Production and auxiliary building of an industrial enterprise - foundry

Contents

Introduction

Basic Space Planning Solutions

Main structural solutions of industrial building

Bases

Foundation beams

Walls

Windows, doors and gates

Floors

Interior and exterior finishes

Roof and lantern of industrial building

General plan

Calculation of administrative and domestic premises

Thermal engineering calculation of enclosing structures of ABK

Lighting Engineering Calculation

Drain Calculation

Technical and economic indicators

Conclusion

List of used literature

Paper

In this course project, the production and four-story auxiliary buildings of an industrial enterprise located in the city of Magnitogorsk were designed.

Volume of explanatory note: 57 sheets, 7 figures, 1 table. The graphic part contains 3 sheets of A1 format (594 x 841mm.)

The purpose of the course work is: the design of the production building according to the attached scheme of the building plan, as well as the design of the auxiliary building based on the areas.

The subject of the course project is an industrial building located in Magnitogorsk.

Introduction

The design of production and auxiliary buildings of an industrial enterprise is relevant at all times. An industrial enterprise is a combination of tools and means of production of buildings, structures and other material funds used for the production of any product.

The huge scale of construction and reconstruction of industrial enterprises requires the rapid development and improvement of construction equipment, the creation of progressive types of production buildings, an increase in the production of construction materials, a decrease in cost, a reduction in the construction time, an increase in labor productivity, an improvement in the quality of construction and its further industrialization. The faster economical production buildings are put into operation, the greater the amount of construction can be at the same monetary cost.

Improving the quality of construction and architectural solutions of industrial buildings is also of great economic importance, as it increases the life of buildings and reduces the cost of their operation and repair.

The project develops architectural, structural solutions of the industrial building taking into account the given dimensions, materials, target orientation and basic regulatory requirements, as well as an administrative and household building designed on the basis of calculations.

Basic Space Planning Solution

By configuration, the building in the plan is rectangular. The dimensions of the building in axes 147.27 m in length, 84 m in width. The total height of the building is 21.9 meters, the building has five spans. The first span is a stock warehouse with a height of 16.2 meters, equipped with a crane with a lifting capacity of 10 tons; the second span is a furnace compartment with a height of 16.2 m, equipped with a crane with a lifting capacity of 10 tons; the third span - press compartment 18 m high, equipped with a crane with a lifting capacity of 32 tons; the fourth is a warehouse of finished products with a height of 18 m, equipped with a crane with a lifting capacity of 508K tons; fifth - pump compressor substation 8.4 m. Structural diagram of the building: Building with full frame, frame material - prefabricated reinforced concrete structures. References-Longitudinal coordinate axes extend along the outer face of the end columns.

Main structural solutions of industrial building

Foundations.

The foundations are monolithic, columnar, glass type. Under the column with a section area of ​ ​ 1.4x0.6 m, the reinforced concrete three-stage foundation F-1 was designed

(3.2x2.4m), reinforced concrete three-stage foundation F-2 (3.2x2.6m) designed under 1.4x0.8 m, reinforced concrete three-stage foundation F-3 (3.2x3.4 m) is designed under 1.4x1.6 m, reinforced concrete three-stage foundation F-4 (2.1x2.1 m) designed for 0.3x0.3 m, under 2.56х1.65 m the reinforced concrete three-stage foundation of F-5 (4.36х3.44 m) is designed, reinforced concrete three-stage foundation F-6 (3.7x2.4 m) designed for 1,9x0.6 m, under 1.9х1.6 m the reinforced concrete three-stage foundation of F-7 (3.7х3.4 m) is designed, under 1, 4x1.76 m, reinforced concrete three-stage foundation F-8 is designed (3 .2x2.96 m), under 0.6x0.4 m reinforced concrete three-stage foundation F-9 (2.4x2.2 m) is designed, under 1,9x1.76 m

the reinforced concrete three-stage foundation of F10 (3.7х3.56 m) is designed,

Administrative - domestic premises

We use a full frame with longitudinal and transverse girders with ribbed slabs with a thickness of 0.3 m and hinged panels.

Prefabricated columns in one floor have a constant cross section of 0.4x0.4 m. The conjugation of the crossbar with the column is carried out with a "hidden" console, which naturally improves the internal design of the rooms.

T-section girders with a height of 0.2 m have shelves. On which prefabricated ribbed reinforced concrete slabs of floors are laid.

In addition to the rooms laid down according to the standards, there are provided: a room for eating with washing and cubed at a rate of 0.35 m2 per working first shift, an office of the head and chief engineer with a reception area of ​ ​ 60 m2, a safety room with an area of ​ ​ 24m2, a laboratory with 30 m2 area.

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