The present invention relates to doors for naval bulkheads; more particularly, to latching mechanisms for watertight sealing of doors in naval bulkheads; and most particularly, to a novel latching mechanism for a bulkhead door that provides consistent lockdown tension, improves fire resistance for a sealing gasket, and eliminates the use of exposed metal latching dogs, thus improving radar cross-section.
Watertight bulkhead doors are well known on naval vessels. As used herein, “bulkhead door” should be taken to mean a sealable door installed in a vertical surface (bulkhead door), a horizontal surface (“hatch cover”), or a door-within-a-door (“scuttle”). A typical prior art bulkhead door includes a resilient gasket that mates with an edge of a collar surrounding a bulkhead opening and extending from the bulkhead outer surface. A plurality of pivotable latches, known in the art as “dogs”, are mounted on the bulkhead and may be pivoted into position against the outer surface of the door where they progressively engage wedged areas, known in the art as “strikers”. Such progressive rotational engagement causes the gasket to be compressed against the collar, sealing the bulkhead opening against water and/or gas transmission.
In some prior art embodiments, the dog spindles extend pivotably through the bulkhead and are mechanically linked around the interior of the bulkhead opening such that actuation of a master handle, extending pivotably through the bulkhead and actuable from either side thereof, causes all the dogs to be engaged or disengaged synchronously.
Prior art bulkhead door systems employing exposed metal dogs create an undesirably enhanced radar cross-section, to the benefit of an enemy combatant in naval warfare.
Further, prior art doors typically are formed by stamping from sheet metal and include a stamped relief pattern to enhance flexural rigidity. It has been found that such a pattern is highly undesirable, for two reasons: first, the pattern greatly increases radar reflection from the door; and second, the pattern is difficult to wash down easily and thoroughly as may be required for washdown of a chemical spill or biochemical attack. For these considerations, a smooth surface is preferred.
The gasket of a prior art door system is relatively exposed to damage by fire on the exterior of the bulkhead, resulting in failure of the watertight and gastight seal.
Use of a plurality of spaced-apart dogs results in inconsistent lockdown pressure across the door such that under extreme pressure conditions the door may become distorted and leakage may occur between adjacent dog positions, especially when the door is formed of a non-metal polymeric composite.
What is needed in the art is an improved latching system for a bulkhead door that eliminates exposed metal dogs on the exterior of the door, provides consistent lockdown pressure across the door, permits easy and thorough washdown from a chemical spill or biological attack, and shields the door gasket from attack by fire.
It is a principal object of the present invention to provide a uniform lockdown pressure at all points of a bulkhead door gasket.
It is a further object of the invention to reduce the radar cross-section of a bulkhead door assembly.
It is a still further object of the invention to protect a bulkhead door gasket from exposure to fire.
It is a still further object of the invention to facilitate easy, rapid, and thorough cleanup of a chemical spill or a biological attack.
It is a still further object of the invention to utilize existing bulkhead openings and door actuation mechanisms.
Briefly described, a latch system for a watertight bulkhead door for closing a bulkhead opening comprises a plurality of shield elements that may be translated by an articulated mechanism into and out of locking engagement with the bulkhead door. The door is provided with a first elongate continuous wedged striker surface along the periphery of the outer door surface, and the shield elements are provided with second elongate wedged surfaces for mating with the first wedged surface when the shield elements are translated into locking relationship with the door. Such wedged mating causes a resilient gasket mounted in a flange of the door to be compressed against an edge of a collar surrounding the bulkhead opening. The exterior shield elements abut each other in closed position, forming a continuous frame around and over the periphery of the door, thereby shielding the gasket from ready attack by fire and providing a small radar cross-section. Preferably, the exterior shield elements are mounted to a modified prior art articulated mechanism disposed on the interior of the bulkhead and surrounding the bulkhead opening. Preferably, a plurality of translatable inner bulkhead shields is also provided to cover the articulated mechanism during actuation thereof for reasons of personnel safety.
The present invention will now be described, by way of example, with reference to the accompanying drawings, in which:
Referring to
The peripheral surface of door 12 is provided with a plurality of strikers 26 tapered in a direction generally parallel with the sides of door 12. An equal number of dogs 28 are pivotably disposed, one for each striker, outboard of door 12 in collar 18. Dogs 28 are mounted on spindles 30 extending through collar 18 and bulkhead 20, the spindles being synchronously rotatable by an articulated mechanism (not visible in
In operation of prior art system 10, starting in an open position, rotation of lever 32 in a first direction causes dogs 28 to be rotated on their individual spindles 30 into overlapping relationship with strikers 26 whereby each dog 28 engages the wedged surface of its respective striker 26. Continued rotation of dogs 28 on the striker wedged surfaces urges door 12 toward bulkhead 20, causing the gasket to be compressed against the collar flange. Opening of system 10 is the reverse of closing.
Referring to
The peripheral surface of door 112 is provided with an elongate striker 126, preferably continuous around the periphery of door 112 and having a surface 127 tapered in a direction generally orthogonal to the sides of door 112. A translatable exterior shield assembly 128 comprising a plurality of individually translatable shield elements, preferably numbering four 130a,130b,130c,130d, is disposed on an articulated mechanism (not visible in
In locked position, as shown in
In open position (
In a currently preferred embodiment, bulkhead door 112 comprises outer and inner shells 113,115 formed of material composites and bonded together.
Referring to
Similarly, left and right locking wedge elements 142b,142d are pivotably mounted on lock lever arms 144b,144d respectively. Arms 144b,144d in turn are fixedly mounted on respective spindles 146b,146d which are pivotably extended through collar 118 and bulkhead 120 such that rotation of spindles 146b,146d causes wedge elements 142b,142d to be urged into or out of overlapping relationship with door striker 126, causing compression of gasket 148 against collar flange 150.
Referring still to
Referring to
Similarly, the lower ends of connecting rods 174b,174d are themselves linked by connecting rods 176b-2,176d-2 to lower bellcranks 178-3,178-4. Bellcrank 178-3 is pivotably mounted on a blind spindle 180. Bellcrank 178-4 is fixedly mounted on spindle 146c-2. First lower curved lever arm 182-3 is mounted on spindle 146c-1 for actuation by a linkage 184 connected to bellcrank 178-3. Second lower curved lever arm 182-4 is fixedly attached to bellcrank 178-4 for rotation therewith.
A master interior actuating lever 184 is fixedly mounted on pivotable spindle 134 extending through the bulkhead and collar to a master exterior actuating lever 132 as described above. Master interior actuating lever 184 is attached to actuating lever 172d such that rotation of either of levers 132,184 and spindle 134 serves to move mechanism 170, and consequently exterior shield system 128, into or out of locked position.
Preferably, system 110 further comprises an interior shield system 188 analogous to exterior shield system 128. Interior shield system 188 comprises a plurality of individually translatable interior shield elements 190 analogous to exterior shield elements 130a,130b,130c,130 and disposed on lever arms 172,182 of articulated mechanism 170 such that the linkages in mechanism 170 are shielded during actuation thereof to prevent injury to personnel.
While the invention has been described by reference to various specific embodiments, it should be understood that numerous changes may be made within the spirit and scope of the inventive concepts described. Accordingly, it is intended that the invention not be limited to the described embodiments, but will have full scope defined by the language of the following claims.
The present application draws priority from a pending U.S. Provisional Patent Application Ser. No. 60/607,019, filed Sep. 3, 2004.
Number | Name | Date | Kind |
---|---|---|---|
2151154 | Roethel | Mar 1939 | A |
2210989 | Sutherland | Aug 1940 | A |
6341450 | Macander et al. | Jan 2002 | B1 |
Number | Date | Country | |
---|---|---|---|
60607019 | Sep 2004 | US |