DD250560A1 - STEP-CEILING CONNECTION IN MULTI-GROUND BUILDINGS - Google Patents

Abstract

The invention is preferably used for concrete-steel composite buildings in Mehrgeschossbau. With the invention, such a constructive training is to be created with which the carrying properties can be further improved, increases the quality of construction and the building speed can be increased. Between vertical supports and a floor ceiling staerneern intermediate elements are arranged. The intermediate elements are arranged in the area of the columns on the column heads of basement columns and the support feet of upper floor columns. In the ceiling area and in the area of the intermediate elements, additional reinforcement may be located.

Description

For this 1 page drawing

Field of application of the invention

The invention relates to a column-ceiling connection preferably for concrete-steel composite buildings in multi-storey construction.

Characteristic of the known technical solutions

For the connection of loads to vertical support structures of multi-storey building a variety of structural designs are known in steel-as well as reinforced concrete, it is common practice to initiate forces arising from ceiling loads on specially shaped supports in the support structure. For this purpose node connections, support rings and annular lugs are used as load-bearing elements. This training requires that additional construction elements are arranged on the supports, which requires the transport additional cargo space or increases the assembly work on site. Significant, but above all, the structural problems that show up in the area of the column-ceiling connection, where the greatest forces occur, a weakening of the ceiling and the ceiling reinforcement in this particularly stressed area can not be performed. Another structural variant is the interruption of the supports in spatial implementation of the ceiling structures. In this case, the ceiling elements are placed on the column head and put the supports above it on the laid ceiling. In this embodiment, especially the disadvantage occurs that the laid ceiling for receiving the support forces must be hardened accordingly and subsequently, to avoid an eccentric force entry, a renewed calibration of the continuing supports is necessary. The resulting in the connection of the laid ceiling with the supports to be arranged over there Vermörtelarbeiten continue to mean time and cost.

Object of the invention

The invention aims to provide a connection for the columns and ceilings of a multi-storey building, with which comparable construction costs can be reduced, the construction costs reduced and the quality of the construction work can be increased.

Essence of the invention

It is an object of the invention to achieve such a constructive design of the column-ceiling connection which makes it possible to further improve the wearing properties in this connection area, to reduce the effort for surveying and control work and to increase the building speed. The degree of prefabrication in the production plants is to be increased and the assembly of the components simplified.

According to the invention, this object is achieved in that steel intermediate elements are arranged between vertical supports and a floor slab. The intermediate elements are arranged in the area of the columns on the column heads of basement floors and the column feet of upper floor columns. These intermediate elements may consist of base plates and top plates with supporting rods arranged therebetween. In the area of the supports can be arranged between the base plate and top plate corresponding reinforcement of the floor slab. The reinforcement may be immovably connected to the support bars of the intermediate elements. The intermediate elements may be formed in the area of the floor slab as reinforced concrete composite construction. In addition to other connection options, it is particularly advantageous if the supports are rigidly connected to the intermediate elements via screw connections. If the supports are designed as hollow bodies, it is favorable to provide the support heads, base plates and the top plates with concreting openings.

embodiment

Reference to an embodiment, the invention will be explained in more detail. The accompanying drawing shows a section of the novel column-ceiling connection.

In the said area of a multi-storey building, supports 1 as basement supports Y and first floor supports 1 "run vertically through the building is a reinforced concrete slab, this consists of the concrete body 4, in which usually the steel reinforcement is embedded 5. The upper conclusion forms a leveling layer 6. On the column head 2 rests an intermediate element 7, which consists of a base plate 8, a plurality of support rods 9 and a top plate 10. The head plate 10 corresponds in its construction to a column foot 11 for the upper floor supports 1 ". The support heads 2 are connected to the base plates 8 as the head plates 10 with the support legs 11 by screw 12. The support heads 2, the base plates 8 and the top plates 10 are provided with concreting openings 13. This structure results in the following assembly process:

After the basement supports Y are mounted on the support head 2 parts of the intermediate element 7, namely the base plate 8 and the support rods rigidly connected thereto 9 are fastened by means of screw 12. Subsequently, the circuit for the floor slab 3 is set. After the floor slab 3 is provided in a conventional manner with the steel reinforcement 5, the basement supports V are filled to just below the column head 2 with concrete, the top plates 10 of the intermediate element 7 welded to the support rods 9 and then the concreting process by the remaining closure of the basement support. 1 'and the introduction of the concrete body 4 continued in the floor slab 3. After the floor slab 3 is accessible, the upper floor supports 1 "are mounted and the operations repeated as previously described.

Claims (8)

1. Column-ceiling connection in multi-storey buildings, preferably consisting of steel elements with the addition of concrete and steel as a self-supporting ceiling, characterized in that between vertical supports (1) and a floor slab (3) steel intermediate elements (7) are arranged. 2. column-ceiling connection according to item 1, characterized in that the intermediate elements (7) in the region of the supports (1) on support heads (2) of basement supports (1 ') and column feet (11) of upper floor supports (1 ") arranged are. 3. column-ceiling connection according to item 1 and 2, characterized in that the intermediate elements (7) of base plates (8), top plates (10) and arranged therebetween support rods (9). 4. column-ceiling connection according to item 1 to 3, characterized in that in the region of the supports between the base plates (8) and head plates (10) a reinforcement (5) is arranged. 5. column-ceiling connection according to item 1 to 4, characterized in that the reinforcement (5) with the support rods (9) is immovably connected. 6. column-ceiling connection according to item 1 to 5, characterized in that the intermediate elements (7) in the region of the floor slab (3) are designed as reinforced concrete composite construction. 7. column-ceiling connection according to item 1 to 3, characterized in that the supports (1) with the intermediate elements (7) via screw connections (12) are rigidly connected. 8. Column-ceiling connection according to item 1 to 3, characterized in that the support heads (2), base plates (8) and the top plates (10) are provided with concreting openings (13).