EP1749949A2 - Concrete pillar - Google Patents

Abstract

The concrete pillar (6) has second area (2) in which recesses (3,4) are so arranged that during putting concrete slab on the concrete pillars reinforcing bars of the concrete slab are inserted into the recesses, e.g. by the front side of the concrete pillar. The recesses are formed between the axial prolongations. An independent claim is also included for formation of junction points between the concrete pillar and flat slab.

Description

The invention relates to a concrete support, in particular reinforced concrete support made of high-strength concrete, for example of centrifugal or Rüttelbeton, with a first region and a second region along its longitudinal extent, wherein the second region has a smaller compared to the cross-sectional area of the first region cross-sectional area, and wherein the second area is arranged on a front side of the concrete support.

By forming a second area, which passes through a large part of the ceiling when installed, a good force transmission from a support of a projectile above is possible in the support of the underlying projectile.

A concrete support of this type of vibrated concrete is eg from the German utility model DE 201 20 678 U known. This support is designed in its second region in solid material and has on its head-side end face on a top plate made of steel. In order to pass the longitudinal reinforcements of the attached flat ceiling through the ceiling node area, connections are made in the second area of the column. For the introduction of force from a support into the underlying another steel plate is additionally arranged on the foot-side end face of the support.

A disadvantage of this design, however, is that the longitudinal reinforcements of the patch flat cover can be connected only with great effort by means of screw terminals.

It is therefore the object of the present invention to provide a concrete support, which ensures a high load capacity, easy connectability of blankets to the column head and a simple processing in storey.

This object is achieved in that in the second region recesses are arranged such that when placing a concrete pavement on the concrete support reinforcing bars of the concrete ceiling in these recesses, in particular from the front side of the concrete support forth, can be inserted. By providing these recesses, the longitudinal reinforcement of a flat ceiling placed on the support can be guided in a simple manner through the head part of the support. If the recesses are designed to be open towards the front side, it is particularly easy to insert the reinforcing rods from above when the support is erected.

Advantageously, the recesses may be arranged such that axial extensions are formed between them. By the axial extensions, the introduction of force from an overlying into the underlying support can be done particularly advantageous, while a simple processing is ensured.

In a preferred embodiment, at least a portion of the extensions may be arranged off-center. As a result, axial extensions can also be formed in a spun concrete support, which direct the force from the upper to the lower support in a direct way. Since a spun concrete support remains due to its production a cavity along its axis, the force introduction can be made without additional intermediate parts such as additional steel plates at the head end of the support with off-center extensions.

In a particularly preferred embodiment, the first and second regions can be formed in one piece. This makes it possible to produce the support with its two areas in a production step as prefabricated component.

Advantageously, the recesses may extend over the substantially entire longitudinal extension of the second region. This makes it possible to insert both the lower and the upper ceiling reinforcement with erected support from above, that is from the end face of the support in the recesses.

In an alternative embodiment, the recesses may extend only over part of the longitudinal extent of the second region. In this case, only the upper ceiling reinforcement can be inserted into the recesses from the top, that is to say from the end face of the support, with the support set up, while the lower ceiling reinforcement can be arranged in such a way that it butts flush against the support concrete.

It is particularly advantageous if the second region is formed with a profiling and / or rough surface. As a result, the vertical forces of the ceiling can be introduced not only on the paragraph between the first and second area, but also on the outer surface of the second area in the support.

The concrete support may be round in cross-section, in particular circular. In a production of spun concrete results in a particularly homogeneous and uniformly compressed structure of the support.

Alternatively, the concrete support in cross-section square, in particular rectangular, for example, be square. This allows the appearance of the support to be adapted to different requirements.

A preferred field of application of the concrete support according to the invention lies in the formation of a junction between a concrete support and a flat ceiling made of reinforced concrete. Especially in storey, it is particularly advantageous if these nodes can be performed with a high load capacity, easy connectivity of the ceiling to the column head and with a simple processing.

Advantageously, it can connect to the column head of the concrete support another concrete support and it can be arranged at the support base of the other concrete support an end plate, in particular a Stahlendplatte, while the end of the column support concrete support must be provided. According to this embodiment, therefore, only one plate for force distribution at the column foot is necessary. The inclusion of crevice and Ringzugkräften is taken over by the ceiling in the form of a lashing.

In a particularly preferred embodiment of the node may be carried out so that the support head of the concrete support is performed up to the ceiling top edge of the flat ceiling. This ensures that high-strength concrete parts reach up to the top of the ceiling and thus form a support for the overlying support.

• Fig. 1 einen Querschnitt einer ersten Ausführungsform einer Stütze als Schleuderbetonstütze,
• Fig. 2 eine Seitenansicht einer ersten Ausführungsform einer Stütze als Schleuderbetonstütze mit angeschlossenem Deckenbereich,
• Fig. 3 einen Querschnitt einer zweiten Ausführungsform einer Stütze als Rüttelbetonstütze,
• Fig. 4 eine Seitenansicht einer zweiten Ausführungsform einer Stütze als Rüttelbetonstütze ohne angeschlossenem Deckenbereich,
• Fig. 5 einen Querschnitt einer dritten Ausführungsform einer Stütze als Rüttelbetonstütze,
• Fig. 6 eine Seitenansicht einer dritten Ausführungsform einer Stütze als Rüttelbetonstütze ohne angeschlossenem Deckenbereich.

The invention will be further described with reference to the accompanying drawings, in which embodiments are shown by way of example. Showing:

• 1 shows a cross section of a first embodiment of a support as a spun concrete support,
• 2 is a side view of a first embodiment of a support as spun concrete support with attached ceiling area,
• 3 shows a cross section of a second embodiment of a support as Rüttelbetonstütze,
• 4 is a side view of a second embodiment of a support as Rüttelbetonstütze without connected ceiling area,
• 5 shows a cross section of a third embodiment of a support as Rüttelbetonstütze,
• Fig. 6 is a side view of a third embodiment of a support as Rüttelbetonstütze without connected ceiling area.

In the figures, various embodiments of concrete columns 6 are shown, which have a first region 1 and a second region 2. The second region 2 has a smaller cross-sectional area than the first region 1 and is arranged on an end face 5 of the concrete support. In the second region 2 recesses 3 and 4 are arranged. When placing a concrete ceiling 7 on the concrete support 6 reinforcing bars 14 can be inserted into these recesses 3 and 4. The device according to the invention as defined in the claims may moreover have all or only part of the features described below. In particular, individual features of different embodiments can be combined with each other.

FIGS. 1 and 2 show a first embodiment of the concrete column made of spun concrete. In the embodiment shown, the support has a circular cross section and a centric, approximately circular hole 13 along its longitudinal extent, which originates from the manufacturing process of the spun concrete support. Along its longitudinal extent, the support 6 has reinforcements 17. Also in the circumferential direction reinforcements 18 are provided. On the front side 5 of the second region 2 of the support recesses 3 and 4 are provided. This results in axially parallel extensions 12, which enforce a connected ceiling 7, for example, concrete ceiling. The extensions 12 are arranged eccentrically with respect to the column cross-section. The recesses 3 and 4 extend from the end face 5 along the longitudinal extension of the support 6 over the entire second region 2 to the beginning of the first region 1. Therefore, both the upper and the lower ceiling reinforcements 14 of a concrete ceiling 7 passed through the support head 8 become. Alternatively, it would also be possible for the recesses 3 and 4 to extend from the end face 5 over only a part of the second area 2. Then it would only be possible to guide the upper ceiling reinforcements 14 of a ceiling 7 through the support head 8, while the lower ceiling reinforcements dull on the support 6.

The recesses 3 and 4 extend over the entire diameter of the second region 2 of the support and therefore extend from an outer side of the second region 2 to the diametrically opposite outside of this region. Through this from one side of the support 6 to the other through recesses 3 and 4 reinforcing rods 14 and 15 can be inserted into these recesses 3 and 4, said reinforcing rods then also extend continuously from one side of the support 6 to the opposite side. In the embodiments shown in the figures, the recesses are also designed in a straight line from one side to the other, so that the reinforcing bars 14 and 15 can be rectilinearly guided through the second region 2 of the support 6.

The first region 1 and the second region 2 of the support shown consist of one piece and can therefore be manufactured in one operation. The recesses 3 and 4 shown are arranged so that there are axial extensions 12 on the column head 8, which have a torteneckenähnlichen cross-section. On the lateral surface of the extensions 12 and thus in the second region 2 of the support 6 profiling is formed. At this a concrete ceiling 7 can be connected. As a result, the concrete ceiling 7 can not be supported only via the radial projection at the transition from the first area 1 to the second area 2, rather, a force is also given on the profiling. Alternatively or in addition to the profiling, the lateral surface of the extensions 12 and thus the second region 2 of the support 6 can be provided with a rough surface.

FIG. 2 also shows a node formed with a support 6 and a flat ceiling 7 made of reinforced concrete. It can be seen that both the upper reinforcing bars 14 and the lower reinforcing bars 15 extend continuously between the extensions 12 in the recesses 3 and 4.

In the area of the column foot 9 of another, similar, placed on the first support 6 support 10, an end plate 11 is shown. This may be, for example, a steel plate, which introduce the forces of the upper support 10 evenly in the lower support 6. For better connection to the support head 8, a layer of laterally projecting bearing mortar 16 is provided.

In Figures 3 and 4, a second embodiment of a support is shown. The support has a similar structure, which is why only the differences from the first embodiment will be described below. Identical or corresponding components are numbered with the same reference numerals as in the first embodiment of Figures 1 and 2. The support shown in Figures 3 and 4 is designed as Rüttelbetonstütze why the central hole is missing. The recesses 3 and 4 extend only over a part of the second region 2 of the end face 5 in the axial direction. As a result, the upper ceiling reinforcement bars 14 can still be passed through these recesses, but the lower ceiling reinforcements 15 terminate flush with the support 6. The extensions 12 in this example have a cross-section which essentially consists of quadrant segments. Since in a Rüttelbetonstütze no centric hole is formed, an axial extension could also be provided in the middle. In this case, however, the other extensions would have to be arranged offset to the position shown in the figures, so that it remains ensured that the reinforcing bars 14 of the ceiling 7 can run continuously.

In Figures 5 and 6, a third embodiment of a support is shown. This support is also designed as Rüttelbetonstütze, which is why the central hole is missing here. The recesses 3 and 4 extend only over a part of the second region 2 of the end face 5 in the axial direction. However, the support is square in cross section.

The extensions 12 in the second region of the support also have a substantially square cross-section.

Further embodiments according to the invention have only a part of the features described, wherein each feature combination, in particular also of various described embodiments, can be provided. Thus, the features of the individual embodiments can be freely combined with each other. For example, a jolted or spun concrete support may be round or square, with or without a continuous recess, with cake-corner-shaped, quarter-circle or square extensions.

Claims (12)

Concrete support (6), in particular reinforced concrete support made of high-strength concrete, for example made of centrifugal or vibrated concrete, with a first region (1) and a second region (2) along its longitudinal extent, wherein the second region (2) in comparison to the cross-sectional area of the first Area (1) has a smaller cross-sectional area, and wherein the second region (2) on an end face (5) of the concrete support is arranged, characterized in that in the second region (2) recesses (3, 4) are arranged such that at putting a concrete ceiling on the concrete support reinforcing bars of the concrete floor in these recesses, in particular from the front side of the concrete support ago, can be inserted. Concrete support according to claim 1, characterized in that the recesses (3, 4) are arranged such that between these axial extensions (12) are formed. Concrete support according to claim 2, characterized in that at least a part of the extensions (12) is arranged off-center. Concrete support according to one of the preceding claims, characterized in that the first and second region (1, 2) are integrally formed. Concrete support according to one of the preceding claims, characterized in that the recesses (3, 4) extend over the substantially entire longitudinal extent of the second region (2). Concrete support according to one of the preceding claims, characterized in that the recesses (3, 4) extend over only a part of the longitudinal extension of the second region (2). Concrete support according to one of the preceding claims, characterized in that the second region (2) is formed with a profiling and / or rough surface. Concrete support according to one of the preceding claims, characterized in that the support is round in cross-section, in particular circular. Concrete support according to one of the preceding claims, characterized in that the support in cross-section is angular, in particular rectangular, for example square. Forming a node between a concrete support (6) and a flat ceiling (7) made of reinforced concrete, characterized in that the concrete support (6) is designed according to one of claims 1 to 9. Forming a node according to claim 10, characterized in that on a support head (8) of the concrete support (6) connects a further concrete support (10) and that at the support foot (9) of the further concrete support (10) has an end plate (11), in particular a Stahlendplatte, is arranged, while at the support head (8) of the concrete support (6) no end plate is provided. Forming a node according to claim 7, characterized in that the support head (8) of the concrete support (6) up to the top edge of the flat ceiling (7) is performed.

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