RU2590494C1 - Reinforcement structure of stretched zone of hollow-core slab - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to designs of reinforcement of reinforced concrete hollow core slabs. Hollow core slab comprises slots made in stretched zone of slab below hollows, additional longitudinal reinforcement arranged and embedded in stretched zone below hollows. At this, below slots there are ribs connected with said slots, and axis of additional lengthwise reinforcing rods is placed below lower face plane of slab.

EFFECT: increasing carrying capacity of slab.

3 cl, 2 dwg

Description

The invention relates to the construction, in particular, to reinforcement structures for multi-hollow reinforced concrete floor slabs, access to which is not possible from above, for example floor slabs, used mainly in combined roofing buildings.

There is a known reinforcement design of a stretched zone of a precast multi-hollow concrete slab, including reinforcing steel puffs and fastening elements that are placed in vertical holes formed in the slab. Puffs are placed in the voids of the plate from the side of its stretched zone, and each fastening element of the puffs is made in the form of a corner and an abutment rigidly interconnected, while the horizontal shelf of the corner interacts with the outer surface of the plate from the side of the compressed zone, and the emphasis is provided with a groove through which the end of the puff tightly fixed to the stop, for example, by means of a threaded connection (see utility model patent No. 90100, IPC E04G 23/02, published on 08/17/2009.).

Despite the fact that the design chosen as an analogue provides effective reinforcement of the stretched zone of precast reinforced concrete multi-hollow slabs, it is nevertheless not suitable for reinforcing similar slabs located on the top floor of the building and combined with the roof, due to the inability to access these slabs from above , which is necessary during the installation of this design.

The closest analogue is the reinforcement structure of a reinforced concrete multi-hollow floor slab, including additional reinforcement, which is placed and monolithic in grooves made in the stretched zone of the slab. In this case, the grooves are made in the zones of the voids of the plate, connected to the indicated voids and equipped with clamps, in which the additional reinforced reinforcement is placed. Additional monolithic reinforcement is equipped with at least two monolithic anchors, which are installed in holes made in the locations of the indicated anchors (see Utility Model Patent No. 147226, IPC E04G 23/02, published on 10.27.2014.)

The use of this design under heavy load is irrational, as it leads to a significant overspending of longitudinal reinforcement.

The objective of the invention is to develop a reinforcement design for a multi-hollow reinforced concrete slab, which allows to increase the bearing capacity, rigidity and crack resistance of the slab, including using it under heavy loads.

The essence of the invention lies in the fact that in the construction of reinforcing the stretched zone of a hollow core slab, including grooves made in the stretched zone of the slab below the voids of the slab, additional longitudinal reinforcement placed and monolithic in the stretched zone of the slab in areas below the voids of the slab, with ribs made below the grooves connected to these grooves, and the axis of the additional longitudinal reinforcement is located below the plane of the lower edge of the plate.

Additional monolithic reinforcement is rigidly connected to the transverse reinforcing bars, which are rigidly connected to the upper longitudinal reinforcing rod, placed in the void or groove of the plate.

Rib height selected from the condition

where C is the height of the ribs (the distance between the bottom of the plate and the bottom of the ribs);

- расстояние от верхней грани плиты до центра тяжести растянутой (существующей и дополнительной) арматуры, определяется по формуле

- the distance from the upper face of the plate to the center of gravity of the stretched (existing and additional) reinforcement is determined by the formula

A is the distance from the center of gravity of the stretched (existing and additional) reinforcement to the center of gravity of the additional longitudinal reinforcement, is determined by the formula

h ₀ is the distance from the upper face of the plate to the center of gravity of the existing reinforcement;

- расчетные сопротивления основной и дополнительной продольной арматуры;Rs

- design resistance of the main and additional longitudinal reinforcement;

- площади основной и дополнительной продольной арматуры;As

- area of the main and additional longitudinal reinforcement;

M is the moment from the external load;

R _b is the calculated concrete resistance;

b is the width of the compressed zone of the plate;

a ^r - the value of the protective layer of concrete of additional longitudinal reinforcement (selected according to SP 63.13330.2012 "Concrete and reinforced concrete structures. Basic provisions");

d ^r is the diameter of the additional longitudinal reinforcement;

h is the height of the reinforced plate.

The proposed design allows to increase the bearing capacity, rigidity and crack resistance of the reinforced plate by 10-40% in comparison with the closest analogue.

For example, if it is necessary to strengthen the PC 59-10 plate made according to the AI 03-02 series, Al. 5 (1957), reinforced with two rods with a diameter of 12 mm and four rods with a diameter of 10 mm of class A-W, concrete class according to the B25 survey. The maximum bending moment that the slab can absorb is 3.74 tcm. When reinforcing the plate with two rods with a diameter of 16 mm, class A500, using the design solution described in the closest analogue, the maximum bending moment that the plate can absorb will be 6.79 tcm. If this plate is reinforced with the proposed design, using the same reinforcement, and a rib is made with a height of C = 13 cm, then the maximum bending moment that the plate can absorb will be 9.2 cm. This moment is 35% percent higher than the bending moment perceived by the slab, when using the design, which is the closest analogue.

The invention is illustrated by drawings, where in FIG. 1 shows a cross-sectional reinforcement structure of a reinforced concrete multi-hollow floor slab, in FIG. 2 - section along aa.

The reinforcement design of the stretched zone of the multi-hollow plate 1 includes grooves 2 made in the stretched zone of the plate 1 below the voids 3 of the plate. Additional longitudinal reinforcement 4 is placed and monolithic in the stretched zone of the plate 1 in the areas below the voids 3 of the plate 1. Below the grooves 2 there are ribs 5 connected to the specified grooves 2, while the axis of the additional reinforcement 4 is located below the plane of the lower face of the plate 1. Additional longitudinal monolithic the reinforcement 4 is rigidly connected to the transverse reinforcing rods 6, which are rigidly connected to the upper longitudinal reinforcing rod 7, placed in the void 3 or groove 2 of the plate. The height of the ribs 5 is selected from the condition

 where C is the height of the ribs (the distance between the bottom of the plate and the bottom of the ribs);

- расстояние от верхней грани плиты до центра тяжести растянутой (существующей и дополнительной) арматуры, определяется по формуле

- the distance from the upper face of the plate to the center of gravity of the stretched (existing and additional) reinforcement is determined by the formula

And - the distance from the center of gravity of the stretched (existing and additional) reinforcement to the center of gravity of the additional longitudinal reinforcement is determined by the formula:

h ₀ is the distance from the upper face of the plate to the center of gravity of the existing reinforcement;

- расчетные сопротивления основной и дополнительной продольной арматуры;Rs

- design resistance of the main and additional longitudinal reinforcement;

- площади основной и дополнительной продольной арматуры;As

- area of the main and additional longitudinal reinforcement;

M is the moment from the external load;

R _b is the calculated concrete resistance;

b is the width of the compressed zone of the plate;

a ^r - a protective layer of concrete value of additional longitudinal reinforcement (selected on SP 63.13330.2012 "Concrete and concrete structures basic position.");

d ^r is the diameter of the additional longitudinal reinforcement;

h is the height of the reinforced plate.

To complete the reinforcing structure, a groove 2 is punched from the side of the stretched zone in the reinforced concrete multi-hollow plate 1, which connects to the void 3. An upper longitudinal rod 7 is attached to the additional longitudinal reinforcement 4 by means of transverse rods 6. The resulting structure is installed in the groove 2. At the lower surface of the plate 1 mounted formwork. A hole is left in the formwork for the nozzle of the concrete pump. The nozzle of the concrete pump is installed in the hole left and the ribs 5 and voids 3 are concreted.

For example, if it is necessary to strengthen the PC 59-10 slab, manufactured according to the series II 03-02, Al.5 (1957), reinforced with two rods with a diameter of 12 mm and four rods with a diameter of 10 mm, class A-III, concrete class according to the survey B25. The moment from the external load that the plate must absorb, M = 9.0 tcm.

Reinforcement is performed by two rods with a diameter of 16 mm of class A500. Then

A _S = 2 * 1.131 + 4 * 0.785 cm ² ;

R _S = 3400 kgf / cm ² ;

R _b = 140 kgf / cm ² ;

b = 96 cm;

h ₀ = 19.9 cm;

C≥ (25.7 + 6.5 + 2 + 1.6 / 2) -22 = 13 cm.

Claims (3)

1. The reinforcement design of the stretched zone of the multi-hollow plate, including grooves made in the stretched zone of the plate below the voids of the plate, additional longitudinal reinforcement, which is placed and monolithic in the stretched zone of the plate in areas below the voids of the plate, characterized in that below the grooves are made ribs connected to these grooves, while the axis of the additional longitudinal reinforcement is placed below the plane of the lower edge of the plate. 2. The reinforcement design of the extended zone of the hollow core slab according to claim 1, characterized in that the additional longitudinal reinforcement monolithic is rigidly connected to the transverse reinforcing bars, which are rigidly connected to the upper longitudinal reinforcing bar placed in the void or groove of the plate. 3. The reinforcement design of the extended zone of the hollow core slab according to claim 1, characterized in that the rib height is selected from the condition

where C is the height of the ribs (the distance between the bottom of the plate and the bottom of the ribs);

- the distance from the upper face of the plate to the center of gravity of the stretched (existing and additional) reinforcement is determined by the formula

A - the distance from the center of gravity of the stretched (existing and additional) reinforcement to the center of gravity of the additional longitudinal reinforcement is determined by the formula

h ₀ is the distance from the upper face of the plate to the center of gravity of the existing reinforcement;
R _s

- design resistance of the main and additional longitudinal reinforcement;
A _s

- area of the main and additional longitudinal reinforcement;
M is the moment from the external load;
R _b is the calculated concrete resistance;
b is the width of the compressed zone of the plate;
a ^r is the value of the protective layer of concrete of additional longitudinal reinforcement;
d ^r is the diameter of the additional longitudinal reinforcement;
h is the height of the reinforced plate.

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