RU175610U1 - DROPPER PROFILE - Google Patents

Abstract

The utility model relates to construction and is used for accurate and stable completion of the plaster layer in the corner areas of the building subject to moisture accumulation. The drip profile consists of an angle profile and nose 3. Spout 3 is made in the form of a thickening on one of the guides 1, due to the thickness of which two inclined supporting surfaces 4, 5, which serve as elements for determining the thickness of the applied plaster layer, the first of which 5 protrudes beyond the corner, and the place where the second 4 meets the surface of the guide 1 ud EHO is not less than 3 mm from the site conjugation first surface 5 with the surface of the guide 1. This increases the rigidity of the spout 3 and allows it to repair when deformation due stock material forming the bulge.

Description

The utility model relates to construction and is used for accurate and stable completion of the plaster layer in the corner zones of the building, which are prone to moisture accumulation.

The dropper profile shown in FIG. 1 (http://artstroy-sib.ru/profil-kapelnik-pvx-s-setkoj-25-m/), which is an angular profile with spout 3 serving as an element for determining the thickness of the applied plaster layer for two plastered surfaces. In this design, the spout 3 is made as a continuation of the guide 1, with the same thickness. Because of this, the protruding part of the spout 3 is thin, easily deformed, can break and is not repairable. In addition, the formation of the supporting surface 4 occurs due to the bending of the guide 4. This reduces the rigidity of the structure and increases the likelihood of destruction of the contact point of the guides 1, 2.

The utility model solves the problem of creating a universal dropper profile with the achievement of such a technical result as increasing its reliability.

The technical result is achieved by the profile of the drip, consisting of an angular profile with a nose, while the nose is made in the form of a protrusion on one of the guides, due to the thickness of which two inclined supporting surfaces are formed, the first of which extends beyond the corner, and the interface between the second and the surface of the guide not less than 3 mm away from the interface between the first surface and the surface of the guide.

In addition, the said surfaces are made of approximately the same length. The protrusion is made integral so that a third surface is formed, approximately parallel to the surface of the guide on which the protrusion is located, and the thickness of the protrusion in this place is at least 3 mm.

Stiffening ribs are made on the inclined supporting surfaces of the nose.

FIG. 1 - analogue of the claimed profile;

FIG. 2 - section of the claimed profile;

FIG. 3 - the claimed profile in isometry.

The drip profile consists of an angular profile and a nose 3. The nose 3 is made in the form of a protrusion on one of the guides 1, due to the thickness of which two inclined supporting surfaces 4, 5 are formed, which serve as elements for determining the thickness of the applied plaster layer, the first of which 5 stands for the limits of the angle, and the interface between the second 4 and the surface of the rail 1 is at least 3 mm from the interface between the first surface 5 and the surface of the rail 1. This design provides abutment along the entire length of the protruding surface 5 due to the formation of the spacer triangle. This increases the rigidity of the nozzle 3 and allows it to be repaired in case of deformation due to the stock of material forming the protrusion.

When making inclined support surfaces 4, 5 of approximately the same length, the spout 3 will represent a parallelogram of solid material, which will ensure its rigidity due to the thickness of the layer of material, significantly reduce the likelihood of it breaking and maintain maintainability with deep dents.

It is desirable to form the spout 3 in such a way that the thickness of the protrusion, at the site of formation of the surface of the parallelogram 6, approximately parallel to the surface of the guide 1, is at least 3 mm. This design of the spout 3 is almost impossible to break when the profile is bent, and if the profile is bent, this makes it easy to eliminate the formed defects by mechanical action.

This design makes it easier to work with plaster when applying plaster layers, because the spout 3 of the profile is made rigid and stiff, and accordingly, the pressure on the profile can be greater than when using known analogues. Moreover, due to the formation of a hard surface 6, the formation of the exact thickness of the plaster layer is ensured, because you can use this surface 7 as a reference when removing excess material. Due to the stiffness of the spout 3, it is possible to accurately apply the thickness of the plaster layer with a thickness of 3 mm by a plasterer who does not have work experience, which is in demand in the performance of plastering work by unskilled workers.

The drip is used at all horizontal angles to reinforce the plaster and to remove moisture from the corner zone, which ensures the safety and integrity of the plaster coating. Moisture is removed by the nozzle 3, which cuts off the flow of rain water in horizontal planes.

Thanks to the special device of the drip on the profile after its installation, the drip can be visible (open type of profile) or completely covered with plaster (closed type of profile) depending on the design of the facade. To do this, just flip the profile.

Installation of the profile is carried out by embedding the profile in a plaster mixture previously applied at an angle so that it passes through the perforation of the profile and the fiberglass mesh glued to it.

The claimed utility model is easily made of plastic by extrusion.

Claims (5)

1. The drip profile, consisting of an angular profile with a nose, characterized in that the nose is made in the form of a protrusion on one of the guides, due to the thickness of which two inclined supporting surfaces are formed, the first of which extends beyond the corner, and the place of the second interface with the surface the guide is removed not less than 3 mm from the place of mating of the first surface with the surface of the guide. 2. A profile according to claim 1, characterized in that said surfaces are made of the same length. 3. The profile according to claim 1, characterized in that the protrusion is made integral so that a third surface is formed, approximately parallel to the surface of the guide on which the protrusion is located. 4. The profile according to claim 2, characterized in that the thickness of the protrusion in the place of formation of the surface, approximately parallel to the surface of the guide is not less than 3 mm 5. The profile according to claim 1, characterized in that stiffening ribs are made on the inclined supporting surfaces of the nose.

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