RU2780044C1 - Design of a multi-storey building - Google Patents

Abstract

FIELD: multi-storey residential and public buildings.

SUBSTANCE: invention relates to the field of multi-storey residential and public buildings made of precast concrete. The design of a multi-storey building consists of prefabricated reinforced concrete elements in the form of wall panels, floor slabs and hinged load-bearing or self-supporting external walls connected to each other by laying mortar in horizontal joints. At the same time, in the prefabricated elements in the zone of their contact with the solution near the surface, heating wires are laid along the gasket from the solution.

EFFECT: accelerating the installation process of large-panel buildings in winter conditions.

1 cl, 4 dwg

Description

The invention relates to the field of construction, in particular to the field of construction of multi-storey residential and public buildings from precast concrete.

The structure of a multi-storey building, consisting of prefabricated reinforced concrete elements in the form of wall panels, floor slabs and hinged load-bearing or self-supporting external walls, connected to each other by laying mortar in horizontal joints,

the difference lies in the fact that in the prefabricated elements in the zone of their contact with the solution near the surface, heating wires are laid along the gasket from the solution

Known designs of large-panel buildings from prefabricated reinforced concrete elements of walls and ceilings (1 Sir. 198), in which the internal load-bearing walls rest on each other through floor slabs by installing the slab through the mortar layer on the upper end of the lower wall panel, and the lower end of the upper wall panel through the mortar layer already rests on the upper surface of the floor slab, forming the so-called "platform" joint. The thickness of the mortar layer reaches two centimeters, and in some developments, with the precise manufacture of prefabricated elements, only five millimeters.

The disadvantage of such a construction of the building and such a joint of large-panel buildings is that the installation of buildings is accompanied by wet processes and in winter conditions, the strength gain of the joint is difficult in severe frosts, even the use of antifreeze additives does not always allow high-quality and reliable installation of buildings.

The closest technical solution is the construction of large-panel buildings from prefabricated reinforced concrete elements of walls and floors (1 Sir. 198), in which the internal load-bearing walls rest on each other through floor slabs by installing the slab through the mortar layer on the upper end of the lower wall panel, and the lower end the upper wall panel through the mortar layer rests on the upper surface of the floor slab, forming the so-called "platform" joint. The mortar joint levels the deviations of the geometric dimensions of the structure, including the allowable tolerances for the deviation of these dimensions.

The aim of the invention is to create a structure of a multi-storey building with platform joints, performed without antifreeze additives or with their limited use by heating the mortar joint. In this case, the design of the joint, i.e. the presence of a cement-sand mortar eliminates the allowable tolerances of the geometric dimensions of prefabricated reinforced concrete walls.

This allows you to speed up the process of installation of large-panel buildings, simplifies installation in winter conditions.

The essence of the invention is that heating wires are laid in the prefabricated elements in the zone of their contact with the solution near the surface along the gasket from the solution.

The essence of the invention is disclosed in the drawings, where it is shown: in Fig. 1 - general view of a fragment of a multi-storey building with prefabricated load-bearing internal walls and floor slabs

in fig. 2 - cross section of a platform joint with prefabricated load-bearing internal walls and floor slabs with heating wires

in fig. 3 - the location of the heating wires in the wall in plan

in fig. 4 - output of heating wires outside the panel

In a multi-storey large-panel building, internal walls are usually load-bearing, which rest on each other through floor slabs. The main bearing node is a "platform" joint.

A multi-storey large-panel building on the example of a fragment (Fig. 1) consists of prefabricated reinforced concrete wall panels 1 stacked on top of each other through a floor slab 2 with a cement-sand mortar layer 3.

The bearing wall panel 1 (Fig. 2) on the lower and upper end surfaces is most often equipped with a thin cement-sand mortar layer 3. When installing wall panels 1 and floor slabs 2, layers 3 are made of a liquid cement-sand mortar. In walls 1, in the immediate vicinity of layers 3, i.e. at the surface of the upper end and the lower end, heating wires 4 are laid in advance at the factory, which may not have a protective layer. Heating wires 5 can be located not only in the walls 1, but also in the floor slabs 2 at the surface in contact with the mortar joint 3 during installation. In FIG. 3 shows the wires 4 in the wall 1 in plan they are closed and have bent insulated outlets 6 and bare 7. During molding, the outlets 6 and 7 are hidden in the concrete body in a recess 8 (Fig. 4), which can be made in the form of a box or, for example, from polyurethane foam or other sprayed material.

The construction of such a joint of a large-panel building works as follows. Wall elements 1 of the lower floor are mounted, a liquid mortar joint 3 is laid on their upper end, then plates 2 are installed on the mortar joint, a liquid mortar joint 3 is again laid on them and then the upper wall panel 1. Next, the ends 6 and 7 of heating electric are pulled out of the recess 8 wires 4 or 5. To accelerate the hardening of solution 3, an electric current is supplied to the uninsulated ends of wires 7 through a transformer and wires 4 and 5 are heated. Heat is transferred to the mortar joint 3 and the set of strength of the solution 3 of the joint is intensified. This is especially important in winter conditions, when antifreeze additives do not always help. Moreover, in a day the solution will gain design strength and installation can be carried out at an accelerated pace.

Wires 4 or 5 are installed during the formation of the wall panels 1 or floors 2 themselves. They are insulated and it is almost impossible to damage them. Thus, the products are delivered to the assembly site already with built-in heaters. The effect of such a technical solution is especially noticeable if the products do not have sufficient accuracy and the thickness of the mortar joint reaches 20 mm, and sometimes more.

The installation of heating wires in the prefabricated elements themselves in the zone of the junction of prefabricated elements with a mortar joint is possible not only in the panel version of buildings, but also in the volumetric block design, when the wires are laid along the perimeter of the walls from below or above. In this case, the very technology of connecting wires to the transformer is simplified, since the mounting elements are larger. If the walls are curved, then the heating wires can be installed in plan along a curve in the area where the curved wall meets the mortar. It is also possible to warm up concrete or mortar of vertical joints of reinforced concrete structures. In this case, for example, at wall elements, the heating wires are installed vertically before forming the products.

In all cases, the solution or concrete of the joint is heated by electrical heating of the concrete around the wires and directly to the solution, if the wires are close to the supporting surfaces of the products. This makes it possible to refuse from antifreeze additives, significantly speed up the process of hardening of the joint solution and speed up the installation of the upper floors of the building.

LITERATURE

1. Drozdov P.Φ. Sebekin I.M. Design of large-panel buildings. Publishing house literature on construction Moscow 1967

2. Dykhovichny Yu.A. Design and calculation of residential and public buildings with high number of storeys Publishing house of literature on construction Moscow 1970 p. 73.

Claims (1)

The structure of a multi-storey building, consisting of prefabricated reinforced concrete elements in the form of wall panels, floor slabs and hinged load-bearing or self-supporting external walls connected to each other by laying mortar in horizontal joints, characterized in that in prefabricated elements in the zone of their contact with mortar heating wires are laid near the surface along the mortar pad.

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