Control apparatus for powered vehicle door systems

Description Submit all comments and votes

CROSS REFERENCE TO RELATED PATENTS AND APPLICATIONS

This invention is related to the inventions disclosed and claimed in U.S. Pat. Nos. 4,887,390, 4,862,640, 4,842,313, and 4,775,178, all of which are assigned to the same assignee as the present invention, and the disclosures which are hereby incorporated by reference herein. This invention is also related to the inventions disclosed and described in related copending applications for United States Patents, entitled "VARYING RADIUS HELICAL CABLE SPOOL FOR POWERED VEHICLE DOOR SYSTEMS", U.S. Pat. No. 5,025,591, "REVERSING APPARATUS FOR POWERED VEHICLE DOOR SYSTEMS", Ser. No. 497,546, filed Mar. 22, 1990, and "POWERED CLOSING ASSIST MECHANISM FOR VEHICLE DOORS OR LID MEMBERS", now U.S. Pat. No. 4,984,385 issued Jan. 15, 1991, all of which are filed on the same date as this application and are assigned to the same assignee as the present invention and the disclosures of which are hereby incorporated by reference herein

BACKGROUND AND SUMMARY OF THE INVENTION

This invention relates to control apparatus for controlling powered sliding members on automotive vehicles and, more particularly, to powered sliding door systems for van type vehicles having a door opening in a side wall thereof.

In van applications of the invention, a sliding door is moved generally parallel to the side wall of the van during its initial closing movement and for a major portion of its full closing movement, as well as during a major portion of its full opening movement, including its final opening movement Typically, the sliding door moves generally toward and generally away from the plane of the door opening during a portion of its respective final closing and initial opening movements, so as to be flush with the side wall when fully closed, and so as to be alongside of, and parallel to, the side wall, generally rear of the door opening, when fully opened.

In sliding door systems of the type mentioned above, upper and lower forward guide rails are attached to the top and bottom portions, respectively, of the door opening, and a rear guide rail is attached to the exterior of the side wall, at an elevation approximately midway between the elevation of the upper and lower forward guide rails. The respective forward end portions of the various guide rails are curved inwardly of the body of the van, and bracket and roller assemblies are fastened to the respective upper and lower forward ends of the sliding door, as well as to an intermediate position at the rear end of the sliding door. Such bracket and roller assemblies are slidingly supported in the guide rails to guide the door through its opening and closing movements.

Various portions of the opening and closing movements of van sliding doors have different power requirements. Thus, the initial door closing movement and a major portion of the subsequent door closing movement are high displacement/low force translational movements, during which little force is required to achieve large door movements since only frictional resistance and grade-caused gravity resistances must be overcome. Similarly, the final opening movement and a major portion of the preceding opening movement are also high displacement/low force translational movements for the same reasons. In contrast, however, a portion of the final closing movement of the door is a low displacement/high force movement. This is because during final closing, an elastomeric weather seal surrounding the door opening must be compressed, and an unlatched latch bolt on the door must engage and be rotated to a latched position by a striker pin at the rear of the van body door opening. During manual operation, sliding van doors are typically moved with great momentum through their entire closing movements in order to assure full weather strip compression and latch bolt operation at the end of such movement.

Various powered van door systems have been developed in the past, including those described in the above-mentioned related United States Patents. Another such system is illustrated in U.S. Pat. No. 4,612,729, issued to Sato. In the Sato patent, a motor driven pinion carried by the lower front bracket and roller assembly of the door cooperates with a rack gear carried by the lower front guide rail in the door opening to move the door between its fully open and fully closed positions. In this arrangement, as in the case of the manual door operation discussed above, a high momentum is still required during the entire closing movement.

Similarly, U.S. Pat. No. 4,617,757, issued to Kagiyama et al, and U.S. Pat. No. 4,640,050, issued to Yamagishi et al, also represents additional examples of powered van door systems. The systems employ cable drives coupled to the lower front bracket and roller assemblies of the doors for opening and closing movements. However, these systems also rely on high momentum during the entire closing movement.

U.S. Pat. No. 4,462,185, issued to Shibuki et al, describes still another powered van door system. In this system, a friction wheel engages the bottom portion of the door and drives the door through the major portions of its opening and closing movements parallel to the side wall of the van. Turntable arms are pivotably connected end-to-end between the friction wheel and the floor of the door opening and draw the rear of the door inwardly to compress the weather strip. While this prior art design appears to operate with lower momentum forces during closing movement than those discussed above, it requires a complicated, costly mechanism that is difficult to install and difficult to repair in the event of a breakdown. Moreover, retrofitting this mechanism to a vehicle not originally equipped with a powered door system would be inordinately difficult.

In addition to the foregoing prior art systems, final closing devices or clamping mechanisms for powering the final, low-displacement/high-force movement of sliding van doors have been developed by the assignee of the present invention and are described in the above-mentioned U.S. Pat. Nos. 4,775,178 and 4,842,313, the disclosures of which are incorporated by reference herein. In each of these systems, the door includes a latch bolt member moveable between latched and unlatched positions, as well as a handle or a lock member movable between open and closed positions. The final closing device or clamping mechanisms each includes a striker support plate mounted on the vehicle body at the rear of the door opening for rotational movement about a perpendicular axis, a striker pin projecting from the striker support plate at a position offset from the axis, and means carried by the vehicle body for rotating the striker support plate. The striker pin is movable between extended and retracted positions so that when the striker pin is engaged by the latch member bolt, the striker support plate is rotated, and the sliding door is moved between a partially open position away from the door opening and a fully closed position. In addition to disclosing the foregoing structure, U.S. Pat. No. 4,842,313 also discloses a crashworthiness feature that adds a pawl and ratchet mechanism to prevent the striker support plate from being reversely rotated in response to high door opening forces from the inside of the vehicle.

Although U.S. Pat. Nos. 4,775,178 and 4,842,313 illustrate excellent final closing systems for sliding van doors, they do not include provisions for powering van doors through the major portions of opening and closing movements, nor do they include provisions for powering van doors during late closing movements to the point where the latch bolt mechanisms engage with, and close about, the striker pins of the clamping mechanisms.

Improved powered sliding door operator systems for van type vehicles are disclosed in the above-mentioned U.S. Pat. No. 4,862,640, with the disclosed systems having provisions (i) for powering sliding van doors through the major portions of opening and closing movements, (ii) for powering sliding van doors during late closing movements to engage the latch bolt mechanisms with the striker pins, and (iii) for finally clamping sliding van doors to a fully closed position. In such patent, the disclosure of which is hereby incorporated by reference, the door is supported adjacent its forward end by forward brackets slidable in upper and lower forward guide members carried by the vehicle body, and is supported adjacent its rear end by a rear bracket slidable in a middlemen rear guide member carried on the outside of the vehicle side panel. Motor driven cable members are attached to the rear bracket and supported adjacent opposite ends of the rear guide member and are employed to move the door through its opening movement, through its initial closing movement, and through an initial portion of its final closing movement. The final portion of its closing movement is accomplished using a final clamping mechanism of the type disclosed in the above-mentioned U.S. Pat. No. 4,842,313.

In the three related applications filed on the same even date with the present application, there are disclosed various aspects of an