1. Field of the Invention
This invention relates to door latches. In one of its aspects, the invention relates to a door latch for a roll up door. In another of its aspects, the invention relates to a roll up door with a latch. In another of its aspects, the invention relates to a door latch assembly with a closed keeper that is moved into a locking position by the movement of a handle into a closed position. In another of it aspects, the invention relates to a door latch assembly with a closed keeper that is rotatably mounted to a plate for movement between fixed stops.
2. Description of the Related Art
U.S. Pat. No. 4,014,572 to Binns discloses a door latch assembly comprising a latch bolt, a closed keeper, and a bolt catch, all pivotally mounted to a support plate. The closed keeper is weighted so that a finger normally swings against a lug to maintain the keeper in the position illustrated in a closed position absence any force on it. The degree of rotation is limited by a pin on the keeper that fits within a slot on the support plate. The bolt catch is also weighted so that it is maintained in a ready position as well. The bolt catch further has a projection that catches a projection on the latch bolt to keep the bolt latch in the open position. The support plate is mounted to the door to thereby mount the entire latch assembly to the door. If the closed keeper is stuck in the unlatched position when the latch bolt is moved to the closed position, the closed keeper may not maintain the latch bolt in the closed position. Further there is no mechanism to lock the latch bolt in the closed position.
A currently available door latch assembly comprises a handle and hook pivotally mounted to a support plate, a closed keeper and an opened keeper. The closed keeper is pivotally mounted to the door and is weighted to retain the handle in a closed position. The handle also has at one end a transverse locking flange with an opening that registers with an opening in the closed keeper so that a padlock can secure the latch in the locked position. The closed keeper rotates about an axis above the axis of rotation of the handle and thus relies on gravity to position the closed keeper in the closed position. There is not positive or automatic movement of the closed keeper from the open to the closed position in the event that the closed keeper is stuck in the open position.
According to the invention, a latch assembly is provided for a trailer comprising a door opening partially defined by a bottom wall of the trailer, and which opening is selectively closed by a door moveably mounted to the trailer. The latch assembly comprises a base plate adapted to mount to the door, a handle having a locking flange rotatably mounted to the base plate for rotation between a closed position and an open position, a hook rotatably mounted to the base plate and operably coupled to the handle for rotation between a locked and an unlocked position as the handle is rotated between the closed and open positions and a closed keeper having a handle catch portion and moveably mounted to the base plate for movement between a latched position and an unlatched position. When the keeper is in the latched position, the handle locking flange is received by the keeper handle catch portion when the handle is in the closed position to maintain the handle in the closed position. When the keeper is in the unlatched position, the handle locking flange is released by the closed keeper handle catch portion, whereby the handle can rotate from the closed position to the open position without interference from the closed keeper.
In one embodiment, the closed keeper further has a rotation stop that is adapted to contact a portion of the handle when the closed keeper is in the unlatched position and the handle is moved from the open position to the closed position to move the closed keeper into the latched position in the event that the closed keeper is in the open position as the handle moved from the open position to the closed position.
In another embodiment of the invention, stops are formed between the closed keeper and the base plate, and the stops limit the rotation of the closed keeper between the open and latched positions. Preferably, the base plate comprises a tab extending laterally therefrom and the closed keeper further comprises a first stop for limiting the movement of the closed keeper to the unlatched position and a second stop for limiting the movement of the closed keeper to the latched position.
In a preferred embodiment, the closed keeper is rotatably mounted to the base plate. Further, the closed keeper is biased to the latched position. The closed keeper has an axis of rotation with respect to the base plate that creates a gravitational bias to move the closed keeper to the latched position.
In another embodiment of the invention, the base plate comprises a tab extending laterally therefrom and the closed keeper further comprises a first stop for limiting the movement of the closed keeper to the unlatched position and a second stop for limiting the movement of the closed keeper to the latched position.
In one embodiment, the handle further has a retainer flange and an open keeper is mounted to the base plate for movement between a retention position and a release position. When the open keeper is in the open position, the handle retainer flange is received by an open keeper handle catch portion to retain the handle in the open position. When the open keeper is in the release position, the open keeper handle catch portion releases the handle retainer flange, whereby the handle can rotate from the open position to the closed position. Preferably, the open keeper is biased to the retention position. Preferably, the open keeper is spring biased to the retention position.
Referring to
Referring to
The tracks 36 are of a traditional design and have a stretched C-shaped cross-section that defines a channel in which the roller assemblies are received. The tracks 36 are typically mounted to the sidewalls 14, 16, respectively. Each of the tracks 36 can be conceptually divided into a vertical portion 40 and a horizontal portion 42, which are connected by a curved or turn portion 44. The vertical portion 40 is normally located adjacent to the peripheral frame 24 of the trailer 10 and the horizontal portion 42 is normally located adjacent the top wall 18 of the trailer. In this manner, the multiple, hingedly-connected panels 530 can be moved from the closed or lowered position as seen in
Referring to
As illustrated in
Referring to
Referring to
Referring to
Referring to
The lower leg 204 comprises an opening 212 that slidably receives the mounting pin 174 to rotatably mount the closed keeper 166 to the base plate 162. A first rotation stop 214 extends away from the lower leg 204 and is of a length that the rotation stop 214 will contact the leg 244 upon the continued rotation (clockwise as viewed in
The first and second rotation stops 214, 216 function collectively to limit the rotational range of the closed keeper 166. This feature is important since the center of gravity of the closed keeper 166 lies to the left of a vertical axis passing through the mounting pin 174 (as viewed in
The upper leg 206 terminates in a catch 218 having an angled upper surface 220. A finger tab 222 is provided on the opposite end of the upper leg 206 and the catch 218. The finger tab 222 provides a structure that a user can grasp to rotate the closed keeper 166 clockwise and release the handle 168.
With reference to
To move the handle 168 from the lock position, the closed keeper 166 is rotated clockwise until the catch 218 no longer overlies the retaining projection 234 of the handle 168. The clockwise rotation is stopped by the interference between the first rotational stop 214 and the lower leg 244 of the flange 180. The closed keeper 166 is preferably rotated by a user pressing against the finger tab 222 to manually rotate the closed keeper 166.
Once the closed keeper 166 is rotated out of the path of the handle 168, the handle is rotated counterclockwise from the closed position as illustrated in
As the handle 168 is moved from the closed position to the opened position, the hook 170 is similarly moved from the closed position as shown in
As the handle is returned to the closed position, the handle locking flange 198 will normally contact the surface 220 of the catch 218. The continued rotation of the handle rotates the closed keeper 166 clockwise until the locking flange 198 clears the catch. As the locking flange 198 passes by the catch 218, the inherent over-center position of the closed keeper will normally rotate the closed keeper counterclockwise until the second stop 216 contacts the lower leg 244 of the flange 180, resulting in the catch overlying the retaining projection 234 and locking the handle 168 in the closed position and the hook in the locked position. In the event that the closed keeper 166 is stuck in the unlatched position, the end-bottom edge of the locking flange 198 of the handle 168 will strike a surface of the second stop 216 as illustrated in
Reasonable variation and modification are possible within the forgoing description of the drawings without departing from the spirit of the invention which is described in the appended claims.
This application claims the benefit of U.S. Provisional Patent Application Ser. No. 60/319,891, filed Jan. 21, 2003.
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Number | Date | Country | |
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20040140676 A1 | Jul 2004 | US |
Number | Date | Country | |
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60319891 | Jan 2003 | US |