RU172678U1 - ROW - Google Patents

Abstract

The utility model relates to building elements used to decorate buildings, bridges and aprons, providing users with a foothold when walking along the structure and preventing them from falling beyond the perimeter of the structure, namely the railing. Railing, consisting of two racks interconnected by two horizontal elements, between which there is a filling element made of a composite material based on a binder and fiber and fastened together by fastening elements, according to the claimed solution, the composite material includes a filler and a coating is located on its surface . The technical result of this utility model is to increase fire resistance through the use of filler, which reduces the combustibility of the finished product, as well as by coating the surface of the product, preventing the burning of the product while increasing its resistance to UV radiation due to the specified coating.

Description

Technical field

The utility model relates to building elements, namely, to the railing used to decorate buildings, bridges and aprons, providing users with a fulcrum when walking along the structure and preventing them from falling outside the perimeter of the structure.

State of the art

New generations of composite materials based on basalt, carbon, polyester, para-aramid, meta-aramid, polyacrylonitrile fiber, fiberglass and latex binder, epoxy binder, polyester binder, organosilicon binder, vinyl ester binder, phenolic binder, polyurethane binder are known in the art. based on thermoplastics, a binder based on elastomers. Such materials begin to be widely used in the manufacture of various elements of building structures, as they have several advantages over traditional materials (metals), such as tensile strength, low weight, corrosion resistance, heat-insulating properties, and long service life. The disadvantage manifested in the manufacture of these composite materials is the high adaptability of the process and its low production speed compared to the manufacture of metal parts by traditional methods - stamping, cutting, welding.

Non-combustible mineral fillers — calcium carbonate, dolomite, stone dust, talc, aluminum hydroxide — are also known in the art. In addition, flame retardant coatings are known from the prior art — paint coatings, film coatings, powder coatings in the form that swell under the influence of high temperature (plasticize, then expand by foaming, and then harden to form a layer of burnt foam ), or turn into a glassy coating, which prevents the further combustion process.

The closest technical solution, selected as the closest analogue, is the fence, known from the patent for utility model of the Russian Federation No. 125235 dated 08.21.2012 IPC E04H 17/14, made sectional, with at least one section made of composite material based on unsaturated polyester resins with the addition of alkali-free fiberglass yarns and contains racks made of pipes of rectangular cross-section, located between the racks of the upper and lower horizontal crossbars with vertically fixed them E strips, with upper and lower horizontal cross member are made of tubes of rectangular cross-section, wherein the vertical slats are secured on horizontal crossbars by means of fastening elements arranged in the openings formed in the horizontal crossbeams. Fencing made of composite material provides high strength and excellent mechanical properties, and also reduces weight with comparable strength characteristics. While the disadvantages of this support are manifested during its operation in the form of susceptibility to burning and destruction as a result of solar UV radiation.

Utility Model Disclosure

The technical result of this utility model is to increase fire resistance through the use of filler, which reduces the combustibility of the finished product, as well as by coating the surface of the product, preventing the burning of the product while increasing its resistance to UV radiation due to the specified coating.

The specified technical result is achieved using rails consisting of two racks interconnected by two horizontal elements, between which there is a filling element made of a composite material based on a binder and fiber and fastened together by fastening elements. According to the claimed solution, the composite material includes a flame-retardant filler, and a flame-retardant coating is located on its surface.

At the same time, as a filler increasing the fire resistance, mineral is mainly used. Thus, calcium carbonate and / or dolomite and / or stone dust and / or talc and / or aluminum hydroxide can be used as a mineral filler.

Also, as a flame retardant coating, a paint coating, or a film coating, or a powder coating in the form, is predominantly used.

In addition, the railing may further comprise at least one horizontal element.

Mostly the horizontal element located on top is made in the form of a handrail.

In addition, the filling element can be made in the form of at least one flat sheet or at least one sheet formed by a curved surface.

Also, the filling element can be made in the form of at least one pipe or at least one rod. In this case, the pipes and / or rods may have a rectangular, or square, or oval, or circular cross section.

In addition, the racks and / or horizontal elements can be made in the form of pipes or rods. In this case, the pipes and / or rods may have a rectangular, or square, or oval, or circular cross section.

As fasteners can use bolted connections, or screw connections, or stud connections.

Also, fastening elements can use elements of mutual fixation in the form of holes, and / or grooves, and / or recesses and their corresponding parts or embedded elements. Advantageously, the interlocking elements are located in the uprights and / or horizontal elements and / or the filling element.

In addition, a binder may be used as an attachment member.

In this case, basalt and / or carbon and / or polyester and / or para-aramid and / or meta-aramid and / or polyacrylonitrile fibers and / or glass fibers can be used as fibers.

In addition, a latex binder and / or an epoxy binder and / or a polyester binder and / or a silicone binder and / or a vinyl ester binder and / or phenolic binder and / or a polyurethane binder can be used as a binder, and / or a binder based on thermoplastics, and / or a binder based on elastomers.

Unlike the closest analogue, the railings are more fire resistant, because they contain a filler and have a coating, and are also more resistant to UV radiation due to the coating, which ensures the achievement of a given technical result.

Brief Description of the Drawings

The essence of the claimed utility model and the possibility of its practical implementation is illustrated by the following figure and description.

The figure shows a General view of the railing.

Utility Model Implementation

The proposed technical solution of the utility model is illustrated by the specific implementation of the proposed railing, however, the above example is not the only possible, but clearly demonstrates the possibility of achieving this set of essential features of the claimed technical result.

The railing consists of two racks 1, interconnected by two horizontal elements 2, as well as another additional horizontal element 3, made in the form of a handrail, while the number of additional horizontal elements is selected based on the required structural strength and design requirements. Between the horizontal elements 2 there is a filling element 4 made of pipes of circular cross section, instead of which pipes having a rectangular, or square, or oval, or round cross section, or rods having a rectangular, or square, or oval, or round can be used the cross section or the filling element can be made in the form of at least one flat sheet or at least one sheet formed by a curved surface, so the design of the filling element 4 is chosen raetsya based on the required strength of the structure and its design requirements. Also, the posts 1 and the additional horizontal element 3 are made of rectangular pipes, and the horizontal elements 2 are made of square pipes, instead of which pipes having a rectangular (in the case of horizontal elements 2) or square (in the case of racks 1 can be used) and an additional horizontal element 3), or oval, or round cross-section, or rods having a rectangular, or square, or oval, or round cross-section, which is selected based on the necessary other spine structures and its design requirements.

In addition, the racks 1, horizontal elements 2, an additional horizontal element 3 and the filling element 4 are made of a composite material based on epoxy binder and basalt fiber. In this case, instead of an epoxy binder, the following binders can be used - latex binder, polyester binder, silicone binder, vinyl ester binder, phenolic binder, polyurethane-based binder, thermoplastics-based binder, elastomer-based binder, as well as combinations thereof, depending on the required properties (time, temperature) of solidification of the binder and the applied production technology. Whereas instead of basalt fiber, the following fibers can be used - carbon fiber, polyester fiber, para-aramid fiber, meta-aramid fiber, polyacrylonitrile fiber, glass fiber, as well as combinations thereof, selected depending on the required strength and economy of the finished product.

In addition, the composite material of racks 1, horizontal elements 2, additional horizontal element 3 and filling element 4 includes a mineral filler - aluminum hydroxide, and on their surface there is a coating - paint and varnish coating, which contains intumescent substances that prevent combustion. In this case, instead of aluminum hydroxide, the following mineral fillers can be used - calcium carbonate, dolomite, stone dust, talc, and their combinations, depending on the viscosity of the binder, the curing speed of the binder and the economy of the filler. Also, instead of a paint coating, a coating in the form of a film, a coating in the form of powder coating in the form can be used, depending on the technology used and the availability of equipment.

Racks 1, horizontal elements 2, additional horizontal element 3 and filling element 4 are fastened together by fastening elements.

So, the horizontal elements 2 and the additional horizontal element 3 are fastened to the posts 1 by means of a bolt joint 5 and the mutual fixation elements in the form of holes 6 located in the posts 1 and the additional horizontal element 3 (not shown in the figure, since the holes of the additional horizontal element 3 racks inserted 1). In this case, instead of a bolted connection 5, a screw connection or a hairpin connection can be used, which is selected based on the required structural strength and design requirements. Also, instead of bolt joint 5, an adhesion agent in the form of a latex binder, an epoxy binder, a polyester binder, an organosilicon binder, a vinyl ester binder, a phenolic binder, a polyurethane based binder, a thermoplastic binder, an elastomer-based binder, and also a combination thereof can be used , selected depending on the required properties (time, temperature) of solidification of the binder and the applied production technology. In addition, instead of the elements of mutual fixation in the form of holes 6, elements of mutual fixation in the form of grooves and / or recesses and their corresponding parts or embedded elements could be used, which is selected based on the necessary strength of the structure and the requirements for its design.

In addition, the horizontal elements 2 are fastened to the filling element 4 in the form of pipes of circular cross-section by means of an adhesion agent in the form of an epoxy binder (not shown in the figure) and interlocking elements in the form of holes (not shown in the figure, since the holes in the horizontal elements 2 inserted pipes of circular cross-section of the filling element 4). In addition to the epoxy binder, the following binders can be used - latex binder, polyester binder, silicone binder, vinyl ether binder, phenolic binder, polyurethane based binder, thermoplastics binder, elastomer based binder, as well as combinations thereof, depending on the required properties (time, temperature) of solidification of the binder and the applied production technology. Also, instead of means for adhesion, a bolted connection, or a screw connection, or a hairpin connection can be used, which is selected based on the required strength of the structure and the requirements for its design. In addition, instead of the elements of mutual fixation in the form of holes (not shown in the figure, since pipes of circular cross-section of the filling element 4 are inserted into the holes of the horizontal elements 2), the elements of mutual fixation in the form of grooves and / or recesses and their corresponding parts or embedded elements that is selected based on the required structural strength and requirements for its design.

In this case, the pipes and / or rods used in the racks 1, horizontal elements 2, additional horizontal element 3 and filling element 4 can be manufactured by pultrusion, in which the roving (untwisted strand of fiber) is pre-dried and fed to the impregnation bath with a binder . Further, the roving impregnated with a binder passes through a molding device to give the necessary shape to the pipe or rod. Then, the formed fiber bundle enters the heated spinneret. In the die, the heating temperature is set depending on the type of binder used, fiber, the ratio of system components and the size of the profile cross section, while the effect of self-heating of the binder during the pultrusion process (exothermic reaction in the polymer) is additionally taken into account. The cured composite profile exiting the die is drawn and cut according to the desired length. In the process of manufacturing pipes and / or rods by pultrusion, filler is introduced into its composition. After curing, the resulting pipes and / or rods are coated.

The proposed railing is assembled from finished pipes and / or rods using fasteners or, if the pipes and / or rods contain elements of mutual fixation, using the latter. The rails of the proposed handrails are installed in supporting devices, for example, in structural fittings 7, mounted on the surface of buildings, bridges, platforms and other places where it is necessary to provide users with a fulcrum when walking along the structure and prevent them from falling outside the structure perimeter, or are installed in the return holes in the surfaces of these places, after which they are finally fixed, including using adhesive materials or fasteners, and are used for their intended purpose.

The implementation of the utility model is possible using existing means of production using well-known processes and materials.

Patent studies have shown that the set of essential features of a utility model is not known from the prior art.

Claims (16)

1. Railing, consisting of two racks interconnected by two horizontal elements, between which there is a filling element made of a composite material based on a binder and fiber and fastened together by fastening elements, characterized in that the composite material includes a fire-resistant filler, and on its surface is a flame retardant coating. 2. The railing according to claim 1, characterized in that the mineral filler is used as a fire-resistant filler. 3. The railing according to claim 2, characterized in that calcium carbonate and / or dolomite and / or stone dust and / or talc and / or aluminum hydroxide are used as a mineral filler. 4. The railing according to claim 1, characterized in that the paint coating, or a coating in the form of a film, or a coating in the form of a powder coating in the form is used as a flame retardant coating. 5. The railing according to claim 1, characterized in that it further comprises at least one horizontal element. 6. Railing according to claim 1, characterized in that the horizontal element located on top is made in the form of a handrail. 7. Railing according to claim 1, characterized in that the filling element is made in the form of at least one flat sheet or at least one sheet formed by a curved surface. 8. Railing according to claim 1, characterized in that the filling element is made in the form of at least one pipe or at least one rod. 9. Railing according to claim 1, characterized in that the racks and / or horizontal elements are made in the form of pipes or rods. 10. Railing according to any one of paragraphs. 8, 9, characterized in that the pipes and / or rods have a rectangular, or square, or oval, or circular cross section. 11. Railing according to claim 1, characterized in that bolted joints, or screw joints, or hairpin joints are used as fastening elements. 12. Railing according to claim 1, characterized in that the elements of mutual fixation are used as fastening elements in the form of holes, and / or grooves, and / or recesses and their corresponding parts, or embedded elements. 13. Railing according to claim 12, characterized in that the mutual fixation elements are located in the uprights and / or horizontal elements and / or the filling element. 14. The railing according to claim 1, characterized in that the adhesion agent in the form of a binder is used as fastening elements. 15. Railing according to claim 1, characterized in that the fiber used is basalt, and / or carbon, and / or polyester, and / or para-aramid, and / or meta-aramid, and / or polyacrylonitrile fiber, and / or glass fiber. 16. Railing according to any one of paragraphs. 1, 14, characterized in that the latex binder and / or epoxy binder and / or polyester binder and / or silicone binder and / or vinyl ester binder and / or phenolic binder and / or binder are used as a binder polyurethane based, and / or a binder based on thermoplastics, and / or a binder based on elastomers.

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