KR20210108818A - Frame module for steelhouse - Google Patents

Abstract

The present invention relates to a frame module for a steel house. More specifically, the frame module for a steel house includes: a vertical frame of a square hollow cross section placed erectly in a square or rectangular corner part; fixed frames of a U-shaped cross section welded with the top and bottom of one of four sides of the vertical frame in a direction to another vertical frame linearly spaced apart therefrom, respectively; upper and lower horizontal frames having a U-shaped cross section and inserted into the fixed frames and welded to connect the top and bottom of the other vertical frame; a plurality of first reinforcement frames of a U-shaped cross section welded, at regular intervals, with the inside of one of the lower horizontal frames opposed to another lower horizontal frame; and a plurality of second reinforcement frames of a U-shaped cross section welded, at regular intervals, to be orthogonal to the inside of the first reinforcement frames adjacent to the lower horizontal frames which are not welded with the first reinforcement frames. Therefore, according to the present invention, a steel house frame is prefabricated to be quickly and safely assembled and constructed on the site such that costs for construction can be reduced, and a construction period can be shortened, and, moreover, through pleasant factory work rather than a poor construction site, the present invention can prevent an accident as well as enable high-quality house construction.

Description

Frame module for steel house {FRAME MODULE FOR STEELHOUSE}

The present invention relates to a frame module for a steel house, and in particular, a steel house frame frame is manufactured in a factory and can be quickly and safely assembled on site, thereby reducing construction costs and shortening the construction period, as well as poor construction sites It relates to a frame module for a steel house that not only prevents safety accidents through more pleasant factory work but also enables high-quality housing construction.

Regarding houses using general concrete and cement frames, houses using frames of various materials have appeared in recent years.

An example of such a house is a wooden house, which has been widely used until recently.

Unlike houses in which the frame is constructed using ordinary cement frames, wooden houses are constructed and constructed in the suburbs using solid wood or processed wood. , was popular as a villa.

However, in the case of a house using such a timber frame, the work is limited only to the housing work site, because the work is limited to the housing work site because the wood must be built on the foundation of the work site. , most of them were imported by standardizing foreign-made wooden materials, and the prices were high, and they became the exclusive property of the wealthy.

In addition, the durability is not high compared to the conventional cement house, so a house made of a new material has been desired.

As a material for overcoming the disadvantages of the conventional wooden house, a so-called steel house constructed of a frame using a steel material is rapidly spreading in recent years.

The steel house adopts high-strength hollow steel bars of various cross-sectional shapes as frames of various cross-sectional shapes, so the durability of the house is extremely high, and the material cost is also low compared to wooden ones.

Advantages of the steel house include efficient structural planning within a limited housing space and ensuring uniform strength applied to each member. Compared to the method of bonding with teeth or nails, the workability is excellent, the bonding force of the members is strong, and the earthquake resistance and fire resistance are also good.

In addition, it is possible to improve the working environment compared to working in the field by mass production in a production plant separated from the place where the house is located. It is also an excellent advantage that it is environmentally friendly due to less material generation.

In particular, in terms of productivity, a dry method is possible through panel processing in a factory, thereby shortening the construction period, ensuring uniform construction and quality, and facilitating standardization of materials.

In the past, steel houses were also built on concrete foundations, but recently, lightweight steel houses are being supplied in large quantities to leisure complexes. It is constructed and installed on the foundation at the site where it is actually installed.

The best advantage of the lightweight steel house lies in its portability that it can be assembled anywhere and moved to the installation site due to the high strength of the assembly itself.

Therefore, the point is that it can be used immediately by standardizing it in a factory, mass-producing it, transporting it to an actual residential area, installing it, and connecting various piping facilities.

The most important technical point of view in the design and assembly of steel houses depends on whether it is possible to reduce production costs and standardize operations by using the existing mass-produced steel structures.

That is, in the design of the steel house, there are unique parts that are only employed in the steel house, and it is undesirable to produce them at a steel-making-related company because it takes high cost. It is important to use a beam, a steel round bar, etc. to properly configure it, and it is an important technical and technical point of view.

In the present invention, after designing a frame frame to be used in a building by structural design, manufacturing it as a module, and simulating it appropriately for the area and height of the building according to the design of the building structure, the frame module manufactured and transported in the field is used in the design Accordingly, at least one or more horizontal, vertical, and vertical directions are assembled and connected in at least one direction, and several assembly panels of the steel house are put into the inside to build, thereby dramatically shortening the construction period, and assembling the frame frame The purpose of the module is to provide a gold frame module for steel houses that structurally guarantees safety performance and makes building structures resistant to earthquakes and fires.

The above object, according to the present invention, a cross-sectional hollow 'ㅁ'-shaped vertical frame 102 which is placed upright at the corner of a square or rectangle; A fixed frame 104 of a 'C' cross-sectional shape that is welded to the upper end and lower end of the side in the direction of another vertical frame 102 spaced apart by a straight line among the slopes of the vertical frame 102; Upper and lower horizontal frames (106a, 106b) having a 'C' cross-sectional shape that is inserted into the fixed frame 104 and welded to connect the upper and lower ends of the other vertical frames 102; A first reinforcing frame 108 of a 'C' section in which a plurality of pieces are welded at regular intervals on the inner side of the one lower horizontal frame 106b and the other lower horizontal frame 106b opposite to each other; The second reinforcing frame 110 of the 'C' section in which a plurality of the first reinforcing frames 108 are welded at regular intervals so as to be orthogonal to the inner side of the first reinforcing frame 108 adjacent to the lower horizontal frame 106b to which the first reinforcing frame 108 is not welded. ) is achieved by the frame module for the steel house, characterized in that it comprises.

And, the fixed frame 104 or the upper and lower horizontal frames 106a and 106b are welded so that the opening portions open toward the facing other fixed frames 104 or the upper and lower horizontal frames 106a and 106b are located. it is preferable

In addition, the first reinforcing frame 108 is inserted into the opening of the lower horizontal frame 106b, the upper end of the first reinforcing frame 108 is a first cutout formed at the upper end of the lower horizontal frame 106b ( 112) is inserted and welded, and the second reinforcing frame 110 is inserted into the lower horizontal frame 106b and the first reinforcing frame 108, and both upper ends of the second reinforcing frame 110 are lower horizontal frames 106b. ) is preferably inserted into the first cut-out 112 formed on the upper end and the second cut-out portion 114 formed on the upper end of the second reinforcing frame 110 to be welded.

In the present invention, after designing a frame frame to be used in a building by structural design, manufacturing it as a module, and simulating it appropriately for the area and height of the building according to the design of the building structure, the frame module manufactured and transported in the field is used in the design Accordingly, at least one or more horizontal, vertical, and vertical directions are assembled and connected in at least one direction, and several assembly panels of the steel house are put into the inside to build, thereby dramatically shortening the construction period, and assembling the frame frame The module has the effect of making it possible to build structures that are resistant to earthquakes and fires by structurally guaranteeing safety performance.

1 is a view showing the structure of a frame module for a steel house according to the present invention.
Figure 2 is a view showing a structure in which the frame module for a steel house according to the present invention is coupled in the horizontal direction.
Figure 3 is a view showing a state in which the frame module for a steel house according to the present invention is coupled in the horizontal direction.
Figure 4 is a view showing a situation in which the frame module for a steel house according to the present invention is constructed by a crane.
5 is a view showing a state in which a plurality of frame frame modules for a steel house according to the present invention are combined vertically and horizontally.
6 is a view showing a case in which the frame module for a steel house according to the present invention is applied to a building.

The configuration and operation of the present invention will be described with reference to the accompanying FIGS. 1 to 6 as follows.

As shown in FIG. 1, the frame module 100 for a steel house according to the present invention includes a vertical frame 102, a fixed frame 104, upper and lower horizontal frames 106a, 106b, and a first reinforcing frame ( 108), and a second reinforcing frame 110 .

The vertical frame 102 forms a frame that makes a square or rectangular frame by the upper and lower horizontal frames 106a and 106b, and is placed upright at the corner of the square or rectangle, and has a 'ㅁ'-shaped cross section. It has a hollow structure.

And, as shown in the figure, a fixed frame 104 having a 'C' cross-sectional shape is welded to the upper end and the lower end of the side of the other vertical frame 102 spaced apart from each other in a straight line among the slopes of the vertical frame 102 .

Here, the open part of the fixed frame 104 of the 'C' cross-sectional shape is welded to have an open state toward the inside of the frame module 100 for a steel house as shown, and the fixed frame 104 ), the upper and lower horizontal frames (106a, 106b) having a 'c' cross-sectional shape are inserted and welded, respectively, to connect the upper and lower ends of the other vertical frames 102 .

And, as shown in FIG. 1, a plurality of first reinforcing frames 108 are welded to the lower horizontal frame 106b at regular intervals, and the first reinforcing frame 108 also has a 'C' cross-sectional shape. , The first reinforcing frame 108 is inserted into the opening of the lower horizontal frame 106b, the upper end of the first reinforcing frame 108 is a first cut-out 112 formed at the upper end of the lower horizontal frame (106b) The lower end of the first reinforcing frame 108 is welded while being inserted into the opening of the lower horizontal frame 106b.

In addition, the first reinforcing frame 108 is not welded to the inner side of the first reinforcing frame 108 disposed adjacent to the lower horizontal frame 106b, the second reinforcing frame 110 of the 'C' section is the first reinforcing A plurality of pieces are welded at regular intervals so as to be orthogonal to the frame 108 .

At this time, the second reinforcing frame 110 is inserted into the lower horizontal frame 106b and the first reinforcing frame 108, and the upper ends of the second reinforcing frame 110 are formed at the upper end of the lower horizontal frame 106b. The first cut-out portion 112 and the second cut-out portion 114 formed at the top of the second reinforcing frame 110 are inserted into the lower end of one side of the second reinforcing frame 110 is the first reinforcing frame 108 . Partially inserted into the opening of the second reinforcing frame 110, the other lower end of the lower horizontal frame (106b) to be welded in a state partially inserted into the lower end of the opening.

On the other hand, by forming a plurality of coupling holes 116 in the upper and lower horizontal frames 106a and 106b, as shown in FIG. 2, another frame module 100 for a steel house is connected in the horizontal direction. It is preferable to fasten the fixing bolt with the coupling hole 116 to be coupled as shown in FIG.

The frame module 100 for a steel house according to the present invention may be connected in a lateral direction toward at least one of a horizontal direction or a vertical direction as shown in FIG. 3 when the building structure is a single storey, but the frame frame for a steel house By stacking the module 100 using a crane as shown in FIG. 4 , a plurality of frame frame modules 100 for a steel house are stacked as shown in FIG. 5 to form the skeleton of the building.

6 is a view showing a state in which the frame module 100 for a steel house according to the present invention is applied to a commercial building. As shown, when the overall design of the building and the earthquake resistance and space design are completed, the steel house manufactured in the factory After the frame module 100 is laminated, the insulation material and the exterior material are installed, and then the interior material can be installed, thereby shortening the construction period.

100: frame module for steel house
102: vertical frame 104: fixed frame
106: horizontal frame 106a: upper horizontal frame
106b: lower horizontal frame
108: first reinforcing frame 110: second reinforcing frame
112: first incision 114: second incision
116: coupling hole 116 118: fixing bolt

Claims (3)

A cross-sectional hollow 'ㅁ'-shaped vertical frame 102 that is placed upright at the corner of a square or rectangle;
A fixed frame 104 of a 'C' cross-sectional shape that is welded to the upper and lower sides of the other vertical frame 102 in the direction of the other vertical frame 102 spaced apart by a straight line among the slopes of the vertical frame 102;
Upper and lower horizontal frames (106a, 106b) having a 'C' cross-sectional shape that is inserted into the fixed frame 104 and welded to connect the upper and lower ends of the other vertical frames 102;
A first reinforcing frame 108 of a 'C' section in which a plurality of pieces are welded at regular intervals on the inside of the one lower horizontal frame 106b and the other opposite lower horizontal frame 106b;
The second reinforcing frame 110 of the 'C' section in which a plurality of the first reinforcing frames 108 are welded at regular intervals so as to be orthogonal to the inside of the first reinforcing frame 108 adjacent to the lower horizontal frame 106b to which the first reinforcing frame 108 is not welded. ) frame module for a steel house, characterized in that it comprises a.
According to claim 1,
The fixed frame 104 or the upper and lower horizontal frames 106a and 106b are welded so that the opening portions open toward the other facing fixed frames 104 or the upper and lower horizontal frames 106a and 106b are located. Framed frame module for steel house.
According to claim 1,
The first reinforcing frame 108 is inserted into the opening of the lower horizontal frame 106b, and the upper end of the first reinforcing frame 108 is a first cutout 112 formed at the upper end of the lower horizontal frame 106b. The second reinforcing frame 110 is inserted into the lower horizontal frame 106b and the first reinforcing frame 108, and the upper both ends of the second reinforcing frame 110 are the lower horizontal frame 106b. A frame module for a steel house, characterized in that the first cut-out 112 formed at the top and the second cut-out section 114 formed at the top of the second reinforcing frame 110 are inserted and welded.

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