Movable or removable closures – Thermal releaser or actuator – Fusible closure latch or retainer
Reexamination Certificate
2000-06-21
2003-09-09
Friedman, Carl D. (Department: 3635)
Movable or removable closures
Thermal releaser or actuator
Fusible closure latch or retainer
C052S783130, C052S232000, C052S784150, C052S784110, C052S001000, C292SDIG006, C292SDIG006, C292S092000, C292S337000, C049S008000
Reexamination Certificate
active
06615544
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a fire-resistant laminate structure and more particularly to horizontally hinged doors for floors that have a high fire rating and which use an automatic control system to automatically close the door in a fire.
The need for fire resistant structures is self-evident and building codes have been passed by governments to ensure that public safety is protected. Such building codes mandate fire-resistant materials such as panels and mechanisms to prevent the spread of fire. Structures such as floors, ceilings, and doors must have resistance to the path of the fire and many techniques have been used to produce such fire resistance.
Horizontally-hinged doors may be used for access doors, roof scuttles, automatic fire vents, ceiling access doors, etc., to provide access from one location to another location such as through a floor into a space between the floor and ceiling below. Such openings are a safety hazard in the event of fire because they present a path to the spread of the fire. Therefore, most fire codes mandate that such openings be closed with fire-resistant materials. It is also necessary for these doors to be automatically closed in case of fire.
The industry standard uses ASTM E119 to define a maximum temperature rating on the unexposed surface to prevent the effect of a fire on the floor below from causing fire damage to the floor above.
Generally, some sort of insulation is required on fire-resistant doors. To achieve ASTM-E119, earlier doors have used either a thick (usually four inch) layer of insulation comprised of mineral wool or fiber board and air within the door structure, or have coated the door with an intumescent material. As used in the present document, “intumescent material” shall be defined as “a material that, upon exposure to heat or flame, swells or puffs up to a relatively thick cellular foam char which possesses heat-insulative and fire-retardant properties.”
A problem with mineral wool-insulated doors is that the insulative property of the mineral wool is such that a thick layer, usually four inches, must be used to pass the ASTME-E119 standard. This requires the door to be at least this thick.
A problem with earlier intumescent materials is that by themselves they do not provide sufficient insulative properties to meet ASTM E-119. An example of a fire door constructed with such material is disclosed in U.S. Pat. No. 5,554,433 (Perrone et.al.), herein incorporated by reference. Perrone requires a layer of cementitious material on the door surface opposite the surface on which the intumescent material is applied. According to Perrone, this cementitious material acts as a thermal barrier and insulator and also serves to dissipate the heat that penetrates the structural material of the door by steam produced from water in the cement. The cementitious material is layered onto the door after it is sold, and greatly increases the weight of the door.
U.S. Pat. No. 4,799,349 (Luckanuck), herein incorporated by reference, discloses a steel fire door with a central core filled with mineral wool. The mineral wool is bonded to the inner surfaces of the steel sheets forming the door by a binder comprising a mixture of alkali metal silicate and a mineral powder that causes the binder to intumesce under high temperature, thus protecting the mineral wool against the heat.
A problem with Luckanuck is that the mineral wool is a fiber sheet that completely fills the hollow core of the door, leaving no space within the hollow core for door hardware. Also, Luckanuck is not disclosed as having an aluminum door. Aluminum softens at about 400° C. and melts at about 600° C. (see U.S. Pat. No. 4,888,507, herein incorporated by reference).
There is a need for a fire-resistant floor door that overcomes the problems discussed above. In particular, there is a need for a fire-resistant floor door that may be constructed of aluminum, with an intumescent coating on the outside surface of the door facing the fire, and with a hollow central core without insulating material that may be used to hold door hardware such as the handle, and without the need for a cementitious layer on the outside surface of the door away from the fire.
There is also a need for an improved self-closing mechanism for a fire-resistant door that is substantially less complex and less expensive to manufacture than that disclosed in Perrone.
SUMMARY OF THE INVENTION
A fire-resistant, aluminum, cementitious-material-free, insulation-free door adapted to prevent the spread of fire and heat passing therethrough, consists of: a door frame; a door hingedly mounted on the door frame, the door having a bottom wall, a top wall, and side walls, the bottom wall, top wall and side walls enclosing a hollow central core not containing substantial amounts of insulating material, the bottom wall having an outside surface, and the top wall having an outside surface; and a layer of intumescent material on the outside surface of the bottom wall.
A principle object and advantage of the present invention is that it does not require any cementitious material on the door to provide heat insulation.
Another principle object and advantage of the present invention is that it does not require substantial amounts of insulation material in the interior of the door.
Another principle object and advantage of the present invention is that much of the door hardware, including a lock, may be mounted in the hollow core of the door. This allows the door to be mounted without reducing the clear opening size.
Another principle object and advantage of the present invention is the unique intumescent material used, which provides sufficient insulation, when activated by fire, that cementitious material and additional insulation are not needed.
Another principle object and advantage of the present invention is that the intumescent material shields the door sufficiently that the door may be constructed of aluminum.
Another principle object and advantage of the present invention is that the door passes ASTM E119 for a minimum of two hours.
Another principle object and advantage of the present invention is the novel self-closing mechanism disclosed herein. The self-closing mechanism simply allows the weight of the door to close the door by deflating a gas spring holding the door open, which is a much simpler design than earlier self-closing mechanisms which used a heavy-duty hydraulic system to pull the door shut against the force of compression springs holding the door open.
Another principle object and advantage of the present invention is a reduction in manufacturing cost attributable to the improved design.
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Bilco Speciality Access Products (BSAP) cat. p. 20.*
Bilco Specialty Access Products catalog, p. 20.
Maxam Metal Products Ltd., Model HD Insulated for Horizontal Floor/Ceiling Applications, Aug. 18, 1998.
Carroll Michael J.
Johnson Patrick K.
Tlemcani Jalil
Friedman Carl D.
Nguyen Chi Q
Nystrom, Inc.
Patterson Thuente Skaar & Christensen P.A.
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