RU2274714C1 - Three-layer reinforced concrete panel - Google Patents

Abstract

FIELD: building, particularly enclosing structures for industrial and civil buildings.

SUBSTANCE: three-layer reinforced concrete panel comprises central heat-insulation layer, outer and inner reinforced concrete layers connected one to another by rigid ties formed as reinforced concrete pins passing through heat-insulation layer and reinforced concrete ribs arranged along panel perimeter. Three-layer reinforced concrete panel additionally has at least two reinforced concrete pins, which are arranged at opposite panel ends. Reinforced concrete ribs have total area A_r defined in cross-section parallel to panel layers.

EFFECT: increased heat and technological properties, frost-resistance and resistance to atmospheric action upon three-layer reinforced concrete panel.

6 cl, 2 dwg

Description

The invention relates to the construction, in particular to the enclosing structures of industrial and civil buildings.

Known three-layer reinforced concrete panel, including the outer and inner reinforced concrete layers made of heavy or light concrete, and the middle heat-insulating layer. The outer and inner reinforced concrete layers are interconnected by flexible bonds, which are made of reinforcing steels with anticorrosion coating and alloy steels (see, for example, "Technical solutions of heat-efficient outer walls of prefabricated and monolithic residential buildings" developed by NTK CENTER and approved by the Ministry of Construction of Russia from 10/14/1996, No. 18-72, M., NGGK CENTER, 1996, as well as S. M. Glikin "Progressive building envelopes of industrial buildings" M., Stroyizdat, 1990, p. 51).

The main disadvantage of the described construction is the implementation of bonds from steels with an anti-corrosion coating and alloy steels. This increases the cost of a three-layer reinforced concrete panel.

For the prototype, a three-layer reinforced concrete panel was selected, including the outer and inner reinforced concrete layers and the middle heat-insulating layer. The outer and inner reinforced concrete layers are interconnected by rigid bonds made in the form of reinforced concrete ribs (dowels) passing through a heat-insulating layer and reinforced concrete ribs placed around the entire perimeter of the panel. The latter not only play the role of a rigid connection between the outer and inner reinforced concrete layers, but also seal the space between them, protecting the heat-insulating layer from external mechanical and atmospheric influences during storage, transportation and installation of the panel. All reinforced concrete elements of the panel are made of lightweight concrete on porous aggregates (see, for example, Typical constructions, products and units of buildings and structures. ”Series 1.232.1-7.“ Prefabricated lightweight concrete panels of external walls three-layer on rigid bonds for public multi-story frame buildings ". Issue 1-1" Three-layer panels made of lightweight concrete with rigid bonds with effective insulation. "Working drawings, Part 1. Approved by the USSR State Civil Administration, order No. 209 of July 17, 85, entered into force on September 1, 85).

The three-layer reinforced concrete panel selected for the prototype does not contain flexible connections made of steel with an anti-corrosion coating and alloy steels. Moreover, its manufacturing technology is simpler than the manufacturing technology of the panel described above as an analogue. Nevertheless, the panel selected for the prototype has a number of significant drawbacks.

Firstly, reinforced concrete ribs placed around the perimeter of the panel have a thickness of 45-50 mm on the long sides of the panel and 80 mm on the short sides. Such a thickness of these ribs is due to the fact that they play the role of rigid bonds between the outer and inner reinforced concrete layers of the panel, while simultaneously sealing the space between them. But, on the other hand, reinforced concrete ribs of the specified thickness represent additional “cold bridges” and reduce the thermal properties of a three-layer reinforced concrete panel by 50% or more (depending on the size of the panel).

Secondly, the outer reinforced concrete layer of the panel is made of lightweight concrete on porous aggregates, which has reduced frost resistance and has a reduced resistance to atmospheric effects (wind, precipitation). As a result, the outer reinforced concrete layer of the panel is forced to additionally supply a protective and decorative layer, the thickness of which should be at least 15 mm.

An object of the invention is to increase the thermal properties of a three-layer reinforced concrete panel, as well as increasing its frost resistance and resistance to weathering.

The essence of the invention lies in the fact that the three-layer reinforced concrete panel, including the middle heat-insulating layer, the outer and inner reinforced concrete layers, interconnected by rigid bonds made in the form of reinforced concrete dowels, and reinforced concrete ribs placed around the perimeter of the panel, are additionally provided with at least at least two reinforced concrete dowels, which are placed on opposite ends of the panel, and reinforced concrete ribs in a section parallel to the panel layers, have a common area :

where And _p is the total area of reinforced concrete ribs in a section parallel to the panel layers, m ² ;

A - panel area, m ² ;

δ _sr.s - thickness of the middle layer of the panel, m;

- требуемое сопротивление теплопередачи,

;

- the required heat transfer resistance,

;

;λ _p - calculated coefficient of thermal conductivity of the material of the ribs,

;

δ _n.s - the thickness of the outer layer of the panel, m;

- безразмерный расчетный коэффициент;

- dimensionless design coefficient;

λ _ns - the estimated coefficient of thermal conductivity of the material of the outer layer of the panel,

δ _v.s - the thickness of the inner layer of the panel, m;

- безразмерный расчетный коэффициент;

- dimensionless design coefficient;

λ _century - the calculated coefficient of thermal conductivity of the material of the inner layer of the panel,

A _i is the area of the i-th section of the panel in a section parallel to the panel layers and passing through the middle layer, m ² ;

- безразмерный расчетный коэффициент;

- dimensionless design coefficient;

λ _i - the estimated coefficient of thermal conductivity of the material of the i-th section of the panel in a section parallel to the layers of the panel and passing through the middle layers of the panel,

m is the number of panel sections made of various materials in a section parallel to the panel layers and passing through the middle layer.

In addition, the outer reinforced concrete layer of the panel is made of heavy concrete, and the inner reinforced concrete layer is made of light or heavy concrete. Reinforced concrete ribs are made of lightweight concrete. Reinforced concrete dowels are made of heavy or light concrete. In this case, the dowels passing through the heat-insulating layer are mainly made of heavy concrete, and the dowels placed on the ends of the panel are made of light concrete.

The thermal properties of the proposed three-layer reinforced concrete panel are 50-70% (depending on the size of the panel) higher than that of the panel selected for the prototype. This effect is achieved by the fact that the constructive solution of the inventive three-layer reinforced concrete panel allows to reduce the thickness of the reinforced concrete ribs placed around the perimeter of the panel, 1.5-2.6 times, and therefore, reduce heat loss. The thermal properties of the proposed panel fully satisfy the increased requirements of SNiP 11-3-79 * "Construction Heat Engineering", which was put into effect on January 1, 2000, and in addition, they allow the outer reinforced concrete layer to be made of heavy concrete, which increases its frost resistance and resistance to weathering. As a result of this, and also due to the good presentation of the outer layer made of heavy concrete, the need for a protective and decorative layer on the front side of the panel is eliminated, which simplifies the technology of its manufacture and reduces the cost.

The invention is illustrated by drawings, where in Fig.1, shows a General view of a three-layer reinforced concrete panel with partial cuts, figure 2 is a section of a three-layer reinforced concrete panel along aa.

The three-layer reinforced concrete panel includes the outer 1 and inner 2 reinforced concrete layers and the middle heat-insulating layer 3. The outer 1 and inner 2 reinforced concrete layers are connected by rigid bonds made in the form of reinforced concrete keys 4 passing through the heat-insulating layer 3 and reinforced concrete keys 5 that are placed on opposite ends of the panel. The total number of reinforced concrete keys 4 and 5 is determined by calculation, while the number of keys 5 must be at least two. The outer 1 and inner 2 reinforced concrete layers are also connected by reinforced concrete ribs 6, which are placed around the entire perimeter of the panel and seal the space between layers 1 and 2, thereby protecting the thermal insulation layer 3 from mechanical damage and atmospheric effects during storage, transportation and installation of the panel . The total area of the reinforced concrete ribs 6 in a section parallel to the panel layers is:

where And _p is the total area of reinforced concrete ribs in a section parallel to the panel layers, m ² ;

A - panel area, m ² ;

δ _sr.s - thickness of the middle layer of the panel, m;

- требуемое сопротивление теплопередачи,

- the required heat transfer resistance,

λ _p - calculated coefficient of thermal conductivity of the material of the ribs,

δ _n.s - the thickness of the outer layer of the panel, m;

- безразмерный расчетный коэффициент;

- dimensionless design coefficient;

λ _ns - the estimated coefficient of thermal conductivity of the material of the outer layer of the panel,

δ _v.s - the thickness of the inner layer of the panel, m;

- безразмерный расчетный коэффициент;

- dimensionless design coefficient;

λ _century - the calculated coefficient of thermal conductivity of the material of the inner layer of the panel,

Ai is the area of the i-th section of the panel in a section parallel to the panel layers and passing through the middle layer, m ² ;

- безразмерный расчетный коэффициент;

- dimensionless design coefficient;

;λ _i is the calculated coefficient of thermal conductivity of the material of the i-th section of the panel in a section parallel to the layers of the panel and passing through the middle layers of the panel,

;

m is the number of panel sections made of various materials in a section parallel to the panel layers and passing through the middle layer.

Wherein:

where A _{sh. t} - the total area of reinforced concrete dowels made of heavy concrete, in cross section parallel to the layers of the panel and passing through the middle layer, m ² ;

- безразмерный расчетный коэффициент;

- dimensionless design coefficient;

λ _{W. t} - the estimated coefficient of thermal conductivity of the material of the dowels made of heavy concrete,

And _shl - the total area of reinforced concrete dowels made of lightweight concrete, in a section parallel to the panel layers and passing through the middle layer, m ² ;

- безразмерный расчетный коэффициент;

- dimensionless design coefficient;

λ _WL - the estimated coefficient of thermal conductivity of the material of the dowels made of lightweight concrete,

A _y is the area of the insulation layer in a section parallel to the panel layers and passing through the middle layer, m ² ;

- безразмерный расчетный коэффициент;

- dimensionless design coefficient;

λ _y - calculated coefficient of thermal conductivity of the insulation material,

And _ar - the area of reinforcement in a section parallel to the layers of the panel and passing through the middle layer, m ² ;

- безразмерный расчетный коэффициент;

- dimensionless design coefficient;

λ _a.r is the calculated coefficient of thermal conductivity of the reinforcement in the section parallel to the panel layers and passing through the middle layer,

The average thickness of reinforced concrete ribs is determined by the formula:

where H is the average thickness of the reinforced concrete ribs, m;

And _p is the total area of reinforced concrete ribs in a section parallel to the panel layers, m ² ;

P is the total length of all edges of the panel, m.

The thickness of the ribs 6 placed on opposite sides of the panel may be different. For example, in self-supporting reinforced concrete three-layer panels, the ribs on the short sides are usually thicker than the ribs on the long sides. However, the average thickness of all edges 6 of the panel should be equal to the calculated average thickness N.

The outer reinforced concrete layer 1 of the panel is mainly made of heavy concrete, the inner reinforced concrete layer 2 and the reinforced concrete keys are made of heavy or light concrete. In this case, the dowels 4 passing through the heat-insulating layer 3 are mainly made of heavy concrete, and the dowels 5 placed on the ends of the panel are made of light concrete.

A three-layer reinforced concrete panel is made as follows.

Reinforcement (not shown) is laid at the bottom of the mold and the outer layer 1 is concreted with heavy concrete. The middle heat-insulating layer 3 is laid and holes for reinforced concrete keys are cut into it. The reinforcement (not shown) of the keys 4, keys 5 and reinforced concrete ribs 6 is installed, after which the fittings (not shown) of the inner layer 2 are laid. The reinforcement of the keys 4, 5 and the reinforcement of the ribs 6 is attached to the reinforcement of the inner layer 2. The keys are concreted with heavy concrete 4, and then the simultaneous concreting with lightweight concrete keys 5, ribs 6 and the inner layer 2.

In cases where the inner layer 2 is made of heavy concrete, then the concrete keys 5 and ribs 6 are first concreted with light concrete, and then with the heavy concrete of the inner layer 2.

Claims (6)

1. Three-layer reinforced concrete panel, including the middle heat-insulating layer, the outer and inner reinforced concrete layers interconnected by hard bonds made in the form of reinforced concrete dowels passing through the heat-insulating layer, and reinforced concrete ribs placed around the perimeter of the panel, characterized in that it additionally equipped with at least two reinforced concrete dowels, which are placed on opposite ends of the panel, and reinforced concrete ribs in a section parallel to the layers Nelly, have a total area:

And _p is the total area of reinforced concrete ribs in a section parallel to the panel layers, m ² ; A - panel area, m; δ _sr - the thickness of the middle layer of the panel, m;

- the required heat transfer resistance,

λ _p - the estimated coefficient of thermal conductivity of the material of the ribs,

δ _n.s. - thickness of the outer layer of the panel, m;

- dimensionless design coefficient; λ _n.s. - the estimated coefficient of thermal conductivity of the material of the outer layer of the panel,

δ _v.s. - the thickness of the inner layer of the panel, m;

- dimensionless design coefficient; λ _r.s. - the estimated coefficient of thermal conductivity of the material of the inner layer of the panel,

And _i is the area of the i-th section of the panel in the section parallel to the panel layers and passing through the middle layer, m ² ;

- dimensionless design coefficient; λ _i is the calculated coefficient of thermal conductivity of the material of the i-th section of the panel in a section parallel to the layers of the panel and passing through the middle layer of the panel,

m is the number of panel sections made of various materials in a section parallel to the panel layers and passing through the middle layer. 2. The panel according to claim 1, characterized in that the outer reinforced concrete layer is made of heavy concrete. 3. The panel according to claim 1, characterized in that the inner reinforced concrete layer is made of light or heavy concrete. 4. The panel according to claim 1, characterized in that the reinforced concrete ribs are made of lightweight concrete. 5. The panel according to claim 1, characterized in that the reinforced concrete dowels are made of heavy or light concrete. 6. The panel according to claim 5, characterized in that the reinforced concrete dowels passing through the heat-insulating layer are made of heavy concrete, and the dowels placed on the ends of the panel are made of light concrete.

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