Caravan window with ventilation

Rooflight or window 1 for vehicles, particularly for a recreational vehicle, comprising a window frame 2, the window frame 2 comprises a ventilation path allowing air exchange between the inside and the outside of the vehicle, wherein the window frame 2 comprises ventilation slots 4, 5 at least at a surface 8 of the window frame 2 facing the inside of the vehicle, wherein the rooflight or window 1 further comprises a cover 3 being connected to the window frame 2 and covering the surface 8 of the window frame 2 facing the inside of the vehicle, wherein along the outer edge of the window frame 2 a circumferential gap 9 is present between the window frame 2 and the cover 3 functioning as a canal for ventilation air.

This utility patent application claims priority to and benefit of, under 35 U.S.C. § 119(e), German application number 10 2017 214 863.2, filed Aug. 24, 2017, titled, “Caravan Window with Ventilation”, all of which is incorporated by reference herein.

The present embodiments relate to an improved rooflight or window for vehicles, particularly for a recreational vehicle, caravan or mobile home and the like.

Typically, rooflights for caravans are equipped with a ventilation system and, thus, ventilation slots for letting the air pass through are present on the surface of the rooflight frame or window frame facing the inside of the caravan. Besides the purpose of letting air pass through, sometimes also sunlight can pass through these slots and enter the inside of the caravan, which is not desired.

The object of the present embodiments is, therefore, to provide a rooflight with ventilation in which no direct sunlight can enter the inside of a vehicle through the ventilation of the rooflight while the efficiency of the ventilation does not suffer.

To solve the above posed problem, the present embodiments provide a rooflight or window for vehicles, such as for a recreational vehicle, comprising a window frame, the window frame comprises a ventilation path allowing air exchange between the inside and the outside of the vehicle, wherein the window frame comprises ventilation slots at least at a surface of the window frame facing the inside of the vehicle, wherein the rooflight or window further comprises a cover being connected to the window frame and at least partly covering the surface of the window frame facing the inside of the vehicle, wherein along the outer edge of the window frame a circumferential gap is present between the cover on the one side of the gap and the window frame and the roof or sidewall, respectively, on the one side of the gap, wherein the gap functions as a canal for ventilation air.

The cover of the present embodiments hide the ventilation slots and, thus, also provides for a better optical appearance compared to rooflights with visible ventilation slots on the frame. Between the cover and the window frame, an air canal is formed which guides the ventilation air to the outer edge of the rooflight or window. At said outer edge, the air passes through the gap of some embodiments.

In the context of the present embodiments, the terms rooflight and window are used interchangeably, unless this is logically and technically excluded in the context of an embodiment described herein.

With the present embodiments it can be ensured that the air canal formed between window frame and cover has an overall cross-sectional area which is larger than the area of all ventilation slots together present on the window frame. Thereby, a reduction of ventilation efficacy can be prevented.

According to some embodiments, the cover is removably connected to the window frame. This has the advantage that, for maintenance purposes, for example, the cover can be easily removed from the window frame. In case of a rooflight, the cover, preferably, is simply pressed upwardly from below the frame of the rooflight against the frame in order to fix the cover to the frame

According to some embodiments, the surface of the window frame facing the inside of the vehicle is plane-parallel to a plane defined by the window frame.

According to some embodiments, the ventilation slots are at least present on a surface of the window frame which is perpendicular to a plane defined by the surface of the window frame. This shortens the entire ventilation path, since the respective slot are near the gap of the present invention.

According to some embodiments, the window frame comprises fixation structures on the surface of the window frame which is plane-parallel to a plane defined by the window frame for connecting the cover to the window frame. Such fixation structures can comprise, for example pin holes which interact with respective pins provided at the cover.

According to some embodiments, along an inner edge of the window frame no circumferential gap is present corresponding to the gap along the outer edge of the window frame.

FIGS. 1 and 2illustrate a rooflight1of one embodiment which is mounted into a roof10of a vehicle. A window frame2of the rooflight1is covered with a cover3so as to hide any ventilation slots4,5present on the window frame2.

As shown inFIG. 3, air can pass through a gap9between the cover3and the roof10. The gap9is large enough so as to not hinder the air from passing through the gap9. This prevents noise and ensures effective ventilation. The cover3is designed as such it can be grabbed with both hands on opposite sides and pulled downwards so as to dismount the cover3from the frame2.

Further inFIG. 3, it can be identified that a part of a surface7of the window frame2which is perpendicular to a plane defined by the window frame2represents one side of the gap9.

InFIGS. 4 and 5the rooflight1of the embodiment is shown from below with the cover3taken off. A fixation structures6can be identified in these figures. As shown, these particular fixation structures consist of specific holes or pin holes into which the corresponding parts (not shown) present on the cover3can be introduced. These fixation means6are designed so as to block the least possible space within the ventilation path P (FIG. 3) formed between the window frame2and the cover3. The aim thereof is to hinder as little as possible the airflow between the ventilation slots4and the gap9.

The magnified section of the rooflight shown inFIG. 5reveals the ventilation slots5being present at least on the surface7of the window frame2which is perpendicular to the plane defined by the window frame2. As mentioned above, this measure shortens the entire ventilation path P (FIG. 3) of the rooflight1and, therefore, the efficacy is practically not reduced at all by the cover3.

The ventilation air passes the gap9and does not pass through a gap between the inner edge of the window frame2and the cover3. This prevents fogging-up the rooflight, for example, in case it is hot and humid outside and the air condition is running in the inside, resulting in a relatively colder glass of the rooflight.

LIST OF REFERENCE SIGNS