RU84886U1 - MODULAR STAIRS SECTION - Google Patents

Abstract

1. The modular section of the ladder, consisting of two steel vertical hollow elements of circular cross section, the first of which has the shape of a cylinder, rigidly interconnected by means of a connecting element, characterized in that the second vertical hollow element is made in the form of a profile of stepwise variable section formed by the same an inner diameter over the entire height of the element, a constant wall thickness of at least 3.5 mm in the lower part of the element and a constant wall thickness of 2-3 mm in the upper part element, and the first vertical hollow element is made with an inner diameter 1-3 mm greater than the outer diameter of the upper part of the second vertical hollow element, and a rigid connection of the first vertical hollow element is made with the lower part of the second vertical hollow element. ! 2. The modular section of the stairs according to claim 1, characterized in that it is further provided with a device that fixes the position of adjacent modular sections relative to each other. ! 3. The modular section of the stairs according to claim 2, characterized in that the first vertical hollow element is made with a hole for the fixing bolt. ! 4. The modular section of the stairs according to claim 1, characterized in that it is additionally equipped with a platform for attaching the step. ! 5. The modular section of the stairs according to claim 1, characterized in that the first vertical hollow element is made in the form of a hollow cylinder having an upper base. ! 6. The modular section of the stairs according to claim 5, characterized in that the upper base of the first vertical hollow element is made in the form of a round plate, welded to the inner surface�

Description

The utility model relates to the ground equipment of buildings and can be used in the construction of internal and external stairs using modular modular sections.

Prefabricated modular sections are widely used in the construction of internal and external stairs.

Thus, the modular section of the ladder is known in which each supporting element contains tubular elements rigidly connected to each other by metal strips, while the tubular elements of the adjacent upper and lower supporting elements are connected by rods passed through them and tightened by nuts on the threaded ends of the rods (RF patent No. 44343 )

A modular section of the ladder is also known, in which the supporting tubular element is made in the form of a cylinder with a conical external surface from the side of one end and an internal hole with a conical surface from the side of the other end to accommodate a part of the cylinder with a conical external surface of another stage (RF patent No. 38796 )

A modular section of the ladder is also known, in which the links are made in the form of brackets containing a horizontal shelf with a rigid step plate mounted on it and a vertical support in the form of a hollow cylinder, which is inserted with the lower end into the sleeve located in the horizontal shelf of the lower bracket and fixed relative to the latter by means of a central rod passed through the cylinder (RF patent No. 830).

The listed known modular sections of metal consuming have a significant mass, which complicates their transportation, assembly of the stairs and reduces the possible height of the entire staircase due to the significant load on the lower section.

In addition, a modular section of the ladder is known, consisting of two glasses made of pipes and connected to each other by a pipe by welding, with one glass having a cylinder-shaped guide made of pipes and welded on the inside of the glass onto which "the upper section and is pulled coaxially with the lower mounting bolt with washer and nut (published application for the grant of a patent of the Russian Federation for invention No. 2003123168).

The disadvantages of this known modular section for the stairs are the increased metal structure and the possibility of misalignment of the element "glass with a guide" in its manufacture. The increased metal consumption is due to the presence of “excess” metal in the form of a bottom in two glasses, double walls in the place where the glass coincides with the guide and the absence of justified restrictions on the size of the glass walls.

Closest to the proposed utility model is the well-known modular section of the stairs, consisting of two steel vertical hollow elements of circular cross-section, made in the form of pipe segments, rigidly interconnected by means of a connecting element; the vertical pipe sections of each section are made of different diameters with the possibility of putting the pipe of the next section onto the pipe of the previous one, and the ratio of the diameters of the vertical pipes is selected from the interval 0.7-1.3, while the distance between the pipes in a direction perpendicular to their axes has a fixed value, equal to 80-250 mm (RF patent No. 58140 - (prototype).

The disadvantages of the known modular section are as follows.

The description of the prototype indicates that the structural details of the modules are made of sheet metal, carbon steel C 38/23 according to GOST 380 with a thickness of 3.5 mm and steel pipes with a wall thickness of 3.5 mm. The resulting double thickness (7 mm) of the wall of the vertical structural element in its assembly with the adjacent modular section unnecessarily increases the metal consumption of the structure without increasing its reliability, which complicates the assembly of the stairs and the transportation of modular sections, reduces the overall height of the stairs. When performing vertical elements in the form of pipe segments with a smaller wall thickness, the reliability of the entire structure (ladder) is reduced. A decrease in the reliability of the structure will be even more observed when fastening (including welded) the connecting device to the wall of the element having insufficient thickness.

In addition, the ratio of the diameters of the vertical pipe segments is selected, according to the prototype, from the interval 0.7-1.3. However, the difference in pipe diameters of 30% (a ratio of diameters of 0.7 or 1.3, which is equivalent), although it provides easy assembly and disassembly of the structure, but, with an unjustified increase in the metal consumption of the structure, clearly violates its “stability and spatial invariance without additional devices, tools and fasteners ", as declared in the description of the prototype. Provided that the vertical pipe segments of each section must be made of different diameters with the possibility of putting the pipe of the next section on the pipe of the previous one, at least a ratio of 1 and close to it, taking into account the wall thickness of the pipes, should be excluded from this interval. However, the minimum and maximum allowable clearances (the difference in the value of the inner diameter of one and the outer diameter of the other vertical elements) are not specified in the prototype, which does not provide the entire claimed range of ratios of the diameters of the simultaneous stability of the structure and ease of assembly, i.e. operational reliability.

The technical task of the proposed utility model is to create a design devoid of these disadvantages.

The technical result of the proposed utility model is to reduce the metal consumption of the structure while maintaining its operational reliability.

The specified technical result is achieved by the fact that in the modular section of the ladder, consisting of two steel vertical hollow elements of circular cross section, the first of which has the shape of a cylinder rigidly interconnected by means of a connecting element, the second vertical hollow element is made in the form of a profile of stepwise variable section, formed by the same inner diameter over the entire height of the element, a constant wall thickness of at least 3.5 mm, in the lower part of the element and a constant wall thickness, with leaving 2-3 mm, in the upper part of the element, the first vertical hollow element is made with an inner diameter 1-3 mm larger than the outer diameter of the upper part of the second vertical hollow element, and the rigid connection of the first vertical hollow element is made with the lower part of the second vertical hollow element.

The modular section of the ladder can be additionally equipped with a device that fixes the position of adjacent modular sections relative to each other, which prevents their rotation. Any suitable device may be used, for example, a fixing bolt. For this purpose, the first vertical hollow element can be made with a hole for the fixing bolt.

The modular section of the ladder is preferably further provided with a platform for attaching the step, which can be attached to the first vertical hollow element. The fastening can be carried out by any method: welding, threaded connection, etc. To facilitate the fastening of the site, the first vertical hollow element can be made in the form of a hollow cylinder having an upper base. In this case, the upper base of the first vertical hollow element can be manufactured separately, made in the form of a plate of round shape and attached by welding to the inner surface of the element. In the platform for attaching the step and the specified upper base can be made corresponding holes for their connection, for example, using threaded devices.

The connecting element of the modular section can be made differently, for example: in the form of one or more, preferably two, steel plates (walls), in the form of a pipe, etc.

The distance between the first and second elements in the direction perpendicular to their axes is calculated in each case separately, taking into account the material of the steps of the stairs, their desired and permissible dimensions and the necessary level of stability.

The height of the first vertical hollow element is preferably equal to the height of the upper part of the second vertical hollow element.

The first vertical hollow element may be a piece of steel pipe of the required size, as in the prototype, or a specially manufactured product, in particular, if it is made in the form of a hollow cylinder with an upper base. Varying the wall thickness of this element within 2 - 3.5 mm can also further reduce the metal consumption of the structure.

The second vertical hollow element is a specially made steel profile product of stepwise variable section due to the outer diameter of different heights and the inner diameter of the same height. The minimum wall thickness of its upper part is 2 mm, which, as the tests showed, allows you to maintain the strength of the structure, avoiding excessive weighting. The maximum wall thickness of the upper part of the second vertical hollow element is 3 mm, since the decrease in the metal consumption of the structure with a larger wall thickness is not sufficient to compensate for the cost of manufacturing a profile product. Reducing the wall thickness in the lower part of the element to values less than 3.5 mm will entail a decrease in the operational reliability of the structure, will lead to an involuntary decrease, in connection with this, the maximum permissible height of the stairs. In this case, a decrease in the reliability of the structure will be even more observed when fastening the connecting device to the wall of the element having insufficient thickness. Thus, the use as a second vertical hollow element, instead of the above profile product according to the proposed utility model, of a pipe segment (according to the prototype) with a wall thickness of 2-3 mm will reduce the operational reliability of the structure. When performing the second vertical hollow element in the form of a stepwise variable section profile formed by different internal diameters and not different external heights or at the same time as different internal and different external diameters, it will require the use of a cylinder with a large diameter as the first vertical hollow element will increase the overall metal consumption of the structure.

The transition from the upper part of the second vertical hollow element to its lower part is preferably made at an angle of more than 90 ° in the longitudinal section of the element, which eliminates the presence of a horizontal “step” and prevents the accumulation of dirt at the transition point during operation of the ladder. The upper and lower edges of the lower part of the element can be rounded to increase the safety of work during the construction of the stairs and during its operation.

The first vertical hollow element according to the proposed utility model is made with an internal diameter 1-3 mm greater than the outer diameter of the upper part of the second vertical hollow element, which ensures ease of assembly, spatial stability and optimal metal consumption of the structure. A smaller internal diameter will complicate the assembly of modular sections, and a larger size will lead to a loss of spatial stability of the entire structure and unreasonably increase its metal consumption.

The collection of stairs can be carried out according to the technology described in the patent of the Russian Federation No. 58140.

To prove the achievement of the technical result, two modular sections with the same dimensional parameters were made of the same steel.

The first modular section (according to the proposed utility model) consisted of two steel vertical hollow elements of circular cross section, the first of which has the shape of a cylinder, rigidly interconnected by means of a connecting element made of two steel walls. The second vertical hollow element of the modular section is made in the form of a stepwise variable section profile formed by an internal diameter of 95 mm, a constant wall thickness of 3.5 mm (outer diameter is 102 mm), in the lower part of the profile, and a constant wall thickness of 2 , 5 mm (outer diameter is 100 mm), - in the upper part of the profile with a height of the upper part of the element 200 mm.

The second modular section (according to the prototype) differed from the first only in that the second vertical hollow element was made in the form of a pipe segment having an inner diameter of 95 mm and a wall thickness of 3.5 mm (outer diameter is 102 mm). All other dimensional parameters of the second modular section were identical to those of the first modular section. The total mass of the modular section according to the prototype was 6.00 kg, the total mass of the modular section according to the proposed utility model was 5.52 kg. The mass reduction of the modular section due to the implementation of the second vertical hollow element in the form of the above step-variable section profile was 480 g (more than 8% of the section weight).

Thus, when constructing stairs of the same configuration, the same length, from the same number of modular sections, the use of modular sections according to the proposed utility model will significantly reduce the metal consumption of the entire structure and ensure its operational reliability by reducing the load on the lower module.

Claims (8)

1. The modular section of the ladder, consisting of two steel vertical hollow elements of circular cross section, the first of which has the shape of a cylinder, rigidly interconnected by means of a connecting element, characterized in that the second vertical hollow element is made in the form of a profile of stepwise variable section formed by the same an inner diameter over the entire height of the element, a constant wall thickness of at least 3.5 mm in the lower part of the element and a constant wall thickness of 2-3 mm in the upper part element, and the first vertical hollow element is made with an inner diameter 1-3 mm greater than the outer diameter of the upper part of the second vertical hollow element, and a rigid connection of the first vertical hollow element is made with the lower part of the second vertical hollow element. 2. The modular section of the stairs according to claim 1, characterized in that it is further provided with a device that fixes the position of adjacent modular sections relative to each other. 3. The modular section of the stairs according to claim 2, characterized in that the first vertical hollow element is made with a hole for the fixing bolt. 4. The modular section of the stairs according to claim 1, characterized in that it is additionally equipped with a platform for attaching the step. 5. The modular section of the stairs according to claim 1, characterized in that the first vertical hollow element is made in the form of a hollow cylinder having an upper base. 6. The modular section of the stairs according to claim 5, characterized in that the upper base of the first vertical hollow element is made in the form of a circular plate, welded to the inner surface of the element. 7. The modular section of the stairs according to claim 1, characterized in that the connecting element is made in the form of one or more steel walls. 8. The modular section of the stairs according to claim 1, characterized in that the connecting element is made in the form of a pipe.