CZ28626U1 - Construction profile with surface finish to improve plaster adhesion - Google Patents

Description

Technical field

The technical solution relates to a building profile with a surface treatment to increase the adhesion of the render, especially the mineral render, especially for wooden buildings.

BACKGROUND OF THE INVENTION

The problem of existing building profiles, especially of plaster profiles, such as plaster window trim strips, is their consistency with the layer of plaster, respectively. in other words, the adhesion of the plasters to the surface of the plastic profiles. Due to dilatation movements, micro-cracks can occur.

Obviously, this problem is more or less solvable by roughening the surface of the legs of the profiles to be incorporated into the plaster. At present, this is mainly due to the technologically created surface irregularities of the profile arms (mainly due to the unevenness of cooling in the caliber or other parts of the extrusion line), or in the process of production of the profile of a deliberately formed longitudinal groove. The disadvantage of these modifications is their very limited effectiveness in terms of the purpose - ie. increasing the adhesion of the plaster to the profile. In the case of technologically created inequalities, their inequality and practically impossibility of targeted correction of their creation in the technological process.

The essence of the technical solution

In order to overcome the aforementioned drawbacks, the coated construction profile contributes to a great extent to the increase in the adhesion of the plaster according to the present invention. The principle of the solution consists in that the surface of at least one of the legs of the profile to be incorporated into the plaster layer is provided with a tread formed by a system in rows of separate depressions with a depth of 0.1 to 1 mm.

The tread depressions may preferably have the shape of truncated cones with a smaller base facing downwards. The diameter of their larger bases is 0.2 to 2 mm and these depressions are arranged in rows such that their mutual axial spacing in one row is 1.3 to 1.8 in diameter, the spacing of adjacent rows is 1.2 to 2.0 in diameter, and offset of axes of depressions in adjacent rows of 0.5 to 0.7 diameter.

In another variation, the tread depressions may be in the form of pyramids or truncated pyramids with a 3 to 8 angle support, with the largest dimension of the support being 0.2 to 2 mm. These depressions are again arranged in rows which can be offset from one another.

The building profile according to the invention, including its tread arm, is preferably made of plastic, in particular polyvinyl chloride.

Advantages of the present technical solution are the possibility of significant roughening of the profile arm surface in all directions with the possibility of controlling the roughness size by the depth of the tread depressions. This is a versatile treatment, applicable to different profiles with different shapes and with a uniform contour, which can be realized continuously with high productivity.

Clarification of drawings

In order to clarify the nature of the technical solution, the attached drawings show:

Fig. 1 - a construction profile with a tread arm formed by truncated cone-shaped depressions, Fig. 2 - a construction profile with tread arm formed by truncated truncated pyramid-shaped depressions.

-1 CZ 28626 U1

Examples of technical solutions

Example 1

The construction profile 1 in the exemplary embodiment (see FIG. 1) has a surface of its one on the base of a perpendicular arm 2 to be incorporated into the plaster layer provided with a tread pattern 3 formed by a series of separate depressions 3a with a depth H 0.1 mm.

The tread depressions 3a have the shape of truncated cones with a smaller base facing downwards. The diameter D of their larger bases is 0.2 mm and these depressions are arranged in rows such that their mutual axial spacing in one row is 1.5 D, the spacing of adjacent rows 1.75 D and the offset of the depressions axes in adjacent rows 0.6 D.

Example 2

The construction profile 1 (see FIG. 2) has, similarly to Example 1, the surface of its one on the base of the perpendicular arm 2 to be incorporated into the plaster layer provided with a tread pattern 3 formed by a series of separate depressions 3a with a depth H 0.5 mm.

The tread depressions 3a have the shape of quadrilateral truncated pyramids with square pedestals, with a smaller pedestal facing downwards. The largest dimension (edge) P of the base is 1 mm and these depressions are arranged in rows such that their mutual axial spacing in one row is 1.2 P, the spacing of adjacent rows 1.5 P and the offset of the depressions axes in adjacent rows 0.5 P.

Industrial applicability

The construction profiles according to the present technical solution show, due to the tread surface treatment, increased plaster adhesion, in particular, for example, mineral plaster in wooden buildings.

PROTECTION REQUIREMENTS

Claims (4)

A construction profile with a surface treatment for increasing the adhesion of a plaster, in particular a mineral plaster especially in wooden buildings, characterized in that the surface of at least one of the legs (2) of the profile (1) to be incorporated into the plaster layer is provided with a tread (3) in rows of separate depressions (3a) with a depth (H) of 0.1 to 1 mm. Building profile according to claim 1, characterized in that the tread depressions (3a) have the shape of truncated cones with a smaller pedestal facing downwards, with the diameter (D) of their larger pedestals being 0.2 to 2 mm and these depressions are arranged in rows such that their mutual axial spacing in one row is 1.3 to 1.8 D, the spacing between adjacent rows 1.2 to 2.0 D and the offset of the depressions axes in adjacent rows 0.5 to 0, 7 D. Building profile according to claim 1, characterized in that the tread depressions (3a) have the shape of pyramids or truncated pyramids with a 3 to 8 angular base, with the largest dimension (P) of the base being 0.2 to 2 mm and these depressions are arranged in rows that can be offset from one another. Building profile according to claim 1, characterized in that the profile (1), including its tread arm (2), is made of plastic, in particular polyvinyl chloride.