Electricity: conductors and insulators – Conduits – cables or conductors – Combined
Reexamination Certificate
2000-12-13
2002-07-30
Nguyen, Chau N. (Department: 2831)
Electricity: conductors and insulators
Conduits, cables or conductors
Combined
C277S627000
Reexamination Certificate
active
06426463
ABSTRACT:
FIELD OF INVENTION
The invention relates to a fire-protection sleeve for pipes, cables and the like, formed of an axially extending tubular metal housing with a radially outwardly extending flange at one end. A heat-intumescing composition is located within the housing at the one end and encircles an opening through the housing arranged to receive a pipe, cable and the like.
BACKGROUND INFORMATION AND PRIOR ART
Fire-protection sleeves are used as fire-protection elements for holes through masonry walls, ceilings or floors of buildings. In the case of combustible or fusible pipes, cables and the like of plastics material, glass or aluminum, the sleeves are intended to close off openings in masonry, in order to prevent penetration of fire through the opening. Known fire-protection sleeves usually have a tubular configuration and are used, for example, as space holders in an early building phase. In these cases, they are mounted on a form and cast into the concrete. In this way, the concrete wall part is already provided with a masonry opening. During the installation in a later building phase or during a subsequent enlargement, fire-protection sleeves, as closing-off sleeves, are inserted from one side into a previously produced opening in the masonry. The known fire-protection sleeves have a metal or plastics material housing, into which a sufficient amount of a heat-intumescing composition is integrated, which expands in the event of a fire and closes off the opening that results when the part or cable burns or melts away.
The larger the diameter of the opening that is to be closed off and the higher the pressure resulting from the fire, the more difficult it is to close off the opening, during a fire. In addition, in the event of a fire, the fire-protection sleeves with the heat-intumescing composition must be able to withstand the pressure of the jet of extinguishing water, used by the firefighters. For this purpose, systems are already known in the state of the art, for which the intumescence of the composition integrated into the fire-protection sleeves, is actively supported by mechanical components, such as springs, flaps, fiberglass fabric, and the like. The main function of these mechanical components is to support the slight expansion force of the heat-intumescing compositions or, since the latter are relatively expensive, to reduce the amount of intumescing composition. The known mechanical aides fulfill their function satisfactorily only if the diameters of the openings are relatively small. In the case of larger diameters, they are relatively unwieldy in use and make the fire-protection sleeve unduly more expensive.
The U.S. Pat. No. 4,888,925 discloses a sleeve-like pipe coupling, which is placed in an opening in masonry. The pipe coupling has as a tubular inner housing of plastics material with stops, which project into the interior, for the pipes, which are pushed in and are to be coupled. At one longitudinal end, the interior housing is surrounded by an annular metallic casing. The annular space between the metal casing and the inner housing is filled with a heat-intumescing composition. Metal brackets, radially projecting from the casing to the tubular inner housing, form the boundary of the annular space at the one longitudinal end of the pipe coupling. The radially extending brackets are to prevent the emergence of the intumescing composition from the annular space and serve to improve the introduction of heat in the event of a fire, so that the expansion of the heat-intumescing composition is reliably initiated. In the event of a fire, the tubular inner housing, together with the plastics material pipe that has been pushed in, burn away and the expanding composition is intended to seal the resulting opening. This effect functions satisfactorily in the case of smaller diameters. However, in the case of larger diameters, the known problems arise with the fire pressure, which exists in the case of a fire, and, optionally, with the water pressure caused by the jet of extinguishing water. This known pipe coupling is suitable only for pipes with the necessary nominal diameter. For pipes with smaller or larger diameters, a different pipe coupling is required. In addition, these known pipe couplings actually are not fire-protection sleeves, since the pipes cannot be passed through the device. Rather, the pipe coupling only joins together the longitudinal ends of individual pipes, which are pushed in at opposite longitudinal ends.
SUMMARY OF THE INVENTION
Therefore, it is a primary object of the present invention to improve the fire-protection sleeve so that, in the event of a fire, openings of a larger diameter can also be reliably closed off. The seal should also withstand a higher fire pressure and the pressure of the extinguishing water used by the firemen. The fire-protection sleeve is suitable for pipes, cables and the like of different diameters. Moreover, it is simple and inexpensive to manufacture the fire-protection sleeve.
This object is accomplished by a fire-protection sleeve with the following distinguishing features. Preferred variations and/or further development of the invention are set forth in the dependent claims. The fire-protection sleeve of the invention for a pipe, cable and the like comprises an essentially tubular metal housing, which has a radially outwardly protruding connecting flange at one longitudinal end. An axial end section of the housing has a heat-intumescing composition, which is disposed at the inner wall of the housing and circularly surrounds an axially extending opening for the pipe, cable and the like. At the axial end section of the housing having the heat-intumescing composition, metallic lamellas are disposed, which extend essentially radially inward from the casing of the metal housing into the opening for the pipe, cables and the like and are flexible in the axial direction.
Because of the flexibility of the metallic lamellas, projecting into the opening, pipes, cables or the like can be easily pushed through. The lamellas do not impede the pushing-in process. There is great latitude with respect to the diameter of the pipes, cables and the like, which can be pushed into the fire-protection sleeve with a given diameter of the opening. The axially flexible lamellas lie against the outer wall of the member that has been pushed in and hold it in a quasi-centered position in the fire-protection sleeve. In the event of a fire, during which the member, which has been pushed in, usually burns or melts away, the lamellas are surrounded by the intumescing composition. They do not actively participate in sealing the opening through the fire-protection sleeve. Instead, embedded in the expanding composition, they form a reinforcement for the sealing plug formed by the action of heat on the expanded intumescing composition. The reinforcement provides greater mechanical strength to the expanding composition in the event of a fire, so that the composition is better able to withstand the fire pressure arising in the event of a fire and, optionally, the pressure exerted by the directed extinguishing.
Since the lamellas are disposed in a rosette fashion and are at a distance from one another in the circumferential direction, they are embedded even better during the expansion of the intumescing composition. The expanding composition is deposited in the cavity between the lamellas and is tied in even better. For the intumescing compositions usually used, it proves to be advantageous if the lamellas, in the circumferential direction, are at least at a distance of about 1 mm to about 8 mm from one another.
Preferably, the lamellas are formed of a spring steel. By these means, it is ensured that individual lamellas are not broken when pipes, cables and the like are passed through. When a member is pushed in, the lamellas of spring steel are bent only reversibly and lie under tension against the outer wall of the pushed-in member. Whereby, on the one hand, excessive forces do not have to be overcome while pushing in a member and, on the othe
Andresen Arndt
Milhes Jean-Louis
Münzenberger Herbert
Hilti Aktiengesellschaft
Nguyen Chau N.
Sidley Austin Brown & Wood LLP
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