RU214025U1 - March of composite stringer stairs - Google Patents

Abstract

The utility model relates to the field of construction, namely to the structures of stairs, and can be used in the construction of industrial and residential buildings. The problem to be solved by the claimed utility model is to increase the rigidity of the structure and increase the manufacturability of the installation process of the product or to simplify the installation process. The specified technical result is achieved by performing a march of a composite stringer staircase, consisting of side support plates connected in series one after another, each of which has a flat corner shape and contains mounting holes located at least 2 on each side of the corner plate; steps resting on base plates; internal crossbars fixed between the side support plates in such a way that the pairwise connection of adjacent side support plates is carried out by fixing the internal crossbars through their mounting holes corresponding to the same level, while simultaneously forming 2 stringers, and each step is simultaneously connected to successively located adjacent side support plates. plates. 5 z.p. f-ly, 3 figs.

Description

The utility model relates to the field of construction, namely to the structures of stairs, and can be used in the construction of industrial and residential buildings. At the same time, the primary use is expected in low-rise housing construction.

Numerous designs of stairs are known, consisting of various structural elements. So, for example, a modular block for stairs is known, made L-shaped from hollow tubular elements, characterized in that it additionally contains a protrusion at the end of a vertical shelf, forming an L-shaped connection with it, located in the plane of the L-shaped modular block in the direction opposite to its horizontal shelf, and is intended for the cantilever connection with it of the horizontal shelf of the adjacent L-shaped modular block, while on the horizontal shelf of the L-shaped block there are seats for fastening the steps and fixing the cantilever connection (utility model patent of the Russian Federation No. 92677, IPC E04F 11/035). The disadvantage of the design is the complexity and low manufacturability of the manufacturing process of the modular unit, the low reliability of fixing the modular units with each other.

Also known is the modular design of the stairs, consisting of a Z-shaped corner element and a connecting element, characterized in that the module is made of hollow pipes of rectangular section, and the connecting element movably connects the Z-shaped corner elements by inserting it into the abutting cavities of their vertical parts, at the same time, the length of the vertical parts of the corner element, which determines the height of the step, is less than the length of the horizontal part of the corner element, which determines the width of the step, and on which the step web is attached, and seats for fastening and fixing are made on the connecting element and at the ends of the vertical sections of the corner element (patent for utility model RF No. 140259, IPC E04F 11/035). The disadvantage of the design is low strength due to the lack of horizontal fixation at the corners of its elements.

An analogue of the claimed utility model is also a structure containing a modular element for the manufacture of fixed stairs, made of steel or alloys, characterized in that it contains a surface and two opposite shaped supports containing an upper zone adjacent to the surface and a lower opposite edge, each of the supports contains a C-shaped bend extending towards the opposite support and towards the surface, the supports being located between the upper zone and the lower opposite edge, the upper front side of which forms a shelf for supporting the underlying surface (RF patent No. 2510447, IPC E04F 11 /035). The disadvantage of the design is the complexity and low manufacturability of the manufacturing process of the modular element, low strength due to the lack of horizontal fixation of the lower part of the shaped supports.

The closest set of essential features to the claimed utility model is a design containing side support plates connected in series one after another, each of which has a flat corner shape and contains mounting holes located at least 2 on each side of the corner plate; steps resting on support plates; internal crossbars fixed between the side support plates in such a way that the pairwise connection of adjacent side support plates is carried out by fixing the internal crossbars through their mounting holes corresponding to the same level, while simultaneously forming 2 stringers (utility model patent of the Russian Federation No. 178962, IPC E04F 11 /035). The disadvantage of the design is the low manufacturability of the manufacturing process due to the lack of special places for fastening the steps, which is expressed in the need for welding during installation and insufficient structural rigidity.

The problem to be solved by the claimed utility model is to increase the rigidity of the structure and increase the manufacturability of the installation process of the product or simplify the installation process.

The achievement of the specified technical result in the claimed utility model is carried out by performing a march of a composite stringer ladder, consisting of side support plates connected in series one after another, each of which has a flat corner shape and contains mounting holes located at least 2 on each side of the corner plate ; steps resting on base plates; internal crossbars fixed between the side support plates in such a way that the pairwise connection of adjacent side support plates is carried out by fixing the inner crossbars through their mounting holes corresponding to one level with the simultaneous formation of 2 stringers, while each step is simultaneously connected to successively located adjacent side support plates .

For an unambiguous and more complete understanding of the description of the claimed utility model, the following are clarifications and disclosures of the concepts and terms used above, as well as a description of the design.

The claimed utility model is a staircase consisting of 2 stringers spaced apart from each other with steps located between them. At the same time, the stringers are made of side support plates connected in series one after another. Each plate has a flat corner shape and contains mounting holes. A flat angular shape means a shape formed by bending the ends of a flat rectangular extended plate or strip towards each other in the plane of the plate. In this case, on one side of the plate or strip, an internal corner is formed with internal ribs, respectively, forming it. The angle between these ribs can be made straight or more than straight. In practice, such a corner shape is carried out mainly by stamping, cutting, punching a metal sheet. Mounting holes are located on each side of the angle plate in the amount of at least two. In this case, the side of the plate is the part of the plate that forms one side of the corner. The sides can be of different sizes, different lengths. Each side is mounted either vertically or horizontally. Between the stringers there are also internal crossbars (crossbars), which perform the function of sequential fastening of the plates by fixing them to one another through the mounting holes, taking into account their compliance with the horizontal level. Another function of the crossbars is to ensure the rigidity of the structure and its given size. At the same time, the desire to reduce the weight of the product by reducing the thickness or diameter of the crossbars leads to a decrease in the rigidity of the structure, especially for bending in the horizontal plane. Two kosour, made of side support plates, with connecting internal crossbars, are a metal frame or a basis for making a flight of stairs by attaching steps to it.

In the claimed utility model, the increase in structural rigidity is achieved by connecting the steps of the ladder with two consecutive adjacent side support plates on both stringers. To do this, fasteners are made at one end of each side support plate and at its inner corner, which are landing elements (or seats) for steps. In the general case, these are plates in which or on which the surfaces of the step rest. These seating elements are attached to the side support plates, mainly by welding, which is carried out during the manufacture of the plates in production, and not during installation. In some cases, it is also possible to attach landing elements to the side support plates using threaded or structural connections, which can be done when mounting the march. Landing elements can have a different shape, for example, flat or curved. The curved shape can be made, for example, in the form of a corner or a channel. In the landing elements, through holes can be made for fastening the steps to the structure with threaded fasteners: using self-tapping screws, screws, bolts, threaded rivets. Landing elements at the ends of the side support plates are made mainly in the form of a flat plate, and on its inner corner in the form of a corner. Wooden steps are mainly fastened with self-tapping screws and screws, metal steps can be fastened with threaded connections and, if necessary, welding. Steps made of other materials are fixed, mainly with the help of threaded connections. The described connection of the step with the stringers implements the fastening of a rigid rectangle to the base of the structure at 4 points with additional fixing of the position of adjacent side support plates, which structurally ensures the rigidity of the structure, especially for bending in the horizontal plane. The structure described above can also be represented as modular, where the module of the stringer is the connection of adjacent side support plates, and the module of the ladder (or flight of stairs) is the structure of two adjacent support plates on both stringers, connected by means of internal crossbars and a step resting on them.

Side support plates, seating elements and internal crossbars are made mainly of steel of various grades or duroaluminum. It is also possible in some cases to manufacture them from metal alloys, special plastics, composites, wood. Internal crossbars are made of a bar (studs), a circle, a metal profile of various types. The fastening of the inner crossbars to the side support plates is preferably carried out using threaded connections, and if necessary, welding can be used. The above number of mounting holes on the side support plates - at least 2 - provides the minimum required rigidity of the structure and at the same time its increased reliability compared to the above analogues.

The thickness of the side support plates in the case of their manufacture from structural steels is usually 2-6 mm, the inner cross members are also made mainly from steel round bars with a diameter of 10-40 mm. The thickness of the steps in the case of their manufacture from structural steels is usually 1-4 mm, in the case of manufacture from wood 25-40 mm.

The fastening of the side support plates in each next row can be carried out on either side of the bottom plate, depending on the structure being assembled, i.e. with the expansion or narrowing of the run or alternation while maintaining the width of the run.

The claimed utility model is a technical solution and relates to devices, because consists of structural elements, technologically, structurally interconnected. All structural elements that make up the claimed utility model are in structural unity, their combination into the device described above gives it structural integrity, united by a single design concept, due to which the functional interconnection of these components ensures the implementation of the stated purpose.

The claimed utility model is industrially applicable, because can be applied in the construction of industrial and residential buildings, low-rise construction. Its manufacture and use does not cause any difficulties and can be carried out by construction workers quickly and without any difficulty. In the manufacture and installation of this device use equipment and materials produced by the industry and are in the open sale. In addition, all structural elements of the device can be manufactured industrially, while their manufacture is simple and technologically advanced. The applicant has manufactured and tested prototypes of the proposed device.

The claimed march of the composite kosour stairs is characterized by the following set of essential features, namely

contains side support plates connected in series one after another, each of which has a flat corner shape,

each plate contains at least 2 mounting holes located on each side of the corner plate;

contains steps based on support plates;

contains internal crossbars fixed between side support plates in such a way that pairwise connection of adjacent side support plates is carried out by fixing with internal crossbars through their mounting holes corresponding to the same level, while simultaneously forming 2 stringers;

each stage is simultaneously connected to consecutive adjacent side support plates.

These essential features, carried out in their entirety, allow us to solve the problem of the utility model, i.e. increase the rigidity of the structure and improve the manufacturability of the installation process of the product. The increase in structural rigidity is realized by attaching the step, which is a rigid flat rectangle (flat rectangular prism), to the metal base of the structure at 4 points with additional fixing of the position of adjacent side support plates, which structurally ensures structural rigidity, especially for bending in the horizontal plane. Improving the manufacturability of the installation process is implemented by attaching the steps to the metal base of the structure using threaded connections.

Of the above essential features of the claimed utility model, the essential feature, different from the prototype, is the following: each step is simultaneously connected to consecutive adjacent side support plates.

Thus, the set of essential features of the claimed utility model, which allows to achieve the claimed technical result, is not known from the present level of technology, i.e. it is not known the application of this set of essential features to obtain the claimed technical result.

An increase in the efficiency of the claimed technical result is achieved in the following modifications of the device, which characterize special cases of its implementation:

1. The march claimed and described above according to claim 1, characterized in that the inner ribs of the side support plates of the angular shape form a right angle between them.

2. The march claimed and described above according to claim 1, characterized in that the inner ribs of the side support plates of the angular shape form an angle greater than a right angle between them.

3. The march of the composite stringer staircase claimed and described above, characterized in that landing elements for attaching steps to them are made at one end of the side support plates and at their inner corner.

4. The march claimed and described above according to claim 3, characterized in that at one end of the side support plates a landing element is made in the form of a plate, and on their inner corner a landing element is made in the form of a corner for attaching steps to them.

5. The march claimed and described above according to any of the paragraphs. 3, 4, characterized in that the fastening of the steps to the landing elements of the side support plates is carried out using threaded fasteners.

The claimed modifications of the composite kosour stairs are technical solutions, because are private solutions to the problem of achieving the claimed technical result by creating a device that is a set of structural elements that are technologically and structurally interconnected, having a certain form of implementation and being in a functional relationship.

All the essential features of the claimed private and developing technical solutions of the claimed utility model are structural elements characterized by a certain design, interconnections between themselves and the materials of manufacture, therefore, the set of essential features is a device. Thus, the claimed technical solution relates to objects protected as a utility model.

The above modifications of the utility model are industrially applicable, because can be applied in the construction of industrial and residential buildings, low-rise construction. Their implementation and use does not cause any difficulties and can be carried out by construction workers quickly and without any difficulty. In the manufacture and installation of this device use equipment and materials produced by the industry and are in the open sale. In addition, all structural elements of the device can be manufactured industrially, while their manufacture is simple and technologically advanced.

The implementation of the claimed utility model is illustrated in figures 1, 2, 3. In Fig. 1 shows a general view of the march with steps in isometry. In FIG. 2 shows the metal base of the flight of stairs. In FIG. 3 shows a side support plate with seating elements.

In the given figures, the following notation is adopted

1 side base plate,

2 - kosour,

3 - mounting holes,

4 - inner cross member,

5 - step,

6 - flat landing element at the end of the side support plate,

7 - end face of the side support plate,

8 - the top of the inner corner of the side support plate,

9 - landing element, made in the form of a corner.

The inventive device is made as follows (Fig. 1, 2, 3). The main structural element of the composite kosour stairs is the side support plate 1. These plates are connected in pairs - the upper one - to the bottom with the formation of the kosour 2. To connect the plates, the mounting holes 3 located at their edges are used. The connection occurs due to the appropriate alignment of the mounting holes and passing through two aligned holes at one end of the inner cross member 4 with its subsequent fixation (fixing). At the same time, a second stringer 2 is assembled in parallel, in which the side support plates are fastened by the second end of the inner cross member. Thus, the metal base (frame) of the march of the stringer staircase of the required height has been built. Steps 5 are located on the horizontal surfaces of the same level of both stringers. At the same time, they are fixed along the plane from below on flat landing elements 6, fixed on the ends of the side support plates 7 and also located horizontally. At the same time, the side edge of the step is attached to the landing elements located at the tops of the inner corners 8 located above the adjacent side support plates. As a rule, this landing element is made in the form of a corner 9. In the case of steps made of wood, they are mainly fixed with self-tapping screws and screws. Metal steps can be fixed with threaded connections and, if necessary, welding. Steps made of other materials are mainly fixed with threaded connections. Steps can be made in several layers, for example, in 2 layers: lower metal - structural and upper wooden, which has user functions.

The ladder is assembled by connecting the side support plates in such a way that the vertical side of the lower corner is connected to the horizontal (or at an angle) side of the upper corner. At the same time, the mounting holes of the upper and lower plates are aligned in pairs and one end of the crossbar is passed (inserted) through them, which is fixed in a known manner. Thus, one kosour is going. At the same time, a second kosour is assembled in parallel in a similar way, where fastening is carried out using the other end of the crossbar. In this case, the crossbars fix the side support plates of the same horizontal level. Steps are placed and fixed on the horizontal parts of the support plates of two assembled parallel stringers. The steps are fixed on flat landing elements fixed on the ends of the side support plates and also located horizontally. At the same time, the side edge of the step is attached to the landing elements located at the tops of the inner corners located above the adjacent side support plates. Wooden steps are fixed through the mounting holes mainly with self-tapping screws or screws, it is also possible to use other threaded products. Metal steps and steps made of layered and composite materials are fastened with threaded joints, in some cases by welding.

Examples of the implementation of the utility model.

Example 1

The side support plates are made from steel sheet grade st.10 with a thickness of 2 mm by cutting. The inner crossbars are made from a circle st.10 with a diameter of 10 mm, the steps are made from a larch board 25 mm thick. Both ends of each cross member have an M10 external thread. The length of the march is 3.0 m, the width of the march is 0.55 m. Before assembling the stairs, the number of side support plates is selected for two less than twice the number of planned steps. At the same time, internal crossbars are selected in an amount equal to the planned number of steps. At the same time, 2 stringers are assembled, pairwise connecting the upper and lower side plates of both stringers, passing the ends of the inner crossbars into the aligned mounting holes of two adjacent plates, so that each end of the side plate is fastened with two inner crossbars. The inner cross members are attached to the side support plates with nuts. Larch steps 40 mm thick are placed on the horizontal surfaces of the assembled stringers, and each step is fixed to the corresponding pairs of adjacent aligned side support plates with self-tapping screws through the through holes made in the landing elements. Landing elements at the end of the side support plates were flat steel plates. The landing elements at the top of the inner corner of the side support plates were a steel corner.

Example 2

The side support plates are made from steel sheet grade st.10 with a thickness of 6 mm by punching. The inner crossbars are made from a circle of st.10 with a diameter of 40 mm, the steps are made in two layers: a steel sheet 2 mm thick and a pine canvas 35 mm thick. At both ends of each crossbar, an external M40 thread is cut. The length of the march is 3.0 m, the width of the march is 1.5 m. Before assembling the stairs, the number of side support plates is selected for two less than twice the number of planned steps. At the same time, internal crossbars are selected in an amount equal to the planned number of steps. At the same time, 2 stringers are assembled, pairwise connecting the upper and lower side plates of both stringers, passing the ends of the inner crossbars into the aligned mounting holes of two adjacent plates, so that each end of the side plate is fastened with two inner crossbars. The inner cross members are attached to the side support plates with nuts. Laminated steps are applied to the horizontal surfaces of the assembled stringers: a steel sheet 2 mm thick and a pine sheet 30 mm thick, then both layers of each step are fixed to the corresponding pairs of adjacent aligned side support plates with self-tapping screws through through holes made in the landing elements and the lower metal sheet of the step. Landing elements at the end of the side support plates were flat steel plates. The landing elements at the top of the inner corner of the side support plates were a steel corner.

Example 3

The side support plates are made from steel sheet grade st.10 with a thickness of 4 mm by punching. The inner crossbars are made from a circle st.10 with a diameter of 20 mm, the steps are made from a larch board 40 mm thick. Both ends of each cross member have an Ml9 external thread. The length of the march is 3.0 m, the width of the march is 1.0 m. Before assembling the stairs, the number of side support plates is selected for two less than twice the number of planned steps. At the same time, internal crossbars are selected in an amount equal to the planned number of steps. At the same time, 2 stringers are assembled, pairwise connecting the upper and lower side plates of both stringers, passing the ends of the inner crossbars into the aligned mounting holes of two adjacent plates, so that each end of the side plate is fastened with two inner crossbars. The inner cross members are attached to the side support plates with nuts. Larch steps 40 mm thick are placed on the horizontal surfaces of the assembled stringers, and each step is fixed to the corresponding pairs of adjacent aligned side support plates with self-tapping screws through the through holes made in the landing elements. Landing elements at the end of the side support plates were flat steel plates. The landing elements at the top of the inner corner of the side support plates were a steel channel.

From the above description and an example of the implementation of a composite stringer ladder, it follows that the achievement of the claimed technical result can be ensured and is ensured only by an inextricably interconnected set of all essential features of the claimed device, reflected in the formula of the utility model. The description and examples also fully disclose the purpose of the utility model and prove its implementation.

Claims (6)

1. A march of a composite stringer staircase, consisting of side support plates connected in series one after another, each of which has a flat corner shape and contains mounting holes located at least 2 on each side of the corner plate; steps resting on base plates; internal crossbars fixed between the side support plates in such a way that the pairwise connection of adjacent side support plates is carried out by fixing the internal crossbars through their mounting holes corresponding to the same level, while simultaneously forming 2 stringers, characterized in that each step is simultaneously connected to sequentially located adjacent side plates. 2. The march according to claim 1, characterized in that the inner ribs of the side support plates of the angular shape form a right angle between them. 3. The march according to claim 1, characterized in that the inner ribs of the side support plates of the angular shape form an angle greater than a right angle between them. 4. The march according to claim 1, characterized in that at one end of the side support plates and at their inner corner there are landing elements for attaching steps to them. 5. The march according to claim 4, characterized in that on one end of the side support plates a landing element is made in the form of a plate, and on their inner corner a landing element is made in the form of a corner for attaching steps to them. 6. March according to any one of paragraphs. 4, 5, characterized in that the fastening of the steps to the landing elements of the side support plates is carried out using threaded fasteners.

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