SU1726707A1 - Production building - Google Patents

Abstract

Usage: construction of industrial buildings, reducing material consumption of the building and the complexity of the transformation of the frame. SUMMARY OF THE INVENTION: The multi-storey frame is separated by a gap from the external enclosure and is connected with it by flexible connections in the level of floors. Racks are equipped with supporting metal shoes with anti-friction gasket on the bottom surface and rigidly connected to the base plate with the possibility of a connector. The base plate is separated by a gap from the foundations of the outer fence. Crane equipment is suspended from the coating. 7 il.

Description

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The invention relates to the construction and can be used in the construction of multi-storey industrial buildings of multi-purpose with the possibility of skeleton transmutation, when creating production facilities with flexible technology and the need for frequent renovation and technical re-equipment.

The purpose of the invention is to reduce building materials and the labor intensity of the carcass transformation.

FIG. 1 depicts an industrial building; in fig. 2 — node I in FIG. one; Fig. 3 is the same, a variant with a flexible connection in the form of a spring; in fig. 4 - node II in FIG. 1; in fig. 5 - section bb In FIG. 4; in fig. 6 is a node III in FIG. one; in fig. 7 - section DD in FIG. 6

The multi-storey industrial building consists of a covering 1 supported on the outer fence 2, the frame of which 3

installed on foundations 4 and connected to the frame 5 of the building with flexible connections 6 placed in the level of floors 7.

The foundation 8 of the building frame is designed as a single slab and installed with a gap relative to the foundations 4 of the outer fence 2. The stands 9 of the building frame are equipped with supporting metal shoes 10 with antifriction gasket 11 on its bottom surface and are rigidly attached to the base plate 8 with the possibility of a connector , for example, anchors 12 in the form of bolts or studs, fixed in the sleeves 13, which are monolithic or vibrozachekaneny in the base plate 4,

The outer fence 2 can be made of reinforced concrete, steel or mixed structures, and flexible links 6 - in the form of sheet hinges 14 or springs 15, fixed at the ends of the corners 16 by fasteners 17 with the ability to transfer horizontal forces.

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Racks 9 and girders 18 of the building framework can be made typical of split or continuous through paired or built, mutually intersecting each other at the nodes of their intersection.

Crane equipment 19 is attached to the coating 1.

Technological equipment 20 is built in the interfloor spaces of the frame. The frame racks 9 can be placed with constant or variable pitch and span dimensions, and interfloor overlaps 7 can be made continuous or intermittent in plan and at the same or variable elevations along the floors.

Multi-storey industrial building is mounted as follows.

A complex of zero-cycle works with the installation of all permanent engineering networks (not shown), basement plates 4 under the frame 3 of the outer fence 2. Then the soil or sand base 21 is prepared, on which the basement plate 8 is laid. the frame 3 is mounted, on which the outer fence 2 and the cover 1 are fixed. To the cover 1, crane equipment 19 is fastened. In the foundation slab 8, holes are drilled in the necessary places, in which the bushings 13 are installed and fixed among them Twomey embedment or vibration Crimping. Then the steel shoes 10 are installed with an anti-friction gasket 11 while simultaneously fastening the shoes 10 to the base plate 8 using anchors 12 and bushings 13. After that, the lower ends of the uprights 9 are installed in the shoes 10 with their fastening or other known connections. Racks 9 mount crossbars 18 of the building framework, and overlaps 7 are installed on them, on which technological equipment is placed 20. Installation of the framework and technological equipment 20 is performed by crane equipment 19. In the floor levels 7 of the framework and in the corresponding levels of the framework 3 of the outer fence 2 fixes the corners 16 in pairs and using

fasteners 17 attach one-sided sheet hinges 14 or springs 15 to them. Other known one-way hinge constructions are also possible.

If it is necessary to dismantle the building framework associated with a change in the flexible technology and the need to reconstruct the building, the dismantling of the framework is carried out in reverse order. After that, the shoes of the 10 pillars 9 are shifted to a new position on the foundation plate 8 using an anti-friction gasket 11. At the installation site of the shoes 10 in the plate

of the foundation 8, they drill holes and install bushes 13 with a vibro-capping them in concrete, and then the anchors 10 are attached to them with anchors 12. After this, the installation

frame elements and technological equipment 19. The outer fence 2 and the cover 1 with the crane equipment 19 remain unchanged. One-way hinges 14, 15 reduce the distance between the pivot points of the frame 3 of the outer fence 2 to the frame of the building, thereby reducing the calculated bending moments and, therefore, reducing the consumption of materials.

Claims (1)

Claims of the invention A production building comprising foundations, a frame of struts and girders, a coating supported on an external enclosure separated from the framework by a gap and attached to it by flexible couplings, and crane equipment, so as to reduce the building materials intensity and labor-intensive at transformation of the frame, the latter is made multi-storey and installed on the foundation in the form of a single slab, located with a gap relative to the foundations of the outer fence, and the posts are equipped with supporting metal shoes with an anti-friction gasket on the bottom surface and rigidly attached to the base plate with the possibility of a connector, with flexible connections placed in the level of the floors, and crane equipment attached to the floor. figure 1 FI.2 fig.Z in to /five / 5 years Sh fJL ± thirty FIG. b