CA2303998A1 - Open-out mechanism - Google Patents

Abstract

The invention provides an open-out mechanism which is intended for windows which can be opened out as a whole unit and which achieves, with straightforward design means and while maintaining satisfactory functioning and low costs, a largely parallel and rectilinear open-out movement of the window sash relative to the window frame, secure locking being realized in the closed position. The open-out mechanism comprises at least four open-out scissors-type arrangements (16) which act on the window sash and are fastened on the window frame, the open-out scissors-type arrangements having an open-out lever (24) and a control lever (26), which are each arranged essentially in one plane, and also comprises a drive for actuating the open-out mechanism, and is characterized in that the open-out lever (24) connects the window sash and window frame to one another and is mounted at least rotatably at a first end (36) and rotatably and displaceably at a second end (40), the control lever (26) is coupled rotatably to the open-out lever (34) and, at one end (28), is connected to the window frame, and the open-out scissors-type arrangements are coupled rotatably to a drive lever (62), by means of which the open-out scissors-type arrangements can be driven and locked.

Description

OPEN-OUT MECHANISM
TECHNICAL F:CELD
The invention relates to an open-out mechanism which is intended for windows which can be opened out as S a whole unit. and which has at least four open-out scis sors-type arrangements which act on the window sash and are fastened on the window frame, and also has a drive and a locking means.
PRIOR ART
Open-out :scissors-type arrangements for horizon-tally supported roof-light openers are known, for example, from DE 36 22 943 A1. In this document, the scissors-type arrangement has a short control lever and a longer open-out. lever, there being provided in the ?5 short control lever a cam curve which is responsible for an open-out displacement and a locking displacement. Said scissors-type arrangement requires an additional compen-sating link between the open-out lever and the window f rame .
A similar cor_~iguration is known from DE Patent 21 38 101. In this case, however, the open-out lever engages in a slotted fitting of the window sash.
Furt:hermo:re, CH 385 066 discloses an actuating device for window; or doors which can pivot and/or tilt.
In this document, the scissors-type arrangement comprises an open-out lever, which is articulated displaceably on the window frame and fixedly on the window sash, and a control lever, which is articulated displaceably on the window sash and on the open-out lever. The control lever also has a cam curve, the latter producing, in conjuncti-on with the mounting of the control lever, an open-out displacement. and .a locking displacement.
Moresover, GB 449,761 describes an open-out mechanism far windows which can be opened out as a whole unit. This open-out mechanism has four open-out firms, of which ~n each case two are coupled via actuating levers.
The open-out arms are articulated fixedly both c. the - 2 - PC"T/GB98/02860 window sash. and on the window frame .
DESCRIPTION' OF TF~IE INVENTION
The object of the present invention is to develop an open-out mechanism of the type mentioned in the introduction so as to achieve, with straightforward design means and ~,rhile maintaining satisfactory function-ing and low costs, a largely parallel and rectilinear open-out movement/ of the window sash relative to the window frame.
This object is achieved according to the inven-tion by the combination of features in Claim 1.
Corsequer.~.tly, open-out scissors-type arrange-ments, inter alia,..are provided according to the inven tior_. Open-out acissors-type arrangements are to be understood as levers which are coupled rotatably to one another, it be=nc~ possible fo= the levers to be coupled to one another such that, in the spread-apart position, they assume the form of a '.t or o:. an Y. The capacity of said coupling for rotational movement is thus such that the movement of t:he open-out scissors-type arrangements takes place esser..tially in the same plane. A significant Leature of the solution according to the invention is constituted by the different mountings of the various elements of the open-out mechanism according to the invention, the difference being in terms of the degrees of freedom which the respective mounting permits. Thus, in addition to the capacity for rotational movement, an at least rotata:ble mounting, in some circumstances, provides farther degrees of freedom. A displaceable mounting is. distinguished in that the bearing point is displaced upon acauation of the open-out mechanism. The solution a.ccord~.ng to the invention advantageously provides that, when it maves for opening and closing purposes, the window sash describes a path which is rectilinear and at right angles to the plane of the window frame, and the window sash is coplanar with the window frame at any point in time of this movement . At the same time, it is ensured that the window sash is - 3 " PCT/GB98/02860 fixed in the: position at all times in the partially open state and fully open state. Unintentional displacement of the window :sash in its plane is ruled out.
Advantageously, the open-out mechanism is nro vided with open-out scissors-type arrangements of Y-form and the displaceable mounting of the open-out lever is located on the window frame. It is advantageous that the mounting which takes up more space is arranged cn the window frame:, with the result that the window sashes can be produced in a more straightforward manner and with reduced weight.
This. advantage is likewise obtained with the X-arrangement accorciing to Subclaims 5 and 6. Moreover, the X-arrangement in :fact enhances the positional stability of the window sasi~ with respect to loading in its plane.
In order to achieve further-improved sealing of the window a:nd to ;provide an additicnal safeguard against break-in, t~~e drive lever is mcunted rotatably on the open-out lever and rotatably and displaceably in a drive rail. This m.our_tir~g permits a change in position between the drive lever and open-out: lever, with the result that the open-out lever- caa be secured by the drive lave-.
In order further to improve a space-saving and reduced-weight design of the window sash, the invention provides that the rotatable bearing point of the drive lever on the open-out lever is arranged between the mounting of the open-out lever on the window frame and the rotatable coupling of the open-out lever and control lever. This advant=ageously permits the bearing point of the drive lever to shift in the direction of the window frame. A concealed drive, i.e. one which cannot be seen from the outside or through the partially opened window, is thus advantageously made -possible as well.
In order t:o optimize the relative forces between possible forcing of the window and the drive mechanism, it is provided that the drive fever moves, from the opened-out position of the window sass to the closed position of the w:indcw sash, from a first position into a second position, the second position being a dead WO 99/15750 _ 4 _ PCT/GB98/02860 centre position, in which it is not possible for any forces to be transmitted via the drive lever, from the window sash to the drive, in the drive-actuating direc-tion. As a result, opening of the window sash without actuation o:E the open-out mechanism is prevented.
According to a further advantageous development of the invention, further-improved locking of the window sash and window f:came is ensured in that, distributed as uniformly as possible around the periphery of the window sash, in combination with the open-out scissors-type arrangement;, at .least one curved guide is provided and at least one corresponding pin is provided on the drive, it being the case that, upon actuation of the drive, the pin engages in the curved guide and locks the window sash relative to the w_Lndow frame. This development makes it possible, with continued sealed closure of the window sash, for the: open.--out scissors-type arrangements accord ing tc the invention to be arranged even more closely to one another than would be possible without the curved guide.
The drive lever and%or control lever are advan-tageously mounted in receiving means which car. be changed ir_ position. This car. be realized, for example, by a plurality of spaced-apart receiving points or by displaceable receiving means. This advantageous develop ment makes it pos~~ible for the maximum extent to which the window rash can be opened out to be adjusted as desired without tlae design of the open-out mechanism according to the invention having to be modified in any way.
According to a further advantageous development of the invention, the actuation of the open-out mechanism is based on secondary energy, e.g. electricity. Driving by electric motors thus also permits remote control of the open-out mechanism. Open-out windows with an open-out mechanism acc:ordin<3 to the invention may thus also be used in regions which are barel~. accessible, if at all.

Exemplary embodiments are described and set out hereinbelow, in order further to explain and bett er to clarif y thf~ invention, with reference to th e attached drawin gs , i.n whi c:h Fig. 1 shows a schematic view of an open-aut window with schematically indicated open-out scissors-type arrangements and driving linkage with motor;

Fig. 2 shows a side view of the window frame and window sash in the closed position and in the opened-out position, the closed position being illustrated by chain-dotted lines and the opened-out position being illustrated by solid lines;

Fig. 3 shows an enlarged detail of Fig. 2, the detail illustrating an open-out scissors-type arrange-ment: of Y--form according to a first embodiment of the invention, chain-dotted lines showing the cio:~ed posi tion and solid lines showing the opened-out. position;

Fig. 4 shows a detail comparable to that of Fig. 3, the det~:il illustrating a scissors-type arrangement of X-form according to a second exemplary embodi-ment of the invention, this particular arrange-ment being shown in a perspective view and in the .opened-out: position;

Fig. 5 shows a farther detail of Fig. 2, which illus-trates, in particular, the curved guide of the window sash; and Fig. 6 shows a further detail of Fig. 2, which illus-trates, in particular, the curved guide of the window sash in the cl osed state together with the drive pin engaging in it.

DESCRIPTION OF EXEMPLARY EMBODIMENTS
An open-ou.t window 10, which is illustrated in Fig. 1, essentially comprises a window sash 12 and a window frame 14. T:he window frame 14 and t'.:e window sash 12 are connected via four schematically indicated open out scissors-type arrangements 16, which are actuated via a drive in the form of connecting rods 18 and a drive motor 20. The dr~~_ve motor 20 is preferably an electric motor and s_Lmultaneously actuates the connecting rods on both sides of the window sash. Since a single drive motor is provided centrally on the narrow side of the window 10, the connecting rod is provided with a deflecting means 22. Th.e drive moves the connecting rods 18 ir_ their longitudinal. directions. As corner deflecting means, use is preferably made: of bevel wheels (not illustrated), and the rotational movement is converted into linear movement via a spindle.
Fig. 2 shows the window sash in its closed position and. in it:s opened-aut position, two of the four open-out scissors-type arrangements 16 being illustrated.
The opened-out po~~ition is illustrated by solid lir_es on the right-hand sicie of the :figure, and the closed posi-tion is illustrated by chain-dotted lines on the left-ha:~d side of: the figure. Details of the open-out scis-sors-type arrangement 16 are described specifically at a later stage in the text with reference to Fig. 3. Fig. 2 also shows that the open-out scissors-type arrangement 16 mainly comprises an open-out lever 24, which is essen-tially designed as a rectilinear rod, and a control lever 26. The control lever is likewise designed as an essenti-ally rectilinear rod, but is shorter than the open-out lever 24. The two levers 24, 26 are located essentially in one plane, perpendicular with respect to the plane of the frame and essentially parallel to the side surface of the window sash 12. The window sash 12 is additionally provided with a curved guide rail 46, which serves for locking the window sash relative to the window frame. The window-sash-rnounted receiving means 50, 44 of the control lever 26 and open-out lever 24 are preferably arranged not just in one plane, but also on one line. Furthermore, the connecting rod 18 is preferably located essentially in the same plane as the open-out scissors-type arrange-ments. This configuration is preferred for both embodi-men~s, these two ennbodiments being illustrated in detail in Fig. 3 and Fig. 4.

WO 99/15750 - ~ - PCT/GB98/02860 Fig. 3 shows details of a first embodiment of the open-out sc:issor:;-type arrangement 16 as follows. The control lever 26 is mounted rotatably, by way of one end 28, in a receiving means 50 via a pivot pin 30. The receiving rr~eans 5o is fixed on the window frame (not illustrated in the figure). It has a plurality of spaced-apart, possible :Fastening means for the pivot pin 30, with the re:~ult that it is possible to adjust the maximum width to which the window can be opened out . By way of its other end 3:2, the short control lever is fixed rotatably in a central region of the longer open-out lever 24 via a pivot pin 34.
The open-out lever 24 is mounted rotatably, by way of one end 36,~ in a receiving means 50 via a pivot pin 38. The receiving means 50, in turn, is fixed on the window sash (not illustrated). In the same way as the window-frame-mounted receiving means, the window-sash-mounted receiving means is also provided with a plurality of possible, spaced-apart receiving means for the pivot pin 38. The other end 40 of the longer open-out lever 24 is fixed rotatabl.y on the frame via a pivot pin 42, albeit such that said pivot pin 42 is mounted as a pin on a slide 44, ir. such a manner that, together with the slide 44, its is guided movably in a linear guide (not illustrated specifically) in the plane of the frame and essentially parallel to the extent of the connecting rod 18.
On t:he longer open-out lever 24, a drive lever 62 is mounted rotatably in a pivot pin 66, between the pivot pin 34 for the shorter control lever 26 and the pivot pin 42 of the open-out. lever. By way of its other end, the drive lever ~52 is fastened rotatably on a slide 60 via a pivot pin 64. The slide 60, in turn, is connected to the connecting rod 18. In Fig. 3, the slide 60 and drive lever 62 are illustrated in the opened-out position of the window by virtue of both solid lines (for visible edges) and broken .Lines (for ecges which cannot be seen) .
On account of the arrangement of the control _wer and open-out lev~sr relative to one another - in tr=~ opened-out position of the window sash - the embodiment which is illustrated in detail in Fig. 3 is generally referred to as a Y-arrangement.
Fig. 4 shows a perspective view of a further S embodiment of the present invention, this embodiment generally being referred to as an X-arrangement, as can be seen from the illustration. This X-arrangement like wise comprises an open-out lever 124, which is mounted rotatably, by way of one end 140, on a slide I4-~_ via a pivot pin .:42, with the result that said end can be displaced. 'this end, which is generally arranged on the window frame., is received in a rail 152 fastened on the window frame:. The other end 136 of the open-out lever 124 is generally fastened, via a pivot pin I38, on the window sash.
Just. as the first embodiment, this embodiment is likewise provided with a control lever 126, although the latter is designed to be essentially the same length as the open-out lever 12~. At one end 128, the control lever 126 is received rotatably and displaceably in a further rail 152 via a pivot pin 130. At its other end 132, the control lever 126 is fastened on a receiving means 150 v_a a pivot pin 134. In the same way as the embodiment described with reference to Fig. 3, the receiving means 150 and the slide 144 are provided with a plurality of spaced-apart fastening points for the respective pivot pins, with the result that it is possible to pre-adjust the maximum width to which the window sash can be opened out.
Fig. 4 liJcewise illustrates the connecting rod 118 and the drive lever 162. The latter is fastened, at one end, on a slide 160 via a pivot pin 164, said slide, in turn, being coupled to thF connecting rod 118. By way of the other' end, the drive lever 162 is ffixed on the open-out lev~=r 124: via a pivot pin I66. In the case of both embodiments :illustrated (Fig. 3 and Fig. 4), the actuation of the open-out mechanism takes place via the connecting reds 18, 118 in the driving direction, w~ich is illustrate=d by double arrows A.

The open-out mechanism of both embodiments described is provided with an additional locking unit 51 (see Figs. 2, 5 and 6). This locking unit 51 essentially comprises a. curve guide 46, which is fastened on the window sash. 12, and a pin 48, which is fitted on the connecting rods 18, 118. Upon actuation of the connecting rods in the clos:ung direction (arrow A in Fig. 6) , the pin 48 likewise moves gradually in the closing direction.
The closure of t:he open-out window causes the- curved guide 46, together with the window sash 12, to approach the pin 48 simultaneously, at right angles to the actuat-ing direction of the connecting rod 18, 118. These two movements a:re coordinated such that the pin 48 engages precisely i:z the curved guide 46 and, when the window sash 12 is :=ully closed, is located in that part of the curved guide: 46 which is formed in the actuating direc-tion of the cor_nectina rod. The positive 1 ockir_g between the pin 48 a.nd curved guide 46, and the formation of the curved guides 45 parall el to the window frame 14 in this 2G region, thus prevent it from being possible, when the window sash 12 is in the closed state, for said sash to be lifted away from the window frame 14 by the exertion of force from the inside or outside.
The relative sizes in the drawings are to be understood, for example, such that the distance between the pivot pins 38 and 42 is approximately 400 mm. Other wise, the specific. design in terms of dimensions can be gathered, in part=icular, from Fig. 3. The distances between the bearing points of the control lever 26, 126 and open-out leve:: 24, 124 relative to one another, in conjunction with t:he individual lever lengths, are gen-erally selected, in the same way as said relative sizes, such that it is possible to achieve a rectii.inear_open-out movement at right angles to the plane of the window frame 14, th.e plane of the window sash 12 always being located parallel to the plane of the window frame 14.
The actuation of the open-out mechan~.sm will be explained he:reinbE~low, first of all with reference to Fig. 3. The c_xemplary embodiment which is ~llus~ra~ec in Fig. 4 is actuatE=d analogously, so the latter exemplary embodiment will not be explained in detail in this respect.
The introduction of force for actuating the open-s out mechanism is effected via the connecting rod 18 in the actuating direction A. The connecting rod 18 moves the slide 60, on which the drive lever 62 is mounted via the pivot pin 64.. In Fig. 3, this takes place, for the purpose of closing the window, from top to bottom, i.e.
from the poaition which is shown in solid lines into the position at. which it is illustrated in chair-dotted lines.
By ~,rirtue of the control lever 26 being mounted rotatably, but non-displaceably at its end 28, the control lev~_r 26 is forced to move on a circular path about the pivot pin 30. Similarly, the open-out lever 24 describes a. ci~cwlaY path about the pivot pin 38, al though thposi~tior_ of the pivot pin 38 changes grad-ually when the window sash changes its position. The other end of the open-out lever 24 is mounted displaceab-ly via the pivot pin 42, although this pivot pin cannot leave the plane which is predetermined by its guide.
Relative to the open-out lever 24, the drive lever 62 describes a circular path about the pivot pin 66. At the same time, the drive lever 62 is connected to the slide 60, and thus also to the connecting rod 18, via the pivot pin 64. This type of mounting means that although the position of the pivot pin 64 can shift - from top to bottom in t:he figure - it is not possible to have a change in the plane of movement relative to the plane of the window f rame .
Upon actuation of the connecting rod 18 in the closing direction, .force is thus introduced into the _ open-out lever 24 via the slide 60, the drive lever 62 and the pivot pin 66. The pivot pin 66 moves vertically downwards - this direction-related information and that which fcllcws relates to the illustration in the figure -and forces the er:d 40 of the open-out lever 24 to execute the Name movement, although at a different speed.

The control lever 26 moves to the left on its circular path. During the closing movement, the drive lever 62 simultaneou_~ly rotates to the right about the pivot pin 66. On account of the relative lengths between the control lever 26 and open-out lever 24 and by virtue of a suitable selection of the distances between the respec-tive bearing points, the end 36 of the open-out lever 24 describes a rectilinear movement - from right to left in the figure - with the result that the window sash is located at all times, and closed, in a manner coplanar with the window frame.
when the window is fully closed, the drive lever 62 is located in a dead-centre position. This ensures that if the window.sash is forced, e.g. in the event of break-in attempts or wind suction, there is no force produced in the open-out mechanism or the connecting rod which results in an opening movement of the open-out ~echan is~,~ .
In the case of the exemplary embodiment illus trated, the dead-centre position is such that a forcing action of this kind would resul t in the drive lever 62 being subjecved to a force which acts precisely at right angles to the guide of the slide 44. There is thus no force component in the actuating direction.

Claims (11)

-12-

1. Open-out mechanism for open-out windows with a window sash (12) and a window frame (14), the open-out mechanism comprising:
- open-out scissors-type arrangements (16) which act on the window sash and are fastened on the window frame, the open-out scissors-type arrangements having an open-out lever (24, 124) and a control lever (26, 126), which are each arranged essentially in one plane, and - a drive (18, 118) for actuating the open-out mechanism, wherein - the open-out lever connects the window sash and window frame to one another and is mounted rotatably at a first end (36, 136) and rotatably and displaceably at a second end (40, 140), - the control lever is coupled rotatably to the open-out lever and, at a first end (28, 128), is connected at least rotatably to the window frame, and - the open-out scissors-type arrangements (16) are coupled rotatably to a drive lever (62, 162), by means of which the open-out scissors-type arrangement can be driven and locked.
characterised in that.
- the open-out lever (124) is mounted rotatably on the window sash (12) and rotatably and displaceably on the window frame (14).

2. Open-out mechanism according to Claim 1, characterized in that the drive lever is coupled rotatably to the open-out lever (24, 124).

3. Open-out mechanism according to at least one of Claims 1 and 2, characterized in that the rotatable coupling (34) between the control lever and open-out lever is provided at a second end (32) of the control lever.

4. Open-out mechanism according to at least one of the preceding claims, characterized in that the open-out lever (24, 124) is mounted rotatably on the window sash (12) and rotatably and displaceably on the window frame (14), and the control lever (26, 126) is mounted rotatably on the window frame (14) and on the open-out lever (24, 124).

5. Open-cut mechanism according to Claim 1, characterized in that the rotatable coupling (134) between the control lever and open-out lever is provided in a central region of the control lever (126), a first end (128) and a second end (132) of the control lever being mounted rotatably and displaceably.

6. Open-out mechanism according to at least one of the preceding claims, characterized in that the drive lever (62, 162) is mounted rotatably on the open-out lever (24, 124) and rotatably and displaceably in a drive rail (52, 152).

7. Open-out mechanism according to at least one of Claims 2 to 6, characterized in that the rotatable coupling (66, 166) of the drive lever and open-out lever is arranged between the mounting (42, 142) of the open-out lever on the window frame and the rotatable coupling (34, 134) of the open-out lever and control lever.

8. Open-out mechanism according to at least one of the preceding claims, characterized in that the drive lever (62, 162) moves, from the opened-out position of the window sash to the closed position of the window sash, from a first position into a second position, the second position being a dead-centre position, in which it is not possible for any forces to be transmitted via the drive lever, from the window sash to the drive, in the drive-actuating direction.

9. Open-out mechanism according to at least one of the preceding claims, characterized in that, furthermore, the open-out mechanism has at least one curved guide (46) on the window sash and at least one corresponding pin (48) on the drive, it being the case that, upon actuation of the drive in the closing direction, the pin engages in the curved guide and locks the window sash relative to the window frame.

10. Open-out mechanism according to at least one of the preceding claims, characterized in that provided on the window sash and/or on the window frame are changeable-position receiving means (50, 150) for the rotatable mounting of the open-out lever and/or of the control lever.

11. Open-out window comprising an open-out mechanism according to at least one of the preceding claims.