outer surface extending perpendicular to the pivoting plane (S), preferably a recess or undercut.
6. Device according to claim 4, wherein the actuating unit bearing area (36) is formed by at least one, preferably two, wall(s) (38) spaced apart from one another perpendicularly to the pivot plane (S), which wall(s) preferably extend(s) substantially parallel to the pivot plane (S).
7. Device according to one of the preceding claims, wherein the legs (12, 14) are substantially of the same length.
8. Device according to one of the preceding claims, wherein the fastening unit (2) is designed in such a way that it can be brought to rest on two opposite surfaces of the pivotable device.
9. Device according to one of the preceding claims, wherein the fastening unit (2) has a counter element (16) which is displaceable, preferably translationally displaceable, relative to the fastening region (6), in particular one of the legs (12, 14), in such a way that the pivotable device can be clamped with or between these.
10. Device according to claim 9, wherein the counter element (16) has a threaded bore (22) with which a displacement element (24) is or can be engaged, which can be arranged or is arranged to be supported on the fastening region (6), in particular one of the limbs (12, 14).
11. Device according to one of the preceding claims, wherein the stop element (44) is wedge-shaped and preferably has a counter surface (48) substantially opposite the support surface (46), which is designed to be supported on the fastening unit (2), in particular the fastening area (6) or a section projecting therefrom.
12. Device according to one of the preceding claims, wherein the axis of rotation of the actuating unit (4) and the center of curvature of the bearing surface (46) are spaced apart from each other.
13. Device according to one of the preceding claims, wherein the actuating unit (4) is pivotable between an open position and a locked position, wherein a fixing device for fixing and/or holding and/or forcing the actuating unit (4) in the open position is provided, which acts between the fastening unit (2) and the actuating unit (4), wherein the fixing device is preferably formed from a spring element or a projection which is designed to engage in an undercut (54), and wherein furthermore preferably the projection is provided on one and the undercut (54) on the other of the elements actuating unit (4) and fastening unit (2).
14. Device according to one of the preceding claims,
    wherein the device comprises a fastening unit (2) with a fastening area (6), via which the device can be fastened to an edge of the pivotable device, and an actuating unit (4), which is mounted pivotably or rotatably in a pivot plane (S) on a fastening unit bearing area (8) of the fastening unit (2),
    wherein the fixing unit (2) has a support surface (18) and an opposing counter element (16) which are displaceabfe relative to one another in such a way that the edge or door rabbet of the door or window can be clamped between them, wherein the actuation unit (4) comprises a stopper element (44), the stopper element (44) having a bearing surface (46) adapted to engage an abutment, wherein the actuating unit (4) is pivotable between an open position and a fixed position,
    wherein a larger portion of the stopper element (44) is arranged between the door or window and the abutment in the hold-open position than in the offensive position.

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