KR20090055944A - Shop building method using full module - Google Patents

Abstract

The present invention relates to a factory building method using a full module, and more specifically, to install the existing walls and floors, equipment, etc. in the field without building the factory, including both equipment and piping and the factory floor and walls, etc. It relates to the technology of completing the factory by assembling the full module in the field.

According to the present invention, in a factory building method of installing a deck plate on a floor at a site site, erecting a column, stacking walls, installing equipment, and then piping to complete a factory, each component for building a factory is individually Modularizing to form a full module; And presenting a factory building method comprising the step of completing the factory through the task of attaching, assembling and installing each module at a time by a plurality of workers at the same time using the full module. At this time, the component is a module mount 10, deck plate 20, steel structure module 30, filler and wall module 40, the sealing module 50, the structure joint 60, the compressor and A pump module 70, a pipereck module 80, an anti-vibration mount 90, and a vessel module 100 may be included.

Description

Shop building method using full module

The present invention relates to a factory building method using a full module. More specifically, the factory does not build a factory by installing existing walls, floors, and equipment in the field, and completes the factory by assembling and attaching a full module including equipment, piping, and the floor and walls of the factory. It's about technology.

At present, as the development of industrialized architecture in Korea expands, the types of buildings produced in factories are also expanding.

Conventional modular framing is a method of assembling / constructing a three-dimensional box-shaped unit component group manufactured / assembled in a factory to the site, such as electrical and mechanical equipment, interior and exterior materials including windows, and flooring. More than 70% of houses, such as ceilings, ceilings, toilets and kitchen appliances, are completed at the factory.

Modular houses to which the modular construction method is applied are box-shaped and can be used as single-family homes or multi-family homes by combining space unit components in up, down, front and back.

In addition, the prefabricated building manufactures modular units standardized for each function in a dedicated factory, transports the modular units to the site site, arranges the modular unit on the base of the site site, and stacks other modular units on the modular unit. It is completed by assembling these modular units.

In particular, when building a factory, it is commonly called a stick build, and a deck plate is installed on the floor at the site site, a column is set up, walls are installed, equipment is installed, and piping is completed to complete the factory. Pipe reckes are pre-assembled and installed as semi-modules or packages to reduce site workload.

These include deck plates installed on the floor, steel structures forming columns, panels that form outer walls, doors and windows, equipment installed in the factory, structures supporting the equipment and piping, air conditioning equipment in the factory, and electrical facilities in the factory. Included.

However, in the conventional construction method of the factory, the work takes place sequentially, it takes time, it is difficult for several workers to work at the same time, because the work occurs at a high place there was a high risk of safety problems. In addition, there is a problem that the working conditions worsened and the time required due to the weather.

Accordingly, the present invention is to solve the above problems, an object of the present invention by making a full module including all the equipment and piping, deck plate and column, wall, etc. by attaching them in the field to perform the operation It is to provide the construction method of the factory to complete the factory.

According to the present invention as a technical idea for achieving the above object of the present invention, the factory building method of installing a deck plate on the floor at the site site, erecting a pillar and then stacking the walls and installing the equipment, followed by piping to complete the factory A method comprising: modularizing each component for building a factory separately to form a full module; And presenting a factory building method comprising the step of completing the factory through the task of attaching, assembling and installing each module at a time by a plurality of workers at the same time using the full module.

At this time, the component is a module mount 10, deck plate 20, steel structure module 30, filler and wall module 40, the sealing module 50, the structure joint 60, the compressor and A pump module 70, a pipereck module 80, an anti-vibration mount 90, and a vessel module 100 may be included.

As described above, according to the present invention, by manufacturing each module at the same time in several places and installing only in the field, the overall construction time is shortened, the dangerous working conditions are reduced, the safety is increased, and the weather or the environment is hardly affected. Therefore, the construction cost of the plant can be reduced.

Hereinafter, with reference to the accompanying drawings, the configuration and operation of the embodiment of the present invention will be described in detail.

1 is a view showing an example of a factory building process using a full module according to an embodiment of the present invention.

The factory building method according to the present invention comprises the steps of modularizing each component for building a factory individually to form a full module; And using the full module to complete the factory by a plurality of workers at the site through the operation of simultaneously attaching, assembling and installing each module.

Looking more specifically with reference to Figure 1, to install a plurality of module mount (mount) (10) on the land portion to build a factory, and then install a deck plate (20) thereon. Here, the module mount 10 serves to support each module on the ground.

Then, install the steel structure module 30 to form the pillar of the factory, the pillar (pillar) and wall (40) module (40) that is the outer wall of the factory is installed, the door and window for forming the door and Install window modules (not shown).

Here, the ceiling module 50 having a cable (51) and constituting the ceiling of the factory is built using a crane, the pillar (pillar) and wall (wall) constituting the wall of the factory Module 40 is built using a winch or a crane.

In addition, a structure joint 60 connecting each module is installed, and a compressor and pump module 70 and a pipepereck module 80 are installed on the deck plate 20 in the factory, and pipes for connecting them are installed. And a cable joint 81 is installed.

In this case, an anti-vibration mount 90 is installed below the compressor and pump module 70 to reduce vibration of equipment installed on the module.

Next, the plant is completed by installing modules including equipment installed in the factory, structures supporting the equipment and piping, air conditioning equipment in the factory, and electrical facilities in the factory.

At this time, the factory is provided with a vessel module (vessel) module 100 that can be installed and moved by a single point Mooring Tower (SPMT).

Therefore, as described above, the present invention does not build a factory by installing existing walls and floors, equipment, and the like, and includes all deck plates, steel structures, exterior wall panels, doors and windows, equipment and supports, air conditioning devices, and electric facilities. By attaching a full module (attachment) to the spot by assembling them on the spot, there is an advantage in that the overall construction time required for the factory construction is shortened.

As described above, the building method of the factory using the full module as a preferred embodiment of the present invention has been described, but the present invention is not limited to the specific preferred embodiment described above, the gist of the invention claimed in the claims Various modifications can be made by those skilled in the art without departing from the scope of the present invention, and such changes can be included within the technical scope of the claims.

1 is a view showing an example of a factory building process using a full module according to an embodiment of the present invention.

<Description of Symbols for Major Parts of Drawings>

10: module mount 20: deck plate

30: steel structure module 40: filler and wall module

50: ceiling module 60: structure joint

70: compressor and pump module 80: pipereck module

90: anti-vibration mount 100: vessel module

Claims (2)

In the factory building method of installing the deck plate on the floor at the site site, erecting the columns, stacking the walls, installing the equipment, and then piping to complete the factory, Modularizing each component for building a factory to form a full module; And Factory building method comprising the step of completing the factory through the operation of attaching, assembling and installing each module at a time by a plurality of workers at the same time using the full module. 2. The component of claim 1, wherein the component is a module mount 10, a deck plate 20, a steel structure module 30, a pillar and wall module 40, a ceiling module 50, a structure joint 60. ), A compressor and pump module (70), a pipereck module (80), an anti-vibration mount (90), a vessel module (100), characterized in that it comprises a vessel module (100).

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