DE3402541A1 - Perforated block, in particular large building block - Google Patents

Abstract

In the case of a perforated block (1) which exhibits a slotted perforation formed by webs (17, 18) and slots (11, 11', 11", etc.) extending transversely to the direction of heat flow (W) and combined to give rows of slots (12, 12', 12", etc.), those faces of the slots extending transversely to the direction of heat flow (W) are formed in each case by two part-faces (13, 13' and 14, 14') which are inclined at an obtuse angle ( alpha ) with respect to one another. In this way, the cross-sectional shape of the slots (11, 11', 11", etc.) is composed of two trapeziums (a, b) arranged opposite each other. This configuration means that the webs (17), running transversely to the direction of heat flow (W), are divided into individual web parts which are inclined with respect to one another in an approximately wave-shaped fashion, with the result that said web parts exhibit a high degree of elasticity. When firing and drying the blocks (1), changes in length can be compensated for by means of the elasticity, with the result that high strength is achieved. Through-flow also benefits from this shape of the slots. <IMAGE>

Description

Perforated stone, especially large block bricks

The invention relates to a perforated stone, in particular Large block brick, the one extending through webs and transversely to the direction of heat flow, Rectangular slots combined to form rows of slots having, the slots of one row of slots opposite the slots of the adjacent Rows of slots are laterally offset.

Large block bricks of this type are known and will be because of their high Have thermal insulation, used with great success in a variety of ways. By however, the rectangular slots in these stones run transversely to the heat flow direction arranged webs in a straight line, so that their elasticity is not is very large and therefore the webs often tear when firing and drying.

However, cracks make the compressive strength of a stone unfavorable influenced. Furthermore, the slots in these bricks cannot be enlarged at will or be reduced in size, because the ridges, so when cutting single Moldings from a clay strand to avoid deformation are sufficient Strength is given, must have a certain wall thickness. The relationship the total cross-sectional area of the slots to the total area of the clay material of a Stone, on which the thermal insulation depends, is therefore under in these bricks 50%. Furthermore, the flow through the slots is not optimal here and worsens with narrowing slits.

The object of the invention is now to provide a perforated stone, in particular Large block bricks, with which not only a high elasticity also the transverse to the heat flow direction extending webs is given and thus when burning and Drying does not tear, but in which also the total area of the slits is the same or is even larger than the total area of the clay material without affecting the strength is affected. Furthermore, the flow should flow through the slots during firing and drying can be improved over the stones with rectangular slots.

According to the invention this is achieved in that the transverse to the direction of heat flow extending boundary surfaces of the slots each through two partial flanges are formed which are inclined at an obtuse angle to one another extend in such a way that the slots in their cross-sectional shape from two to each other oppositely arranged trapezoids are composed.

It is useful here to have those extending transversely to the direction of heat flow Subdivide areas of the slots in each case approximately in the middle of the slots, so that symmetrical slots result. 4th It is also appropriate in order to obtain a uniform hole pattern, which are offset opposite each other arranged partial surfaces of a slot each run parallel to one another permit.

The partial areas should each be at an angle of 1500 up to 1700 inclined to each other.

It is also advantageous if the wall thicknesses between the inclined Partial areas of two webs running in the heat flow direction of adjacent slots and / or the webs arranged between two slots of a row of slots, for example the length of the end faces of the slots extending in the direction of the heat flow correspond.

In order to avoid the accumulation of material, they should also be placed in each other opposite end regions of two adjacent rows of slots each have a slot be arranged with a trapezoidal cross-sectional area, its transverse to the heat flow direction running surfaces diverge outwards.

In order to even out the hole pattern, the slots should also have a Row of slots each by half a slot width compared to the slots of the neighboring ones Row of slots be arranged offset.

If a perforated stone is formed according to the invention, then run whose webs arranged transversely to the heat flow direction are not straight, but the individual bridge parts are aligned in an approximately wave-like manner inclined to one another, so that these also have a high elasticity. When firing and drying the Stones can thus through their Sufficient elasticity Changes in length can be easily compensated for, which will cause cracking in the webs therefore successfully counteracted. This configuration increases the strength of a stone is not impaired, it is rather a higher cut resistance than in the case of stones with straight crossbars, there is a more favorable mutual one Support is given.

Another advantage is that a stone of the same size has more Rows of slots with double trapezoidal slots can be provided as rows of slots with rectangular slots. The thermal insulation is thus, since the hole portion 50 and can be more percent, further improved compared to these stones, also is, since the webs can have a uniform wall thickness everywhere, a more uniform one To achieve squeezing and thus also an even drying. Furthermore is a good flow of air through the slots during drying, thereby drying the stones is also favored, given. The inventive design of the Slots is thus created a stone, which compared to the previously known bricks of the same type has considerable advantages.

In the drawing, a trained according to the invention is perforated Stone shown in plan view, which is explained in detail below.

The stone denoted by 1 has a slot perforation, the slots of which 11, 11 ', 11' '... in its longitudinal axis parallel to the outer walls 2 and 3 of the stone 1 and thus run perpendicular to the heat flow direction W and each to a row of slots 12, 12 ', 12' '... are combined. To connect the individual stones with each other is in the wall 5 a mortar groove 6 formed, the opposite Wall 4, however, is smooth.

The boundary surfaces extending transversely to the heat flow direction W. of the slots 11, 11 ', 11 "... are each divided by two partial surfaces 13, 13' and 14, 14 'formed, which are inclined at an obtuse angle gC of about 1600 to one another get lost. In this way the slots 11, 11 ', 11 "... are made up of two of each other oppositely arranged trapezoids a and b composed. The transverse to the direction of heat flow W arranged, the individual rows of slots dividing webs 17 are accordingly divided into mutually inclined web parts, so that a high elasticity the transverse webs 17 is given and almost no cracks occur during firing and drying.

The surfaces 13, 13 'and 14, 14' are each approximately in the middle of the Slots 11, 11 ', 11' '... subdivided, furthermore they are offset from one another oppositely arranged partial surfaces 13, 14 'and 13', 14 of a slot, respectively parallel to each other. In this way a uniform hole pattern is created.

The wall thickness S of the between the thus undulating transversely to Heat flow direction W extending between the slots 11, 11 ', 11 "... running The webs 17 as well as the webs 18 extending in the heat flow direction W correspond approximately the length of the end faces 15 and 16. Due to the uniformity of the material thicknesses an even pressing of the clay strand is guaranteed and during firing and drying of the moldings, cracking is counteracted.

In order to avoid material accumulation, there are the slots in a row of slots each by half a slot width compared to the slots in the adjacent row of slots are arranged offset, in the opposite end regions of two Adjacent rows of slots each have a slot 19 or 20 with a trapezoidal shape Shaped cross-sectional area arranged, the transverse to the heat flow direction W extending Surfaces 21, 22 and 23, 24 diverge outwards. The total area of the slots 11, 11 ', 11' '... can thus, especially since the webs 17 and 18 in their wall thickness S small can be measured and compared to comparable stones of the same size more Rows of slots are to be provided that are equal to or even larger than the total area of the clay material of a stone, so that with high strength and elasticity a high thermal insulation is given.

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Claims (7)

Claims: 1. Perforated stone, especially large block bricks, the one extending through webs and transversely to the heat flow direction, to rows of slots has summarized rectangular slots formed slot perforation, wherein the slots of one row of slots opposite the slots of the adjacent rows of slots are arranged laterally offset, characterized in that the transverse to Heat flow direction (W) extending surfaces of the slots (11, 11 ', 11' '...) respectively are formed by two partial surfaces (13, 13 'and 14, 14'), which are blunt under a The angles (whether) are inclined to one another in such a way that the slots (11, 11 ', 11' '...) in their cross-sectional shape from two oppositely arranged trapezoids (a, b) are composed. 2. Perforated stone according to claim 1, characterized in that the surfaces (13, 13 'and 14, 14') extending transversely to the heat flow direction (W) of the slots (11, 11 ', 11' '...) each approximately in the middle of the slots (11, 11', 11 "...) are subdivided. 3. Perforated stone according to claim 1 or 2, characterized in that that the offset facing each other arranged partial surfaces (13, 14 'and 13 ', 14) of a slot (11, 11', 11 '' ...) each run parallel to one another. 4. Perforated stone according to one or more of claims 1 to 3, characterized in that the partial surfaces (13, 13 'and 14, 14') at an angle (O) of 150 ° to 1700 inclined to each other. 5. Perforated stone according to one or more of claims 1 to 4, characterized, that the wall thicknesses (S) between the inclined partial surfaces (13, 14 'and 13', 14) of two adjacent in the heat flow direction (W) Slots (11, 11 ', 11' '...) extending webs (17) and / or between two slots a row of slots (12, 12 ', 12' ') arranged webs (18) approximately the length of the in the heat flow direction (W) extending end faces (15, 16) of the slots (11, 11 ', 11' '...). 6. Perforated stone according to one or more of claims 1 to 5, characterized in that two in the opposite end regions Adjacent rows of slots (12, 12 ') each have a slot (19, 20) with a trapezoidal one Cross-sectional area is arranged, the transverse to the heat flow direction (W) extending Surfaces (22, 23 resp. 24, 25) diverge outwards. 7. Perforated stone according to one or more of claims 1 to 6, characterized in that the slots (11) of a row of slots (12) each by half a slot width opposite the slots (11 ') of the adjacent row of slots (12 ') are arranged offset.