EP2142736B1 - Fitting for a window, door or similar - Google Patents

Description

The invention relates to a fitting for a window, a door or the like according to the preamble of claim 1.

Fittings are known in principle. They are usually arranged on the movable sash of a window, a door or the like and serve to connect the sash to a fixed frame. Fittings with a corner drive, with which a drive rod forming a top rail and a Ausstellscherenarm are connected, allow both a rotary opening and a tilt opening of the sash. The Ausstellscherenarm while a support arm device is assigned, which serves to support the Ausstellscherenarm or the Eckumlenkung and lead.

From the EP 1 302 616 A a fitting for a window, a door or the like is known. It has a corner drive, a connected to the corner deflection, an upper rail forming drive rod and a Ausstellscherenarm associated with a Stützarmeinrichtung is. The support arm device has a base part and a support arm, which is mounted pivotably on the base part by means of a connection.

The invention has for its object to provide a fitting that can be manufactured in a simple and cost-effective manner, assembled, disassembled and / or maintained.

The problem underlying the invention is achieved in that the fitting has a corner deflection, one with the corner deflection connected, an upper rail forming drive rod and a Ausstellscherenarm which is associated with a support arm means, wherein the support arm means comprises a base and a support arm, and wherein the support arm is pivotally mounted by means of a releasable pivot lock on the base, and the support arm has an eccentric pin with which he is pivotally mounted on the Ausstellscherenarm, wherein the eccentric pin has a centrally mounted on the support arm code contour plate, which cooperates for rotational security with a Gegencodekontur provided spring tongue, wherein the spring tongue is rotatably mounted on the support arm. It is thus provided that the support arm means comprises a support arm which is pivotally mounted on a base part, wherein the bearing is formed by a releasable rotation lock, so that support arm and base are detachably connected to each other. The twist lock allows locking or locking of the support arm to the base by a rotational movement of the support arm and / or the base, so that support arm and base are protected against accidental release of the connection. Due to the twist-lock, the support arm device can be installed and dismantled particularly easily, so that the assembly and disassembly of the fitting is simplified as a whole. According to the invention, the support arm on a pin with which the support arm is pivotally mounted on the Ausstellscherenarm. The Ausstellscherenarm expediently has a corresponding recess into which engages the pin. Advantageously, the pin is arranged on the end opposite the bearing pin end of the support arm. The pin is an eccentric pin, so that by rotating the pin, the geometric position of the Ausstellscherenarm to the support arm and the tilting movement of the wing can be adjusted. For example, manufacturing tolerances and / or signs of wear of the fitting can be compensated by the eccentric pin. Thus, by a corresponding adjustment of the eccentric pin during assembly of the fitting of the window closure can be adjusted accurately, so that, for example, a seal of the window, the door or the like is guaranteed. In order to enable a simple rotational positioning of the Exzentetstifts and to prevent accidental rotation of the eccentric pin during operation, the eccentric pin has a centrally mounted on the support arm code contour plate, which cooperates for rotation with a Gegencodekontur provided with spring tongue, the spring tongue is rotatably mounted on the support arm. The code contour plate of the eccentric pin is thus rotatable centrally and can be locked by the Gegencodekontur the spring tongue in several rotational positions. As a result, the eccentric pin can be locked in a plurality of rotational positions on the support arm, so that the eccentric pin does not turn by itself during use operation.

According to a development of the invention, the rotational lock is formed by a keyhole-like opening in the base and a lock-shaped bearing pin which is secured against rotation on the support arm. The base thus has a keyhole-like opening, which cooperates with a key-shaped bearing pin of the support arm and thus forms the rotational lock. The keyhole-like breakthrough and the key-shaped bearing pin are advantageously designed such that the bearing pin in only one rotational position in the breakthrough can be introduced or removed from the opening. If the bearing pin is rotated in the inserted state, the twist lock is closed and the bearing pin is not removable from the opening or detachable from the base. By the rotationally secure attachment of the bearing pin on the support arm, a rotational movement of the support arm on the bearing pin in a simple manner transferable. This also has the consequence that the bearing pin is not rotated independently of the support arm, so that the rotation lock can be solved only in dependence on the (rotational) position of the support arm.

Advantageously, the rotation lock can only be made or released in a rotational angle position lying outside the working pivot range of the support arm. When tilting open the sash of Ausstellscherenarm pivots, whereby the support arm is also moved or pivoted. The Arbeitsschwenkbereich of the support arm is thus dependent on the tilt angle of the sash. The keyhole-like breakthrough and the key-shaped bearing pin are in this case designed such that the rotary lock, as already stated, in only one angular position of the bearing pin to the breakthrough is releasable, said rotational angle position is outside the working pivot range of the support arm. A release of the twist lock in the normal use operation of the fitting, ie in the mounted state, is thus excluded.

In an advantageous embodiment of the invention, the base is detachably connected to the corner drive. The base is thus an independently producible by the corner drive element that is detachably connected to the corner drive. The fitting is thus modular, so that the preferably made of plastic corner drive can in principle be used at a different location / corner of the sash and solvable only by the fixed base allows the advantageous fitting with Ausstellscherenarm. Advantageously, the base is designed as a plastic base.

In an advantageous embodiment of the invention, the base part is connected to the corner deflection via a form-locking connection. This means that the base part and / or the corner deflection have means which allow a positive connection. Due to the positive connection no additional screws or other fasteners must be used, whereby the assembly is simplified.

Advantageously, the positive connection direction extends transversely to the longitudinal extension of the drive rod. The base part and the corner deflection are thus moved relative to one another transversely to the longitudinal extent of the drive rod for creating the form-locking connection, so that the form-locking effect acts in particular in the direction of the longitudinal extension of the drive rod.

It is further provided that the positive connection is advantageously a C-groove / T-head connection. The base part thus has a C-groove or a T-head which cooperates with a T-head or a C-groove of the Eckumlenkung, wherein the T-head is inserted or introduced into the C-groove in the form-locking connection direction. The T-head forms a seated in the C-groove rear handle, whereby base and Eckumlenkung are held together, especially in the longitudinal extent of the drive rod.

Preferably, the eccentric pin below the code contour plate has an axial distance from the support arm forming collar for immersion the counter contour on a eccentric adjustment. The eccentric pin thus has a collar below the code contour plate, which defines or predefines an axial distance of the code contour plate to the support arm. Appropriately, the eccentric pin rests with the collar on the support arm. The counter-contour having spring tongue can thus be moved in a simple manner in the area between the code contour plate and the support arm, so that the code contour plate is released and can be rotated. The expediently intrinsically elastic spring tongue can in a simple manner by applying force be immersed in the space between the support arm and code contour plate. Due to its inherent elasticity, after removal of the force application, the spring tongue springs back into its starting position, in which the countercode contour interacts with the code contour plate. To adjust the orientation of the eccentric pin can thus be pressed in a simple manner, the spring tongue and the eccentric pin to be rotated. This facilitates the adjustment of the fitting during assembly and maintenance / repair considerably.

Advantageously, the code contour of the code contour plate is a polygonal contour. The code contour plate and the Gegencodekontur thus have polygonal shapes which are formed tangible, so that the eccentric pin can be locked in several Verdrehpositionen.

It is advantageous if the countercode contour is a dovetail contour that interacts with the code contour plate accordingly. Due to the advantageous embodiment, a simple immersion of the counter-code contour or of the region of the spring tongue having the counter-code contour is ensured.

Furthermore, it is provided that the spring tongue extends substantially congruent to the support arm. As a result, the fitting is advantageously made narrow overall. In addition, a snagging or tilting of the spring tongue with other elements of the fitting and / or the sash and / or the frame is prevented.

Finally, it is provided that on the Ausstellscherenarm a scissor bearing element is formed, which is a storage of Ausstellscherenarms on a frame allows. In particular, the scissor bearing element is designed such that it can interact with a hinge pin arranged on the frame.

figure description

Figur 1

ein Ausführungsbeispiel eines erfindungsgemäßen Beschlags in Kippöffnungsposition,

Figur 2

eine vergrößerte Darstellung einer Stützarmeinrichtung des Beschlags,

Figur 3

eine Untenansicht der Stützarmeinrichtung in der Kippöffnungsposition,

Figur 4

den Beschlag in Schließposition,

Figur 5

die Stützarmeinrichtung in einer Untenansicht in der Schließposition,

Figur 6

ein weiteres Ausführungsbeispiel eines erfindungsgemäßen Beschlags in Kippöffnungsposition und

Figur 7

eine vergrößerte Darstellung der Stützarmeinrichtung des weiteren Ausführungsbeispiels.

In the following, the invention will be explained in more detail with reference to some figures. Show this

FIG. 1

An embodiment of a fitting according to the invention in Kippöffnungsposition,

FIG. 2

an enlarged view of a support arm of the fitting,

FIG. 3

a bottom view of the support arm device in the tilted opening position,

FIG. 4

the fitting in the closed position,

FIG. 5

the support arm device in a bottom view in the closed position,

FIG. 6

a further embodiment of a fitting according to the invention in Kippöffnungsposition and

FIG. 7

an enlarged view of the support arm of the further embodiment.

The FIG. 1 shows a perspective view of an embodiment of a fitting 1, which is for the movable connecting a sash of a window, a door or the like is used with an associated frame. The fitting 1 has a corner 2, which is formed by two legs 3, 4, which enclose a right angle. In each of the legs 3, 4, a linear guide 5, 6 is formed, in each of which a carriage 7, 8 is guided. The slides 7, 8 are connected to each other via a deflection, which is bendable, but sufficiently rigid for the transmission of compressive and / or tensile forces, so that the movement of a carriage 7 or 8 is transmitted directly to the other slide 8 and 7 respectively. A drive rod 9 is coupled by means of a connecting bolt 10 with the carriage 8, so that a longitudinal movement of the carriage 8 along the linear guide 6 on the drive rod 9 (or vice versa) can be transmitted. The drive rod 9 in this case forms an upper rail 11 of the fitting. 1

The fitting 1 further comprises a Ausstellscherenarm 12, which is guided at one end by means of a guide pin 13 in a first guide slot 14 of the drive rod 9 and at its other end by means of a scissor bearing element 15 to the frame movable mountable. The scissors-bearing element 15 has for this purpose a receptacle 16 for a hinge pin fixedly mounted on the frame.

Furthermore, the fitting 1 on a support arm 17, which is associated with the Ausstellscherenarm 12. The support arm 17 has a base 18, which adjoins the leg 4 of the corner 2, and a support arm 19 which is pivotally mounted on the base 18 and the Ausstellscherenarm 12.

The support arm 19 is mounted on the base part 18 by means of a releasable rotary lock 20, which passes through the drive rod 9 in a second slot guide 21. At its opposite end of the rotary latch 20, the support arm 19 is pivotally mounted on Ausstellscherenarm by means of an eccentric pin 22 formed as a pin 23 which engages in an opening 24 of the Ausstellscherenarms 12.

The FIG. 2 shows the support arm 17 in an enlarged perspective exploded view, wherein the drive rod 9 is not shown. The base 18 has a keyhole-shaped opening 25, in which a key-shaped bearing pin 26 which is rotatably mounted on the support arm 19, can be inserted. The bearing pin 26 has at its free end 27 a key bit 28 forming radial projection 29 which is insertable into a corresponding radial recess 30 of the keyhole-like opening 25. The insertable into the opening 25 axial region of the bearing pin 26 is formed substantially circular cylindrical. At its end 27 opposite the end 31 of the bearing pin 26 has a substantially oval-shaped cross section, with two oppositely parallel edges on. The support arm 19 has a correspondingly shaped recess, so that the engaging in the recess of the support arm 19 bearing pin 26 is connected due to the oval shape of its end 31 against rotation with the support arm 19. FIG. 2 shows the twist lock 20 in the unlocked position, so that the bearing pin 26 can be inserted into the opening 25.

The FIG. 3 shows a bottom view of the rotary locking device 20 in the locked state. On the bottom, the base part 18 coaxial with the keyhole-like opening 25 a recess forming a recess 32 into which the key bit 28 can be rotated after insertion through the radial recess 30, so that a rear grip seat between the bearing pin 26 and the base 18 is formed, the release of the twist lock 20th prevented in the axial direction. Since only one radial recess 30 is provided, the bearing pin 26 can be inserted only in a single position in the keyhole-shaped opening 25. Advantageously, this position is outside the working pivoting range of the support arm 19. Die FIG. 3 shows further that the base 18 is connected to the corner 2 and the leg 4 of the corner 2 via a positive connection 33. For this purpose, the base part 18 has at its end adjoining the limb 4 a C-groove 34 into which a T-head 35 of the limb 4 of the corner deflection 2 rests. The T-head 35 is formed integrally with the corner 2. Like in the FIG. 2 shown, C-groove 34 and T-head 35 do not extend over the entire height of the base 18 and the corner 2, so that the T-head 35 from below into the C-groove 34 of the base 18 to a not shown, the C-groove 34 can be inserted upwardly limiting stop surface. The positive connection direction thus extends transversely to the longitudinal extent of the drive rod. 9

The FIG. 2 further shows that the eccentric pin 22 has a centrally mounted on the support arm 19 code contour plate 36. The code contour plate 36 cooperates with a counter-tongue contour 37 having a spring tongue, which is non-rotatably mounted on the support arm 19. For this purpose, the spring tongue 38 has a recess 39 at its end opposite the counter code contour 37, the contour of which corresponds to the cross section of the end 31 of the bearing pin 26. The Spring tongue 38 extends substantially congruent to the support arm 19. The code contour plate 36 has a polygonal contour, which cooperates with the formed as a dovetail contour 40 Gegencodekontur 37, so that the eccentric pin 22 can not be rotated unintentionally. The spring tongue 38 is located at its end having the recess 39 on the support arm 19. The counter-code contour 37 having portion 41 of the spring tongue 38 is spaced from the support arm 19 due to a step in the spring tongue arranged. Below the code contour plate 36, the eccentric pin 22 has a collar 42, which determines an axial distance of the code contour plate 36 to the support arm 19. Seen in cross-section, the collar 42 is narrower than the code contour plate 36. To adjust the eccentric pin 22, the spring tongue 38 is pressed in the region 41 down or against the support arm 19, whereby the Gegencodekontur 37 dips and the code contour plate 36 releases so that these order its centric axis can be twisted. If the intrinsically elastic spring tongue 38 or the region 41 of the spring tongue 38 is relieved, then the counter code plate 37 engages with the code contour plate 36, whereby the eccentric pin 22 is locked in its (eccentric) position. By rotating the eccentric pin 22, for example, manufacturing tolerances and / or signs of wear of the fitting 1 and / or the fitting 1 having window, door or the like can be compensated. Between the support arm 19 and the base 18 a circular disk 43 is further arranged, which passes through the bearing pin 26. The annular disc 43 serves to keep the support arm 19 spaced from the base 18 and the corner 2, so that the support arm 19 is not tilted and friction is minimized. The the Driving rod 9 with the carriage 8 verkuppelnde connecting bolt 10 can be inserted in a plurality of different longitudinal positions in a slot-like opening 44 of the carriage 8, whereby a length adjustment of the drive rod 9 can take place. The Eckumlenkung 2 is formed in two parts, so that the carriage 8 and 7 can be used in a simple manner in the respective linear guide 5 and 6 respectively.

The FIG. 4 shows the fitting 1 in the closed position, wherein the Ausstellscherenarm 12 is substantially congruent on the leg 4 of the corner 2 and the drive rod 9. One in the FIGS. 1 and 2 illustrated latch bolt 45 which is fixedly mounted on the carriage 8, acts in the closed position by the displaced in its longitudinal extension drive rod 9 or by the displaced carriage 8 with a arranged on the Ausstellscherenarm 12 lock plate 46 together, so that, for example, the Eckumlenkung 2 having Window or the sash of the window can not tilt open.

In the closed position of the fitting 1 of the key bit 28 of the bearing pin 26 is offset by 180 ° to the radial recess 30 of the keyhole-like opening 25 of the base 18, as in the FIG. 5 shown in a bottom view of the rotary latch 20. The Arbeitsschwenkbereich of the support arm 19 is by the Kippöffnungsstellung, as shown in the FIG. 3 represented, and by the closed position, as in the FIG. 5 represented, determined. Due to the arrangement or design of the key-shaped bearing pin 26 and the keyhole-like opening 25, the twist lock can be solved or produced only outside the working pivot range of the support arm 19.

When assembling the fitting 1, the positive connection 33 between the base 18 and the corner 2 is first prepared by pushing the base 18 on the T-head of the leg 4, whereby the support arm 17 is accurately positioned. Then Eckumlenkung 2 and base 18 are inserted and screwed into a rebate of the casement, including base 18 and corner 2 have screw receiving openings 47. Then the rod 9 is locked by means of the connecting bolt 10 on the carriage 8 in the desired longitudinal position. Subsequently, the support arm 19 together with annular disc 43 and spring tongue 19 by means of the bearing pin 26 to the base 18 pivotally connected, whereby the rotary latch 20 is formed. In this case, the bearing pin 26 is rotated after insertion into the opening 25, so that the above-described Hinterriffsitz is formed. Finally, the Ausstellscherenarm 12 is secured by means of the scissor bearing element 15 on the frame and connected via the guide pin 13 and the eccentric pin 22 with the support arm 17 and the drive rod 9.

Due to the advantageous embodiment of the fitting 1 a particularly simple assembly, disassembly and maintenance of the fitting 1 is possible.

The FIGS. 6 and 7 show in each case a perspective view of a further embodiment of the fitting 1 according to the invention, wherein the embodiment is substantially the same of the preceding FIGS. 1 to 5 corresponds, so that the same parts are provided with the same reference numerals and insofar reference is made to the description of the preceding figures. In the following, only the differences will be discussed.

The FIG. 6 shows the embodiment of the fitting 1 for large wings in Kippöffnungsposition. In contrast to the previous embodiment, the base 18 is arranged at a distance from the corner 2. Between the corner drive 2 and the base part 18, a drive rod guide element 48 is additionally provided at a distance from the corner drive 2 and the base part 18, which engages in a slot-like recess 49 of the drive rod 9 forming a further slot guide. The driving rod guide member 48 has a receiving opening 50, which corresponds to the receiving openings 47 of the preceding embodiment.

The base portion 18 is seen in the longitudinal extent of the drive rod 9 is formed longer than in the previous embodiment and has a tear-off pin 51 which engages in an opening formed as a bore 52 of the drive rod 9. The tear-off pin serves to position the base during assembly on the drive rod. It is designed so that it can easily tear off at a first actuation of the fitting 1 and thereby allows movement of the drive rod.

The support arm 17 is in the FIG. 7 shown in an enlarged view. The slot guide 21 of the drive rod 9 has a first region 53, through which the bearing pin 26 of the rotary lock 20 engages, and a comparatively narrower second region 54, in which a further drive rod guide element 55 engages. Wherein the drive rod guide member 55 cooperates with the base 18 and also has a receiving opening 47 for securing the base 18 and the driving rod guide member 55 to the sash.

The support arm 17 differs from the previous embodiment in that on the support arm 19 a rotatably mounted around the bearing pin 26 securing plate 56 is arranged, which extends substantially congruent to the support arm 19. The locking plate 56 has at its end opposite the bearing pin 26 an upwardly directed, thus pointing away from the support arm 19, created by bending abutment edge 57 which cooperates with the code contour plate 36 of the eccentric pin 22 so that it can not be rotated. The known from the previous embodiment collar 42 below the code contour plate 36 is not necessary in the present embodiment and also not provided, so that the overall height of the support arm 17 in the present embodiment comparatively smaller fails. Furthermore, the locking plate 56 approximately centrally has a bulge 58, which cooperates with a recess or an opening, for example a hole in the support arm 19, so that the locking plate 56 is held in the securing position, as shown. The bulge 58 engages or engages in the recess or in the opening of the support arm 19. Furthermore, the securing plate 56 has close to the contact edge 57 on both sides in each case one, of the support arm 19 pioneering, so upward actuating edge 59 on. The actuating edges 59 form a point of attack / actuation point for a user to rotate the locking plate 56 about the bearing pin 26. If the locking plate 56 is rotated, the eccentric pin 22 can be rotated or adjusted. In this case, the bulge 58 is moved out of the recess or the opening of the support arm 19. Advantageously, the abutment edge 57 has a Radius on which facilitates rotation of the locking plate 56 or allows. After adjusting the eccentric pin 22, the locking plate 56 can be moved back in a simple manner again in the securing position, the bulge 58 locked in / on the support arm 19.

Another difference is that, as in the FIG. 6 shown, the guide pin 13 of the Ausstellscherenarms 12 is not guided in the guide slot 14, but is operatively connected to a guide carriage 60 which surrounds the drive rod 9. Furthermore, the Ausstellscherenarm 12 on another lock plate 61, which can cooperate with another attached to the drive rod 9 locking pin 62.

In an assembly of the present fitting 1, for example, first the corner drive 2 is attached to the casement. Subsequently, the drive rod 9 is inserted together with the base part 18 and the drive rod guide element 48 in the rebate of the sash, wherein the drive rod 9 is secured to the carriage 8 by means of the connecting bolt 10. Due to the tear-off pin 51, which aligns and holds the base 18 during assembly on the drive rod 9, the base 18 can be mounted accurately positioned without direct connection or without direct contact with the leg 4 of the corner 2 and without the use of a stop gauge. If the corner drive 2 and the drive rod 9 together with the base part 18 and drive rod guide element 48 are introduced into the rebate space of the sash, the base part 18 and the drive rod guide element 48 are fastened to the sash frame by means of screws which are guided through the receiving openings 47. Subsequently For example, as shown in the previous embodiment, the support arm means 17 is mounted by means of the pivot lock 20 and connected to the pop-up scissors arm 12 in the tilt-open position, as shown.

Alternatively, it is also conceivable to pre-assembled the fitting 1 in the rebate of the casement, so that it only has to be screwed to the casement.

In a first actuation of the fitting 1, in which the drive rod 9 is moved, the tear-off pin 51 ruptures, so that the drive rod 9 can then be moved freely. Advantageously, a mounting or positioning aid, such as a tear-off, assigned to the drive rod guide member 48, which allows easy positioning of the drive rod guide member 48 on / in the drive rod 9 during assembly.

Claims (12)

1. A fitting for a window, a door or the like, having a corner deflection (2), a driving rod (9) connected to the corner deflection (2) and forming an upper rail, a scissor-type positioning arm (12), and a supporting arm unit (17), wherein the scissor-type positioning arm (12) is associated with the supporting arm unit (17), wherein the supporting arm unit (17) has a base part (18) and a supporting arm (19), characterised in that the supporting arm (19) is pivotably mounted on the base part (18) by means of a detachable rotary lock (20), and in that the supporting arm (19) has an eccentric pin (22) by which it is pivotably mounted on the scissor-type positioning arm (12), wherein the eccentric pin (22) has a code contour plate (36) centrally mounted on the supporting arm (19), the code contour plate co-operating with a spring tongue (38, 56) provided with a counter code contour (37, 57) for rotary locking, wherein the spring tongue (38, 56) is attached to the supporting arm (19) in a rotationally fixed manner.
2. The fitting according to claim 1, characterised in that the rotary lock (20) is formed by an opening (25) in the base part (18) having the shape of a keyhole and a bearing pin (26) having the shape of a key and being mounted on the supporting arm (19) in a rotationally fixed manner.
3. The fitting according to any one of the preceding claims, characterised in that the rotary lock (20) can only be engaged or detached in a rotational angular position outside of the working pivoting range of the supporting arm (19).
4. The fitting according to any one of the preceding claims, characterised in that the base part (18) is detachably connected to the corner deflection (2).
5. The fitting according to any one of the preceding claims, characterised in that the base part (18) is connected to the corner deflection (2) by means of a form-fitting connection (33).
6. The fitting according to claim 5, characterised in that the direction of the form-fitting connection extends transversely to the longitudinal extension of the driving rod (9).
7. The fitting according to any one of the preceding claims 5 or 6, characterised in that the form-fitting connection (33) is a C-groove (34)/T-head (35) connection.
8. The fitting according to any one of the preceding claims, characterised in that below the code contour plate (36), the eccentric pin (22) has a collar (42) for the insertion of the counter code contour (37) during an eccenter adjustment, the collar defining an axial distance to the supporting arm (19).
9. The fitting according to any one of the preceding claims, characterised in that the code contour (36) is a polygonal contour.
10. The fitting according to any one of the preceding claims, characterised in that the counter code contour (37) is a dovetail contour (40).
11. The fitting according to any one of the preceding claims, characterised in that the spring tongue (38) extends substantially in congruence with the supporting arm (19).
12. The fitting according to any one of the preceding claims, characterised in that a scissor-type bearing element (15) is formed on the scissor-type positioning arm (12).

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