DE2733628A1 - PROCESS FOR MANUFACTURING A REINFORCED CONCRETE STRUCTURE WITH STRONG CURVED EXTERIORS IN THE BASE AND PLANE - Google Patents

Abstract

In order to produce a reinforced-concrete structure having outer walls which are strongly curved in outline and elevation, in particular a dome (1), use is made of a climbing shuttering comprising outer (4) and inner (3) shuttering parts which are fastened on the structure (1) by means of staying elements (11, 12 and 22, respectively) and/or are braced with respect to one another by shuttering anchors (26). During concreting, the inner shuttering part (3) is suspended, in the region projecting over that part (1c) of the structure (1) which has already solidified, by means of tension members (15) which run obliquely in the region of that portion of the structure to be produced in each case. It is thus made possible to dispense with the hitherto-necessary extension of the outer shuttering part for suspending the projecting inner shuttering part. The oblique staying means can, rather, be accommodated in that region of the structure part itself in which they are concreted in. <IMAGE>

Description

Method for producing a reinforced concrete structure with im

Ground plan and elevation of strongly curved outer walls The invention relates to a method of making a reinforced concrete structure with strong in plan and elevation curved outer walls, e.g. a dome, using climbing formwork from inner, if necessary also outer, formwork parts braced against each other by formwork anchors, which is supported during concreting against the already hardened part of the structure and to be released from it, as well as a climbing formwork for implementation gravel process.

A climbing formwork for the production of reinforced concrete structures with im Basic and elevation of strongly curved outer walls is known (DT-PS 19 32 517). at this known climbing formwork is the outer formwork part on a scaffold girder attached, on the one hand over a certain area along the already manufactured Structural part extends and protrudes beyond this. To increase the bending stiffness this falsework carrier with simultaneous easy training, he is with a span Mistake. The inner formwork part extends essentially only over the area of the structural section to be produced in each case; it is through during the concreting Form anchor attached to the outer formwork part and can after loosening the anchors for transferring to an inner guide, e.g. the steel dome of a reactor pressure building be dropped off; be discontinued; be deducted; be dismissed.

This climbing formwork is very suitable for the production of reinforced concrete domes with a relatively small wall thickness. In the course of the increasing demands on the safety of the protective domes for nuclear reactors always increases in their wall thickness more to. This increases the weights of the individual concrete sections, so that the Taking up these loads with climbing formwork of this type is becoming increasingly difficult. The invention is accordingly based on the object of creating a possibility to make it as simple as possible, even with extremely thick reinforced concrete domes for nuclear reactors and to be able to work economically with climbing formwork.

The invention solves this problem with a method of the above specified type in that the inner formwork parts except on the inside of the already hardened part of the structure in its protruding area by obliquely in the area of the respective building section to be produced trending Tension members are supported against the previously produced structural section.

The tension members can after loosening the formwork parts in the building section remain; they expediently consist of steel rods, in particular those provided with threads.

The invention also relates to climbing formwork for implementation this method, which is characterized in that the inner formwork part extends approximately over the length of the last section of the structure and over this protrudes by the length of at least one further building section. Appropriate the inner formwork protrudes over the last section of the structure about the length of two other building sections.

Essential feature of the method according to the invention and the for Carrying out this method to be used climbing formwork is that by the Relocation of the concreting loads to the part of the structure that has already hardened transferring formwork part from the outside of the structure to the inside of the same the possibility is created to support the cantilevered part To arrange bracing in the structural part itself. The fixation of the inner part of the structure first on the inside of the already produced, hardened Structural section, while the support of the cantilevered part by inclined Tension members to the upper outer area of the hardened structure partly made will. The outer formwork part, which is in the area of flatter slope of the dome against the horizontal can be omitted entirely, is compared to the in a manner known per se inner formwork part supported or tense. The simpler one Formation of the outer formwork part or its complete elimination is made easier the production of the respective sections.

Another advantage of the invention is that it applies to this Way is possible without difficulty to further protrude the inner formwork part than necessary for the construction of the next building section is, e.g. by two building sections. In this way the inner structure needs part only to be implemented every two sections, while the outer one, accordingly shorter formwork part is implemented after each section.

The invention is illustrated below with reference to one in the drawing Embodiment explained in more detail.

1 shows a vertical section through a climbing formwork according to the invention and FIG. 2 shows a section perpendicular to the dome wall through the climbing formwork.

In the illustration of FIG. 1, one is shown in vertical section Dome 1 the construction phases la, ib and ic completed. The dome 1 consists of Reinforced concrete and serves as a protective dome for a nuclear reactor outside a steel dome 2.

The production of the reinforced concrete dome 1 takes place in sections with Using a climbing formwork from an inner formwork part 3 and an outer formwork part 4. The inner formwork part 3 consists of a number of main formwork girders 5, which are connected to one another by corresponding cross girders 6 are. On the main formwork girders 5 is with the interposition of secondary girders 7 the actual formwork 8 attached. On the formwork girders 5 are about supports 9 trolleys 10 attached, with which the entire inner formwork part 3 on the steel dome 2 lowered and, with the help of a crane, move up to the next site can be.

Instead of the steel dome 2, other suitable guide means can also be used to serve.

The inner formwork part 3 is on the formwork main beam 5 by means Guyings 11 and 12 attached to the last produced sections 1b and 1c. To support pressure, a pressure spindle 13 is also provided, which is in a Recess 14 is supported on the underside of section 1b.

In the area protruding beyond the produced section 1c are the main formwork girders 5 via inclined tension members 15 to the upper part of the End face of section 1c suspended. The diagonal bracing is appropriate made of steel rods that are provided with threads. Steel bars are particularly suitable viewed, which are provided with hot-rolled ribs, which form a partial thread. In the example shown, the tension members 15 are concreted in via sleeves 16 Anchor pieces 17 connected and in turn again by sleeves 18 to anchoring ends 19 extended, with which they are braced against the main formwork girders 5.

In this way it is achieved that, provided that the end faces are shuttered of the respective sections formwork elements are required, their attachment by the anchoring pieces 17 no more difficult than absolutely necessary is, while the tension members 15 in the course of the reinforcement of each to be produced Section can be installed in a simple manner.

The tension members 15 expediently remain after the production in question Section in this. The protruding, the anchoring on the formwork main girders serving ends can be cut off. A more practical solution is offered by the Arrangement of further sleeves 18, which after the hardening of the relevant section can be unscrewed. The tension members 15 can also be in ducts out and after the hardening of the section in question from the sleeves 16 as a whole unscrewed and regained.

The length of the main formwork girders 5 and the actual formwork 8 is dimensioned so that two sections consecutively without changing the position of the inner formwork part 3 can be produced. Because of this, they are in the end the main formwork girders again have devices 20 'for attaching another Guying provided.

The outer formwork 4, which is only in the steeper area of the anyway Dome to be produced is to be provided, consists of longitudinal members 21 and cross members 22 and the actual formwork 23, which is attached to the side members via secondary beams 24 21 is supported. The connection of outer formwork 4 and inner formwork 3 takes place via Rödel anchors 26. From a certain inclination of the concreting section, face formwork must be used 25 can be arranged.

On the inner formwork 3 there are working platforms 27 and on the outer formwork 4 rework platforms 28 are provided.

L e r s e i t e

Claims (5)

Method for producing a reinforced concrete structure with in the basic and Elevation of strongly curved outer walls Patent claims 1. Method of manufacture of a reinforced concrete structure with exterior walls that are strongly curved in both plan and elevation, e.g. a dome, using a climbing formwork of outer and inner formwork parts braced against each other by formwork anchors, which during of the concreting against the already hardened part of the structure to be released from it for relocation, characterized in that that the inner formwork parts (3) except on the inside of the already hardened part of the structure (1) in its protruding area through obliquely in the area of the respective structural section to be produced opposite extending tension members (15) the previously constructed section of the structure (e.g. 1c). 2. The method according to claim 1, characterized in that the tension members (15) remain in the building section after loosening the formwork parts. 3. The method according to claim 1 or 2, characterized in that the tension members (15) consist in particular of steel rods provided with threads. 4. climbing formwork for performing the method according to claim 1, consisting of outer and inner braced against each other by formwork anchors Formwork parts, which are supported against the already hardened part of the structure are, characterized in that the inner formwork part (3) extends approximately over the Extends the length of the last section of the structure and over this the length of at least one further construction section protrudes. 5. climbing formwork according to claim 4, characterized in that the inner formwork part (3) over the structure last produced by about the length of two further building sections protrudes.