DE202019101905U1 - building board - Google Patents

Abstract

Building panel containing a reinforcing cage with longitudinally tensioned reinforcement, which covers them at the end of the plate with volumetric rectangular spirals, vertical frame, attachment loops and concrete injection, characterized in that the longitudinally stretched reinforcement is in the form of an ellipse whose longitudinal axis with the Maximum of loads of construction panels matches.

Description

The invention relates to structural panels, in particular the construction of reinforced concrete slabs for buildings, such as floor slabs.

There is a building board known ( RU2026939 ) comprising a reinforcing cage with longitudinally braced reinforcements and surrounding volumetric scrolls and homogeneous concrete. In this case, the volute coil is made with a trapezoidal profile of turns in the section of the plate, by an equal number of turns at the ends and in the middle of the plate. The reinforcing cage is provided at the end portions of the latter with W-shaped flat spirals which are pushed transversely into the volumetric spirals. The disadvantage of this building board is the impossibility to increase their strength.

The closest to the invention building board ( RU2100540 ) includes a reinforcing cage with longitudinally braced reinforcing elements covering the plate ends with volumetric rectangular spirals, vertical frames and attachment loops. The disadvantage is that this building board is not high-strength.

The object of the present invention is therefore to increase the strength of the building board.

The technical problem is solved in that the building board contains a reinforcing cage with longitudinal reinforcement and this covers the plate ends with volumetric rectangular spirals, vertical frame, mounting loops and Homontaktbeton, wherein the longitudinal reinforcement is formed in cross section in the form of an ellipse longitudinal axis, which with the maximum loads of the building board coincides.

The proposed building panel differs from the known in that the longitudinal stress gain in cross section is in the form of an ellipse whose long axis coincides with the maximum loads of the building panel, which are fixed to the plate ends by volumetric rectangular spirals and an additional volumetric spiral in the middle of the plate , The combined use of an ellipsoidal reinforcement cross-section at maximum loads on a structural panel increases the strength properties of the device. For the same cross-section of the circle and the ellipse, the resistance moment along the vertical circle axes is the same, and the resistance moment along the vertical axes of the ellipse is different due to the geometrical parameters. The moment of resistance along the axis of maximum load, an ellipse with a ratio of a larger axis to a smaller value of 1.7 and an area corresponding to the cross-sectional area of a circle of 20 mm increases by 1.281 times, ie. H. by + 28.1%, see table. The moment of resistance along the axis of minimum load decreases under similar conditions to 0.75 times or - 25%. The total resistance torques along both axes increase by 1016 times, that is H. by + 1.6%.

The table shows the relationship between the axes of the ellipse and the circle of resistance moments along the various axes of the ellipse and the circle in the building board according to [3].

1. 1 ist die maximale Belastung der Bauplatte und das maximale Moment ihres Widerstands;
2. 2 ist ein Querschnitt eines Stabes der beanspruchten Vorrichtung in Form einer Ellipse;
3. 3 ist ein Querschnitt der Stabstangen des Prototyps in Form eines Kreises;
4. 4 ist die lange Achse der Ellipse, die mit der maximalen Belastung des Ventils hinsichtlich seiner räumlichen Positionierung übereinstimmt;
5. 5 ist die kurze Achse der Ellipse, die nicht mit der maximalen Belastung der Bewehrung übereinstimmt;
6. 6 ist die Achse des Kreises, die mit der maximalen Belastung der Bewehrung übereinstimmt;
7. 7 ist die Achse des Kreises, die nicht mit der maximalen Belastung des Ventils übereinstimmt;
8. 8 ist ein Fragment einer Bauplatte.

The figure represents a diagram of the spatial positioning of the cross section of the steel bars of the prototype and the claimed device in the building board. The reference numerals have the following meaning:

1. 1 is the maximum load of the building panel and the maximum moment of its resistance;
2. Figure 2 is a cross-section of a rod of the claimed device in the form of an ellipse;
3. Fig. 3 is a cross section of the prototype rod bars in the form of a circle;
4. 4 is the long axis of the ellipse, which coincides with the maximum load of the valve in terms of its spatial positioning;
5. 5 is the short axis of the ellipse that does not match the maximum load of the reinforcement;
6. 6 is the axis of the circle, which coincides with the maximum load of the reinforcement;
7. 7 is the axis of the circle that does not match the maximum load of the valve;
8. 8 is a fragment of a building panel.

The building board is made as follows. The building board consists of concrete and reinforcing steel. The longitudinal reinforcement anchor frame is placed on a mold pallet with an oriented ellipse orientation of the anchor section at maximum load on the structural panel when mounted, being secured to the plate ends with volumetric rectangular spirals and an additional volumetric spiral in the center of the plate. Punches are inserted and vertical frames are placed between the holes. Attachment loops are attached.

The steel reinforcement in the form of rods with elliptical cross section is determined by calculating the forces acting on the perception of tensile stresses and the reinforcement of the compressed zones of the structure. Such fittings are technologically most optimal in production and have no sharp corners, they cut into concrete and promote the formation of cracks.

The proposed structural plate design will simplify the manufacturing technology since both welded reinforcing elements and the welded connection of reinforcing cage elements can be used and the maximum loads of the structural plate are increased by means of an elliptical reinforcing cross section.

REFERENCES

1. 1. Patent RU2026939 IPC E04C 2/06, date of publication 20.01.1995.
2. 2. Patent RU2100540 IPC E04C 2/06, published 27.12.1997.
3. Third Reference Material Resistance / Pisarenko, GS, Yakovlev, AP, Matveev, W; rep. ed. Pisarenko GS - 2nd edition, Pererab. and add. - Kiev: sciences. Dumka, 1988. - 736 s. (58, 74 pp.) ,

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 2026939 [0002, 0011]
• RU 2100540 [0003, 0011]

Cited non-patent literature

• Reference Material Resistance / Pisarenko, GS, Yakovlev, AP, Matveev, W; rep. ed. Pisarenko G.S. - 2nd edition, Pererab. and add. - Kiev: sciences. Dumka, 1988. - 736 s. (58, 74 p.) [0011]

Claims (1)

Building panel containing a reinforcing cage with longitudinally tensioned reinforcement, which covers them at the end of the plate with volumetric rectangular spirals, vertical frame, attachment loops and concrete injection, characterized in that the longitudinally stretched reinforcement is in the form of an ellipse whose longitudinal axis with the Maximum of loads of construction panels matches.

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