KR100923637B1 - Architectural modular unit with reinforced connecting structure - Google Patents

Abstract

PURPOSE: A construction modular unit having reinforcing connection structure is provided to unitize adjacent units each other, and to prevent structure intensity due to formation of a cutout hole. CONSTITUTION: A construction modular unit having reinforcing connection structure includes a reinforcing member(10) and a connection plate(20). The reinforcing member has a welding hole on the surface correspond to a cutout hole of a column(2). The reinforcing member is welded with a side of the column through a welding hole edge. Four second bolt insertion holes(21) are arranged on a connection plate at a constant interval. A fixture insertion hole(22) is formed on an outer side to connect the four units.

Description

Architectural modular unit with reinforced connection structure {ARCHITECTURAL MODULAR UNIT WITH REINFORCED CONNECTING STRUCTURE}

The present invention prevents the reduction of structural forces caused by the formation of a cut-out hole for connection between pillars by installing a reinforcing member inside the pillar, and integrates vertically and horizontally adjacent units with each other, as well as guiding the precise position for precise construction. This makes it possible for a building modular unit with a reinforced connection structure.

The modular building unit is a structural system for constructing a building through lamination and assembly.

In such a structural system, four steel pillars arranged in a rectangular shape, a plurality of steel channel ceiling beams connecting the upper portions of the pillars, the horizontal ceiling portion, the ceiling vertical portion, and the horizontal ceiling portion, and each pillar It is composed of a plurality of steel channel beams that connect the lower part and consist of the upper horizontal part, the vertical floor part, and the lower horizontal part.

The main technologies related to such a building modular unit are mainly related to the pillars and the connection or connection plate for simplifying and systemizing the connection portion of the beam.

For example, the "fastener of a prefabricated building module" (Korean Patent Laid-Open Publication No. 10-2005-0046439) includes a connecting plate that simultaneously covers a plane of a pillar installed in a module and a plane of a pillar installed in another module adjacent to the module, and a connecting plate member. The adjacent module is stable by forming a reinforcing member protruding from a lower side and an upper side of the module, the reinforcing member being formed in close contact with the side of the pillar installed in another module adjacent to the pillar of the module and the upper, lower, left, and right sides of the module and coincident with the coupling hole. The technology to secure the stability of the building by combining them is disclosed.

By the way, when the hole processing for fastening the bolt on the side of the pillar in the same technique as described above there was a problem that the bearing capacity of the pillar is reduced.

In addition, in the case of bolting by connecting the hole to the connection plate material, when the thickness of the connection plate material is thin, that is, between the layers there was a problem that the construction is impossible.

On the other hand, "Modular junction structure of the modular building" (Korean Patent Publication No. 10-2006-0072762) is provided with a connecting plate connected to a plurality of pillars, the connection plate is disclosed a technique for bolted through the column bottom have.

However, the above technique has difficulty in accurately positioning each unit because the connection plate cannot be correctly positioned when the bolting operation is not correct when connecting three or more units using the connection plate.

As a technique for solving the above problems, "horizontal unit provided with a connector and a modular structure using the same" (Korea Patent Publication No. 10-0764025) has a connector inside the connector in the inner part of the connector that is coupled to the flange of the beam Therefore, by welding the horizontal stiffener, the load acting on the bottom plate is transferred directly from the strongly bonded beam to the column through the connector to ensure the stability of the modular structure.

By the way, when fixing the connector to the pole as described above, there is a problem in that the productivity is reduced because the welding is carried out to prepare eight connectors for each module.

Building modular unit having a reinforced connection structure of the present invention to solve the problems caused in the prior art as described above, one side is formed with a second bolt insertion hole for fastening between the upper and lower columns, the other side When connecting the two adjacent units to each other when connecting the horizontally adjacent units with each other using a connecting plate having a fastener inserting hole for a guide and a position fixing tool having a large upper diameter and a lower lower diameter while being inserted into the fastener inserting hole of the connecting plate. It is to be able to assemble at the correct point.

In addition, when connecting the upper and lower units using the connecting plate and the position fixing device configured as described above is to be made at the correct point.

In addition, in the process of seating the upper unit on the lower unit by using the position fixing tool to the upper unit is seated at the correct point to improve the workability to be assembled without a separate fine position adjustment work.

In other words, by using the connecting plate and the position fixing device to adjust the spacing of horizontally adjacent units and to integrate the horizontal units, and to unite the upper and lower units with each other, as well as the correct position when connecting the upper unit on the lower unit To guide you.

In addition, by forming the lower portion of the position fixing sphere to be inserted into the lower horizontal portion of the ceiling beam or the floor beam to prevent deformation of the position fixing sphere when positioning the upper unit on the lower unit to enable the most precise construction.

In addition, by installing a reinforcing member to fix the welding inside the column to prevent structural force reduction caused by the formation of a cutting hole in the column, in particular, by forming a welding hole on one side of the reinforcing member to reinforce the welding work between the reinforcing member and the column. It is intended to be firmly fixed to the pillars in the member.

Building modular unit having a reinforced connection structure of the present invention, in order to solve the above problems, four steel pillars arranged in a rectangular form, connecting the upper portion of each column, the upper ceiling portion, the ceiling vertical portion, the ceiling A rectangular building modular unit comprising a plurality of steel channel beams consisting of a lower horizontal portion and a plurality of steel channel beams formed by connecting a lower portion of each column and a lower horizontal portion, a bottom vertical portion, and a lower horizontal portion. Each of the pillars has a rectangular cross section and is fixed to the upper and lower edges of the copper plate by welding, and a cutout hole having a constant height is formed on one side thereof in contact with the copper plate, and the first bolt insertion hole is formed on the copper plate. The reinforcing member having a cross section of the "c" shape is inserted into the incision hole and welded to the column. The lower part of the fixing hole insertion hole is formed in the bottom, and the lower horizontal portion of the fixing hole insertion hole having a diameter larger than the fixing lower part insertion hole is formed to coincide with the fixing lower part insertion hole in a vertical line, the first bolt insertion hole on one side The second bolt insertion hole is formed so as to coincide with the vertical line, and the connecting plate having a fixture insertion hole corresponding to the inner diameter of the fixture lower insertion hole on the other side and formed with a fixture insertion hole corresponding to the inner diameter of the fixture opening is provided in contact with the copper plate. Fixing bolt is fastened through the bolt insertion hole and the second bolt insertion hole, and the upper cylindrical portion is formed in a conical shape, and the upper cylindrical portion formed in the lower portion of the upper cone portion and having a diameter corresponding to the inner diameter of the fixing sphere insertion hole. And a lower cylindrical portion formed under the upper cylindrical portion and having a diameter corresponding to the inner diameter of the fixing hole lower insertion hole, and a conical under the lower cylindrical portion. Position fixing tool consisting of a lower conical portion formed in the form, characterized in that the lower cylindrical portion is inserted into the lower fixture insertion hole, the upper cylinder portion is inserted into the fastener insertion hole of the connecting plate in order.

In addition, the connecting plate is characterized in that the two second bolt insertion holes are arranged at regular intervals in the horizontal direction, the fastener insertion holes are formed on both sides to the outside thereof is configured to connect the adjacent units in the horizontal direction.

Alternatively, four second bolt insertion holes are arranged at regular intervals horizontally and vertically, and a fastener insertion hole is formed at an outer side thereof so as to connect four units adjacent in the horizontal and vertical directions.

In addition, the ceiling lower horizontal portion is formed with a secondary insertion hole having the same diameter as the fixture lower portion insertion hole on a straight line perpendicular to the upper horizontal portion, the lower cylindrical portion of the position fixing fixture is a fixture lower portion insertion hole and the secondary insertion hole It is characterized in that it is formed long to penetrate.

In addition, the reinforcing member is characterized in that the welding hole is formed on the surface corresponding to the cutting hole of the column is configured to be reinforced with one side surface of the pillar through the welding hole border.

According to the present invention, one side is formed with a second bolt insertion hole for fastening between the upper and lower pillars, and the other side is inserted into the fixing plate insertion hole of the connecting plate and the fixing plate insertion hole is formed for the guide Both of the units can be assembled at the correct point when connecting units horizontally adjacent to each other using a position fixing tool having a large upper diameter and a lower lower diameter.

In addition, when the upper and lower units are combined using the connecting plate and the position fixing device configured as described above, the coupling is performed at the correct point.

In addition, by mounting the upper unit on the lower unit in the process of mounting the upper unit is mounted on the correct point by using the position fixing tool to be assembled without additional fine position adjustment work to improve the workability.

In other words, by using the connecting plate and the position fixing device to adjust the spacing of horizontally adjacent units and to integrate the horizontal units, and to unite the upper and lower units with each other, as well as the correct position when connecting the upper unit on the lower unit To guide.

In addition, by forming the lower portion of the position fixing sphere to be inserted into the lower horizontal portion of the ceiling beam or the floor beam to prevent the deformation of the position fixing sphere when positioning the upper unit on the lower unit, it is possible to precise construction as possible.

In addition, by installing a reinforcing member to fix the welding inside the column to prevent structural force reduction caused by the formation of a cut-out hole in the column, in particular, by forming a welding hole on one side of the reinforcing member to reinforce the welding work between the reinforcing member and the column. The member is firmly fixed to the column.

The building modular unit 1 having the reinforced connection structure of the present invention connects four steel pillars 2 arranged in a quadrangular shape, and the upper portions of the pillars 2, the upper horizontal portion 3a, the ceiling A plurality of steel channel ceiling beams 3 composed of a vertical portion 3b and a lower horizontal portion 3c and a lower portion of the pillars 2 are connected to each other, and the upper horizontal portion 4a and the bottom vertical portion 4b are connected to each other. ), It is assumed that it is a rectangular building modular unit (1) composed of a plurality of steel channel beams (4) composed of a bottom horizontal portion (4c).

Building modular unit (1) having a reinforced connection structure of the present invention presupposed as described above, each column (2) has a rectangular cross section, as shown in Figures 2 and 3, and the top of the column (2) and The copper plate 40 is welded and fixed to the lower end.

In addition, the first plate insertion hole 41 is formed in the copper plate 40 to allow bolts to be installed during interlayer assembly.

On the other hand, one side surface of the pillar 2 is formed in contact with the copper plate 40, that is, a cutting hole cut to a certain height from the end.

Incision holes are not indicated by reference numerals. However, referring to FIG. 8, the incision holes may be formed by forming holes in one side of the upper and lower sides of the pillar 2.

The reinforcing member 10 having a cross-section of the "c" shape is inserted inside the cut-out hole and welded to the column 2.

The method of installing the reinforcing member 10 is to form a cutting hole at the end of the square tube of the square when manufacturing the column 2, and then insert the reinforcing member 10 therein and fix the welding to the column (2), Next, the copper plate 40 may be installed and fixed.

At this time, the reinforcing member 10 is preferably formed in the welding hole 11 on the surface on the opposite side corresponding to the cutting hole.

When the reinforcing member 10 is inserted into the tube and then welded to the tube, only the incision hole and the end of the tube can be welded, so it may not be firmly fixed, thereby forming the welding hole 11 and forming the welding hole 11. When the welding is performed along the square tube and the reinforcing member 10 is firmly fixed.

On the other hand, in the present invention, the upper ceiling portion (3a) of the ceiling beam (3) is formed in the lower fixing hole insertion hole 51, the bottom lower horizontal portion (4c) has a larger diameter than the lower fixing hole insertion hole 51 The fastener lower part inserting hole 50 which has is formed so that it may coincide with the fastener lower part inserting hole 51 on a perpendicular line.

As shown, the fixture lower portion insertion hole 51 and the fixture-shaped portion insertion hole 50 are preferably formed in close proximity to the pillar (2).

In the present invention, the connection plate 20 is provided with a second bolt insertion hole 21 and a fastener insertion hole 22 as shown in FIG. .

As shown in the drawing, the second bolt insertion hole 21 is formed at a position that can be coincident with the first bolt insertion hole 41 on a vertical line in a state where the connecting plate 20 is installed.

In addition, the fastener inserting hole 22 is formed to be spaced apart from the first bolt insertion hole 41 by a predetermined distance, and as shown, the fastener lower part inserting hole 51 or the fastener upper part inserting hole in a state where the connecting plate 20 is installed. It is spaced apart by a distance enough to coincide with the center of (50).

At this time, the size of the fixture insertion hole 22 is characterized in that the same as the size of the fixture sphere insertion hole (50).

This connecting plate 20 is a molten plate 40 of two floor units 1 adjacent to each other up and down as shown, that is, the pillar plate 40 and the pillars of the lower layer unit 1 below the pillars 2 of the upper unit 1. (2) When the first bolt insertion hole 41 of the two copper plate 40 and the second bolt insertion hole 21 of the connecting plate 20 is in a straight line when installed between the upper copper plate 40, the high force By installing the bolts 60, the pillars 2 of two adjacent layer units 1 are integrally connected to each other.

In the present invention, the position fixing tool 30 is formed in a conical shape of the upper cone portion 31, the upper cylindrical portion 31 is formed in the lower portion of the upper cylindrical portion having a diameter corresponding to the inner diameter of the fixing sphere insertion hole 50 And a lower cylindrical portion 33 formed below the upper cylindrical portion 32 and having a diameter corresponding to the inner diameter of the lower hole inserting hole 51, and a lower cylindrical portion 33 formed in a conical shape. It consists of a lower cone portion 34.

The reason why the upper conical part 31 is formed in a cone shape is to allow the fastener upper part insertion hole 50 to slide into the position fixing tool 30 when the upper layer unit 1 is loaded on the lower layer unit 1. to be.

In addition, the reason why the lower cone portion 34 is formed in a cone shape is to make it easier for an operator to insert the position fixing tool 30 into the lower fixture insertion hole 51.

The reason why the upper and lower diameters of the position fixing tool 30 are different is that the upper cylindrical portion 32 and the lower cylinder when the position fixing tool 30 is inserted from the top to the bottom of the fixing tool lowering insertion hole 51 of the lower layer unit 1. This is for the boundary point of the part 33 to be hung on the upper ceiling portion 3a of the ceiling beam 3.

In the position fixing tool 30, the lower cylindrical portion 33 is inserted into the lower fixture insertion hole 51 of the lower layer unit 1, and the fixing fixture insertion hole 22 and the upper layer unit 1 of the connecting plate 20 are inserted. The upper cylindrical portion 32 is sequentially inserted into the fixing sphere insertion hole 50 to guide the adjacent floor units 1.

In such a configuration, when connecting and integrating horizontally adjacent units 1, the connecting plate 20 is lowered while bringing the new unit 1 closer to the side of the unit 1 that is already installed and fixed. 1) After adjusting the position so that the position fixing tool 30 is inserted into the fixing tool lower insertion hole 51 and the fixing tool insertion hole 22 of the connecting plate 20, the pillars 2 of the two units 1 The first bolt insertion hole 41 formed in the upper copper plate 40 and the two second bolt insertion holes 21 provided in the connecting plate 20 may be penetrated and fixed by the high-strength bolt 60.

Looking at the process of integrating the plurality of units (1) up, down, left, right, as described above, the lower layer unit 1 is disposed adjacent to each other using the connecting plate 20 and the position fixing tool 30, The high-strength bolt 60 loads the upper layer unit 1 thereon without being fastened.

In this case, the upper cylindrical portion 32 of the position fixing tool 30 may be inserted into the fixing tool insertion hole 50 of the upper layer unit 1 while being moved while being loaded.

At this time, the upper conical part 31 of the position fixing tool 30 is inserted into the fixing tool upper part insertion hole 50 of the upper layer unit 1 while sliding to facilitate the guide.

In this process, the plurality of upper units 1 are loaded on the lower unit 1 in the correct position, and then the pillars 2 of the upper unit 1 are formed of the copper plate 40, the connecting plate 20, and the lower layer unit 1. By fastening the pillar plate 2 of the crankshaft 40 using the high-strength bolt 60, the upper layer unit 1 and the lower layer unit 1 and a plurality of units 1 horizontally adjacent to each other are integrated.

In the configuration as described above, four second bolt insertion holes 21 are arranged in the connecting plate 20 at horizontal and vertical intervals in the connecting plate 20, and the fastener inserting holes 22 are formed outside the connecting plate 20. Is formed to connect four adjacent units (1) in the horizontal, vertical direction, or four units (1) on top of the four adjacent units (1) in the horizontal, vertical direction is configured to connect.

4 to 6 show various embodiments of the connecting plate 20.

In the case of FIG. 4, one second bolt insertion hole 21 and one fixture insertion hole 22 are formed. In this case, it is used to connect the upper layer unit 1 and the lower layer unit 1. do.

In addition, in the case of FIG. 5, the two units 1 arranged side by side in the horizontal direction and the upper unit 1 are placed thereon to be used when integrating a total of four units 1.

That is, in the connecting plate 20, two second bolt insertion holes 21 are arranged at regular intervals in the horizontal direction, and two fastening unit insertion holes 22 are formed at both sides thereof to the outside thereof, so that the two units adjacent to each other in the horizontal direction ( 1) or it is configured to connect two units 1 in the horizontal direction and two units 1 thereon.

In addition, in the case of Figure 6 is used to connect a total of eight units (1), each of the four upper and lower, as shown in Figure 2, two ceiling beams (3) or floor connected to each pillar (2) as shown By forming the fixture spherical insertion hole 50 or the fixture lower part insertion hole 51 in the beam 4, the guide is made at two points per column 2 so that the construction is more accurate than in the previous embodiment. .

In the above configuration,

The lower ceiling portion 3c has an auxiliary insertion hole 52 having the same diameter as the lower fixture insertion hole 51 on a straight line perpendicular to the upper horizontal portion, and has a lower cylindrical portion 33 of the position fixing tool 30. ) May be elongated to penetrate the fixture lower insertion hole 51 and the auxiliary insertion hole 52.

In this case, since the length corresponding to about 90% of the total length of the position fixing tool 30 is inserted into and fixed to the upper ceiling portion 3a and the lower ceiling portion 3c, the upper layer unit 1 is placed on the lower layer unit 1. It is possible to prevent the upper layer unit 1 from being inserted while the position fixing tool 30 is stiff due to the impact during the connection process.

In the above configuration, the connecting plate 20 serves as a guide when integrating and stacking the upper and lower layer units 1, as well as the two horizontally adjacent units 1, as well as the upper and lower layer units 1 and 1. To adjust the spacing of the two adjacent units (1) will also serve to adjust.

In the above configuration, after the connection between the units 1 is completed, the position fixing tool 30 can be separated and recycled.

In addition, each unit is provided with a separate bolt and nut which is installed through the fixing fixture upper insertion hole 50, the fixing fixture lower insertion hole 51, and the fixing fixture insertion hole 22 which remain after the position fixing tool 30 is removed. We can strengthen connection between (1).

At this time, the shape of the bolt to be used may be a body having a shape corresponding to the shape of the upper cylindrical portion 32 and the lower cylindrical portion 33 of the position fixing tool (30).

1 is a perspective view showing a general building modular unit.

Figure 2 is an exploded perspective view showing a building modular unit having a reinforced connection structure of the present invention.

Figure 3 is a perspective view showing a building modular unit having a reinforced connection structure of the present invention.

4 to 6 is a perspective view showing a connection state between the embodiment and the unit according to the embodiment of the connecting plate in the present invention.

Figure 7 is a perspective view showing an example in which the lower position fixing fixture formed in the present invention.

Figure 8 is an exploded perspective view showing a state in which the reinforcing member and the copper plate is installed in the upper and lower pillars in the present invention.

<Detailed Description of Major Symbols in Drawing>

1 unit 2 pillar

3: ceiling beam 3a: ceiling upper portion

3b: ceiling vertical part 3c: ceiling lower horizontal part

4: floor beam 4a: floor upper horizontal portion

4b: Floor vertical part 4c: Bottom floor horizontal part

10: reinforcing member 11: welding hole

20: connecting plate 21: second bolt insertion hole

22: fastener insertion hole 30: position fixing tool

31: upper conical part 32: upper cylindrical part

33: lower cylindrical portion 34: lower cone portion

40: copper plate 41: the first bolt insertion hole

50: Fixture lower part insertion hole 51: Fixture lower part insertion hole

52: auxiliary insertion hole 60: high-strength bolt

Claims (5)

Four steel columns (2) arranged in a rectangular shape, connecting the upper portion of each of the pillars (2), a plurality of upper ceiling portion (3a), ceiling vertical portion (3b), lower ceiling portion (3c) A plurality of steel channel beams connecting the three steel channel ceiling beams 3 and the lower parts of the pillars 2 and comprising an upper horizontal part 4a, a lower vertical part 4b, and a lower horizontal part 4c. In the rectangular building modular unit 1 composed of beams 4, Each of the pillars 2 has a rectangular cross section, and the copper plate 40 is welded and fixed to the upper and lower ends thereof, and one side is formed with a cutting hole having a constant height from a portion contacting the copper plate 40. 40, the first bolt insertion hole 41 is formed, A reinforcing member 10 having a cross-section of a "c" shape is inserted into the cutting hole and welded to the column 2. Fixing part lower insertion hole 51 is formed in the upper horizontal part 3a, In the bottom lower horizontal portion 4c, a fastener lower part insertion hole 50 having a diameter larger than that of the fastener lower part inserting hole 51 is formed to coincide with the fastener lower part inserting hole 51 in a vertical line. The second bolt insertion hole 21 is formed on one side so as to coincide with the first bolt insertion hole 41 on the vertical line, and the other side is coincident with the center of the fixture lower part insertion hole 51 and the inside diameter of the fixing spherical insertion hole 50. A connecting plate 20 having a fixing tool insertion hole 22 corresponding thereto is installed in contact with the copper plate 40 so that the fixing bolts penetrate the first bolt insertion hole 41 and the second bolt insertion hole 21. By tightening, An upper cylindrical portion 31 formed in a conical shape, an upper cylindrical portion 32 formed below the upper conical portion 31 and having a diameter corresponding to an inner diameter of the fixing sphere inserting hole 50, and an upper cylindrical portion ( 32) the lower cylindrical portion 33 is formed in the lower portion having a diameter corresponding to the inner diameter of the lower fixture insertion hole 51, and the lower cone portion 34 is formed in a conical shape below the lower cylindrical portion 33 The position fixing tool 30 is formed by inserting the lower cylindrical portion 33 into the lower fixture insertion hole 51 and the upper cylindrical portion 32 sequentially inserted into the fixture inserting hole 22 of the connecting plate 20. Characterized in that Architectural modular unit with reinforced connections. The method of claim 1, In the connecting plate 20, two second bolt insertion holes 21 are arranged at regular intervals in the horizontal direction, and fixture fastening hole 22 is formed at both sides to the outside thereof, thereby adjoining the unit 1 in the horizontal direction. It is configured to connect between), Architectural modular unit with reinforced connections. The method of claim 1, The connecting plate 20, Four second bolt insertion holes 21 are arranged at regular intervals horizontally and vertically, and a fixture insertion hole 22 is formed at an outside thereof so as to connect four units 1 adjacent to each other horizontally and vertically. Characterized in that Architectural modular unit with reinforced connections. The method according to any one of claims 1 to 3, An auxiliary insertion hole 52 having the same diameter as the fixture lower portion insertion hole 51 is formed on a straight line perpendicular to the upper horizontal portion in the ceiling lower horizontal portion 3c. The lower cylindrical portion 33 of the position fixing tool 30 is characterized in that it is formed long to penetrate the fixture lower insertion hole 51 and the auxiliary insertion hole 52, Architectural modular unit with reinforced connections. The method of claim 1, The reinforcing member 10 has a welding hole 11 formed on a surface corresponding to the cutting hole of the pillar 2, so that the reinforcing welding is made with one side of the pillar 2 through the edge of the welding hole 11. Characterized in that Architectural modular unit with reinforced connections.

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