RU188383U1 - Building composite concrete panel - Google Patents

Abstract

The utility model relates to construction, namely, to the construction of building composite concrete panels, for example, floor panels. A composite concrete panel containing a reinforcing cage with longitudinal tensile reinforcement, covering it at the ends of the panel with volumetric rectangular spirals, vertical frames, mounting loops and monolithic concrete, and longitudinal tensile reinforcement made of composite in cross section in the form of an oval, the long axis of which coincides with the maximum moment of resistance of the panel, the values of the axes of the oval of the core of the composite reinforcement are performed in proportion to the calculated moments of resistance along the axes in the middle of the panel in cross section.The technical result of the utility model is to increase the moment of resistance in the load-bearing direction increasing the strength of the building composite concrete panel. 1 tab.

Description

The utility model relates to construction, namely, to the construction of building composite concrete panels, such as floor panels.

A well-known building panel (Patent RU No. 2026939 IPC Е04С 2/06, publication date 01/20/1995), comprising a reinforcing cage with longitudinal tensile reinforcement and volume spirals covering it and monolithic concrete, the volume spiral being made with a trapezoidal coil profile in the panel section and is located equal number of turns at the ends and in the middle of the panel, and the reinforcing cage at the end sections of the latter is equipped with W-shaped flat spirals pushed into the volume spirals in the transverse direction.

The disadvantage of this building panel is its low strength.

building panel.

The closest device to the claimed utility model is a building composite concrete panel (Patent RU No. 183742 MPK Е04С 2/06, publication date 10/02/2018. Bull. No. 28), containing a reinforcing cage with longitudinal tensile reinforcement, covering it at the ends of the panel with volumetric rectangular spirals vertical frames, mounting loops and monolithic concrete, and the longitudinal tensile reinforcement is made of composite in cross section in the form of an ellipse, the long axis of which coincides with the maximum panel loads, values axes of the ellipse of the rod of composite reinforcement performed in proportion with the calculated loads along the axes of the panel in the cross section in the middle of the length.

The disadvantage of this device is the insufficiently high strength of the building panel.

The technical result of the utility model is to increase the moment of resistance in the bearing direction, increasing the strength of the building composite concrete panel.

The technical result is achieved in a building composite concrete panel containing a reinforcing cage with longitudinal tensile reinforcement, covering it at the ends of the panel with volumetric rectangular spirals, vertical frames, mounting loops and monolithic concrete, the longitudinal tensile reinforcement made of a composite in the cross section in the form of an oval, long axis which coincides with the maximum moment of resistance of the panel, the values of the axis of the oval of the rod of the composite reinforcement are performed in proportion to the calculated m cops resistance axes middle panel length in cross section.

An increase in the strength of a building composite concrete panel in the bearing direction due to a change in the moment of resistance consists in the fact that with a change in the geometric shape of the reinforcement with the same area and with the same material, the moment of resistance in the direction of the long axis of the oval will increase, which is combined with the maximum moment of resistance of the panel , and this gives an increase in the reliability of the structure compared to reinforcement in the cross section in the form of an ellipse.

The increase in the load-bearing capacity of the panel is also determined to the optimal ratio of the oval axis values to greater or lesser in the spatial positioning of the composite reinforcement in the panel's power loads in proportion to the calculated axial drag moments in the middle of the panel length in cross section.

In the table. presents the relationship between the ratio of the values of the axes of the oval and the moments of resistance along the main central axes of the oval and the relationship between the ratio of the values of the axes of the ellipse and the moments of resistance along the main central axes of the ellipse, as well as the relationship between the ratio of the values of the axes of the circle and the moments of resistance along the main central axes of the circle according to analytical data [3] . The relationships between the oval and the ellipse are distinguished in three groups.

The moments of resistance along the axes of the maximum load, oval and ellipse with different increasing ratios of the major axis to the smaller and with an area equal to the cross-sectional area of the circle of 14 mm increase (see Table). The moments of resistance of the oval along the axes of the maximum load are greater than the moments of resistance of the ellipse along the axes of the maximum load from 0.5% to 5.4% with a ratio of the axes from 1.283 to 2.619. Moments of resistance along the axis of the minimum load, in similar conditions, vary from 5.7% to 12.7%. The total moments of resistance vary from 2.8% to 7.4%.

Building composite concrete panel is made as follows.

The calculated moments of resistance along the axes of the cross section in the middle of the panel length determine the bearing values of the axes of the oval of the rod of the composite reinforcement. Construction composite concrete panel made of concrete and composite reinforcement. The reinforcing cage with longitudinal tensile reinforcement during installation is laid on a pallet of the form with an oriented direction of the oval of the cross section of the reinforcement with a maximum moment of resistance of the building panel, fixing it at the ends of the panel with volumetric rectangular spirals and an additional volumetric spiral in the center of the panel. The punches are introduced and vertical frames are laid out between the punches, mounting loops are fixed.

Composite reinforcement in the form of rods in the cross section in the shape of an oval is installed based on the acting forces for the perceived tensile stresses and reinforcement of the compressed zones of the structure. Such reinforcement is the most technologically advanced in manufacture and does not have sharp angles that cut into concrete and contribute to the formation of cracks.

The proposed design of a building composite concrete panel will simplify the technology of their manufacture due to the possibility of using welded-free reinforcing elements, plastic clamps and increase the maximum loads of a building panel using composite reinforcement in the shape of an oval with axis values in proportion to the calculated loads and resistance moments along the panel axes.

Information sources

1. Patent RU No. 2026939 IPC E04C 2/06, publication date 01/20/1995.

2. Patent RU No. 183742 IPC E04C 2/06, Date of publication 02.10.2018.

3. Reference on the resistance of materials / Pisarenko G.S., Yakovlev A.P., Matveev V.V .; open ed. Pisarenko G.S. - 2nd ed., Revised. and add. - Kiev: Science, Dumka, 1988 .-- 736 p. (58, 74 p.).

Claims (1)

A composite construction concrete panel containing a reinforcing cage with longitudinal tensile reinforcement, enclosing it at the ends of the panel with volumetric rectangular spirals, vertical frames, mounting loops and monolithic concrete, characterized in that the longitudinal tensile reinforcement is made of a composite in the cross section in the form of an oval, the long axis of which coincides with the maximum moment of resistance of the panel, the values of the axis of the oval of the rod of the composite reinforcement are performed in proportion to the calculated moments of resistance axis midway along the panel in cross section.

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