Plastic and nonmetallic article shaping or treating: processes – Forming structural installations in situ – Uniting preform member with molding material
Reexamination Certificate
2000-11-17
2004-04-06
Acquah, Samuel A. (Department: 1711)
Plastic and nonmetallic article shaping or treating: processes
Forming structural installations in situ
Uniting preform member with molding material
C264S045300, C264S046500, C521S097000, C521S130000
Reexamination Certificate
active
06716377
ABSTRACT:
FIELD OF INVENTION
The present invention relates to the use of a plastic foam system, which contains at least one filler, capable of swelling in the presence of water, for sealing openings in buildings, which are connected to the outside, especially for sealing house lead-ins, for which the pipes or cables are passed through openings in walls, floors or ceilings from the outside into the interior of the building.
BACKGROUND INFORMATION AND PRIOR ART
Conventionally, the annular gap between pipes, cables or the like and walls, floors or ceilings, through which the pipes or cables are passed, are sealed with the help of very different methods, such as a mechanical sealing, chemical sealing and combinations thereof.
In the case of mechanical sealing, solid sealing elements are introduced into the gap and bring about a sealing by a form-fitting adaptation by an elastic press compaction with the substrate. In the case of chemical sealing, the opening remaining, between the pipe and/or cable and the wall or the ceiling, is filled with reactive systems, which cure and close off the opening. For this purpose, inorganic systems (such as a mortar) or organic systems, such as sealing compositions, polymer compositions, sealing foam, etc. can be used. In the case of combined chemical and mechanical sealing, mechanical formwork usually is put in place first and chemical sealing material is introduced into this formwork in accordance with the systems described above.
These conventional methods are not completely satisfactory, since mechanical solutions are expensive, time-consuming and work-intensive to install and are limited to particular pipe diameters, cable thicknesses and borehole diameters. Chemical sealing, which acts by filling the remaining openings with sealing composition, foams or mortar, does not have this disadvantage; however, it does not generally guarantee a permanent seal against the entry of water. This is a problem particularly in the case of wall and ceiling channels, which are connected to the outside and exposed to the weather. This is frequently due to the permeability of the material itself (open cell foams) and to the deficient adhesion of these chemical sealing compositions to different critical substrates, such as plastic surfaces of pipes and/or cables.
From the DE-A-197 48 631, a method for sealing is already known for preventing the exit or entry of liquids out of or into systems which, in a space separating two systems from one another, has a polymer, which is not decomposed biologically and is capable of swelling by adsorbing liquids, or at least two components, reactively forming such a polymer. In particular, the polymer is present as a powder in a biologically decomposable tube, such as a paper tube, or is applied on fibers, so that the woven, knitted or nonwoven material can be used as a seal. This seal preferably is downstream from a conventional seal in a connecting sleeve or is present in the form of a double sheet for sealing landfills, the swellable polymer being introduced between the two sheets. This seal is an embodiment of the chemical/mechanical sealing addressed above which, because of the necessary adaptation to the sealing regions of the connecting sleeves or of the sheets at the substrate, which is to be sealed, is time-consuming and labor intensive and usually must be kept and installed in the form of suitably shaped sealing products.
The EP-A-0 453 286 discloses a super-absorbing foam composition, which is produced by reacting at least one polyol with at least one polyisocyanate under foam-forming conditions in the presence of at least one polymeric, super-absorbing material. The presence of the super-absorbing material increases the absorptive capacity of the foam. However, this publication merely describes the use of this super-absorbing material as a growth medium for raising plants.
OBJECT OF THE INVENTION
It is an object of the present invention to overcome the problems of the above-addressed conventional seals for the annular gaps between pipes and/or cables and the corresponding channels through walls, floors or ceilings of buildings.
SUMMARY OF THE INVENTION
Pursuant to the invention, this objective is accomplished by the use according to claim 1. The independent claims relate to preferred embodiments of this object of the invention
The object of the invention therefore is the use of a plastic foam system, which contains at least one filler, capable of swelling in the presence of water and referred to below as water-swellable filler, for sealing openings in buildings, which are connected to the outside, especially for sealing wall and ceiling channels of cables, pipes and the like.
Preferably, pursuant to the invention, a water-swellable polymer is used as filler, capable of swelling in the presence of water. Water-swellable polymers of this type are known, for example, from the DE-A-197 48 631. Particularly preferred are water-swellable polymers in the form of homopolymers or copolymers based on (meth)acrylic acid, (meth)acrylamides and/or (meth)acrylates. Any monomers, which are capable of copolymerizing with the monomers addressed above and do not affect the swelling capability of the copolymer, can be used in the copolymer. Preferred co-monomers are acrylonitrile, acrylates, acrylamides, allyl compound, vinyl acetate, hydroxyethylcellulose, hydroxypropylcellulose, carboxymethylcellulose, carboxypropylcellulose and salts thereof (such as sodium salts), as well as guar-galactomannan derivatives and the like. Especially preferred are polyacrylic acids, which can be obtained commercially under the name of “Cabloc”, preferably are cross linked and are present in a partially neutralized form, particularly in the form of the sodium salts. Especially preferred products of this type are the products Cabloc CT, Cabloc CTF and Cabloc C96 of the chemical Fabrik Stockhausen GmbH, D47805 Krefeld.
The swellable polymer, used pursuant to the invention, is present in the plastic foam system used as sealing material. The plastic foam system can be one of the conventional foam systems, which are used in the building industry primarily as an installation foam. Especially preferred are one-component polyurethane foams, two-component polyurethane foams, two-component polyurethane aerosol can foams and two-component epoxide resin foams. The one-component polyurethane foams preferably are present in the form of an isocyanate group-containing pre-polymer in an aerosol spray can or cans, from which the components of the polyurethane foam is or are expelled under the action of the driving gas pressure of the blowing agent. The two-component polyurethane foams or two-component epoxide foams preferably are present in cartridges, the binder component and the curing agent component being present in different cartridges. The components, together with the remaining components, are expelled under pressure either by a blowing agent in the case of aerosol can foams, or by mechanical expulsion, and mixed in a static mixer, after which the mixture is introduced into the opening that is to be sealed, where it foams and/or cures. Pursuant to the invention, silicone foam systems can also be provided with the swellable polymers and used for the claimed application.
The plastic foams, which are to be used pursuant to the invention, can be open-cell or closed-cell foams. These pore forms are familiar to the expert and can be produced selectively in the foams by choosing the appropriate components. In this connection, the open-cell plastic foams are particularly preferred, because surprisingly it has turned out that, contrary to their anticipated larger porosity, they are significantly better than closed-cell foams in sealing the annular gap, which can never be quite avoided in the contact region between the plastic foam and the surface of the wall, floor or ceiling, or in sealing the openings, through which pipes, cables, pipelines, etc. are passed, if these devices, which are passed through the openings, have plastic surfaces of, for example, polyethylene, polypropyle
Heimpel Franz
Huber Silvia
Kögler Markus
Vogel Peter
Bissett Melanie
Hilti Aktiengesellschaft
Sidley Austin Brown & Wood LLP
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