KR20090004011U - Interior construction site space division unit structure integrated assembly method - Google Patents

Abstract

The present invention relates to an integrated construction method of the indoor construction site space division unit structure to assemble the floor space and the floor sign arrangement and the two-stage stacked structure. The indoor architectural space structure according to the present invention is basically a structure in which the lower support and the height adjusting height of the upper part are fixedly coupled to each other, and the virtual floor plan space that is the maximum match with the indoor architectural space of the actual site is divided into several spaces. Formed on the floor and arranged to connect a plurality of various structures and manufacturing other parts to induce the construction of the structures in the assembly type to facilitate the movement, calibration, recycling and reuse, as well as shortening the air, recycling resources and eco-friendly sites Construction can be effective.

 Interior architecture. Ramen facility. Space structure. sign. Floor plan

Description

Interior construction site space division unit structure integrated assembly method {omitted}

The present invention is to create a variety of structures, such as decorations installed in a certain indoor space, in the other spaces to divide the interior construction plan laid out so that the construction can be completed in a short time by the space sign layout and two-stage stacked structure assembly A construction site space division unit structure integrated assembly method.

The present invention belongs to the industrialized construction method, which is generally a modular construction method, and the construction method is a construction system that completes an indoor building interior facility by assembling and stacking various indoor structures and decorations in a box-type and other customized forms in a unit.

In other words, it relates to the construction method of the indoor architectural space structure setting by assembling the floor signs and the two-stage stacked structure by spatially dividing the interior building plane. Specifically, the structure of the complex indoor architectural interior facilities of high-rise space and urban commercial district Can be assembled in the factory to induce assembly construction in the site to effectively recycle resources and eco-friendly construction

In general, interior construction can be divided into two types: new construction and remodeling. In the case of new construction, the wall partition is usually changed to a modular construction method due to the standardization of architectural design and construction. There is still no result of modularization. In the case of remodeling internal facilities, there are many sites that are difficult to standardize and modularize at all. In particular, the field of indoor construction and interior facilities is different from architecture, and it has the characteristics of fashion and short lifespan.In recent years, many constructions and various designs of on-site construction have been made inefficiently in the field. It is losing.

Therefore, it is necessary to take a lot of difficulties and perform precise construction in the field, but if you can make the same space realistically precisely in that space and even recycle it with its unique construction method, the conventional construction technology is unconditional. You will not have to insist. The cloned floor deck factory of the indoor space and the modularized interior structure construction method can be developed to the next higher construction technology than the existing technology in the urgent indoor construction site. In general, the interior construction interior facilities occupy a large portion of the woodwork and painting work compared to other construction, in particular, the woodworking construction is carried out by skilled woodworking technicians spend a lot of time in the field. After that, painting work and finishing work are carried out, and other work is being carried out in order as well. Constructions that consist of these procedures are usually made in the factory and made to move to the site in order to make the process faster and more effective. Combinations are not common and universal, except for special spaces due to differences in size and error, and difficult working space and duplication of production.

For this reason, the current universal woodworking construction is carried out in the field by completely fixed construction methods such as Takamot and Bond, which is confronting the recycling of resources and eco-friendliness.

Conventional woodworking and scaffolding in the field are mostly made of woodworking craftsman and miscellaneous ironworking craftsman through the process of cutting, manufacturing, and mounting of raw materials. It would not be an exaggeration. Conventional construction methods in this field is still almost all in the field process.

In most cases, the degree of bending of wooden furniture or steel is made in factories or displays, and the parts of interior architecture such as basic walls and ceilings are narrowly moved between the urban commercial district and the elevator space of high-rise space. The reality is that they are produced in the field, taking noise and dust in a narrow space. In general, the method of woodworking in the field causes a lot of problems such as the long distance movement of raw materials of wood, the movement of raw materials of high-rise skyscrapers through small elevators, and the process of cutting, manufacturing, and installing woodwork in narrow spaces. have.

There may be a number of reasons for this, but there may still be reasons why systematic and rational modular construction techniques have not been widespread, but fundamentally the specificity of the site, that is, the space and industry are then different and vary according to design and user needs. Many of these indoor architectural facilities are unique in nature. The appearance of the space is different, the specifications are different, the material is much more than the building materials, and due to various specificities, there is a problem that indoor construction work does not develop into a reasonable modular construction.

Recently, in the social aspect, the necessity of the improvement of facilities due to the aging of high-rise buildings and the movement and reuse of indoor building internal facilities due to the change of office environment and management environment are increasing day by day.

On the environmental side, it is time to develop reusable indoor building facilities that go beyond the recycling concept. In addition, environmental pollution during the construction and disposal of facilities is a serious situation.

On the economic side, it is possible to realize economies of scale through mass production in factories, and to cope with structural changes in the construction industry, such as rising labor costs.

In terms of technology, it is possible to induce the development of interior construction technology by applying industrialization and dry construction method, and to avoid the construction and construction method in the field of indoor construction facilities as far as possible by manufacturing parts, automation, and modularization, and manufacturing a factory. The purpose of this study was to develop the indoor architecture system of the site installation method.

Up to now, indoor construction work has caused a lot of problems due to the direct manufacturing and construction in the space scene in the production of the interior structure of the space. In other words, many materials, equipment, and personnel are put into a small space, and many unreasonable points such as noise, dust and garbage generated in urban commercial districts and residential districts, and non-business period operating expenses caused by paying high rents are well-experienced. There is a bar. In addition, in some cases, a part of the indoor structure may be manufactured externally, but problems such as re-production are frequently generated due to measurement and error.

On the other hand, it is also pointed out that in the case of long-distance simultaneous orders, the distribution of equipment and the lack of equipment, and the use of scrap materials after multiplying the workforce or making the structure are not effective.

In order to correct such unreasonable points, the present invention simply and quickly constructs a flooring plate that conforms to the shape and space of a facility, such as a building, to fabricate various structures required in the space within the flooring plate structure, and then It can be installed immediately inside.

In particular, the main focus of the present invention is to focus on the efficient division setting operation of the factory floor space along with the time and economic construction using the floor coating to achieve the above object.

This is because an excessive waste of time due to time waste or construction in the construction of a flat floor of the factory space configuration leads to another problem.

Therefore, the present invention cuts indoor building facilities on site. Processing. making. The installation process was to produce in an external space (factory). It is very important to have the same space in the outside space as the field, and it is an important technology of basic precision measurement that can be set up and installed in the field very precisely with the structure production and construction. Because 3d design and CAD design, accurate drawings and scientific designs clearly reflect the architectural environment of the site, and they are constructed and manufactured on such a foundation. Too much tolerance occurs. For this reason, indoor construction is usually reluctant to take a modular approach, and it was common practice to see, judge, manufacture, and construct from the beginning with the eyes.

For that reason, in particular, the main focus of the present invention is to focus on the efficient division setting operation of the factory floor space along with the time and economic construction using the floor plate of the same size as the site to achieve the above object.

This is because an excessive waste of time due to time waste or construction in the construction of a flat floor of the factory space configuration leads to another problem. For that purpose, the temporal and economic construction of the factory deck was a very important issue.

The technical challenge is to accurately replicate the maximum space on the three sides of the site from the minimum factory floor space, and to accurately display the site conditions on the three sides of the ceiling, walls, and floors with the minimum tools, and check them at eye level. It was intended to calibrate and produce. At the same time, he wanted to produce the largest field production with the least amount of time.

For that reason, first, it is possible to immediately install the flat plate labels of the basic interior architectural space structures such as pillars, windows, furniture layout signs, door signs, etc. of the site space on the factory floor. The signs are used to display furniture attached to the floor, walls, and structures attached to or attached to the ceiling.The signs of all these structures can be complicated by marking them on the floor. Separately placed and marked on the bottom plate.

Secondly, in the case of a much larger and wider site than the factory, it is difficult to build a floor plate after measuring the space, so that the space is divided into several plates. Large indoor architectural structures can also be assembled. This method is a way of dividing the space, all the interior architectural space is largely composed of aisles and sub-spaces, the way of division and efficient construction sensational masses connected to the passage (e.g. entrance, Enclosures of wall parts that involve integral space chunks of waiting rooms, information compartments, some other compartments, and the rest of the spaces (accessories, sheds, president rooms, executive rooms, conference rooms, rest rooms, other chunks of space) Because it is divided into the structures of the wall part), by dividing, marking and assembling the structure between these spaces and spaces, it is possible to efficiently obtain the same size and area as the actual spaces even in a small space. It is possible to manufacture and set in, and to make precision assembled parts. In the factory space, it was possible to install the fabrication structure at the eye level.

Thirdly, in general, construction in the field is made of wood, steel, or other various materials by various construction methods. Here, the basic construction method is applied to wall wood, wall structure partitions or various shapes of finishing, steel frame. Unit material, columnar structure parts, etc. are manufactured in the bottom plate holder assembly type, and the temporary assembly type construction of the factory is manufactured in the two-stage stacked box type assembly method designed to be immediately installed in the field type construction. Overall, the factory setting was a structure fabrication factory that replicated the site by setting up reasonable and sophisticated construction and economical assembly hypothesis according to customized drawings.

Fourthly, the completed construction products are moved to the site and installed and installed. From the floor marking phase of the site, the existing structure floorboards are simulated and displayed, so that time, waste and space are accurate. Is done. In addition, since the construction of the ceiling part is made in a setting type, it is possible to assemble and complete the interior construction within a short period of time with the construction method that can install the wall and ceiling furniture as an integrated type. It was designed to be an indoor building system of factory production and site installation method.

First of all, this method is an eco-friendly construction method, which makes various structures manufactured in other spaces and moves them to the site, thereby reducing dust, dust, garbage generation, and damage to the surrounding environment. As a result of the precise and precise construction, the quality of the finished condition of the interior space is improved. It is possible to solve the problem of safety accidents due to the narrow working space in the field, and it is possible to modify, change, move, recycle and reuse the recycling and indoor construction environment.

Secondly, the system can significantly shorten the air. Existing building facilities have the largest share of woodwork, painting, and finishing work, and in particular, this part of the whole unit is unitized at the factory and installed on site. In case of large-scale complex facility construction, it is also adopted as a fast tracking method of construction CM, which can drastically reduce the overall air of woodworking, painting work, finishing work, and miscellaneous construction work.

Third, the lightweight construction minimizes the structural burden of the pillar ceiling of existing buildings. In general, general construction works are done using Takamot or Bond, so when the building is dismantled or replaced, it can be a risk factor not only in the damage of the finish structure of the building but also in the load of the building itself. The system employs silicon, bolt, and screw joints to maintain stable indoor conditions with minimal mating.

Fourth, this joining method can eventually be moved and reused. Therefore, it can be settled as a concept of reuse over recycling that can actively solve many problems of indoor building facilities due to short lifespan and frequent replacement due to the change of management environment, which is a problem of current indoor building facilities construction.

Fifth, due to the increase in the rate of industrialization of indoor building facilities, the share of labor costs can be reduced, and the overhead cost of the site can be reduced, so that economic construction can be achieved. In the future, when the interior building modular technology is spread, the economy of scale through standardization and standardization may increase the reduction of the share of labor costs, secure economical materials, and become a competitive indoor building construction method.

Fifth, remote construction saves work administration and equipment and reduces material waste on site. In particular, in the case of Korea, the local agency construction method of the headquarters facility construction in the metropolitan city of Seoul cannot be insisted that the direct local business trip and the site accommodation site production method of all the materials and numerous construction technicians are no longer efficient. This is because the increase in logistics costs due to the recent oil price hike is no longer cost-effective for construction technicians and indoor construction companies.

Sixth, the large-scale indoor construction space can be divided into several parts through partial setting, enabling precise site setting construction in small factories, and this construction method allows for relatively large facilities in small woodworking factories nationwide. It can be used industrially and can reduce the cost of space rental.

First, the design of the interior architecture is made through the actual measurement of a certain indoor building space. Such interior architectural design can usually be carried out in a universal architectural way such as floor plan, elevation, ceiling, partial section, detail, etc. The present method starts by displaying and forming a floor space of the same size as that of the floor plan in the floor space B of a constant area based on the planar space in the design. In this case, it is usually possible to form an area of the same area as the planar space, but usually the need for the area of the accessory space of a conventional workplace or other fabrication is another waste and another problem with the efficiency of the process. Because it raises. For this reason, this method has devised a way of effectively partitioning the space to enable the construction of large spaces even in a small, uniform space. This method divides the space and all interior building spaces are composed of passages and sub-spaces. Therefore, the method of division and efficient construction are divided into spaces and sub-spaces connected with passages. By dividing, marking, and setting the structure between the spaces, it is possible to efficiently obtain the same size and area as the actual space in a small space, so that precise measurement and manufacturing and setting at eye level are possible. It becomes possible. In this method of partitioning, the passage and ancillary space (A-12) are first set on the floor, and the second is the space (A-2), (A-3), and A-4 space. The space setting can be performed by dividing.

In this way, in order to set the measurement space division in order, precise measurement must be made on the floor surface of the space according to the actual size of the planar space. At that time, other numerical values and structures may not be an efficient method. Therefore, this method is to set up the various structures made by designing a certain spatial structure in advance, and the rest of the structure is precisely measured and manufactured, but unitized and fed back to accumulate content as the next structure design object. For this reason, windows, doors, furniture, wall structures and ceiling structures are displayed in the same way as the drawings in the wall of the space. These markings use the structural floor signs (C) because the structural parts (1, 2, 3, 4, 5, 6, 7), which are important parts, are modularized methods. Because it is used in the field, it is made of rigid plastic PVC sheet. In particular, these signs are usually the same size as the floor size of the structure, with information such as the number, size, section details, shape, and date of the structure being recorded on the sign surface. It is also a sample specimen of the spatial structure for the construction, but it is also useful for floor scum feeding in the field. These signs are divided into various shapes and colors, and can be said to be tools that assist in the efficient setting work.

In the upper part (E) of the floor structure sign, two-stage unit structures are assembled. Typically, the bottom sign (8) is used for display purposes in factories and on-site, and the upper part of the structure lower plate (9), Body 10 structure upper fixing plate 11 is assembled in a temporary order.

The structure upper fixing plate is fixed to the structure body 10 in the factory, but is fixed to the ceiling in the field. Hypothetical assembly is intended to make field construction complete, easy to color, check and move on site.

Such structures are united by mounting wires 12 and together with various forms D of a plurality of structures to form a space. External finish 13 of such a structure is usually possible to produce a variety of finishes, such as sheet paper, paint.

The completed structure is moved to the construction site, the lower plate (9) of the basic structure is fitted with a body plate 10 is possible to adjust the height according to the ceiling height of the site, repositioning, reuse, recycling is possible.

Summarizing these methods, after dividing the setting plan after the initial space measurement, the bottom plate of the space in which the measurement space is divided is quickly formed on the floor plate of the factory, and then the planar structure bottom plate of the structure is placed ( G).

Then, by placing the upper body plate of the structure on the placed baseboard (H), the space is inspected at eye level, and the selection of finishing materials, finishing work, or the application of glass, other materials, and other fabrications are made accurately. In this way, the total space is set in order.

After completing the process work, the structure set in the hypothesis is moved to the site to fix the work in the field space. In this case, by using the flat floor stand (8) of the structure, it is fed and patterned on the spot of the site immediately, and then the space of the structure is assembled, lighting wiring connection, and other construction are added to the overall site interior construction for efficient construction. Reasonable and economical construction and design enable sophisticated on-site construction to be assembled in an external space.

The construction of indoor building facilities can be customized by duplicating all-in-one spaces as well as on-site spaces, and inspection and correction are possible. With eco-friendly construction, it is difficult to construct interior facilities, remodel, or work in urban spaces. Internal facility construction and other interior facilities that require quick facilities can be easily produced in small factories of small-scale woodworking factories. Therefore, in the long term, it is possible to assemble and assemble the facilities, and to reuse and reuse the on-site facilities later. It is possible to industrially develop such a method for constructing an external space-customized space replication unit structure and expand it through the opening of woodworking shops and dealers nationwide.

1 is an embodiment of the interior architectural plan of the present invention

2 is an example of forming a planar space division part setting space of the plant floor of the present invention

3 is a view illustrating the shape and cross section of the wall forming structure part of the present invention

4 is a diagram illustrating the construction sequence of the present invention

5 is a flowchart of the method of the present invention

Claims (3)

The floor space of the factory marked with a certain line is divided into the same space as the interior floor plan into the space connected with the aisle (A-1) and the remaining space (A-2) (A-3) (A-4). By marking it on the floor space The flat structure (partitions, columns, doors, furniture signs, other structure layout signs) and ceiling structures (light boxes, other ceiling attachment floor signs) and drawings made of PVC or paper hardboard. Place other structure floor color signs (1,2,3,4,5,6,7) The modular box-shaped two-stage laminate structure of various shapes having a structure in which the wiring having the upper and lower plates is formed after forming the structural measurement space drawing (structure such as a drawing made of wood, steel or other materials). The construction and inspection of the factory is completed by placing a temporary construction.Modular units manufactured in the factory are moved to the site, and the floor space configuration is formed to install and install the modular structures of various structures. By setting the lower part on the upper part, the interior building construction is completed and assembled within a short period of time, and the indoor building system of factory manufacturing and field installation method that can be moved and reused in some cases.

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