RU219028U1 - Balcony - Google Patents

Abstract

The utility model relates to the field of construction, in particular to the construction of a balcony that can be mounted on buildings for various purposes (industrial, public and residential). The balcony contains a base with uprights and fasteners, including vertical and horizontal shelves. The racks are L-shaped, the horizontal shelves of the racks are connected with the horizontal shelves of the fasteners, and the vertical shelves of the fasteners are made with a length not less than the length of the vertical shelves of the L-shaped racks. The technical result consists in increasing the area of the supporting surfaces of the balcony, which ensures the creation of a reliable balcony with a simple design of fastening to the wall surface.

Description

The utility model relates to the field of construction, in particular to the construction of a balcony that can be mounted on buildings for various purposes (industrial, public and residential).

At present, the issue of operation of housing stock buildings with emergency balconies is quite acute. One of the solutions to the problem is the complete replacement of the emergency balcony.

The prior art suspended balcony system, disclosed in patent DE20318088, publ. 03/18/2004. The suspended balcony system has balcony platforms attached to the wall at two corner points on one side of each balcony platform and hanging on the other side on tension elements fixed on two cantilever beams installed on the wall of the building. Tension elements are made in the form of metal rods of circular cross section and pass sequentially through all balconies located one below the other (ie each balcony is in the projection of the superior balcony).

The known technical solution is characterized by low reliability of attachment to the wall of the building, as well as the complexity of installation. This is due to the fact that many balconies in a vertical row hang on only one pair of cantilever beams that take excessive loads during operation. At the same time, fastening even one balcony to such cantilever beams when fixing only at two corner points of the balcony area does not provide sufficient rigidity for fixing the balcony to the wall of the building: the cantilever beams bend over time and this deformation is the faster and more, the greater the weight of the platform and its dimensions, which leads to a gradual slope of the platform and pulling out of the attachment points to the wall.

A balcony is known, including a platform made in the form of a frame structure with a concrete slab and a fence (RU2133319, publ. 20.07.1999). On one side, the platform is attached to the outer surface of the building wall with the help of hinges, and on the opposite side it is suspended with at least two ties, each of which is passed through a hole made in the building wall, for example, at the ceiling level and near the side wall of the living quarters, with the possibility of its axial shift and fixed indoors. The connections are made in the form of cables or hinged multi-link of rods and plates.

The disadvantage of the known device is the low reliability of the design and the difficulty of attaching the balcony to the wall of the building. This is due to the fact that the installation of the balcony platform is carried out using special elements (hinges) that are pre-installed on it and require the corresponding mounting holes in the wall, as well as with the help of cables, for the fastening of which it is also necessary to make mounting holes. A large number of holes increases the time spent on installing a balcony: you must first drill all these holes, and then match all the hinges and cables with the mentioned holes. Given that the connections used are made in the form of cables or hinged multi-link rods and plates, i.e. have increased lability, then it is very difficult to center them relative to the mounting holes, keeping the concrete platform in the air. All of the above leads to a large congestion of the wall surface with attachment points, which weakens its bearing capacity and can lead to its (wall) destruction and the fall of the balcony. In addition, the absence of a rigid fixation of the platform in the overall structure, its fastening to the wall with hinges leads to oscillations of the opposite side of the platform, which increases the load on the cables (hinged rods) and creates forces that pull out the fastening of the cables from the wall. At the same time, both cables and multi-link hinges, even if they are securely fastened, cannot withstand heavy loads (the weight of the slab in combination with objects and people standing on the site), especially in long-term operating conditions: the cables gradually stretch, which leads to platform deviation from a given position (it leans) and, accordingly, to their destruction.

The closest in technical essence is a balcony, which includes a frame with a platform, fixed on the wall of the building with the help of connecting elements in the form of brackets-grabs (L-shaped), placed in the wall in the plane of the level of the railing (fence), and stretch marks (cables), fixed by means of bolts placed in holes formed in the wall (RU2070256, publ. 12/10/1996). From inside the building, the grippers are attached to the wall with bolts and nuts, and outside the building, to the railing (fence) - with the help of clamps.

A disadvantage of the known device, taken as a prototype, is the low reliability of the balcony design, due to the following. Clamps-clamps are L-shaped and rest against the wall from the inside of the building with vertical shelves. However, the shelves have a small area of the supporting surface, and the clamps themselves are located in the plane of the level of the railing (fence). During the operation of the balcony, such a design of the grippers and their location leads to a moment of force of a significant magnitude, pulling the grippers out of the wall: their shelves are pressed into the wall, destroying it and reducing the bearing capacity of the wall. In addition, brackets-grabs outside the building are attached to the railing, i.e. form a non-rigid connection, and such a connection is made with clamps, which together does not ensure the reliability of the connection: when the balcony is loaded, the specified connection is destroyed and the balcony falls.

Thus, it is a technical challenge to provide a secure balcony with a simple structure for attaching to a wall surface.

The technical result consists in increasing the area of the supporting surfaces of the balcony.

The technical result is achieved due to the fact that in the balcony containing the base with uprights and fasteners, including vertical and horizontal shelves, according to the utility model, the uprights are L-shaped, the horizontal shelves of the uprights are associated with the horizontal shelves of the fasteners, and the vertical shelves of the fasteners are made with a length not less than the length of the vertical shelves of the L-shaped racks.

In private embodiments of the utility model, the fasteners are T-shaped or L-shaped; racks and fasteners are made of profile pipes of square or rectangular section; the base is provided with a fence; the joint of the profile pipes of the racks and fasteners is made by installing one pipe in a pre-made hole in one of the sides of the other pipe.

The claimed design features of the device provide the support surfaces of the balcony in three planes (on the outer surface of the wall, on the inner surface of the wall and in the horizontal plane, on the surface of the mounting holes in the wall), which allows minimizing the amount of torque that occurs at the attachment points of the balcony during operation . Particular embodiments of the utility model enhance the achievement of the claimed technical result under certain operating conditions. So, varying the configuration of the racks and fasteners (T-shaped or L-shaped), the cross-sectional shapes of the pipes and the features of their articulation allows you to select the most suitable balcony parameters depending on the dimensions of the base, the state of the bearing (mounting) wall and operating conditions (for example, taking into account the presence of snow / wind load).

The claimed device is illustrated in the drawings, where Fig.1 shows a general view of the balcony in a perspective view, Fig. 2 is a schematic representation of a balcony with an angular base shape, in FIG. 3 is a schematic representation of a balcony with a semicircular base, fig. 4 - embodiment of the fastener (the vertical shelf is flat (in the form of a plate), and the horizontal shelf is made of a shaped pipe of square / rectangular cross section), in Fig. 5 - a balcony with fasteners, the vertical shelves of which are flat, and the horizontal shelves are made of a profile pipe of square / rectangular cross section, in Fig. 6 is a top view of the corner connecting the fasteners, in Fig. 7 - node for connecting profile pipes of racks and fasteners.

The balcony includes a base 1 with L-shaped posts 2 and fasteners 3. The base 1 can be made of any shape: rectangular, square, corner (Fig. 2), and also semicircular (Fig. 3).

The horizontal shelves of the racks 2 are connected with the horizontal shelves of the fasteners 3. Pairing can be performed in any way depending on the shape of the racks 2 and fasteners 3. In the preferred embodiment, the racks 2 and fasteners 3 are made of shaped pipes (square/rectangular section). In this case, the pairing of the horizontal shelves is implemented by installing the rack shelves into the inner cavity of the horizontal shelves of the fasteners with a minimum fit (Fig. 1). This causes a high degree of resistance to the mutual movement of the connected elements. In this case, the horizontal shelves of the racks can be welded to the surface of the vertical shelves of the fasteners (if a hole was previously made in the vertical shelves for welding, for example, in Fig. 1).

It is possible to perform the shelves racks 2 and fasteners 3 with flat (non-volumetric) horizontal shelves (not shown in Fig.). It is possible to perform fasteners 2 with a flat vertical shelf and a three-dimensional horizontal shelf, for example, from a profile pipe (Fig. 4-5).

It is possible that fasteners 2 are additionally connected to each other by a bar, angle or other profile, as shown in Fig. 6.

The vertical shelves of the fasteners 3 are made with a length not less than the length of the vertical shelves of the L-shaped racks 2. If the fasteners have vertical shelves with a length corresponding to the height of the room, then they can additionally be fixed to the ceiling and floor, for example, using plates as shown in Fig. . 1.

A platform (for example, concrete) is installed on the basis of 1 balcony. The base 1 is equipped with a fence 4, which can be made of any configuration from any materials. In FIG. 1, 5 shows a fence made of shaped pipes.

Fasteners 3 can be made T-shaped (Fig. 1) or L-shaped (not shown in Fig.) depending on the settings. So, for mounting on walls with a relatively low bearing capacity, the most optimal is the use of a T-shaped fastener, where the vertical shelf rests on the entire or most of the height of the room. In the case when the walls are strong (for example, monolithic), it is possible to use an L-shaped fastener.

Racks 2 can additionally be attached to the wall through vertical shelves, for example, using bolts located as shown in Fig.1, 5.

The balcony can be made angular, i.e. can be installed at the corner of a building. In this case, one or two posts 2 are made on the side of the base adjacent to the wall of the building, and one post on the side of the base farthest from the wall of the building. In FIG. 2 such racks 2 are marked with the symbol ⊗. In this case, the horizontal leg of the post, located on the side of the base farthest from the wall, is made with the possibility of its movement in the horizontal plane to mate with the horizontal leg of the corresponding fastener.

The nodes for connecting the base 1 with the posts 2, the fences 4 with the base 1, as well as the posts 2 themselves and the fasteners 3 from profile pipes can be made by installing one pipe in a pre-made hole in one of the sides of the other pipe with possible subsequent welding of the joints as shown in fig. 7. In this case, the installation of one pipe into another can be done in such a way that the end section goes out. This articulation of the nodes ensures their high strength and resistance to bending (to loosening), as well as to “pulling out” forces.

The claimed utility model makes it possible to implement a variety of architectural forms of balconies, increasing the total area of the building and ensuring high operational safety. The values of the calculated withstand loads correspond to the allowable loads on the balcony of the standard configuration. At the same time, the results of full-scale tests showed that the design of the balcony allows it to withstand higher than the permissible loads (up to 500 kg per 3 m ² ), while maintaining the integrity of the frame and the reliability of its fixation on the wall of the building.

Thus, the claimed utility model makes it possible to simplify the design of attaching a balcony to a wall of any thickness and quality.

Claims (7)

1. A balcony containing a base with uprights and fasteners, including vertical and horizontal shelves, characterized in that the uprights are L-shaped, the horizontal shelves of the uprights are connected to the horizontal shelves of the fasteners, and the vertical shelves of the fasteners are made with a length not less than the length of the vertical shelves L-shaped racks. 2. Balcony according to claim 1, characterized in that the fasteners are made in a T-shape. 3. Balcony according to claim 1, characterized in that the fasteners are L-shaped. 4. Balcony according to claim 1, characterized in that the racks and fasteners are made of shaped pipes of a square section. 5. Balcony according to claim 1, characterized in that the racks and fasteners are made of shaped pipes of a rectangular cross section. 6. Balcony according to claim 1, characterized in that the base is provided with a fence. 7. Balcony according to claims 4-5, characterized in that the joint of the profile pipes of the racks and fasteners is made by installing one pipe in a pre-made hole in one of the sides of the other pipe.

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