CZ12183U1 - Placing of ceiling panels - Google Patents

Description

The technical solution relates to the placement of ceiling panels, in particular hollow ceiling panels for creating planar soffits of load-bearing panels of buildings, the load-bearing panels being formed by a system of longitudinal girders which are supported on supporting pillars and to which a system of mutually parallel ceiling panels.

BACKGROUND OF THE INVENTION

In the current building practice, the individual floor support plates, in particular the planar soffits of the support plates, are formed from prefabricated parts such that on supporting columns, which are arranged in longitudinal rows, they support sets of mutually parallel longitudinal beams which form a system of longitudinal support elements. Individual ceiling panels, which are made up of relatively narrow parts, are then placed on this system with their ends. To accommodate the ceiling panels, longitudinal projections are formed on their facing surfaces. The bearing surface formed in this way is provided on the upper side with a set of technologically determined layers for the final creation of floor surfaces, the lower surface forming the soffit, ie the ceiling surface of the respective lower space of the building, is rendered and its surface is finally leveled and smoothed.

The disadvantage of such created ceilings is the use even after the completion of the construction of visible girders, which considerably affects the disposition of the associated space, or necessitates solving the required flatness of the ceiling surface with additional elements such as suspended ceilings.

The essence of the technical solution

This disadvantage is solved by the object of the present technical solution, which is the placement of ceiling panels, in particular hollow ceiling panels, to create planar ceilings of load-bearing boards of buildings, which load-bearing boards consist of a system of longitudinal girders supported on support pillars. mutually parallel ceiling panels.

The essence of the technical solution is that at least one of the longitudinal walls of the girders is fixedly a cantilever, which is anchored in the girdle body and is formed by at least a support arm for receiving an end part of the ceiling panel adjacent to the longitudinal wall of the girders.

Another principle of the technical solution is that the cantilever consists of a pair of mutually perpendicularly oriented arms - a supporting arm and a supporting arm, which is adjacent to the longitudinal wall of the girders, between which at least a pair of short stiffeners are arranged perpendicular to the longitudinal cant. cantilever arm and / or long stiffeners that extend at least beyond the cantilever arm.

The technical solution is also based on the fact that the distance between adjacent reinforcements of short reinforcement and / or long reinforcement is at most equal to the width of the ceiling panel adjacent to the girders, or that the distance of adjacent reinforcements - short reinforcement and / or long reinforcement corresponds to cavities of the cavity ceiling panel.

Finally, the essence of the technical solution is that the part of the long stiffener extending beyond the support arm is provided with an anchor.

Obviously, when utilizing the structure according to the present invention, the lower parts of the girders or their noses are preferably replaced by metal cantilevers, the stiffness of which is advantageously increased or secured by their vertical stiffeners, so that the desired planar soffit can be realized only by a thin layer of plaster which essentially corresponds only to the thickness of the cantilever arm.

-1 CZ 12183 Ul

This advantage is particularly evident when using conventional prefabricated hollow ceiling panels, in which, according to the invention, the vertical support of the cantilever is preferably embedded in openings which are only cut into a thin wall by the position of the corresponding cavity of the panel.

BRIEF DESCRIPTION OF THE DRAWINGS

Exemplary embodiments of the object of the invention are schematically shown in the accompanying drawings, in which Fig. 1 shows a section of a reinforced concrete frame of a house; Fig. 2 shows a section AA of a part of the supporting structure according to Fig. 1; Figures 4 and 5 are two alternative designs of the front panel of different types of ceiling panel, Fig. 6 shows an exemplary detailed embodiment of the support plate 1 in section BB according to Fig. 2, and Fig. 7 shows a cross section of a variant design die.

Examples of technical solution

As shown in FIG. 1, the support plate 10 constitutes one of the floors of a multi-storey house supported by a system of support pillars 2. The support plate 10 is based on longitudinal girders 3, which are supported on the ends 20 of support pillars 2 and whose longitudinal walls 310 the ceiling panels of one of the mass-produced types, for example the hollow ceiling panels 41 according to FIG. 4 or the solid ceiling panels 42 according to FIG.

The die 3 in the exemplary embodiment of FIG. 3 is a reinforced concrete body 300, to whose longitudinal walls 310 are attached L-shaped angular steel cantilevers 30, which adjoin its longitudinal wall 310 with one support arm 302 and the other support arm 301 to the support arm. arm 302 perpendicular. The connection of the bracket 30 with the die 3 is realized by some of the conventional components, for example by means of anchors 305, which are welded to its support arm 302, as shown in FIG. 6.

Referring to Fig. 3, both the arms 30, the support arm 301 and the support arm 302 are provided with a set of stiffeners which are located at distances 307 and are implemented as short stiffeners 303 or long stiffeners 304. Both types of stiffeners increase the stiffness of the support bracket 301. 30 and hence its bearing capacity. In the case of a long stiffener 304 that extends beyond the width of the support arm 302 of the cantilever 30, an armature 305 is welded to the support arm 302 which extends into the space above the die base body 300 and after pouring it with concrete. 6, the overall strength of the die 3 assembly - the ceiling panel 41, i.e. the strength of the final support plate 10, is further increased.

In order to prevent the struts 303, 304 from impeding the placing of the ceiling panels 41, 42 close to each other, according to the technical solution, reliefs are formed on their faces 440 or 420 whose position and width correspond to the positions and width of the struts 303, 304 cantilevers. in particular, in the case of solid ceiling panels 42, notches 421, in the case of cavity ceiling panels 44, grooves 411 which are cut in the lower walls of some longitudinal cavities 400. The widths of the grooves 411 or notches 421 correspond to the widths 314 corresponding to them. The distances 307 of the short stiffeners 303 and / or long stiffeners 304 and their corresponding grooves 411 or notches 421 are selected in such a way that they correspond to each other when forming the support plate 60 according to FIG. 2 and that the ceiling panels 41, 42 are supported without gaps between them. When hollow ceiling panels 46 are applied, these distances 307 are preferably realized in integral multiples of the pitch 403 of the axes 402 of their longitudinal cavities 400.

An exemplary embodiment of the support plate 10 is shown in Fig. 6, in which section BB of Fig. 2 is shown as its basic structural elements - support pillar 2, die 3 through anchors 30 and anchors 305, end portion of cavity ceiling panel 46 and concrete 100. and the remaining finishing layers of the floor areas of the respective floor, the backfill 12, the polystyrene insulation 43, the concrete screed 14 and, for example, the parquet 85. The soffit of the support plate 10 and hence the flat ceiling below

The room 11 is provided with a spatula 11 whose thickness 110 is selected so as to be minimal in the cantilever space 30. It will be appreciated that the placement of the ceiling panels 41, 42 using the dies 3 provided in accordance with the subject matter of the present invention requires the desired precise placement, especially in terms of their relative height position, is advantageous.

To avoid unnecessary penetration of the material of the concrete 100 into the longitudinal cavities 400 of the ceiling panel 41, their origins are provided with plugs 401, for example polystyrene, and the plug 401 of the longitudinal cavity 400 in which the groove 411 is formed. Slightly shifted cavity space.

The dies 3 can also be made using the present invention in such a way that the cantilever 30 will be realized only on one of its longitudinal walls 310, which is advantageous especially when realizing relatively narrow but long buildings such as longer hall-type buildings, , eventually large buildings for cultural and similar purposes.

It will be understood that the design of the beams 3 with cantilevers 30 according to the invention is not limited to the embodiments described and illustrated. Thus, for example, it is not necessary to form a cantilever 30 uninterrupted along the entire length of the longitudinal wall 310 of the dies 3. For example, shown in Fig. 7, the support arms 302 of the two opposite cantilevers 30 may be connected to each other by connecting rods 306, which in addition may be connected to a beam armature (not shown) and the like.

Industrial applicability

The installation of ceiling panels according to the invention can be advantageously used in all buildings with individual rooms with larger ground planes, the floors of which are realized by means of girders, which are supported on a system of supporting pillars and interconnected by a system of ceiling slabs, especially in multi-storey residential and utility buildings.

Claims (5)

Laying of ceiling panels, in particular of hollow ceiling panels (41) for creating planar soffits of load-bearing plates (10) of buildings, which load-bearing plates (10) consist of a system of longitudinal girders (3) which are supported on supporting pillars (2) and a system of mutually parallel ceiling panels (41, 42) connected transversely to the dowels (3), characterized in that at least one of the longitudinal walls (310) of the dies (3) is fixedly attached to the cantilever (30) anchored in the body The beams (3) are at least a support arm (301) for receiving an end portion of the ceiling panel (41, 42) adjacent to the longitudinal wall (310) of the beams (3). Ceiling panel support according to claim 1, characterized in that the cantilever (30) is formed by a pair of mutually perpendicularly oriented arms - a support arm (301) and a support arm (302) adjacent to the longitudinal wall (310) of the girders (3). ), between which at least a pair of short stiffeners (303) not extending beyond the support arm (301) and the support arm (302) of the bracket (30) and / or long stiffeners (304) extending perpendicular to the longitudinal axis of the bracket (30) at least a support arm (304) of the cantilever (30). Ceiling panel arrangement according to claim 1 or 2, characterized in that the distance (307) of adjacent reinforcements, short reinforcements (303) and / or long reinforcements (304) is at most equal to the width (43) of the ceiling panel (41). , 42) adjacent the die (3). -3 CZ 12183 Ul Ceiling panel arrangement according to claim 2 or 3, characterized in that the distance (307) of adjacent struts, short struts (303) and / or long struts (304) corresponds to a multiple of the pitch (403) of the axes (402) of the longitudinal cavities. (400) a cavity ceiling panel (41). Ceiling panel arrangement according to one of Claims 2 to 4, characterized in that the part of the long stiffener (304) extending beyond the support arm (302) is provided with an anchor (305).