The present invention relates, in general, to vehicle window regulators and, in particular, to vehicular window up stop adjustment.
The control of vehicle window panes involves, among other things, effectuating a stop upon the window when moving upwardly to a closed position. A mechanism that acts in this capacity, limiting the range of the window to a desired terminal position, is sometimes referred to as an “up stop.”
Conditions for mounting and controlling a vehicular window pane may vary by type and individual vehicle, as well as other conditions. Controlling the position of the extreme vertical limit of a vehicle window pane is accordingly a maintenance adjustment preferably made in a manner that minimizes time and effort of maintenance personnel, while at the same time ensuring an adequate degree of control.
Existing up stop mechanisms may involve use of a slot and screw, as shown in
In another existing approach, fine adjustment of the vertical limit of a vehicle window is sought be means of a jack screw. A jack screw, however, requires access through the vehicle belt line.
The needs alluded to above, and other long-felt but previously unmet needs, are addressed, at least in part, by various aspects of the present invention. An up-stop mechanism for a vehicular window, in some embodiments of the present invention, provides a means of adjustment of a window position from inside the vehicle, rather than, for example, through its beltline. Embodiments of the present invention may also permit adjustment of the window without loss of the position of the up stop and, with it, the vertical limit of the controlled window pane. Fine adjustment of the window position is also enabled through the use of indirect control of the position of the up stop and gradations on an adjacent base plate, on which the up stop is adjustably mounted. Embodiments of the present invention may provide an adjustment interface on a portion of an up stop, while a complementary interface, configured to engage the adjustment interface of the up stop, may be provided on an adjusting component, most preferably one that is borne or mounted separately from the up stop. Actuation of the adjusting component displaces its engaging interface and, by doing so, indirectly displaces the engaging interface of the up stop and, thus, the up stop itself. The adjusting component may be acted upon by a preselected tool, such as a wrench, and may be mounted in order to be accessed from inside the vehicle.
In one aspect of the present invention, an assembly is provided for adjusting a position of a window of a vehicle, which has a primary axis of motion when opening and closing. The assembly comprises a stop mechanism (e.g., an up stop) defining a limit on motion of the window along the primary axis, the stop mechanism being movably mounted with respect to the vehicle and having an engageable adjustment interface. The assembly further comprises an adjustment component mounted to the vehicle proximate the stop mechanism, the adjustment component having an interface for engaging the adjustment interface of the stop mechanism.
In another of its aspects, the present invention provides for a device for adjusting a position of a window of a vehicle, the window having a primary axis of motion when opening and closing. The device for use with an adjustment component may be mounted to the vehicle proximate the device, the adjustment component having an engagement interface for effecting an adjustment. The device according to this aspect of the present invention includes a stop, e.g., an up stop, defining a limit on motion of the window along the primary axis, the stop mechanism being mounted to be movable, along the primary axis, with respect to the vehicle, and having an engageable adjustment interface, the engageable adjustment interface adapted to be engaged by the engagement interface of the adjustment component.
In an embodiment of yet another aspect of the present invention, an assembly is provided for adjusting the position of a stop mechanism for a window of a vehicle, the window having a primary axis of motion when opening and closing and the stop placing a limit on motion of the window along the primary axis, and the stop mechanism also being movably mounted with respect to the vehicle and having an engageable adjustment interface. The assembly may include: an adjustment component mounted to the vehicle proximate the stop mechanism, the adjustment component having an interface for engaging the adjustment interface of the stop mechanism; the adjustment component mounted to permit it to be moved during an adjustment operation, such that the motion of the adjustment component causes an adjustment in the position of the stop mechanism. A position of a limit of the window's position along the primary axis of motion is thereby adjusted.
Another aspect of the present invention provides a method for adjusting a limit on a position of a window of a vehicle. The limit is defined by a stop (e.g., an up stop) that is movably mounted on the vehicle and acted upon by an adjustment component separately mounted on the vehicle. The method comprises the steps of: engaging the adjustment component with a tool; actuating the adjustment component with the engaged tool to cause a resultant movement of the stop; and ceasing actuation of the adjustment component with the engaged tool when the stop has reached a desired position.
The devices and methods according to the present invention address, at least in part, shortcomings of previous approaches. Other embodiments, objects and advantages of the present invention will be apparent from the following description, the accompanying figure and the appended materials, which are incorporated herein by reference in their entirety.
This description, including the figures, sets forth embodiments of various aspects of the present invention. These embodiments are not intended to, and do not, limit the scope of the present invention, in any of its aspects, to particular details.
One embodiment of the assembly according to the present invention is described below with reference to
In the illustrated embodiment, the lip 12 defines a horizontal channel (not directly visible in this figure) that is generally perpendicular to an axis defining a primary direction of travel of the window pane when opening and closing. In the illustrated embodiment, that primary axis is generally vertical, though it need not be precisely so. Similarly, a slot 14 in the vehicle 20 accommodates and provides a guide for laterally confining movement of the up stop 10.
The up stop 10 is provided with a mechanism for its fixation and release, which in the illustrated embodiment involves an orifice 16 for receiving a screw 18 having a shaft diameter sized to fit moveably within slot 14, but without excess lateral play. The up stop 10 is further provided, in the illustrated embodiment, with an optional tab 22 shown in further detail in
The up stop 10 in
The adjustment component 30 may be a gear borne in the vehicle 20 and rotatable in a plane parallel to the vehicle 20 and collocated with the plane of the up stop 10. The adjustment component 30 is provided with engageable features 32 complementary to those of the up stop, and it is mounted and sized so that, when actuated, the engageable features 32 engage and act upon the complementary engageable features of the up stop 10. In the illustrated embodiment, the adjustment component 30 comprises a gear, is rotatable, has a preselected diameter, and is provided with radially extending and regularly-spaced teeth 32. Other embodiments of the adjustment component 30 are also possible in accordance with known methods of mounting linear, rotational and other components.
In the embodiment shown in
As is also visible in
Specific arrangements and embodiments described above provide examples of the principles covered by the appended claims and their equivalents, but also include many other embodiments and variations, as well as objects and advantages, that may not be explicitly described in this document but that would nevertheless, be appreciated by those skilled in the field of this invention. For example, but without limitation, structural or functional elements might be rearranged, or method steps reordered, consistent with the present invention. Similarly, components described above as involved in carrying out the invention may comprise single or multiple parts, consistent with the function of the invention and without limitation to the particular illustrated embodiment. Similarly, principles according to the present invention, and systems and methods that embody them, could be applied to other examples, which, even if not specifically described here in detail, would nevertheless fall within the scope of the appended claims.