RU2813559C1 - Single-flight stairs - Google Patents

Abstract

FIELD: staircase designs.

SUBSTANCE: invention can be used in construction and everyday life. A single-flight staircase consists of a frame and at least one step fixed to this frame by means of at least one assembly of a mounting bracket, consisting of mounting and rotating legs, each of which is made of a base, and perpendicular its side wall, the base of the tabs contain at least one mounting hole through which the mounting tab is attached to the frame, and the rotary tab is attached to the step, whereas a through arc-shaped groove is made on the side wall of the rotary tab, and the mounting and rotary paws are connected by the side walls by means of two fastening elements, the first of which is the axis of rotation of the tabs, and the second is fixed in the side wall of the mounting tab with the ability to slide along the arcuate groove of the rotary tab, while the arcuate slot is made at a length that allows the planes of the tab bases to be positioned at an angle in the range of 25-90°, and the side wall of one of the legs comprises an additional through hole.

EFFECT: expanding the range of single-flight stairs allowing for a wide range of adjustment of the angle of inclination of the steps and sufficient reliability of fixing the required position of the steps.

6 cl, 6 dwg

Description

Field of technology to which the invention relates

The invention relates to staircase designs and can be used in construction and everyday life.

State of the art

Various single-flight staircases are known from the prior art (see, for example, RU 111489 U1, published 11/20/2011, CN 210422447 U, published 04/28/2020, CA 2844895 A1, published 09/05/2015). The specified technical solutions contain a frame on which the steps are attached. The frame contains fastening elements for a single-flight staircase at the top and bottom. The disadvantage of these technical solutions is the impossibility of adjusting the position of the steps of a single-flight staircase, which could compensate for the angle of installation of the frame relative to the horizon.

Also known from the prior art are single-flight staircases having a frame on which the steps are attached, fastening elements for the single-flight staircase at the top and bottom, and the ability to adjust the position of the steps of the single-flight staircase, which could compensate for the installation angle of the frame relative to the horizon (see, for example, CN 105756300 A, publ. 07/13/2016, CN 205637383 U, publ. 10/12/2016). However, these technical solutions have common disadvantages, such as the complexity of the design, a small range of adjustment of the step inclination angle, and insufficient reliability of fixing the required position of the step.

Also known from the prior art is a single-flight staircase, including a load-bearing frame installed on it with the ability to adjust the position of the steps, which compensates for the installation angle of the frame relative to the horizon (see RU 206911 U1, pub. 09/30/2021). The steps are attached to the frame using mounting brackets. Each mounting bracket contains interconnected supporting and rotating legs, each of which consists of a base and a side wall. The side wall of the rotary paw contains an arcuate groove. The side parts of the bearing and rotating legs are connected to each other using a bolted connection through through holes in them and an arcuate groove. The axial lines drawn through the ends of the arcuate groove and the center of the through hole in the side wall of the rotary paw form an angle between themselves in the range of 55-65°. The required position is fixed by tightening the bolted connection in the arcuate groove. This technical solution was adopted as a prototype.

The disadvantages of the prototype are the insufficient range of adjustment of the angle of inclination of the steps of a single-flight staircase and the insufficient reliability of fixing the required position of the steps.

The technical objective of the invention is to overcome the shortcomings of the existing level of technology.

When solving a technical problem, the invention achieves a technical result consisting in expanding the arsenal of single-flight stairs, allowing for a wide range of adjustment of the angle of inclination of the steps and sufficient reliability of fixing the required position of the steps.

Disclosure of the invention

The invention is a single-flight staircase consisting of a frame and at least one step fixed to this frame by means of at least one assembly of a mounting bracket, in turn consisting of mounting and rotating legs, each of which is made of a base and side wall perpendicular to it, the bases of the paws contain at least one mounting hole through which the mounting paw is attached to the frame, and the rotary paw is attached to the step, while on the side wall of the rotary paw there is a through arc-shaped groove, and the mounting and rotary paws are connected by the side walls by means of two fastening elements, the first of which is the axis of rotation of the paws, and the second is fixed in the side wall of the mounting paw with the ability to slide along the arcuate groove of the rotary paw, while, according to the invention, the arcuate slot is made at a length allowing the planes of the paw bases to be positioned at an angle in the range of 25-90°, and the side wall of one of the legs contains an additional through hole.

The fasteners may be bolted, screwed, riveted, studs, pins, or combinations thereof in each of the at least one mounting bracket.

An additional through hole in the side wall of one of the legs can be made with the possibility of drilling a corresponding hole in the side wall of the second leg and placing an additional fastening element in these holes, or an additional through hole in the side wall of one of the legs can be made with the possibility of screwing a self-tapping element through it screw into the side surface of the second paw.

The frame can be made of at least one stringer. Moreover, each of at least one stringer may additionally have attachment points in the upper and/or lower parts.

A each of the at least one stringer may be configured to move along it and securely fix the mounting bracket assembly.

Brief description of accompanying figures

The essence of the invention can be further illustrated by non-limiting examples shown in the accompanying figures 1-3, where:

Fig.1 – schematic representation of the mounting bracket assembly;

Fig.2 – schematic representation of a rotating paw;

Fig.3 - non-limiting examples of single-flight stairs with different angles of inclination: a) 25 degrees, b) 45 degrees, c) 60 degrees, d) 90 degrees.

Carrying out the invention

The invention is a single-flight staircase consisting of a frame and at least one step attached to this frame. The number of steps depends on the specific application of the single-flight staircase and the user's needs. Thus, their number can vary from 1 to 20, usually no more than 18. If more steps are needed, as a rule, they switch to the design of a multi-flight staircase with an intermediate platform and/or winder steps.

Each step is attached to the frame by at least one mounting bracket assembly (step bracket). The number of such mounting bracket assemblies can vary from 1 to 4 depending on the design of the specific frame, the width of the staircase and the maximum load per step. Thus, the following can be cited as non-limiting examples. The frame is made of one stringer (a stringer in the context of the invention means a load-bearing element or core of the staircase, an inclined beam thrown between the landings of the staircase or between the floors of different floors of the structure), the step is 50 cm long (the width of the staircase), the calculated maximum load on the step 180 kg, the step is attached to the stringer with one mounting bracket assembly. The frame is made of two stringers, the width of the staircase is 1.2 m, the estimated maximum load per step is 320 kg, the step is attached to each stringer with one mounting bracket assembly, that is, each step is attached to the frame by means of two mounting brackets.

Each mounting bracket assembly consists of a mounting foot “1” and a rotating foot “2”. Each paw “1” and “2” consists of a base “3” and a side wall “4” perpendicular to it.

The bases “3” of the paws “1” and “2” each contain at least one mounting hole “5”, through which the mounting paw “1” is attached to the frame, and the rotary paw “2” is attached to the step. There can be more than one mounting holes, for example, two, three, four, five or more. The mounting holes “5” can have different shapes, for example, round, square, rectangular, oval or any other, they can be located on the same or different lines on the plane of the base “3”, in rows or in any other way.

On the side wall “4” of the rotary paw “2” there is a through arc-shaped groove “6”.

The mounting “1” and rotary “2” paws are connected by the side walls “4” by means of two fasteners “7” and “8”, the first of which (7) is fixed in the holes “10” of the paws “1” and “2”, is their axis of rotation relative to each other, and the second (8) is fixed in the side wall “4” of the mounting paw “1” with the ability to slide along the arcuate groove “6” of the rotary paw “2”.

Moreover, each of at least one mounting bracket additionally contains a third fastening element “9” connecting the side walls “4” of legs “1” and “2” between the first “7” and second “8” fastening elements. Fastening element “9” is installed when installing a single-flight staircase, for example, as follows. The side wall “4” of one of the legs (1 or 2) contains a pre-drilled additional through hole. This hole in one of the legs allows, during installation, to ensure sufficient reliability of fixing the required position of the step. When the angle of the planes of the bases “3” of the paws “1” and “2” is not in the extreme positions, then additional fixation of the paws “1” and “2” relative to each other is necessary. In this case, after setting to the desired angle, through a through hole made in advance in the side wall “4” of one of the paws “1” or “2”, a corresponding hole is drilled in the side wall “4” of the second paw “2” or “1”, Accordingly, an additional fastening element is placed in these holes. Or an additional through hole in the side wall “4” of one of the paws “1” or “2” is made with the possibility of screwing a self-tapping screw through it into the side surface of the second paw. This design ensures guaranteed reliable fixation of the required position of the step.

In the context of the invention, fasteners “7”, “8” and “9” can be a bolted connection, a screw connection, a riveted connection, studs, pins or combinations thereof, for example, fastener “7” - riveted connection, element “8” – a pin, and element “9” – a bolted connection, or any other possible combination of the listed elements in each of at least one mounting bracket.

The paws can be made of any material that provides the required characteristics, for example, steel, aluminum or other alloys.

The arcuate slot “6” is made at a length that allows the planes of the bases “3” of the paws “1” and “2” to be positioned at an angle in the range of 25-90°. It is this length of the slot “6” that allows for a wide range of adjustment of the angle of inclination of the step, fixed to the plane of the base “3” of the rotary paw “2”. An angle of less than 25° is impractical due to the small angle to the horizon, and more than 90° is impractical, since the stringer on which the mounting paw is attached will be overturned.

The frame is made of at least one stringer. In this case, a different number of stringers is possible depending on the project. So, their number can vary from 1 to 4, most preferably 1-2.

Moreover, each of at least one stringer may additionally have attachment points in the upper and/or lower parts.

By way of non-limiting example, the mounting assembly at the top may be a mounting hinge and the mounting at the bottom may be a saddle pivot flange.

And each of at least one stringer can be made, for example, from a metal profile with a channel, for example, a square pipe, a profile pipe, a perforated metal profile with a channel, etc. Other options for making stringers are possible, for example, a channel, an I-beam, an angle , various prefabricated and/or combined structures that do not contradict the idea of the invention.

The following is a non-limiting example of the use of the invention.

The supporting frame of the staircase had at least two mounting brackets located in pairs mirroring each other (right and left). The mounting brackets had load-bearing and rotating legs connected to each other, each of which consisted of a base and a side wall, designed to rotate relative to the horizontal axis of the bracket.

The base of the rotating arm of the mounting bracket, equipped with an eye no less than 20 + 2 mm long, directed away from the stringer, was connected to the supporting frame with a bolted connection.

The through hole in the side wall of the bearing leg was secured coaxially with the arcuate slot of the rotary leg when installing the mounting brackets using a bolt, nut, lock washer and washer. The bearing and rotating legs were additionally connected by a fixing element passing through the through holes of the rotating legs and the through holes of the bearing legs. According to one option, an additional through hole in the rotary feet was formed during the installation of the ladder with self-tapping screws passing through additional through holes in the bearing foot. In another embodiment, an additional through hole was drilled in the rotary leg through a hole in the bearing leg, and then cotter pins were installed into these through holes with tension. The through hole in the side wall of the bearing paw was secured coaxially with the through hole of the rotary paw using a bolt and nut, providing an axis of mutual rotation of the paws relative to each other.

To install the bases of steps parallel to the horizon for flights of stairs with different inclination angles from 25 to 90 degrees relative to the horizon, rotary feet with C-shaped side walls and a height of 84 + 2 mm were used.

The mounting brackets for the stair treads were installed on the supporting frame using quick-install bolts and nuts. Once the bolt was aligned and torqued to 40 N, the mounting brackets provided a maximum recommended lateral load of 2000-3000 N per mounting point on the stair tread.

The proposed design of a single-flight staircase makes it possible to expand the arsenal of such means, allowing for a wide range of adjustment of the angle of inclination of the steps and sufficient reliability of fixing the required position of the steps.

A search through publicly available sources of information showed that the entire set of features of the proposed invention is not known from the prior art and does not clearly follow, and therefore the invention meets the conditions of patentability “novelty” and “inventive step”.

The claimed invention consists of materials and elements standard for this field of technology, interconnected in a certain way, that is, it can be used in industry, which is why the invention meets the patentability condition of “industrial applicability”.

It should be understood that after review by a specialist of the given description with an example of implementation of the proposed invention, other changes, modifications and embodiments of the invention will become obvious to him. Thus, all such changes, modifications and variations, as well as other applications that do not deviate from the spirit of the present invention, should be considered protected by the present invention within the scope of the appended claims.

Claims (6)

1. Single-flight staircase, consisting of a frame and at least one step, fixed to this frame by means of at least one assembly of a mounting bracket, consisting of mounting and rotating legs, each of which is made of a base and a side wall perpendicular to it , the bases of the paws contain at least one mounting hole through which the mounting paw is attached to the frame, and the rotary paw is attached to the step, while on the side wall of the rotary paw there is a through arc-shaped groove, and the mounting and rotary paws are connected by the side walls by means of two fastening elements, the first of which is the axis of rotation of the paws, and the second is fixed in the side wall of the mounting paw with the ability to slide along the arcuate groove of the rotary paw, characterized in that the arcuate slot is made at a length that allows the planes of the paw bases to be positioned at an angle in the range of 25-90°, and the side wall of one of the paws contains an additional through hole. 2. Single-flight staircase according to claim 1, characterized in that the fastening elements are a bolted connection, a screw connection, a riveted connection, studs, pins or combinations thereof in each of at least one mounting bracket. 3. Single-flight staircase according to any one of claims 1 or 2, characterized in that an additional through hole in the side wall of one of the legs is made with the possibility of drilling a corresponding hole in the side wall of the second leg and placing an additional fastening element in these holes, or an additional through hole in the side wall of one of the paws is configured to screw a self-tapping screw through it into the side surface of the second paw. 4. Single-flight staircase according to claim 3, characterized in that the frame is made of at least one stringer. 5. Single-flight staircase according to claim 4, characterized in that each of at least one stringer additionally has attachment points in the upper and/or lower parts. 6. Single-flight staircase according to any one of claims 4 or 5, characterized in that each of at least one stringer is designed to move along it and securely fix the mounting bracket assembly.