LT5672B - Fligth of stairs and method of construction thereof - Google Patents

Abstract

The present invention relates essentially to the construction industry, specifically to the production of flight of stairs, the main load-carrying structure of the stairs. The flight of stairs comprises frame, treads, and staircases. The frame is built out of following components: out of stay-in-place metal formworks; out of stay-in-place metal formworks including concrete; out of stay-in-place metal formworks including reinforcement and concrete; out of one external stay-in-place metal formwork including reinforcement and concrete; out of external removable metal formworks including reinforcement and concrete; out of external removable and internal stay-in-place metal formworks including reinforcement and concrete; out of external and internal stay-in-place metal formworks including reinforcement and concrete; out of internal stay-in-place metal formworks including reinforcement and concrete. For the production of the flight of stairs, formworks are used. For the production of the frame, removable

Description

The invention relates to the construction industry, specifically to the main load-bearing structure of stairs, the manufacture of stairways.

Known stairways use wooden, metal and reinforced concrete beams.

For the production of reinforced concrete staircases, wooden formwork is used to obtain the shape of the structure: wooden boards, beams, particle boards, pressed paper. Stairways made of metal profiles have a straight or angular shape, since metal profiles of a larger geometric shape cannot be rolled to obtain sleek staircase shapes.

(SU1765327,1990-11-12).

The disadvantage of the known method of manufacturing a reinforced concrete stairway is that the formwork is installed very long. It is virtually impossible to get a sleek and sleek stairway shape using boards or hardboard. When making a curved stairway in space, the wooden part of the stairway has an angled outer part and loses its correct geometric shape. The angularity of a space-curved stairway made of wooden formwork has to be compensated with very high labor and material costs. The load-bearing capacity of known reinforced concrete staircases has two components: concrete and reinforcement, which means that the bulky stairway has a very large cross-section. When the stairway is very large in cross-section and very long, the structure is very heavy and visually very large, such stairway loses its gracefulness and carries heavy loads to the base.

The object of the invention is to provide the main structure of stairs, stairway.

Produce stairway with cheap materials and low labor costs. Shorten the production and installation process. Reduce staircase cross-section and structural weight. Get lightweight, sleek, sleek and regular stairway geometry and spatiality at very low labor costs. Increase the carrying capacity of the stairway without increasing its cross-section and weight. Adapt stairway construction to any application and operate it under any harsh and aggressive operating conditions. Achieve maximum durability of the stairway during operation.

The essence of the invention is that the frame of a stairway consisting of a frame, steps, staircases consists of: remnant metal decking; of metal formwork with concrete; of metal formwork with reinforcement and concrete; from one outer permanent metal formwork with reinforcement and concrete; removable metal formwork with external reinforcement and concrete; removable and internal removable metal formwork with reinforcement and concrete; external and internal residual metal decking with reinforcement and concrete; of internal remnant metal formwork with reinforcement and concrete.

Uses formwork for stairway production. It assembles removable metal formwork for the frame production, reinforces, reinforces the concrete mixture, hardens the concrete, removes the aforementioned metal formwork. For the production of frames, removable and / or removable inner and / or outer metal formwork is assembled, the reinforcement is filled with concrete mix, the concrete hardens, removes removable metal formwork, leaves remnant internal and / or external metal formwork.

The following are examples of stairway construction which are described in the drawings 10, in which:

FIG. 1 (a) - (d) - Stairway with a frame consisting of non-reinforcing and concrete-free metal laying:

(a) - perspective view; (b) - top view; (c) - side view; (d) transverse section A;

FIG. 2 (a) - (d) - Stairway with a frame made of non-reinforcing, non-reinforcing, metal flooring:

(a) - perspective view; (b) - top view; c) - longitudinal section B; d) - cross section C;

FIG. 3 (a-d) - Stairway with a frame made of remnant metal formwork with 20 reinforcements and concrete:

(a) - perspective view; (b) - top view; c) - longitudinal section E; (d) transverse section D;

FIG. 4 (a-d) - Stairway with a frame made of removable metal formwork with reinforcement and concrete:

(a) - perspective view; (b) - top view; c) - longitudinal section G; (d) transverse section F;

FIG. 5 (a-d) - Stairway with a frame consisting of removable metal formwork with one residual metal formwork with reinforcement and concrete:

(a) - perspective view; (b) - top view; c) - longitudinal section I; d) 30 cross section H;

FIG. 6 (a-d) - Stairway with a frame consisting of external permanent or removable metal formwork and internal permanent metal formwork with reinforcement and concrete:

(a) - perspective view; (b) - top view; c) - longitudinal section K; d) Transverse section J.

FIG. l (a-d) depicts a stairway with a frame made of residual metal formwork, without reinforcement and without concrete. In this construction, only remnant metal formwork is produced and installed (1). The load-bearing capacity of a stairway depends only on the residual metal formwork (1) of the load-bearing component, depending on its purpose, length and cross-section, loads and other effects. FIG. 1 (a-d) illustrates the structure of the stairway shown in FIG. 2 (a-d) - FIG. 6 (a-d) stairway structures, are lightweight construction and used in lightweight structures (base and walls of lightweight construction, wooden overlays).

FIG. Fig. 2 (a-d) shows a stairway with a frame made of remnant metal formwork, without reinforcement, with concrete. When metal formwork (1) is installed in this structure, the entire stairway shall be filled with a mixture of concrete of appropriate density, structure and class, taking into account the purpose of the structure, staircase length and cross section, loads and other effects. The load-bearing capacity of this structure depends on two load-bearing components: permanent metal formwork (1) and concrete (2). Since this structure is with concrete (2), compared with Figs. l (a-d) stairway construction, more stable, better load-bearing capacity. FIG. 2 (a-d) stairway construction is commonly used when stairway is fixed to stair walls.

FIG. 3 (a-d) stairway, the frame of which consists of remnant metal formwork with reinforcement and concrete. The fabrication and installation of the stairway of this construction compared to FIG. l (a-d) and Figs. 2 (a-d) stairway structures are more complex. When formwork is installed (1), reinforcement (3) or metal bars (3) of appropriate geometrical characteristics and class shall be installed, taking into account the purpose, length and cross-section of the stairway structure, loads and other effects. After the formwork (1) and stairway fixtures (3) are installed, the structure is filled with a mixture of concrete of appropriate density, structure and class (2). The load-bearing capacity of the stairway in this design depends on the three load-bearing components: permanent metal formwork (1), reinforcement (3) and concrete (2). This design is stronger in bearing capacity and stability than standard reinforced concrete stairways and is commonly used to make bulky stairways. This type of stairway, with its sufficiently strong stanchion support and end points, is independent of the staircase dimensions, installing them simply in space. The shape of the stairway structure is obtained in graceful and any spatial form.

FIG. 4 (a-d) illustrates a stairway with a frame made of removable metal formwork with reinforcement and concrete. Stairway concrete (2) and its reinforcement (3) are prerequisites because the formwork (1) removes and leaves no third supporting component - metal formwork (1). This stairway construction is manufactured as in Figs. 3 (a-d). Stairway s

use formwork (1) only to obtain the shape of the stairway, thin and of low geometrical characteristics and low class, because when the concrete mixture (2) is fully cured, the metal formwork (1) is removed from the stairway. The hardening time of the stairway concrete (2) depends on the density, structure and class of the concrete (b) and, if necessary, the environmental class. This stairway design is commonly used in open spaces where the stairs are intended to be used outdoors when exposed to direct atmospheric influences (rain, sun, cold and other atmospheric influences).

FIG. 5 (a-d) illustrates a stairway with a frame consisting of removable metal formwork, one remnant metal formwork with reinforcement and concrete. In this design, the outer or inner part of the stairway is fabricated according to the purpose of the structure, the length and cross section of the stairway, the loads and other effects with the removable but single remnant stainless steel formwork to obtain thin and graceful staircases. The load-bearing capacity consists of three load-bearing components, so the stairway shape has the same capabilities (bulky, graceful and lightweight), plus resistance to direct weathering (rain, sun, cold and other atmospheric influences).

FIG. 6 (ad) illustrates a stairway with a frame consisting of outer permanent or removable metal formwork, internal permanent metal formwork with or without reinforcement, concrete or non-concrete. In this construction, the principle of operation and manufacture of the stairway is the same as that of the stairs Fig. 1 (ad) - Fig. 5 (ad). Stairway has internal residual metal formwork (l ¹ ). This stairway is distinguished by the fact that the residual outer metal formwork (1) and the inner residual metal formwork (1 *) have very strong bearing capacity, since the bearing capacity consists of four components: outer permanent metal formwork (1), internal permanent metal formwork (1). l ¹ ), reinforcement (3) and concrete (2). The load-bearing structure is the strongest of all the stairway structures mentioned above. When the stairway structure is used outdoors, it is exposed to the atmosphere by removing the outer metal formwork (1), leaving only the internal metal formwork (l ¹ ). Depending on the purpose of the structure, the length and cross-section of the stairway, the loads and other effects - internal residual metal decking (l ¹ ) is used to increase the load-bearing capacity of the stairway, to obtain a graceful and lightweight stairway. When the stairway is exposed to direct weathering, the internal metal formations (1 ') are made of corrosion-resistant metal and corresponding geometrical characteristics and class, depending on the weathering. When the stairway is covered in completely waterproof steps, the internal residual metal formwork (l ¹ ) is made of corrosion-resistant metal. The number of residual metal formwork (1 *) and their thickness depend on the purpose of the structure, the length and cross-section of the stairway, the loads acting on it and other effects. The stairway of this construction may have different length and cross-sectional shape.

Depending on the shape, purpose, length and cross-section of the stairway, loads and other effects, the metal formwork is made of metal sheet 1-30 mm thick. The thickness of the metal sheet depends on the choice of stairway construction. The geometrical characteristics and class of metal formwork depend on the shape, purpose, length and cross-section of the stairway, loads and other effects. Stairway concrete and fixtures are prerequisites for removing metal formwork without any internal metal formwork. Where metal formwork is permanent, depending on the shape, purpose, length and cross-section of the stairway, loads and other effects on reinforcement and concrete are not required.

Residual metal formwork can be produced both in the workshop and on site, where it will be installed. Because the metal sheet is easy to roll to form the formwork, it provides a low-cost, labor-intensive, spatial and regular geometrical shape of the formwork. The technology for installing metal formwork is very simple (the principle of the ice). Each part of the staircase shall be numbered consecutively from 1 to n in the manufacturing process and shall be numbered consecutively during installation. When installing metal formwork, they close to each other and join together by welding or other convenient connection. The principle of stairway installation is not declared - installation can be done taking into account the favorable situation for installation from 1-n or n-1. The stairway can be installed from the first stage or the last one, i.e. from the beginning of the stairway or the end of the stairway. When assembling metal formwork parts 1-n or n-1 are welded to each other depending on the design of the stairway. l (a-d) - FIG. 6 (a-d) by spot, continuous or other favorable welding or joining. Depending on the structure, when installing the metal formwork Fig. l (a-d) - FIG. 6 (a-d), the stairway is reinforced and filled with concrete. Metal removable formwork (stairway) finishes optional. Depending on the individual technology, the putty is either plastered with ordinary putty or plaster and paints with ordinary (wall or ceiling) paint or putty with metal putty and paints for metal painting. Once the metal formwork has been removed, apply putty or plaster with building mortar or plaster and paint with appropriate paint according to the conditions of use.

Claims (8)

DEFINITION OF INVENTION 1. A stairway consisting of a frame, a stair, a stairway, characterized by: The J frame consists of remnant metal formwork. 2. A stairway according to claim 1, characterized in that the frame is made of permanent metal formwork with concrete. 3. Stairway according to claim 1, characterized in that the frame is made of remnant metal formwork with reinforcement and concrete. 10th 4. Stairway according to claim 1, characterized in that the frame consists of a single exterior residual metal formwork with reinforcement and concrete. 5. Stairway according to claim 1, characterized in that the frame is made of exterior and interior metal formwork with reinforcement and concrete. 6. The stairway according to claim 1, characterized in that the frame is made of internal 15 removable metal formwork with reinforcement and concrete. 7. A method of manufacturing a stairway using formwork, which consists of installing removable metal formwork to form the frame, filling the reinforcement with concrete mix, hardening the concrete, removing said metal formwork, 8. A method of fabricating a stairway, comprising the step of assembling removable and / or removable internal and / or external metal formations to form the frame 20, reinforcing the concrete with concrete, hardening the removable metal formwork, leaving residual internal and or metal exterior cladding.