DE325424C - Building block with several cavities lying next to one another in cross section - Google Patents

Description

Building block with several cavities lying next to one another in cross section. The invention relates to hollow bricks and walls made from them, which Good thermal insulation is inherent in the case of limited thickness and low weight.

The known perforated bricks generally have the defect that the Room size of their recesses in relation to the stone mass is too small to one to be able to bring about sufficient protection against temperature influences that the transverse webs connect the outer surfaces of the stones in a straight line and so with their mostly large cross-section direct the heat around the recesses as quickly as possible. At the same time, the heat transfer favored by the mortar bed of the butt and bed joints, which occupies the width of the stone. This also applies to the majority of hollow concrete blocks. In particular, however, will the thermal insulation capacity of the wall is affected by the fact that the recesses to vertical or horizontal, sometimes intersecting channels that continue have a cooling effect due to the air circulating in them. - To remedy this are often the stone layers were covered with slabs or soaked cardboard in a makeshift manner or the stones are given a trough-like shape, which, however, has a direct connection the outer surfaces reinforced.

The shortcomings of these construction methods are avoided by the new hollow stones: The shaping the new stones is carried out according to the principle that on the bearing and head surfaces Change open and closed recesses. The following basic form one of the stones is in Fig. z in plan and in Fig. 2 in cross section - the lower figure shows the stone in the inverted position - shown. The longitudinal bars a are alternated by the vertical crossbars b and the horizontal crossbars c connected. Because the recesses alternate on each bearing and top surface are open and closed, the walls of these surfaces are interrupted in width. The horizontal transverse webs d are intended for stiffening. to serve. By layering the stones alternately set in association in the two positions according to FIG the -horizontal crossbars produce continuous webs, those in the depth direction layers of air lying one behind the other in the wall intersecting each other in height Split horizontal air cells.

When classifying inner vertical cross victories, this stone shape works with omission of the horizontal crossbars on the lower bearing surface in the two Forms the second stone over, whose upper bearing surfaces are formed differently are. As in the cross-sections -Fig. d. and 5 are the horizontal ones Crossbars c of the upper bearing surfaces changed in the opposite direction. The one for both stone shapes the same plan arrangement is carried out according to Figure 3 in such a way that the two Longitudinal webs a connecting vertical transverse webs b in the one behind the other Recesses are changed. The walls of the storage and head areas are thus interrupted .. By placing the stones on top of one another with the butt joint over the middle of the stone, unite the horizontal and vertical crosspieces to be continuous Bridges that cross the individual layers of air horizontally and vertically Cut through direction. The enclosed air cells overlap each other in height and width.

The special features of the construction methods are shown in FIGS. 6 to 8 and 9 to i r expressed, namely in the cross section (Fig: 6) and the longitudinal sections (Fig.7 and 8) the recurring one already known in other construction methods horizontal closure of the three air planes one made of stones according to .Fig. i and 2 erected wall piece, also in FIGS. 9, io and i i the 'subdivision of the Air layers of a wall piece made of stones according to Fig. 3 to 5 in. Horizontal and vertically closed air cells: the usability of both types of stone for production of walls with a larger number of subdivided air layers results from 12 (stones according to FIGS. 1 and 2) and FIG. 13 (stones according to FIGS. 3 and 4; the stone shape according to Fig. 5 differs for this type of construction). In each case two stones with an unequal number Recesses, therefore of different widths, are walled up in such a way that in each layer two or more stones at depths equal to the width of their Correspond to recesses; placed next to each other and brought into association, the narrower stone taking the place of the Rieniclien. Fig. I2 adjusts Wall piece finite ten layers of air - in each layer two stones with three, one each Stone rides two recesses - and Fig. 13 a wall piece with six layers of air - in each layer one stone with three, one stone with two recesses - represent. The subdivision of the air layers is the same as in FIGS. 7 and 8 or io and i i.

Both construction methods have the following advantages in common: The stone shape ensures a safe: wall bond. The changing position of the crossbars that Interruption of the head and bearing surfaces as well as the mortar bed of the butt and bed joints complicate the @@ 'ännesgang. The inherently favorable relationship between room size the recesses and stone mass is further improved in that the recesses take up almost the entire length of the stone. The isolating effect of one behind the other resting air layers is made usable. As a result, the width and weight considerably reduce, while on the other hand the number and size of the recesses Allow use of the building material strength.

The heat protection of the masonry is through still air in its interior secured and 'meets all requirements thanks to the number that can be increased at will of the air layers.- The sound permeability is low.

Claims (1)

PATENT CLAIMS: i. Component not with several in the cross section: one next to the other Cavities, characterized in that the cavities alternate according to a bearing surface or are open to both abutment surfaces and that in the open to both abutment surfaces Cavities of a horizontal crossbar against the two, the neighboring cavities is set back in the storage area bridging horizontal crosspieces. z. Building block with several cavities lying next to one another in cross-section, characterized in that that the vertical transverse webs connecting the vertical longitudinal walls against each other are replaced and the cavities alternate in the top surface by -horizontal Crossbars are covered or continuously open from the head to the storage area. 3. Masonry made of stones according to claim 2, characterized in that in superimposed Layers of two stone shapes with offset horizontal crosspieces in the top surfaces have been laid and the horizontal and vertical crosspieces are in the depth direction of the wall consecutive cavities in -horizontal and Split vertically closed air cells that are offset from one another in height @: