Fitting for a tilt and slide window

EP4766907A1Pending Publication Date: 2026-07-01AUG WINKHAUS SE

Patent Information

Authority / Receiving Office
EP · EP
Patent Type
Applications
Current Assignee / Owner
AUG WINKHAUS SE
Filing Date
2024-08-15
Publication Date
2026-07-01

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Abstract

A fitting (3) for a tilt and slide window or tilt and slide door for moving a sash / leaf (2) with respect to a frame (1), comprising, arranged in a slider (8), a slotted guide (16) for a control pin (15), has a locking slide (20) mounted on the slider (8). A ramp (23) of the locking slide (20) is spring-biased towards the control pin (15) and supports the control pin (15) in an offset portion (18) of the slotted guide (16) in the put-down position, thereby reliably holding the sash / leaf (2) in the put-down position and allowing it to be slid with respect to the frame (1).
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Description

[0001] Fittings for a sliding-tilt window

[0002] Description

[0003] The invention relates to a fitting for a slide-tilt window or door for moving a sash relative to a frame, with a frame-side fitting part provided for fastening to the frame, with a sash-side fitting part provided for fastening to the sash, with a stay link connecting the fitting parts, with a holding arm of the stay link mounted on both fitting parts, with a control arm of the stay link mounted on the holding arm, wherein the holding arm and the control arm are pivotally mounted with their end facing away from the holding arm on a longitudinally displaceable slider and with a link arranged in the slider for receiving a control pin in the closed position, the parked position and the tilted position, wherein the link has a longitudinal section and an offset leading away from the longitudinal section.

[0004] A fitting for a tilt-and-slide window is known, for example, from WO 2017 / 140573 A1. In this fitting, the control arm has a control arm guide slot in which a guide pin is guided. The control arm guide slot has a bent portion that holds the guide pin in the closed position. A fixed control element has a movable insertion part with an insertion slot for receiving a control pin attached to the control arm.

[0005] WO 2015 / 003872 A1 discloses a fitting in which a bolt penetrating the guide rail limits the movement of the control pin within the guide rail. An actuating element connected to the stay arm allows the bolt to be relocated when the sash is to be tilted, allowing greater movement of the control pin and thus allowing the sash to swing straight out into the tilt position.

[0006] DE 20 2008 004 933 U1 discloses a fitting in which the control arm has a control groove. A slidably mounted guide pin passes through the control groove.

[0007] The invention is based on the problem of developing a fitting of the type mentioned above in such a way that it is particularly compact and malfunctions are reliably prevented. This problem is solved according to the invention in that the slider has a locking slide that is spring-loaded in the direction of the offset, and the locking slide supports the control pin located in the offset.

[0008] This design allows the locking slide and the guide to be mounted on the same component. This reduces the accumulation of tolerances between different components. This eliminates potential sources of error that could lead to malfunctions. Furthermore, the locking slide is guided directly onto the slider. This makes the fitting particularly compact.

[0009] According to another advantageous development of the invention, the various positions of the fitting can be easily reached if the control pin of the control arm is arranged in the offset in the stowed position and in the longitudinal section in the tilt position. When the sash is moved, the fitting is in the stowed position. Thanks to the invention, the control pin is supported by the locking slide in the offset when the sash is moved, so that the sash is reliably held in its position during movement.

[0010] According to another advantageous development of the invention, the individual positions of the sash can be easily locked if a second scissor stay is supported on the glider, with the second scissor stay having locking means for securing it in the tilted position. This contributes to the ease of use of the fitting because the sash can be locked in the positions on both scissor stays.

[0011] According to another advantageous development of the invention, a rail end stop is particularly simple if the fitting component containing the slider has a fixed stop buffer to support the stop of the slider. The stop buffer supports the slider in the tilted position, so that the sash is reliably held in its position in the tilted position. This contributes to further increasing safety against malfunctions.

[0012] According to another advantageous development of the invention, the ease of use of the fitting is further increased if the locking slide is pre-tensioned by a locking spring and has an inclined ramp for supporting the control pin in the offset.

[0013] According to another advantageous development of the invention, controlling the control pin as a function of the position of the slider is particularly simple if the fitting part having the link has a fixed control unit and if the control unit has a control tip projecting into the movement range of the control pin.

[0014] According to another advantageous development of the invention, the control pin can be moved out of the offset against the holding force of the locking slide if the control tip has a guide bevel and if the guide bevel is inclined from the longitudinal section to the offset. Since the contact of the guide bevel with the control pin can only occur in one end position of the sash during sliding due to the fixed control unit, the control pin can only be pushed out of the offset in one end position of the slider.

[0015] According to another advantageous development of the invention, the support of the control pin by the locking slide is particularly simple if the inclination of the guide slope of the control tip to the longitudinal section of the link is flatter than an inclination of the ramp of the locking slide.

[0016] According to another advantageous development of the invention, the control pin is guided between the tilt position and the closed position in the control unit if the control unit has a control slide with a control tip preloaded by a control spring. This also reduces friction of the control pin between the end positions of the tilt position and the closed position.

[0017] According to another advantageous development of the invention, the movement of the control pin out of the offset is particularly reliable if the preload of the control slide is greater than the preload of the locking slide.

[0018] According to another advantageous development of the invention, the control pin is reliably supported in any position if the slider has a reinforcement part and if the reinforcement part has the contour of the guide. At the same time, the reinforcement part enables height adjustment of the locking slide.

[0019] According to another advantageous development of the invention, the control pin further reduces the risk of malfunctions if it has a wide-diameter support shoulder at the height of a reinforcing bead on the control arm, followed by a small-diameter guide shoulder at least at the height of the guide slot, and then a wide-diameter control shoulder at the height of the control tip. The reinforcing bead and the support shoulder ensure a high degree of stability in the connection between the components. The control shoulder engages behind the guide slot and thus secures the components axially in their position.

[0020] According to another advantageous development of the invention, the fitting is particularly simple in design if the control pin is designed as a bearing axis of the control arm.

[0021] According to another advantageous development of the invention, securing the end of the holding arm mounted on the sash-side fitting part in a vertical position is particularly simple if the sash-side fitting part is connected to a cover panel and if the cover panel has a support web that overlaps the free end of the holding arm.

[0022] The invention permits numerous embodiments. To further clarify its basic principle, one of them is shown in the drawing and is described below. This shows in

[0023] Fig. 1 a double-leaf sliding-tilt window with a fitting,

[0024] Fig. 2 shows schematically the fitting of the sliding-tilt window from Figure 1 in a slightly enlarged view,

[0025] Fig.3 shows an enlarged plan view of a stay of the fitting from Figure 2 in the storage position,

[0026] Fig.4 the extension scissors from Figure 3 in storage position in a view from below,

[0027] Fig.5 is a sectional view of the fitting from Figure 4 along the line V - V,

[0028] Fig.6 the fitting from Figure 4 in a tilted position,

[0029] Fig.7 the fitting from Figure 4 in a closed position,

[0030] Fig.8 shows an enlarged sectional view through a portion of the sliding-tilt window with the fitting from Figure 1 along the line VIII - VIII.

[0031] Figure 1 shows a double-leaf slide-tilt window with a frame 1, a sliding sash 2 and a fitting 3. The fitting 3 is used to move the sash 2 between a closed position, a stored position and a tilted position relative to the frame 1. In Figure 1, the sliding sash 2 is with its plane away from the frame 1 in the stored position and can be moved relative to the frame 1.

[0032] Figure 2 shows an upper left section of the sliding-tilt window from Figure 1. The sliding-tilt window has a drive rod fitting 4 with a locking pin 5 that can be moved on the sash 2 and a strike plate 6 attached to the frame 1 for locking the sash 2 in the closed position. To simplify the drawing, the frame 1 and the sash 2 are shown in dot-dash lines, and only a corner area of ​​the drive rod fitting 4 is shown.

[0033] The fitting 3 has a frame-side fitting part 7 with a glider 8 that is guided longitudinally on the frame 1, and a sash-side fitting part 9. Two projection scissors 10, 11 connect the fitting parts 7, 9. The fitting 3 is in the stored position, in which the sash 2 is stored parallel to the frame 1 in its plane. In this position, the sash 2 can be moved relative to the frame 1, with the glider 8 in the frame-side fitting part 7 sliding along the frame 1. One of the projection scissors 10 is connected to a control unit 12 for controlling the sash 2 in the various positions. The other projection scissor 11 has locking means (not shown in detail) for locking it in the various positions.

[0034] Figure 3 shows an enlarged view of the extension scissor 10 connected to the control unit 12. The extension scissor 10 has a holding arm 13 mounted on the slider 8 and the sash-side fitting part 9. A control arm 14 is mounted at one end on the holding arm 13 and the other end is guided via a control pin 15 in a guide rail 16. The guide rail 16 has a longitudinal section 17 and an offset 18. An extension 19 located at the free end of the longitudinal section 17 serves as an assembly aid for the control pin 15. In the illustrated stored position, the control pin 15 is held in the offset 18 and is supported there by a locking slide 20. The control unit 12 has a cover plate 21 firmly connected to the frame 1. In the illustrated storage position, the movable slider 8 can be moved relative to the fixed control unit 12.

[0035] Figure 4 shows the extension scissors 10 from Figure 2, which is connected to the control unit 12, in a view from below. In Figure 4, the control arm 14 is only shown in dot-dash lines to illustrate the components underneath. The locking slide 20 is slidably mounted on the slider 8 and is preloaded in the direction of the link 16 by a locking spring 22. A ramp 23 of the locking slide 20, which is inclined towards the longitudinal section 17, resiliently supports the control pin 15 in the offset 18. The control unit 12 has a control slide 24 that is guided longitudinally displaceably on the cover plate 21. The control slide 24 is preloaded by a control spring 25 into the illustrated end position, in which a control tip 26 projects into the range of movement of the control pin 15 when the slider 8 is moved. The control tip 26 has a guide bevel 27 which is inclined from the height of the longitudinal section 17 of the link 16 to the bend 18.A comparison of the guide slope 27 of the control tip 26 to the ramp 23 of the locking slide 24 shows that the guide slope 27 has a flatter incline. Furthermore, the preload of the control slide 24 is greater than the preload of the locking slide 20.

[0036] Figure 5 shows a sectional view through the extension scissors 10 with the control unit 12 from Figure 3 along line VV. It can be seen that a stop buffer 28 designed as a rubber buffer is arranged on the control unit 12. The slider 8 has a stop 29 opposite the stop buffer 28. Furthermore, the slider 8 has a plastic reinforcement part 30 on the guide 16. The control pin 15 is supported in a reinforcement bead 31 of the control arm 14 with a wide-diameter support shoulder 32 and has a small-diameter guide shoulder 33 with which it penetrates the reinforcement part 30 and the guide 16. The locking slide 20 also supports the control pin 15 on the small-diameter guide shoulder 33. A control shoulder 34 arranged at the free end of the control pin 15 is located at the height of the control slide 24.

[0037] When, starting from the storage position in Figure 4, the slider 8 with the control pin 15 located in the offset 18 is moved into the control unit 12, the control pin 15 comes into contact with the guide bevel 27. Since, as explained above, the preload of the control slide 24 is greater than the preload of the locking slide 20 and, moreover, the inclination of the guide bevel 27 is flatter than the ramp 23 of the locking slide 20, the control pin 15 is pressed out of the offset 18. This position is shown in Figure 6 and indicates the tilted position.

[0038] In the tilted position shown in Figure 6, the control pin 15 is located in the longitudinal section 17 of the guide 16 and is held in this longitudinal section by the guide bevel 27 of the control slide 24. In the tilted position shown, the slider 8 abuts the stop buffer 28 with its stop 29. To indicate the position of the control slide 24, the cover plate 21 of the control unit 12 is not shown in Figure 6.

[0039] When, starting from the tilt position shown in Figure 6, the sash 2 is pressed with the sash-side fitting part 9 against the frame-side fitting part 7 with the slider 8, the control pin 15 is moved further in the longitudinal section 17 away from the offset 18, as shown in Figure 7. Figure 7 shows the fitting 3 in the closed position, in which the sash 2 can be locked in the frame 1 via the espagnolette fitting 4 shown in Figure 1. The control pin 15 is held by the control slide 24 with its large-diameter control shoulder 34. To indicate the position of the control slide 24, the cover plate 21 of the control unit 12 is not shown in Figure 7.

[0040] Figure 8 shows a sectional view through the upper portion of the tilt-and-slide window from Figure 1 along line VIII-VIII. The sash-side fitting 9 has a bearing pin 35 for a free end of the retaining arm 13 and a bearing block 36 connected to the sash 2. Furthermore, it can be seen that the slider 8 is guided in the frame-side fitting 7 perpendicular to the plane of the drawing. The sash-side fitting 9 and a portion of the frame-side fitting 7 are arranged below a cover panel 37.

[0041] The cover panel 37 is elongated and extends perpendicular to the plane of the drawing. Two locking hooks 38, 39 of the cover panel 37 are locked to the sash-side fitting part 9. The cover panel 37 also has an apron 40 extending from the upper locking hook 39. A support web 41 projects from a central region of the apron 40 over the free end of the retaining arm 13. The support web 41 extends up to the bearing pin 35 and secures the retaining arm 13 against displacement in the axial direction of the bearing pin 35. As a result, the free end of the retaining arm 13 is held between the support web 41 and the bearing block 36 and thus secured in the axial direction of a bearing 42 formed by the bearing pin 35 and the retaining arm 13. For clarity, the axis of the bearing pin 35 is shown in dash-dotted lines. The cover panel 37 is made of one piece plastic using the injection molding process.

Claims

Patent claims 1. Fitting (3) for a sliding-tilt window or door for moving a sash (2) relative to a frame (1), with a frame-side fitting part (7) provided for fastening to the frame (1), with a sash-side fitting part (9) provided for fastening to the sash (2), with a stay (10, 11) connecting the fitting parts (7, 9), with a holding arm (13) of the stay (10) mounted on both fitting parts (7, 9), with a control arm (14) of the stay (10) mounted on the holding arm (13), wherein the holding arm (13) and the control arm (14) are pivotally mounted with their end facing away from the holding arm (13) on a longitudinally displaceable slider (8) and with a link (16) arranged in the slider (8) for receiving a control pin (15) in the closed position, Parking position and tilting position, wherein the link (16) has a longitudinal section (17) and a bend (18) leading away from the longitudinal section (17), characterized in thatthat the slider (8) has a locking slide (20) which is resiliently pre-tensioned in the direction of the bend (18) and the locking slide (20) supports the control pin (15) located in the bend (18).

2. Fitting according to claim 1, characterized in that the control pin (15) of the control arm (14) is arranged in the offset (18) in the storage position and in the longitudinal section (17) in the tilting position.

3. Fitting according to claim 1 or 2, characterized in that a second extension scissor (11) is supported on the slider (8), wherein the second extension scissor (8) has locking means for holding it in the tilted position.

4. Fitting according to at least one of claims 1 to 3, characterized in that the fitting part (7) having the slider (8) has a fixed stop buffer (28) for supporting a stop (29) of the slider (8).

5. Fitting according to at least one of claims 1 to 4, characterized in that the locking slide (20) is pre-tensioned by a locking spring (22) and has an inclined ramp (23) for supporting the control pin (15) in the offset (18).

6. Fitting according to at least one of claims 1 to 5, characterized in that the fitting part (7) having the link (16) has a fixed control unit (12) and that the Control unit (12) has a control tip (26) projecting into the movement range of the control pin (15).

7. Fitting according to claim 6, characterized in that the control tip (26) has a guide bevel (27) and that the guide bevel (27) is inclined from the longitudinal section (17) to the bend (18).

8. Fitting according to claim 5 and 7, characterized in that the inclination of the guide slope (27) of the control tip (26) to the longitudinal section (17) of the link (16) is flatter than an inclination of the ramp (23) of the locking slide (20).

9. Fitting according to at least one of claims 6 to 8, characterized in that the control unit (12) has a control slide (24) with the control tip (26) prestressed by a control spring (25).

10. Fitting according to claim 9, characterized in that the preload of the control slide (24) is greater than the preload of the locking slide (20). 11 . Fitting according to at least one of claims 1 to 10, characterized in that the slider (8) has a reinforcing part (30) and that the reinforcing part (30) has the contour of the link (16).

12. Fitting according to at least one of claims 1 to 11, characterized in that the control pin (15) has a diameter-wide support shoulder (32) at the height of a reinforcing bead (31) of the control arm (14), adjoining thereto a small-diameter guide shoulder (33) at least at the height of the link (16) and adjoining thereto a diameter-wide control shoulder (34) at the height of the control tip (26).

13. Fitting according to at least one of claims 1 to 12, characterized in that the control pin (15) is designed as a bearing axis of the control arm (14).

14. Fitting according to at least one of claims 1 to 12, characterized in that the wing-side fitting part (9) is connected to a cover panel (37) and that the cover panel (37) has a support web (41) which overlaps the free end of the holding arm (13).