RU2192522C2 - Process of manufacture of monolithic floor panels and gear for its realization - Google Patents

Abstract

FIELD: construction industry, erection of residential and public buildings from monolithic reinforced concrete. SUBSTANCE: process of manufacture of monolithic floor panels consists in mounting of hollow- forming members in parallel to one axis of building on form of floor panel, in filling of space between hollow-forming members with light-weight concrete and in its curing. Then hollow-forming members are removed and reinforcing cages are placed in formed cavities which are later filled with heavy-weight concrete. Hollow-forming members come in the form of additional T-shaped form which shelf is hollow and column comprises two supports on joints having shape of dovetail and is fitted with drive for folding. Joints of column are located inside hollow shelf. EFFECT: enhanced bearing capacity of floor, increased heat and sound insulation properties. 5 cl, 5 dwg

Description

 The invention relates to the field of construction and can be used in the construction of residential and public buildings from monolithic reinforced concrete.

 A known method of forming monolithic walls and ceilings according to the patent of the Russian Federation 2062774, class. E 04 G 9/10, 1996, including the installation of formwork, the installation of clamps, reinforcement and heating rods and concrete construction, before installing the clamps they form through channels through which heating rods are passed during installation, and the heating rods are placed in the ceiling between the lower working and upper supporting reinforcement, and in the joints - between the clamps located vertically one above the other.

 The disadvantage of this method is the complexity of execution and design.

 Known closer to the claimed method of construction of monolithic buildings according to the patent of the Russian Federation 2079618, cl. E 04 G 11/20, 1997, adopted by the applicant for the prototype. It includes the manufacture of support crowns broken down into grips, installation of formwork, placement of reinforcement, concreting, curing of concrete in the formwork before hardening, dismantling of the formwork and repeating the technological cycle. Before the formwork is installed, scaffolds are mounted around the entire perimeter of the building’s erected floor, the embedded parts are placed in the form of concrete crosses made separately according to the thickness of the walls and the ceiling height, and communication networks are installed, and after the formwork is installed in the form of half-tunnels, the floor reinforcement is placed and the half-tunnels are set to the design position vertically and horizontally, while concreting the ceiling is carried out after concreting the walls, and after dismantling the formwork on the previous grab, it is moved and installed on the subsequent capture.

 The disadvantage of this method is increased labor costs in the production of work.

 A known method of floor-by-floor erection of a building from reinforced concrete and formwork for its implementation according to the patent of the Russian Federation 2059053, class. E 04 G 11/02, 1996, adopted by the applicant for the prototype device. It includes shuttering boards of walls and floors and connecting angular supporting elements, shuttering boards of walls are connected to shuttering boards of slabs and mounted with the possibility of rotation in the direction to the inner surface of shuttering boards of overlap with the formation of shuttering package. In the shuttering panel for the passage of the cable of the mounting device for folding the panels, and the corner elements by means of internal connections formed void-forming elements.

 The disadvantages of this device are the complexity of its installation and dismantling, and hence the increased labor costs.

 An object of the invention is to increase the bearing capacity of the floor, reduce its own weight, increase heat and sound insulation properties, use effective building materials, which can significantly reduce the labor costs and construction time of the object, reduce the material consumption of both the structures themselves and their constituent elements. To reduce the consumption of reinforcement and the cost of construction of the facility, to reduce the range of floor elements.

 The problem is solved in that in the proposed method for the manufacture of a monolithic floor panel on the formwork of the floor panel, void-forming elements are installed parallel to one of the axes of the building, and the space between the void-forming elements is filled with light concrete, maintained until the formwork strength is removed, then the void-forming elements are removed and placed in the voids formed reinforcing cages, and then they are filled with heavy concrete.

 In addition, reinforced meshes are laid on laid lightweight concrete, and then the formed voids and the surface of the floor panel are filled with heavy concrete to a predetermined panel thickness.

 In the device for the manufacture of a monolithic overlapping panel, the void-forming elements are made in the form of an additional T-shaped formwork, the shelf of which is hollow, and the rack is made of two supports on hinges in the form of a “dovetail” and is equipped with a drive for folding, and the rack hinges are placed inside the hollow shelves.

 In addition, the drive for folding the rack is placed inside the hollow shelf and is made in the form, for example, of a flexible connection with a stop and an external sling loop.

 In addition, the additional formwork T - shaped forms a closed tight circuit.

In FIG. 1 shows an additional formwork in the working position, placed on the formwork of the floor panel;
figure 2 - additional formwork when folded;
figure 3 - panel overlap;
in FIG. 4 panel overlap increased bearing capacity using reinforcing mesh;
figure 5 - placement of additional formwork on the main formwork, top view.

 A device for the manufacture of a floor panel consists of a main formwork 1 and an additional formwork 2, which is installed on the main one and is used as a void forming element. Additional formwork 2 is made of a T-shaped. Shelf 3 is hollow, and the rack is made of two supports 4 on hinges 5, which in the working position are installed in the form of a "dovetail". Moreover, the hinges 5 are placed inside the hollow shelf 3 with the aim of sheltering them from contact with concrete. The rack, namely the supports 4, are equipped with a drive 6 for folding in the inoperative position. The drive 6 is placed inside the hollow shelf 3 and is made in the form of a flexible connection, for example, a cable, on which an emphasis 7 is fixed on the inner side of the shelf 3, and a sling loop 8 is fixed on the outer, outer side of the shelf 3 to fold the rack and transfer the additional formwork 2, and The dovetail of the rack is designed in such a way that it is hermetically mated with the hollow shelf 3 in the working position, thereby not only protecting the internal cavity of the hollow shelf 3 from the ingress of concrete, mortar, but closing the circuit when voids are formed for further installation into it concrete.

 The manufacture of a monolithic floor panel is as follows.

 The main formwork 1 of the floor panel is installed, and then hollow-forming elements are installed on it, which are made in the form of an additional formwork 2. The hollow-forming elements are installed parallel to one of the axes of the building, and the space between them is filled with lightweight concrete 9, withstand it until the formwork strength is maintained. After this, the void forming elements are removed, namely the additional formwork 2, and reinforcing frames 10 are placed in the formed voids and filled with heavy concrete 11. The floor panel is ready.

 But in some cases, increased load-bearing capacity of the panel is required, then reinforcing mesh 12 is laid on lightweight concrete already laid, and then the voids formed and the surface of the floor panel are filled with heavy concrete 11 to a given panel thickness.

 In this way, it is possible to produce ceilings with consoles, both frame buildings, and with load-bearing walls 13.

 Using the proposed technical solution allows the construction of buildings and structures for various purposes with the required bearing capacity, allowing construction to be carried out with the lowest labor costs, reducing the range of floor elements, thereby reducing the cost of construction of the facility, and, at the same time, improving the heat and sound insulation properties of the floor.

Claims (5)

 1. A method of manufacturing a monolithic floor panel, including the installation of formwork, laying reinforcement, concreting, curing of concrete in the formwork until the formwork strength is set, dismantling the formwork, characterized in that the formwork elements are installed on the formwork of the overlap parallel to one of the axes of the building, and the space between the hollow the elements are filled with lightweight concrete, maintained until the formwork strength is reached, then the void forming elements are removed and the reinforcing voids are placed frames, and then they are filled with heavy concrete.  2. The method according to p. 1, characterized in that reinforced meshes are laid on laid lightweight concrete, and then the voids formed and the surface of the floor panel are filled with heavy concrete to a given panel thickness.  3. A device for the manufacture of a monolithic floor panel containing formwork, void forming elements, characterized in that the void forming elements are made in the form of an additional T-shaped formwork, the shelf of which is hollow, and the rack is made of two supports on hinges in the form of a "dovetail" and is equipped with a drive for folding, and the hinges of the rack are placed inside the hollow shelf.  4. The device according to p. 3, characterized in that the drive for folding the rack is placed inside the hollow shelf and is made in the form, for example, of a flexible connection with a stop and an external sling loop.  5. The device according to p. 3, characterized in that the additional T-shaped formwork forms a closed airtight circuit.

Images