EP0692597A1 - Roof window with a locking device - Google Patents

Abstract

The skylight comprises a spring arm (2) which acts in conjunction with the lining box (3) and to the window casement (4) by pivot bearings (5,6). One of the pivot bearings rests on a slide-piece (8) which is movable along a guide (7) and is exposed to spring force. The slide-piece can be locked by a fastening (1) operated by a handle (9,9'). The guide is positioned with the slide-piece in at least one of the side-pieces (11) of the lining box. The fastening is in the form of a cam (12). The guides with slide pieces are positioned in two arms (31) supporting the window casement when opened. <IMAGE>

Description

The invention relates to a roof window with a locking device for locking in open positions, an opening aid in the form of at least one spring arm running at least in the closed state of the roof window at an acute angle to the feed box, which supports the window sash on the feed box in the opened state.

Skylights must be kept in their open position so that they do not return to the closed position due to their weight or under the influence of wind or open further. So far, hookable or clampable rods and deliberately built-in stiffness have been proposed as solutions to this problem. However, these solutions developed for roof hatches are not satisfactory for use in roof windows.

DE-OS 2 422 328 therefore proposes the arrangement of two support levers which hold the opened window in its open position by spring force. These support levers with springs are arranged on the window sash and run with rollers in guide rails on the window frame, with latching thresholds intended to hold the window in a desired position. In this window, however, the bracket is not secure, especially in strong winds. The stopping positions are limited to the notches and the notches lead to jerky movements when opening and closing the window.

The invention has for its object to make available a locking device for a roof window of the type mentioned, which guarantees a secure mounting of the window sash in any open position.

The object is achieved in that the spring arm is operatively connected to both the feed box and the window casement via pivot bearings, one of the pivot bearings being located on a spring-loaded slider which can be displaced in a guide and which can be locked by means of a locking device which can be actuated by a handle .

An advantage of the solution according to the invention lies in the high ease of use. The window can be opened and closed easily without being affected by stiffness or jerky movements. On the other hand, the window can be securely locked in any position using the handle. The mechanics are protected from the weather and insensitive to dirt. Only a few parts are visible, so that the appearance of the window is not impaired.

The locking device can only be arranged on one side of the roof window, for. B. with very small roof windows, or it is arranged on both sides, whereby a higher stability is achieved.

Various embodiments are conceivable for the arrangement of the slider; it is possible to provide guides with sliders in one or in both side rails of the feed box. However, the guides with sliders can also be arranged in one or in both side rails of the window sash or they can be accommodated in arms which in turn support the window sash. Of course, it is also possible that the window sash is carried by arms and the spring arms are articulated thereon, the sliders being located in guides of the side rails of the feed box.

The clamping forces of the locking mechanism are expediently limited in such a way that they come loose before the forces acting on the window sash can lead to destruction.

A simple embodiment of the locking device is designed as an eccentric, by means of which the slide can be locked in the guide by means of a handle.

Another embodiment of the locking device has a wedge with which the slider can be clamped in the guide. It is useful to insert an intermediate layer between the slider and the wedge, which can be designed such that it extends beyond the region of the guide on both sides in its longitudinal extent, is fastened to one end of the guide and is undercut by the wedge at the other end. Due to the longitudinal displacement of the wedge, the intermediate layer fixes the glider with the specified braking force. This embodiment ensures that the wedge can fix the slider in a variety of possible positions within the guide. For the window, this means that it can be locked in all opening positions. In addition, in this embodiment, it is relatively easy to specify the locking force.

A further expedient embodiment consists in that the wedge is displaceable on an inclined plane, the wedge having a length which corresponds at least to the length of the guide, and the inclination of the inclined plane, like the opposite incline of the wedge, has the same pitch angle, so that the wedge surface serving as the clamping surface can be adjusted in parallel by longitudinal displacement of the wedge with respect to the height. The interaction of the wedge and the inclined plane means that the clamping surface can be adjusted absolutely parallel on one Any length can be achieved, while at the same time the clamping force, regardless of the position of the slider, is exactly adjustable.

In all embodiments, the clamping forces can be increased in that the guide carries a plastic layer on at least one side.

Another possibility of the design of the locking device is that the slider carries a rack into which a holding element with at least one tooth can be brought into and out of engagement. The holding element can be arranged on a push rod. If the guide is in a tube, this has, if the push rod extends outside, a recess through which the holding element can enter and exit when the push rod is actuated in order to engage the rack. If the push rod is a resilient push rod, it is possible to press it in the direction of the engagement position by means of a holder. In this embodiment, a slope is arranged on the holding element for the exit of the holding element from the recess, which slope advantageously interacts with a chamfering of the recess. In this embodiment, the slider can be locked over the entire length of the toothed rack, whereby a locking possibility is achieved in a large adjustment range of the window. The clamping forces can be limited in that the tooth flanks have a relatively flat angle.

A particularly high level of operating convenience is achieved in that both the at least one locking device can be actuated from a handle and the closing and opening of the window sash can be carried out. A favorable arrangement is that the handle is located on the lower cross member of the window sash. The power is then transmitted via corner drives and push rods that operate the strikers and are operatively connected to the at least one locking device. In order to make the window easy to operate, it is expedient if the locking device locks the window sash in that the handle is moved from its folded position into its closed position position when the window sash is open.

The following further developments are advantageous for a roof window which, in addition to the folding movement, can also carry out swinging movements in which the window can be pivoted around the suspension on two flared arms. For this purpose, two spring arms are mounted on arms pivotably suspended from the upper end of the feed box, the window sash being rotatably held by the arms and optionally connectable to them. The arms can be locked by the locking device via the spring arms. The window sash can be guided in the grooves of the feed box at the same time by means of two axle journals in order to achieve secure guidance and retention of the window sash.

One embodiment provides for the roof window to be designed in such a way that the lock cannot be brought into engagement in this oscillating position, but only in the folding position. Such a further development results from the fact that in the folding opening positions of the window sash this is much more sensitive to forces acting on it than in the swinging position in which the axle pins in the grooves give the window sash additional stability and a locking device is no longer required in every case . In such a skylight, which is rotatably suspended from arms and can be moved to a hinged opening position or a swinging position, the operative connection must be made between the handle and the locking devices or the locking device. To actuate a locking device arranged on or in an arm, a coupling between the handle and locking device is proposed, which is disengaged in the oscillating position. The coupling is designed as a transmission element which has a U-shaped notch into which a pin connected to the push rod engages when the window sash is connected to the arms. If the window sash is brought into the swinging position, the pin moves out of the U-shaped notch of the transmission element and the operative connection is disengaged.

In the case of a window sash which is guided in the oscillating position by means of two axle journals in the grooves of the feed box, the abovementioned tenons can be identical to the axle journals. The arrangement of the axle journals and the grooves then takes place in such a way that the axle journals are in the folded position on a circular arc which runs above an upper opening of the grooves. By adjusting the axle pins, they enter the grooves in the oscillating position. When the window is opened in this position, the active connection is disengaged as described above. When the window sash is closed and in the folded position, it is connected to the arms and the operative connection between the handle and the locking device is established.

In order to guarantee in this embodiment that when the window sash moves from the swinging position into the folding position, the axles always engage in the U-shaped notches of the transmission element, the following development is proposed: A lock acts on the handle, through which the handle acts blocked a window sash opened in the swing position is. When the window sash is closed, this blockage is removed and the handle can only be moved from its swinging position into the folding position or the closed position in the closed position of the window sash.

Fig. 1

das Prinzip der Erfindung am Beispiel eines ersten, einfachen Ausführungsbeispiels einer Feststellvorrichtung,

Fig. 2 und 2a

eine Teilansicht eines Dachfensters mit einer zweiten Feststellvorrichtung,

Fig. 2b

einen Ausschnitt aus einer entsprechenden Teilansicht einer dritten Feststellvorrichtung,

Fig. 3

eine vierte Feststellvorrichtung,

Fig. 4

ein möglicher Wirkungszusammenhang einer Feststellvorrichtung mit weiteren Funktionselementen des Fensters,

Fig. 5 und 6

ein weiterer möglicher Wirkungszusammenhang,

Fig. 7, 9, 10, 12, 13 und 15

eine Sperre in verschiedenen Funktionsstellungen des Handgriffs zur Verhinderung von Fehlbedienungen und

Fig. 8, 11, 14 und 16

Prinzipskizzen eines Dachfensters mit Funktionselementen, deren Stellungen den Funktionsstellungen des Handgriffs der obengenannten Figuren zugeordnet sind.

The invention is explained below with reference to exemplary embodiments shown in the drawing. Show it

Fig. 1

the principle of the invention using the example of a first, simple embodiment of a locking device,

2 and 2a

2 shows a partial view of a roof window with a second locking device,

Fig. 2b

a section of a corresponding partial view of a third locking device,

Fig. 3

a fourth locking device,

Fig. 4

a possible interdependency of a locking device with further functional elements of the window,

5 and 6

another possible causal link,

7, 9, 10, 12, 13 and 15

a lock in various functional positions of the handle to prevent incorrect operation and

8, 11, 14 and 16

Principle sketches of a roof window with functional elements, the positions of which are assigned to the functional positions of the handle of the above-mentioned figures.

Fig. 1 shows a skylight in side view, partially in section. The principle of the invention is explained on the basis of this first, simple exemplary embodiment of a locking device.

The roof window consists of a feed box 3, which is installed in a roof surface, not shown, and at the upper end of which a window sash 4 is pivotally articulated. This articulation can take place directly or via arms 31, which have a bearing 32 of the window sash 4 at their front end. In the latter case, in addition to the folding movement, the window sash 4 can pivot about the bearing 32, this is the swinging position of the roof window. If such arms 31 are provided, the window sash 4 is firmly connected to the arms 31 in the folded position shown. An opening aid in the form of one or two spring arms 2 acts on the window sash 4 with a force in the opening direction. For this purpose, a spring arm 2 has pivot bearings 5 and 6 at its ends, the pivot bearing 5 being located on the window sash 4 or on an arm 31 and the other pivot bearing 6 lying on a slider 8. The spring arm 2 can perform a pivoting movement in both pivot bearings 5 and 6. The slider 8 is displaceable in a guide 7 and is acted upon by a spring 10 with a force which is imparted to the window sash 4 as an opening force. The guide 7 with the slider 8 and the spring 10 are accommodated in the side member 11 of the feed box 3. Appropriately, such spring arms 2 with the are on both sides of the window sash 4 mentioned elements available. At least one of the sliders 8 can be locked in its guide 7 by means of a locking device 1 by actuating a handle 9. In the embodiment of FIG. 1, the locking device 1 is designed as an eccentric 12, which is mounted in the side member 11 of the feed box 3 and which clamps the slider 8 in the guide 7 when the handle 9 'is moved in the direction of the arrow.

Compared to the embodiment shown in Fig. 1, the spring arm 2 can of course also be arranged so that the slider 8 with the spring 10 is housed in the window sash 4 and a simple pivot bearing of the spring arm 2 is arranged on the feed box 3. It is essential that the spring arm 2 extends at an acute angle to the feed box 3, at least in the closed state of the window, so that by moving the slider 8 - while changing this angular position - the window sash 4 can be subjected to a force in the opening direction. Only when the window sash 4 is fully open can the angle of the spring arm 2 to the feed box 3 also be in the region of a right angle.

The clamping forces of the locking device 1 are expediently limited in such a way that the locking device 1 releases and releases the slider 8 before the forces acting on the window sash 4 can lead to destruction. This applies both to the locking device 1 described above and to other possible embodiments of the locking device 1.

2 and 2a show a partial view of a roof window with a second embodiment of the locking device 1. FIG. 2 is a section along an arm 31 and FIG. 2a is the section AB drawn in FIG. In this embodiment of the locking device 1 is the Slider 8 can be clamped in the guide 7 by means of a wedge 13. The guide 7 is located in a tube 25, which can be the essential component of an arm 31. The spring arm 2 engages through a slot 57 in the tube 25 and is connected to the slider 8 there by means of a rotary bearing 6. The pivot bearing 6 is located in a cutout 58 of the slider 8, in which the spring arm 2 engages. On the slider 8, a spring 10 is suspended, which acts on the slider 8 with the force supporting the opening of the window sash 4. In order to be able to clamp the slider 8 within a relatively large adjustment path in the guide 7, an intermediate layer 14 is arranged which projects beyond the area of the guide 7 on both sides and at one end, preferably at the end of the tube 25, by means of a fastening 27 to the tube 25 is connected. At the opposite end, the intermediate layer 14 is gripped by the wedge 13. The intermediate layer 14 has a slot through which the arm 2 extends. Depending on the position which the wedge 13 occupies, the slider 8 is pressed against the tube wall by the intermediate layer 14 with a force defining the slider 8. This causes the locking. In order to achieve higher holding forces, the tube wall can be provided with a plastic layer 26.

Fig. 2a shows a section AB, which is shown in Fig. 2. It can be seen from these figures how the wedge 13 is arranged in the tube 25 and how it presses the intermediate layer 14 against the slider 8 during a movement to the left such that it is fixed to the tube wall. When moving to the right, this application of force to the intermediate layer 14 is reduced or eliminated. The displacement of the wedge 13 is served by a push rod 19 which is in operative connection with the handle 9 and is connected to the wedge 13 through a slot in the tube 25.

The embodiment of FIGS. 2 and 2a has the advantage that the slider 8 can be acted upon in a wide range of its possible positions by a predeterminable clamping force and the window sash 4 can thereby be securely fixed in different opening positions.

FIG. 2b shows a third locking device, a section being shown which corresponds to the lower part of the section of FIG. 2. The third locking device differs from the second only in this partial area. The wedge 13 is formed in a length that corresponds at least to the length of the guide 7. It is mounted on an inclined plane 63 in such a way that the bevels cancel each other out with respect to the clamping surface 64. The slopes are therefore opposite in the same angle. As a result, the height of the clamping surface 64 can be adjusted in parallel by longitudinal displacement of the wedge 13. In this way, in the area of the entire guide 7, with a predetermined longitudinal displacement of the wedge 13, the slider 8 can be fixed with a specific clamping force that is independent of the position of the slider 8 in the guide 7.

Fig. 3 shows a fourth embodiment of a locking device. The slider 8 carries a rack 16, into which a holding element 17, which also carries teeth 18, can be brought into and out of engagement. The holding element 17 is connected to a push rod 19 which can be actuated via the handle 9. In order to bring the holding element 17 into and out of engagement, the tube 25 is provided with a recess 22, into which the holding element 17 engages in one position and from which it slides out in a second position. The second position is shown in broken lines. In order to achieve this mode of operation, at least the part adjoining the holding element 17 is of the push rod 19 is resilient and held by a holder 20, which can be designed, for example, as a rivet or a screw guided in an elongated hole 21 of the push rod 19. In order to enable the holding element 17 to slide out of the recess 22, the holding element 17 is provided with a bevel 23 and the recess 22 carries a chamfer 24 which interacts with the bevel 23. The toothed rack 16 and the teeth 18 of the holding element 17 can be designed in this way to be flat be that the holding element 17 is pressed outwards under the action of a certain force, whereby the slider 8 can move. The other components correspond to what has been described for FIG. 2, the spring arm 2 having a cut surface, since the locking device 1 of FIG. 3 is shown from below. A milling cutout 58 of the slider 8 into which the spring arm 2 engages can also be seen from below through this viewing direction.

FIG. 4 shows a skylight on which a possible connection between the effects of a locking device 1 and other functional elements of the window is shown. The window sash 4 is pivotally connected to the feed box 3 by means of a suspension 33. The spring arm 2 - as a rule two spring arms 2 arranged on both sides - are reversed in relation to FIG. 1. They are pivotally connected to the feed box 3 by means of a pivot bearing 5, form an acute angle running upwards and are pivotably supported on sliders 8 by means of a pivot bearing 6. The sliders 8 are displaceable in guides 7, which are located in side rails 15 of the window sash 4. The slides 8 are acted upon by springs 10 with forces which push the window sash 4 in the opening direction. The locking devices 1 correspond to that described in FIGS. 2 and 2a.

Push rods 19, which are guided by push rod guides 28, run along the side rails 15 of the window sash 4. In the front area of the push rods 19 there are locking tongues 29 which cooperate with locking pieces 30 arranged on the feed box 3 in order to close the window. At the front end of the side rails 15 there are corner deflections 59, not shown, which ensure the connection of the push rods 19 with the handle 9. On the handle 9 there is an expansion gear, which ensures that the parts described are operated synchronously on both side rails. If this window is to be opened, the locking tongue 29 emerges from the strikers 30 by moving the handle 9 into its open position, and at the same time the wedges 13 release the sliders 8, as a result of which they can be moved in the guides 7.

For locking purposes, the handle 9 is moved back into the closed position when the window is open, as a result of which the wedges 13 push the intermediate layers 14 upward and thereby fix the sliders 8 in the guides 7. So that the window sash 4 is securely locked in the desired position. Of course, this design is also possible with further embodiments of the locking device 1.

5 and 6 show a further possible functional relationship of a locking device 1 with functional elements of a window, which can be opened both in the folding position and in the swinging position. In contrast to the window described in FIG. 4, one which can be brought into the oscillating position has two axle journals 34 which are arranged on the side rails 15 of the window sash 4. These pivot pins 34 enter in the rocking position in grooves 35, which are located on the feed box 3 and have openings 39 at their upper end. In order to achieve the pivoting movement required for this purpose, it is also necessary that the window sash 4 is suspended from arms 31 hinged to the feed box 3. The bearings 32 on the front ends of the arms 31 serve this purpose. In addition, two bolts 55 are present (see FIGS. 11, 14 and 16) which firmly connect the window sash 4 to the arms 31 when the window is to be opened in the folding position. Such bolts 55 are expediently arranged at the upper end of the window and can likewise be brought into and out of engagement by the push rods 19 by means of the handle 9.

The journal 34 are arranged in the window shown such that they are above the upper openings 39 of the grooves 35 when the window is closed, when the handle 9 is brought into the folding position. In order to bring the window into the oscillating position, the stub axles 34 are brought into a position by the handle 9 in which they enter the upper openings 39 of the grooves 35. For this purpose, the axle pins 34 are connected to the push rods 19.

In the described exemplary embodiment, the axle journals 34 also serve to actuate the locking device 1. As an example of such a locking device 1, that of FIG. 3 has been shown, although of course a locking device according to FIG. 2, FIG. 2b or another embodiment can also be used. In the closed state of the window or in the folded position shown in FIG. 5, the axle journals 34 engage in U-shaped notches 38 of transmission elements 37. The transmission elements 37 are slidably mounted on the outside of the tubes 25 by means of guides 40. The pipes 25 essentially form the arms 31 which support the window sash 4.

The embodiment shown in FIGS. 5 and 6 has the following functions: if the handle 9 is in the closed position when the window sash 4 is closed, the locking tongues 29 engage in the locking pieces 30, as has already been explained with reference to FIG. 4. (The corresponding parts cannot be seen in FIGS. 5 and 6.) If the window sash 4 is to be moved into the folding position shown in FIG. 5, the locking tongues 29 become by moving the handle 9 into its folding position (FIG. 10) moved out of the strikers 30 and the window sash 4 can be opened, whereby it is connected to the arms 31 by the bolts 55 already mentioned. If the handle 9 is moved into the closed position in the folding position shown in FIG. 5 (FIG. 13), the axle journals 34 transmit this movement by means of the transmission elements 37 to the locking devices 1, which have already been described in connection with FIGS. 3 and 4 Set the glider 8 and thereby determine the window sash 4.

In order to bring the window sash 4 into the oscillating position, it must be closed and the handle 9 must be moved into the oscillating position (FIG. 9), as a result of which the pivot pins 34 enter the upper openings 39 of the grooves 35. At the same time, the bolts 55 release the connection between the window sash 4 and the arms 31, as a result of which the window sash 4 can be pivoted about the bearings 32. If only the window sash 4 is opened, it pivots around the bearing 32 and at the same time the axle pins 34 slide downwards in the grooves 35. At the very beginning of this process, the axle journals 34 emerge from the U-shaped notches 38 of the transmission elements 37 from (Figs. 6 and 8). The locking device 1 can therefore no longer be actuated in the oscillating movement by means of the handle 9. In order to ensure that the axle pins 34 enter the U-shaped notches 38 of the transmission elements 37 when the window is closed, it is expedient to arrange a lock 43 which acts on the handle 9 in such a way that it no longer works when the window is open in the oscillating position can be actuated.

7, 9, 10, 12, 13 and 15 show the lock 43 to prevent incorrect operation in different functional positions of the handle 9 and in different positions of the window sash 4. These handle positions correspond to those in FIGS. 8, 11, 14 and 16, positions of the functional elements of the roof window. These are schematic diagrams.

FIG. 7 shows a section of the lower cross member 41 of the window sash 4 and the opposite section of the lower cross member 42 of the feed box 3. The handle 9 with an expansion gear 46 is located on the lower cross member 41 of the window sash 4 be formed a gear which engages in the racks of the other push rods 44 and 45. These further push rods 44, 45 lead to the front corners of the window sash 4 and are connected there with corner deflections 59, which transmit the actuating movements to the push rods 19 on both sides of the window sash 4. One of the other push rods 44 has an end 47 which projects beyond the expansion gear 46 and forms a hook 54 there by means of a notch 48, into which a catch 53 engages, depending on the position of the lock 43. In the illustration in FIG. 7, the window sash 4 is closed, as a result of which the lower cross member 41 of the window sash 4 lies on the lower cross member 42 of the feed box 3. In this position, the lock 43 is disengaged, since the lower cross member 42 presses an angled portion 52 of the locking member 49 upward against the force of a spring 50. The spring 50 is supported on a retaining lug 51 which is arranged on the lower cross member 41 of the window sash 4. The position shown corresponds to a closed window sash 4, the handle 9 being in the position in which the window sash 4 is moved into the oscillating position when opened, which is shown in FIG. 6.

8 shows a schematic diagram of the window in a side view, the position of the handle 9 and the window sash 4 corresponding to the illustration in FIG. 7. In this position, the locking tongues 29 connected to the push rods 19 are located outside the locking pieces 30, as a result of which the window sash 4 can be opened. By moving the handle 9 to the oscillating position shown in FIG. 7, the bolts 55 were pulled out of the striking plates 56 and the axle pins 34 were inserted into the upper openings 39 of the grooves 35 on both sides of the window sash 4. In the closed position of the window, the pivot pins 34 are still in the U-shaped notches 38 of the transmission elements 37. The holding element 17 is symbolically shown with a tooth 18 to show that it is removed from the toothed rack 16 and therefore is not fixed the slider 8 takes place. If the window is opened in this position, as shown in Fig. 6, the axle pins 34 emerge from the U-shaped notches 38, are therefore disengaged, and may no longer be moved by adjusting the handle 9, otherwise they when the window sash 4 is closed again, no longer engage in the U-shaped notches 38 of the transmission elements 37. A Such incorrect operation would lead to the locking device 1 no longer being operable. For this reason, the lock 43 engages when the window sash 4 is opened and thus blocks the handle 9, as shown in FIG. 9. This is done in that the spring 50 presses the locking member 49 down through the window opening, as a result of which the catch 53 engages in the notch 48 and thereby holds the further push rod 44 in place. The other further push rod 45 is thus also blocked via the expansion gear 46.

Fig. 10 shows the handle 9 in the position in which the window sash 4 assumes the folding position when opened. The push rod end 47 projecting beyond the expansion gear 46 is in a position in which the hook 54 can no longer be gripped by the lock 43 when the window sash 4 is opened. This position corresponds to the representation of the side view of the window in FIG. 11, in which the locking tongues 29 are out of engagement with the locking pieces 30. The axle pins 34 are outside the grooves 35 and the bolts 55 are inserted into the striking plates 56, whereby the window sash 4 is connected to the arms 31. The axle journals 34 are located in the U-shaped notches 38 of the transmission element 37, the holding elements 17 occupying a position in which they are disengaged from the toothed racks 16. As a result, the sliders 8 are freely movable, which is necessary for opening the window sash 4. A support for the opening movement is achieved in that the springs 10 apply force to the sliders 8 and the spring arms 2 thereby press the window sash 4 upwards. If the window sash 4 is opened from this position of the functional elements shown in FIG. 11, the situation recorded in FIG. 12 occurs in the area of the lock 43.

FIG. 12 shows the area of the lower cross bars 41 and 42 corresponding to FIG. 10 when the window sash 4 is opened. Through this opening, the locking member 49 is again moved downwards by the spring 50, as a result of which the catch 53 lies directly in front of the hook 54 . This makes it possible to adjust the handle 9 in the direction of the arrow, as a result of which the further push rods 44 and 45 can also be moved in the direction of the arrow. This adjustment corresponds to the movement of the handle 9 from the folded position (FIG. 12) to the closed position (FIG. 13). However, the handle 9 cannot be moved into the oscillating position (FIG. 9), since such an adjustment is blocked by the hook 54 pushing against the catch 53 of the lock 43.

13 shows the aforementioned adjustment of the handle 9 to its closed position with the window sash 4 open. This adjustment of the handle 9 leads to the activation of the locking devices 1, which is explained with reference to FIG. 14. When the window sash 4 is opened, the sliders 8 are initially displaced in the direction of the holding elements 17 (arrow 60). If the handle 9 is now brought into its closed position with the window sash 4 open, the axle pins 34 are displaced via the push rod 19. The transmission elements 37 and the holding elements 17 are entrained in the direction of the sliders 8, as shown by arrow 61. The holding elements 17 enter into the cutouts 22 (FIG. 3) and the teeth 18 of the holding elements 17 snap into the racks 16 of the sliders 8. The window sash 4 is thus locked. This locking can be released by bringing the handle 9 back into its folded position and thereby disengaging the holding elements 17 from the cutouts 22 and thus from the toothed racks 16 of the sliders 8.

15 and 16 show the closed window sash, the locking tongues 29 engaging in the locking pieces 30. It does not matter whether the holding elements 17 engage the toothed racks 16 in this position or not, it can be left to the respective construction.

For the illustration and discussion of the invention with reference to FIGS. 7 to 16, a locking device 1 according to the embodiment of FIG. 3 was selected. Of course, these configurations are also possible with other embodiments of the locking device 1, for example with the locking device 1, as were shown in FIGS. 2 and 2a or in FIG. 2b. These embodiments have the advantage over the embodiment of FIG. 3 that loosening the sliders 8 due to excessive force does not lead to a jerky movement of the window, since these sliders 8 move continuously in the guides as a result of such a force.

The representations in the figures are merely exemplary, other embodiments and in particular other combinations of the individual elements are conceivable.

Claims (23)

Roof window with a locking device (1) for locking in open positions, with an opening aid in the form of at least one spring arm (2) which extends at least at an acute angle to the feed box (3) when the roof window is closed and which, in the opened state, the window sash (4 ) on the feed box (3), characterized in that the spring arm (2) is operatively connected to both the feed box (3) and the window sash (4) via pivot bearings (5, 6), one of the pivot bearings (6) on a spring-loaded slider (8) which can be displaced in a guide (7) and which can be locked by means of a locking device (1) which can be actuated by a handle (9, 9 '). Skylight according to claim 1, characterized in that the guide (7) with the slider (8) is located in at least one of the side rails (11) of the feed box (3). Skylight according to claim 1, characterized in that the guide (7) with the slider (8) is arranged on at least one of the side members (15) of the window sash (4). Skylight according to claim 1, characterized in that guides (7) with sliders (8) are arranged in two arms (31) which support the window sash (4) when it is open. Skylight according to one or more of claims 1 to 4, characterized in that the clamping forces of the locking device (1) are limited in this way, that the locking of the window sash (4) is released before the forces acting on the window sash (4) can lead to destruction. Skylight according to one or more of claims 1 to 5, characterized in that the locking device (1) is an eccentric (12). Skylight according to one or more of claims 1 to 5, characterized in that the locking device (1) is a wedge (13) with which the slider (8) can be clamped in the guide (7). Skylight according to claim 7, characterized in that an intermediate layer (14) is inserted between the slider (8) and the wedge (13). Skylight according to claim 8, characterized in that the intermediate layer (14) extends beyond the region of the guide (7) on both sides in its longitudinal extent, is fastened at one end and is gripped by the wedge (13) at the other end, and in that the longitudinal displacement of the Keils (13) the intermediate layer (14) locked the slider (8) with a predetermined force. Skylight according to claim 7, characterized in that the wedge (13) is displaceable on an inclined plane (63), the wedge (13) having a length which corresponds at least to the length of the guide (7) and the slope of the inclined plane (63), as the opposite slope of the wedge (13) have the same pitch angle, so that the wedge surface serving as the clamping surface (64) can be adjusted in parallel by longitudinal displacement of the wedge (13) with respect to the height. Skylight according to claim 8, 9 or 10, characterized in that the guide (7) carries a plastic layer (26) on at least one side. Skylight according to one of claims 1 to 5, characterized in that the slider (8) carries a rack (16) into which a holding element (17) with at least one tooth (18) can be brought into and out of engagement. Skylight according to claim 12, characterized in that the holding element (17) is arranged on a push rod (19), that a tube (25) containing the guide (7) has a recess (22) and that the holding element (17) by actuation the push rod (19) can enter and exit the recess (22). Skylight according to claim 13, characterized in that the holding element (17) is subjected to a force in the direction of the engagement position by means of a resilient push rod (19) and a holder (20) guiding the push rod (19) and that for the exit from the recess (22 ) the latter has a chamfer (24) which cooperates with a slope (23) of the holding element (17). Skylight according to one or more of claims 1 to 14, characterized in that both the at least one locking device (1) can be actuated by a handle (9) and the window sash (4) can be closed and opened. Skylight according to claim 15, characterized in that the handle (9) is arranged on the lower cross member of the window sash (4) and via corner deflections (59) and push rods (19) with closing pieces (30) and at least one locking device (1) is in operative connection. Skylight according to claim 15 or 16, characterized in that the at least one locking device (1) locks the window sash (4) in that the handle (9) when the window sash (4) is open in the folded position, in which the latter with the arms (31) is connected, is brought into the closed position. Skylight according to one or more of claims 1 and 4 to 17, characterized in that the window sash (4) is rotatably held by arms (31) and can optionally be connected to them. Skylight according to claim 18, characterized in that the window sash (4) which is in the oscillating position, that is to say rotated in bearings (32) with respect to the arms (31), is simultaneously guided in grooves (35) in the feed box (3) by means of two axle journals (34) is. Skylight according to one or more of Claims 1 to 17, characterized in that two spring arms (2) are mounted on arms (31) pivotably suspended at the upper end of the feed box (3), the window sash (4) being supported by the arms (31) is rotatably held and can optionally be connected to it in such a way that the window sash (4) in the oscillating position is guided simultaneously in the grooves (35) of the feed box (3) by means of two axle journals (34) and that a coupling (36) provides the operative connection between the handle (9 ) and locking device (1) in the swing position. Skylight according to claim 20, characterized in that the at least one locking device (1) is operatively connected to the push rod (19) by a transmission element (37), the coupling (36) consisting of a U-shaped notch (38) of the transmission element ( 37), in which a pin connected to the push rod (19) engages when the window sash (4) is connected to the arms (31), and that the pin emerges from the notch (38) when it is moved into the oscillating position . Skylight according to claim 21, characterized in that the pin which engages in the U-shaped notch (38) is the axle pin (34), which can be adjusted by means of the handle (9) in such a way that it is closed when the window sash (4 ) and in the folding position on a circular arc (62) above the upper opening (39) of the groove (35) and in the oscillating position has entered the groove (35). Skylight according to Claim 21 or 22, characterized in that a lock (43) acts on the handle (9), by means of which the handle (9) is blocked when the window sash (4) is open in the oscillating position.

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