SU996666A2 - Building roof - Google Patents

Description

(54) COATING BUILDING

The invention relates to construction, especially to building coatings with U-shaped light emitting diodes.

According to the main author. St. No. 863793. a building covering is known, including longitudinal bearing elements, plates supported on them for a span with a U-shaped light emitting lamp longitudinally on them with plates, and a width equal to the width of plates for a span ... Coating. equipped with triangular frames with an elongated part of one of the corners, installed on both sides of the U-shaped lantern with a step equal to two; The length of the plates, each triangular frame attached by a base of the triangle, equal to the width of the plate, to the transverse ends of the plates is a lantern, and the end of the elongated part of the frame to the adjacent ends of the longitudinal edges of the plates to the span, and the plates. the lantern covers are shifted by the width of their width relative to the plates on the span 13.

The disadvantage of this solution is that the size of the span of the coating is limited to the span of gli; s, 24 m. Longer lengths, you are not made for span because of the difficulties of transportation, and in industrial construction there is a need for. device buildings. 30 and 36 m.

The purpose of the invention is to expand the scope.

The goal is achieved by providing the building with braces, and

The 10 plates for the span are made up of several plates joined together by the ends of the longitudinal ribs, with each joint attached at one end to the end of the longitudinal edge of the plate of the lantern, and the other end to the node connecting the ends of the longitudinal edges of the plates to the span.

FIG. 1 shows the coating

20 in plan; in fig. 2 shows section A-A in FIG. 1} on .fig. 3 shows a section BB in FIG. one..

Coverage includes extreme plates for span 1, medium plates for

25 span 2, plates 3 and 4, a lantern, reinforced concrete triangular, lantern panels 6, sash 7 glazing, longitudinal beams 8, braces 9.

In the embodiment of plate 1.2 and

30 3 have a size of 3x18 m. Plates 4 of the lantern cover are complementary. And have a size of 1.5x18 m. The length of the beams 8 corresponds to the pitch of the columns and can be 6.12 or 18 m.

In the coating, QLS cladding panels are used as slabs for span and barrier elements of the lantern, although other types of reinforced concrete coating elements can be used, for example slabs of type P. span.

On the longitudinal beams 8, plates are supported on the span 1 and 2, on which the lamp panels 6 are placed and attached to them. On the lantern panels 6 are supported and plates 3 and 4 of the lantern cover are connected to them. From the outside of the building, elements 5 are inclined, made in the form of reinforced concrete frames (it is also possible to frame steel frames) with a triangular outline with an elongated part at one of the nodes, and from the other two nodes the width of these frames is equal to the width of the covering plates, equal to 3 m. The frames 5 are arranged with a pitch equal to the double width of the covering plates -6m. At the bottom of the frame 5, with its elongated part, are connected to the ends of the longitudinal edges of the plates for a span, at the top are connected to the ends of the longitudinal edges of the plates 3 cover lantern. The attachment points of the frames 5 are made by welding through embedded parts with their subsequent concreting.

In cross-section, the coating has two plates per span 2, connected by the ends of the longitudinal ribs in the middle of the span. In addition, each node connecting the ends of the longitudinal edges of the plates to the span is connected by braces 9 to the ends of the longitudinal edges of the slab covering the lantern placed above this node. These structural differences allow, for example, to construct covers of 36 m in length from 18-meter plates. If necessary, 30-meter coating devices can be used to make 3x15 m shortened plates in a 3x18 plate snap-in.

The proposed solution also makes it possible to arrange a span of more than 36 m. Using a 3x24 m plate, receive a span of 48 m. At the same time, a 48 m span can be obtained from two 3x18 m plates and an insert between them measuring 3x12 m. And the insert can be made in equipment of a plate of 3x18 m

In a static relation, this solution differs from the main one in that the device of braces 9 significantly reduces the bending moments in the longitudinal edges of the plates for the span in the sub-part. This, in turn, causes a corresponding simplification of the constructive solution of the nodes that align the ends of the longitudinal ribs on the span, since in these nodes it is necessary to ensure the perception of normal tensile forces with minor bending moments. The knot of connecting the ends of the extreme longitudinal edges of the plates 1 is supported by means of a half-timbered column (conventionally not shown). "The design of the nodes of the connection of the longitudinal edges of the plates on the span can

JQ have known welding solutions through embedded parts.

The device of braces 9 also provides a more rational distribution of forces in other elements of the coating, increasing its rigidity.

5 overall. The braces 9 work for stretching and therefore they are provided for with steel. The bracing should also be carried out in the form of composite elements. These elements

0 represents a steel core in a reinforced concrete prestressed sheath that does not adhere to the core and is connected to it only at the ends. Proposed

5, the solution allows, with a low consumption of concrete for the shell, to bring the fire resistance and corrosion resistance of the steel core to the level of reinforced concrete.

0 Installation of the coating can be carried out by known methods, for example, it is possible to mount the coating with a device of temporary supports, on which the ends of the plates rest on the span connected to each other. Temporary supports are removed after all coating elements are attached to the installation site with their subsequent transfer to a new installation site. For example, one mounting jaw can be a coating cell of 6x36 or 12x36 m.

When arranging coatings with an area of more than 15 thousand m, it is advisable to use a large-block installation method with

5 assembly of the mounting block on the conveyor with the device on it of the roof, all technological communications and the supply of the block by the installer. To the installation site.

 The installation tools mastered by the builders allow the installation of blocks weighing more than 170 tons. This provides in the proposed solution the possibility of mounting the assembly unit

5 size 12x36. With less powerful means of installation, the block can be arranged in the size of 6x36 m.

Thus, this solution allows using convenient

transporting slabs to a span of 3x18 m to arrange lamp covers of buildings with a span of 36 m or more. In this case, if a large-block method of mounting is used, the efficiency of this method

Claims (1)

Claim Building cover by ed. St. No. 863793, characterized in that, in order to expand the scope, the coating is equipped with yen braces composed of several plates joined together by the ends of the longitudinal ribs, with each brace attached at one end to the end of the longitudinal ribs of the lantern plate, and the other end to the node connecting the ends of the longitudinal ribs of the plates to the span.