Vehicle Window Vent for Protecting Passengers from Excess Heat

Abstract

A vehicle window vent is shaped and sized to fit in the opening left when the vehicle window is lowered or retracted. The vent fits in the opening, and its edges are captured by channels that hold the window when the window is closed. Along one edge, the vent comprises a channel, similar to the window-opening channel, so that the vent can accept an edge of the window. Thus, when the window is opened and then partially closed on the vent, the window and vent together are held securely in the window opening. The vent comprises louvered openings to allow air in and out of the vehicle. The openings may be covered with screen or mesh to prevent insects from entering the vehicle. Other features may be provided as well. An efficient method for manufacturing the vents is also described and claimed.

Claims

1. A removable vent for a vehicle window opening, comprising: a substantially planar structure having a first peripheral edge region that is so shaped and dimensioned as to be slidably receivable within one or more channels that accept a peripheral edge region of a vehicle window when the vehicle window is closed; a second peripheral edge region defining a channel so sized and dimensioned as to accept a corresponding portion of the peripheral edge region of the vehicle window; wherein the substantially planar structure defines at least one opening through which air may pass between an interior of the vehicle and an exterior of the vehicle when the substantially planar structure is positioned within the vehicle window opening such that the first peripheral edge region is slidably received within the one or more channels and the channel of the second peripheral edge accepts the corresponding portion of the peripheral edge region of the vehicle window .

2. The removable vent of claim 1, further comprising: a screen covering the at least one opening so that air may pass through the at least one opening but insects are prevented from passing through the at least one opening.

3. The removable vent of claim 1 wherein the at least one opening is two openings.

4. The removable vent of claim 1 wherein the substantially planar structure is opaque.

5. The removable vent of claim 1 wherein an exterior surface of the substantially planar structure is a light color.

6. The removable vent of claim 1 wherein an exterior surface of the substantially planar structure is reflective.

7. The removable vent of claim 1, further comprising: a dish-shaped passthrough formed through the substantially planar structure so that a liquid may be poured into an exterior portion of the dish-shaped passthrough, said liquid being thereafter accessible at an interior portion of the dish-shaped passthrough.

8. The removable vent of claim 1, further comprising: a solar cell disposed on an exterior surface of the substantially planar structure; and an electric fan disposed on an interior surface of the substantially planar structure, said solar cell to provide power to operate the electric fan.

9. The removable vent of claim 1, further comprising: a thermometer configured to sense a temperature within the vehicle and to display the temperature on an exterior surface of the substantially planar structure.

10. A method of manufacturing a removable vent for a vehicle window, comprising: forming an exterior ply of a laminate, the exterior ply having a plurality of louvers adjacent corresponding openings and a flap along one edge; cutting a mesh material to cover at least the corresponding openings of the exterior ply; cutting an interior ply of the laminate, the interior ply having at least one opening communicating with the corresponding openings of the exterior ply; and laminating the exterior ply, the mesh material, and the interior ply into a substantially planar structure having a shape similar to a window of a vehicle and a channel formed in part by the flap along one edge, said channel configured to accept an upper edge of the window of the vehicle.

11. The method of manufacturing of claim 10, wherein laminating comprises joining the exterior ply, the mesh material and the interior ply using adhesive.

12. The method of manufacturing of claim 10, wherein laminating comprises joining the exterior ply, the mesh material and the interior ply using ultrasonic welding.

13. The method of manufacturing of claim 10, wherein laminating comprises joining the exterior ply, the mesh material and the interior ply using fasteners.

14. The method of manufacturing of claim 13 wherein the fasteners are reversible so that the exterior ply, the mesh material and the interior ply may be disassembled.

15. A vented window shade for a vehicle, comprising: an opaque panel having a shape of a portion of a window glass for a vehicle and a thickness of the window glass around a portion of a perimeter of the opaque panel; the opaque panel having an edge complementary in shape to an edge of the window glass, said edge configured to interact with the edge of the window glass, wherein if the vehicle window is opened, the opaque panel can be inserted into a space vacated by the window glass, and after the opaque panel is inserted into the space vacated by the window glass, the window glass can be positioned to secure the opaque panel in the space vacated by the window glass, the opaque panel further comprising: at least one louvered vent formed through the opaque panel.

16. The vented window shade of claim 15, further comprising: a closeable opening through the vented window shade.

17. The vented window shade of claim 15, further comprising: a mesh material covering an opening adjacent the at least one louvered vent.

18. The vented window shade of claim 15, further comprising: a dish-shaped passthrough penetrating the opaque panel so that liquid placed in the dish- shaped passthrough on one side of the opaque panel can be accessed in the dish-shaped passthrough on another, different side of the opaque panel.

19. The removable vent according to claim 1, further comprising a louver adjacent the at least one opening to reduce a propensity of precipitation to enter the vehicle after striking the substantially planar structure.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0010] FIG. 1 shows a vehicle with two embodiments of the invention installed in side windows.

[0011] FIG. 2 shows a generic vehicle and points out features that interact with an embodiment.

[0012] FIG. 3 is a plan view of an embodiment for a different vehicle.

[0013] FIGS. 4-6 show additional views of the embodiment of FIG. 3.

[0014] FIG. 7 is an exploded view of an embodiment.

[0015] FIG. 8 is a cross section of an embodiment.

[0016] FIG. 9 is a flow chart for manufacturing an embodiment.

[0017] FIG. 10 illustrates a feature that may be provided in some embodiments.

[0018] FIG. 11 illustrates a feature that may be provided in some embodiments.

[0019] FIG. 12 illustrates a feature that may be provided in some embodiments.

[0020] FIG. 13 illustrates a sliding window opening that may be provided in some embodiments.

[0021] FIG. 14 shows a representative vehicle window adjacent a representative embodiment.

DETAILED DESCRIPTION

[0022] FIG. 2 shows a typical four-door vehicle 200, with windows 210 and 220 in the left side doors. These windows may be raised and lowered by a manual or electric mechanism, as indicated by arrows 230 and 240. Lowering a window causes the glass to retract within the door (between the inner and outer surfaces thereof) and exposes the top edge of the window. When closed, the top edge (as well as the fore and aft edges) of a window are secured in a channel in the door structure that frames the window. When a window is partially opened, the upper part of the glass is still visible in the lower part of the window frame. If a window can be fully opened, the entire window glass will be lowered into the space between inner and outer door surfaces, below a “sill” across the bottom of the window opening at the top of the door.

[0023] FIG. 1 shows a similar vehicle 100, where the front and rear side windows (110, 120) have been partially lowered, and vented window shades according to embodiments of the invention 130 and 140 have been secured into the open areas above the top edges of the windows. Each embodiment is shaped similarly to the top portion of the window, so that the embodiment fills the opening left by partially lowering the window glass. The upper, fore and aft edges of each embodiment are sized and shaped to fill the door frame channels that hold the corresponding edges of the window glass when the windows are fully raised. The lower edges of each embodiment comprise channels that are sized and shaped similarly to the upper door channels. The channels in the embodiments accept the top edge of the corresponding window, so that when the embodiment is inserted and the window raised to meet the embodiment’s lower edge, the top edge of the window glass is secured to the bottom edge of the embodiment, and the window mechanism urges the glass and embodiment securely into the door frame channels, thus closing the area of the door’s window frame that would otherwise be open.

[0024] Each embodiment of the invention (130, 140) comprises at least one louver or vent opening, as well as other features described below. These vent openings allow air to pass between the vehicle interior and exterior.

[0025] FIG. 3 shows an exterior plan view of an embodiment of the invention. Embodiments are generally rectangular, but vehicle windows may be trapezoidal or parallelograms, and embodiments for those vehicles are shaped similarly. The upper edge of the embodiment has a curve 310 that matches the upper edge of the window of the corresponding vehicle. The upper edge of the window can be urged against the lower edge of the embodiment (note similar curve 320). A flap 330 at the bottom of the embodiment rests outside the window glass along the top edge.

[0026] The embodiment may be viewed as a substantially planar structure 300 (this may have a slight curvature, similar to the curvature of the vehicle’s window glass). The peripheral outline is similar to the shape of the vehicle’s window glass. The fore and aft side edges (340, 350) are generally parallel. These edges (340, 350) and the upper edge (360) rest in channels in the vehicle’s door when the embodiment is installed. These same door channels normally accept the edges of the window glass when the window is fully closed.

[0027] Extending out from the exterior surface 300 are a plurality of louvers or vents, 370 & 380. The lower sides of the vents are open (375, 385) and allow air to pass between the vehicle interior and exterior. The embodiment is preferably made of an opaque material, to provide shade and privacy. The outer surface may be a light color or reflective to reduce solar heating of the vehicle interior. Opaque vents may also be helpful to reduce sunlight intrusion and glare even during driving, provided that the windows where they are installed may be occluded without compromising driving safety.

[0028] FIG. 4 shows an edge view of the same embodiment, looking from the aft edge 350 toward the forward edge 340. The triangular profiles of the louvers 370 and 380 are apparent in this view. In addition, the flap 330 that rests outside the window glass, and another flap 430 that rests inside the window glass, may be seen. The upper edge of the window glass is held between these flaps, in the gap at 433. The louvers are angled down, with the openings on the lower portion of the triangular shape. This “hooded” shape helps keep precipitation that strikes the embodiment from entering the vehicle through the openings.

[0029] FIG. 5 shows another view of the same embodiment. Here, the openings 375 and 385 at the lower ends of the louvers may be seen.

[0030] FIG. 6 shows the surface of the embodiment that faces the inside of the vehicle when the embodiment is installed. In this view, openings 675 and 685 are visible. These communicate with exterior openings 375 and 385 to allow air in and out of the vehicle. In a preferred embodiment, these openings are covered with a mesh to exclude insects and other objects.

[0031] FIG. 7 is an exploded view of an embodiment. An embodiment may efficiently be formed as a laminate of two principal layers: an exterior panel 710 comprising features similar to those described earlier: vent louvers 770 and 780, and a flap 730 to secure the external panel against the top edge of the window glass. The second principal layer of the laminate is an interior panel 720. This may be a simple, mostly planar panel with vent openings 775 & 785 formed therein. A mesh layer (not shown here) may be interposed between the laminate layers.

[0032] FIG. 8 is a cross-section of a laminate as described above. The exterior panel 810 may be constructed efficiently by vacuum forming of a plastic material. The interior panel 820 may be a simple die-cut sheet part (no forming is necessary; the intrinsic flexibility of the sheet material may permit the formation of a suitable curved surface resembling the curved window glass). A mesh 830 may be laminated between the exterior panel 810 and the interior panel 820.

[0033] FIG. 9 outlines a manufacturing method to produce embodiments of the invention. First, a sheet material is heated and formed into the shape of the desired exterior profile, including louvers and other features (910). Vacuum forming is a preferred method of producing this part. When the part is removed from the mold, it is trimmed and vent openings are cut (920). A length of mesh material is cut to shape (930). The interior panel is cut (including the peripheral outline and openings corresponding to the exterior louvers (940). Finally, the separate parts (layers or “plies”) are laminated into a finished product using heat, adhesive, ultrasonic welding, or another suitable technique (950). In some embodiments, the “lamination” may be reversible: the layers may be joined by screws, fasteners, snaps or other structures. In such an embodiment, the layers may be disassembled, for example to replace a damaged mesh layer. Different embodiments may be provided with finer or coarser meshes, according to the sorts of insects it is desired to exclude.

[0034] FIG. 10 shows an embodiment comprising a passthrough opening having a dish shape 1010. This feature allows water to be poured into the exterior portion of the dish, and be reached by an animal present in the interior of the vehicle. Providing this feature permits passers-by to give water to animals that may be experiencing thermal distress within the vehicle. Without such a feature, passers-by might be obliged to call emergency services or break a window to assist an animal inside.

[0035] FIG. 11 shows an embodiment comprising a solar powered fan 1110 to improve air circulation. Solar cells to provide energy for the fan may be disposed on an exterior surface of the embodiment. Paired embodiments may operate the fans in opposite directions, so that fresh air is urged into the vehicle through an embodiment on one side, while stale, heated air is extracted through an embodiment on the other side of the vehicle. An embodiment comprising a fan may be viewed as an active ventilation device or system. To allow passers-by to understand its function and capability, an externally-visible thermometer may be provided on a vent to indicate the temperature inside the vehicle.

[0036] FIG. 12 shows an embodiment 1200 where the louvered panel 1210 is constructed so that it can flip up along a hinge line, as indicated by arrow 1220. In this embodiment, the peripheral edges of the panel (e.g. at 1230) are still captured by the door channels for the window glass, and the bottom edge of the embodiment 1240 mates with the top edge of the window glass to secure the embodiment in the window frame. The flip-up panel 1210 can be opened to allow larger objects to pass through without removing the vented panel from the window opening. The flip-up panel may comprise a mechanical latch to prevent its being opened from the exterior of the vehicle.

[0037] FIG. 13 shows another embodiment 1300 where one vent louver has been replaced with a simple opening 1310 having a sliding door 1320. The simple opening, like the flip-up panel in FIG. 12, can allow larger objects to pass through the vented panel.

[0038] FIG. 14 shows a representative vehicle window 1410 (i.e., the shape of the piece of glass that forms the window). The upper part 1420 (above the door windowsill at about 1430) fits in a channel formed around the door frame. The lower portion of the window 1440, including an opening, connection feature or similar structure at 1450 to interface with a window opening and closing mechanism, is concealed within the door.

[0039] An embodiment of the invention, 1460, is shaped almost identically to the upper portion 1420 of the window glass 1410. In particular, the upper, fore and aft edges, shown along dashed line 1470, are the same shape and thickness as the corresponding portion of the window. The lower edge of embodiment 1460 has a shape complementary to the upper edge of the window glass (see at 1480), so that the upper edge of the window glass can push the embodiment of the invention securely into the door channels when the window glass is raised from its lowest position. As discussed above, a channel or flap along the lower edge of the embodiment accepts the upper edge of the window glass, and raising the window glass pushes the inventive ventilation panel into the door channels. When so arranged, the ventilation panel cannot be removed from its position without substantially deforming the panel or damaging the vehicle - it is “locked” in place.

[0040] In a particular implementation, a removable window vent for a vehicle comprises a generally rectangular, planar sheet having two roughly parallel vertical edges and a roughly horizontal upper edge, said roughly horizontal upper edge having a convex curvature; a roughly horizontal lower edge having a concave curvature similar to the convex curvature; a channel formed in the roughly horizontal lower edge, said channel to accept an upper edge of a window of the vehicle; two generally parallel horizontal louvers having triangular profiles formed on an outer surface of the generally rectangular planar sheet, said two generally parallel horizontal louvers extending substantially all of a width of the generally rectangular planar sheet, a lower surface of each of the two generally parallel horizontal louvers having openings therein; two generally parallel rectangular openings formed on an inner surface of the generally rectangular planar sheet, said two generally parallel rectangular openings aligned to permit air to flow therethrough and through the openings in the lower surface of each of the two generally parallel horizontal louvers; and mesh to cover each of the two generally parallel rectangular openings formed on the inner surface of the generally rectangular planar sheet.

[0041] The applications of the present invention have been described largely by reference to specific examples and in terms of particular arrangements of features. However, those of skill in the art will recognize that vehicle ventilation panels can also be produced by software and hardware that distribute the functions of embodiments of this invention differently than herein described. Such variations and implementations are understood to be captured according to the following claims.