RU203099U1 - SUPPORT UNIT OF METAL CONSOLE FARM TO HORIZONTAL CONCRETE SITE - Google Patents

Abstract

The utility model relates to the field of construction, namely to the support devices of metal cantilever trusses. It solves the problem of increasing the reliability of cantilever trusses by reducing the tensile forces caused by the operation of the truss under load. The node of a metal cantilever truss to a horizontal concrete platform contains a horizontal concrete platform 1, an outlet for the upper girder of the truss 2, a base plate 3, a group of anchors 4, vertical ribs 5, outlets of reinforcement of a concrete array 6, a monolithic layer of reinforced concrete 7, laid on top of a concrete platform. During the operation of a metal cantilever truss, vertical ribs and a monolithic layer of concrete create the possibility of even distribution of stretching forces over a horizontal concrete platform. As a result, tensile forces in the anchor bolts are reduced and tensile stresses in the concrete mass are reduced. At the same time, reliability is ensured by a layer of monolithic concrete laid on top of the support units. This makes it possible to increase the operational safety of the metal cantilever truss and the concrete array in general. 2 ill.

Description

The utility model relates to the field of construction, namely, to the support nodes of metal trusses, and can be used when installing cantilever trusses on existing concrete sites.

A feature of the operation of a metal cantilever truss is the occurrence of tensile forces in the area of the attachment point to the concrete platform. This creates a threat of cracks in the concrete and reduces the reliability of the cantilever truss and the concrete structure as a whole. This effect is most clearly manifested in a narrow horizontal concrete area, on an already constructed concrete structure.

Known support node of the metal truss to the column. The specified unit includes the lower chord of the truss, the support brace, the support post, vertical gussets (see USSR patent No. 962497). In this design, the support unit interacts with the metal column through the support rib of the lower chord of the truss.

The disadvantage of this analogue is the fact that its operation can be ensured with the possibility of organizing symmetrical support nodes at the ends of the lower chord of the truss to the metal columns by means of welded seams. This makes it impossible to use this constructive solution when installing cantilever metal trusses on a concrete site.

The prototype of the proposed technical solution is the Organization Standard STO 36554501-048-2016 “Anchors to concrete. Design rules "JSC" Research and Development Center "Construction", 2016, a support anchor node, including a group of anchors, a base plate, a concrete platform. The support assembly in the prototype is attached to a concrete pad. However, the use of such a support unit is possible only through anchoring to concrete by means of anchors and excludes the distribution of tensile forces over the site.

The proposed utility model is aimed at solving the problem of increasing the reliability of a cantilever platform together with a concrete structure, by reducing the forces arising in the attachment point, and as a result, reducing tensile stresses in concrete.

To achieve the specified technical result, in the attachment point of the metal cantilever truss, including vertical ribs for reinforcing the monolithic layer of reinforced concrete, welded to the base plate and to the release of the girder belt, the attachment points of the outlets of the reinforcement of the concrete platform.

In addition, the claimed utility model is characterized by the following:

- vertical ribs can be replaced with reinforcing bars welded to the base plate;

Thanks to the implementation of the distinctive features of the proposed technical solution in conjunction with the features common to the prototype, the claimed object has new properties: vertical ribs welded to the base plate. At the same time, the reliability of the cantilever farm is increased.

The essence of the claimed utility model is illustrated by the drawings, where Fig. 1 shows a section of the proposed device in plan, Fig. 2 is a cross-section.

In this specific example of execution, the claimed object contains: 1 horizontal concrete platform, 2 outlet of the upper girder of the truss, 3 base plate, 4 group of anchors, 5 vertical ribs, 6 outlets of concrete array reinforcement, 7 monolithic layer of reinforced concrete laid on top of the concrete platform. In each case, the dimensions of the concrete horizontal platform are determined by the dimensions of the structure.

The proposed device works as follows.

During the operation of the metal cantilever girder, the upper crossbar 2 is fixed on the horizontal concrete platform 1 with the help of a base plate 3, a group of anchors 4. A reduction in tensile forces is achieved due to vertical ribs welded to the outlet of the upper crossbar 2, the base plate 3 and to the outlets 6. After installation, the device is poured from above with a layer of monolithic reinforced concrete 7, due to this tensile stresses in the concrete of the horizontal concrete platform are practically excluded. At the same time, the reliability of the metal console truss is increased.

Thus, the advantage of the proposed technical solution over the prototype is a significant reduction in tensile forces and stresses caused by the operation of the cantilever truss. This makes it possible to increase the reliability of the cantilever truss and the concrete mass as a whole.

The proposed technical solution can be implemented using known building materials and technologies for all known types of support units.

Claims (1)

A support node of a metal cantilever girder to a horizontal concrete platform, containing an upper transom fixed on a horizontal concrete platform through a support embedded plate using a group of anchors, horizontal outlets of the upper girder of a truss, vertical outlets of reinforcement of a horizontal concrete platform, vertical ribs and a monolithic layer of reinforced concrete laid on top concrete platform, characterized in that the vertical ribs for reinforcing the monolithic layer of reinforced concrete are welded to the horizontal outlets of the upper girder of the truss, to the base plate and to the vertical outlets of the reinforcement of the horizontal concrete platform.

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