DE212009000117U1 - Butt joint between a solid ceiling and columns - Google Patents

Abstract

Butt joint between a solid ceiling (2) with supports (1), the supports (1) and the ceiling (2) being provided with reinforcement frames (3, 4) and with panels (5) in the direction from the supports (1) to the ceiling (2) are set up, characterized in that the plates (5) are designed in the form of curved profiles and are provided with stiffeners (6) and that the stiffeners (6) along each plate (5) in pairs on both sides and at least above the upper and the lower end face of the plate (5) are arranged.

Description

The invention relates to a butt joint between a solid ceiling and columns according to the preamble of claim 1.

The invention can be used in the construction industry and that in the construction of precast concrete ceilings. It can be used in structures with beam ceiling support structures.

From the prior art, a butt joint between a capital of a barless concrete ceiling and a column is known (certificate of the USSR No. 876907, KI. E 04 B 5/43, 1981). This butt joint has a central part of a plate with a downwardly widened (divergent) opening and connecting rods of the column and the plate. A reinforcement cage is located in the opening to the passage of the column. The reinforcing cage emerges below the capital area and has the shape of a truncated pyramid or truncated cone. The reinforcement cage is connected to the connecting rods of the column and the capital. The column is provided at the joint with a profile with alternating grooves and springs. The impact space is monolithic verbetoniert.

The lack of this butt joint is a high labor and material cost in the manufacture of the connection assembly between the column and the ceiling.

From the patent RU 2194825 (KI. E 04 B 5/43, 2002) is a butt joint of a beamless concrete pavement with a column known. This known butt joint is considered by the applicant as a prototype. The butt joint comprises a support and a ceiling and reinforcing frameworks of the support and the ceiling. On the reinforcement framework of the lower and upper latticework of the ceiling plates are rigidly fixed. The plates lie opposite each edge of the support symmetrically to the support axes. The plates are arranged in the direction from the support to the ceiling. The length of the panels is at least 2h + 2a, where h is the ceiling thickness and a is the thickness of the concrete protection layer of the column. The plates are placed on their ribs (edges). In this case, one end of each plate is rectangular. This rectangular end part is arranged behind the support edge with a distance of at least 2a. The other end is formed with a 45 degree slope. The slope is perpendicular to the flank surface of the prism when pushing the plate.

However, such a connection of the support with the ceiling requires a very large amount of metal. This immediately leads to an increase in the design weight.

It is an object of the invention to reduce the metal cost of the plates by their weight is reduced and their construction is simplified. It is also the weight of the entire assembly can be reduced without compromising the safety and carrying capacity.

The stated object is solved by the features of claim 1.

According to the proposed technical solution, the plates are in the form of curved profiles and provided with stiffeners (stiffening elements). The stiffeners along each plate are arranged in pairs on both sides and at least on the upper and lower end face of the plate.

Moreover, the arcuate profile of the plates is in the form of either a sine curve or a rectangle or a trapezoid. The stiffeners are formed either of a reinforcement or a band plate or an angle or a box girder and welded to the plate or connected by means of fasteners.

Embodiments of the invention are shown schematically in the drawings. Show it:

1 the connection of a column to a ceiling using panels in the form of curved profiles (the top and bottom grilles of a ceiling reinforcement frame are not shown),

2 the section AA from the 1 .

3 Plates which are provided with stiffeners (stiffening elements), wherein the stiffeners are formed as a reinforcement and welded thereto,

4 different types of curved profiles of the plate,

5 Examples of stiffening and

6 the attachment of the stiffeners to the plate either by welding or by means of fasteners.

The butt joint of the beamless concrete pavement with supports comprises a support 1 and a blanket 2 , Inside the prop 1 and the ceiling 2 are arranged reinforcing scaffolds, and one reinforcing cage 3 the prop 1 and a reinforcement cage 4 the ceiling 2 , plates 5 are opposite each edge of the prop 1 symmetrical to the respective axes of the support 1 and the ceiling 2 rigidly attached. The plates 5 lie in the direction of the support 1 to the ceiling 2 , All plates 5 at least two opposite each edge of the support 1 , are upended. There is every plate 5 between the upper and the lower grid of the reinforcement framework 4 the ceiling 1 arranged and rigidly connected. Every plate 5 is also designed as a curved profile and with stiffeners 6 Mistake. The stiffeners 6 are along each plate 5 placed in pairs on both sides and at least over the upper and lower face. Such a construction of the plate 5 is much finer and requires less metal. Such a plate is also much lighter than a flat plate and is considerably superior to a comparative product in terms of carrying capacity.

When constructing a critical building structure that requires a much more reinforced ceiling with increased load capacity, additional stiffeners can be added 6 with the height of the plate 5 be arranged between their upper and lower end face.

• – Widerstandsschweißen,
• – Bindedraht,
• – durchgängige Halteklammern oder
• – mittels anderer Befestigungselemente 7.

The curved profile of the plate may be formed by some types of curves, e.g. As a sine wave, as a rectangle, as a trapezoid, as a triangle or other similar figures. The stiffeners 6 can z. B. as a reinforcement, as a rod, as a band plate, as an angle or as a box girder or as similar components. The attachment of the stiffeners 6 with the plate 5 takes place by means of the following procedures:

• - Resistance welding,
• - binding wire,
• - Continuous retaining clips or
• - By other fasteners 7 ,

The assembly of the butt joint is as follows.

The shuttering (not shown) is placed under the ceiling. The lower grid of the reinforcement framework 4 the ceiling 2 is placed on the shuttering. Here is the reinforcement cage 3 the prop 1 already positioned over the formwork. After that, the prepared plates 5 upright and at the lower grid of the reinforcement framework 4 the ceiling 2 attached.

The preparation of the plates 5 consists in the following. The plate 5 is produced according to the calculated length, thickness and profile. The stiffeners 6 be on the plates 5 above the top and bottom faces of the plate 5 attached in pairs. The stiffeners 6 are also taking into account the proposed series depending on the required load capacity and the presence of one or more stiffeners 6 calculated at the construction site. In addition, the assembly of the plates 5 with the stiffeners 6 with their placement on the reinforcement framework 4 the ceiling 2 be combined directly on site.

Thereafter, the upper grid of the reinforcement framework 4 the ceiling 2 set up and also with the plates 5 connected. The connection is then ready for filling with concrete.

The plates 5 with the curved profile are more resistant to a static permanent load. In addition to the advantages associated with manufacturing technology, the sinusoidal profile edge has a further advantage over a direct profile because the local deformation inherent in the flat plates is eliminated. Thanks to the profile plate, the construction effectively dampens the bending loads. Under static loads the plate is calculated according to a scheme in which bending moments and normal forces are transferred only through flanges: after connection with stiffeners the plate looks 5 like a double T-beam. As stiffeners 6 Serve with these double T-beams their flanges. The transverse forces are distributed only obliquely and vertically over the carrier formed. In this case, this distribution takes place over the corrugated wall.

The application of the proposed technical solution makes it possible to produce a shock assembly of a solid ceiling with a support without compromising safety and carrying capacity. This shock assembly makes it possible

• - to reduce the metal expenditure of the boards on average by up to 40%,
• - to reduce the weight of the building structures and
• - to save on the material used.

This is thanks to the sufficient load capacity of the plates 5 achieved in the form of curved profiles, with stiffeners 6 are provided and represent vehicles. The application of this technical solution also makes it possible to lower the cost of the work carried out and to increase its performance.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• RU 2194825 [0005]

Claims (2)

Butt joint between a solid ceiling ( 2 ) with supports ( 1 ), whereby the supports ( 1 ) and the ceiling ( 2 ) with reinforcing structures ( 3 . 4 ) and where plates ( 5 ) in the direction of the supports ( 1 ) to the ceiling ( 2 ), characterized in that the plates ( 5 ) in the form of curved profiles and with stiffeners ( 6 ) and that the stiffeners ( 6 ) along each plate ( 5 ) in pairs on both sides and at least over the upper and the lower end face of the plate ( 5 ) are arranged. Butt joint according to claim 1, characterized in that the curved profile of the plates ( 5 ) is formed in the form of a sine curve, a rectangle or a trapezoid and that the stiffeners ( 6 ) formed either as a reinforcement, band plate, angle or box girder and with the plate ( 5 ) welded or by means of fasteners ( 7 ) are connected.

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