CZ303633B6 - Window - Google Patents

Abstract

In the present invention, there is disclosed a window (1) comprising a sash/frame structure (2, 5) supporting a pane (3), a separate ventilation opening being adapted in the sash/frame structure (2, 5) for flow communication between the exterior and interior sides of the window (1) wherein the window of the present invention is characterized in that a circumferential valve housing (9) is inserted in the ventilation opening, the flow area of the valve housing being partially covered by a seat surface (12), and that a closing body (14) is rotatably mounted in the housing (9) so as to be pivotable between an open position in which the closing body (14) overlaps the seat surface (12), and a closed position in which the closing body (14) and the seat surface (12) together substantially cover the entire flow area of the valve housing (9).

Description

Technical field

The present invention relates to a window comprising a sash / frame structure supporting a sash, wherein a separate sash is provided in the sash / frame structure for a flow connection between the outside and the inside of the window.

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BACKGROUND OF THE INVENTION

WO 99/51 832 discloses a sunroof in which a sash-bearing sash is openably mounted in a frame. A longitudinal ventilation slot is formed in the upper wing member which i? it can be closed by means of a flap hinged to the inner side of the element. Ventilation of the room in which the window is mounted can be achieved in the closed position of the window by opening the droplet, thereby creating a flow passage between the inner and outer sides of the pane through the ventilation slot in the element and continuing through the slot between the sash and the frame.

DE 36 22 652 discloses a front window, the window pane of which is openable in the sash in the frame. In the upper frame member there are two through-flow ventilation ducts, each with an integrated fan, which can be formed with a sensor-controlled switch and an adjustment automat for efficient ventilation of the room in which the window is mounted. In addition, the ventilation ducts are provided with a vertically displaceable, adjustable draft regulator allowing manual adjustment of the ventilation force.

However, in certain cases, there is still a need to simply provide a passage for a predetermined continuous minimum air flow between the inner and outer sides of the closed window, since appropriate ventilation can be achieved by opening a certain window or possibly other windows in the building. In particular, modern buildings may be so airtight that such forced minimum ventilation may be necessary for reasons of a suitable indoor climate. The exact flow capacity required depends on local factors, but should not be greater than necessary under all circumstances, as this would result in unnecessary heat loss. However, the prior art solutions do not permit the permanent and sufficiently precise adjustment of such passages for a suitably low flow rate as required in similar cases, as these solutions are adapted to open and close the ventilating passage itself according to actual needs. Moreover, prior art solutions are often unnecessarily complex and hence expensive to manufacture.

It is an object of the present invention to provide a structurally simple window allowing the adjustment of a predetermined passage with a minimum airflow between the inside and outside of the window.

SUMMARY OF THE INVENTION

To accomplish the above object, a window according to the present invention is characterized in that a circumferential valve housing is inserted into the ventilation opening, the flow surface of the valve housing being partially covered by the seat surface, and that the housing is rotatably supported in the housing so that to be rotatable between an open position in which the closure body pre50 covers the seat surface and a closed position in which the closure body and seat surface together cover substantially the entire flow area of the valve housing.

Such a valve housing may be made with suitably small dimensions to allow the minimum flow capacity to be set within a suitable interval. In addition, the pivotal bearing of the closure body provides a suitably long path between the open and closed positions of the valve for

Allowing precise adjustment of the flow capacity. In addition, the pivoting bearing arrangement of the closure body ensures minimal friction during opening and closing displacements. The valve housing with the associated closure body is very easy to manufacture because the two parts can be injection molded from plastics, for example. In addition, it is very easy to mount the valve housing in a window sash or frame, since a through hole is simply drilled through the sash or frame, whereupon the valve housing is, for example, pressed into or glued into the hole. A further advantage is that the valve housing can have a very limited size, resulting in minimal impact on the appearance of the window. In addition, this makes the valve hardly noticed by the user, and thus will not attempt to change the permanent preset airflow capacity.

In a preferred embodiment, the valve housing is preferably in the form of a circular cylindrical tube and the closure body is rotatable about an axis coaxial with the tube. The tubular valve housing combined with the coaxial bearing housing of the closure body allows maximum utilization of the flow area of the valve housing and the long travel of the closure body, i.e. 180 ° rotation, which then allows for accurate adjustment. In addition, such a tube is easily mounted to fit flush with the opening in the sash / frame structure.

In one embodiment, which is advantageous from a production point of view, the seat surface carries a pivot bearing for the closure body.

In one preferred embodiment, the saddle surface and the closure body are shaped as semicircular plates. This allows the greatest possible flow capacity to be achieved with respect to the size of the valve housing. In other words, the size of the housing can be minimized and, moreover, the greatest possible path of the closure body between the formed and closed positions is achieved, which in turn allows for more accurate adjustment.

The valve housing may be formed with an end stop for the closure body such that it is prevented from rotating further when it reaches its fully open or fully closed position. This defines a specific direction of rotation for opening and closing the valve as well as an obvious indication of the fully open and fully closed position. This facilitates valve operation.

In a preferred embodiment, the closure body and the valve housing have respective locking elements for engagement with each other in a plurality of fixed positions of the closure body relative to the valve housing. This facilitates the presetting of a certain flow capacity, since different adjustment steps are defined for the closure body. These settings may optionally be numbered, and it will then be sufficient to provide the window fitter with the correct setting number to provide a suitable preset. In addition, the locking elements can be designed with a strong engagement so as to prevent the unintentional subsequent adjustment of the closure body at the fully mounted window.

In a preferred embodiment, the respective securing elements are formed as a protrusion on the closure element and a plurality of corresponding depressions in the seat surface.

It may be advantageous if the closure body can be sealed in alignment with respect to the valve housing, for example, by means of an adhesive disposed between the closure body and the seat surface of the valve housing. This ensures in a more efficient manner that the presetting of the closure body cannot subsequently be changed.

In a preferred embodiment, the sash / frame structure is comprised of a sash and a frame, the sash supporting the sash and being rotatably mounted rotatably in the frame, the sash having an upper member, and a handle for operating the window locking mechanism extends parallel to the upper member; wherein the valve housing is arranged in this upper element behind the handle such that, in the closed position of the window, the handle covers the valve housing at least partially toward the inside of the window. Thus, the valve housing is partially covered, which is advantageous for aesthetic reasons, and in addition the risk of inadvertent post-adjustment of the closure body is minimized.

-2GB 303633 B6

In a further preferred embodiment, an elongated ventilation slot is formed in the upper sash element for flow connection between the outside and the inside of the window, which slot is closed by other means by operating the handle through the suspension flap to the upper element, and the valve housing being inserted into the ventilation flap. . This allows manual adjustment of the correct ventilation in different situations of use, while at the same time it is possible to preset a specific minimum airflow, which should always exist in the respective building.

The present invention will now be described in somewhat more detail by way of example embodiments and with reference to the accompanying drawings.

Overview of the drawings

Giant. 1 shows an internal view of a sunroof;

Giant. 2 is a cross-sectional view of the window taken along II - II in FIG. 1;

Giant. 3 shows a perspective, oblique front view of the valve in the closed position;

Giant. 4 is a perspective, rear oblique view of the valve in the closed position;

Giant. 5 is a front perspective oblique view of the valve in a semi-open position; and FIG. 6 shows a perspective, oblique front view of the valve in the fully open position.

DETAILED DESCRIPTION OF THE INVENTION

Giant. 1 shows an inside view of a sunroof 1 comprising a sash 2 carrying a sash 3 and hinged pivotally about an axis 4 in a sash 5. On the inner side of the window at a distance from and along the upper member 2 of the sash 2, an opening handle 7 is provided. closing the window 1, i.e. the window sash 2 with respect to the frame 5. On the right side of the upper sash element 6, a circular valve 8 is formed, half-covered by the control handle 7, which is shown in sectional view. The structure of the sash 2 and the window frame 5 may also be designed to be rigidly or integrally formed so that the window cannot be opened. In addition, the valve 8 in the embodiment shown in Fig. 1 can also be formed in the window frame 5 instead of in the window sash 2 as shown.

Giant. 2 is a cross-sectional view taken along the line II-II through a valve 8 mounted in the wing 2 in the window frame 5 of FIG. 1. The valve 8 is shown in detail in FIGS. 3 to 6 and has a tubular housing 9 inserted into a corresponding circular opening. 10 in the upper member 6 of the sash 2. Tilting the control handle 7 releases the locking mechanism H between the sash 2 and the window frame 5, whereupon the window 1 can be opened by further pulling the control handle 7, tilting the sash 2 about the axis 4 relative to the frame 5 The locking mechanism 11 may be of the conventional, generally known type.

The circular flow surface of the valve housing is partially covered on the inside of the sash 2 by a semicircular seat surface 12 supporting the bearing housing 13 which is arranged coaxially in the valve housing 9 and in which the semicircular closing body 14 is also rotatably supported coaxially in the valve housing 9 by The pivot pin 15 is formed with a longitudinal slot along its axis of rotation and has at its free end a wedge-shaped barb 16 on each side of the slot so that when the valve housing 9 and the closure body 14 are When assembled, the pivot pin 15 can be compressed around the slot when inserted into the bearing sleeve 13 and can then be stretched to lock itself in the bearing sleeve 13 via wedge-shaped barbs 16 that abut the end surface T7 of the bearing sleeve 13. Along its straight At the outer surfaces, the closure body 14 is formed with protrusions 18 serving as grip surfaces when actuating the valve. For example, gripping may be achieved on diametrically opposite surfaces of the valve protrusions 18 along their lower and upper edges, respectively, by the thumb and forefinger.

In the closed position of the valve 8 shown in FIG. 3, at its lower surface facing the valve housing 9, the circular edge of the closure body 14 abuts the projection 19 extending along the curved edge of the semi-circular opening 20 in the valve housing 9, 5 and 6. Along its outer periphery, the valve housing 9 has a peripheral projection 21 abutting the inner side of the upper wing element 6 in the mounted valve position. In addition, on its outside, the valve housing 9 has a plurality of ribs 22 extending in the axial direction and spaced in the circumferential direction of the valve housing. When the valve housing 9 is mounted in the bore 10, these ribs 22 fix the valve 8 relative to the top member 6 so that the valve cannot rotate in the bore 10 when actuated.

To secure the closure body 14 in different positions with respect to the valve housing 9, the rear side of the closure body 14, i.e. the side facing the valve housing 9, has a projection 23 which can engage one of a plurality of depressions 24 formed on the outside of the saddle surface 12. it is the side facing away from the valve housing 9, the depressions 24 being spaced in the circumferential direction of the valve housing. As shown in Figure 3, the valve 9 shown has three depressions 24 in the seat surface 12 so that the closure body 14 can be locked in three different partially open positions, the middle position being illustrated in Figure 5. 4, with the protrusion 23 on the closure body 14 engaging the straight edge surface 25 of the seat surface 12. Similarly, the protrusion 23 may engage the edge surface 25 in the fully open position of the valve 8 as shown in FIG. Thus, four different, fixed flow surfaces have been defined for the valve 8, but the valve can also be formed with more or less depressions 24 than the three shown, whereby multiple different flow surfaces can be defined. It is also possible to provide a valve 8 without a protrusion 23 and depressions 24, since the closure body 14 can be mounted in the valve housing in such a way that it rotates so tightly that it can be retained in any particular position. The closure body 14 may also be retained in a certain preset position by placing a small drop of liquid adhesive between the saddle surface 12 and the closure body 14 when such a preset is formed. The closure body 14 may also be sealed with respect to the valve housing 9 in other ways, for example by means of a threaded through hole in both the closure body 14 and the valve housing 9.

In addition, the closure body 14 has an end stop in the form of a pin 26 located on the straight edge surface of the closure body that extends into the valve housing 9 so that it can abut the edge surface 25 of the seat surface 12 in the fully closed position of the valve shown in FIG. 4, and in the fully open position shown in FIG. 6, thereby preventing further closure of the closure body 14 once these respective positions have been reached. Preferably, the valve housing 9 and the closure body 14 may be injection molded from plastics.

It can be seen from Fig. 2 that air flow can be generated through the valve 8 to the interior of the window from outside the window through a channel 28 between the sash 2 and the frame 5 and through the dust filter 27. Presetting the valve 8 in one of its open positions , minimum supply of fresh air to the room in which window 1 is mounted. It will be appreciated that a plurality of valves 8 may be mounted in the window 1 and that the valves may be arranged in the sash / window frame structure as desired in both the top and bottom and also the side elements. Instead of mounting the valve 8 directly in the sash element 2, the valve 8 can also be mounted in an open air flap that can open and close the ventilation slot in the upper sash 2 element. This allows for proper ventilation of the room by opening the air flap, the flap in its closed position, however, a minimum supply of fresh air to the room will still be guaranteed.

-4GB 303633 B6

It should also be noted that instead of being mounted in the position shown in Fig. 2, in which the valve closure body 14 and its finger grips 18 face the room in which the window 1 is mounted, the valve 8 can also be mounted in the opposite manner such that the finger grip projections 18 and possibly also the closure body 14 are facing outwardly from the outside of the upper member 6 of the sash 2, since the closure body is thus more difficult to access and thereby prevent its unintentional operation after assembly of the window. It is also possible to replace the finger grips 18 on the closure body 14 with one or more small recesses in the surface of the closure body 14 so that a special tool can engage these depressions to operate the closure body 14. This also prevents unintentional operation of the closure body. In addition, it should be noted that in terms of actuation by finger grip projections 18 it is preferable that the closure body 14 rotates on the outer surface of the seat surface 12, since there are then grip projections 18 in all positions of the closure body 14 relative to the valve housing 9. fingers accessible along the entire diameter of the valve housing.

Claims (10)

PATENT CLAIMS A window (1) comprising a sash (2) / frame (5) structure supporting a sash (3), wherein a separate sash is formed in the sash (2) / frame (5) structure for a flow connection between the outer and an inner side of the window, characterized in that a peripheral valve housing (9) is inserted into the ventilation opening, the flow area of the valve 25 of the housing is partially covered by the seat surface (12) and that the valve housing (9) is rotatably supported by the closure body (14) so as to be pivotable between an open position in which the closure body (14) overlaps the seat surface (12) and a closed position in which the closure body (14) and the seat surface (12) together substantially cover the entire flow area of the valve housing (9). Window according to claim 1, characterized in that the valve housing (9) has the shape of a preferably circular cylindrical tube and that the closure body (14) is rotatable about an axis coaxial with the tube. Window according to claim 2, characterized in that the saddle surface (12) is rotatable 35 a bearing housing (13) for the closure body (14). Window according to any one of the preceding claims, characterized in that the seat surface (12) and the closure body (14) are shaped as semicircular plates. 40 Window according to any one of the preceding claims, characterized in that the valve housing (9) is formed with an end stop (26) for the closure body (14) so that its further rotation is prevented when it reaches its fully open or fully closed position . Window according to any one of the preceding claims, characterized in that the closing body (14) and the valve housing (9) have respective locking elements (23, 24) for engagement with each other in a number of different, fixed positions of the closing body (14) with respect to to the valve housing (9). Window according to claim 6, characterized in that the respective locking elements are formed as a projection (23) on the closing element (14) and a plurality of corresponding depressions (24). 50 in the seat surface (12). Window according to any one of the preceding claims, characterized in that the closure body (14) can be sealed in position relative to the valve housing (9). - 5 GB 303633 B6 Window according to any one of the preceding claims, characterized in that the structure of the sash (2) / frame (5) is composed of a sash (2) and a frame (5), the sash (2) supporting the sash (3). and is openably rotatably supported in the frame (5), that the wing (2) has an upper element (6), a handle (7) passing through the handle (7) in parallel to operate the window (1), and that the valve housing ( 9) is arranged in the upper element (6) behind the handle (7) so that in the closed position of the window (1) the handle (7) covers the valve housing (9) at least partially towards the inside of the window (1). Window according to claim 9, characterized in that an elongated ventilation slot is formed in the upper element (6) of the wing (2) for the flow connection between the outside and the inside of the window (1), the slot being closed by operating the handle (7). a ventilation flap hinged to the upper member (6) and that the valve housing (9) is inserted into the ventilation flap.