NL1002415C2 - Building protection system from moisture damage - Google Patents

Abstract

The system protects a building from damage due to excess moisture, using a layer containing calcium in a cellar. Calcium, typically consisting of seashells in powder or corpuscular form, is mixed in with the top layer (8) of the cellar floor (2). In addition, a layer containing calcium can be painted or sprayed onto the cellar walls and ceiling. Unslaked lime can be added to the layer, and it can be mixed with water to saturation point before mixing with the layer. Carbonic acid calcium such as calcite (sic) can be added to the layer, with which cement and air-bubble-forming agents are also mixed.

Description

5 PROCESS FOR AGAINST HARMFUL INFLUENCES

PROTECTING A BUILDING

The present invention relates to a method 10 for protecting a building against harmful influences, such as moisture nuisance, by applying a layer containing lime in a crawl space. Other examples of harmful influences which can be combated by means of a method according to the present invention are bacterial infection, for example after a sewer rupture, and rising cold.

Such a method is known from applicant's own Dutch patent applications 92.01.835 and 89.01.087, in which a layer containing whole or broken shells is applied loosely or in the form of building elements to the bottom of a crawl space.

The drawbacks of the above known methods have the drawback that in almost all cases moisture nuisance will return in a crawl space treated according to the known methods as a result of the prolonged action of moisture, such as groundwater. This moisture, for example, draws up from the bottom and through the foundation and the walls of the crawl space. The air rising from the crawl space can hereby be very unpleasant and be detrimental to the health of the residents or at least affect the living climate and / or the living conditions in the building. Furthermore, damage to the woodwork associated with the presence of moisture can recur, as can growth of fungi and fungi on stone structures and woodwork, such as foundation piles, in or under the crawl space. Furthermore, pests are again attracted to the crawl space by the recurring moist environment.

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The accessibility of the crawl space is also reduced with the known method, which is an obstacle in particular in connection with, for example, maintenance of floors, walls, pipes, of sewer, electricity or C.V.

To combat the effects of another harmful influence, sewage breakage, poison and other chemical cleaning agents are usually used. These substances disinfect any soil or woodwork which may be affected by bacteria. This treatment then takes place after cleaning, for example excavation, and / or suction of the crawl space, but does not offer a solution for bacteria accumulation, in particular bacteria that have penetrated into the floor of the crawl space. Moreover, this top layer cannot be processed, or even reached, without intensive work, when a layer of shells has been applied to the bottom, and the use of these substances for the treatment of the crawl space is harmful to the environment, both inside and outside the building.

20 Incidentally, moisture rising through the foundation in the walls of the building can also penetrate into rooms above the crawl space and be harmful there, for example in the form of wood rot or again as a too humid living environment, so that vermin will also be attracted again. .

The present invention aims at least to overcome an above-mentioned drawback and to that end provides a method which is distinguished for this purpose by mixing lime, such as shell lime, in particulate or powder form 30 with the top layer of the bottom of the crawl space.

A building treated with the aid of a method according to the present invention is effectively protected against, inter alia, rising cold and moisture nuisance.

35 Incidentally, the lime, such as shell lime, has a durable disinfectant effect in the top layer, which is particularly important in combating the consequences of excessive humidity or the consequences of a hygienic accident, such as sewer breakage. When using lime, such as shell lime, woodwork, such as beams and foundation piles, is leached to disinfect it due to the high pH value. This has no negative consequences, since leached wood is very suitable for construction purposes. It is further noted that lime, such as shell lime, has good heat insulating properties in the top layer.

Moreover, by mixing the lime in the top layer of the bottom in the crawl space, at least part of the foundation, which is formed by a steel foundation or a foundation with wooden or concrete piles, is also covered with the lime, such as shell lime. which contributes to the protection of the foundation against moisture penetration, in particular when the moisture is contaminated, and against attack of concrete. Particularly when the soil is excavated and the foundation is at least partially exposed (the part of which corresponds to the thickness of the excavated layer of the soil), a treatment thereof with a lime-containing layer can be advantageously carried out.

Furthermore, in particular shell lime has very environmentally friendly properties, such as a very low radiation level, heat insulation and is relatively easy to recover, is electrostatically neutral, non-toxic, etc.

In another embodiment, a method according to the present invention is distinguished by additionally painting or spraying a layer of a lime, such as shell lime, containing mixture on at least a wall or the ceiling of the room.

When treating a crawl space wall in this way, the penetration of moisture and cold rising through the foundation is effectively remedied and when treating the crawl space ceiling, penetration through the floor of a room located above the crawl space is effectively remedied . Effective heat insulation is also obtained.

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The lime used, such as shell lime, can be used in various embodiments of the present invention in various forms, such as slaked or quicklime shell lime or carbonic shell lime, such as calcite. The inherent advantages are further discussed below.

In an embodiment of the present invention, a certain amount of cement and optional other substances can be added to the lime to be mixed in the soil, such as shell lime, so that the top layer has an improved stiffness, without air flow over and through the top layer thereby as would be the case when a cement layer is poured over the soil. However, as already mentioned above, harmful influences are neutralized here.

The present invention is further elucidated with reference to the figure description below of an exemplary embodiment thereof. In the drawing, the figure shows a perspective sectional view 20 of the crawl space of a building during treatment thereof in accordance with the present invention.

The building 1 shown in fig. 1 comprises a crawl space 4, which is formed by a bottom 2, a foundation 3, walls 5, 17 and a ceiling 9, which ceiling 9 also forms the floor of the room above the crawl space 4.

In the part of the crawl space 4 shown in the figure on the left, a person is busy with a handle 16 of lime, such as shell lime, by spitting the top layer 8 of the bottom 2 around a top layer 8 with an approximately homogeneously distributed amount of lime. in this. As a result of this top layer 8, moisture rising from the bottom 2 is effectively prevented.

When mixing lime through the top layer 8 of the bottom 2, use can for instance be made of powdered shell lime or, preferably, of shell lime in particulate form, in which chunks, clods or short-lived shell lime with the top layer 8 of the bottom 2 are mixed.

Use is made of slaked shell lime, but it is also possible to use 5 quicklime shell lime. It is noted here that quicklime shell lime is useful as a moisture-extracting substance, wherein the shell lime is placed, for example in granular or powder form, in a container, such as a pot, container or bucket, in the crawl space to be treated.

10 In the part of the crawl space 4 shown in the figure on the right-hand side, a person is busy with a shell lime-containing layer 6 on the concrete walls 17 with ventilation holes 7 and a shell lime-containing layer 11 on the ceiling 9 and on floor ball belonging to the ceiling 9 -15 know 10 to spray. For this purpose use is made of a compressor 13, a hose 14 and a syringe 15. However, as an alternative use can be made of many aids known per se in the art, such as brushes and rollers. Incidentally, it is noted that bottom 18 is also covered with a layer of shell lime-containing layer 12 by spraying this layer 12 on bottom 18. Prior to this, the bottom 18 has already been treated in the manner shown on the left in the figure.

The applied shell lime containing layers 6, 25 11 and 12 on resp. the walls 17, the ceiling 9 and the bottom 18 are prepared by mixing water with the shell lime to saturate it. Use can be made of powdered shell lime, but alternatively, quicklime shell lime can be used.

Preferably, use is made of carbonic acid shell lime, the solubility of which is lower in water. Preferably it is calcite or arago-not. In this way, a hard, dry layer 6, 11 or 12 is formed, which is self-healing. If cracks 35 occur in the layer 6, 11 or 12 and this threatens to penetrate moisture, a small amount of the layer 6, 11 or 12 dissolves in this moisture. This dissolved amount will again settle in the crack to seal it.

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Preferably, such a shell lime-containing layer 6, 11 or 12 is applied wet, whereby after drying it will form a very good thermal insulation to counteract cold nuisance, and will also form a very good sound insulation.

It is possible for at least one of the layers to make use of a mixture of cement, air bubble formers and the shell lime. Preferably, this concerns the layers 6 on the walls 5 or on the concrete walls 17 or the layer 10 on the floor 18, since such a layer is harder and less brittle. Based on the same considerations, use can be made of a mixture of cement, pearl granules and the shell lime, a mixture of cement, polystyrene granules and shell lime, a mixture of trass-lime, trascement and perlite granules or a mixture of polystyrene granules, shell lime and air bubble formers, etcetera. It is noted here that layers formed from such materials also have very good heat and sound insulating properties.

In addition to combating problems caused by moisture nuisance, such as growth of fungi and fungi, a method according to the present invention is also eminently suitable for disinfecting a crawl space, which is important for instance in case of nuisance after leakage from the sewer or in case of nuisance such as due to too high acidity of the soil. Also, harmful influences as a result of rising cold, moisture penetration and insulation problems, in particular heat, can be effectively combated by means of a method according to the present invention.

In connection with sewage breakage or the presence of other contaminated (s) the liquids in the crawl space, it is noted that purification thereof is very well possible by applying a relatively thick layer in the soil. Such a layer then has a strong purifying effect and is particularly suitable if it contains, for example, shell lime. Here, such a layer is preferably applied to a perforated plate and the contaminated liquids are spread over the layer with the aid of a pump to sink through the layer.

It is further noted that the use of shell lime in a method according to the present invention offers a very environmentally friendly solution for protecting a building against harmful influences. This is because shell lime is relatively easy to obtain from shells, with shells being in abundance and therefore relatively easy to extract.

In addition, it should also be noted that although the foregoing description has for the most part focused on the use of shell lime, it is of course also possible or alternatively to use other types of lime, which for instance comes from limestone grains or from other sources.

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Claims (10)

5 l. Method for protecting a building against harmful influences, such as moisture nuisance, by applying a lime-containing layer in a crawl space, characterized by mixing lime, such as shell lime, in particulate or powder form with the top layer of the bottom of the crawl space. Method according to claim 1, characterized by additionally painting or spraying a layer of a lime, such as shell lime, containing mixture on at least a wall or the ceiling of the room. Method according to claim 1 or 2, characterized by the use of slaked lime, such as shell lime, in the layer. Method according to claim 1 or 2, characterized by the use of quicklime, such as shell lime, in the layer. A method according to any one of the preceding claims, characterized by mixing water and the lime, such as shell lime, to saturation prior to mixing the layer. A method according to any one of the preceding claims, characterized by using carbonic lime, such as shell lime, such as calcite, in the layer. 7. A method according to any one of the preceding claims, characterized by mixing cement, bubble formers and the lime, such as shell lime, in the layer. Method according to any one of the preceding claims, characterized by mixing cement, pearl granules and the lime, such as shell lime, in the layer. 9. A method according to any one of the preceding claims, characterized by mixing cement, polystyrene granules and the lime, such as shell lime, to produce the layer to be applied. 100 2 4 1 5 Method according to claim 9, 10 or 11, characterized in that a ratio between the lime, such as shell lime, and the cement in the layer to be applied is at least 3: 2. 5 10024 15