Pre-assembled fitting group and fitting assembly for a window or a door

Abstract

A pre-assembled fitting group for a window or door has a drive rod portion, which is movable in the rebate circumferential direction, a first control element, and a second control element which is arranged on a cross slide. The first and the second control elements cooperate and are coordinated with one another in such a way that a displacement of the first control element by the drive rod portion causes a displacement of the cross slide. A guide part that can be fixedly mounted on the sash, wherein the cross slide is at least partially movable relative to the guide part.

Claims

1. A pre-assembled fitting group for a window or door, the fitting group comprising: (a) a drive rod portion which is movable in a rebate circumferential direction; (b) a first control element which is arranged on the drive rod portion; (c) a second control element which is arranged on a cross slide; (d) wherein the first control element and the second control element cooperate and are coordinated with one another in such a way that a displacement of the first control element by the drive rod portion causes a displacement of the cross slide; (e) a guide part that is configured to be fixedly mounted on a sash, wherein the cross slide is at least partially movable relative to the guide part, and wherein at least one guide element having a width corresponding to a width of a fitting groove of the window or door is provided for aligning the fitting group with the fitting groove of the window or door.

2. The fitting group according to claim 1, wherein the guide part is connected to or formed on the guide element.

3. The fitting group according to claim 2, wherein the guide part is riveted or screwed to the guide element.

4. The fitting group according to claim 1, wherein one of the control elements is designed as a control contour that extends at least in portions transversely to the rebate circumferential direction and wherein the other control element is designed as a control projection that cooperates with the control contour.

5. The fitting group according to claim 4, wherein the control projection is arranged or formed on the drive rod portion and the control contour is arranged or formed on the cross slide.

6. The fitting group according to claim 1, wherein the cross slide is guided on the guide part, and wherein the cross slide is guided transversely to a main plane of the sash.

7. The fitting group according to claim 1, wherein the cross slide is guided on the guide part exclusively with its outer ends of the cross slide seen in the rebate circumferential direction.

8. The fitting group according to claim 1, wherein the fitting group has a roller assembly arranged or formed on the cross slide, or a support assembly for supporting on a fixed frame.

9. The fitting group according to claim 1, wherein a thermal separating element is arranged on the guide part.

10. The fitting group according to claim 1, wherein the guide part is configured to be used as a drilling template.

11. A fitting assembly with at least one fitting group according to claim 1 and an actuating mechanism, wherein the drive rod portion is part of the actuating mechanism.

12. A window or door with a fixed frame, a sash and the fitting assembly according to claim 11.

13. The window or door according to claim 12, wherein the sash is designed in the form of a sliding sash which is configured to be displaced relative to the fixed frame and moved parallel to the fixed frame.

14. A pre-assembled fitting group for a window or door, the fitting group comprising: (a) a drive rod portion which is movable in a rebate circumferential direction; (b) a first control element which is arranged on the drive rod portion; (c) a second control element which is arranged on a cross slide; (d) wherein the first control element and the second control element cooperate and are coordinated with one another in such a way that a displacement of the first control element by the drive rod portion causes a displacement of the cross slide; and (e) a guide part that is configured to be fixedly mounted on a sash and which is connected to or formed on a face plate which is configured to be fixedly mounted on the sash, wherein the cross slide is at least partially movable relative to the guide part, and wherein the face plate is provided for aligning the fitting group with a fitting groove of the window or door.

15. The fitting group according to claim 14, wherein only a single central fixation is provided, between the drive rod portion and the face plate, or between the cross slide and guide part.

16. The fitting group according to claim 14, wherein the guide part is riveted or screwed to the face plate.

17. A fitting assembly with at least one fitting group according to claim 14 and an actuating mechanism, wherein the drive rod portion is part of the actuating mechanism.

18. A window or door with a fixed frame, a sash and the fitting assembly according to claim 14.

19. The window or door according to claim 18, wherein the sash is designed in the form of a sliding sash which is configured to be displaced.

Description

BRIEF DESCRIPTION OF THE DRAWING FIGURES

(1) FIG. 1 is a representation of a fitting assembly;

(2) FIG. 2 is a partially exploded view according to II of FIG. 1;

(3) FIG. 3 is a side view of the illustration according to FIG. 2 in the assembled state;

(4) FIG. 4 is a perspective view of the assembly according to FIG. 3;

(5) FIG. 5 is an exploded view of a fitting group with a faceplate;

(6) FIG. 6 is a side view of the illustration according to FIG. 5 in the assembled state.

(7) FIG. 7 is a perspective view according to FIG. 6;

(8) FIG. 8 is a view from the closure side of a sash with a closure assembly, wherein the sash is spaced apart from a fixed frame;

(9) FIG. 9 is a representation corresponding to FIG. 8, wherein the sash is displaced in relation to the representation in FIG. 8 transversely to the main plane of the fixed frame.

DETAILED DESCRIPTION OF THE INVENTION

(10) FIG. 1 shows a fitting assembly 10 depicted as a displacement assembly with an actuating mechanism 12 designed as a circumferential drive rod fitting which can be operated via an actuating handle 14. The actuation mechanism 12 is attached to a/one window or door shown in FIGS. 8 and 9, and extends along the rebate circumferential direction 16. The rebate circumferential direction 16 extends in the main plane 18 (only indicated in FIG. 1) of the window or door. In the embodiment shown, the displacement assembly 10 has two points a, b with a roller assembly 20a, 20b and two points c, d with a support assembly 22a, 22b, wherein the roller assemblies 20a, 20b and the support assemblies 22a, 22b each are displaceable transversely to the rebate circumferential direction 16.

(11) A locking assembly can also be seen on the right vertical spar, the locking element of which can also be displaced transversely to the rebate circumferential direction.

(12) FIG. 2 shows a representation of a fitting group 25 of the detail II according to FIG. 1. The support assembly 22a or fitting group 25 has a support roller 32 which is arranged to be rotatable about a vertical axis of rotation. The fitting group 25 has a cross slide 28 with a control element designed as a control link (not visible) into which a control element 24a designed as a control projection engages. Furthermore, the fitting group 25 has a guide part 34. The guide part 34 is connected via rivets 50, 52 to guide elements 56, 58, which are matched to a fitting groove and serve to align the fitting group 25. The rivets 50, 52 reach through elongated holes of the drive rod portion 12a and thus connect the components mentioned. The guide part 34 is immovably mounted on the sash 40 (see FIG. 8, 9). To reduce the friction when operating the drive rod portion 12a of the actuating mechanism 12, the control element 24a is mounted in the rebate circumferential direction 16 on a guide slot in the guide part 34. The control element 24a passes through the guide part 34 and engages in the cross slide 28, in particular a control contour 55 formed on its underside, shown here in broken lines.

(13) Thermal separation elements 60, 62 can be arranged, in particular clipped on, on the underside of guide part 34. These thermal separation elements 60, 62 are arranged on the left and right of the drive rod section 12a between the guide part 34 and the sash profile. They prevent heat transfer through the guide part 34 from the outside to the inside of the sash profile (or vice versa).

(14) FIGS. 3 and 4 show the assembly according to FIG. 2 in a side view and in a perspective view from above. The same reference numbers are used as in FIG. 2. It can be seen from FIG. 1 that the fitting assembly 10 has different fitting groups 25, as shown by way of example by the support assembly 22a. These fitting groups can be mounted at different points on the sash 40 and connected to one another by connecting rod portions and, if necessary, by faceplate portions. The fitting parts of the fitting groups are connected to one another so that the fitting group can be mounted in its entirety on the sash 40. In FIG. 4, in particular, it can be seen that the cross slide 28 is guided on the guide part 34 only at its two opposite ends 28a, 28b. It can also be seen that the guide part 34 has fastening openings 34a to 34d with which the guide part 34 can be fastened to the sash 40. The fastening openings 34a-34d can be used as a drilling template.

(15) FIG. 5 shows an illustration of a fitting group 25a similar to the fitting group 25 shown in FIG. 2. The fitting group 25a has a support roller 32 which is arranged to be rotatable about a vertical axis of rotation. The fitting group 25a has a cross slide 28 with a control element designed as a control link (not visible) into which a control element 24a designed as a control projection engages. Furthermore, the fitting group 25a has a guide part 34. The guide part 34 is fastened by means of rivets 50, 52 to a fitting part 54 which can be fixedly mounted or is fixedly mounted on the sash 40. The fitting part 54 is designed as a faceplate. The guide part 34 is immovably mounted on the sash 40 (see FIG. 5, 8, 9). In order to reduce the friction when operating the drive rod portion 12a, the control element 24a is mounted in the rebate circumferential direction 16 on a first guide slot (not shown) in the guide part 34. The control element 24a passes through the guide part 34 and engages in the cross slide 28, in particular a control contour formed on its underside.

(16) FIGS. 6 and 7 show the assembly according to FIG. 5 in a side view and in a perspective view from above. The same reference numbers are used as in FIG. 5. In particular, it can be seen from FIG. 7 that the cross slide 28 is guided on the guide part 34 only at its two opposite ends 28a, 28b. It can also be seen that the guide part 34 has fastening openings 34a to 34d with which the guide part 34 can be fastened to the sash. The fastening openings 34a-34d can be used as a drilling template.

(17) FIG. 8 shows a view from the locking side of a window or a door 36 having a fixed frame 38 and a sash 40. The actuation mechanism 12 is mounted on the sash 40. This is supported on a running rail 42 via the roller assembly 20a. There is a gap 44 between the sash 40 and the fixed frame 38. The sash 40 therefore does not rest against a circumferential seal 46 of the fixed frame 38.

(18) The support roller 32 rests on a guide 48 of the fixed frame 38, which guide is designed as a vertical web. In the position shown, the sash 40 can be displaced with respect to the fixed frame 38, wherein the support roller 32 is supported on the guide 48 or is able to roll on it.

(19) In the upper region of the window or door 36, the fixed frame 38 also has a guide 48, which here is designed like a groove. The support roller 32 is guided in the guide 48.

(20) FIG. 9 shows the window or door 36 after the actuation mechanism 12 has been operated. By actuating the actuating mechanism 12, the roller assemblies (in FIG. 9 the roller assembly 20a can be seen) and the support assemblies (in FIG. 9 the support assembly 22a can be seen) are displaced. This means that the sash 40 approaches the fixed frame 38 so that the seal 46 is pinched and compressed between the sash 40 and the fixed frame 38.