DE961303C - Shell or hollow spherical construction - Google Patents

Description

Shell-shaped or hollow-spherical construction The invention relates to a shell-shaped or hollow-spherical building structure, in particular a wall and / or Ceiling or roof of buildings, containers ad. Like., whose load-bearing wall or ceiling is made of concrete. The novelty of the subject matter of the invention is that the construction consists of two layers, namely a lower or inner layer a quick tie, expediently made of plaster of paris, and an upper or outer load-bearing Layer of gypsum cinder block ad- ,. Like. Material, which related properties to the material of the plaster of paris layer. The top or outer load-bearing layer can be reinforced and insulated with a glass fiber felt mat.

With the help of the invention it is z. B. possible, thin-walled containers, such as those ad, among other things, as a silo. Like. Be placed in the ground, without steel and wood expenditure in the fastest and cheapest way to produce from concrete. For this purpose, the inner layer of plaster of paris is applied or sprayed onto a known inflatable balloon shape made of rubber, rubberized textile fabric or the like and, after it has set, the outer layer of gypsum slag concrete is applied in multiple layers or advantageously sprayed on. A glass fiber felt mat can be placed on the first layer of gypsum slag concrete outer skin, onto which a further layer of gypsum slag concrete and, if necessary, finally a gypsum layer that contracts when it sets, is applied. Due to the contracting gypsum layer, the still plastic gypsum slag concrete is pressed into the edge zones of the glass fiber felt mat.

Of course, the building structures according to the invention are also for other suitable uses can be used.

The invention offers particular advantages for the production of roof structures. It enables the development of a shell roof construction without wood and steel the manufacture of monolithic roofs is permitted. There is a need for such shell roof structures with sufficient rigidity on all sides that no Require steel reinforcement and thinner wall thicknesses, weights and manufacturing costs than before.

The use of the quick-tie plaster made it impossible to date short production times achieved. Since the plaster subcutaneous tissue used as formwork in the structure to be created remains, those previously used do not apply Formwork and forms for the same necessary material and labor costs. Furthermore, the formwork work with the inevitable losses of formwork material is no longer necessary and the shuttering deadlines, during which the structure is hindering the progress of work is switched on.

The gypsum subcutaneous layer serving as formwork for the gypsum slag concrete upper skin forms interior plaster, heat, sound and fire protection in roof structures at the same time. A great advantage of the new roof construction is that, in addition to being switched off valuable building materials, such as wood and steel, completely free and bright roof spaces with large Fire safety can be gained. The roofs are lightweight and have a long service life and require low maintenance costs.

The object of the invention is in the drawings with reference to some Embodiments shown.

Fig. I shows an unreinforced shell roof construction according to the invention in side view; Fig-z is a front view and Fig. 3 is a longitudinal section on the line A-B of Fig. z; Fig. 4 shows a top view, while Fig. 5 shows two adjacent ring part bodies in section; Fig. 6 shows im vertical section an unreinforced hollow spherical tank; Fig.7 illustrates in Section through an inflated hollow spherical balloon with the plaster formwork applied to it; Fig.8 is a section through a hollow spherical container reinforced with a glass fiber mat in a special version. The shell roof construction (Fig. I to $) stands up the side walls i or, if present, on the side edges of the building ceiling z.

The roof consists of strung together monolithic connected parallel sections made of parabolic, thin-walled hollow rings 3. Each partial ring body 3 is composed of a subcutaneous tissue 4 of rapidly setting Plaster of paris and an upper skin 5 made of gypsum slag concrete together, which materials to each other have a suitable affinity.

Openings for chimneys, ventilation pipes etc. can be added later Sawn in or already using a template during the manufacture of the individual roof bulges be left out.

An unreinforced concrete hollow spherical container, consisting of a plaster subcutaneous tissue 4 and a gypsum slag concrete upper skin 5 (Fig. 6), can. according to the invention quickly and can be produced cheaply as follows: On an inflated hollow-sphere balloon io becomes a hollow spherical plaster formwork by applying plaster of paris 4 created (Fig. 7). Here, an opening ii is kept free by a template 12. After the gypsum formwork 4 has hardened, the inflated hollow spherical balloon is deflated and pulled out through the opening i i. Then on the hollow spherical plaster formwork 4 the load-bearing hollow spherical shell 5 (Fig. 6) made of gypsum slag concrete is applied. Of the Hollow ball balloon can also be removed through the opening i i after the gypsum cinder block has been applied or has set.

A reinforced concrete hollow spherical container (Fig. G) can be produced, by first proceeding as just described, but in .den on the hollow spherical Gypsum formwork q. gypsum slag concrete to be applied is a known fiberglass felt mat 13 and after completion of the reinforced gypsum slag concrete hollow spherical shell 5 the same immediately, i.e. before setting, covered with an outer plaster shell 14. The latter compresses the reinforced gypsum slag concrete hollow spherical shell when it sets 5. The gypsum slag concrete penetrates the edge zones of the embedded glass fiber mat 13 more than in the inner zone of the same. The result is extraordinary high strength while maintaining a certain elasticity. By soaking the inner Gypsum formwork 4 and the outer gypsum shell 14 with warm, liquid bitumen, paraffin od. The like. The container can be made gas-tight.

Claims (1)

PATENT CLAIMS: 1. Shell or hollow spherical construction, in particular wall and / or ceiling or roof of buildings, containers or the like., thereby characterized in that it consists of two layers, namely a lower or inner layer (4) made of plaster of paris and one upper or outer load-bearing Layer (5) made of gypsum slag concrete or the like. Material, which has related properties to the material of the plaster of paris layer. z. Building construction according to claim r, characterized characterized in that the upper or outer load-bearing layer (5) is covered with a glass fiber felt mat is reinforced and insulated. 3. Construction according to claims r and a, thereby characterized in that the upper or outer load-bearing layer (5) prior to its setting is covered with a plaster shell.