RU198776U1 - S-SHAPED BENCH FOR URBAN IMPROVEMENT, MADE ON A 3D PRINTER - Google Patents

Abstract

The utility model relates to the field of construction and can be used in the manufacture of construction products in the form of small architectural forms for the improvement of urban spaces - parks, squares, streets, etc. The bench, which includes a seat made of longitudinal elements, perforated cross-members mounted on a rigid frame, differs in that the rigid frame is made in the form of a volumetric element, including supports and a spatial inclined crossbar with through mounting holes for fastening the longitudinal elements of the seat, while the rigid frame is made on 3D printer with a single monolithic fiber-reinforced concrete S-shaped element, the longitudinal elements of the seat are made of wood-polymer composite, the perforated crossbars are made of a square profile with through mounting holes in the bottom wall, the connection of the longitudinal elements of the seat with the perforated crossbars is made through the corners with self-tapping screws, the connection perforated cross-members and rigid frame made of galvanized bolts and nuts. The technical result is the creation of a bench with a reduced labor intensity of manufacturing, ensuring quality and saving materials. 3 ill.

Description

The utility model relates to the field of construction and can be used in the manufacture of building products in the form of small architectural forms for the improvement of urban spaces - parks, squares, streets, etc.

Known bench containing a bar for the seat and legs, containing located under the seat and pivotally connected with the legs of the support, mounted with the possibility of rotation by 90 ° and removable bars, fixed on the supports by means of latches [1]. The disadvantage of the known design is the laboriousness of its manufacture and the presence of a large number of components.

The closest analogue to the claimed utility model is a bench, which includes a seat made of longitudinal elements mounted on a rigid frame fixed on lateral supports, while the frame is made of perforated cross-members and longitudinally installed pipes equipped at the ends with cylindrical threaded inserts, with locking fasteners, and lateral supports are made with through mounting holes [2]. The disadvantage of the known design is the increased consumption of materials due to the presence of a large number of constituent elements, the laboriousness of its manufacture due to the presence of welded and bolted joints of the constituent elements of the structure, reduced crack resistance and impact strength of the side supports made of concrete due to the lack of reinforcement, in the low architectural expressiveness of the bench due to the absence of curved shapes products and the presence of visible fasteners on the side supports.

The task of the utility model is to create a bench structure with high architectural expressiveness, reduced labor intensity of its manufacture, elimination of overspending of materials, with increased crack resistance, impact strength and the possibility of its manufacture on construction 3D printers.

The task is achieved by the fact that the bench, which includes a seat made of longitudinal elements, perforated cross members mounted on a rigid frame, is distinguished by the fact that the rigid frame is made in the form of a volumetric element, including supports and a spatial inclined crossbar with through mounting holes for fastening the longitudinal elements of the seat, while the rigid frame is made on a 3D printer as a single monolithic fiber-reinforced concrete element of the S-shape, the longitudinal elements of the seat are made of wood-polymer composite, the perforated crossbars are made of a square profile with through mounting holes in the bottom wall, the connection of the longitudinal elements of the seat with the perforated crossbars is made through the corners with self-tapping screws, the connection of the perforated crossbars and the rigid frame is made with galvanized bolts and nuts.

FIG. 1 shows a general view of the bench; in fig. 2 is a top view of the bench; FIG. 3 is a diagram of the arrangement of holes in the lower wall of the perforated cross member.

The bench is made as follows.

A rigid frame in the form of a volumetric element, including supports 1 and a spatial inclined girder 2, is made by a single monolithic fiber-reinforced concrete S-shaped element by layer-by-layer extrusion (3D-printing) on a construction 3D-printer (for example, AMT S-6044 by LLC SPECAVIA ") in accordance with a three-dimensional digital model in a position perpendicular to its design position.

Perforated crossbars 3 are made of a square profile with through mounting holes 4 in the bottom wall, into which galvanized bolts are installed 5. Longitudinal seat elements 6 made of wood-polymer composite are installed on perforated crossbars 3 using corners 7 and self-tapping screws 8.

Through-hole mounting holes 9 are made in the body of the support 1 for fastening the perforated cross-members 3. The connection of the perforated cross-members with the support 1 is carried out using galvanized bolts 5 and a nut 10.

Erection of a rigid frame on a construction 3D printer will make it possible to create complex curved shapes, which will give the product an architectural expressiveness, and will reduce the labor intensity of its manufacture.

The use of perforated crossbars 3 from a square profile with through mounting holes 4 in the bottom wall will allow for hidden fastening of the longitudinal elements of the seat 6 on the supports 1, which will give the product an architectural expressiveness.

The absence of a large number of components of the bench will allow to exclude overspending of materials, to reduce the labor intensity of its manufacture.

The S-shape of the rigid frame will allow it to be installed on a base that is not aligned in height under the entire bench area, as well as to increase its architectural expressiveness.

The use of fiber-reinforced concrete in the manufacture of rigid frame 1 will increase the fracture toughness and impact strength of the structure.

The technical result of the utility model consists in reducing the labor intensity of its manufacture, eliminating waste of materials, increasing architectural expressiveness, crack resistance, impact strength and the possibility of manufacturing a bench using construction 3D printers.

Thus, the proposed solution makes it possible to obtain an aesthetically attractive bench on a construction 3D printer with a reduced labor intensity of manufacture, while ensuring quality and saving materials.

Sources of information:

1. A.S. USSR 353712, A47C 11/0, Bench, Zlotnikov K.G., Yasnogorodsky E.I., app. 01.21.1970, publ. 09.10.1972, bul. No. 30.

2. A.S. 48725, А47С 11/00, Bench, Vopilov EA, patentee Limited Liability Company "Grancom", Appl. 15.06.2005, publ. 10.11.2005, bull. No. 31.

Claims (1)

A bench including a seat made of longitudinal elements, perforated cross-members mounted on a rigid frame, characterized in that the rigid frame is made in the form of a volumetric element, including supports and a spatial inclined crossbar with through mounting holes for fastening the longitudinal elements of the seat, while the rigid frame is made on 3D printer with a single monolithic fiber-reinforced concrete S-shaped element, the longitudinal elements of the seat are made of wood-polymer composite, the perforated crossbars are made of a square profile with through mounting holes in the bottom wall, the connection of the longitudinal elements of the seat with the perforated crossbars is made through the corners with self-tapping screws, the connection perforated cross-members and rigid frame made of galvanized bolts and nuts.

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