CZ343096A3 - Light-weight transversely perforated brick - Google Patents

Abstract

The brick is especially made from fired clay material, and has holes distributed along its outer walls. The holes form vertical channels, which are parallel to the walls, and which are separated from one another by connecting webs. At least one of the outer walls (1,2) has one or more rows of channels, which are formed by roughly equal slits or elongated rectangles, and which are parallel to it. The cross section of the remaining channels (16) is of parallelogram form, with the longer diagonal (17) roughly parallel to the outer walls. The remaining channels are aligned in parallel rows, and the end walls (3,4) of the brick are connected by a web (5), which is roughly in the middle between the outer walls, and which is parallel to the latter.

Description

(57)

The solution is a light transverse perforated brick, in particular a thermal insulating brick of clay or clay fired material for the construction of single brick walls. The brick comprises outer and interface walls extending around its periphery, as well as perforations, uniformly distributed over its substantially rectangular cross-section in the form of channels extending vertically brick parallel to the outer walls. At least one of the outer walls of the brick (1, 2) comprises at least one row of parallel, slot-like channels (6 to 9) of the same kind. The cross-section of the other channels (16) is formed as a parallelogram with larger diagonals (17) substantially parallel to the outer walls (1, 2), said channels (16) being aligned with each other in parallel rows, the brick comprising a wall (5). located substantially midway between the outer walls (1, 2) and parallel thereto, connecting the interface walls (3, 4).

-1jusr. Jífiioá vterečKA attorney

12K30 PRAGUE 2, Háifcwa 2

Light transverse perforated brick

Technical field

BACKGROUND OF THE INVENTION The invention relates to lightweight transverse perforated bricks, in particular to thermal insulating bricks of clay or clay fired material for the construction of walls of a single brick thickness, the brick comprising external and contact walls extending around its periphery as well as perforations uniformly distributed over its a substantially rectangular cross-section in the form of channels extending vertically through the brick parallel to the walls, with parallel walls and separated by connecting walls.

BACKGROUND OF THE INVENTION

Such known bricks have favorable properties in terms of both increased thermal insulation and sufficient sound insulation while maintaining sufficient strength. It is necessary to bear in mind that in order to achieve the greatest possible reduction in the heat flow through the wall, it is essential that as much air as possible be enclosed in the bricks. On the other hand, in order to achieve the greatest possible interruption of the sound conduction, it is essential that the brick has the greatest possible weight in order to prevent its oscillations.

In order to harmonize these contradictory requirements, the known bricks have uniform perforations in slots or circular or square channels in as much of their cross-section as possible. In spite of this, inevitable thermal bridges arise along the brick walls as well as the contiguous course of the walls separating the channels between the two outer walls of the brick, which no longer satisfy modern requirements, in particular increasingly imposed by the authorities.

SUMMARY OF THE INVENTION It is therefore an object of the invention to further adapt the brick of the type mentioned at the outset in such a way as to achieve a noticeable reduction in the characteristics of the sound transmission,

This means that thermal conductivity can be reduced without compromising the compressive strength of the brick in its bearing direction.

SUMMARY OF THE INVENTION

This object is achieved according to the invention by a light transverse perforated brick, in particular a thermal insulating brick of clay or clay fired material for the construction of walls of one brick thickness, the brick comprising outer and contact walls running around its periphery as well as perforations uniformly distributed having a substantially rectangular cross-section in the form of ducts extending vertically through a brick parallel to the walls having parallel walls and separated from each other by the connecting walls, characterized in that at least one of the outer walls comprises at least one row parallel to it, slot-like or elongated rectangular ducts of substantially the same kind, the cross-section of the other ducts being formed as a parallelogram with larger diagonals substantially parallel to the outer walls, the ducts being spaced with aligned in parallel rows, the brick comprising a wall disposed substantially centrally between the outer walls and parallel to them interconnecting the interface walls.

As a result of these features, a honeycomb structure is formed within the brick over most of its horizontal cross-section, which can be made extremely thin-walled, yet a sufficient internal stiffening is achieved due to the connecting walls running obliquely to the brick walls. As a result of this solution, the contact walls which primarily cause heat flux can be made relatively thin without losing their load-bearing capacity. This results in a corresponding reduction in the ability of the brick to transfer heat along the interface walls.

Due to the construction of the channels with a parallelogram cross-section of the ground providing good reinforcement, the connecting walls can also be made very thin-walled, so that a correspondingly low thermal conductivity along these connecting walls also results, since the heat conduction path along said connecting walls is considerable.

In order to give the brick the necessary strength with respect to the contact walls during its production, the brick has a central wall interconnecting, which is disposed transversely to the heat transfer direction. This wall, together with the outer walls of the brick, provides sufficient compressive strength in the vertical direction, since even when the bricks are displaced relative to one another, there is still a full contact surface as well as outer walls, whereas this does not always occur in cross-sectional areas.

With regard to the sound insulation of the bricks according to the invention, the brick has a maximum air volume due to the above-mentioned exceptionally thin-walled configuration. Here, if the outer walls perpendicular to the bridging walls need a larger cross-section for reasons of compressive strength, the cross-section is interrupted by slotted or oblong rectangular channels causing weight reduction and furthermore ensures that the brick has no cracks in the dry state of these walls.

Finally, the brick also exhibits a high resistance to fire, which results from the fact that the connecting walls of the other channels arranged obliquely to the walls of the brick anchor the walls of the brick sufficiently, which occurs especially when the inclined connecting walls of other channels with one of its points of contact. they connect bricks to the walls.

It has proven expedient for a particularly load-bearing brick if the two outer walls comprise two parallel rows of slot-like or oblong-rectangular channels mutually separated by connecting walls, the channels of one row being displaced with substantially half their length relative to the channels of the other. advice. Also, in order to achieve certain effects here for achieving good sound insulation, it is preferable that the connecting walls have a smaller wall thickness than the other portions of the outer walls defining the channels. In this way, the natural frequency behavior inside the outer walls changes in the direction of sound transmission, so that the resonance oscillation is reduced. On the whole, however, as already indicated above, the oscillation behavior of the outer walls is disturbed or attenuated by the fact that on the outer walls the connecting walls of the other channels are connected obliquely in two opposite directions and thus the outer walls are very rigidly supported.

With respect to the outer wall channels, a length in the range of 35 to 50 mm, in particular 43 mm, has proved to be advantageous for them.

For cross-sections of other channels, they may be parallelograms with unequal edges. However, it has proved to be expedient to design them as equilateral parallelograms, i.e. diamonds. In this connection, it is advantageous if the connecting walls separating the other channels from each other have the same thickness and are designed as thin-walled, the connecting walls having a wall thickness in the range from 3.0 to 4.5 mm, in particular 3.6 mm.

As regards the inclined position of the connecting walls between the other channels with respect to the outer walls of the brick, it may lie in an angular range of 20 to 40 °, with an angle of 23 ° being particularly preferred.

Furthermore, it has proved advantageous with respect to the cross-section of the other channels that the larger diagonals of the other channels have a length in the range of 25 to 45 mm, preferably 35 mm.

The thickness of the central wall connecting the interface walls to each other preferably corresponds substantially to the thickness of the other portions of the outer walls, i.e. those portions of the outer wall which adjoin the corresponding slit-shaped recesses on the opposite side thereof. As far as the dimensions are concerned, it is possible to go up to a wall thickness of 9 mm, and to the wall thickness it is also possible to go at the same time as the contact walls.

The brick according to the invention may have teeth on each of its interfaces and on the other of the interfaces it is advantageous if it passes through the teeth parallel to the other channels and having a polygonal, oval or circular cross section.

Finally, the brick may be made of a porous clay or clay material. Also, the brick may have a bearing surface, exactly perpendicular to its walls, which have been ground to a planar, planar and parallel shape before firing, and through which the brick is in contact with the bricks lying above and below it with a thin mortar bed mortar.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention is explained in more detail in the following description by way of example with reference to the accompanying drawing, in which a single figure shows a plan view of a brick according to the invention.

DETAILED DESCRIPTION OF THE INVENTION

The rectangular brick shown has outer walls 1,2a and interface walls 3, 4, and other similarly formed bricks are connected to the latter walls. The quadrangle enclosed by these walls is divided in the middle between the outer walls 1, 2 by a wall 5 which interconnects the two interface walls 3,

4.

The outer walls 1 and 2 each comprise two rows of elongated rectangular channels 6, 7 and 8, 9, the channels 7, 9 being offset by half their length relative to the channels 6, 8. In this case, the channels 6,7 and the channels 8, 9 are separated from each other by a corresponding connecting wall 10, 11. The thickness of these connecting walls 10, 11 is smaller than the thickness of the other outer wall parts 12, 13 or 14, 15 delimiting the channels 6 to 9.

The brick spaces lying between the outer walls 2, 2 and the wall 5 comprise rhombic channels 16, which are mutually spaced in parallel rows and are positioned such that their larger diagonal 17 lies parallel to the outer walls 1, 2. The channels 16 are spaced apart They are separated by thin-walled connecting walls 18, which run correspondingly obliquely with respect to the direction of the outer and contact walls. In this case, the arrangement is designed in such a way that the connecting walls are each connected by one contact point 19, 20 to the outer walls 1, 2.

The contact walls 2, 4 are provided with teeth 21, 22, to which the opposite contact wall is each provided with corresponding recesses 23, 24. The teeth 21, 22 are each provided with a continuous channel 25, 26, which in this case has a circular cross-section and parallel with other bricks channels. The purpose of these brick channels 25, 26 is essentially to prevent the formation of cracks within the teeth. In addition to the sound insulation function, channels 6 to 9 also fulfill this function.

The brick shown may have the usual external dimensions of a length of 247 to 377 mm and a width of 175 to 490 mm. In this case, the thickness of the contact walls 3, 4 between the teeth 21, 22 can be 9 mm, and this measure also applies to the other parts 12 to 15 of the outer walls 1, 2 and the wall 5. The connecting walls 10.

-711 may additionally have a thickness of 5.2 mm and the connecting walls 13 a thickness of 3.6 mm. These dimensions can be varied for bricks of a different format, taking into account the necessary load-bearing capacity of the brick as well as the requirements in the manufacture of the bricks.

However, the sizes also show that the described construction of the brick allows for a particularly fine shaping which, at full load bearing capacity of the brick, allows small wall thicknesses and thus a low weight, which results in particularly favorable thermal insulation values.

The finely articulated arrangement has its cause essentially in the illustrated use of diamond channels 16, which allows particularly favorable abutment of the walls via the connecting walls arranged obliquely to the walls 1-4. With respect to the inclined position of the connecting walls 18 relative to the walls X, 2, the connecting walls 18 may form an angle in the range of 20 ° to 40 ° with the walls 1, 2. The drawing shows an embodiment with an angle of 28 °.

-8 © c MW c c ST ST ST ST ST ac ^{3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3} 00 00 00 00 00 00 - ²

7 and Nj what 2 O j —Aj OF > < o —-5 OOI and 5 WHAT- σ>

Claims

Claims (18)

A lightweight transverse perforated brick, in particular a thermal insulating brick of clay or clay fired material for the construction of walls of one brick thickness, the brick comprising outer and contact walls extending around its periphery, and further punching, evenly distributed over its substantially rectangular A cross-section in the form of channels extending vertically through a brick parallel to walls having parallel walls and separated by interconnecting walls, characterized in that at least one of the outer walls (1, 2) comprises at least one row of parallel, groin-shaped or oblong rectangular channels ( 6 to 9) of substantially the same kind, wherein the cross-section of the other channels (16) is formed as a parallelogram with larger diagonals (17) substantially parallel to the outer walls (1, 2), said channels (16) being aligned with each other in parallelrows, the brick comprising a wall (5) extending substantially centrally between the outer walls (1, 2) and parallel to them interconnecting the interface walls (3, 4). Lightweight perforated brick according to claim 1, characterized in that the two outer walls (1, 2) comprise two parallel rows of slotted or oblong rectangular channels (6 to 9) separated from each other by the connecting walls (10, 11), the channels (6, 8) of one row are displaced with a displacement of substantially half their length relative to the channels (7, 9) of the second row. Lightweight perforated brick according to claim 2, characterized in that the connecting walls (10, 11) have a smaller wall thickness than the other parts (12 to 15) of the outer walls defining the channels (6 to 9). ⁴ A lightweight transverse perforated brick according to claims 1 to 3 Characterized in that the channels (6 to 9) of the connecting walls (1, 2) have a length in the range from 35 to 50 mm. Lightweight perforated brick according to claim 4, characterized in that it has a length of 43 mm. Lightweight perforated brick according to at least one of Claims 1 to 5, characterized in that the cross-section of the other channels (16) is an equilateral parallelogram. Lightweight perforated brick according to at least one of Claims 1 to 6, characterized in that the connecting walls (18) separating the other channels (16) from each other have the same thickness. Lightweight perforated brick according to at least one of Claims 1 to 7, characterized in that the connecting walls (18) between the other channels (16) are designed as thin-walled. Lightweight perforated brick according to claim 8, characterized in that the connecting walls (18) have a wall thickness in the range of 3.0 to 4.5 mm, in particular 3.6 mm. Lightweight perforated brick according to one of Claims 1 to 9, characterized in that the connecting walls (18) form an angle of 20 to 40 ° with the outer walls (1, 2) between the other channels (16). Lightweight perforated brick according to claim 10, characterized in that the angle is 28 °. Lightweight perforated brick according to at least one of claims 1 to 11, characterized in that the larger diagonals (17) of the other channels (16) have a length in the range of 25 to 45 mm. A lightweight transverse perforated brick as claimed in claim 12 -10the length is 35 mm. Lightweight perforated brick according to at least one of Claims 1 to 13, characterized in that the thickness of the central wall (5) interconnecting the interface walls (3, 4) essentially corresponds to the thickness of the other parts (12 to 15) of the outer walls (1). , 2). Light cross-perforated brick according to at least one of Claims 1 to 14, characterized in that the brick has teeth (21, 22) on each of its interface walls (3, 4) and a recess on the other of the interface walls (3, 4) (23, 24) corresponding to the teeth (21, 22). Light cross-perforated brick according to claim 15, characterized in that it passes through the teeth (21, 22) through channels (25, 26) parallel to the other channels (16) and having a polygonal, oval or circular cross-section. Lightweight perforated brick according to at least one of claims 1 to 16, characterized in that it is made of a porous clay or clay material. Lightweight transverse perforated brick according to at least one of Claims 1 to 17, characterized in that it has bearing surfaces exactly perpendicular to its walls (1 to 4) which have been ground to a planar parallel shape before firing, and through which the brick is walled in contact with the bricks lying above and below it with a thin bed mortar.