Patent Grant
9840287
This document relates generally to fluid management for vehicle windshields, and more specifically to a fluid management trim used with a windshield wrapped A-pillar.
The A-pillar of a vehicle is the front most pillar or vertical support on a vehicle. All vehicle pillars are located around vehicle glass and operate to hold the glass in place and add structural integrity primarily to the roof of the vehicle. The A-pillar generally holds the windshield in place along driver and passenger side edges. Recent design trends following customer preferences indicate a desire for the A-pillar to appear dark or black in color such that the roof appears to be floating. To achieve the desired appearance, factory installed pillars are commonly covered. This has historically been achieved in three different ways.
First, the A-pillar is masked off and painted black after the vehicle is painted its original color. This approach, however, is time and labor intensive and perhaps most importantly requires a significant amount of additional painting facilities. Together, these additional requirements slow production and increase manufacturing costs. Second, black tape or the like is added to the A-pillar. While sufficient to create the desired black colored pillars, application of the tape is limited to certain contours and is also time and labor intensive. Even more, the tape may not be very robust in the field.
Third, a black colored applique is added. Typically, the applique is mounted to a bracket that is itself mounted to the A-pillar. Mounting the bracket to the A-pillar, however, is not without issues because the A-pillar is characteristically designed to be small and compact, and developing and packaging fasteners sufficient to hold the applique is challenging. The design issues are further complicated by recent increases in roof strength requirements that dictate the use of metal tubes to stiffen the A-pillars. Maintaining clearance for applique fasteners when using the metal tubes or the like is difficult.
Even more, post applied appliques are known to suffer from significant wind noise and/or retention issues. While the use of added epoxy adhesive can significantly reduce, if not eliminate, such issues, the additional adhesive increases the cost of manufacturing. The additional appliques and brackets also contribute to increases in manufacturing costs and add approximately 1.2 Kg to the overall weight of the vehicle. In addition, the appliques limit the range of travel of the windshield wipers as the wiper blades have to stop approximately 50 mm short of the applique to prevent contact with the applique. The result is that the wiper blades do not clear the windshield all the way to the A-pillars.
One solution for providing the customer with a blacked out A-pillar while overcoming the noted drawbacks associated with painting, taping and/or adding an applique, i.e., without reducing quality (e.g., through the introduction of wind noise due to a loose applique or a missing applique), increasing the cost or weight of the vehicle, and/or while maintaining at least the required strength in the pillar is to extend the edges of the windshield at least partially over the A-pillars. One potential drawback of such a solution, however, is the possible transference of fluid, whether rain, wiper fluid, or the like, from the windshield into the side windows in certain vehicle designs. Accordingly, a need exists for a fluid management system that ensures that fluid is prevented from entering the side windows. One way to meet these needs is using a trim member which moves the fluid along the windshield and away from the side windows.
In accordance with the purposes and benefits described herein, a vehicle having a fluid management trim system is provided. The vehicle may be broadly described as comprising a windshield supported along a lower edge by a cowl, along an upper edge by a roof, and along a side edge by a pillar, the pillar extending between a side door and the roof, and a trim member extending along and supported by the side edge of the windshield forming a gutter within which fluid travels along the windshield. In one embodiment, the side edge of the windshield extends at least partially around the pillar.
In another possible embodiment, the trim includes an outboard portion attached to the edge of the windshield and an inboard portion offset to the windshield forming the gutter along at least a portion of the windshield.
In still another possible embodiment, the side edge of the windshield extends from the lower edge to a position below the upper edge forming a void in the windshield. In another, the inboard portion of the trim member is substantially flush with the windshield over at least a portion of the void.
In yet another possible embodiment, the vehicle includes a seal positioned between the windshield and the inboard portion of the trim member along the at least a portion of the void.
In another aspect of the invention, a fluid management trim system is provided. The fluid management trim system comprises a windshield having a drain formed in an upper corner; and a trim member extending along a side edge of the windshield forming a channel for guiding fluid along the windshield toward the drain, wherein a first inboard portion of the trim member is offset to the windshield forming the channel.
In another possible embodiment, a second inboard portion of the trim member is substantially flush to the windshield. In another, the second inboard portion of the trim member is substantially flush to the windshield over at least a portion of the drain.
In yet another possible embodiment, the fluid management trim system includes a seal positioned between the windshield and at least a portion of the second inboard portion of the trim member. In another, the seal is positioned between the windshield and the second inboard portion of the trim member over at least the portion of the drain.
In still another possible embodiment, a first outboard portion of the trim member is attached to the windshield and a second outboard portion of the trim member and a second inboard portion of the trim member are substantially flush to the windshield over the drain. In another, an outboard portion of the trim member is attached to the windshield.
In yet another possible embodiment, a second inboard portion of the trim member is substantially flush to the windshield. In another, the second inboard portion of the trim member is substantially flush to the windshield over at least a portion of the drain.
In other possible embodiments, the fluid management trim systems described above are incorporated into a vehicle.
In accordance with still another aspect, a vehicle having a fluid management trim system comprises a windshield supported along a lower edge by a cowl, along an upper edge by a roof, and along a side edge by a pillar, the pillar extending from a side door toward the roof, and a trim member extending along the side edge of the windshield forming a channel for guiding fluid along the windshield toward a drain, wherein the side edge of the windshield extends at least partially around the pillar.
In another possible embodiment, the side edge of the windshield extends from the lower edge to a first position below the upper edge forming the drain. In another, a portion of the trim member is offset to the windshield forming the channel. In still another, the portion of the trim member offset to the windshield extends from the lower edge to a second position below the upper edge and over the drain. In another possible embodiment, the pillar includes a face having an outer edge adjacent the door and an inner edge.
In the following description, there are shown and described several preferred embodiments of a fluid management trim system for a vehicle to provide a desired aesthetic look while lowering manufacturing costs and reducing wind related noise, and improving the overall aerodynamics of the vehicle. As it should be realized, the trim systems are capable of other, different embodiments and their several details are capable of modification in various, obvious aspects all without departing from the concepts as set forth and described in the following claims. Accordingly, the drawings and descriptions should be regarded as illustrative in nature and not as restrictive.
The accompanying drawing figures incorporated herein and forming a part of the specification, illustrate several aspects of the fluid management trim system and together with the description serve to explain certain principles thereof. In the drawing figures:
Reference will now be made in detail to the present embodiments of the fluid management trim system, examples of which are illustrated in the accompanying drawing figures, wherein like numerals are used to represent like elements.
Reference is now made to
As described in greater detail below, a first trim member 34 extends along and is supported by the passenger side edge 32 of the windshield 12 forming a gutter within which fluid travels along the windshield. A second trim member 36, similarly extends along and is supported by the driver side edge 28 of the windshield 12 forming a gutter. It should be noted that references to edges of the windshield 12 (e.g., driver side edge 28) refer to a portion of a face or rear face of the windshield adjacent a side of the windshield, the line where the face meets the side of the windshield, and/or the side of the windshield).
As shown in
The second trim member 36 includes an outboard portion 38 which is attached to the windshield 12 and an inboard portion 40. As best shown in
Returning to
In the described embodiment, the notch is defined by a notch side edge 50 and a notch top edge 52. As shown, an upper edge 54 of the second trim member 36 extends past the notch top edge 52 in the described embodiment to allow the fluid to enter the drain 46 before the second portion 44 of the inboard portion 40 and a second portion 56 of the outboard portion 38 of the second trim member 36 become flush with the windshield 12 and the A-pillar 14 and door 26 over the drain such that the drain is hidden from view outside of the vehicle 10. In alternate embodiments, one or both of the second portion 44 of the inboard portion 40 and the second portion 56 of the outboard portion 38 of the second trim member 36 may remain elevated above the windshield 12.
As shown by action arrows A, airflow onto the windshield 12 when the vehicle 10 is moving forward pushes fluid to the side edge 28 of the windshield. There, the fluid is collected within the gutter formed by the second trim member 36 and the windshield 12, and directed or guided up the windshield and into the drain 46. Once the fluid enters the drain 46, the effect of the airflow is minimized and the fluid simply drains out the bottom of the A-pillar 14 between the windshield 12 and the A-pillar due to the effects of gravity.
The foregoing has been presented for purposes of illustration and description. It is not intended to be exhaustive or to limit the embodiments to the precise form disclosed. Obvious modifications and variations are possible in light of the above teachings. All such modifications and variations are within the scope of the appended claims when interpreted in accordance with the breadth to which they are fairly, legally and equitably entitled.
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| Number | Date | Country |
|---|---|---|
| 202608691 | Dec 2012 | CN |
| Entry |
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| English Machine Translation of CN202608691U. |
