CZ292398B6 - Ceiling structure - Google Patents

Abstract

The present invention relates to a ceiling structure comprising reinforced concrete ribs (2, 3) with hollow glass bricks (1) placed therebetween. The hollow glass bricks (1) comprise each two interconnected half-shells (8, 9). Each half-shell (8, 9) has a base wall (12, 14) and a side wall (13, 15) performed along the circumference of said base wall (12, 14). Upper base wall (12) forming a walk-on floor surface has a flat top surface and along circumference of the bottom base wall (14), lying opposite to the upper base wall (12), there is performed a projection (16) protruding over lower surface thereof. The base walls (12, 14) have thickness of at least 20 mm. Each reinforced concrete rib (2, 3) is provided with a recess for fitting the projection (16) therein. A glass pane (10) being at least 10 mm thick is disposed between both the half-shells (8, 9). Said glass pane (10) is connected by means of a steam-diffusion-tight adhesive to the circumferential surface of said side walls (13, 15) and is provided with a reflective layer (19) serving for reflecting infrared rays.

Description

Technical field

The invention relates to a ceiling structure consisting of reinforced concrete ribs between which hollow glass blocks are formed, which are formed of two half-shells. Each half-shell is formed from a base wall, around which a side wall is formed. The upper base wall forming the walkable floor surface has a planar upper surface, and a projection extending above its lower surface is formed around the periphery of the lower base wall, which faces the upper base wall.

BACKGROUND OF THE INVENTION

Known similar ceiling constructions, which form load-bearing, walk-on ceilings, consist of hollow glass blocks which are embedded in a reinforced concrete rib body, and known hollow glass blocks for bearing walk-in ceilings are described, for example, in DE 845 388.

Another known ceiling structure is described, for example, in DE 1092 631, which consists of hollow glass half-shells having different contours and wall thicknesses, the relatively thin half-shell being provided with a mounting edge on its periphery with a mounting edge on its edge. lost perimeter frame.

Another patent DE 765 039 describes a known hollow glass block with laterally protruding bulges for anchoring with a bonding mortar which is applied between the hollow glass blocks. US 2 118 643 and DE 28 30 504 disclose known hollow glass blocks with glass panes interposed between half-shells, which may be formed as a glass pan with a wire insert or may be provided with an infrared reflecting layer.

Fire resistance class F ceilings shall provide an effective enclosure for the duration of the fire resistance tests for the period of time determined by the relevant fire resistance class. During this time, the side facing away from the fire shall not be heated more than 140 K above the initial temperature on average, and at no measured point the temperature shall rise above 18 ° C above the initial temperature.

The disadvantage of these known ceiling constructions is that the known hollow glass blocks do not meet these conditions, since both the glass mass is melted and there is a risk that the hollow glass blocks are separated from the reinforced concrete fin by heat.

SUMMARY OF THE INVENTION

These drawbacks are largely eliminated by ceiling structures consisting of reinforced concrete ribs between which hollow glass blocks are formed, which are formed of two half-shells, each half-shell being formed from a base wall with a side wall around its periphery, the upper base wall the walkable floor surface has a planar upper surface and a projection extending beyond the lower base wall extends beyond the lower base wall and extends beyond its lower surface in that the base walls of the two half-shells have a thickness of at least 20 mm. In each reinforced concrete rib a recess is formed to engage the projection.

-1 CZ 292398 B6

According to a preferred embodiment, a glass sheet is disposed between the two half-shells and is connected to the circumferential surface of the side walls of the two half-shells.

According to another preferred embodiment, the glass sheet has a thickness of at least 10 mm, preferably 15 to 25 mm.

According to a further preferred embodiment, the glass sheet is connected to the peripheral surface of the side walls of the half-shells by means of a water-vapor-diffusing adhesive.

According to a further preferred embodiment, the glass sheet is provided with a reflective layer reflecting the infrared rays.

According to a further preferred embodiment, the reinforced concrete ribs are made of heat insulating concrete.

The main advantage of the proposed solution is that the ceiling structure with hollow glass blocks is suitable for use especially for ceiling structures of fire resistance class F.

A further advantage is that the hollow glass block has very thick heat transfer walls compared to known hollow glass blocks 20 and is formed asymmetrically.

It is also advantageous that when pouring the hollow glass blocks with concrete, the concrete penetrates beyond the protrusions, thereby ensuring a better connection of the hollow glass blocks with the reinforced concrete fin body, while the resistance of the ceiling construction is adequately improved.

Overview of the drawings

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 shows a first exemplary embodiment of a ceiling structure in section and FIG. 2 a second exemplary embodiment of a ceiling structure in section.

DETAILED DESCRIPTION OF THE INVENTION

The ceiling structure shown in Fig. 1 consists of a hollow glass block 1 which is embedded in a reinforced concrete rib body between its first reinforced concrete rib 2 and the second reinforced concrete rib 3, wherein only part of the reinforced concrete ribs 2 is shown in Fig. 1,

3. Reinforced concrete ribs 2, 3 are made of thermal insulating concrete B 25 with a grain size of 8 mm. For example, the reinforced concrete ribs 2, 3 have a width of 40 mm and a height of 120 mm. First reinforcing steels 4 and second reinforcing steels 5, whose longitudinal axes are perpendicular to each other, are placed horizontally in reinforced concrete ribs 2, 3. The reinforcing steels 4, 5 are hot-dip galvanized and have a diameter of 8 mm.

The hollow glass block 1 consists of an upper half-shell 8 and a lower half-shell 9. The upper 45 half-shell 8 is formed by an upper base wall 12, around which the upper side wall 13 is formed. The upper base wall 12 has a thickness of 20-25 mm. The upper surface of the upper base wall 12 is flat, that is, it has no protrusions projecting above its upper surface. The upper surface of the upper base wall 12 continuously merges into the upper surface of the reinforced concrete ribs 2,3.

The lower half-shell 9 is formed by a lower base wall 14, around which a lower side wall 15 is formed. The lower base wall 14 has a thickness of 20 to 25 mm. A projection 16 is formed around the periphery of the bottom surface of the base wall 14, which protrudes over the bottom surface of the base wall by a few millimeters. A recess is provided in each reinforced concrete rib 2, 3 for engaging the projection 16. This location of the projection 16 in the recess ensures good anchoring of the hollow glass block 1 in the reinforced concrete ribs 2, 3.

Between the half-shells 8, 9 there is a glass sheet 10 which is connected to the peripheral surface of the lower side wall 15 and to the peripheral surface of the upper side wall 13 by means of an adhesive layer 11. The adhesive layer H consists of an adhesive which seals against the diffusion of water vapor. The glass sheet 10 may be provided with an IR reflective layer 19 which contributes to the reduction of heat radiation as it passes through the hollow glass block L

Fire tests at 500 kg / m of ceiling construction have shown that ceilings made of hollow glass blocks 1 fully comply with the fire resistance class F 30.

The ceiling structure shown in Fig. 2 is similar to that of Fig. 1 and also consists of a hollow glass block 20 which is embedded in a reinforced concrete body between its reinforced concrete ribs 2, 3, in which the reinforcing steel 4, 5 is located.

The hollow glass block 20 consists of an upper half-shell 21 and a lower half-shell 22. The upper half-shell 21 is formed by an upper base wall 23, around which the upper side wall 24 is formed. The upper surface of the upper base wall 23 has no protrusions projecting above its upper surface. The upper surface of the upper base wall 23 smoothly merges into the upper surface of the reinforced concrete ribs 2, 3. The lower half-shell 22 is formed by the lower base wall 25, around which the lower side wall 26 is formed. which overlaps the bottom surface of the base wall 25 by a few millimeters. In each reinforced concrete rib 2, 3, a recess is formed to engage the projection 27.

Between the half-shells 21, 22 is placed a glass sheet 20 which is connected to the peripheral surfaces of the side walls 24, 26 by means of an adhesive layer 32. The glass sheet 30 has a thickness of approximately 20 mm which is greater than the thickness of the glass sheet 10. The glass sheet 30 may be provided with an IR reflective layer 31. During fire tests at a load of 750 kg / m ^{2 of the} ceiling structure, it has been shown that the ceilings thus formed from the ceiling structure fully comply with the conditions of fire resistance class F 60.

Claims (6)

PATENT CLAIMS Ceiling structure, consisting of reinforced concrete ribs (2, 3), between which hollow glass blocks (1, 20) are formed, which are formed of two half-shells (8, 9, 21, 22), each half-shell (8, 9, 21, 22) is formed from a base wall (12, 14, 23, 25), around which a side wall (13, 15, 24, 26) is formed, the upper base wall (12, 23) forming a walkable floor the surface has a planar upper surface and a projection (16, 27) protruding above its lower surface is formed around the circumference of the lower base wall (14, 25) opposite the upper base wall (12, 23), the walls (12, 14, 23, 25) of the two half-shells (8, 9, 21, 22) have a thickness of at least 20 mm, wherein a recess is formed in each reinforced concrete rib (2, 3) to engage the projection (16,27). Ceiling structure according to claim 1, characterized in that a glass pane (10, 30) is connected between the two half-shells (8, 9, 21, 22) and is connected to the peripheral surface of the side walls (13, 15, 24). 26) both half shells (8, 9,21,22). -3GB 292398 B6 Ceiling structure according to claim 2, characterized in that the glass pane (10, 30) has a thickness of at least 10 mm, preferably 15 to 25 mm. Ceiling structure according to one of Claims 2 and 3, characterized in that the pane 5 (10, 30) of the glass is connected to the peripheral surface of the side walls (13, 15, 24, 26) of the half-shells (8, 9), 21, 22) with a water vapor diffusion adhesive. Ceiling structure according to one of claims 2 to 4, characterized in that the glass pane (10, 30) is provided with a reflective layer (19, 31) reflecting infrared rays. O Ceiling structure according to claim 1, characterized in that the reinforced concrete ribs (2, 3) are made of thermally insulating concrete.