DE1784100A1 - Highly insulating building block - Google Patents

Description

riochw: internal building block The outer walls of a building must In terms of thermal insulation, meet the requirements of DIN 4 108. Recommended is, however, a thermal protection that goes beyond these minimum requirements, as with Increasing thermal insulation reduces heating costs and improves the indoor climate and structural damage, in particular due to the effects of frost, will decrease.

Increased thermal protection is particularly conceivable in two ways, Application of additional thermal insulation layers on the inside or outside of the Walls or use of bricks with higher thermal insulation. Because these measures belong to the known state of the art, they do not require any detailed explanation. It should only be mentioned that the bricks with high thermal insulation properties are made of hollow blocks made of lightweight concrete with expanded clay, where medium, roughly rectangular vertical slots filled with sheets of expanded polystyrene do to enlarge the W @ irmec @@ n @ nung through the stone.

However, a conventionally bricked wall is not only made up of bricks, but also contains the mortar joints between the superimposed Stone layers whose thermal insulation value does not match the thermal insulation value of the stones matches, but is much lower. For example, thermal insulation is a finished mortar wall by around $ 35 compared to the thermal insulation of the building blocks worse. As a result, these plaster joints, the layer joints, act as cold bridges. This phenomenon does not occur in the butt joints between the stones of a layer because the stones are laid tightly butted and the mortar in the mortar bags is introduced into the end faces of the stones. So there can be no cold bridge between inside and outside.

The problem, as a result, is the elimination of the cold bridges in the horizontal joint.

A known solution to this problem is the further development of the aforementioned Hollow block with insulating foam strips inserted into continuous slots in such a way that these insulating inserts on the head surface of the stone with a strip about the thickness of the mortar layer protrudes over the stone surface. Such a strip represents the starting point when mortaring. line edge for the mortar bed and lies against the foam strip in the stone above, its The lower edge is flush with the foot surface of the stone, so that the mortar I joint and thus the cold bridge is interrupted by the protruding heat .. insulating strip is.

The invention is also based on the idea of interrupting the mortar joint through a heat insulating strip and occupies me with the task of building blocks of this type to be produced more easily and at lower cost, the According to the invention, this object is achieved by dal3 in the top surface a groove that is flat in relation to the height of the stone to form a heat-insulating channel is molded together with the stone placed over it.

he has a smooth foot surface in the head surface of the lower stone The insulation strips used are roughly the same as the height of the mortar joint. For stones with grooves in The head and foot surface is so high that it is so high that when the upper one is placed on it Stone engages in the groove of both bit lines.

Stones with different surface designs of the head and foot surface do not offer any when laying since they are otherwise symmetrical. When laying, you only need to ensure that the upper layer is laid with the smooth foot surface facing down.

In general, you will be in the longitudinal extension of the head and If necessary, lay grooves running through the foot surface in the central axis, however this should not be a generally binding Hegel, a relocation near the outer or The inside is quite possible if this results in a better one in individual cases Thermal insulation results. -The thermal insulation strip can be used as a separate part on the construction site 'delivered and there during the erection of the hauerwerkibs in each case assigned to it Inserted or pressed in the groove. He can then possibly in the form of a Tape to be delivered, cut from the appropriate strips on the construction site However, it can also be inserted in the factory, what preferable when it is bonded to the building block with an adhesive.

For bricks with corresponding grooves on the head. and foot surface arises when two layers are placed on top of each other even without the inserted strip a heat-insulating duct with air as a heat-insulating means, its heat insulation but less than that of a thermal insulation material, especially a foamed plastic, is # Inserting such a strip is therefore preferable, apart from that the mortar is more difficult without inserted insulation strips. You need this a lath, each after the application of the mortar and the laying on of the upper Stone must be pulled out of the fig. After all, this path is at low levels Thermal insulation requirements are conceivable.

The invention is based on the embodiment shown in the drawing explained.

It is a part of a masonry that comes from the stone layers 1 and 2, which are connected by a Nörtelsa layer 3. This @ mortar layer would in itself form a cold bridge. To interrupt them, the stones are open the Kopffläo4p and on the foot surface 5 each provided with a groove 6 or 7, in the example of U-shaped cross-section, that is, when dis obexa is placed on the lower layer is, a continuous channel in the longitudinal direction of the masonry of rectangular or form a square cross-section that is mortar-free, i.e. it has a heat-insulating effect would. However, this thermal insulation is not sufficient in most cases. To them too improve is in the groove 6 of the lower Stone a thermal insulation strip 8 used by the groove cross-section, in particular made of a foamed plastic, which engages in the groove 7 of the stone placed over it and thus the i "iörtel in the joint 3 divided.

However, the stone formation already mentioned can also be used, in which only the top surface 4 has a groove 6, while the foot surface 5 is smooth In this case the strip 8 protrudes only by the thickness of the mortar joint over the head surface 4 addition. In the illustrated embodiment, the thickness h is to be chosen so that it is equal to the height of the two grooves and the thickness of the mortar layer.

The joint 9 between the stones of layer 2 do not require mortar, because they are laid close together. In order to achieve an improved bond, are Shaped in the end faces 10 of the bricks semicircular grooves that when bumping the stones form channels 11. These channels are filled with mortar, as in 13 indicated. Cold bridges cannot arise in these mortar cones.

Claims (1)

Claims: 1. Highly heat-insulating building block with interruption of the cold bridge in the mortar joint by a thermal insulation strip extending in the longitudinal direction of the building block protruding over its top surface, characterized in that in the top surface a groove that is flat in relation to the stone height to form a heat-insulating channel together with is molded into the stone placed over it. z. Building block according to Claim 1, characterized in that a corresponding groove is also formed in the foot surface. 3. Building block according to claim 1 or 2, characterized in that according to the head surface, a heat-insulating strip, in particular made of foamed plastic, is inserted. 4. Building block according to claim 1, characterized in that the height of the edge of the insulating strip protruding beyond the head surface of the stone is equal to the thickness of the mortar layer. 5. Building block according to claim 2, characterized in that the height of the edge of the insulating strip protruding above the top surface is so much higher than the thickness of the mortar layer that the insulating strip engages in the groove in the foot surface of the stone over it.