EA039350B1 - Flight of stairs with adjustable inclination angle (embodiments) and multi-flight stair containing the same - Google Patents

Abstract

The invention relates to construction, in particular, to structures of stairs in residential and public buildings, and can be used as a universal staircase in buildings and rooms with different floor levels. Embodiments of a flight of stairs with an adjustable angle of inclination are proposed. In the first embodiment, a stair string (1) contains a middle (5) longitudinal element located in the same vertical plane as a first - lower (6) and a second - upper (7) longitudinal elements, parallel to them and between them. The longitudinal elements (5, 6, 7) are made with the possibility of attaching to them either horizontally oriented, including steps (2) flight elements, or vertically oriented, or both horizontally and vertically oriented flight elements. All longitudinal (5, 6, 7) elements of the stair string (1) are interconnected by means of special fixation nodes. In the second embodiment, the first - external (16) and the second - inner (17) parallel longitudinal elements of the stair string (13) are located in the same inclined plane located at an angle of to the horizontal in the longitudinal direction, and the stair string (13) additionally contains a middle longitudinal element (18) located in parallel with the external (16) and inner (17) longitudinal elements and between them in a plane parallel to the inclined plane of the outer (18) and inner (17) longitudinal elements. The longitudinal elements (16, 17, 18) are made with the possibility of attaching to them either horizontally oriented, including steps (14) flight elements, or vertically oriented, or both horizontally and vertically oriented flight elements. The longitudinal elements (16, 17, 18) made with the possibility of attaching to them horizontally oriented, including steps (14) flight elements, or both horizontally and vertically oriented flight elements are interconnected by means of special fixation nodes. Also proposed is a staircase with an adjustable angle of inclination, comprising flights of stairs (24, 25) with an adjustable angle of inclination, interconnected by landing platforms (26) with an adjustable height of their location relative to the horizontal support surface (27).

Description

The invention relates to construction, in particular to structures of stairs in residential and public buildings that serve to communicate between floors or separate indoor or outdoor areas located at different levels, and can be used as a universal staircase in buildings and rooms with different floor heights.

A staircase is a structure used to move from floor to floor. In addition to this main function performed by the stairs, this design is also considered an integral part of the architecture. Most often in architectural projects, marching stairs are used, which consist of platforms and flights of stairs (inclined structures connecting horizontal platforms at different levels). By design, mid-flight stairs are single-flight and multi-flight, including two-flight. The number of marches depends on the layout and the number and height of floors in the house, as well as the purpose of the premises. For the purposes of this description, for simplicity, a flight of stairs will be considered as a single flight of stairs.

Usually, the dimensions of marches / single-flight stairs and the required dimensions of the space for their placement are calculated as follows: they measure the height of the wall where the stairs will be located and the length of the floor. Then a right triangle is drawn, where the legs will be the wall and the floor, and the hypotenuse will be the stairs. The optimal angle of inclination of the stairs is considered to be 45 °, but in reality the angle is determined by the specific dimensions of the room for installing the stairs (height, length, area), and it is not always possible to ensure its optimal value. In addition, based on the value of the angle of inclination, in each case, the length of the bowstring, the distance between the steps and other parameters of the stairs are calculated. As a result, the production of stairs is basically a one-off production, where individual calculations and design are made for each room. The adaptability of the design of flights of stairs and landings for different angles of inclination could help to establish mass production of adjustable stairs and accessories for them, thereby increasing economic efficiency, since a staircase / flight of stairs of the same standard size can be installed in buildings with a floor height in a certain range of values.

There is an OPTIMA variable slope stairway with one-sided rise and large steps [1], which adapts to different exit heights on construction sites, technical installations and tent roofs. It is made of extruded reinforced aluminum with self-levelling steps. Thanks to the adjustable PVC feet, it has excellent stability both on the floor or the ground and at the exit point. Equipped with left and right handrails, as well as a guard to protect the operator during ascent and descent, which, with an inclination of less than 45 °, can be carried out without the help of hands and facing the stairs. According to the height of the exit point, the angle of the ramp changes, and the steps are always kept in a horizontal position. The lower parts rest on the floor or ground, both levels have holes to allow the user to secure the ladder to prevent accidental movement. The ladder is also intended for use as a ladder on rooftops and sloped sheds, for access to vehicles and trailers, overpasses and flaps (if equipped with suitable hooks). The minimum lifting height is 1200 mm and subsequent heights are changed in 300 mm increments.

A well-known design single-flight stairs with adjustable height for self-assembly [2], containing parallel right and left bowstrings, many steps installed between the bowstrings and bolts hinged to them. Each bowstring contains two parallel longitudinal elements connected to each other with the possibility of changing and rigidly fixing the mutual angular arrangement. The design of the stairs is characterized by a smooth angle adjustment in the range of 35-40°, which allows for individual height adjustment to the needs of the customer. Changing the inclination of the stairs is based on loosening all the bolts in the hinges, adjusting the entire structure to a given floor level and anchoring it. After reaching the required angle of inclination of the ladder, the ladder legs are anchored to the base and the previously loosened bolts are tightened. The aforementioned adjustment of the level of the stairs keeps the horizontal plane of the step every time. The steps are made on the basis of gratings. The kit may include connecting platforms that act as a landing. In addition to the above stairs, there are pipe railings on both sides.

For the above-mentioned adjustable flights of stairs / single-flight stairs, the main disadvantage is the difficulty of changing the angle of inclination while maintaining the required position in space (including mutual) of the elements of the flight of stairs / stairs, as well as the complexity and laboriousness of the subsequent fixing of the relative position of all structural elements of the stairs. The installation of such flights of stairs/ladders is quite complicated and time-consuming and requires a significant amount of time to loosen and fix each bolted (hinged) connection.

Based on the totality of general technical features, the above-mentioned single-flight ladder with adjustable height for self-assembly was chosen as a prototype for the claimed flight of stairs with an adjustable angle of inclination in both embodiments [2]. At the same time, all the disadvantages mentioned above remain valid for this design. The prototype for the proposed multi-flight ladder is not selected.

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Thus, the object of the invention is the development of various variants of a flight of stairs with an adjustable angle of inclination, as well as a multi-flight staircase with flights of stairs with an adjustable angle of inclination, the design of which eliminates the disadvantages of similar flights of stairs and staircases from the prior art. The technical result to which the invention is directed is that when changing the angles of inclination of the stairs, a vertical and horizontal (parallel to the supporting surface) position will be provided for vertical and horizontal elements, respectively, with minimal installation time and simplification of installation. In addition, the design of the flight of stairs in both versions, as well as the design of the flight of stairs, should provide the possibility of optimizing (minimizing) the area and volume occupied by the stairs while maintaining all the technical requirements for stairs.

The problem is solved and the technical results are achieved with the help of the inventive flight of stairs, which contains parallel right and left bowstrings, a set of steps installed between the bowstrings and pivotally connected to them, as well as connected with the bowstrings and with the lower and upper supporting structural elements of the building with horizontal and /or vertical supporting surfaces of the lower and upper supporting elements. Moreover, each bowstring contains the first and second parallel longitudinal elements connected with each other with the possibility of changing and rigidly fixing the mutual angular arrangement. The problem is solved and the technical results in the first version of the flight of stairs are achieved due to the fact that at least one bowstring additionally contains a middle longitudinal element located in the same vertical plane with the first (lower) and second (upper) longitudinal elements, parallel to them and between them, wherein one of the longitudinal elements is configured to mount horizontally oriented elements of the flight of stairs, including steps, the second of the longitudinal elements is configured to mount vertically oriented elements of the flight of stairs on it, and the third of the longitudinal elements is configured to mount on it both horizontally and vertically oriented elements of the flight of stairs. At the same time, all the longitudinal elements of the bowstring are additionally connected to each other by means of at least one fixation unit, made with the possibility of rigid fixation of the mutual angular arrangement of all structural elements of the flight of stairs when a given angular position of the longitudinal elements of the corresponding bowstring relative to the lower and upper supporting structural elements of the building is reached and when maintaining the vertical position of the vertical structural elements and the horizontal position of the steps.

In the claimed design, the presence of an additional longitudinal element of the bowstring, as well as a fixation unit of the corresponding design and in a certain way established connections between the structural elements of the flight of stairs and the longitudinal elements of the bowstring, make it possible in a simple way, with the help of even one communication node, to ensure reliable fixation of a given mutual angular position of the flight of stairs in accordance with the height of the floor and the angle of inclination of the flight of stairs and with the preservation of the verticality and horizontal position of the corresponding structural elements of the flight of stairs.

In the preferred forms of implementation of the proposed flight of stairs in the first embodiment, the middle longitudinal element is made with the possibility of attaching horizontally oriented elements of the flight of stairs, including steps, the upper longitudinal element is made with the possibility of attaching vertically oriented elements of the flight of stairs to it, and the lower longitudinal element is made with the possibility of mounting on it both horizontally and vertically oriented elements of the flight of stairs. Such forms of implementation determine the possibility of using a fixation node of the simplest possible design while minimizing the number of such fixation nodes.

In general, a flight of stairs can be made without any railing. At the same time, in the preferred implementation forms, the inventive flight of stairs in the first embodiment additionally comprises a flight of stairs railing installed on at least one side of the flight of stairs and containing a plurality of racks associated with the corresponding bowstring, as well as at least one handrail associated with the racks, wherein each railing post of the flight of stairs is pivotally connected to the lower and upper longitudinal elements of the corresponding bowstring, and at least one railing post is connected to the lower and upper longitudinal elements and additionally to the middle longitudinal element by means of a fixation unit with the possibility of rigid fixation of a given mutual angular arrangement of all racks and longitudinal elements of the corresponding bowstring and while maintaining the vertical position of all racks. Such embodiments provide the advantages mentioned in connection with the description of the previous preferred embodiment, and, in addition, increase the safety of the structure as a whole, preventing falls and facilitating climbing and descending, especially when the flight of stairs is more than 45°.

In preferred forms of implementation, to make the structure as a whole even more stable, the inventive flight of stairs in the first embodiment may additionally contain at least one vertical support column associated with at least one of the longitudinal

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In the context of the application, in the preferred forms of implementation of the proposed flight of stairs in the first embodiment, the vertically oriented elements of the flight of stairs can be selected from the group including at least vertical railing posts and support pillars.

In the general case, the material from which the various structural elements of the inventive flight of stairs are made in the first form of implementation can be very diverse. At the same time, in preferred forms of implementation, the upper, lower and middle longitudinal elements of the bowstring, posts and handrails of fences and steps can be made of a material independently selected from the group including at least metal, wood, composite material, while the upper , the lower and middle longitudinal elements of the bowstring and fence posts can preferably be made in the form of a hollow pipe.

In the preferred forms of implementation of the proposed flight of stairs in the first embodiment, the fixation unit has the most simple and convenient design and is made in the form of a metal profile in the form of a corner, in the corner zones of which there are means of attachment to the lower, middle and upper longitudinal elements of the bowstring, preferably made in the form holes for fasteners. At the same time, the means of attachment to the longitudinal element, made with the possibility of fastening on it both horizontally and vertically oriented elements of the flight of stairs, is located in the zone of a right angle. This geometric shape of the fixation unit - the presence of a right angle - provides a rigid fixation of the mutual perpendicular position of the vertically and horizontally oriented structural elements of the flight of stairs.

In the second version of the flight of stairs, the task is solved and the technical results are achieved due to the fact that the first (external) and second (internal) parallel longitudinal elements of at least one bowstring are located in one inclined plane located at an angle α to the horizontal in the longitudinal direction , where 0°<α<90°, while said string additionally contains a middle longitudinal element located parallel to the outer and inner longitudinal elements and between them in a plane parallel to the inclined plane of the outer and inner longitudinal elements, and one of the longitudinal elements is made with the possibility of fastening on it horizontally oriented elements of the flight of stairs, including steps, the second of the longitudinal elements is made with the possibility of mounting vertically oriented elements of the flight of stairs on it, and the third longitudinal element is made with the possibility of mounting on it both horizontally and vertically oriented x elements of the flight of stairs, while the longitudinal element, made with the possibility of fastening on it horizontally oriented elements of the flight of stairs, including steps, and the longitudinal element, made with the possibility of fastening on it both horizontally and vertically oriented elements of the flight of stairs, are additionally connected to each other by means of at least one fixation unit configured to rigidly fix the mutual angular arrangement of all elements of the flight of stairs upon reaching a predetermined angular position of the longitudinal elements of the corresponding bowstring relative to the lower and upper supporting structural elements of the building and while maintaining the vertical position of the vertical structural elements and the horizontal position of the steps.

In the preferred forms of implementation of the proposed flight of stairs in the second embodiment, the middle longitudinal element is made with the possibility of attaching horizontally oriented elements of the flight of stairs, including steps, the outer longitudinal element is made with the possibility of attaching vertically oriented elements of the flight of stairs to it, and the inner longitudinal element is made with the possibility of mounting on it both horizontally and vertically oriented elements of the flight of stairs. As in the first embodiment, such forms of implementation determine the possibility of using the fixation node of the simplest possible design while minimizing the number of such fixation nodes.

By analogy with the first embodiment, in order to increase the stability and reliability of the structure as a whole, in the preferred forms of implementation of the proposed flight of stairs, in the second embodiment, the vertically oriented elements of the flight of stairs can be made in the form of at least one vertical support column associated with at least one of longitudinal elements of the corresponding bowstring and with the lower and / or upper supporting structural element of the building.

Just as in the first embodiment, in the general case, the material from which the various structural elements of the flight of stairs are made can be chosen in any suitable way. At the same time, in the preferred embodiments, the outer, inner and middle longitudinal elements of the bowstring and the steps are made of a material independently selected from the group including at least metal, wood, composite material, while the outer, inner and middle longitudinal elements of the bowstring are preferably made in the form of a hollow tube.

In the preferred forms of implementation of the proposed flight of stairs in the second embodiment, the fixation unit is made in the form of a metal profile. On its vertical shelves there are means of attachment to the inner and middle longitudinal elements of the bowstring, preferably made in the form of holes for fasteners. In this case, the means of attachment are located with the formation of a right angle in the projection onto the vertical shelf, and the means of attachment to the middle longitudinal element is located in the area of the right angle.

The problem is solved and the technical results are also achieved with the help of the inventive multi-flight stairs containing at least two flights of stairs, at least one of which is made in the form of the inventive flight of stairs with an adjustable angle of inclination in the first or second embodiment. Moreover, each pair of adjacent flights of stairs is interconnected by a platform with an adjustable height of its location relative to the horizontal supporting surface of the lower supporting structural element of the building.

A ladder of this standard design can be installed even on a small area and adapted to the height of the floor in a certain range of values without any modifications at the installation site, since all elements of the ladder are easily and conveniently adjusted in height and angle of inclination with a simple fixation of their given relative position .

In the preferred embodiments of the proposed staircase, the platform is connected to the lower supporting structural element of the building by means of at least two supports having an adjustable height, while the bowstrings of each flight of stairs adjacent to the platform are pivotally connected to two supports with the possibility of fixing a given mutual angular location. In such implementation forms, the platform is preferably made composite of at least two elements associated with supports and located at different vertical levels, while the elements of the platform are located relative to each other with a linear and / or angular displacement in a horizontal projection. This allows you to optimize the dimensions of the stairs, both in terms of area and height, while complying with the technical requirements for stairs.

In the preferred forms of implementation of the inventive stairs, each element of the platform is connected to the lower support surface by means of at least two separate supports having an adjustable height. This provides the ability to select the optimal position of each of the elements of the site, depending on the design of flights of stairs, their angles of inclination and other characteristics of the stairs.

In such embodiments, preferably, the individual supports of the individual elements of the platform are connected to the lower support surface with the possibility of changing their relative position. This allows you to independently move the individual supports of the individual elements of the platform to achieve the design spatial shape of the stairs, optimized in terms of area.

In the preferred embodiments of the proposed stairs, adjacent flights of stairs are located relative to each other at an angle α in the horizontal projection, where 0<α<180°, and at an angle β in the vertical projection, where 0<β<90°. This makes it possible to place a ladder on the smallest possible area in a room of any layout, with any floor height, subject to all the technical requirements for stairs.

The present invention is further explained by some preferred, but not limiting, examples of the implementation of the claimed variants of the flights of stairs with adjustable angle of inclination and the multi-flight stairs containing them with reference to the position of the figures of the drawings, which clearly demonstrate the possibility of achieving the required technical result. The drawings show schematically:

fig. 1 is a side view of a flight of stairs in the first embodiment in one of the preferred forms of implementation;

fig. 2 is a fragment of the flight of stairs according to FIG. 1 on the inside of the bowstring;

fig. 3 - fixation unit for the flight of stairs according to FIG. 1 in front view;

fig. 4 - fixation unit for the flight of stairs according to FIG. 1 in side view;

fig. 5 is a general view of the flight of stairs in the second embodiment in one of the preferred forms of implementation;

fig. 6 is a general view of the fixation unit for the flight of stairs according to FIG. 4;

fig. 7 - general view of a two-flight staircase;

fig. 8 - general view of a fragment of a multi-flight staircase in the area of the site, made composite.

In FIG. 1 is a schematic side view of a flight of stairs in a first embodiment in one of the preferred embodiments. The flight of stairs contains parallel right and left bowstrings 1, a plurality of steps 2 between them, lower 3 and upper 4 supporting structural elements of the building, and each bowstring 1 contains interconnected with the possibility of change and rigid fixation of the mutual angular arrangement of the lower 6, middle 5 and upper 7 longitudinal elements.

In the shown in FIG. 1 form of implementation of the middle 5 longitudinal element is located in the same vertical plane with the lower 6 and upper 7 longitudinal elements, parallel to them and between them. Horizontally oriented elements of the flight of stairs - steps 2 are mounted on the middle longitudinal element 5, vertically oriented elements of the flight of stairs - vertical racks 8 are mounted on the upper longitudinal element 7, and horizontally oriented elements (steps 2) are also attached to the lower longitudinal element 6 , and vertically oriented elements (pillars 8) of the flight of stairs.

In the form of implementation of the flight of stairs shown in the drawing, it also contains a fence, which includes vertical racks 8 in the form of a hollow pipe and a handrail 9 associated with them. Position 10 in the drawing indicates a fragment of a vertical support column.

In FIG. 2 schematically shows a fragment of the flight of stairs according to FIG. 1 from the inside of the bowstring 1, where it is shown that all the longitudinal elements 5, 6, 7 of the bowstring 1 are interconnected by means of fixation nodes 11, which will be discussed in more detail below with reference to FIG. 3, 4. At the same time, the vertical position of the racks 8 and the horizontal position of the steps 2 are maintained.

In FIG. 3 and 4 schematically show the locking unit in one of the possible implementation forms for the flight of stairs according to FIG. 1 in front view and side view, respectively. In the form of implementation shown in the drawings, the fixation unit 11 is made in the form of a corner with a jumper (position not indicated), in the corner zones of which there are holes 12 for fasteners for attaching to the lower 6, middle 5 and upper 7 longitudinal elements of the bowstring 1. Hole 12 under fasteners for attaching to the longitudinal element, made with the possibility of fastening on it both horizontally and vertically oriented elements of the flight of stairs (in the presented form of implementation, this is the lower longitudinal element 6), located in the right angle zone.

In FIG. 5 schematically shows a general view of the flight of stairs in the second embodiment in one of the preferred forms of implementation. This flight of stairs contains parallel right and left bowstrings 13, many steps 14 between them. In FIG. 5 also shows the lower support element 15. Each bowstring 13 contains interconnected with the possibility of change and rigid fixation of the mutual angular position of the outer 16, inner 17 and middle 18 parallel longitudinal elements. In the form of implementation shown in the drawing, the outer 16 and inner 17 parallel longitudinal elements of the bowstring 13 are located in one inclined plane located at an angle α to the horizontal in the longitudinal direction, where 0°<α<90°. The middle longitudinal element 18 is located parallel to the outer 16 and inner 17 longitudinal elements and between them in a plane parallel to the inclined plane of the outer 18 and inner 17 longitudinal elements.

In the presented form of implementation, the middle longitudinal element 18 is configured to mount horizontally oriented elements of the flight of stairs (steps 14), the outer longitudinal element 16 is configured to mount vertically oriented elements of the flight of stairs (vertical support column 19), and the inner longitudinal element 17 is made with the possibility of mounting on it both horizontally (steps 14) and vertically (vertical support column 19) oriented elements of the flight of stairs.

All longitudinal elements 16, 17, 18 of the bowstring 13 are interconnected by means of fixation nodes 20, while maintaining the vertical position of the vertical support pillars 19 and the horizontal position of the steps 14.

In FIG. 6 schematically shows a general view of the locking unit 20 in one of the possible implementation forms for the flight of stairs according to FIG. 5. In the form of implementation shown in the drawing, the fixation unit 20 is made in the form of a metal profile, on the vertical shelf 21 of which there are holes 22 for fasteners 23, located with the formation of a right angle in projection onto the vertical shelf 21, for attaching to the external 16, internal 17 and the middle 18 longitudinal elements of the bowstring 13.

In FIG. 7 schematically shows a general view of a two-flight staircase, consisting of two flights of stairs 24, 25 interconnected by a platform 26 with an adjustable height of its location relative to the horizontal support surface 27 of the lower supporting structural element of the building. The platform 26 is connected to the lower supporting structural element of the building in the presented form of implementation by means of three supports 28 having an adjustable height, with two of which the bowstrings 29 of the upper flight of stairs 25 adjacent to the platform 26 are pivotally connected with the possibility of fixing a given mutual angular location. Adjacent flights of stairs 24, 25 are located relative to each other at an angle α in the horizontal projection, where 0<α<180°, and at an angle β in the vertical projection, where 0<β<90°.

In FIG. 8 schematically shows a general view of a fragment of a multi-flight staircase according to FIG. 7 in the area of the site 26, made composite in the presented form of implementation of the three elements 30 associated with the supports 28 and located at different vertical levels. The elements 30 of the platform 26 are located relative to each other with a linear and/or angular displacement in a horizontal projection. Each element 30 of the platform 26 is connected to the lower support surface 27 also by means of separate supports 31 having an adjustable height.

The inventive flight of stairs with adjustable angle of inclination in both embodiments as part of the inventive staircase functions as follows.

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Installation of the inventive multi-flight stairs according to FIG. 7, containing the inventive flights of stairs with an adjustable angle of inclination according to FIG. 1 and 5 is carried out in the following sequence. Stair flights 24, 25 in a pre-mounted state, as well as a height-adjustable composite platform 26, are mounted at the installation site in accordance with the project. In flights of stairs 24, 25 bowstrings 1, 13, 29 due to the presence of articulated joints between the structural elements that form them, including the longitudinal elements 5, 6 and 7; 16, 17 and 18 and the crossbars connecting them (in the drawings, the positions are not indicated), form a parallelogram in which the angles can change value while maintaining the parallelism of the longitudinal elements 5, 6 and 7; 16, 17 and 18. The lower flight of stairs 24 is fixed to the surface of the lower 27 supporting structural element of the building (in particular, to the floor) and in relation to the structural elements of the site 26. The upper flight of stairs 25 is installed and fixed in relation to the structural elements of the site 26 and to the upper supporting structural element of the building (in particular, to the end surface of the floor slab). Then the flights of stairs 24, 25 and the platform 26 are adjusted in angular position by adjusting the height of the supports 28, 31 of the elements 30 of the platform 26 and changing the angles in the bowstrings parallelograms 29. At the same time, depending on the area in which the staircase should be inscribed and its design design, separate the supports 31 of the elements 30 of the platform 26 during installation are moved independently of each other in the required direction. By moving the individual supports 31 of the elements 30 of the landing 26, it is possible to adjust, in particular, the value of the angle α (the angle between adjacent flights of stairs 24, 25 in horizontal projection). By adjusting the height of the individual supports 31 and supports 28, it is also possible to adjust the value of the angle β (the angle between adjacent flights of stairs 24, 25 in vertical projection). Upon reaching (according to the results of the adjustment) a given mutual angular position between the structural elements of flights of stairs 24, 25, landing 26 (elements 30 of landing 26) and supporting structural elements of the building on bowstrings 1, 13, 29, fixation nodes 11, 20 and fix them by installing in the respective holes 12, 22 fasteners 23 (for example, bolts with nuts). At the same time, the corresponding fasteners 23 are installed in the holes 12, 22 of the fixation units 11, 20 and at the same time in the holes of the corresponding longitudinal elements 5, 6, 7, 16, 17, 18 of the bowstring 1, 13, 29. Thus, in the implementation form according to FIG. 1 holes 12, located in the corner zones of the metal profile in the form of a corner, are intended for attachment to the lower 6, middle 5 and upper 7 longitudinal elements of the bowstring 1, and the fastener for attaching to the lower longitudinal element 6, made with the possibility of fastening on it and horizontally , and vertically oriented elements of the flight of stairs, located in the right angle zone. By fixing the mutual position of the longitudinal elements 5, 6, 7 at three points lying in the same plane, the possibility of their mutual shift in the longitudinal direction is excluded, and the location of the fixation points with the formation of an angle of 90 ° ensures the fixation of the perpendicularity of the horizontally and vertically oriented structural elements of the flight of stairs . In this case, there is no need to install fixation nodes in the area of each of the steps 2, and one or two fixation nodes 11 are sufficient to obtain a rigid structure.

A similar principle of fixing the mutual longitudinal position of the longitudinal elements 16, 17, 18 of the bowstring 13 is also used in the form of the flight of stairs according to FIG. 5. The presence of three holes 22 (three points lying in the same plane) prevents the mutual shift in the longitudinal direction of the longitudinal elements 16, 17, 18 of the bowstring 13, and due to the formation of holes 22 on the vertical shelf 21 of the fixation unit 20 of the 90° angle, the perpendicularity between horizontally and vertically oriented structural elements of the flight of stairs.

At the same time, in the above description of the operation of the claimed embodiments of the flight of stairs as part of the inventive staircase, under horizontally oriented elements, steps 2, 14 can be mentioned, for example, steps 2, 14, and as vertically oriented, for example, racks 8, vertical support pillars 10, 19.

Thus, due to the presence in the design of flights of stairs according to Fig. 1 and FIG. 5 of the middle 5 and 18, respectively, of the longitudinal element of the bowstring 1 and 13, as well as the fixation unit 11 and 20 of the corresponding design and in a certain way established connections between the structural elements of the flight of stairs and the longitudinal elements, the bowstrings allow, with the help of even one connection node, to provide reliable fixation of a given mutual angular the position of the flight of stairs in accordance with the height of the floor and the angle of inclination of the flight of stairs and while maintaining the verticality and horizontal position of the corresponding structural elements of the flight of stairs.

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Information sources.

1. Flight ladder with variable inclination OPTIMA. The site of the company

Fedemark. [Electronic resource] - October 22, 2018. - Access mode: https://fedemark.ee/en/%DO%BF%D 1%80%D0%BE%D0%B4%D 1%83%D0%BA% D1 %82%D 1%8B/%D0%BB%D0%B5%D 1%81%D 1%82%D0%BD%D0%B8%D 1% 86%D1%8B%D 1%81% D0%BF%D0%B5%D 1 %86%D0%B8%D0%B0%D0%BB%D 1 %8C%D0 %BD%D 1 %8B%DO%B5-%DO%B8-%DO %BD%DO%BO%D0%B7%D0%B0%D0%BA%D0%B0%D0%B7/%D0%BC%D0%B0%Dl%80%D 1 %88%D0%B5%D0 %B2%D0%B0%D 1 %8F%D0%BB%D0%B5%D 1 %81 %D 1 %82%D0%BD%D0%B8%D 1 %86%D0%B0%D1%81 %D0%BF%D0%B5%Dl%80%D0%B5%D0%BC%D0%B5%D0%BD%D0%BD%D l%8B%D0%BC-%D0%BD%D0%B0 %D0%BA%D0%BB%D0%BE/

2. Adjustable stairs. Mostostal Siedlce website [Electronic resource] - October 22, 2018. - Access mode:

https://www.mostostal.siedlce.pl/ru/p%D0%B5%D 1 %88%D0%B5%D 1 %82%D 1 %87 %D0%B0%D 1 %82%D 1 %8B%D0%B9%D0%BD%D0%B0%D 1 %81 %D 1 %82%D0%B8%D0%BB/%D0%BF%D 1 %80%D0 %B5%D0%B4 %D0%BB%D0%BE%D0%B6%D0%B5%D0%BD%D0%B8%D0%B 5/%D0%BB%D0%B5%D 1 %81 %D 1 %82%D0 %BD%D0%B8%D 1 %86%D 1 %8B/p% D0%B5%D0%B3%Dl%83%D0%BB%D0%B8%Dl%80%Dl%83%D0%B5 %D0% BC%D 1 %8B%D0%B5 %D0%BB%D0%B5%D 1 %81 %D 1 %82%D0%BD%D0%B8%D 1 %86%D 1 %8B/

CLAIM

Claims (19)

CLAIM 1. A flight of stairs with an adjustable angle of inclination, containing parallel right and left bowstrings (1), a plurality of steps (2) installed between the bowstrings (1) and hinged to them, as well as connected to the bowstrings (1) and with the lower (3 ) and the upper (4) supporting structural elements of the building with horizontal and / or vertical supporting surfaces, the lower and upper supporting elements, each bowstring (1) contains the first and second parallel longitudinal elements connected to each other with the possibility of change and rigid fixation of the mutual angular arrangement, characterized in that at least one bowstring (1) additionally contains a middle (5) longitudinal element located in the same vertical plane with the first (lower) (6) and second (upper) (7) longitudinal elements, parallel to them and between them , and one of the longitudinal elements (5, 6, 7) is made with the possibility of fastening on it horizontally oriented elements of the flight of stairs, made in the form of steps (2), the second of the longitudinal (5, 6, 7) elements is configured to mount on it vertically oriented elements of the flight of stairs, and the third of the longitudinal elements (5, 6, 7) is configured to mount on it both horizontally and vertically oriented elements of the flight of stairs , while all the longitudinal elements (5, 6, 7) of the bowstring (1) are additionally interconnected by means of at least one fixation unit (11), made in the form of a metal profile in the form of a corner, in the corner zones of which there are means of attachment to the lower (6), middle (5) and upper (7) longitudinal elements of the bowstring (1), moreover, a means for attaching to the longitudinal element (5, 6, 7), made with the possibility of fastening on it both horizontally and vertically oriented elements of the flight of stairs , located in the zone of a right angle, with the possibility of rigid fixation of the mutual angular arrangement of all structural elements of the flight of stairs when a given angle is reached the new position of the longitudinal elements (5, 6, 7) of the corresponding bowstring (1) relative to the lower (4) and upper (3) supporting structural elements of the building and while maintaining the vertical position of the vertical structural elements and the horizontal position of the steps (2). 2. Flight of stairs according to claim 1, characterized in that the middle (5) longitudinal element is made with the possibility of fastening on it horizontally oriented elements of the flight of stairs, made in the form of steps (2), the upper (7) longitudinal element is made with the possibility of fastening on there are vertically oriented elements of the flight of stairs, and the lower (6) longitudinal element is made with the possibility of fastening on it both horizontally and vertically oriented elements of the flight of stairs. 3. A flight of stairs according to claim 1, characterized in that it further comprises a flight of stairs railing installed on at least one side of the flight of stairs and containing a plurality of racks (8) associated with the corresponding bowstring (1), and also associated with racks (8 ) at least one handrail (9), wherein each post (8) of the railing of the flight of stairs is pivotally connected to the lower (6) and upper (7) longitudinal elements of the corresponding bowstring (1), and at least one post (8) of the railing connected with the lower and (6) upper (7) longitudinal elements and additionally with the middle (5) longitudinal element by means of a fixation unit with the possibility of rigid fixation - 7 039350 sation of a given mutual angular arrangement of all posts (8) and longitudinal elements (5, 6, 7) of the corresponding bowstring (1) and while maintaining the vertical position of all posts (8). 4. A flight of stairs according to claim 1, characterized in that it additionally contains at least one vertical support (10) column associated with at least one of the longitudinal elements (5, 6, 7) of the corresponding bowstring (1) and with the lower (4) and/or the top (3) supporting structural element of the building. 5. Flight of stairs according to any one of claims 1-4, characterized in that the vertically oriented elements of the flight of stairs are selected from the group including at least vertical racks (8) of the fence and support pillars (10). 6. A flight of stairs according to any one of claims 1-4, characterized in that the upper (6), lower (7) and middle (5) longitudinal elements of the string (1), racks (8) and handrails (9) of fences and steps (2) are made of a material independently selected from the group including at least metal, wood, composite material, while the upper (6), lower (7) and middle (5) longitudinal elements of the bowstring (1) and stand ( 8) fences are preferably made in the form of a hollow pipe. 7. A flight of stairs according to any one of claims 1 or 2, characterized in that the means of attaching the fixation assembly (11) to the lower (6), middle (5) and upper (7) longitudinal elements of the bowstring (1) are preferably made in the form of holes (12) under fasteners. 8. A flight of stairs with an adjustable angle of inclination, containing parallel right and left bowstrings (13), a plurality of steps (14) installed between the bowstrings (13) and pivotally connected to them, as well as connected to the bowstrings (13) and with the lower and upper supporting structural elements of the building with horizontal and / or vertical supporting surfaces, the lower (15) and upper supporting elements, each bowstring (13) contains the first and second parallel longitudinal elements connected to each other with the possibility of changing and rigidly fixing the mutual angular arrangement, characterized in that that the first (outer) (16) and second (inner) (17) parallel longitudinal elements of at least one bowstring (13) are located in one inclined plane located at an angle α to the horizontal in the longitudinal direction, where 0°<α<90 °, while the specified bowstring (13) additionally contains a middle longitudinal element (18) located parallel to the outer (16) and inner (17) longitudinal elements and m between them in a plane parallel to the inclined plane of the external (18) and internal (17) longitudinal elements, and one of the longitudinal elements (16, 17, 18) is made with the possibility of attaching horizontally oriented elements of the flight of stairs to it, made in the form of steps (14 ), the second of the longitudinal elements (16, 17, 18) is made with the possibility of mounting on it vertically oriented elements of the flight of stairs, and the third longitudinal element (16, 17, 18) is made with the possibility of mounting on it both horizontally and vertically oriented elements of the flight of stairs. flight, while the longitudinal element (16, 17, 18), made with the possibility of mounting on it horizontally oriented elements of the flight of stairs, made in the form of steps (14), and the longitudinal element (16, 17, 18), made with the possibility of mounting on in it, both horizontally and vertically oriented elements of the flight of stairs, are additionally interconnected by means of at least one node and fixation, made with the possibility of rigid fixation of the mutual angular arrangement of all elements of the flight of stairs when the specified angular position of the longitudinal elements (16, 17, 18) of the corresponding bowstring (13) is reached relative to the lower and upper supporting structural elements of the building and while maintaining the vertical position of the vertical structural elements and the horizontal position of the steps (14). 9. Flight of stairs according to claim 8, characterized in that the middle longitudinal element (18) is made with the possibility of fastening on it horizontally oriented elements of the flight of stairs, made in the form of steps (14), the outer longitudinal (16) element is made with the possibility of fastening on there are vertically oriented elements of the flight of stairs, and the inner longitudinal element (17) is made with the possibility of fastening on it both horizontally and vertically oriented elements of the flight of stairs. 10. A flight of stairs according to claim 8, characterized in that the vertically oriented elements of the flight of stairs are made in the form of at least one vertical support column (19) associated with at least one of the longitudinal elements (16, 17, 18) of the corresponding bowstring (13) and with the lower and/or upper supporting structural element of the building. 11. A flight of stairs according to any one of claims 8 or 9, characterized in that the outer, inner and middle longitudinal elements (16, 17, 18) of the bowstring (13) and steps (14) are made of a material independently selected from the group including , at least metal, wood, composite material, while the outer, inner and middle longitudinal elements (16, 17, 18) of the bowstring (13) are preferably made in the form of a hollow pipe. 12. A flight of stairs according to any one of claims 8 or 9, characterized in that the fixation unit (20) is made in the form of a metal profile, on the vertical shelves (21) of which there are means of attachment to the inner (17) and middle (18) longitudinal elements bowstrings (13), preferably made in the form of holes (22) for fasteners (23), and the fasteners (23) grow - 8 039350 are placed with the formation of a right angle in the projection onto the vertical shelf (21), while the means of attachment to the middle longitudinal element (18) is located in the area of the right angle. 13. Staircase with adjustable angle, containing at least two flights of stairs (24, 25), at least one of which is made in the form of a flight of stairs with adjustable angle according to any one of claims 1-12, with each pair of adjacent flights of stairs (24, 25) is interconnected by a platform (26) with an adjustable height of its location relative to the horizontal support surface (27) of the lower supporting structural element of the building. 14. The staircase according to claim 13, characterized in that the platform (26) is connected to the lower supporting structural element of the building by means of at least two supports (28) having an adjustable height, while the bowstrings (29) of each flight of stairs adjacent to the platform ( 24, 25) are pivotally connected to two supports (28) with the possibility of fixing a given relative angular position. 15. Ladder according to claim 13, characterized in that the platform (26) is made of at least two elements (30) associated with the supports (28) and located at different vertical levels, while the elements (30) of the platform (26 ) are located relative to each other with a linear and / or angular displacement in a horizontal projection. 16. Ladder according to claim 15, characterized in that each element (30) of the platform (26) is connected to the lower support surface (27) by means of at least two separate supports (31) having an adjustable height. 17. Ladder according to claim 16, characterized in that the individual supports (31) of the elements (30) of the platform (26) are connected to the lower support surface (27) with the possibility of changing their relative position. 18. Staircase according to any one of claims 13-17, characterized in that adjacent flights of stairs (24, 25) are located relative to each other at an angle α in the horizontal projection, where 0<α<180°. 19. Ladder according to any one of claims 13-17, characterized in that adjacent flights of stairs (24, 25) are located relative to each other at an angle β in vertical projection, where 0<β<90°.