RU2752191C1 - Unit for forming curvilinear walls - Google Patents

Abstract

FIELD: building.SUBSTANCE: invention relates to the field of manufacturing reinforced concrete products, namely to cassette units for manufacturing panels of prefabricated reinforced concrete multistoried buildings. The unit for forming curvilinear walls consists of several vertical heat shields made in form of spatial elements, curvilinear in plan, with an outer convex surface and an inner concave surface consisting of frames, lined with steel sheet on all sides, the combination whereof defines a forming cavity. A flat metal sheet installed on a plate serves as the support and the lower edge of the elements therein. Installed on the outer convex side of each spatial element are vibrators, locks for interconnecting adjacent spatial elements, and lugs for gripping the spatial elements during movement on the metal sheet using hydraulic jacks and rods, alternately connected with the heat shields for assembly and form removal. Side board elements are attached on the inner concave side of the spatial element, and a heater is installed in each spatial element.EFFECT: increased efficiency of forming vertical walls, curvilinear in plan, simplified design of cassettes and reduced metal consumption thereof.1 cl, 3 dwg

Description

The invention relates to the field of manufacturing reinforced concrete products, namely to cassette installations for the manufacture of panels of precast reinforced concrete multi-storey buildings.

Known cassette installations for forming reinforced concrete panels (1), consisting of a support frame, of vertical rigid heat shields consisting of a frame sheathed on both sides with molding surfaces of sheet steel, forming a spatial element with a cavity for a coolant, with side and lower side elements of the molded products, from flat flexible dividing shields with vibrators fixed at the ends, located between the heat shields, and all shields rest on the installation frame through consoles on rollers with the ability to move, with a mechanism for moving the shields in the form of rods for assembling and stripping products, the difference is that that the vertical heat shields are made in the form of a curvilinear spatial element, in addition to the fact that the lower side element and the support of the heat shields are a flat sheet installed on the foundation slab

Known cassette installations for molding curvilinear reinforced concrete products (2) and panels of large-panel buildings (1) of the French company KOMYU, installation of Giprostroyindustria, NIAT, all of them consist of a frame, vertical thermal and dividing panels with vibrators at the ends, assembly mechanism, stripping and movement shields. Such installations are widespread and are produced by many machine-building enterprises in the construction industry.

The closest technical solution in relation to the declared solution is NIATA cassette installations (page 1, page 41), where the cassette installation is made with a frame, vertical heat and separation shields and with a hydraulic system for assembling cassettes and stripping products.

This technical solution was taken as a prototype. It is characterized by the fact that the cassette consists of a support frame, of vertical rigid heat shields consisting of a frame sheathed on both sides with molding surfaces of sheet steel, forming a spatial element with a cavity for the coolant, with side and lower side elements of the molded product, of flat flexible dividing shields with vibrators fixed at the ends, located between the heat shields, and all shields are supported on the installation frame through consoles on rollers with the ability to move, with a mechanism for moving the shields in the form of rods, a hydraulic system for assembling and stripping products.

The disadvantage of this design is that it is designed to mold only flat panels. At the same time, during molding, due to the lack of density of the molding cavities, the concrete mixture is often spilled onto the floor under the installation and requires mechanisms for cleaning it. Such installations, in order to ensure rigidity and accurate geometry, require the use of thick steel sheets, which leads to a large metal consumption of installations.

The aim of the invention is to create cassette installations for forming curved vertical walls in plan, simplify the design of cassettes and reduce their metal consumption.

The essence of the invention is that the support and the lower edge of the elements is a flat metal sheet installed on the plate, while vibrators are installed on the outer convex side of each spatial element, locks for connecting adjacent spatial elements to each other and lugs for gripping when moving spatial elements along the metal sheet with the help of hydraulic jacks and rods, alternately connected to heat shields for assembly and stripping, on the inner concave side of the spatial element, the side elements are fixed, and a heater is installed in each spatial element.

The essence of the invention is disclosed in the drawings, where it is presented:

figure 1 - General view of the installation for molding curved walls in plan

figure 2 is a plan of the installation for molding curved walls in plan

Fig. 3 is a curvilinear spatial element of forms

Installation for molding curvilinear walls in plan (figure 1, figure 2) consists of identical spatial elements 1, the combination of which forms a molding cavity 2. The number of spatial elements 1 depends on the required number of products. Spatial elements of forms 1 are installed on a metal sheet 3, which is installed on a foundation slab 4. Spatial elements 1 are moved along the sheet for assembly and stripping using hydraulic jacks 5 and rods 6, alternately connected to spatial elements 1. For maintenance of the installation and supply of concrete mixture with the help of a concrete paver connected to a concrete pump, a trestle 7 with rails 8 of a concrete paver serves.

The spatial element 1 itself, which, when at least two elements are combined, serves as a form for the product, is made (Fig. 3) in the form of a frame sheathed on all sides with a steel sheet. Concave sheet 9 is the outer side of the products, convex 10 is the inner side of the products. The upper plane and the lower 11 are also sheathed with sheet steel 11. The upper 11 surface is equipped with a hatch 12 for servicing the heaters installed in the spatial element, for example, nichrome. In this case, a heat carrier can be used as a heater.

On the flexible continuation of the sheet 10, vibrators 13 are installed, locks 14 for connecting adjacent spatial elements to each other and lugs 15 for gripping when the spatial element is moved by the hydraulic system. Side board elements 16 are fixed on sheets 9.

The installation works as follows. The hydraulic jacks 5 alternately displaces the spatial elements 1 along the sheet 3, opening the molding cavity. The surfaces of sheets 9 and 10 on adjacent elements are cleaned, lubricated, and the reinforcing cage of the molded product is installed. Further, the hydraulic system 5 attracts one of the elements 1 and the screw locks are closed between them. A similar operation continues for all elements. Then, concrete mixture is fed into the molding cavities 2 by means of a concrete pump and vibrators 13 are switched on. In addition, deep vibrators are used. It is possible to install vibrators inside a spatial element in special heat-insulated chambers. The hydrostatic pressure is held back by the high spatial stiffness of the elements and locks. After heat treatment, the hydraulic system 5 also alternately moves the elements 1 and the product rises and moves to the warehouse with an overhead crane. The movement of the spatial element is carried out along the lubricated surface of sheet 3, which serves as the lower side of the forms, therefore, there are no smudges of the concrete mixture. If necessary, the production elements 1 can be moved by an overhead crane.

The spatial elements themselves are made of a relatively light frame and sheathed with thin sheets of steel, so their metal consumption is minimal. The installation has no frame and no service platforms, since they are the top of the spatial elements. All this leads to the fact that the metal consumption of the equipment is significantly less compared to conventional cassette installations. The installation does not take up large areas in the production building, since there are no frames and fewer service areas. There is no system for cleaning concrete mixture under the cassettes. The installation is designed for molding products of special series of multi-storey buildings.

Literature

1. Mkrtumyan A.K. Manufacturing technology of parts for large-panel houses in cassettes. Gosstroyizdat, Moscow, 1961

2. SU 160088 A1, cl. B28, 1964.

Claims (1)

Installation for molding curved walls, consisting of several vertical heat shields made in the form of curved in terms of spatial elements with external convex and internal concave surfaces, consisting of frames, sheathed on all sides with steel sheet, the combination of which forms a molding cavity, characterized in that the support and the lower edge of the elements is a flat metal sheet installed on the plate, while vibrators are installed on the outer convex side of each spatial element, locks for connecting adjacent spatial elements to each other and lugs for gripping when moving spatial elements along the metal sheet using hydraulic jacks and rods , alternately connected to the heat shields for assembly and stripping, on the inner concave side of the spatial element are fixed lateral side elements, and a heater is installed in each spatial element.

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