DE1922763A1 - Shaped bricks, especially for conical and cylindrical buildings and methods for carrying out such buildings - Google Patents

Description

Shaped bricks, in particular for conical and cylindrical buildings and method for carrying out such structures The invention relates to a shaped brick, especially for conical and cylindrical buildings, such as chimneys, cooling towers and the like, as well as a method for carrying out such structures.

Conical high-rise buildings have so far been designed in such a way that after no more than two meters in height merges with shaped bricks of smaller dimensions. The number the ribs formed in the voids between the molded bricks are throughout Height of the conical building the same, so that at the foot of the building where the axis distance the ribs are considerably larger than in the higher parts of the structure, proportionally long and heavy shaped bricks must be used. For each building several, the size required different types of shaped bricks, whereby the production of shaped bricks usually only be initiated after the respective project has been worked out can. The need to build with shaped bricks of various sizes complicates the generation, the transport and the manipulation. There a Building construction is essentially designed as a pyramid with a polygonal floor plan, the conicity of the structure, e.g. the chimney, as well as the vertical course of the ribs can be plumbed and measured. The same applies to Laying of every single shaped brick.

The invention solves the problem of a molded brick and a method for its advantageous use in the construction of buildings, in particular conical buildings, thereby enabling the execution of the aforementioned buildings Art made of shaped bricks of the same length is made possible, so that even before completion of the project mass production of the shaped brick is possible.

The main feature of the molded brick according to the invention is based on that its core has at least one pair of opposite corners with plate-like shapes Projections is provided, preferably at least the projection on the outside with the outer as well as the inner surface of the shaped brick can be cylindrical and the The whole core can then have the shape of a ring sector.

The plate-shaped projection on the outside can preferably longer than the plate-shaped protrusion on the inside, preferably around the Half longer. The core of the shaped brick can be reinforced with wires are provided, the free ends of which protrude from its side walls and / or it is possible to make the core hollow and, if necessary, with a stiffener to be provided in the walls.

The bricks according to the invention in shaped bricks are light, so they do not make excessive demands on the physical strength of the workers. It does not apply to vertical plumbing for them and only the conicity is plumbed. The production is independent of the completion of the project and can be done at any time in advance made for storage purposes be a beneficial process to use the molded brick according to the invention is based on the fact that the molded brick in layers from at least two starting points on both sides in direction to be placed at appropriate connection points, in which through the side walls and the plate-shaped projections delimited cavities through, stiffened, monolithic ribs are concreted, preferably in such a way that the at the connection point two adjacent shaped bricks. remaining space is filled with concrete, the is tamped down in an adjustable stroke. When the lining of two Starting points is selected, so both lie in the intersection of the mantle of the building with a first axial plane of the building and the corresponding connection points then lie at the intersections of the shell of the building with a second axial plane, which stands to the first senlcrecht. These two arial levels make the building in divided into four square sections.

There are two ways to proceed when laying the shaped bricks.

First, in such a way that the shaped bricks are always in the same layer in one layer Sinn follows up, for example with the plate-shaped projection on the outside directed to the left and in the following layer then in the opposite sense. Secondly can also be proceeded in such a way that from the starting point auE3 the shaped bricks be placed on each side liin in the opposite sense, e.g. I3. to the right of dieger Place with the plate-shaped protrusion on the outside facing to the right and directed to the left of the starting point. Will be in the next shift the shaped bricks from the same starting point, in turn, in the opposite sense oriented.

The termination of a molded brick layer at the connection point 7e can either only be through a monolithic filling or by means of a special, molded bricks made for this purpose are executed0 The use of a such special shaped brick, for example in "T" shape, is always required when laying shaped bricks in the opposite direction from the starting point.

The monolithic filling is in an adjustable formwork; in tamped down in a similar way as above, for the general case of a gap between any two adjacent shape rules.

A building structure produced by the method according to the invention is structurally more advantageous than the buildings involved in the previous process, because the arrangement and distribution of the ribs has the static effect of the stiffening supported, which is essentially evenly distributed on the profile of the building. The slight deviation of the ribs from the surface lines of the shaft is also effective static point of view advantageous. If you pull a wind effect in two main directions in consideration, e.g. in those of the above-mentioned axial planes, then result from decomposition the stresses in the monolithic ribs did not result in any horizontal forces Resultant stressing the building structure for torsion Add k: omnlt that these horizontal forces are negligibly small per se, another advantage is that conical buildings consist of shaped bricks of the same size can be.

The construction method according to the invention is from a technological point of view advantageous because the floor plan of the Build circular and the structure is plumbed only once, namely according to the conicity.

The accompanying drawings illustrate examples of embodiments of the subject matter of the invention. FIGURE 1 shows a full shaped brick in plan, FIGURE 2 in elevation, FIGURE 3 in side view, FIGURE. 4 in section along the line A - A from FIG. 2, FIG. 5 in a perspective view, FIG. 6 shows in plan a hollow brick, FIG. 7 shows the same hollow brick in section along line B. - B from FIG. 6, FIGURE 8 illustrates the arrangement of two adjacent shaped bricks, FIG. 9 shows the support of two adjacent molded brick layers, FIG. 10 is a section through the two layers according to FIG. 9, FIG. 11 illustrates an adjustable Formwork, FIGURE 12 is a plan of the process when laying the shaped bricks FIGURE 13 is a schematic view of a method according to the invention built chimney and its rolled up mantle, and FIGURE 14 shows this chimney with the representation of its ribs in the plan.

According to FIGS. 1 to 5, the shaped brick consists of a full core 1, which has the shape of a ring sector. Its outer wall 4 and its inner wall 5 are cylindrical. Your curvature is of the shape and type of Construction dependent, and is more suitable in the manufacture of shaped bricks by inserting them Deposits achieved in the form. The side walls 2, 3 of the core 1 close opposing plate-shaped projections 8, 9 on. The outer plate-shaped one Projection 8 is aligned with derf outer wall 4 of core 1 and is about halfway longer than the inner plate-shaped projection 9, which is aligned with the inner wall 5. The shape of bricks can be used when building either in the manner shown in FIG are placed, or vice versa, in which case then the upper wall 6 and the lower Wall 7 swap places with each other: the outer plate-shaped projection 8 is directed to the right and the inner plate-shaped projection 9 is directed to the left.

In the upper wall 6 and in the lower wall 7 of the core 1 are Longitudinal grooves 10 for horizontal stiffening e.g. for an iron bar 38 / Fig. 10 / or the like., Provided. The profile of these grooves can also be other than semicircular be, e.g. trapezoidal, triangular and the like in the core 1 is a stiffener in the Shape of wires 11 arranged, the free inden from the side walls 2 and 3 protrude and absorb internal pressures after setting in concrete.

Figures 6 and 7 illustrate a hollow shaped brick where the core the shape has a frame 14, the walls of which are provided with a stiffener 15 are. Shaped bricks of this type are suitable for less stressed parts of the building.

According to FIGS. 8 to 10, the outer plate-shaped projection borders 8 with the connecting side wall 2 of a shaped brick and the inner plate-shaped projection 9 with the adjoining side wall 3 of the adjacent Molded brick has a cavity with an approximately trapezoidal cross-section. To This cavity is filled with monolithic concrete with a rib stiffener 13 a monolithic rib 12 is created, which runs perpendicular to the plane of the drawing and two dc shaped bricks anchored against external pressures.

After completion of a shaped brick layer, as already mentioned, in the grooves 10 a horizontal stiffener, e.g. an iron bar 38, as well as concrete inserted, whereupon the next layer is laid.

CA Fig. 12 shows schematically a molded brick layer. Any such Layer is ended in such a way that the connection points 17 ##### 1 # /, i.e. the End points of the brick laying between the starting points 16, either by a pre-fabricated shape, e.g., "T" shape or by a monolithic one Filling / fig.

1 # / be locked. The molded bricks are such in the layer stored that they all follow their plate-shaped projection 8 on the outside are directed to the right. In this case they are in the first quadrant 23 and in the third Quadrant 25 against the connection points 17 with the outer plate-shaped projection 8 directed and in the intermediate second quadrant 24 and fourth quadrant 26 with the inner plate-shaped projection 9, as indicated by arrows 18 and 27 is. The individual quadrants 23, 24, 25, 26 are on the one hand through the first axial plane 36 of the structure and on the other hand through the second axial plane perpendicular to the first 37 of the building.

The binding of the individual superimposed layers is secured according to FIGS. 9 and 10 by the fact that in the upper layer the mounting of the shaped bricks is in the opposite direction than in the lower layer.

Fig. 1 @ shows an example of the end of a shift and that Skinning the cavity between two adjacent shaped bricks with a monolithic Filling 19. This monolithic filling 19 is in an adjustable metal formwork tamped, which consists of an outer part 20 and an inner part 21, which through Fastening screws 22 are locked.

In Fig. 13, a vent 30 is shown in full lines, the rolled up jacket 29 is shown in dashed lines. The beginning and the end of the monolithic ribs 12 / Fig. 8 / that reach to the top of the chimney are through Points 31, 32, 33, 34 and 31 ', 32', 33 ', 34' indicated.

Fig. 14 illustrates the floor plan of the chimney according to Fig.

13. The dash-dotted line 12 ', which in Figs. 13 and 14 the Points 34, 34 'connecting, denotes the course of the fourth monolithic rib and its deviation from the surface line 2 shown in dashed lines.

As when laying the shaped bricks from two opposite starting points has been proceeded, the ribs give way in the direction of the connection points 17 from. The pairs of monolithic ribs that do not reach the top of the chimney reach, converge in the plane of the connection point 17. The pairs of monolithic ben the forces arising as a result of the decomposition of the tension in the ribs are mutually exclusive on.

The molded bricks according to the invention and the construction method according to the invention can in principle be used very generally, but it is particularly advantageous in structures with a circular floor plan and especially in the case of conical ones Structures.

Claims (1)

Claims Shaped bricks, especially for conical and cylindrical buildings, characterized in that its core / 1 / on at least one pair of each other opposite corners with plate-shaped projections / 8,9 / is provided. 2 / shaped brick according to claim 1, characterized in that at least the plate-shaped projection / 8 / on the outside with the adjacent outside / 4 / of the core / 1 / is flush. 3 / shaped brick according to claim 1 or 2, characterized in that the outer wall / 4 / optionally also the inner wall / 5 / of the core / 1 / cylindrical and the core / 1 / itself has the shape of a ring sector. 4 / shaped brick according to one of the preceding claims, characterized in, that the plate-shaped projection / 86 is longer on the outside than the plate-shaped Protrusion / 9 / is on the inside. 5 / molded brick according to one of the preceding claims, characterized in 7 that its core / 1 / is provided with stiffening wires / 11 /, their free ends protrude from the side walls / 2,3 /. 6 / shaped brick according to one of the preceding claims, characterized in that that its core / 1 / hollow and possibly with a stiffening ß5 / in the Wa "n.n is provided. 7 / Methods of building ionic and cylindrical buildings, in particular using shaped bricks according to one of the preceding claims, characterized characterized in that the shaped bricks in layers at least two starting points / 16 / out on both sides towards the corresponding connection points / 17 / and in the through the side walls / 2,3 / the shaped brick and the inner walls their plate-shaped projections / 8,9 / limited cavities continuous stiffened monolithic ribs / 12 / are concreted. 8 / construction method according to claim 7, characterized in that the Starting points / 16 / in the intersections of the mantle / 29 / of the structure with a first axial plane / 36 / and the connection points / 17 / in the intersection points the Shell / 29 / with a second axial plane perpendicular to the first axial plane / 36 / / 37 / lie. 9 / construction method according to claim 7, characterized in that according to the laying of a whole shaped brick. That works at the junction of two adjacent ones The remaining molded brick space is filled with concrete, which is placed in an adjustable formwork 10 / construction method according to claim 7, characterized in that the shaped bricks in a layer always have the same meaning, e.g. with the plate-shaped one Projection / 8 / on the outside facing to the left, are placed, with the the next layer the shaped bricks are laid in the opposite direction. 11 / Bauserfatwen according to claim, characterized in that the shaped brick in one layer from the starting point / 16 / on both sides and vice versa Meaning, for example, to the right of the starting point / 16 / with the plate-shaped Projection / 8 / on the outside to the right and left of the starting point / 16 / with the plate-shaped projection / 8 / on the outside directed to the left, whereby In the following layer, the shaped bricks from the same starting point / 16 /, in be placed in the opposite direction.