DE1559231A1 - Ring construction - Google Patents

Description

Ring construction Room cell construction in concrete with 6-sided, 5-sided and 4-its enclosed spaces are known. With all these types of room cells there is the disadvantage that the room sizes are fixed and thus a large one Cause number of different size types. Industrial production 6-sided Enclosed room cells is difficult for technical reasons, 5-sided and 4-sided room cells have certain advantages over this, but have manufacturing, There are still disadvantages in terms of transport and assembly, particularly because of their dimensions. Another disadvantage of these room cells is that they are extra room-high and -wide wall openings are very difficult to arrange for structural reasons can be. To improve the structural strength or to increase it the spans, especially the space cells closed on 4 sides, will be increased the wall stiffeners have the disadvantage of higher weight or ribbing with the Disadvantage of more difficult formwork technology required. The connection of the room cells as is known, by mortar grouting 'and connecting iron inserts. This results in dependence on the weather as disadvantages during assembly, necessary adjustment and assembly work, resulting in the rigid Connection of the room cells to each other and thus the unhindered expansion of the Structure-borne noise in construction. The im. The invention described below can do this Disadvantages are completely avoided.

Reinforced concrete rings as short pipe sections with preferably rectangular Pipe cross-section and double-shelled, stiffened and connected by transverse and longitudinal webs Walls are in simple, relatively small, two-part formwork manufactured lying down. These rings are due to their shape and corresponding reinforcement exceptionally form-able against all kinds of forces. This reinforced concrete princess are lined up in any number in the direction of the pipe axis, especially in their 4 corners together by tension members and re-tensioned and form thus a double-shell space cell with cross-web stiffening and thus Cell grid formation between the shells. This room cell has a ring structure an unusual resistance to all occurring forces, such as they can occur during assembly, transport and in the building. Between each Reinforced concrete ring components are thin for power transmission and sealing semi-elastic material interlayers, soft due to the tensioning of the ring components are pressed together and thus compensate for tolerances at the same time. Occurring Shear forces in these joints between the Ringbaueiementen are due to the friction of the pressed-together elastic intermediate layers were added.

The connection of the rows of rooms in a ring construction with each other, in the case of horizontal rows and vertical stacking, intermediate layers elastic material in cross-strip-shaped profile shape, in the horizontal joints reached in the middle under the vertical joints between the room cells. These elastic ring cell liners serve to transmit the vertical and horizontal forces at the same time. Be there these intermediate layers are subjected to pressure or shear in cooperation with friction. This elastic support and connection of the room cells creates structure-borne sound insulation between the space cells among each other and partly also between the ring components among each other (reached.

This double-shell, cross-web reinforced, cell grid-forming wall the reinforced concrete ring construction elements allow much larger spans with small Construction weight.

By rows and bracing in the direction of the pipe axis of any Number of rings can be of any length, also in the longitudinal axis rigid, space cells getting produced. This makes it possible for larger projections and the Stacking with simultaneous change of direction of the pipe axes zueinanc given. The double-shell, cross-web reinforced wall of the reinforced concrete rings allows this Omission of individual successive and opposite ring sides, so that floor-to-ceiling or in-line wide and long openings are created in every direction can be. This creates the respective closed ring component type assigned, half-open, C-shaped, or open, linear, plate-shaped, double-shelled Ring components. Different number of rings due to different ring cross-sections and the high degree of freedom for the arrangement of openings creates a high adaptability for a wide variety of room and floor plans. Installations can be made in all directions in the Hohirdumen between the double-walled Ring walls are guided through uniform recesses in the webs. the Thermal insulation (e.g. hard foam) is already used in the manufacture of the ring components placed in the formwork and cast onto the outer wall.

The ring building construction and its complete expansion using equipment, installations and facilities can be carried out as an industrialized method in the production plant, so that on the construction site and in the building only simple assembly by rows and stacking of the completed room cells and the connection of their installation lines as well the joints between the room cells are sealed. The ring construction is a room-cell construction, in which the production of room cells initially takes place via the production of ring construction elements, Fig. 1 (1),%. The ring component '(I) is a short, pipe-like section of a room cell closed on four sides. It has a double-shell web cross-section (2), the inner shell (3) and outer shell (4) of which are connected to one another by annular webs (5) and longitudinal webs (6) and mutually reinforce one another. Longitudinal tensioning ducts (7) in the 4 corners are used to connect the ring components (1) to one another. Transport anchors (8) are used to transport the Rina structural elements and the room cells in the factory and on the construction site. The R ': r-gbauelemente, Fig. 2 (1), are clamped together to form ring cells (14) with Langssmann members (10) via intermediate, semi-rigid ring press seals (9). In order to achieve room-high, -wide and -long openings in the ring cell walls, apart from the closed ring building element, Fig. 2 (1), also half-open, C-shaped ring building elements, Fig. 3 (12), and uses open, linear, plate-shaped ring components (13). Fig. 4 shows a uniform type of ring toe using closed, half-open and open ring components (14). The ring cells, Fig. 5 (14), are connected by elastic ring cell intermediate bearings (11) in a cross-shaped profile shape vertically and centrally under the ring cell joints when they are arranged in rows and stacked. Fig. 5 shows a simple, horizontally and vertically congruent arrangement principle ven ring cells. Through standardized, provided recesses in the webs of the ring components, installation lines (15) can be routed in all directions within the double wall of the ring cell and can also be connected to the installation lines of the adjacent ring cells through provided recesses in the walls of the ring components. In order to achieve the adaptability for a wide range of applications, in particular for larger spans and greater room heights in residential buildings and other building types, various modular ring component types according to width and height, Fig. 6, are provided. From this, in turn, combined ring cell types from different modular ring component types, Fig. 7, can be assembled. With parallel arrangement principles of ring cells with horizontally and vertically offset arrangement, Fig. 8, new design options are created for the adaptation of buildings and assemblies to functional, landscape and urban planning conditions.

By non-parallel to right-angled arrangement principles of ring cells the freedom of design is expanded in the most favorable way.

Claims (2)

Claims. The ring construction is characterized by that double-layered, cross-web stiffened ring building elements to room cells with double-layered, cell-gillter-forming wall are clamped together in an ungellular manner. 2. The ring construction according to claim 1 is characterized in that closed, half-open, C-shaped and open, plate-shaped ring component types are used. 3. The ring construction according to claim 1 is characterized in that semi-elastic intermediate layers are used as press seals between the ring components. 4. The ring construction construct #, cn according to claim 1 is characterized in that elastic intermediate bearings are used between the ring cells to transmit the horizontal and vertical forces between the ring cells.