The present invention relates generally to a door which is used to gain access to the interior of a steam generator and its related equipment, and more particularly to a door latch which can be quickly released by a person from within the steam generator or related equipment.
Access doors for steam generators and related equipment (e.g., flues, ducts, windboxes, hoppers, air heaters, penthouses, vestibules, precipitators, baghouses, scrubbers, etc.) are used to gain entry into the interior of the steam generator apparatus and related equipment Installation and maintenance personnel need such access for movement of equipment and materials into and out of the steam generator and related equipment for installation, repair, and maintenance of the internal components and surfaces of the steam generator and related equipment.
The prior art steam generator access door constructions are not known to have been equipped with latch mechanisms which can be unlatched from within the steam generator.
The lack of providing steam generator access doors with a latch mechanism which is releasable from the inner side of the door has been due, in large part, to the harsh operating environment caused by the high temperature combustion product laden flue gas flowing through steam generators firing coal and other fossil fuels. These flue gases contain entrained products of combustion such as slag, ash, and/or soot which are deposited on the exposed surfaces of the steam generator.
A variety of latch mechanisms which can be released from the inside of a door have been provided for freezers, refrigerators and the like, where the interiors are kept under a relatively clean environment. Such latch mechanisms are of multipart construction whose parts are automatically returned to the normal operative position after the door has been opened from the inside. See for example, U.S. Pat. Nos. 2,747,906; 2,849,250; 2,966,864; 3,936,086; and 4,372,591.
Prior art latches which allow the opening of an access door from the indoor side are complex in construction and operation and may be difficult to manipulate in the dark and cramped quarters of a steam generator.
It is therefore a principal aspect of the present invention to provide a quick-release latch structure which is of simplified construction and operation.
A further aspect of the present invention is to provide an access door with an indoor latch release capable of withstanding the harsh environment of an operating fossil fuel fired steam generator.
Another aspect of the present invention is to provide a latch structure requiring only a turn of a latch handle from inside the access door to release the striker and allow the access door to be pushed open.
A further aspect of the present invention is to provide a rugged and durable latch structure including a striker releasable from inside the steam generator, and which is relatively inexpensive to fabricate and easy to assemble and manipulate.
The present invention is drawn to a steam generator access door latch mechanism structured for quick release, if necessary, from within the steam generator.
The quick-release latch mechanism must also be capable to withstand the harsh environment of an operating steam generator. The present invention accomplishes this by providing a latch mechanism which is simply comprised of two essential parts; i.e., a latch handle and a striker. Both the latch handle and the striker are disengaged and separately removed as the access door is being opened, and are manually returned to the normal operative position as the door is being closed. Thus, the latch handle and the striker are available for visual inspection and, if necessary, repair or replacement by maintenance personnel, each time that the access door is opened.
In accordance with this invention, there is provided a quick-release latch mechanism for use with an access door for a walled enclosure. The access door is pivotably mounted on a door frame for swinging between open and closed positions. The quick-release latch mechanism includes a striker having a proximal end located on the outer side of the door and a distal end slidably extending into the enclosure through a corresponding slot formed in the door frame. A keeper is located within the enclosure adjacent the inner side of the door and adapted to releasably engage and be captively held by the striker when the door is in the closed position. If necessary, the access door can be quickly unlatched from within the enclosure by manually rotating the keeper away from the enclosure wall to disengage and cause removal of the striker from the slot as the door is manually pushed open from within the enclosure.
The keeper is in the form of a latch handle having a forked cam at one end and a pistol-type grip at the other end. A catch pin is mounted in the forked cam end of the latch handle.
The striker is formed with a latching hook at its distal end and a pivotably mounted threaded member at its proximal end. The latching hook includes a notch shaped to receive the catch pin of the latch handle.
At least one yoke extends across the outer side of the access door, and has one end hinged to brackets secured to the door frame and the other end notched to engage the threaded member of the striker. A turning handle is threadably engaged with the threaded member at the proximal end of the striker to apply inward pressure to the exterior of the door by rotating the turning handle clockwise, while the door is in the closed position.
When the access door is in the closed position, the pistol-type grip of the latch handle abuts or bears against the enclosure wall, and the forked cam end and catch pin are engaged with the striker latching hook.
In accordance with the invention, if necessary, the access door can be readily opened, from within the enclosure, by manually rotating the latch handle away from the enclosure wall with an angle of rotation of about 90 degrees along a plane perpendicular to the wall to effect the release of the catch pin and disengagement of the latch handle from the striker latching hook thereby allowing the door to be manually pushed to the open position.
Accordingly, another aspect of the present invention is drawn to a method of latching and unlatching a walled enclosure access door for quick release from within the enclosure, the method comprising the steps of pivotably mounting the door on a door frame for swinging the door between open and closed positions; providing a latch handle inside the enclosure, the latch handle having a pistol-type grip at one end and a forked cam at the other end with a catch pin mounted therein; providing a striker with a latching hook at one end and a pivotable threaded member at the other end; inserting the latching hook end into the enclosure; positioning the latch handle with the pistol-type grip end abutting the inside of the enclosure wall and the catch pin engaging the latching hook; pushing the door to its closed position for engagement with the threaded member of the striker; applying inward pressure to the exterior of the door while the door is in the closed position; and, if necessary, unlatching the door from within the enclosure by rotating the latch handle away from the enclosure wall thereby causing the catch pin to disengage itself from the latching hook with the latching hook being removed from the enclosure as the door is being manually pushed open.
Another aspect of the invention involves the method of latching and unlatching a walled enclosure access door, wherein the step of unlatching the door includes rotating a quick-release latch handle 90 degrees from within the enclosure wall.
Yet another aspect of the invention involves the method of latching and unlatching a walled enclosure access door, including the step of forming a slot in the door frame such that the latching hook is free to move into and out of the enclosure.
Yet still another aspect of the invention involves the method of latching and unlatching a walled enclosure access door, including the step of mounting a yoke onto the door.
Still another aspect of the invention involves the method of latching and unlatching a walled enclosure access door, wherein the step of applying inward pressure to the exterior of the door includes meshing the yoke with the threaded member of the striker.
A further aspect of the invention involves the method of latching and unlatching a walled enclosure access door, wherein the step of meshing the yoke with the threaded member of the striker includes turning means threadably engaged with the threaded member of the striker.
A still further aspect of the invention involves the method of latching and unlatching a walled enclosure access door, including the step of rotating the turning means clockwise to apply inward pressure to the exterior of the door.
Referring to drawings, wherein like reference numerals designate the same or functionally similar elements throughout the several drawings, there is shown in fragmentary fashion an upright wall 10 of a steam generator enclosure or passageway 12 which is provided with a wall opening 14 through which access may be had to the interior of the enclosure 12. The opening 14 is of generally rectangular configuration, elongated in a vertical direction, and is defined by a door frame 16 provided in the upright wall 10. A door casing 18 is mounted on the door frame 16. A rectangular access door 20 overlaps the entire periphery of the casing 18 and is adapted to abut the casing 18 when the access door 20 is fully closed. The door 20 is reinforced by cross-stiffeners 19 affixed to the door side facing the interior of enclosure 12. Grab bars 21 are mounted on the door frame 16 inside and outside of the enclosure 12 for ease of exit from and entry into the enclosure 12.
A pair of spaced upper and lower parallel horizontal yokes 22, shown in
In accordance with the present invention, there is provided a quick-release latch mechanism 30, shown in
The strikers 32A-B include a latching hook 36 formed at its distal end, and a coupler or clevis 40 formed at its proximal end. The latching hook 36 is configured with a notch 42 formed therein, and shown in
Each of the keepers or latch handles 34 A-B is formed with a pistol-type grip 48 at one end and a forked cam 50 at the other end. The forked cam 50 includes a pair of supporting legs 52 which are spaced sufficiently apart so as to pivotably straddle the corresponding latching hook 36 of striker 32A-B. A catch pin 54 is connected to the supporting legs 52 of the forked cam 50.
The following is a description of the operation of the access door latch mechanism 30 for quick release by a person from inside the steam generator enclosure or passageway 12. The process of unlatching the access door 20 from the inside of enclosure 12 is effected by manually rotating the latch handles or keepers 34A-B away from the enclosure wall 10 along a plane perpendicular to the wall 10 until the latch handles 34A-B are disengaged from the corresponding latch strikers 32A-B.
Although the present invention has been described above with reference to particular means, materials, and embodiments, it is to be understood that this invention may be varied in many ways without departing from the spirit and scope thereof, and therefore is not limited to these disclosed particulars but extends instead to all equivalents within the scope of the following claims.