CS251284B1 - Two-layer ceramic building element - Google Patents

Abstract

Two-layer ceramic construction component is in the space between the rows Slotted or hollow shaped fittings near the concrete ribs in both layered with locks, designed as protrusions and grooves on rebate walls not the side faces of the fitting.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a two-layer ceramic building block which is designed to improve its thermal properties.

Ceramic structural components are known in which their thermal properties are improved by increasing the number of layers of ceramic fittings and their suitable arrangement. An example of a known construction of a two-layer structural member is a β ceramic shaped piece arranged in two layers in rows. in one layer they are offset from one another in relation to the fittings in the other layer. The disadvantage of this two-layer panel is that it does not break the thermal bridges in the necessary mortar joints. Another example of a known two-layer ceramic building component is a component consisting of two layers of fittings, comprising, in wide grooves of the rows of fittings, continuous strips of additional thermally insulating material.

Practice has shown the non-compactness of these components, manifested in the separation of individual layers of fittings due to shear stress due to improperly designed connection of both layers. Another example of the known construction of a two-layer ceramic building component is a component comprising, in addition to two ceramic layers, an integral layer of a high-performance thermal insulation material. It is a laminated so-called sandwich panel, the main disadvantage of which is that its individual layers must be connected to each other by means of fasteners, in particular anchors and clips, which penetrate the entire layer of insulating material and must therefore be made of stainless material. Ceramic components are also known, consisting of rows of ceramic cavity-shaped fittings arranged in two layers interconnected by a central concrete layer, wherein blanks of additional heat-insulating material are placed between the rows of fittings in at least one layer in the spaces defined by the projections or recesses in the fittings which interrupt the thermal bridges in the mortar joints.

The main disadvantage of this two-layer panel, the solution of which is closest to the invention, is the complicated manufacturing technology requiring the handling of blanks of the additional thermal insulating material, thereby greatly reducing the possibility of fully utilizing automatic devices in the production of the panels.

The above-mentioned disadvantages of the prior art ceramic components are eliminated by the two-layer ceramic component according to the invention, seated on the rows of ceramic, cavity or slit lightweight fittings arranged in two mutually parallel layers connected by a central concrete layer. The main feature is that between the adjacent rows of fittings the joints are kinked and a connecting and sealing lock is formed in their central part. The lock is formed from a continuous protrusion on the transverse wall of the rebate on the contact surface of one of the fittings, which fits into a groove on the transverse wall of the rebate on the contact surface of an adjacent fitting. The continuous projections and grooves on the fitting surfaces have a trapezoidal cross-section. The transverse wall of the rebate forms an angle of 75 to 105 ° with the longitudinal wall of the rebate.

The constructional solution of the two-layer ceramic component according to the invention significantly improves its thermo-technical properties. While most known ceramic structural members achieve this effect with an additional thermal insulating material, the present invention achieves improved thermal performance by removing thermal bridges in the mortar joints by providing a lock formed between rows of fittings to prevent mortar from entering the joint. This is simpler than breaking the thermal bridge by cutting the thermal insulating material and, in particular, more convenient in the mechanized production of components. The structural design of the fittings for the ceramic building component and two large half-grooves significantly improves the stabilization of the position of the individual fittings after placing them in the mold before they are poured with mortar during the production of the component. Even with the solution according to the invention, an additional thermal insulating material can be used, namely its application in the cavities of the fittings. Such use of an additional thermal insulating material further enhances the effects of the invention without adversely affecting the possibility of mechanized production of the component.

In the accompanying drawings, three exemplary embodiments of a two-ply building ceramic component according to the invention are schematically illustrated. Giant. Fig. 1 shows an embodiment of a two-layer slotted fitting panel; Fig. 2 a similar embodiment of two cavity fitting layers filled with additional thermal insulation material; Fig. 3 an embodiment of a panel in which one layer consists of rows of slotted fittings while the other layer consists of rows 4 shows an embodiment of a fitting for a ceramic building block according to the invention.

An exemplary embodiment of a two-layer ceramic component / FIG. 1 / consists of two identical layers 1, 1 'of ceramic slot fittings 2. The ceramic slot fittings 2 are arranged in both rows 1, 1' in the rows 3 to meet, avoiding the bed joints. The layers 1, 1 ' of the ceramic slotted fittings 2 are connected to each other by a central concrete layer 6 forming concrete ribs 41 in a portion of the space between the rows 2 of the fittings 2. '. In the spacious between the row! 2 of the two layers 1, 1 ' of the ceramic slot fittings 2 are formed by locks 2 preventing flow of the mortar. Ceramic slot fittings 2 / fig. 4 are provided with two rebates 22 of a width equal to (in a particular embodiment) one tenth of the overall width of the fitting 6.

The wall 21 of both rebates 22 forms an angle of 75 degrees with the second wall 24 of both rebates. The locks 2 are in the form of grooves 22 and trapezoidal protrusions 22 on the blades 21 of both rebates 22. 2 / ae differs from the described embodiment in that, instead of the ceramic slot fittings 2, there are cavity ceramic fittings 2 in both layers 10, 12 'in whose cavities Z an additional thermal insulation material S is located. 3 / consists of one layer 20 of ceramic slot fittings 2. while the second layer 22 'is composed of ceramic cavity fittings 2. Their cavities Z are filled with additional thermal insulating material g. A characteristic feature of all three described examples of the component according to the invention is locks 2 formed. between rows 2 of ceramic fittings 2 »resp. 2 in both layers 1, 1 ' 12.

12 'or 22. 22' near the concrete ribs 41.

The described embodiments of the invention do not limit the possibilities of other specific embodiments using other types of fittings and combinations thereof, and in particular with other embodiments of the projections and grooves on the walls of the half-grooves of the fittings.

Claims (3)

A two-ply ceramic structural component, consisting of rows of, in particular, ceramic, cavity or slit-shaped fittings arranged in two mutually parallel layers connected to one another by a central concrete layer, the fittings being arranged in at least one layer in particular in rows for meeting. that a joint and sealing lock (9) is formed between adjacent rows (3) of the fittings (2/6) and in their central part a connecting and sealing lock (9) consisting of a continuous projection (62) on the transverse wall (61) of the rebate (60) the contact surface of one of the fittings (2,6) fitting into the groove (63) on the transverse roof (61) of the rebate (60) on the contact surface of the adjacent fitting (2,6) in the adjacent row (3). 2. The double-walled ceramic component according to claim 1, characterized in that the continuous projections (62) and grooves (63) on the contact surfaces of the fittings (2,6) have a trapezoidal cross-section. 3. A two-layer ceramic component according to claim 1, wherein the transverse wall (61) of the rebates (60) of the shaped pieces (2.6) forms an angle of 75 to 105 DEG with the longitudinal wall (64) of the rebates (60). 3 drawings