KR101695412B1 - Modular Unit For Size Adjustable Type Using Concrete Filled Steel Tube - Google Patents

Abstract

The present invention relates to a size adjustment modular unit using filling type columns. The size adjustment modular unit comprises: filling type columns arranged to be spaced apart while forming a hexagon, and forming the corner parts of the hexagon; upper beams coupled to the upper ends of the filling type columns to interconnect the upper parts of the filling type pillars; and lower beams coupled to the lower ends of the filling type columns to interconnect the lower parts of the filling type columns. The upper and lower beams comprise: first and second outer beams individually connected to the filling type columns arranged to be spaced apart; and intermediate beams arranged between the first and second outer beams to have both ends connected to the first and second outer beams with a connection member. The intermediate beams vary a length of the upper and lower beams in accordance with a selected length to adjust an overall width and size. According to an embodiment of the present invention, the length of the beams and the height of the columns are able to be adjusted to freely adjust a size of the modular unit. The modular unit is able to easily be coupled and disassembled to ensure excellent construction properties while reducing logistic costs for transportation. The present invention is able to enhance the overall construction properties and workability of a casting process by filling the insides of the columns and beams with concrete or urethane; increase a strength of a structure; and enhance a convenience and efficiency of construction. The modular unit enables a user to easily build a hexagonal structure and use partition beams to build structures in various forms; thereby enhancing utilization.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a modular unit type modular unit,

The present invention relates to a size-adjustable modular unit using a pillar, more specifically, it is possible to adjust the size of a modular unit according to installation place or use, facilitate transportation and storage through separation of an assembled structure, And a size adjustable modular unit using a filling column capable of improving the ease of use and the workability.

In general, the modular building is different from the existing wet construction method which is applied in the field, and the structure of the modular unit is produced in the factory, the various interior / exterior materials, equipment and wiring are preliminarily installed, And the finished building.

Since modular units are produced as modular building units in factories, it is possible to increase the quality of construction together with the productivity improvement and to solve the functional problem caused by 3D phenomenon when the production system is equipped. And maintain a safe construction site.

In addition, the modular building is constructed by transporting the modular unit, which is a steel structure, to the site and assembling it like a lEGO block, so that it is possible to dismantle the house according to the tastes of the residents and easily remodel the interior.

In addition, due to the assembly and construction of building structures, construction period, construction cost, and environmental load can be reduced by about 30% compared to existing construction methods, and especially by the Ministry of Environment due to construction waste, can be reduced by more than 90%.

However, in the conventional modular building, a modular unit as a basic unit is manufactured and then transported to the site. Since the modular unit has a large space, there is a limitation in transportation, so that a special device should be additionally installed in a general transporter. It is classified as a non-standard article and is transported after the new outer packaging, so that the logistics cost is high.

In addition, the modular unit is completed by combining the column and the beam. Since the modular unit is manufactured by determining the total size by the length of the column and the beam, there is a problem that the size of the modular unit can not be adjusted at the construction site.

Korea registered patent: 10-1233559 (Notice date 2013.02.14)

Korea registered patent: 10-1409229 (Notice day 2014.07.02)

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems,

SUMMARY OF THE INVENTION It is an object of the present invention to provide a size adjustable modular unit that can adjust the length of a beam and the height of a column to freely adjust the size of the modular unit.

It is another object of the present invention to provide a size-adjustable modular unit using a filling column which is easy to be assembled and disassembled according to assembly and which has excellent workability and can reduce the cost of logistics for transportation.

It is still another object of the present invention to provide a modular type modular unit using filling pillars in which concrete or urethane is filled to improve the overall workability and workability of a concrete pouring process, .

In order to accomplish the above object, the present invention provides a size-adjustable modular unit using a filling column, the filling type column having a hexagonal corner portion spaced apart from the filling type column by a predetermined distance so as to form a hexagon, And a lower beam coupled to a lower end of the filling columns to interconnect lower ends of the filling columns, wherein the upper beam and the lower beam are connected to each other The first and second outer beams are respectively coupled to the charging columns disposed at a predetermined distance from each other. The first and second outer beams are connected to the first and second outer beams and the connecting members at both ends, And the length of the upper beam and the lower beam is varied according to the selected length of the intermediate beam to adjust the overall width size .

The filling column has an upper column for supporting the upper beam, a lower column for supporting the lower beam, and an intermediate column which is interposed between the upper column and the lower column and has both ends connected to the upper column and the lower column by a connecting member And the height of the filling column is varied according to the selected length of the intermediate column to adjust the overall height.

A first coupling hole is formed along the longitudinal direction at the lower end of the upper column and an upper end of the lower column. A second coupling hole is formed at the upper and lower ends of the intermediate column along the longitudinal direction, A plurality of fastening holes corresponding to the engaging hole and the second engaging hole are formed so that the fastening hole and the first engaging hole or the fastening hole and the second engaging hole are fastened with bolts so that the upper and intermediate columns, .

The main frame has a first main frame and a second main frame. The main frame has one end of a U-shape extending vertically and an end bent inward, and an end of the other end bent outward. Shaped sub-frame connected to the upper end of the main frame by a rib so as to form a sidewall so as to maintain the sub-frame.

In addition, the first and second outer beams and the intermediate beams may each have a U-shaped end extending vertically, the end bent inward, and the end of the other end bent outwardly.

In addition, a plurality of first coupling holes may be formed along the longitudinal direction at one end of the first and second outer beams, a plurality of second coupling holes may be formed at both ends of the middle beam along the longitudinal direction, A plurality of fastening holes corresponding to the first engaging hole and the second engaging hole are formed and the fastening hole and the first fastening hole or the fastening hole and the second fastening hole are fastened with bolts, And connecting the beam and the intermediate beam.

In addition, the outer surface of the upper beam is provided with a socket portion which can be fixed by inserting a roof or a support for supporting the awning.

In addition, the filling column is provided in a hexagonal shape and is filled with concrete or urethane.

In addition, the center of a packed column forming a hexagonal corner portion and a hexagonal shape by a top beam and a bottom beam are further provided with a central column in the form of a hexagonal tube filled with concrete or urethane, A plurality of compartments connected to the filling pillars and partitioning the interior of the modular unit are coupled, the compartments include a first outline beam coupled to the charging column, a second outline beam coupled to the center column, And an intermediate beam interposed between the first and second outer beams and having both ends connected to the first and second outer beams and the connecting member.

According to the embodiment of the present invention, since the length of the beam can be adjusted and the height of the column can be adjusted, the size of the modular unit can be freely adjusted, the joining and disassembly can be easily performed and the workability is excellent, There is an effect.

In addition, it is possible to improve the overall workability and workability of the casting process by filling concrete or urethane with the inside of the column and beam, to increase the strength of the structure, and to improve the convenience and efficiency of the work.

In addition, it is possible to easily construct a hexagonal structure, and it is possible to construct various shapes using the partition beams, thereby increasing the utilization.

1 is a perspective view illustrating a size adjustable modular unit using a filling column according to an embodiment of the present invention;
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a size regulating type modular unit,
3 is a cross-sectional view of an outer beam and an intermediate beam in a size-adjustable modular unit using a packing column according to an embodiment of the present invention.
FIG. 4 is a cross-sectional view illustrating another embodiment of an outer beam and an intermediate beam in a size-adjustable modular unit using a filling column according to an embodiment of the present invention; FIG.
5 is a view illustrating an embodiment in which a socket for fixing a roof supporting a roof or a supporter is further provided on the outer surface of the upper beam in a size adjustable modular unit using a filling column according to an embodiment of the present invention A perspective view.
6 is a perspective view illustrating a size adjustable modular unit using a charging column according to another embodiment of the present invention;

These and other objects, features and other advantages of the present invention will become more apparent by describing in detail preferred embodiments of the present invention with reference to the accompanying drawings. Hereinafter, a charging column type modular unit according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. For purposes of this specification, like reference numerals in the drawings denote like elements unless otherwise indicated.

3 and 4, the outer frame of the modular unit and the outer frame of the modular unit according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2. FIG. An intermediate beam will be described, and a socket unit additionally constructed with reference to Fig. 5 will be described.

The filling column type modular unit 100 according to an embodiment of the present invention includes a filling type column 110 disposed at a predetermined distance so as to form a hexagon and forming a hexagonal corner portion, Shaped columns and a lower beam 130 coupled to the lower end of the filled columns to connect the lower ends of the filled columns to each other.

As shown in FIGS. 1 and 2, the filling pillars 110 are formed in a hexagonal shape and filled with concrete or urethane. In addition, a horizontal plate (not shown) capable of closing the opened top and bottom surfaces of the filling type column or simply connecting the top and bottom of the filling type column when they are stacked can be coupled. A fastening hole (not shown) may be formed.

The filling column 110 includes an upper column 111 supporting the upper beam 120, a lower column 112 supporting the lower beam 130, and a lower column 112 interposed between the upper column and the lower column, And an intermediate column 113 connecting the lower column.

The upper end of the intermediate column 113 is coupled to the upper column 111 by the connecting member 114 and the lower end of the intermediate column 113 is coupled to the lower column 112 by the connecting member 114.

At this time, a plurality of first coupling holes 111a and 112a are formed along the longitudinal direction of the column at the lower end of the upper column 111 and the upper end of the lower column 112, and the upper and lower ends of the column, A plurality of second engaging holes 113a and 113b are formed along the direction of the arrow.

The connecting member 114 is provided in the form of a plate padded to the lower end of the upper column 111 and the upper end of the intermediate column 113 and is provided with the first engaging holes 111a and 112a of the upper column or lower column, A plurality of fastening holes 114a corresponding to the second fastening holes 113a and 113b are formed.

That is, the connecting member 114 is attached to the upper end of the lower column 112 and the lower end of the middle column 113, and then the fastening hole 114a of the connecting member and the first fastening hole 112a of the lower column are fastened with bolts The upper end of the lower column 112 and the lower end of the intermediate column 113 are connected to the connecting member 114 by bolts to fasten the fastening holes 114a of the connecting member and the second fastening holes 113b of the intermediate column, Lt; / RTI >

The coupling member 114 is poured to the lower end of the upper column 111 and the upper end of the intermediate column 113 and then the coupling hole 114a of the coupling member and the first coupling hole 111a of the upper column are inserted into the bolt And the lower end of the upper column 111 and the upper end of the intermediate column 113 are connected to the connecting member 114 by fastening the fastening hole 114a of the connecting member and the second fastening hole 113a of the intermediate column with bolts, So that the fully-charged column is assembled.

Here, the intermediate column 113 is provided with various lengths, and the length of the intermediate column 113 is selected depending on the height of the structure to be constructed. That is, the height of the filling pillars 100 is changed according to the selected length of the intermediate pillars 113, and the height of the pillars 100 is adjusted.

The packed pillars 100 thus assembled are spaced apart from each other by a predetermined distance to form a hexagonal corner. That is, the first to sixth filled pillars are spaced apart to form a hexagonal corner.

The upper beam 120 connecting the upper pillars 111 is coupled to the upper pillars 111 of the filled pillars and the lower pillars 112 of the filled pillars are coupled to the lower pillars 130 ) Are combined.

At this time, the upper beam 120 and the lower beam 130 are connected to fill-up columns forming the edges of a hexagon to form a hexagonal surface.

The upper beam 120 and the lower beam 130 have a first outer shell 121 coupled to the first packed column 110 and a second outer shell 122 coupled to the second packed column 110, And an intermediate beam 125 interposed between the first and second outer beams 121 and 122 and having both ends connected to the first and second outer beams by a connecting member 127.

As shown in FIGS. 2 and 3, the first and second outer shells 121 and 122 and the middle shell 125 are formed such that one end of the U shape extends vertically so that the end thereof is bent inwardly and the other end is bent outwardly Shaped sub-part 121a, which is connected to the upper end of the main frame by a rib 121b to maintain the same top surface as the upper surface of the main frame and maintains the same width as the width of the main frame, And a frame 121c.

4, each of the first and second outer beams 121 and 122 and the intermediate beam 125 are formed such that one end of the U shape extends vertically so that the end thereof is bent inward and the end of the other end is bent outward As shown in FIG.

One end of the first outer shell 121 may be welded to the fill column 110 and a slot 110a may be formed in the fill column 110. At one end of the first outer shell 121, The coupling piece 121d is inserted into the slot 110a so that the coupling piece 121d is fixedly inserted into the slot 110a so that the first outer frame can be coupled to the charging column 110. [ At this time, the second outer beam 122 is also coupled to the charging column 110 by the same constitution and method as the first outer beam 121.

One end of the intermediate beam 125 is coupled to the other end of the first outer beam 121 by the connecting member 127 and the other end of the middle beam 125 is coupled to the second outer beam 122).

A plurality of first coupling holes 123 are formed along the longitudinal direction of the beam at the other ends of the first outer shell 121 and the second outer shell 122, A plurality of second engaging holes 126 are formed along the longitudinal direction of the second engaging hole 126. [

The connecting member 127 is provided in the form of a plate padded to the other end of the first outer shell 121 and the one end of the middle shell 125 and is inserted into the first coupling hole 123 of the first outer shell 121, And a plurality of coupling holes 128 corresponding to the second coupling holes 126 of the intermediate beam 125 are formed. The connecting member 127 is padded at the other end of the second outer shell 122 and at the other end of the middle shell 125.

That is, the connecting member 127 is padded to the other end of the first outer beam 121 and the one end of the middle beam 125, and then the coupling hole 128 of the coupling member and the first coupling of the first outer beam When the bolt is used to fasten the hole 123 and the coupling hole 128 of the coupling member and the second coupling hole 126 of the intermediate beam are fastened with bolts, the other end of the first outer beam 121 and the intermediate beam 125 are connected.

The connecting member 127 is poured to the other end of the second outer shell 122 and the other end of the middle shell 125 and then the coupling hole 128 of the coupling member and the first coupling When the bolt 123 is fastened and coupled with the fastening hole 128 of the connecting member and the second fastening hole 126 of the intermediate beam with bolts, the other end of the second outer sheath 122 and the intermediate beam 125 are connected to each other so that the upper beam 120 or the lower beam 130 is assembled.

Here, the intermediate beams 125 are provided in various lengths and lengths are selected and used depending on the size of the structure to be constructed. That is, the intermediate beam 125 changes the length of the upper beam 120 and the lower beam 130 according to the selected length, and adjusts the overall width size.

Inside the upper beam 120 and the lower beam 130, concrete or urethane may be filled. That is, concrete or urethane can be filled in the upper beam 120 and the lower beam 130 like the filling column 110, and concrete or urethane is filled in the beam together with the column to increase the strength of the structure .

As shown in FIG. 5, the upper portion of the upper beam 120 may be provided with socket portions 140 at predetermined intervals so that a support for supporting a structure such as a roof or a shade can be inserted and fixed.

Here, when the structure such as a roof or a roof is to be installed on the upper part of the structure, the socket part 140 serves to fix a support for supporting the structure such as a roof and a roof, .

6, a center column 150 having a hexagonal tube shape filled with concrete or urethane is disposed at the center of a packed column forming a hexagonal corner portion and a moduler unit having a hexagonal shape formed by the upper beam and the lower beam And a plurality of partition beams 160, which are connected to the filling pillars and partition the interior of the modular unit, may be coupled to the top surface of the central pillar 150.

In this case, the partition beam 160 includes a first outline beam coupled to the packed column, a second outline beam coupled to the center column, and a second outer beam coupled between the first and second outline beams, The middle and outer beams are formed in the same shape as the first and second outer beams and the middle beams of the upper and lower beams, It is connected in the same way as the connection method of beams.

As described above, according to the present invention, the length of the beam can be adjusted and the height of the column can be adjusted, so that the size of the modular unit can be freely adjusted, the joining and disassembly is easy, and the workability is excellent.

Also, since the inside of the column and beam is filled with concrete or urethane, the overall workability and workability of the casting process can be improved, the strength of the structure can be increased, and the convenience and efficiency of the work can be increased.

In addition, it is possible to easily construct a hexagonal structure, and it is possible to construct various shapes using the partition beams, thereby increasing the utilization.

Although the preferred embodiments of the present invention have been described, the present invention is not limited to the specific embodiments described above. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the appended claims, And equivalents may be resorted to as falling within the scope of the invention.

100: Modular unit 110: Rechargeable column
110a: Slot 111: Upper column
112: lower column 111a, 112a: first engaging hole
113: intermediate column 113a, 113b: second engaging hole
114: connecting member 114a: fastening hole
120: upper beam 121: first outer beam
121a: main frame 121b: rib
121c: Sub-frame 121d:
122: second outline beam 123: first engaging hole
125: intermediate beam 126: second coupling ball
127: connecting member 128: fastening hole
130: lower beam 140: socket part
150: Central column 160:

Claims (9)

And an intermediate column for adjusting the height of the filling column is connected between the upper column and the lower column and connected to the connecting member by a connecting member. The filling column is arranged at a predetermined distance to form a hexagon, ; An upper beam coupled to an upper end of the charging columns to interconnect upper ends of the charging columns; And a lower beam coupled to a lower end of the filled columns to interconnect the lower ends of the filled columns,
Wherein the upper and lower beams include first and second outer beams respectively coupled to the filling pillars spaced apart from each other by a predetermined distance and first and second outer beams respectively disposed between the first and second outer beams, And the intermediate beam is connected to the connecting member, and the length of the upper beam and the lower beam is varied according to the selected length of the intermediate beam,
The main frame has a first main frame, a second main frame and a middle frame, the main frame having one end of a U-shape extending vertically, an end bent inward, and an end bent outward; Shaped sub-frame connected to the upper end of the main frame by a rib so as to form a side wall,
Slots are formed in the upper column and the lower column of the filling column for fixing the first outer beam or the second outer beam, respectively, and one end of the first outer beam or the second outer beam is provided with a coupling piece, The first outline beam and the second outline beam are simply coupled to the filler-type column, and a plurality of first engagement holes are formed at the other end of the first and second outline beams along the longitudinal direction A plurality of second coupling holes are formed at both ends of the intermediate beam along the longitudinal direction and the coupling member has a plurality of coupling holes corresponding to the first coupling holes and the second coupling holes, Wherein the fastening hole and the second fastening hole are fastened with bolts to easily connect the first outline beam and the intermediate beam or the second outline beam to the intermediate beam. Dimensionally adjustable modular unit with filling columns. delete The method according to claim 1,
A first coupling hole is formed in the lower end of the upper column and an upper end of the lower column along the longitudinal direction. A second coupling hole is formed in the upper and lower ends of the intermediate column along the longitudinal direction, A plurality of fastening holes corresponding to the second fastening holes are formed so that the fastening holes and the first fastening holes or the fastening holes and the second fastening holes are fastened with bolts so that the upper and intermediate columns or the lower and intermediate columns are connected Dimensionally adjustable modular unit with filling columns. delete delete delete The method according to claim 1,
Wherein the upper portion of the upper beam is provided with a socket portion capable of holding and fixing a roof or a supporter for supporting the awning at predetermined intervals. The method according to claim 1,
Wherein the filling column is provided in the form of a hexagonal tube and filled with concrete or urethane inside the size-adjustable modular unit. 9. The method of claim 8,
A hexagonal tube-shaped central column is filled with concrete or urethane at the center of a modular unit having a hexagonal shape by a filled column forming the corner of the hexagonal part and a hexagonal shape by the upper beam and the lower beam, And a plurality of compartments connected to the filling pillars are coupled to divide the interior of the modular unit, wherein the compartments include a first contour beam coupled to the packed column, a second contour beam coupled to the central column, And a middle beam interposed between the first outer beam and the second outer beam and having both ends connected to the first and second outer beams and the connecting member.

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