The present disclosure relates to a windshield retention device.
Vehicles windshields are typically installed using a urethane sealant applied to a frame of the vehicle, followed by the mounting of the windshield on the frame. In some cases, a rubber weather sealant or molding is applied around an edge of the windshield.
It is desired to improve the windshield mounting to more effectively mitigate an impact of a collision on vehicle passengers and pedestrians.
There is a need in the art for a system and method that improves windshield retention in general, and in the case of a frontal impact more particularly.
Vehicle safety standards call for retention of various components, e.g., doors, wheels, and windshields, in the case of an impact, such as during crash testing. For example, Federal Motor Vehicle Safety Standard 212—Windshield Mounting has been promulgated to reduce crash injuries by providing for retention of the vehicle windshield during a crash. According to some aspects, a windshield retention bracket that improves retention of a windshield, e.g., during a frontal impact, is disclosed, as well as a method for using such a windshield retention bracket.
In one aspect, the disclosure provides a windshield retention assembly comprising: a windshield; a windshield retention bracket including a lower bracket portion and a tab extended from the lower bracket portion; and an outer adhesion bead bonding the lower bracket portion to the windshield, wherein the tab is extended beyond an edge of the windshield.
In another aspect, a vehicle comprises: a roof panel; a windshield; a windshield retention bracket including a lower bracket portion and a tab extended from the lower bracket portion, wherein the tab is fixed to the roof panel; and an outer adhesion bead bonding the lower bracket portion to the windshield, wherein the tab is extended beyond an edge of the windshield.
A system and method for mounting a windshield on a vehicle is also disclosed, including: providing the windshield; providing a windshield retention bracket; bonding the windshield retention bracket to the windshield to form a windshield retention assembly; and fixing the windshield retention assembly to the vehicle using the windshield retention bracket.
Other systems, methods, features, and advantages of the disclosure will be, or will become, apparent to one of ordinary skill in the art upon examination of the following figures and detailed description. It is intended that all such additional systems, methods, features, and advantages be included within this description and this summary, be within the scope of the disclosure, and be protected by the following claims.
The disclosure can be better understood with reference to the following drawings and description. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the disclosure. Moreover, in the figures, like reference numerals designate corresponding parts throughout the different views.
According to some aspects, a windshield retention bracket that improves retention of a windshield, for example, during a frontal impact, is disclosed, as well as a method for using such a windshield retention bracket, e.g., in mounting the windshield to a vehicle. According to some aspects, the windshield retention bracket is bonded to the windshield as part of a windshield retention assembly. According to at least one aspect, the windshield retention assembly includes the windshield and the windshield retention bracket, which may be shipped to a manufacturing plant, and then installed on a vehicle. In one aspect, the windshield retention bracket is bolted to a roof panel of the vehicle. According to some aspects, the windshield retention assembly includes an inner urethane bead and an outer urethane bead supporting the windshield.
According to one aspect, the windshield retention assembly includes a windshield retention bracket is bonded into the windshield. According to some aspects, the windshield retention bracket may be formed of a metal, a plastic, a composite, or the like.
According to one aspect, the windshield retention assembly is coupled to a vehicle by fastening the windshield retention bracket onto a roof panel of the vehicle using bolts. According to some aspects, the coupling can be accomplished by replacing or supplementing the bolts by welding, bonding, riveting, etc., the windshield retention assembly to the roof panel using an appropriate connection for the roof panel.
Embodiments of cross-section A-A′ in
According to some aspects, the windshield retention assembly improves retention of a windshield in a case where the windshield is mounted on the vehicle 100 at an angle between about 60-90 degrees (to normal/horizontal), where in some cases a lower edge of the windshield no longer aids in retention in the case of a front impact.
According to at least one aspect, the lower bracket portion 303 is disposed on a first side of the windshield 101 where the lower bracket portion 303 may be bonded to the windshield 101, and the windshield retention bracket 302 further includes a traversing portion 504 extending from the lower bracket portion 303 on the first side of the windshield 101 to a second side of the windshield 101, wherein the tab 304 may extend from the traversing portion 504 away from the edge 305 of the windshield 101. According to one aspect, the traversing portion 504 is disposed over an edge of the windshield 101.
According to some aspects, the windshield retention assembly 301 comprises an inner seal 503. The inner seal 503 may be formed of a foam material, a rubber material, etc. According to some aspect, the inner seal 503 may function as an initial attachment between the windshield retention bracket 302 and the windshield 101, until a time when the outer adhesion bead 501 has cured. According to some aspects, the inner seal 503 may be omitted, for example, in a case where the windshield 101 is mounted to a vehicle at a manufacturing plant followed by the windshield retention bracket 302. According to one aspect, the inner seal 503 extends between the windshield retention bracket 302 and the windshield 101 along the lower portion of the outer adhesion bead 501.
According to at least one aspect, the roof panel 601 further comprises a third attachment point 606, configured to fix or secure the applique (not shown) to the vehicle 100. According to one aspect, the third attachment point 606 may be disposed on a roof bracket 607 extending from the angled surface 603 of the roof panel 601. According to some aspects, the roof bracket 607 extends upward from the angled surface 603. According to some aspects, a plurality of roof brackets is disposed such that their location alternates with a plurality of second attachment points along an edge of the roof panel 601. According to one aspect, the applique may be engaged with or fixed to the roof bracket 607 by a resilient clip, a rivet, a screw (e.g., from a backside of the roof bracket 607 into the applique), etc.
According to some aspects, the first mounting hole 306 of the tab 304 of the windshield retention assembly 301 aligns with the second attachment point 605, such that the tab 304 may be fixed to the roof panel 601 using, for example, a bolt or other attachment means (see for example,
According to some aspects, the windshield retention bracket 302 may comprise the second mounting hole 307 configured to receive an applique 702. According to one aspect, the applique 702 includes a connection mechanism 703, which may couple with the second mounting hole 307. For example, the connection mechanism 703 may be a resilient hook, which may engage with the second mounting hole 307.
According to one aspect, the applique 702 further includes a lower seal 704, which may create a weather tight seal against the windshield 101. (See also,
According to one aspect, the roof panel 601 may include an interior fastener 705 (e.g., a nut) bonded to an interior surface 706 of the roof panel 601 and configured to receive and engage the bolt 701, securing the windshield retention bracket 302 to the roof panel 601 by means of the tab 304. According to some aspects, the interior fastener 705 may be bonded to the interior surface 706 of the roof panel 601 by, for example, a spot weld, epoxy, press fit into the second attachment point 605, etc.
According to some aspects and referring again to
It should be understood that the windshield retention assembly 301 is not limited to windshield applications and may be employed for other applications. For example, the windshield retention assembly 301 may be employed for retention of a rear facing window in the vehicle.
While various embodiments of the disclosure have been described, the description is intended to be exemplary, rather than limiting and it will be apparent to those of ordinary skill in the art that many more embodiments and implementations are possible that are within the scope of the disclosure. Accordingly, the disclosure is not to be restricted except in light of the attached claims and their equivalents. Also, various modifications and changes may be made within the scope of the attached claims.