RU91091U1 - PLATE CONCRETE FRONT - Google Patents

Abstract

A facade concrete slab containing external, internal, intermediate and end surfaces forming a protrusion equal to the length of the slab at the top of the slab and a recess under the ledge at the bottom of the slab, intended for fastening the slabs, and through the ledge of the slab there are made through transverse stepped holes for fixing elements, reinforced with steel spirals with inner diameters equal to the smaller diameters of the sections of the stepped openings, while the intermediate surfaces are parallel between the outer and inner surfaces on the upper and lower parts of the plate, and the ends of the spirals are monolithic in the plate, characterized in that the end surface, designed to form an equal length of the recess plate under the protrusion in the lower part of the plate, is made at an acute angle to the intermediate surface parallel to the outside and inner surfaces in the lower part of the plate, and the end surface, designed to form an equal length of the protrusion plate in the upper part of the plate, is made at an angle corresponding to the angle between the end surface a cavity designed to form an equal length of the recess plate under the protrusion in the lower part of the plate and called an intermediate surface, moreover, plastic anchors for fixing elements made in the form of self-tapping screws with a solid thread corresponding to the diameter of the anchor and length , allowing you to fix the plate at a predetermined distance from the facing wall.

Description

The utility model relates to the field of construction and is intended for use in the outer cladding of stone and wooden buildings and structures.

Known slab concrete facade, containing a rectangular outer, inner and end surfaces. The thickness of the plate is 15-40 mm. The plate is fastened to the wall surface with metal reinforcement, fixing the position of the plate at a distance of 20-50 mm from the wall, with filling the gap between the wall and the plate with cement-sand mortar that holds the plate after it has hardened and adheres to the wall surface in the required position (GOST 6927- 74 "Concrete facade slabs").

The concrete facade slab described has the following disadvantages:

- narrow functionality, because the slab cannot be used for cladding wooden walls of buildings due to poor adhesion of cement-sand mortar to the tree and cannot be used with simultaneous external insulation of the walls of the building;

- deterioration in the quality of the surface of the slab after fastening the slab to the wall due to the fact that during the hardening of the cement-sand mortar and its subsequent drying through the concrete slab, salts dissolved in water are migrated and transferred to the outer surface of the slab.

A concrete facade slab is also known, manufactured in Finland under the name “Kolorok”, containing external, internal and end surfaces that form a protrusion in the upper part of the slab equal to the length of the slab and a recess for the protrusion in the lower part of the slab. The protrusion and the recess under the protrusion are intended for fastening the plate, since the complex shape of the end surfaces of the plate, due to the presence of the protrusion and the recess under the protrusion, corresponds to the shape of the surfaces of the leveling subsystem, made in the form of a supporting aluminum profile fixed to the wall by screws or nails. The facade concrete slab has a usable height of 100 mm, a length of 600 mm and a thickness of 30 mm. The slab is made of colored concrete by dry pressing, that is, in a solution-free way, which allows facing work at any time of the year. Support profiles have a standard length of 3000 mm. Due to the shape of the supporting profiles, an air gap of 15 mm is formed between them and the plate, which performs the function of ventilating the wall to maintain uniform humidity in it. A layer of external thermal insulation (Zavrazhin N.N. et al. Finishing work in construction: (Foreign experience) / N.N. Zavrazhin, G.V. Severinova, Yu. May be located between the plate mounted on the supporting profiles and the wall). E. Gromov. - M.: Stroyizdat, 1987.- p. 281-284).

Slab concrete front "Color" has the following disadvantages:

- low reliability of fastening to the supporting metal profile due to the lack of metal elements monolithic in the plate and involved in fixing the plate on the wall;

- narrow functionality due to the fact that the surface configuration of the plate allows you to mount it only to the supporting metal profile corresponding to the configuration of the surface of the plate, which requires the use of leveling subsystems;

- high cost due to the manufacture of the plate by dry pressing to ensure high accuracy of the dimensions of the plate and, therefore, eliminating the discrepancy between the dimensions of the plate and the dimensions of the supporting profile.

Closest to the proposed utility model in terms of technical nature and the achieved result (prototype) is a concrete facade slab containing external, internal, intermediate and end surfaces, forming a protrusion in the upper part of the slab equal to the length of the slab and a recess for the protrusion in the lower part of the slab. The protrusion and the recess under the protrusion are designed for mounting plates. On the ledge of the plate, through transverse stepped openings for fixing elements are made, reinforced with steel spirals with inner diameters equal to the smaller diameters of the sections of the stepped openings. As fixing elements, screws can be used when fastening the plate to the leveling subsystem made in the form of wooden blocks, or combined rivets when fastening the plate to the leveling subsystem made in the form of metal profiles. The spirals are installed by protruding one ends behind the inner surface of the plate and resting opposite ends on the surface of transitions from large diameters of stepped holes to smaller diameters of these holes. The ends of the spirals are monolithic in the plate. In this case, the intermediate surfaces are parallel between the outer and inner surfaces in the upper and lower parts of the plate. The end surface designed to form an equal length of the recess plate under the protrusion in the lower part of the plate is made at right angles to the intermediate surface parallel to the outer and inner surfaces in the lower part of the plate, and the end surface designed to form an equal length of the protrusion plate in the upper part of the plate, made at an angle corresponding to the angle between the end surface, designed to form equal to the length of the plate of the recess under the protrusion in the lower part of the plate, and named intermediate surface, that is, also at right angles. The plate is additionally equipped with L-shaped metal elements, one end of each of which is monolithic in the plate, and the other end of each of which is made protruding beyond the bottom of the plate with the possibility of changing its position relative to the plate for fastening the vertical rows of plates together. When facing the plates are attached to the wall through the leveling subsystems (patent RU 2178048 C1, IPC ⁷ E04F 3/14).

The concrete facade slab, selected as a prototype, has the following disadvantages:

- low reliability of bonding the vertical rows of such plates to each other, due to the fact that bonding is carried out only in one place along the length of the plate by means of a L-shaped metal element (or L-shaped metal elements);

- narrow functionality due to the lack of the ability to adjust the verticality of the installation, which requires the mandatory use of leveling subsystems made in the form of metal profiles or wooden blocks, for fastening through them to the facing wall.

The objective of the proposed utility model is to increase the reliability of bonding and expand the functionality of the concrete facade slab.

The problem is solved in that in a concrete facade slab containing external, internal, intermediate and end surfaces, forming a protrusion in the upper part of the slab equal to the length of the slab and a recess under the protrusion in the lower part of the slab, intended for fastening the slabs, and through transverse stepped holes for fixing elements, reinforced with steel spirals with inner diameters equal to the smaller diameters of the sections of the stepped holes, intermediate surfaces are located pairs allele between the outer and inner surfaces in the upper and lower parts of the plate, and the ends of the spirals are monolithic in the plate, according to a utility model, the end surface designed to form an indentation equal to the length of the plate under the protrusion in the bottom of the plate is made at an acute angle to the intermediate surface parallel to between the outer and inner surfaces in the lower part of the plate, and the end surface, designed to form an equal length of the protrusion plate in the upper part of the plate, is made at an angle from the angle between the end surface, designed to form an equal length of the recess plate under the protrusion in the lower part of the plate, and called the intermediate surface. Plastic dowels for fixing elements made in the form of self-tapping screws with a solid thread corresponding to the diameter of the dowel and a length that allows fixing the plates at a given distance from the facing wall are built into the holes with the ability to adjust the verticality of the installation of plates.

Improving the reliability of fastening the vertical rows of plates of the proposed design to each other is due to the implementation of the end surface, intended to form an equal length of the recess plate under the protrusion in the lower part of the plate, at an acute angle to the intermediate surface located between the outer and inner surfaces parallel to the latter in the lower part of the plate, and the implementation of the end surface, designed to form equal to the length of the plate ledge in the upper part of the plate, at an obtuse angle to the intermediate surface an area located between the outer and inner surfaces parallel to the last in the upper part of the plate, which is adjacent to the acute angle between the end surface, designed to form an equal length of the recess plate under the protrusion in the lower part of the plate, and the intermediate surface located between the outer and inner surfaces parallel to the last at the bottom of the plate, to ensure ease of installation when installing the plates on top of each other with rigid fixation of the position of each plate along the entire length.

The expansion of the functionality of the concrete facade slab is due to the provision of its fastening directly to the facing wall at the required distance from the latter without the use of special leveling subsystems made in the form of metal profiles or wooden blocks, by installing plastic dowels in the holes through which fixing elements are screwed in the form self-tapping screws with a solid thread corresponding to the diameter of the dowel, which allows vertical adjustment Fitting spine plates and the gap between the inner surface of the plate and lined wall.

The proposed utility model is illustrated by a drawing, in which Fig. 1 shows a cross section of concrete facade panels assembled vertically; figure 2 - fixing element made in the form of a self-tapping screw with a solid thread; figure 3 is a transverse section of a separate slab of concrete facade vertically.

In addition, in the drawing, the arrows indicate the direction of fastening of the concrete facade slabs to the facing wall.

The facade concrete slab contains an outer surface 1, an inner surface 2, an intermediate surface 3 located parallel between the outer surface 1 and the inner surface 2 at the bottom of the slab, an intermediate surface (not shown), located parallel between the outer surface 1 and the inner surface 2 in the upper part of the plate, the end surface 4, forming a protrusion 5 equal to the length of the plate in the upper part of the plate and the end surface 6, forming a recess 7 under the length of the plate equal to the protrusion in the lower parts of the stove. The protrusion 5 and the recess 7 in the plate are intended for its fastening. On the protrusion 5, through transverse stepped holes 8 are made, for example, along the edges and in the center of the plate. Plastic dowels 9 for fixing elements made in the form of self-tapping screws 10 with a solid thread corresponding to the diameter of the dowel 9 and length allowing to fix the plates at a given distance 11 from the facing wall 12, i.e. from it the inner surface 2. The distance 11 between the plate and the cladding wall 12 may be from 10 to 15 mm Thus, the holes 8 are intended for installation of fixing elements in them. The number of holes 8 can be from two to five, depending on the size of the plate, as well as on the material of the wall on which the plates are mounted. The holes 8 are reinforced with corrosion-resistant highly alloyed or galvanized steel spirals 13, the ends 14 of which are monolithic in the body of the plate. The inner diameters of the spirals 13 are equal to the smaller diameters of the sections of the through transverse stepped holes 8.

The end surface 6, designed to form an equal length of the plate of the recess 7 under the protrusion in the lower part of the plate, is made at an acute angle α to the intermediate surface 3, and the end surface 4, designed to form an equal length of the plate of the protrusion 5 in the upper part of the plate, is made obtuse angle β to the intermediate surface located parallel between the outer surface 1 and the inner surface 2 in the upper part of the plate, the corresponding angle α between the end surface 6, designed to form equal to plate recesses 7 not under a projection in the bottom plate, and an intermediate surface 3, which provides a reliable hitch upper rows of plates for the lower ranks when installing tiles on each other.

In this way:

β = 180 ° -α,

where α is the angle between the end surface, designed to form equal to the length of the plate of the recess under the protrusion in the lower part of the plate, and the intermediate surface located between the outer and inner surfaces parallel to the last in the lower part of the plate, deg;

β is the angle between the end surface, designed to form equal to the length of the plate protrusion in the upper part of the plate, and the intermediate surface located between the outer and inner surfaces parallel to the last in the upper part of the plate, deg.

Fastening concrete facade slabs, for example, to stone walls, is as follows. The first row of plates is installed on the start profile. After installing the first row of plates, they install the second row of plates, marking the mounting holes in the wall, drilling these holes and installing dowels in them. Then, through the transverse stepwise openings 8 of the concrete facade slabs reinforced with steel spirals 13, plastic dowels 9 of the diameter corresponding to the hole 8 are inserted, and self-tapping screws 10 are screwed through the dowels 9 with a solid thread corresponding to the dowel diameter and the length allowing the plates to be fixed at the required distance from walls 12. Thus, the screws 10 go into the wall, and the plate is fixed. Moreover, due to the presence of plastic dowels 9 and self-tapping screws 10 with solid thread, it is possible to adjust the vertical installation of the plates and provide the necessary clearance, that is, the distance 11, between the facing wall 12 and the inner surfaces of the 2 plates. The lower parts of the concrete facade facade plates of the upper row are securely fastened to the upper parts of the lower range of plates due to the fact that the end facade plates of the concrete facade plates of the upper row 6, designed to form recesses 7 equal to the lengths of the slabs under the protrusions in the lower parts of the plates, are made at angles α to the intermediate surfaces 3 located parallel between the outer surfaces 1 and the inner surfaces 2 in the lower parts of these plates, and the end surfaces 4 of the upper parts of the concrete facade panels of the lower row are intended ennye equal lengths to form plates of the projections 5 in the upper parts of these plates are formed at angles β, α mating angles between the end surfaces 6 and intermediate surfaces 3 of the lower parts of front slabs of concrete of the upper row.

The work of the concrete facade slab consists in the fact that the cladding provides reliable protection of buildings and structures from destruction from the outside during operation under the influence of moisture, frost and other aggressive factors.

Thus, the proposed design of the concrete facade slab provides increased reliability of bonding the slabs to each other due to the fact that the end surfaces of the protrusion in the upper part of the slab and the recesses for the protrusion in the lower part of the slab are made at adjacent angles to intermediate surfaces located between the outer and inner surfaces in parallel the latter in the upper and lower parts of the plate, respectively, providing reliable fastening of the upper rows of plates with the lower rows of plates when they are installed on each other; expansion of functionality due to the fact that the concrete facade slab can be fixed directly to the wall with the required clearance from the wall without the use of special facade leveling subsystems in the form of metal profiles or wooden blocks, which is made possible by the use of plastic dowels that are inserted into the step openings of the plates , and self-tapping screws with solid threads that pass through these dowels and provide reliable fixation of the plate to the wall.

In addition, the cost of facade coatings using the proposed utility model is quite low due to the possibility of fastening plates directly to the wall of the building without the use of expensive facade leveling subsystems.

Claims (1)

A facade concrete slab containing external, internal, intermediate and end surfaces forming a protrusion equal to the length of the slab at the top of the slab and a recess under the ledge at the bottom of the slab, intended for fastening the slabs, and through the ledge of the slab there are made through transverse stepped holes for fixing elements, reinforced with steel spirals with inner diameters equal to the smaller diameters of the sections of the stepped openings, while the intermediate surfaces are parallel between the outer and inner surfaces on the upper and lower parts of the plate, and the ends of the spirals are monolithic in the plate, characterized in that the end surface, designed to form an equal length of the recess plate under the protrusion in the lower part of the plate, is made at an acute angle to the intermediate surface parallel to the outside and inner surfaces in the lower part of the plate, and the end surface, designed to form an equal length of the protrusion plate in the upper part of the plate, is made at an angle corresponding to the angle between the end surface a cavity designed to form an equal length of the recess plate under the protrusion in the lower part of the plate and called an intermediate surface, moreover, plastic anchors for fixing elements made in the form of self-tapping screws with a solid thread corresponding to the diameter of the anchor and length , allowing you to fix the plate at a predetermined distance from the facing wall.