Movable or removable closures – Closures interconnected for concurrent movement – Opposed similar movement
Reexamination Certificate
2002-04-30
2004-03-23
Thompson, II, Hugh B. (Department: 3634)
Movable or removable closures
Closures interconnected for concurrent movement
Opposed similar movement
C049S362000
Reexamination Certificate
active
06708449
ABSTRACT:
FIELD OF THE INVENTION
The present invention generally relates to door hardware systems of the type typically used to operate a pair of bi-parting doors of a passenger transit vehicle. More particularly, the invention pertains to a tandem arrangement of independent door operators having a central lock mechanism.
BACKGROUND OF THE INVENTION
The following background information is provided to assist the reader to understand the environment in which the invention will typically be used. The terms used herein are not intended to be limited to any particular narrow interpretation unless specifically stated otherwise in this document.
Among the many door operators to which the invention disclosed herein relates is the door hardware system disclosed in U.S. Pat. No. 6,032,416. As can be seen in
FIG. 1
of this patent there is an opening in a sidewall of a passenger transit vehicle. Fixed to, or incorporated as part of the body of, the transit vehicle above the opening is a base plate disposed just above and horizontally along the length of such opening. It is to this base plate that the door hardware system attaches to the passenger transit vehicle.
The door hardware system features a plurality of rod hangers, a motor, a drive mechanism, a door hanger rod, first and second door panels, outer and inner door hangers for the first door, inner and outer door hangers for the second door and first and second door lock assemblies for the door panels. Each of the door panels has on its inner edge a rubber-like strip that collectively serve not only as a weather seal but also as a biasing means in the manner described below.
The first and second door lock assemblies, as well as the motor, are attached to the base plate of the vehicle by means of bolts and brackets. Specifically, the motor is bolted to the base plate via an L-shaped bracket. The first door lock assembly is bracketed to base plate above the left vertical edge of the opening. Similarly, the second door lock assembly is bracketed to the base plate above the right vertical edge of the opening.
Viewed from left to right in
FIG. 1
, the drive mechanism includes a coupling, a drive shaft, a well known spider coupling, a first helical drive screw, a center coupling, a second helical drive screw, and first and second drive nut assemblies. Controlled by a Door Control Unit (not shown) based on various central command signals and local door hardware signals, the motor and the gear reducer unit at its right to which it is connected, is what drives the drive mechanism. The coupling couples the output shaft of a gear reducer unit to the left end of the drive shaft. The right end of the shaft is coupled to the left end of a first helix drive screw by a coupling. A center coupling couples the right end of the first screw to the left end of a second screw.
Six rod hangers are attached by bolts to the base plate of the vehicle and are used to interconnect the door hanger rod to the vehicle base plate. Located just to the right of the coupling is the first rod hanger. It features a receptacle in its lower end in which the left end of the door hanger rod is secured. Similarly, the sixth rod hanger has a receptacle in its lower end in which the right end of another door hanger rod is secured. Each of the first through fifth rod hangers has two orifices, one in its upper end and the other in its lower end. By their lower orifices, these five rod hangers are used to support the door hanger rod and the weight that door hanger rod bears. A drive shaft passes through and thus can be rotated within the upper orifice of the first rod hanger. Located just to the right of the coupling is the second rod hanger. A first screw passes through its upper orifice and is free to rotate therein. The center coupling is supported by the third and fourth rod hangers. Located just left of the center coupling is the third rod hanger. The first screw is free to rotate within its upper orifice. The fourth rod hanger is located to the right of the center coupling. A second screw passes through its upper orifice and is free to rotate therein. Located just to the left of the second door lock assembly is the fifth rod hanger. The right end of the second screw is free to rotate within its upper orifice and does not extend further to the sixth rod hanger.
Each door hanger features a lower section that takes the form of a bracket and an upper section that defines a horizontally disposed bore. By their lower brackets, outer and inner door hangers are affixed by bolts to the top corners of the first door panel. Similarly, inner and outer door hangers are affixed by bolts to the top corners of the second door panel. By their respective bores, the door hangers are each collared around a door hanger rod. In particular, the outer door hanger is collared around a rod between the first and second rod hangers. The inner door hanger is collared around a rod between the second and third rod hangers. Another inner door hanger is collared around the rod between the fourth and fifth rod hangers. An outer door hanger is collared around a door hanger rod between the fifth and sixth rod hangers. Suspended from rod by hangers, the door panels can be slid over the opening in the sidewall of the vehicle between an UNLOCK POSITION at one extreme to an OPEN POSITION at the other extreme, as explained below.
The first drive nut assembly of a drive mechanism is bolted to the top of the inner door hanger of the first door. Similarly, a second drive nut assembly is bolted to the top of an inner door hanger of he second door. First and second helical drive screws are threaded in opposite directions, with one bearing right-handed threads and the other left-handed threads, yet are configured to rotate in the same direction due to their linkage within the drive mechanism. The first nut assembly features a threaded drive nut designed to ride along the matching threads of the first screw as it is rotated. Similarly, the second nut assembly has a threaded drive nut matched to ride along the second screw as it is rotated. Because these screws bear oppositely directed threads, the first and second drive nuts travel in opposite directions along them no matter which way the motor rotates. As the inner door hanger interconnects the first drive nut and door panel, the door by its hangers will always slide along the door hanger rod in the same direction that the first drive nut is driven along the threads of first screw. Likewise, as the other inner door hanger interconnects the second drive nut and door panel, the door by its hangers will always slide along its door hanger rod in the same direction that the second drive nut is driven along the threads of second screw. The doors of the door hardware system are thus designed as bi-parting doors, with door panels closing together when the motor rotates in a closing direction and opening away from each other when it rotate in an opening direction.
Regarding the locking feature of the door hardware system, each outer door hanger has a contact bracket (not shown) attached to the top of its upper section. Atop the outer door hanger, a contact bracket (not shown) is designed to cooperate with the first door lock assembly to provide a lock for the door panel. Similarly, a second door lock assembly cooperates with a contact bracket (not shown), atop outer door hanger, to provide a lock for the other door panel. First and second door lock assemblies are mirror-symmetrical devices. Furthermore, such first and second lock assemblies may be of any conventional locking devices having pushback or non-pushback capabilities.
It is well know that electrically powered door operators for passenger transit vehicles are either mounted within interior of the vehicle structure or the exterior of said vehicle structure and operate in a harsh environment comprising moisture, dirt, dust and, more particularly, brake shoe dust produced during multiple braking cycles. Door operator mounted on the exterior of the vehicle structure, as relates to the present invention, must operate in even harsh
James Ray & Associates
Thompson II Hugh B.
Westinghouse Air Brake Technologies Corporation
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