RU5818U1 - VOLUME-CUTTING TUNNEL FORMWORK - Google Patents

Abstract

1. Volumetric-permissible tunnel formwork for the construction of monolithic buildings, including prefabricated vertical, horizontal and end formwork, forming when they are joined together, L-shaped half-tunnels and half-tunnels with an end shield, and in a paired position - a tunnel, opening frames and plugs, elements fastening the boards in joint with each other in the form of clamping bolt joints, struts, crossbars and stiffeners, forming a formwork stabilization system, screw jacks and rollers for moving the formwork, excellent which consists in the fact that the opening and plugs are made in cross section in the form of a channel on the free side along its length overlapped by a sheet strip with an inlet on both sides and fixed on it, while a support for bracing is installed on the edge of the shield, and a persistent foot is strengthened at the base of the shield .2. The formwork according to claim 1, characterized in that the stiffeners are made of a bent channel with a pitch of 300 mm. The formwork according to claim 1, characterized in that the heel of the screw jack is made of welded halves, and the screw of the jack is increased in length. The formwork according to claim 1, characterized in that the wave carving is made on the coupling bolts.

Description

MPK E 04G 11/22

VOLUME-CUTTING TUNNEL FORMWORK

The utility model relates to construction and can be used for the construction of residential and public monolithic buildings using volumetric rearrangement of tunnel formwork.

From the patent literature there is known the design of tunnel formwork for the construction of monolithic buildings, including vertical and horizontal formwork panels, connected to each other by a hinge / RF Patent N 2000410, cl. E04G 11/22, publ. 1993 /

From the technical literature, the closest analogue is known to the construction of volumetric tunnel tunnel formwork for the erection of monolithic buildings, including type-setting formwork L-shaped panels and L-shaped panels with an end, forming a tunnel in a paired position, frames of opening holes and plugs, elements for attaching panels to the joint each other in the form of cross members and stiffeners, forming stabilization formwork systems, screw jacks and rollers.

(see the book by O. N. Schmitt Formwork for monolithic concrete, Moscow, Stroyizdat, 1987, Translated from German by L. M. Eingorn).

Utility model utility

The interchangeable tunnel formwork for the construction of residential and public monolithic buildings contains prefabricated formwork vertical, horizontal and end shields, which, when connected together, L-shaped half-tunnels and half-tunnels with an end shield, and in 3 paired position form a tunnel; frames of opening holes and plugs, fastening elements for shields in joint with each other in the form of tightening bolted joints, screw jacks and rollers. The struts, cross members and stiffeners form a formwork stabilization system. Cross-sectional projectors and plugs are made in the form of a channel on the free side along its length overlapped by a sheet strip with an inlet on both sides and mounted on. channel. On the edges of the shield are installed

emphasis FOR BRACKS, and at the base are fixed stop paws. Stiffeners are made of a bent channel with a step of 300 mm. The fifth of the screw jack is made of welded halves, and the screw of the jack is increased in length. A wave thread is made on the coupling bolts.

The achieved technical result of the claimed utility model is to simplify and facilitate the installation and dismantling of a volumetric tunnel tunnel formwork, improved concreting quality by reducing concrete sagging at the joints and reducing formwork deformation. The interchangeable tunnel formwork allows concrete to be laid at a speed of 4MB hour with a concrete mix density of 24 kn / m3.

The utility model is illustrated by drawings, where:

FIG. 1 - L-shaped half tunnels with an end shield .;

FIG. 2 - General view of the tunnel formwork assembly;

FIG. 3 - Design of apertures and plugs;

FIG. 4 - The design of the support bracket for strut on the edge of the shield;

FIG. 5 - persistent foot in the base of the shield;

FIG. 6 - elongated jack screw with a fifth of welded halves.

The interchangeable tunnel formwork is a set of shaping equipment and technological equipment. The form-forming equipment of the formwork includes tunnels and formwork panels of external walls, sides of the ends of walls and floors, the tunnel is formed from two opposing floor tunnels 1 and 2 of the left and right (see Fig. 1) by connecting their horizontal 3, vertical 4 and end 5 panels ( see Fig. 2) using quick-release locks. A half-tunnel is a L-shaped formwork element, consisting of a row docked in length with the help of standardized docking units and an end 5 shield, which is an integral assembly unit. Its installation in concrete premises, concreting, formwork and transfer to the next technological capture is carried out only in assembled form. L-shaped half-tunnel is a formative spatial

an element consisting of unified vertical 4 and horizontal 3 shields connected at an angle of 90 and a stabilization system. System

stabilization includes racks 6, struts 7 and horizontal braces 8 (see Fig. 2), providing spatial stability, geometric immutability of the forming elements and the possibility of regLeasing their position. The L-forming half-tunnel is equipped with wheels -9 for movement, adjusting screw jacks 10 (see Fig. 6) and

- 7 foot (see Fig. 5) to stop when rolling out tunnels. Technological equipment includes apertures 12 (see Fig. 3) of walls and ceilings, plugs, scaffolds, traverses, racks, inserts, etc.

The aperture 12 is a special formwork element, which is used to shape openings (windows, doors, niches) in monolithic building structures. The aperture 12 is installed and fixed in the design position before mounting the formwork panels on the half-tunnel.

The interchangeable tunnel formwork serves for the simultaneous formwork and dismantling of the walls and floors of the room. These are three-dimensional formwork, having the shape of a tunnel and made so that there is no need for plastering the concrete surface.

The very principle of using formwork G-shaped half-tunnels allows the use of permanent fastening of roof slabs with racks.

After a night of drying, the L-crawling tunnels are stripped. At low temperatures, a heating system is installed in each span (not shown in the drawings). Simultaneously with the stripping of the finished phase, formwork of a new phase is carried out.

The formwork is installed quickly, since the marks determining the location of each wall were cast along with the slab. These marks determine the installation location of the next sub-section, precisely pinpoint the location of the holes and simplify aiming at. level. The fittings and the system of channels (pipelines) are laid as the L-shaped half tunnels are installed. In the middle of the day, the cycle ends with concreting of walls, ceilings and marks.

When erecting buildings as a whole using the claimed volumetric-permissible tunnel formwork, a technological scheme of tunnel permutation was used. Roll-out and hinged scaffolds are installed around the entire perimeter of the floor of the building, which allows the dismantled tunnel to be immediately installed in a new place (the next grab).

Thanks to the technology used, they refused to concreting staircases with half-floors, and introduced prefabricated elements of stairs, which made it possible to abandon additional expensive equipment and accelerated installation.

Formwork is applicable for the erection of buildings with the following design features with the following specifications:

- width of concrete premises, in axes, m - 3.3; 3.6; 4.4; 4,5

- depth of concrete premises, in axes, m - from 3.0 to 7.8

- thickness of concreted monolithic walls, cm - 16 - 20

- thickness of concreted monolithic ceilings, cm - 14-16

Formwork allows the construction of monolithic and prefabricated monolithic residential buildings with a height of up to 25 floors and allows concreting walls and ceilings in a single technological cycle, except for the front wall.

The outer walls of the main facades can be made of various piece wall materials, prefabricated curtain panels or stained-glass windows, while the architectural solution has unlimited possibilities.

The construction of facades is carried out in a separate technological cycle with a lag of 1-2 floors.

Claims (4)

1. Volumetric-permissible tunnel formwork for the construction of monolithic buildings, including prefabricated formwork vertical, horizontal and end shields, forming when connecting with each other, L-shaped half tunnels and half tunnels with an end shield, and in paired position - a tunnel, openings and caps, elements fastening the boards in joint with each other in the form of clamping bolt joints, struts, crossbars and stiffeners, forming a formwork stabilization system, screw jacks and rollers for moving the formwork, excellent which consists in the fact that the opening and plugs are made in cross section in the form of a channel on the free side along its length covered by a sheet strip with an inlet on both sides and fixed on it, while an emphasis for bracing is installed on the edge of the shield, and a persistent foot is fixed at the base of the shield .  2. The formwork according to claim 1, characterized in that the stiffeners are made of a bent channel with a pitch of 300 mm.  3. The formwork according to claim 1, characterized in that the heel of the screw jack is made of welded halves, and the jack screw is increased in length.  4. The formwork according to claim 1, characterized in that the wave carving is made on the coupling bolts.