EP2034110B1 - Rosette with a securing device - Google Patents

Description

The invention relates to a rosette device of a door and / or window fitting with a securing device for securing a rotatably received with a Drückerhalsansatz pusher according to the preamble of claim 1. The invention further relates to a fitting with a rosette device according to the preamble of claim. 8

Such safety devices and fittings, especially for doors and windows, are well known.

From the DE 10 2006 047 702 A1 For example, a door fitting is known. The door fitting comprises a base fitting, which in particular comprises a base rosette, and is suitable for mounting on a door leaf. Further, the door fitting comprises a Unterrosette for supporting a door handle which is rotatably engageable with the base fitting, arranged between the base fitting and the Unterrosette return mechanism for pushing the door handle and a cover rosette to protect the base fitting and to provide a decor function. Here, a trained for repeated opening detent spring for latching fixation of the door handle is rotatably received in the base fitting. Next, a recess is formed in the lower rosette for access from the front to the detent spring. In addition, the detent spring with a standard tool, especially with a screwdriver, to open from the front. The structure of this fitting is complex with relatively many items that require a high assembly cost.

Next is from the EP 0 406 566 B1 a rotary handle, in particular a window handle, known. The rotary handle comprises at the bottom a shoulder with a bead having handle neck and a subsequent to the latter above handle main body. Further, the rotary handle comprises a penetrated by screw holes stop plate, which has a central sleeve for guiding the rotatable and axially fixed to it attachable handle neck, which is provided with a square hole for the positive reception of a square actuator. The handle neck approach is resiliently latched by plugging into the socket on or in it both in the circumferential and in the axial direction. Also, this structure is relatively complex with many individual functional units that require a high assembly cost. In addition, such a rotary handle usually has no reset or hold-up mechanism for a handle.

From the DE 295 11 809 U1 a rosette device according to the preamble of claim 1 is known.

From the DE 3604 115 A1 a rosette device with an axial securing is known, wherein the axial securing at least one movable holding element and at least one acting on the holding element, prestressable spring unit which presses the holding element radially to the axial direction in the ready state.

From the older, not previously published European patent application EP07017377.8 a securing device for a round rosette device for securing a rotatably received with a pusher neck approach pusher in an axial direction and in a circumferential direction is known.

It is an object of the present invention to provide a rosette device and a fitting, which allow a simpler structure. In particular, it is an object to accomplish a functional integration of a plurality of functional units, so that a modular-like fitting can be realized, which is mountable on site and allows fittings with low heights.

The above and other objects are achieved by a rosette device according to claim 1 and a fitting according to claim 8. Advantageous developments of the invention are specified in the dependent claims.

The invention includes the technical teaching that in a rosette device of a door and / or window fitting with a securing device for securing a rotatably received with a pusher neck approach pusher for fitting in an axial direction and in a circumferential direction, holding means in the securing device are integrally formed to hold the pusher in a raised position when installed and to reset the pusher after an actuation of the pusher in the hold-high position.

The securing device comprises means for axial and in a circumferential direction non-rotatable securing a pusher neck. The axial direction is the direction in which the pusher is inserted into the rosette device, that is, the direction of the axis about which the pusher is pivotable. The circumferential direction is corresponding to the direction of rotation, in which the pusher is pivoted. The pusher neck is axially and rotationally secured by simply plugging into the securing device, wherein at least a part of the means for securing yield during insertion elastically and then act accordingly with a restoring force against withdrawal of the pusher. The fuse can be positively, force and / or friction or cohesive, preferably at least one fuse is positively in one direction.

The high holding means are designed so that they are always anxious to bring the pusher in its hold-up position, that is in the installed state in its unactuated position, even against the weight of the pusher. According to the invention, the high-holding means for this purpose comprise at least one spring unit, more precisely a spring-storage unit which applies a restoring force in order to position the pusher accordingly. The holding (or resetting) takes place counter to a rotational or actuation direction of the pusher, so that the pusher after its operation in the unactuated or hold-high position, z. B. in a horizontal position, remains or is reset. Upon actuation of the pusher, the high-holding means are clamped accordingly, so that after the actuation of the reset of the pusher takes place. According to the present invention, the high holding means are in the securing device (or vice versa) integrated, that is, the securing device and the high-holding means form a coupled, directly operatively connected unit. In this case, at least one component or a component is designed such that it is a component of both the securing device and the high-holding means.

According to the invention, it is provided that the securing device has at least one axial securing device and at least one circumferential securing device, wherein the retaining means are integrated in the circumferential securing device. That is, the securing device, more precisely the circumferential securing and the high holding means, have at least one common component. Accordingly, the high-holding means and the circumferential securing are coupled to one another via the at least one common component.

According to the invention it is provided that the high-holding means comprise a prestressable spring unit and a holding-up device, wherein in the assembled state, the spring unit biased acts on the holding-up device. The operation of the pusher takes place in a rotational or circumferential direction. Accordingly, the holding means act in or counter to the circumferential direction to reset the pusher. That is, the spring unit is biased in the direction of rotation of the pusher. Accordingly, the spring unit acts in the prestressed state against the direction of rotation to reset the pusher. The spring unit can be any spring unit. Preferably, the spring unit comprises at least one compression spring, more precisely a spiral compression spring. The spiral compression spring acts radially to the circumferential or rotational direction. The force exerted by the spring force is deflected and / or transmitted via the hold-up device in order to produce an effect in the direction of rotation. This transfer or deflection preferably takes place via a slide element with bevelled surfaces. The surfaces are at an angle not equal to 0 °, 90 °, 180 °, 270 ° and / or 360 ° to the effective direction of the spring. Preferably, the surfaces and the effective direction of the spring form an angle of about 30 ° to 60 °, in particular about 45 °. Preferably, the spring unit comprises a plurality of springs, in particular four springs, which act on the slide element, preferably on two slide elements, each having at least one, preferably two inclined surfaces.

Therefore, the invention provides that the holding-up device comprises at least one movable slide element, which moves against the bias of the spring unit when the push-button is actuated. Preferably, two opposite, opposite acting slide elements are provided. The slide elements each have two inclined surfaces in relation to the effective direction of the spring units and are V-shaped to each other. For interaction with the spring units, the slide elements on receiving openings for the spring units, so that they are securable at least in one direction. For a corresponding bias of the spring units, the spring units are axially tensioned by the slider elements and an opposite component, for example, a housing, a tab or the like. The slider elements move toward each other or away from each other upon actuation of the pusher and the return in opposite directions.

The invention provides that the axial securing device has at least one movable retaining element and at least one prestressable spring unit acting on the retaining element, which in the operational state presses the retaining element radially to the axial direction. Upon insertion of a pusher, the holding element is moved radially away from the pusher against the force of the spring unit, so that a slight insertion of the pusher can be realized. When the pusher is pushed in, the restoring force of the spring unit acts on the retaining element, which in turn acts against the pusher and prevents it from being pulled out axially.

The rosette body according to a first non-invention example of the arrangement of the rosette device on an elongated shape with an extension direction which extends 90 ° to the horizontal. The direction of movement of the holding elements and the slide elements and the longitudinal direction of the spring unit are arranged in the extension direction of the rosette body.

According to an embodiment of the invention, the arrangement of the rosette device is designed as a shield body of a fitting and as a long shield or as a short shield with an elongated extension. In this case, it is provided according to the invention that the extension direction of the rosette body designed as a shield body of a fitting is rotated by 90 ° relative to the horizontal, wherein the direction of movement of the holding elements and the slider elements and the longitudinal direction of the spring unit in the horizontal. Consequently, this embodiment according to the invention corresponds to the high-holding means and the securing device of a comparison with the first example rotated by 90 ° arrangement.

The integrated design of safety device and holding means is realized, in particular via a disc. Therefore, it is provided in a preferred embodiment that the circumferential securing comprises a substantially form-fitting and / or backlash the trigger neck approach in an opening in the circumferential direction securing receiving disc, which cooperates with the slider element. The disk is externally formed on its periphery substantially complementary to the slider elements, that is, cooperating with the surfaces of the slider elements. Inside, the disc is circumferentially complementary to formed a pusher neck. The formation of the corresponding contours is not rotationally symmetrical in both cases. Due to the non-rotationally symmetrical formation, in particular in cooperation with the trigger neck, an essentially positive, preferably also play-free connection is realized. When the trigger is turned, the disc follows this (rotary) movement. In this case, the sliding elements in engagement with the disc are pressed against the force of the spring unit to the outside. About the slopes of the slider elements, the rotational force is deflected into a radial force and / or transferred, which biases the spring units. After the end of the operation, that is at a maximum rotation of about 45 ° and releasing the handle causes the tension of the spring units, more specifically the restoring force of the spring units that the slide elements move towards each other in the direction of the disc and the disc on the deflection by the sloping surfaces is moved back to their original position.

In order to realize this interaction, it is provided in one embodiment that the slide element at least partially surrounds the disc, in order to effect the transmission of force from the handle-operable disc to the slide element prestressed via the spring unit and vice versa.

This cooperation is preferably realized in that the disc has circumferentially at least one projection or a projection region, which is surrounded by a corresponding recess of the slider element contacting to effect a power transmission. The recess defines the inclined surfaces of the slider element. The projection (-sbereich) of the disc is formed corresponding to the recess of the slide element. The slider element and the disc are thus engaged with each other.

In one embodiment, it is provided that the holding element at one end opposite to the spring unit has a projection which is designed for an axial securing for engagement in the circumferential groove of the pusher neck approach. In this way, a positive engagement of the pusher is realized. About the snap can be realized in addition to the axial securing and an axial stop, so that the pusher can only be inserted by a predefined amount, namely exactly to the snap. After latching a rotation of the pusher is possible because the projection of the holding element engages in the circumferential or at least partially circumferential groove, which allows a rotational movement, more precisely a pivoting movement. Over the length of the at least partially circumferential groove can also realize a stop for the rotational movement of the pusher. There may be provided a plurality of holding elements and / or a plurality of projections which engage correspondingly in a plurality of partially circumferential grooves or a circumferential groove over the entire circumference.

The invention further relates to a fitting, in particular a door and / or window fitting, comprising a pusher with a recessed groove having a pusher neck approach and a rosette device according to the invention for rotatably receiving the pusher on the Pusher neck approach.

The fitting, in particular the door fitting, is fastened to a (door) wing in order to move it and make it lockable or lockable. For this purpose, the fitting, inter alia, a pusher and means for attaching the pusher to the door, for example, a rosette device, on.

In order to receive and secure the pusher, which is designed, for example, as a rotatable or pivotable lever, in the rosette device, the pusher has a pusher neck (neck) with the circumferentially extending groove or a plurality of grooves. Next, the pusher neck (neck) on flats or surfaces, so that a non-rotationally symmetrical (outer) contour of the handle neck neck is realized. The pusher neck is inserted into a complementary opening of the rosette device, wherein the securing device secures the pusher neck axially and rotationally fixed in the rosette device. For this purpose, an axial lock engages at least partially in the circumferential groove. Due to the complementary contours of the pusher neck and the corresponding opening an essentially positive rotationally fixed connection is realized.

The pusher can be easily plugged into the opening on site and is secured by the rosette device according to the invention. In this case, the securing device causes a circumferentially rotationally fixed and axial securing of the pusher in / on the rosette device. By the integrated holding means the pusher is always kept in an operative position, the hold-up position, or brought into this after actuation.

In order to release the pusher from the rosette device, the rosette device has a corresponding access or breakthrough. The access is designed as an opening, which realizes a passage to at least one of the spring units. The access can be acted upon against the bias of the corresponding spring unit, so as to realize a release of the pusher.

In order not to adversely affect the overall visual impression of the fitting, the access can be covered by means of a covering rosette from the outside.

Due to the integrated design, it is possible to realize a fitting with a low overall height. In one embodiment, the height of the rosette device measured from the door leaf in a vertical (i.e., normal) direction thereto is less than 12 mm. In particular, the overall height is in the range of greater than or equal to 7 mm to less than or equal to 12 mm, more preferably greater than or equal to 8 mm to less than 11 mm, and preferably approximately 9 mm.

By means of the securing device according to the invention with the retaining means integrated in the securing means, this low structural height can be realized. For this purpose, it is preferred that the pusher neck approach at least partially has a non-rotationally symmetric region and the opening of the disc has a complementary, the corresponding portion of the pusher neck approach receiving area to effect a substantially positive circumferential securing the pusher. In this case, the complementary regions are formed so that a possible backlash-free recording of the trigger neck approach is ensured in the opening.

The retaining means integrated in the safety device preferably comprise two slide elements, which are arranged opposite one another are. These interact with the help of spring units such as compression springs with the disc having the opening.

The pusher has a in its rest position horizontally extending pusher body and a vertically extending from the rosette body pusher neck, which is angled at 90 ° to the pusher body is aligned.

It is further provided that two apertures are provided in the shield body through which access to the spring units is made possible with a tool, said apertures are arranged in a horizontal arrangement adjacent to the passage opening for receiving the pusher in the shield body. This arrangement is necessary because the shield body has two passages for passing a respective mounting bushing wherein at least one passage is disposed vertically below the passage opening, and wherein the distance between the passage opening and the passage has a dimension of 15mm to 25mm, preferably 20mm to 23mm, and more preferably 21.5mm.

The rotated arrangement is necessary because in an arrangement of the two passages for carrying out a respective mounting bushing in the direction of movement of the holding elements and the slider elements and the longitudinal direction of the spring unit, a spatial distribution of the passages on the one hand and an arrangement of the securing device with the support means on the other hand would not be possible. As a result, the possibility is provided to maintain the Führungsmaß between the through hole for receiving the pusher and the passages for the mounting bushes of 21.5mm, and on the other hand to integrate in any embodiment of the shield body of a fitting as a long shield or short shield the securing device with the high holding means.

Further measures improving the invention are specified in the dependent claims or will become apparent from the following description of an embodiment of the invention, which is shown schematically in the figures. All features and / or advantages resulting from the claims, the description or the drawings, including design details, spatial arrangements and method steps, can be essential to the invention, both individually and in the most diverse combinations.

Fig. 1:

eine perspektivische Ansicht eines nicht zur Erfindung gehörenden Drückers vor dem Einsetzen in eine Rosetteneinrichtung,

Fig. 2:

vergrößert einen Ausschnitt von Fig. 1,

Fig. 3:

perspektivisch eine Explosionsdarstellung der Rosetteneinrichtung mit der Sicherheitseinrichtung von oben,

Fig. 4:

perspektivisch eine Explosionsdarstellung der Rosetteneinrichtung mit der Sicherheitseinrichtung von unten,

Fig. 5:

perspektivisch den Drücker und die Rosetteneinrichtung aus einer seitlichen Perspektive,

Fig. 6:

perspektivisch einen Beschlag mit einem Werkzeug bei einer Demontage,

Fig. 7a:

perspektivisch eine Rosetteneinrichtung mit einem Drücker, wobei der Rosettenkörper als Schildkörper ausgeführt ist, und wobei der Schildkörper ein Kurzschild eines Türbeschlages ist,

Fig. 7b:

perspektivisch eine Rosetteneinrichtung mit einem Drücker, wobei der Rosettenkörper als Schildkörper in Gestalt eines Langschildes eines Türbeschlages ausgeführt ist,

Fig. 8:

vergrößert die Ansicht der Sicherungseinrichtung zwischen dem Drücker und dem Rosettenkörper, der als Schildkörper ausgebildet ist,

Fig. 9:

perspektivisch den erfindungsgemäßen Schildkörper mit der Anordnung der Axialsicherung,

Fig. 10:

perspektivisch den Schildkörper mit der Anordnung der Umfangssicherung und den Hochhaltemitteln,

Fig. 11;

perspektivisch eine Abdeckrosette in Form einer Schildabdeckung und Mitteln zur dessen Befestigung auf dem Schildkörper und

Fig. 12:

perspektivisch einen Schildkörper mit einem Werkzeug zur Demontage des Drückers.

Show it:

Fig. 1:

a perspective view of a non-invention pusher before insertion into a rosette device,

Fig. 2:

enlarges a section of Fig. 1 .

3:

in perspective an exploded view of the rosette device with the safety device from above,

4:

in perspective an exploded view of the rosette device with the safety device from below,

Fig. 5:

in perspective the pusher and the rosette device from a side perspective,

Fig. 6:

in perspective a fitting with a tool during disassembly,

Fig. 7a:

in perspective a rosette device with a pusher, wherein the rosette body is designed as a shield body, and wherein the shield body is a short plate of a door fitting,

Fig. 7b:

in perspective a rosette device with a pusher, wherein the rosette body is designed as a shield body in the form of a long plate of a door fitting,

Fig. 8:

increases the view of the securing device between the pusher and the rosette body, which is designed as a shield body,

Fig. 9:

in perspective the shield body according to the invention with the arrangement of the axial securing,

Fig. 10:

in perspective the shield body with the arrangement of the circumferential securing and the holding means,

Fig. 11;

in perspective, a cover rosette in the form of a shield cover and means for its attachment to the shield body and

Fig. 12:

in perspective, a shield body with a tool for disassembly of the pusher.

Fig. 1 shows a perspective view of a pusher 1 before insertion into a not belonging to the invention rosette device 2. The pusher 1 is designed as a door handle, more precisely as a tubular door handle and has a pusher body 3 and a pusher neck 4. The pusher body 3 and the pusher neck 4 are arranged at an angle to each other, which in the present case is about 90 °. Along the pusher neck 4 extends approximately centrally a rotary axis or pivot axis, not shown, about which the pusher 1 is rotatable or pivotable for actuation after insertion into the rosette device 2. At the end of the pusher neck 4 arranged opposite the pusher body 3, the pusher neck 4 has a pusher neck lug 5, which is designed to be received in the rosette device 2. The pusher neck 5 is formed substantially cylindrical or annular cylindrical, wherein two surfaces 6 (only one of which is visible) flattened formed thereon, so that a non-rotationally symmetrical (outer) contour of the pusher neck approach 5 is realized. In addition, the pusher neck lug 5 has a circumferential groove 7. With the pusher neck approach 5, the pusher 1 is received in the rosette device 2.

For this purpose, the rosette device 2 has a corresponding securing device 8, which in more detail in Fig. 2 is described.

Fig. 2 shows enlarged a section of Fig. 1 , In this section, the area of the pusher neck approach 5 and the rosette device 2 shown enlarged. The rosette device 2 has the securing device 8 for receiving the pusher neck attachment 5. The securing device 8 comprises an axial securing 9 and a circumferential securing 10.

The axial securing 9 secures the pusher 1 against axial release in the direction of the pivot axis. For this purpose, the axial securing device 9 has a plurality of projections 11 which can be latched into the circumferential groove 7 of the pusher neck attachment 5 and which are described in greater detail below.

The circumferential securing 10 secures the pusher 1 rotationally fixed in the rosette device 2, so that rotation of the pusher 1 relative to the receiving part of the circumferential securing 10 is prevented. For this purpose, the circumferential securing device 10 has a disk 12 described in more detail below with an opening 13. The opening 13 is complementary to the pusher neck 5, more precisely formed the outer contour of the pusher neck approach 5, that is, with a substantially circular opening cross-section which is formed flattened corresponding to the surfaces 6 of the pusher neck approach 5. Thus, the opening 13 also has a non-rotationally symmetrical cross-section, like the corresponding pusher neck lug 5. The presser neck lug 5 can thus be received in a rotationally fixed manner in the opening 13 in a form-fitting and play-free manner.

The detailed structure of the handle-rosette device arrangement is in Fig. 3 described.

Fig. 3 shows in perspective an exploded view of the rosette device 2 with the safety device 8 from above. The rosette device 2 comprises a rosette body 14, which acts as a housing for the rosette device 2. The rosette body 14 is formed substantially parallelepiped-shaped, wherein this approximately centrally a cylindrical passage opening 15 has. At the ends considered in the longitudinal direction, the rosette body 14 has correspondingly formed end regions 16, which are designed to receive further components. The two end portions 16 are formed in the illustrated embodiment mirror-symmetrical to each other. Each end portion 16 has a recess 17 which is substantially circular in shape, the axes of the recesses 17 are arranged parallel to the central axis of the through hole 15 and in the longitudinal direction in alignment therewith. The recesses 17 are each designed to receive a corresponding mounting bushing 18 for attachment to a door leaf, not shown. The mounting sockets 18 can be received so that they shoot approximately flush with a corresponding surface of the rosette body 14.

Next, the end portions 16 each have a slot 19 for a corresponding holding element 20, which is presently designed as a retaining clip. The holding element 20 can be inserted at least partially into the rosette body 14 through the slot 19, so that a projection or a plurality of projections 21 of the holding element 20 project into the passage opening 15. In this case, the holding element 20 is guided in each case in the slot 19.

Furthermore, the rosette body 14 at the end portions 16 in the longitudinal direction extending lateral holes 22 for receiving spring units 23, which are presently designed as helical compression springs, on. The bores 22 extend substantially parallel to the slot 19.

At the central passage opening 15, a guide lug 24 is formed, which can be covered by an attachable cover ring 25.

To the rosette body 14 is in the Fig. 3 from below a rosette base 26 attachable. This has, viewed at its two ends in the longitudinal direction, four angled lugs 27, which lie opposite the end regions 16 during assembly.

Also in the middle, the rosette lower part 26 has a central through-bore 28, which in the assembled state is formed concentrically with the through-opening 15. In this through hole 28, a corresponding guide bush 29 can be used.

The retaining elements 20 with the projections 21 together with a respective spring unit, not shown here form the axial securing 9. The circumferential securing 10 and the high holding means 33 are in Fig. 4 described.

Fig. 4 shows in perspective an exploded view of the rosette device 2 with the safety device 8 from below. For a better overview, not all parts of the Fig. 3 listed again. Fig. 4 shows the rosette base 26 and the rosette body 14. The rosette body 14 has in the direction of rosette base 26 a receptacle 30 for the circumferential securing 10. In addition, 14 receiving chambers 31 are formed for the spring unit 32 in the rosette body, which cooperate with the holding elements 20 of the axial securing 9. The spring units 32 are designed as leaf springs, which can be used in the wing profile-like receiving chambers 31. In Fig. 4 are also the spring units 23, which are formed as a spiral compression spring, inserted into the corresponding holes 22.

In the circumferential securing 10 high holding means 33 are integrated. The circumferential securing 10 and the high holding means 33 comprise the spring units 23, at least one, in the present case two, slide elements 34, and the disk 12 with the passage opening 13 the integrated holding means 33 is inserted into the receptacle 30 and thus sandwiched between the rosette body 14 and the rosette base 26. The receptacle 30 and the arrangement of disc 12 and the two slide elements 34 are matched to each other, in the present case in the assembled state approximately cuboid. The slide elements 34 have on their sides in the longitudinal direction, that is in front of the head, receiving openings 35 for the spring units 23 which project through the holes 22 project into these receiving openings 35. In order to produce a bias of the spring units 23, limit the tabs 27, the spring units 23 in the assembled state, so that the spring units 23 between slide member 34 and tab 27 are biased in the bore 22.

The slide elements 34 are formed in the plan view approximately V-shaped. The disk 12 is approximately square in plan view. In the assembled state, the disc 12 and the slide elements 34 are formed so that the disc 12 projects with one corner in the recess of the V-shaped recess of the slide elements 34. When assembled, this results in the plan view of an approximately rectangular shape of disc 12 and slide elements 34th

By the biased spring units 23, the sliding elements 34 are pressed together, thus keeping the disc 12 in position. The passage opening 13 of the disc 12 is formed corresponding to the handle neck neck 5, that is, the through hole 13 receives the handle neck neck 5 substantially positive fit and backlash. By the biasing force of the spring units 23, which is transmitted to the disc, the pusher 1 is held up by the disc 12 in its unactuated position or returned to its unactuated position.

Upon actuation of the pusher 1, which is secured against rotation in the disc 12, the disc 12 is rotated. Here, the two slide elements 34 are pushed apart against the force of the spring units 23. If the operation is canceled, the restoring force of the spring units 23, the pusher 1 via the power transmission by means of slide elements 34 and disc 12 back into its hold-up position.

Fig. 5 shows in perspective the pusher 1 and the rosette device 2 from a lateral perspective. The securing device 8 with the axial securing device 9 and the circumferential securing means 10 and the integrated holding-up means 33 is modularly assembled into a compact unit. This unit has a low overall height in the axial direction, which is in particular less than 12 mm, preferably less than or equal to 11 mm, more preferably less than or equal to 10 mm, and preferably approximately 9 mm. For protection and for a visually appealing appearance, a covering rosette 36 can be put over the compact structural unit. This surrounds the rest of the rosette device 2 and completes this. The cover rosette 36 has laterally two openings 37, in which locking elements 38 of the rosette device 2 can engage in order to realize a kind of clip closure. As a result, the cover rosette 36 is secured to the rosette device 2.

Fig. 6 shows in perspective a fitting 40 with a tool 41 during disassembly of the assembled fitting. For dismantling the cover rosette 36 is lifted from the rest rosette device 2. As a result, the rosette body 14 is accessible. The rosette body 14 has an opening 39 in the region of the spring units 32 designed as leaf springs, so that access to these spring units 32 can be realized. In this breakthrough 39 and 39 these breakthroughs can be intervened with the corresponding pliers-like tool 41 and the spring units 32 are pushed apart. As a result, the axial securing device 9 can be released and the pusher 1 axially pull out of the rosette device 2. Likewise, the tool 41 can be used for mounting the fitting.

• Im Gegensatz zu Beschlägen gemäß dem Stand der Technik, welche Bauhöhen von etwa 12 mm bis 15 mm aufweisen, ist es durch diese Erfindung möglich, alle Türdrückerformen bestehender Programme zu verwenden, ohne dass diese im Werk montiert werden müssen. Durch die vorliegende Erfindung weist der erfindungsgemäße Beschlag 40 eine festdrehbare Verbindung und eine Hochhaltevorspannung auf. Der erfindungsgemäße Beschlag 40 mit allen Funktionen weist nur noch eine Bauhöhe von Drücker 1 und Schlüsselrosette oder Rosetteneinrichtung 2 von etwa 9 mm auf. Durch eine Rastverbindung kann der Türdrücker 1 auf die Rosetteneinrichtung 2 montiert werden, indem der Türdrücker 1 in die Rosettenführung eingeführt wird und einrastet. Durch ein Federpaket 23 in der Rosettenunterkonstruktion 14,26 bzw. dem Rosettenkörper 14 wird der Drücker 1 in der Mittenstellung (Hochhalteposition) gehalten. Die Profiltürrosette bzw. die Rosetteneinrichtung 2 hat die Aufgabe, den Drücker 1 oder andere Gusstürdrücker fest drehbar zu lagern und diesen in einer waagerechten Position zu halten.

In summary, the following can be stated:

• In contrast to prior art fittings, which have construction heights of about 12 mm to 15 mm, this invention makes it possible to use all the door pusher molds of existing programs without having to factory-mount them. By the present invention, the fitting 40 according to the invention has a firmly rotatable connection and a holding-up bias. The fitting 40 according to the invention with all functions has only one height of pusher 1 and key rosette or rosette device 2 of about 9 mm. By a latching connection, the door handle 1 can be mounted on the rosette device 2 by the door handle 1 is inserted into the rosette guide and engages. By a spring assembly 23 in the rosette substructure 14,26 and the rosette body 14 of the pusher 1 is held in the middle position (high holding position). The profile door rosette or the rosette device 2 has the task, the pusher 1 or other Gusstürdrücker firmly rotatably store and keep this in a horizontal position.

The fixedly rotatable mounting is generated by the engagement of the groove groove or the groove 7 in the door handle guide or the presser neck lug 5 and the securing surfaces of the retaining clip or the retaining element 20.

The horizontal position of the pusher 1 is held by the fact that the surfaces 6 of the pusher guide 5 are pushed onto the driving surfaces of the holding plate 12.

The two retaining clips 20 are inserted into the slots 19 of the rosette base 14 until the locking surfaces 21 from the opening 15 in to emerge from the leadership. The retaining clip 20 is then secured by the leaf spring 32 is inserted into the spring chamber 31.

The guide bush 29 is pressed into the steel lower part 26.

The high-holding slide 34 and the retaining plate 12 are inserted into the rosette base 14. Then, the compression springs 23 are inserted into the holes 35 of the high-holding slide 34. The compression springs 23 are brought under bias and the steel base 26 is fitted so that the surfaces keep the compression springs 23 under bias. The surface of the slider engages under tension to the surface of the disc 12,

The cover ring 25 is pressed onto the guide projection 24 of the rosette body 14 for optical reasons.

The mounting sockets 18 are inserted into the recess and into the bore 17 and caulked. Thus, the rosette substructure 14,26 forms an assembly.

The door handle 1 is inserted into the rosette base 14 and is fixedly connected to the rosette base 14 rotatably. When attaching the rosette cover 36, the clip elements 38 put in the imprints 37 from the rosette cover 36 and prevent loosening of the lid 36. The notch on the rosette lid 36 facilitates disassembly by here you can attach a screwdriver or a corresponding tool.

The simple disassembly of the door handle 1 is performed by the circlip pliers 41 by the retaining clips 20 are moved to the outside.

As the material, any suitable material comprising plastic, sheet metal, steel, cast iron, composite material and the like can be used.

In the FIGS. 7a and 7b in each case a perspective view of a rosette device 2 according to the invention is shown, which is designed as a shield 2. The shield 2 is in the Figure 7a as a short shield and in the FIG. 7b designed as a long shield. The shield 2 of the door fitting is formed by the shield body 14, in which a pusher 1 is received. With these embodiments, the possibility is shown, the rosette device 2 such that it can form the shield 2 of the fitting for a door, a window or the like. The devices according to the invention for axial and circumferential securing and the high holding means are also included in the plate 2, so that an extension of the functional scope of the rosette device 2 is achieved.

FIG. 8 shows in enlarged form the securing device 8, which is introduced within the shield 2 and serves to receive the pusher 1 via the pusher neck approach 5. The safety device 8 comprises, as already in FIG. 2 Both the axial securing device 9 and the circumferential securing device 10 with the projections 11 and the disk 12 are described. The arrangement of the circumferential securing device 10 with the retaining means for returning the pusher 1 to the starting position are according to the invention in relation to the first example according to FIGS FIGS. 1 to 6 arranged rotated by 90 °, wherein the rotated arrangement of the circumferential securing 10 and the high-holding means in the shield body is shown in more detail in the following figures.

FIG. 9 shows in perspective the view of the shield 2, in which the axial securing 9 is introduced. The shield 2 comprises a shield body 14, which has a cylindrical passage opening 15. In two vertically superposed positions of the shield body 14 has two passages 17, which serve to receive the mounting sockets 18. The central axis the passage opening 15 for receiving the pusher and the central axis of the passage 17 for receiving the mounting bushing 18 are aligned parallel to each other and have a distance from each other, which is predetermined with a measure of 21.5 mm. In order to allow the arrangement of the passage 17 for receiving the mounting bush 18 and at the same time to introduce the axial securing 9 in the shield body 14, the axial securing 9 is arranged with the holding elements 20, the projections 21 and the spring unit 23 in the horizontal, so that the arrangement the axial securing 9 is rotated 90 ° to the longitudinal extension of the shield body 14. In order to introduce the components of the axial securing 9 in the shield body 14, holes 22 and a slot 21 are introduced on both sides in the shield body in the same way as in the rosette body.

In the shield body openings 39 are introduced, which are relative to the passage opening 15 of the shield body 14 in horizontally laterally disposed position next to the passage opening 15. The horizontal arrangement of the apertures 39 is required, since the holding elements 20 are also received in this introduced holes 25 in a horizontal position within the shield body 14. Consequently, the inventive design of the shield body 14 allows the arrangement of the axial securing 9 and the possibility to engage through the openings 39 with a tool in the holes 25 in the holding elements 20 to release the pusher from the shield body 14. At the same time, the arrangement of the mounting sockets 18 within the passages 17, wherein the standard dimension between the upper passage 17 and the passage opening 15 of 21.5 mm can be maintained.

Also, the arrangement has a shield base 26, in which a through hole 28 is introduced, which is arranged in the assembled state concentric with the passage opening 15. In these Through hole 28 is a corresponding guide bush 29 can be used, wherein the collar of the guide bushing 29 can find space in the recess 16. In the lower plate part 26, a breakthrough 42 is further introduced, which is aligned with the recess 17 so that the mounting sleeve 18 can extend through both the recess 17 and through the opening 42 therethrough. The shield base 26 is adapted to the elongated extent of the shield body 14, wherein four laterally mounted angled tabs 27 are provided to secure the spring unit 23.

FIG. 10 shows in perspective an exploded view of the shield 2 of the circumferential securing 10 and the holding means 33, the invention also in the shield body 14 are integrated and can be introduced laterally in the direction of the shield base 26. For this purpose, the shield body 14 has a receptacle 30 which points in the direction of the lower part 26 of the sign. In addition, 14 receiving chambers 31 are formed for the spring unit 32 in the shield body, which cooperate with the holding elements of the axial securing. The spring units 32 are designed as leaf springs, which can be used in the wing profile-like receiving chambers 31. Furthermore, the spring units 23, which are designed as spiral compression springs, can be inserted into the corresponding bores 22.

In the circumferential securing 10 high holding means 33 are integrated, which include the spring units 23, and in the present case comprise two slide members 34 with the disc 12 and the passage opening 13 introduced therein. If the circumferential securing device 10 with the integrated high-holding means 23 is inserted into the receptacle 30, this is sandwiched between the shield body 14 and the lower plate part 26. The receptacle 30 and the arrangement of disc 12 and the two slide elements 34 with the introduced into this receiving openings 35 for receiving the spring unit 23 are designed to match each other, and in the present case have an approximately in the assembled state cuboid shape. The direction of movement of the slide elements 34 at a rotation of the disc 12 is horizontal and thus 90 ° offset from the longitudinal extension of the shield body 14. In the assembled state of the shield 2, the arrangement of both the axial and circumferential security is rotated 90 ° compared to the arrangement within the rosette device executed.

FIG. 11 shows in perspective the pusher 1 and the shield 2 from a lateral perspective. The securing device with the axial securing and the circumferential securing and the integrated holding means is modularly assembled into a compact unit. This unit has a low height, for example, 9 mm. For protection and for a visually appealing appearance, a shield cover 36 is arranged over the assembly. The shield cover 36 surrounds the rest of the shield 2 and completes this. The shield cover 36 has lateral openings 37 on each side, which can engage in locking elements 38 of the shield 2, in order to realize a kind of clip closure. As a result, the shield cover 36 is secured to the shield 2.

In FIG. 12 is a perspective view of the shield 2 of the fitting 40 is shown, wherein a tool 41 is provided to release the pusher 1 from the fitting 40. For disassembly, the cover plate 36 is lifted from the rest of the plate 2. As a result, the shield body 14 is accessible. This has jn the region of the formed as a leaf springs spring units respective openings 39, so that access to the spring units by the tool 41 can be realized.

LIST OF REFERENCE NUMBERS

1

handle

2

Rosette set, shield

3

Pusher main body

4

pusher neck

5

Pusher neck

6

area

7

groove

8th

safety device

9

axial safety

10

extensive safety

11

head Start

12

disc

13

Opening (of the disc)

14

Rosette body, shield body

15

Passage opening (of the rosette body)

16

end

17

Recess, passage

18

mounting bushings

19

slot

20

retaining element

21

head Start

22

drilling

23

spring unit

24

leadership approach

25

cover ring

26

Rosette base, shield base

27

flap

28

Through Hole

29

guide bush

30

admission

31

receiving chamber

32

spring unit

33

High retention means

34

slide elements

35

receiving openings

36

Cover rosette, shield cover

37

opening

38

locking element

39

breakthrough

40

fitting

41

Tool

42

breakthrough

Claims (13)

1. A rosette assembly (2) of a door and/or window fitting including a securing device (8) for securing a door knob (1), which is rotatably accommodated with a lever neck extension (5), for a fitting (40) in an axial direction and in a circumferential direction, wherein
   lifter means (33) being configured to be integrated into the securing device (8), in order to keep the door knob (1) in a lifted position while in the installed condition, and in order to return the door knob (1), after having actuated the door knob (1), again into the lifted position, the rosette assembly (2) including a rosette body (14), which is configured as a faceplate body (14) of a fitting and as a long faceplate (14) or as a short faceplate (14) with a longitudinal extension, the securing device (8) including at least one axial securing member (9) and at least one circumferential securing member (10), the lifter means (33) being configured to be integrated into the circumferential securing unit (10), wherein the lifter means (33) comprising a spring unit (23), that can be pretensioned, and a lifter device (34, 12), wherein, in the assembled condition, the spring unit (23) acts in a pre-tensioned manner onto the lifter device (34, 12), wherein the lifter device (34, 12) comprises at least one displaceable slider element (34), which, when the door knob (1) is actuated, moves against the pre-tension of the spring unit (23), characterized in that the axial securing member (9) includes at least one displaceable retaining element (20) and at least one spring unit (32), which can be pre-tensioned and acts upon the retaining element (20), and which, in the operable condition, radially pushes the retaining element (20) in the axial direction, and in that the extension direction of the rosette body (14) embodied as a faceplate body (14) of a fitting extends rotated by 90° with regard to the horizontal, wherein the direction of movement of the retaining elements (20) and of the slider elements (34) as well as the longitudinal direction of the spring unit (23) extends horizontally.
2. The rosette assembly (2) according to claim 1, characterized in that the circumferential securing member (10) comprises a disk (12), which secures the lever neck extension (5) in an aperture (13) in the circumferential direction essentially positively and/or without play and cooperates with the slider element (34).
3. The rosette assembly (2) according to claim 2, characterized in that the slider element (34) surrounds the disk (12) at least partially in order to effect a transfer of forces from the disk (12), which is actuated via the door knob, onto the slider element (34) which is pre-tensioned by the spring unit (23) and vice versa.
4. The rosette assembly (2) according to any of the claims 2 or 3, characterized in that the disk (12) includes a circumferential protrusion area, which is surrounded in a contacting manner by a corresponding recess of the slider element (34) in order to effect the transfer of forces.
5. The rosette assembly (2) according to any of the claims 1 to 4, characterized in that the retaining element (20), at an end opposite the spring unit (32), presents a protrusion (21), which is configured for an axial securing for an engagement in a circumferential groove (7) of the lever neck extension (5).
6. The rosette assembly (2) according to any of the aforementioned claims, characterized in that two break-throughs (39) are provided in the faceplate body (14) through which break-throughs an access with a tool (41) is made possible to the spring units (32), wherein the break-throughs (39) are disposed in horizontal arrangement neighbouring next to a through-opening (15) for the reception of the door knob (1) in the faceplate body (14).
7. The rosette assembly (2) according to claim 6, characterized in that the faceplate body (14) includes at least one passage (17) for passing through an attachment sleeve (18), wherein at least one passage (17) is disposed in the vertical direction below the through-opening (15) and wherein a distance between the through-opening (15) and the passage (17) has a measure of between 15 mm and 25 mm, preferably between 20 mm and 23 mm, and particularly preferred a measure of 21.5 mm.
8. A fitting (40), in particular a door and/or window fitting, comprising: a door knob (1) with a surrounding groove (7), including a lever neck extension (5) and a rosette assembly (2) according to any of the aforementioned claims 1 to 7 for the rotatably reception of the door knob (1) by means of the lever neck extension (5).
9. The fitting (40) according to claim 8, characterized in that, in its resting position, the door knob (1) includes a main door knob part (3), which extends horizontally, and a lever neck (4), which vertically protrudes from the rosette body (14).
10. The fitting (40) according to claim 8, characterized in that the rosette assembly (2) includes an access (39) to at least one of the spring units (32) for counter-acting the pre-tension thereof.
11. The fitting (40) according to claim 10, characterized in that the access (39) can be covered from the outside by means of a covering rosette (36).
12. The fitting (40) according to any of the claims 8 to 11, characterized in that the structural height of the rosette assembly (2) is smaller than 12 mm, in particular in the range of larger than or equal to 7 mm and smaller than 12 mm, furthermore preferred larger than or equal to 8 mm and smaller than 11 mm, and preferably amounts to about 9 mm.
13. The fitting (40) according to claim 2 and any of the claims 8 to 12, characterized in that the lever neck extension (5) includes at least partially a non-rotation-symmetrically area and the aperture (13) of the disk (12) includes an area that is complementary thereto and accommodates the corresponding area of the lever neck extension (5), in order to effect an essentially positive and/or play-free circumferential securing of the door knob (1).

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