RU164064U1 - VERTICAL STAIRCONSTRUCTION CONSTRUCTION - Google Patents

Abstract

The building structure of the vertical staircase, including a three-dimensional quadrangular frame with horizontal steps installed inside the frame volume, and the steps located on the side of one frame wall are offset relative to the steps located on the side of the other wall along the height of the frame, characterized in that the frame walls are made of longitudinal rows of similar components of rectangular cross section, having rectangular protrusions at the ends, forming angular joints adjacent to reinforced fasteners tenok carcass, wherein said protrusions are rectangular with a width that ensures the formation between neighboring adjustment elements wall component a slit is enough space to accommodate all steps.

Description

The utility model relates to the field of construction and is intended for use in wells, towers, vertical shafts of underground and elevated structures, as well as other engineering structures.

From the prior art, for example, the building structure of a vertical staircase is known (RF Patent No. 116555, IPC E06C 1/387, publ. 05.27.2012), including a three-dimensional quadrangular frame made of four vertical posts and crossbars connecting adjacent vertical posts to each other, steps installed inside the volume of the frame in two opposite vertical rows, and the steps of one vertical row are offset relative to the steps of the other vertical row in height of the frame.

A disadvantage of the known design of the stairs is its limited use due to the lack of the possibility of its increase or decrease in the vertical direction.

The objective of the claimed utility model is to eliminate the disadvantages of the known design of the stairs.

The technical result, which is achieved in the proposed technical solution, is the creation of a collapsible design that provides the ability to increase or decrease the stairs in height, depending on the requirements for the design.

The specified technical result is achieved by the fact that the proposed building structure of the vertical staircase includes a three-dimensional quadrangular frame with horizontal steps installed inside the volume of the frame, and the steps located on the side of one wall of the frame are offset relative to the steps located on the side of the other wall along the height of the frame, while according to a utility model, the frame walls are made of longitudinal rows of the same type of composite elements of rectangular cross section having rectangular protrusions upy on the ends, forming the angular joints reinforced with fasteners of the adjacent walls of the carcass, while the said rectangular protrusions are made with a width that ensures the formation of gap space between adjacent height components of the wall sufficient to accommodate the ends of the step.

The proposed building construction of the staircase contains walls that form a closed frame between themselves and consisting of longitudinal rows of rectangular composite elements 1. Each composite element 1 has a rectangular protrusion (comb) at opposite ends 2. All of the composite wall components form corner joints with adjacent adjacent components the walls. Corner joints for additional structural rigidity are reinforced with fasteners 3, for example, nails, screws, self-tapping screws, etc. For additional structural rigidity at the corners, vertical beams can be placed (not shown in Fig.). Inside the frame, in the slotted spaces between the constituent elements, steps 4 are mounted, resting on the side ribs of the same height of the opposite constituent elements, and fixed on them by means of fasteners 5. In addition, the side ribs of the constituent elements supporting the steps serve for lifting safety as handrails. For the purpose of reliable fixation on the supporting surfaces of the constituent elements, the steps can be made at the ends with angular recesses 6. The steps are installed on the side of one of the walls of the frame, so that they are displaced along the height of the frame relative to the steps located on the side of the opposite wall, by one compound element.

Assembly design is as follows.

The building structure is assembled from individual constituent elements 1, which can be any lumber, in particular planks, bars, beams, etc., according to the principle of a children's designer. The frame is assembled sequentially row by row, until the specified height of the structure is reached. The final design at any time can be easily modified, by additional height increase or decrease, adding or removing components along its perimeter.

A simple method of assembly and fixture of the claimed design allows to produce both simple and complex designs. This utility model has been successfully applied in the construction of wells, towers and other structures.

Claims (1)

The building structure of the vertical staircase, including a three-dimensional quadrangular frame with horizontal steps installed inside the frame volume, and the steps located on the side of one frame wall are offset relative to the steps located on the side of the other wall along the height of the frame, characterized in that the frame walls are made of longitudinal rows of similar components of rectangular cross section, having rectangular protrusions at the ends, forming angular joints adjacent to reinforced fasteners tenok carcass, wherein said protrusions are rectangular with a width that ensures the formation between neighboring adjustment elements wall component a slit is enough space to accommodate all steps.

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