DE1052103B - Process for the production of shell-shaped building structures on an inner, inflatable mold - Google Patents

Description

Process for the production of shell-shaped building structures an inner, inflatable mold. The invention relates to a method of manufacture of shell-shaped building structures, e.g. B. made of concrete, on an inner, inflatable Shape with an approximately circular bottom surface, with an approximately dome-shaped Upper part and a straight, approximately cylindrical side wall part.

To prevent cracks from occurring on the side wall part of the building structure and to avoid cracks, horizontal reinforcement rings have already been used. However, these do not cause the concrete to be prestressed.

According to the invention, however, the side wall part with one up to Setting of the concrete or the like kept under tension, incorporated into the building structure Reinforcement z. B. provided from wire mesh strips. This reinforcement has to be on the soft Shape a corset-like effect, making the cylindrical part of the shape under the same Tension of the reinforcement can be specified.

In the drawing, the invention is shown in one embodiment; It shows Fig. 1 a side view of a pneumatic mold for the production of bowl-shaped Building constructions, with the form standing on a base or on a base and is shown inflated at a pressure less than full inflation pressure.

Fig. 2 is a view similar to FIG. 1, from which the pneumatic Sidewall reinforcement mesh laid around the mold and prestressed by the full inflation of the mold 3 is a side view, with parts broken away, showing the finished, building structure erected on the pneumatic form shown in Figs prior to emptying and removal of the mold, Fig. 4 shows an essentially of the Fig. 3 is a view similar to Fig. 3 on an enlarged scale showing some construction details of the pneumatic mold and its anchoring means, FIG. 5 shows one of FIG. 2 similar view showing another method for tensioning the on the straight Side part of the pneumatic form applied reinforcement mesh explained, Fig.6 a section through part of the straight side wall part of the finished cup-shaped Construction, Fig. 7 and 8 sectional views of different versions of the reinforcement in the one located between the curved upper part and the straight side wall part Area and FIG. 9 is a vertical section through a pneumatic mold with a other type of reinforcement.

In the drawings, reference numeral 10 (Figures 1 through 4) is general a pneumatic mold for the erection of shell-shaped concrete structures referred to by a circular bottom surface, a dome-shaped top or Roof part 11, which is arched for reasons of strength and for the drainage of water is, and characterized by straight (vertical) or substantially vertical side walls is. The erection of the building structure is carried out on the pneumatic form, as described in the inventor's earlier U.S. patents by spraying of concrete or by applying it in some other way to the outer surface of the Shape without the use of an outside shape. It is convenient to use the pneumatic form 10 at the bottom, as shown at 13, to be closed off by a bottom, although in the case of large-scale Constructions for commercial purposes also use an open bottom shape as described in a United States patent by the inventor. The pneumatic Form 10 can be made of various materials, such as. B. canvas, nylon, balloon fabric etc., and is preferably internally and externally with a surface made of rubber or a rubber-like material.

The pneumatic mold 10 can be on the floor or on a scaffold be set up, but it is useful, as shown in Fig. 4, on to set up a base plate 16. It becomes effective against those that become effective during inflation Buoyancy forces held by a Liekbogengurt 17, which is without interruption extends around the bottom perimeter of the mold, with the strap in turn on again attached to the anchorage 18 of the base plate by a rope 19 is, which is pulled through eyelets 20 in the anchorage. Furthermore, a nipple 21 (Fig. 1) provided, through which a suitable gas, such as. B. air, into the interior of the mold can be pressed.

The curvature of the upper part 11 of the pneumatic form is the Upper part of a construction built on this essentially insensitive against cracks or breaks, since the concrete of the upper part is essentially only under pressure is claimed. According to the invention, this is the side wall part of the construction Forming concrete reinforced in such a way that the side wall part not only the outward directed pressure of the load on its upper or roof part-can withstand, but also so, -that the concrete of the side wall part is subjected to pressure, d. H. themselves is under bias, so that the known advantages of biased Surrendered to concrete.

The required - prestressing of the concrete - the side wall of the construction is made by using a cheap wire mesh in the form of a row of cylindrical rings in one or more layers. Pre-tensioning the Reinforcement can be achieved in a simple manner. In Figures 1 to 4, one of these is Paths shown, with Fig. 1 showing the pneumatic form only partially inflated, d. H. to about 4.4 g / cm2. In this state the reinforcement is made of wire mesh, which = for easier handling of a not too large width, firmly around the straight sidewall part of the mold and tied the ends together, in such a way that solid, self-contained rings are created (see those in Figs 5 bands labeled 24a, 24b, 24c and 24d). - The pneumatic mold 10 is then fully inflated to a pressure (Fig. 2) calculated to be the Load by the applied concrete can resist and according to the Invention may be of the order of 17.6 g / cm2. Through this pumping up until the reinforcement is completely filled, there is considerable tension in the reinforcement and an even distribution of tension across the width of the various Reinforcement tapes. Instead of applying the reinforcement in the form of individual strips, it can also consist of an uninterrupted reinforcement mesh. It can several layers of reinforcement can also be applied to the mold. Instead of the aforementioned Reinforcing wire mesh can also be closely spaced reinforcing bars of small diameter are applied horizontally around the straight side wall part walking around the shape.

After spraying the concrete under pressure on the outer surface of the Shape and its reinforcement according to what has become known through the patent specifications of the inventor Spraying process, the reinforcement is in its state of tension - in one operation on the form applied concrete layer, as shown in Fig. 6, embedded. To ensure a suitable depth of the embedding, the braid can be used some of the outer surface of the mold by a hook or other suitable Tool can be pulled away during the spraying process. Generally enough However, the force with which the concrete is sprayed on from the fact that this is behind the Mesh of the reinforcement flows and embeds them securely.

While the concrete is setting, the mold is filled with full pressure maintained so that the tension of the reinforcement = during the setting time as well remains: After the concrete has hardened and after the pneumatic one has been emptied Form 10 and the removal of the latter from the obtained bowl-shaped construction, for example through a window or door opening into the interior of the same the hardened concrete maintains its tension. This has the consequence that through the reinforcement of the concrete forming the side wall of the structure, even under the Load of the roof part, is subjected to pressure. It can therefore be a break or a Crack in the side wall part of the construction will only occur if the tensile strength of the Reinforcement or the compressive strength of the concrete is exceeded. Such conditions are, however, in building structures of the type mentioned, whose-_Seitenwalls -practical only have to bear the load of the roof part is unlikely.

As already mentioned, the reinforcement only extends to the upper one Line of the straight side wall part of the form 10, since the reinforcement sleeves on the arched Parts of the form cannot be applied and these parts have to be reinforced Reinforcement rings are too expensive. From the above-mentioned line it curves upwards Shape in and up to blend into the dome-shaped top of the shape. In practice, it has been found that this transition part 14 of the mold tends to has to deform inward when the mold is inflated and under the load of the concrete applied to the upper part of the form bulging outwards and / or to expand. Such deformations are undesirable during the setting of the concrete, because they result in an incorrect design of the concrete structure. According to the invention is therefore proposed the shape of the inwardly curved or Transition part -14 of the form -zu strengthen what can be achieved in different ways can. One way is shown in Figures 1 to 5, 7 and 8, in which a plurality provided by spaced horizontally arranged strips, which-extend around the transition part. The strips can be made from ribbons or cords 30, which are made of fiberglass fabric that is practically non-stretchable and that is preferably applied to the mold during manufacture of the same and is attached, for example by sewing, gluing and the like 30 can be placed on the outer surface of the pneumatic mold, as in -Fig. 7 shown, or on its inner surface as shown in FIG.

Another way to strengthen the transition part 14 of the Shape is shown in FIG. Here are disk-shaped horizontal membranes 34 provided, which are distributed at different heights of the transition part and at their periphery are attached to the inner surface of the mold, so that they are in the Interior of the same are located. The membranes 34 can be made of an open-mesh fabric or braid of high elongation resistance or of a dense one non-stretchable fabric such as fiberglass. If for this purpose a dense fabric is used, the membranes 34 are provided with one or more openings, so that there is an equal pressure within the mold.

Referring to Figure 5, there is another method of achieving a bias shown. The mold is fully up to its load-bearing pressure of 17.6 g / cm2 before Applying the reinforcement sheaths 24 a to 24 d inflated. The tension of the then applied reinforcement is achieved in that the concrete first on the dome-shaped Top of the mold is applied as shown in Fig. 5 and in a United States patent of the inventor- disclosed. As a result of Reinforcement strip capability or tapes 30 (or the reinforcing membranes 34) the bulging of the pneumatic To prevent shape in the zone in which this bulging is likely takes place, d. H. in the curved transition part of the mold, the burden of the The concrete applied to the top of the form significantly increases the pressure in the straight side wall part of the mold. The one taking place through this pressure Enlarging the diameter of the mold is sufficient, even if it is only limited Measures takes place, from a considerable prestressing of the reinforcement mesh reach.

From the foregoing it follows that by the method according to Invention, a shell-shaped concrete structure can be produced in which the material of both the curved top and the side walls under one there is such high pressure that the construction is very strong and stable and not is subject to the risk of breaking or cracking. The proceedings according to the invention for achieving this desirable result are in They are easy to carry out and do not require any particular skill. By the invention also provides an improved form in which precaution is taken that their shape is preserved in the inflated and loaded state remain.

While the invention has application to methods of building of shell-shaped building structures with straight side walls and a circular one Floor area has been described on appropriately designed shapes. However, it is it goes without saying that the term "circular" is applied to the floor area to understand the building structure and the horizontal cross-section of the shape, that they also use the terms "almost circular" or "essentially uniform" includes, as regards the shape, the nearly or substantially circular shape tends to become circular under the filling pressure, so that the reinforcement, as described above, is tensioned evenly, and in the finished construction a limited deviation from an exactly circular floor area is structurally permissible is. In case the concrete is applied to the form by spraying or other methods for structures that can be built at the lowest cost, as is the case in some areas and / or countries are desired, proves to be too expensive, the construction can or the outer shell of the same are built from bricks or concrete blocks, the to the shape or to the straight side wall part thereof according to that described in FIG Way done prestressing of the reinforcement are applied, with the brick or Blocks with the reinforcement with the help of mortar or the like. Are connected.

Claims (7)

PATENT CLAIMS: 1. Process for the production of bowl-shaped Building structures, e.g. B. made of concrete, on an inner, inflatable form with a approximately circular bottom surface, an approximately dome-shaped top and a straight, approximately cylindrical side wall part, characterized in that the side wall part with one of the building structure kept under tension until the concrete has set or the like incorporated reinforcement, e.g. B. of wire mesh strips (24a. To 24d), provided will. 2. The method according to claim 1, characterized in that the reinforcement applied to the side wall part when the form is not yet fully inflated and then is stretched by further inflating the mold. 3. The method according to claim 1, characterized characterized in that the form is fully inflated, only then with the reinforcement provided and this is then tensioned by the fact that the building material, so z. B. Concrete, initially only applied to the dome-shaped upper part. 4. Inflatable Mold for the method according to one of the preceding claims, characterized in that that they are at the transition from the straight side wall part to the dome-shaped upper part is provided with reinforcements (30, 34). 5. Form according to claim 4, characterized in that that the reinforcements consist of one or more tapes attached inside or outside (30) consist of essentially non-stretchable fabric. 6. Mold according to claim 5, characterized in that the bands (30) consist of glass fiber fabric. 7. Mold according to claim 4, characterized in that the reinforcements consist of one or more radial braces (34) in their interior. B. Form according to claim 7, characterized in that the radial braces (34) have pressure compensation openings. Documents considered: French Patent Amendment 55 911 to 99 0 132; British Patent No. 605,938; U.S. Patent Nos. 2,270,229, 2,311,358, 2,335,300, 2,388,701 .