AUTOMOTIVE DOOR WITH SHATTER-RESISTANT MOVABLE SIDE WINDOW FOR ENHANCED OCCUPANT RETENTION
A vehicle side window, composed of HPR laminated glazing or advanced ejection mitigating laminated glazing, is provided with an inverted U-shaped channel, bonded to its upper edge, and extending into side channels of the door frame. The inverted U-shaped channel acts as a movable upper door channel, providing the door glazing with sufficient rigidity and pull-out resistance that it performs in an accident as if it were fully rolled up.
This invention relates to automotive doors, having side windows, and particularly to improvements in the safety of such windows in side impact collisions and rollovers.
BACKGROUND OF THE INVENTIONIn automobile collisions, it is common for a side mirror or other outside object to cause a tempered glass door window to fracture and then vacate the opening. Inertia can then cause a driver's or passenger's head or body to strike against the door window. In order to minimize injury resulting from a full or partial ejection, it is desirable to use window glass that deforms without shattering and vacating the opening, thereby absorbing impact and reducing the forces sustained by the passenger or driver. At the same time, it is important to mitigate full or partial ejection, that is, to prevent the head or other body parts from passing though the window opening in order to minimize the risk of injury and other serious consequences of full or partial ejection.
These problems have been addressed over many years by various improvements in automotive window glass. HPR (High Penetration Resistance) interlayer laminated glazing is a type of laminated glass introduced in the early 1960s, and is composed of a thin (e.g., 0.030 inch) layer of polyvinyl butyral (PVB) sandwiched between two layers of glass. The adhesion between the PVB layer and the glass layers is lower than the adhesion in earlier forms of laminated automotive glass, and the decreased adhesion has been found to increase penetration resistance significantly.
HPR glazing is now available in a heat-strengthened form, in which the two layers of glass used to form the PVB sandwich are tempered by thermal treatment.
Another form of HPR glazing is known as “advanced ejection mitigation glazing.” In this form of glazing, additional layers of PVB, and polyester films, similar to those used in so-called “Hurricane Glass” used in construction trades, are incorporated into the laminate in order to increase penetration resistance, and to maximize occupant containment.
Because most motor vehicle side windows in doors are designed to be opened by rolling them downward into a door frame, either manually or by the use of an electric motor, it is impossible to adhere the upper edge and the sides of the window to the door frame or window channel. Therefore, special measures need to be taken to prevent the window from moving out of the window channel in the door frame as a result of impact. In U.S. Pat. No. 4,823,511, for example, an automotive door window includes a retention shield in the form of a layer of PVB, polycarbonate resin, or acrylic resin, and an edge support molded onto peripheral vertical edge portions of the retention shield, in order to prevent the movable window assembly from releasing from the surrounding door frame when pressure is applied to the window. In U.S. Pat. Nos. 5,707,695 and 5,858,483, a channel is provided in the door frame. The door frame channel has flanges that prevent the laminated glass from dislodging from the channel during crash incidents.
A vehicle side window composed of HPR laminated glazing and advanced ejection mitigation laminated glazing is effective to mitigate ejection when it is fully rolled up and seated in the side window channels and upper window channel in the door frame. However, when the window is partly open, crash forces can cause the upper edge of the window to deform excessively, and pull the side edges out of their channels, so that, although the laminated glass provides containment superior to that of tempered glass, it does not meet its full potential as protection against full or partial ejection, and the risk of injury is increased.
SUMMARY OF THE INVENTIONA purpose of the invention is to provide a vehicle side window with the ability to absorb impact, even when the window is partially open, and even after the window is struck by an outside object and cracked. The improvement reduces the likelihood of full or partial ejection in a collision or rollover. Briefly, a side window composed of HPR laminated glazing or advanced ejection mitigating laminated glazing is provided with an inverted U-shaped channel, bonded to its upper edge, and extending into side channels of the door frame. The inverted U-shaped channel acts as a movable upper door channel, providing the door glazing with sufficient rigidity and pull-out resistance that it performs in a crash as if it were fully rolled up.
The automotive vehicle door according to the invention comprises a door frame having inner and outer door panels, and a window opening formed in an upper portion of the door frame. A laminated sheet of window glass having an upper bonded edge, is movable upward from within a space between the inner and outer door panels to a position in which the sheet substantially closes the window opening. The sheet of window glass is also adjustable so that its upper edge can be positioned at an intermediate location within the window opening.
A first horizontally elongated channel receives the upper edge of the sheet of window glass. The channel has a U-shaped cross-section and is composed of two parallel, horizontally elongated strips having inner faces in parallel opposed relation to each other and spaced by a distance substantially equal to the thickness of the laminated sheet of window glass. These strips also have outer faces in parallel, spaced relationship to each other, and are bridged by a third horizontally elongated strip so that the channel has a horizontally elongated opening between its two parallel, horizontally elongated strips for receiving the upper edge of the sheet of window glass. The channel is bonded to the sheet of window glass and is composed of steel, rigid plastics, or other rigid material, having a vertical dimension of at least about 1 inch, and, preferably, a thickness of at least 0.035 inch.
Two vertically elongated channels are fixed to the door frame and positioned on opposite sides of the window opening. Each of the vertically elongated channels has a U-shaped cross-section and is composed of two parallel, vertically elongated strips having faces in opposed relation to each other and spaced from each other by a distance substantially equal to the spacing of the outer faces of the parallel strips of the first horizontally elongated channel. The vertically elongated strips of each vertically elongated channel are bridged by a third vertically elongated strip, and each vertically elongated channel has a vertically elongated opening between its two parallel, vertically elongated, strips. The vertically elongated openings of the two vertically elongated channels face each other.
The sheet of window glass extends into both of the vertically elongated channels, and the first horizontally elongated channel also extends into both of said vertically elongated channels.
Each of the vertically elongated channels is also preferably composed of steel having a thickness of at least 0.04 inch and each of the vertically elongated channels also preferably has a depth, measured from its third vertically elongated strip to its vertically elongated opening, of at least 1 inch.
Preferably, the first horizontally elongated channel extends into each of the vertically elongated channels by a distance of at least 1 inch, and in a preferred embodiment, the horizontally elongated channel extends into the vertically elongated channels substantially to their full depths.
In the preferred embodiment, a second horizontally elongated channel is fixed to the door frame and located at the top of the window opening. This second horizontally elongated channel is composed of two parallel, horizontally elongated strips having inner faces in parallel opposed relation to each other and spaced by a distance substantially equal to the spacing of the outer faces of the parallel strips of the first horizontally elongated channel bonded to the upper edge of the sheet of window glass. The horizontally elongated strips of the second horizontally elongated channel are bridged by a horizontally elongated strip, and the second horizontally elongated channel has a horizontally elongated, downwardly facing opening between its two parallel, horizontally elongated strips. This second horizontal channel is positioned to receive the first horizontally elongated channel when the laminated sheet of window glass is moved to the position in which the sheet substantially closes the window opening.
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The door according to the invention, having a top channel with a height of one inch and a sheet thickness of 0.035 inch, and extending one inch into vertical side channels, has been tested extensively. The window, when partially open as in
With an upper edge channel having a height of at least about one inch, cooperating with, and extending approximately to the full depth of, opposed vertical side channels each having a depth of at least about one inch, the door window can effectively absorb impact without penetration by the 20 pound head form, in side impact collisions up to 12.5 miles per hour, with the window in a partially open condition, and previously cracked as a result of a prior strike. Thus, the invention has significant potential to mitigate personal injury in vehicle collisions. The invention has potential application in front side, rear side, and any other movable windows, in automobiles, trucks, SUVs and other vehicles.
Various modifications can be made to the door and window described. For example, the window glass can be advanced ejection mitigation glazing including plural layers of PVB, and polyester films. The dimensions of the top channel can be varied, but its thickness should be at least about 0.03 inch (0.76 mm) and its height should be at least about 1 inch (25 mm). The vertical side channels can be bowed in order to conform to convex windows, and the top channel 16 can be shaped to fit vehicle door windows having rounded corners. Various other modifications can be made without departing from the scope of the invention as defined in the following claims.
Claims
1. A door for an automotive vehicle comprising:
- a door frame having inner and outer door panels, a window opening formed in an upper portion of the door frame;
- a laminated sheet of window glass having an upper edge, and movable upward from within a space between the inner and outer door panels to a position in which the sheet substantially closes said window opening, and adjustable to position its upper edge at an intermediate location within said opening;
- a first horizontally elongated channel having a U-shaped cross-section and composed of two parallel, horizontally elongated strips having inner faces in parallel opposed relation to each other and spaced by a distance substantially equal to the thickness of said laminated sheet of window glass, said strips also having outer faces in parallel, spaced relationship to each other, said horizontally elongated strips being bridged by a third horizontally elongated strip and having a horizontally elongated opening between its two parallel, horizontally elongated strips, said channel receiving the upper edge of the laminated sheet of window glass and being bonded to said laminated sheet of window glass; and
- a pair of vertically elongated, channels, each having a U-shaped cross-section and composed of two parallel, vertically elongated strips having faces in opposed relation to each other and spaced from each other by a distance substantially equal to the spacing of the outer faces of the parallel strips of the first horizontally elongated channel, said vertically elongated strips being bridged by a third vertically elongated strip, each vertically elongated channel having a vertically elongated opening between said two parallel, vertically elongated strips, the two vertically elongated channels being fixed to the door frame and positioned on opposite sides of said window opening with their vertically elongated openings facing each other;
- in which the sheet of window glass extends into both of said vertically elongated channels, and said first horizontally elongated channel also extends into both of said vertically elongated channels; and
- in which the first horizontally elongated channel has a vertical dimension of at least about 1 inch.
2. A door according to claim 1 in which the first horizontally elongated channel has a thickness of at least 0.035 inch.
3. A door according to claim 1, in which each of said vertically elongated channels has a thickness of at least 0.04 inch, and in which each of said vertically elongated channels has a depth, measured from its third vertically elongated strip to its vertically elongated opening, of at least 1 inch.
4. A door according to claim 1, in which said first horizontally elongated channel extends into said vertically elongated channels by a distance of at least 1 inch.
5. A door according to claim 1, in which said first horizontally elongated channel extends into said vertically elongated channels substantially to their full depths.
6. A door according to claim 1 having a second horizontally elongated channel fixed to the door frame and located at the top of the window opening, said second horizontally elongated channel being composed of two parallel, horizontally elongated strips having inner faces in parallel opposed relation to each other and spaced by a distance substantially equal to the spacing of the outer faces of the parallel strips of the first horizontally elongated channel, said horizontally elongated strips of the second horizontally elongated channel being bridged by a horizontally elongated strip and having a horizontally elongated, downwardly facing opening between its two parallel, horizontally elongated strips, said channel being positioned to receive the first horizontally elongated channel when the laminated sheet of window glass is moved to said position in which the sheet substantially closes said window opening.
7. A door according to claim 1 in which the first horizontally elongated channel is composed of steel.
8. A door according to claim 1 in which the first horizontally elongated channel is composed of steel having a thickness of at least 0.035 inch.
9. A door according to claim 1, in which each of said vertically elongated channels is composed of steel having a thickness of at least 0.04 inch, and in which each of said vertically elongated channels has a depth, measured from its third vertically elongated strip to its vertically elongated opening, of at least 1 inch.
10. A door according to claim 7, in which said first horizontally elongated channel extends into said vertically elongated channels by a distance of at least 1 inch.
11. A door according to claim 7, in which said first horizontally elongated channel extends into said vertically elongated channels substantially to their full depths.
12. A door according to claim 1 having a second horizontally elongated channel fixed to the door frame and located at the top of the window opening, said second horizontally elongated channel being composed of two parallel, horizontally elongated strips having inner faces in parallel opposed relation to each other and spaced by a distance substantially equal to the spacing of the outer faces of the parallel strips of the first horizontally elongated channel, said horizontally elongated strips of the second horizontally elongated channel being bridged by a horizontally elongated strip and having a horizontally elongated, downwardly facing opening between its two parallel, horizontally elongated strips, said channel being positioned to receive the first horizontally elongated channel when the laminated sheet of window glass is moved to said position in which the sheet substantially closes said window opening.
Type: Application
Filed: Feb 20, 2009
Publication Date: Aug 26, 2010
Inventor: Donald R. Phillips (Arlington, TN)
Application Number: 12/389,624
International Classification: B60J 5/04 (20060101);