PL65566Y1 - Structural element - Google Patents

Description

2 PL 65 566 Υ1

Pattern description

The subject of the utility model is the connector of a building element with light plastic side walls.

From the Hungarian description of utility model No. 3317, it is known to be an energy-saving building element for the construction of houses of massive construction, with light plastic side walls provided with joining surfaces on the upper and lower edges of the walls and with internal ties. The inner batten has a wide support surface recessed into the sidewall and containing wide openings a rigid framework holding the sidewalls parallel. The location of the internal lacings is indicated by ribs visible from the outside on at least one side wall. Such construction elements can be used to create a jointless formwork, which can be supplemented with horizontal and vertical reinforcement and, after pouring concrete into the spaces between the side walls, gives a wall of a certain strength with double-sided insulation.

The lacing of a modular polystyrene block is known from the Polish patent description No. 195018. This lacing is made of high-density plastic. It consists of the crosspiece in the form of a flat wall with reinforcing ribs and openings, and four mutually parallel flat arms perpendicular to the crosspiece plane and the crosspiece axis, two at each of its ends. The crosspiece according to this patent is characterized by the fact that the width of each of its arms is at least twice as large as the greatest thickness of the crosspiece proper, the inner arms have a height equal to the width of the crop proper at the point of their interconnection, and the outer arms have a height greater than the height. inner arms.

It is also known from the Polish description of the utility model No. Ru59520, the lacing of the modular polystyrene block has the form of an I-section with an openwork semicolon with irregular sinusoidal cuts for reinforcing bars in the outer edges of the web. The crosspiece has two mutually perpendicular symmetry axes. The central part of the crosspiece web has a smaller width than its outermost parts. The irregular sinusoidal line that forms the rebar cutouts connects web sections of different widths. The connection of both halves of the crosspiece I-section with the web is reinforced with triangular cantilevers distributed symmetrically in relation to the crosspiece's horizontal axis. The planes of these triangular supports are perpendicular to both the plane of the web and the plane of the flanges. The openwork of the web consists of symmetrically arranged openings in its plane. The openings in the central part of the web have the shape of triangles with a rounded tip and a rounded opposite side, and the openings near the flanges have the shape of vertical rectangles with rounded corners.

On both surfaces of the web there are symmetrically distributed convex reinforcing ribs, consisting of straight lines that are parallel and perpendicular to the vertical axis and the horizontal symmetry axis of the batten. The connector of the building element according to the utility model is characterized in that metal plates are placed inside the connector supports at a constant distance "a" from the outer surface of the side walls of the building element. The contour of the connector supports marks the area on the outer surface of the side walls of the building element, where assembly point markers are placed. In the part connecting the two fastener supports, there is a thickening along its entire length, preferably with a circular cross section. The connector of the building element according to the utility model enables quick and direct assembly, i.e. without the need to use self-supporting frames, assembly to the wall of finishing materials made of such building elements for internal surfaces such as plasterboard or paneling, or for external surfaces such as stone, granite, siding and all fittings and fittings. Using point markers on the outer surface of the side walls of the building element, we place the mounting screws, after screwing them into the side wall to a small depth, in the metal plate of the connector support, which ensures durability and stability of the assembly and no drilling in concrete. Due to the constant distance of the connector plate from the outer surface of the side wall of the building element, the assembly principles described earlier also apply to side walls of different thickness. If it is necessary to drill through holes through a wall made with the use of construction elements with a connector according to the utility model, e.g. to route cables or installation pipes, it is possible to use drilling inside a bead located in the part

Claims (1)

3 PL 65 566 Υ1 connecting the fastener supports. A special, e.g. a point mark on the outer surface of the side wall of a construction element with a connector according to a utility model enables the position of the center of the cross-section of the bead to be determined. When making a through hole in such a place with a diameter not exceeding the diameter of the bead, we make a hole only in the material of the connector without the need to drill in concrete. The object of the utility model is shown in the drawing, in which fig. 1 shows the construction element connector in a partial section and a side view, fig. 2 shows the construction element connector in a partial section and a top view, and fig. 3 shows the construction element connector in a side view. . The connector of the building element according to the utility model has metal plates 3 placed inside the supports 2 of the connector 1 at a constant distance "a" from the outer surface of the side walls 4, 4 'of the building element. In the part connecting both supports 2 of the connector 1 there is a thickening 5 along its entire length, preferably with a circular cross section. On the outer surface of the side walls 4, 4 'of the construction element, there are point mounting markers 6 and 6' in the area marked by the outline of the supports 2 of the connector 1. By direct assembly of surface finishing elements using screws, the screws are screwed directly into the wall made of building elements with the connector according to the utility model in places marked with point markers 6. This location of the mounting screws ensures the installation of screws to the metal plates 3 inside the supports 2 of the connector 1. Due to the constant distance of the tiles 3 from the outer surface of the side walls 4, 4 'the previously described assembly method valid for various side wall thicknesses. For through holes of a wall made of construction elements with a connector according to the utility model, we can use point markers 6 'marking the center of the cross-section of the thickening 5 of the connecting part of the support 2 of the connector 1. In this case, for a diameter not greater than the diameter of the thickening 5, the hole is completely made in the material of the connector 1 without drilling into concrete. Protective caveat. A construction element connector made of plastic, in the form of an I-section with an openwork web with cuts for reinforcing bars in the outer edges of the web, where the web openwork consists of openings symmetrically arranged in its plane, equipped with mutually parallel flat arms perpendicular to the plane of the web, characterized by that inside the supports (2) of the connector (1) there are metal plates (3) at a constant distance "a" from the outer surface of the side walls (4), (4 ') of the construction element, and the outline of the supports (2) of the connector (1) marks the area on the outer surface of the side walls (4), (4 ') of the construction element, where assembly point marks (6) and (6') are placed, while in the part connecting both supports (2) of the connector (1) it is located on the entire surface its length is thickened (5), preferably of circular section.