RU170633U1 - Stairs - Google Patents

Abstract

The utility model relates to the field of construction, in particular to the construction of stairs. The staircase contains guides on which transverse steps are installed. A support frame is attached to the guides. Cross steps are made of reinforced concrete in the form of monolithically formed treads and risers. Cross steps are made L-shaped in section. The step tread is molded from concrete with tensile strength at a bend of 1.6-120 MPa. Cross steps are made of concrete with a compressive strength of 20-460 MPa. The step tread is made with a thickness of 0.4-10 cm. The guides are made of reinforced concrete or metal and are paired with the back surface of the steps. The technical result of the claimed utility model is to reduce the mass of the ladder while maintaining its strength and resistance to stress, reducing material consumption, simplifying the design, improving operational properties, improving usability, accelerating installation. 13 s.p. crystals, 3 ill., 1 tab., 1 ave.

Description

The utility model relates to the field of construction, in particular to the construction of stairs.

From the prior art, a ladder is known that includes a support frame, consisting of a group of elements that are connected in series and gradually shifted vertically, a group of steps mounted on a support frame, and a railing containing a group of vertical supports, and a handrail, the elements being made of two vertical cylinders interconnected by a horizontal cross member, and one of the cylinders of the previous element is installed inside the cylinder of the subsequent element (RU 144122 U1, 08/10/2014).

A known facing element of the staircase step made of concrete, containing monolithically formed tread with a riser, and the riser with a tread forms an acute angle (RU 144965 U1, 04/03/2014).

Also known is the structural element of the staircase, including a kosour with treads, and it is made of metal reinforcement, filled with concrete or polymer concrete, and contains risers and fixed formwork made of sheet metal (RU 106276 U1, 07/10/2011). A staircase with such a structural element is quite massive, it needs to be molded on the object itself or significant resources should be spent on special equipment, which is laborious and inconvenient in its production. This design is characterized by low speed and manufacturing complexity due to the large number of technological operations stretched over time, as well as a large mass of stairs, high material consumption.

The closest analogue to the claimed technical solution is a ladder containing rails on which transverse steps are installed, while a supporting frame is attached to the rails, the transverse steps are made of reinforced concrete in the form of monolithically formed treads and risers, and the transverse steps are made L-shaped in cross section , the step tread is formed of concrete, and the guides are made of reinforced concrete (US 4995205, 02.26.1991).

The disadvantage of the closest analogue is that the steps of concrete are molded without stiffeners on the back, which leads to the need to increase the thickness and, accordingly, the mass of the steps of the ladder to ensure high resistance to structural loads of such a ladder or to reduce resistance to loads to ensure reduction the mass of the stairs and the thickness of its steps.

The objective of the claimed utility model is to create a more perfect staircase design with optimal operational, strength and weight and size characteristics.

The technical result of the claimed utility model is to reduce the mass of the stairs while maintaining its resistance to loads.

The technical result of the utility model is achieved by creating a staircase construction that contains steps that are L-shaped in cross section and guides connected to the back surface of the steps, the steps being made of concrete in the form of monolithically molded treads and risers and containing stiffeners on the back side, and to the guides the supporting frame is attached.

The tread and the riser act simultaneously as load-bearing and facing elements, while the riser of each upper stage is associated with the tread of each lower stage. In this case, the tread acts as an additional stiffener and creates the necessary volumetric stiffness of the stairs.

Due to the joint molding of the tread and the riser into a monolithic step with a L-shaped section, the tread and the riser work as a single design, which ensures the stability of the stairs to the loads. Due to the presence of stiffening ribs on the back of the steps, it is possible to reduce the mass of the stairs (decrease in the overall dimensions of the tread and / or riser) while maintaining its resistance to loads.

To provide the necessary bending strength in the structure (1.6-120 MPa), less materials are required, no additional cladding is required, which makes the structure heavier. The steps in such a staircase design withstand high bending loads, which can withstand the load from pedestrians.

The thickness of the step tread can be selected larger or smaller, depending on the tensile strength of the concrete in bending. Moreover, the better the characteristics of concrete, the thinner the step can be. The claimed design provides the opportunity for the step to work as a bearing and facing element at the same time and to connect the rails together in a single design.

In the particular case of the implementation of the utility model, the step tread can be molded from concrete with tensile strength at bending of 1.6-120 MPa, which additionally provides a reduction in the mass of the stairs while maintaining its resistance to loads, since these strength characteristics are sufficient for the L-shaped step taking the load on the bend is not only a tread, but a riser, acting as an additional stiffener.

Cross steps can be molded from concrete with a compressive strength of 20-460 MPa.

The steps can be made of concrete with reinforcement with composite fiber and / or composite reinforcement.

Fiber and / or reinforcement can be made composite.

The supporting frame may be made of metal and / or concrete.

Cross steps can be made with variable thickness.

Stiffeners can be molded together with transverse steps and can be made of concrete.

The upper part of the riser can be made with a thickening in the form of a cornice.

The tread and riser can be formed with the formation of an angle between them in the range of 60-90 °.

On the treads, holes can be made under the balusters of the railing.

Under the inner surface of the tread, one or more cross-beams resting on guides can be mounted.

The essence of the utility model is illustrated by drawings, which depict: in FIG. 1 shows a General view of the design of the stairs; in FIG. 2 is a rear view of a staircase structure; in FIG. 3 is a rear view image of a staircase structure.

 The staircase contains guides (1) on which transverse steps (2) are installed. A support frame (3) is attached to the guides, the transverse steps are made of concrete in the form of monolithically molded treads (4) and the riser (5), and the transverse steps are made L-shaped in cross section and contain stiffeners on the back side (not shown in the drawings) and the guides (1) are made of metal or concrete and are connected mechanically, glue or mechanically-glue to the back surface of the steps (2).

The low characteristics of the concrete surfaces of the stairs are the result of the fact that it is economically inexpedient and technologically difficult to form massive concrete elements from high-quality concrete with high characteristics of the front surface. The low properties of the front surface require additional finishing by facing elements, which in the conditions of our strip requires careful waterproofing and minimization of joints (in order to prevent water from entering the cladding, which leads to freezing and tearing of the facing elements), which entails the need for additional technological operations: manufacturing and installation of removable or fixed formwork, concrete pouring, formwork, monolith control and correction in the places of defects or joints casks, garbage removal, preparation for cladding, waterproofing, selection of glue and cladding material, subsequent cladding, garbage removal. All these operations are stretched in time and suggest the possibility of making a mistake for the performers, which will lead to the fact that the entrance group will not serve for a long time, and therefore it will be necessary to close the object for reconstruction.

The claimed utility model uses thin-walled concrete elements of l-shaped section as a facing and structural element, which involve the manufacture of more parts not directly at the construction site, but serially in the workshop, based on simple repetitive technological operations that minimize the human factor and assembly at the construction site, ready-made elements interfaced according to the computer drawing, which reduces the time of installation of the stairs directly at the facility, it minimizes construction debris, significantly reduces the dependence on the human factor during the installation process and eliminates the need for additional operations to clad this staircase.

The utility model allows the use of installation technology that is different from the generally accepted one, which reduces the influence of the installer's errors on the subsequent operational characteristics of the staircase.

In the factory, for the production of thin-walled L-shaped steps according to the drawings, using the computer program, the development and manufacture of forms is carried out, which provide for the formation of holes for fasteners and stiffeners on the back of the steps. They pour concrete with tensile strength when bending 1.6-120 MPa, after solidification forms are removed. The step is ready for further assembly. Thin-walled L-shaped steps can replace the lining and have a lightweight design, they are easily connected with their back to the rails in the factory. There, a frame is made according to a computer drawing and this design is delivered to the object in the form of modules or fully assembled, where the workers are left to assemble these modules or install a finished ladder, which ensures faster installation.

The claimed design involves the transfer of most of the assembly operations to the production workshop with a high level of labor organization and high efficiency of the use of raw materials due to cyclical typical operations that can reuse the remains of the previous process, which also reduces the amount of construction waste at the facility.

The thickness of the step tread can be selected larger or smaller in the claimed range, depending on the tensile strength of the concrete under bending. Moreover, the better the characteristics of concrete, the thinner the step can be.

The claimed ranges of tensile strength for bending concrete tread, compressive strength of concrete steps and thickness of the tread are optimal for the claimed design and provide the ability of the step to work as a bearing and facing element at the same time and connect the rails together in a single design.

In the particular case of the implementation of the utility model, the stairs are assembled as follows.

They carry out the molding of several L-shaped elements in the section - tread and riser. L-shaped steps are formed in collapsible forms. Then the L-shaped elements are attached with the back to the guides made of concrete or metal. A metal frame is secured to the obtained braids using bolted joints. On the reverse side of the facing elements, stiffeners made of concrete or metal are mounted. The resulting staircase design and set on the ground or base.

The supporting frame may be made of metal or of metal and concrete. Vertical support elements can be made of metal. Horizontal crossbars - metal. It is also possible to manufacture a support frame made entirely of metal profiles.

The claimed design has several advantages when arranging stairs on the street in the conditions of our strip. Also, this design, due to the use of L-shaped steps as a load-bearing lining and their exact geometric dimensions obtained in mass production, suggests the practical possibility of computer-aided design of the entrance group and simple assembly of elements in a well-equipped workshop with the subsequent delivery of finished modules to the facility.

Example 1

Tensile strength tests were performed when bending the tread of a step at various tread thicknesses, the width of the guides and the distances between them (table 1).

The smaller the tread of the step, the easier the step itself. Thin-walled L-shaped steps are light and have the necessary resistance to stress.

The proposed utility model is characterized by a lightweight design, speed of assembly while fully preserving the strength, reliability and long service life of the manufactured ladder.

Claims (14)

1. A staircase characterized in that it contains steps that are L-shaped in cross section and guides connected to the back surface of the steps, the steps being made of concrete in the form of monolithically formed treads and risers and containing stiffeners on the back side, and a support frame attached to the guides . 2. The staircase according to claim 1, characterized in that the step tread is molded of concrete with tensile strength at bending of 1.6-120 MPa. 3. The staircase according to claim 1, characterized in that the step tread is made with a thickness of 0.4-10 cm. 4. The staircase according to claim 1, characterized in that the transverse steps are molded of concrete with a compressive strength of 20-460 MPa. 5. The staircase according to claim 1, characterized in that the steps are made of concrete with reinforcement with composite fiber and / or composite reinforcement. 6. The ladder according to claim 2, characterized in that the fiber and / or reinforcement is made composite. 7. The staircase according to claim 1, characterized in that the supporting frame is made of metal and / or concrete. 8. The staircase according to claim 1, characterized in that the transverse steps are made with variable thickness. 9. The staircase according to claim 1, characterized in that the stiffeners are molded together with transverse steps. 10. The staircase according to claim 1, characterized in that the upper part of the riser is made with a thickening in the form of a cornice. 11. The staircase according to claim 1, characterized in that the stiffeners are made of concrete. 12. The staircase according to claim 1, characterized in that the tread and the riser are formed with the formation of an angle between them in the range of 60-90 °. 13. The staircase according to claim 1, characterized in that the openings for railings are made on the treads. 14. The staircase according to claim 1, characterized in that under the inner surface of the tread one or more cross-members mounted on guides are mounted.

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