EP0154810A2 - Method of covering and thermally isolating walls, roofs or the like and device for realising this method - Google Patents

Abstract

A method of applying an insulation coating to a wall surface comprises applying strips of a length or height of the insulation to be applied to the wall surface so that they are deposed outwardly of the wall surface up to the desired thickness of the insulating coating, spraying the coating between adjacent strips of a thickness up to the surface of the strips, and thereafter smoothing the coating surface which has been applied. The invention also includes a chainsaw construction for smoothing the surface in which the saw has a blade length at least as long as the expected coating widths and the spacing of the strips which includes a plurality of chain links having cutting tips and advantageously small brushes a affixed to the links to further smooth or remove the dust from the coated surfaces.

Description

The invention relates to a method and a device for carrying out the method for coating and thermal insulation of walls, ceilings or the like. With a heat-insulating layer that can be applied by spraying, in particular a polyurethane layer.

Building insulation is becoming increasingly important in the face of increased fuel costs and more economical use of fuels. It is known to insulate walls from the inside or outside with polystyrene (hard foam) insulation boards. After the panels have been glued on, the joints have to be filled and the entire surface covered with a mat to prevent stress cracks in the plaster to be applied. This method has the disadvantage that optimal adhesion between the rigid foam panels and the substrate is not always guaranteed and that the aftertreatment until the plaster is applied is time-consuming and therefore cost-intensive.

It is also known to provide roofs with a polyurethane layer. The layer is sprayed onto the roof surface more or less in an uncontrolled manner and provided with a protective coating. This method has the disadvantage that a very coarse surface is created, which is particularly uneven and is not suitable for further use.

The invention has for its object a method for loading to propose layering and thermal insulation of walls, ceilings or the like, which avoids the disadvantages mentioned above and in particular can be produced inexpensively with optimum effectiveness. It is a further object of the invention to propose a device with which the method according to the invention can be carried out simply and efficiently.

This object is achieved by the characterizing part of claim 1 and by the associated device claim.

The invention has the advantage over the known methods that when a polyurethane layer is used as the heat insulation layer there is an optimal connection to the masonry or to the surface to be insulated. Polyurethane has excellent adhesive properties and creates a good bond with almost any surface. When applying or spraying, the insulating material is immediately connected to the substrate. When sprayed on, the material penetrates any cavities and swells up to 40 times its original volume within seconds. Compared to known rigid foam panels, a polyurethane insulation layer has a significantly more favorable water vapor diffusion resistance. As a result, the walls to be insulated remain dry without additional measures having to be taken.

Compared to insulation with hard foam panels, the inventor According to the method according to the invention, very large areas are coated in one operation and can be pulled off completely smoothly using a special chain saw. For precise determination of the thickness of the polyurethane layer, peel strips arranged in parallel are applied to the surface to be coated, the surface being peeled or smoothed using an oversized chain saw.

The scraper strips are removed after smoothing the surface and the resulting cracks are also foamed. The aftertreatment of this small area can be done with a sharp electric knife or the like.

In the subclaims, further measures for solving the problem according to the invention and for advantageously developing the method according to claim 1 are provided.

According to subclaim 2, pipes are used as pulling strips. These can, as shown in subclaim 3, easily have a length of 6 m with a diameter of 2 cm in order to be able to treat larger areas at the same time. The pipes are screwed onto the surface to be treated using spacer bolts. The length of the spacer bolts plus the diameter of the tubes gives the thickness of the polyurethane layer to be applied. By using different spacer bolts, different thicknesses of the polyurethane layer are achieved aims. The thickness of the pull-off strip designed as a tube should be as small as possible so that the polyurethane to be applied can swell beneath the tube. With regard to the mechanical strength and the simple handling, tubes with a diameter of approx. 20 mm, which are arranged parallel to each other at a distance of one meter, have proven effective.

The invention further provides that a special chainsaw is proposed for performing the method. This chain saw, designed like a tree saw, has an oversized saw blade with a length of more than 1 m in order to bridge the distance between the two pulling strips arranged in parallel. Furthermore, it is provided that the chain links have an increased number of cutting blades compared to conventional chains in order to achieve a clean cut without post-treatment. In this context, it is advantageous that brushes made of V2A steel are arranged between the chain links, which remove sawdust from the surface.

• Fig. l zeigt einen Ausschnitt aus einer zu beschichtenden Fläche,
• Fig. 2 einen Schnitt gemäß I-I in Fig. 1.

The invention will be explained with reference to the description of the figures.

• 1 shows a section of a surface to be coated,
• FIG. 2 shows a section according to II in FIG. 1.

At least two pull-off strips 11, 12 designed as tubes are screwed onto the wall or ceiling 10 shown in FIGS. 1 and 2 using spacer sleeves 13. The fastening screws must be countersunk so that the pull strips form a continuous surface. The length of the spacer sleeves 13 is dimensioned such that, with the diameter of the tube, it represents the thickness d of the polyurethane layer 14 to be applied. To apply a 40 mm thick polyurethane layer, z. B. tubes with a diameter of 20 mm and spacers with a length of 20 cm are used. Of course, these dimensions can vary.

Polyurethane foam is then applied in a known manner to the intermediate space 15 between the pull-off strips 11, 12 designed as tubes in a spraying process. This foam hardens in a few seconds and can then be smoothed using a chainsaw 16. The blade length 17 of the chainsaw 16 must be made so long that the free distance between the tubes 11, 12 is bridged.

At least on the side 18 of the leaf 17 of the chain 16 assigned to the wall to be coated, the chain links have cutting blades on every or every second chain link in order to significantly increase the cutting performance of the chain saw. In addition, small brushes made of V2A steel can be attached to this side or be soldered on, which take on additional smoothing or dust removal from the surface.

A chain saw 16 is, for example, a saw with a rotation of approx. 4,000 rpm, a power of 1,100 watts and a chain feed of 300 mm / sec.

The invention is particularly suitable for the thermal insulation of external facades in new and existing buildings or for the renovation of old buildings. A conventional external plaster can be applied directly to the insulating layer applied by the method according to the invention.

Of course, the invention can also be used in the interior of buildings.

Claims (7)

1. A method for coating and heat insulation of walls, ceilings or the like. With a heat-insulating layer which can be applied by spraying, in particular a polyurethane layer, characterized in that pull-off strips (11, 12) arranged in parallel are fixed on the surfaces (10) to be coated in such a way that whose upper edge facing away from the surface determines the thickness (d) of the heat-insulating layer (14) which can be applied by spraying, and that the surface of the applied thermal insulation layer (14) is removed by means of a chain saw (16, 17) extending over the pull-off strips (11, 12) and is smoothed, the pulling strips (11, 12) serving as limit stops. 2. The method according to claim 1, characterized in that pipes are used as pull-off strips (11, 12), which are to be coated via spacer bolts (13) for changing the distance tendency surface (19) are screwed. 3. The method according to claim 2, characterized in that the tubes (11, 12) are attached parallel to each other at a distance of about 1 m, with a tube length of several meters. 4. The method according to claim 1, 2 or 3, characterized in that the peel strips are removed after coating and the resulting space is treated with polyurethane foam. 5. A device for performing the method according to claim 1 to 4, characterized in that a chainsaw (16) with a blade length (17) is provided which corresponds at least to the distance between the parallel pulling strips (11, 12). 6. The device according to claim 5, characterized in that at least on the side facing the polyurethane layer (18) of the chain links (20) arranged one behind the other on each, or every second chain link, a cutting blade is arranged in a known construction. 7. Apparatus according to claim 5 or 6, characterized in that brushes made of V2A steel are attached or soldered to the chain links.

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