KR20160034007A - Pedestal and method for combining between base structure and lower structure of unit modular for modular house - Google Patents

Abstract

According to the present invention, a lower structure of a unit module enables a column and a base structure of a modular house to be coupled to each other. The lower structure of a unit module comprises: a column unit supporting a load of the house; the base structure supporting the load of the house transmitted through the column from a lower portion of the column unit; a plurality of first steel bars of which one side is buried in a body of the base structure and the other side protrudes to the outside of the body to a predetermined length; a plurality of second steel bars of which one side is buried in the body of the base structure and the other side protrudes to the outside of the body; and the coupling structure comprising a predetermined injection hole having the steel bar insertion holes. The present invention improves convenience and precision in construction of the lower structure of the unit module.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a coupling structure and a coupling structure between a unit modular substructure and a substructure of a modular housing,

The present invention relates to a modular housing, and more particularly, to a joining member and a joining member between a unit modular substructure of a modular housing and a foundation structure.

In general, the Unit Modular Method is a method of assembling and constructing three-dimensional box-type unit modules manufactured and assembled at the factory to the site, including electric and mechanical equipments and window 50 ~ 90% of the houses are completed in the factory, including interior and exterior materials, flooring materials, ceiling materials, installation of restrooms and kitchen appliances.

When the unit modular construction method is applied to the unit modular housing, the box-shaped unit modules can be combined into the housing by combining the top, bottom, back, and left and right, so that it is applicable to a single house or a collective house. The scope of application of this method is not limited to housing, but it is applicable to various buildings such as dormitory, office facility, military facility, school and so on.

One of the modular houses, Steel House, is a house made of lightweight steel frame. The basic structure is composed of a wall member such as a column, a track member above and below the wall, and a joist supporting the floor or ceiling.

Unlike steel house, unit modular houses are designed to make interior and exterior materials suitable for structures and structures in the factory, so they can only be assembled between the units in the field. Therefore, the construction period can be shortened and the construction cost can be reduced

Generally, the joining between the substructure of a unit module (hereinafter, referred to as 'pedestal') and the substructure can be precisely performed without a vertical error because the height of the pedestal top is constant. However, The height of the pedestal top is not constant, and there is a problem that it is difficult to precisely construct the pedestal due to the vertical error.

The pedestal and the foundation structure are assembled in the factory in a simple assembled state, the mortar is laid in the construction site, and the pedestal and the foundation structure are joined together, and then the assembly is performed between the modular units. It is very important to manage the error in the joint construction.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a unit modular substructure of a modular housing capable of height adjustment of a pedestal and precise construction, and a method of joining the substructure to a foundation structure.

It is another object of the present invention to provide a unit modular substructure of a modular housing which enhances a coupling force of a joining coupling between a unit modular substructure and a substructure by installing a non-shrinkage mortar through a reinforcing steel insert hole and a method of joining the substructure.

It is a further object of the present invention to provide a modular housing structure for a modular housing having a leveling shim plate between a unit modular substructure and a substructure in order to improve ease of installation and precision, .

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be apparent from the description, or may be learned by practice of the invention. The objectives and other advantages of the present invention will be realized and attained by the structure particularly pointed out in the claims, as well as the following description and the annexed drawings.

As described above, the present invention provides a unit modular underfloor structure capable of uniformly adjusting the height of the pedestal upper end and precisely installing the pedestal in a process of joining the pedestal (or the substructure of the unit module) Respectively.

The present invention improves convenience and precision in the construction of the unit modular substructure by making the height of the pedestal adjustable and increasing the bonding force between the pedestal and the foundation structure.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an illustration showing a coupling between a unit modular substructure and a substructure of a modular housing according to the present invention; FIG.
2A is a plan view of a unit modular substructure and a substructure combination according to the present invention.
Figure 2b is a cross-sectional view of a unit modular substructure and a substructure combination according to the present invention.
Figure 3a shows a foundation structure applied to the ground of a modular house.
Figure 3b illustrates height adjustment for vertical error correction of a unit modular substructure according to the present invention.
3c is a view of installing a pedestal over an underlying structure in accordance with the present invention.
FIG. 3D is an exemplary view of a unit modular substructure in which a mortar is filled with an injection hole on a second reinforcing steel side; FIG.
3E is an exemplary view of a unit modular substructure in which a mortar is filled with an injection hole on the side of a second reinforcing bar;

According to an aspect of the present invention, there is provided a unit modular substructure for coupling a column and a substructure of a modular housing to a unit modular substructure,

A columnar section for supporting a load of a house in association with a wall member, a track member or a joyst of a modular house; a foundation structure installed in the ground of the modular housing and supporting a load of the building, A plurality of first reinforcing bars, one side of which is embedded in the body of the foundation structure and the other side of which is protruded out of the body by a predetermined length, and the other side of which is embedded in the body of the foundation structure, A plurality of second reinforcing bars projecting outward from the body and a plurality of reinforcing bars inserted into one side of the first and second reinforcing bars projecting outwardly, And the second reinforcing bar is fastened to the thread formed on the one side of the coupling structure, And a nut capable of adjusting a vertical error of the coupling structure, wherein the base structure forms a groove having an inclination angle of 90 degrees or less toward the central portion on the upper surface thereof, and the coupling structure is formed so as to correspond to the groove of the foundation structure Shape bottom surface.

According to another aspect of the present invention, there is provided a unit modular substructure including a column and a substructure of a modular housing, and a joining structure for joining together the column and the substructure, As a result,

A column member for supporting a load of a house in association with a wall member, a track member or a joyst of the modular housing; a plurality of first reinforcing bars embedded in the body of the foundation structure and projecting outward from the body by a predetermined length; One side of which is embedded in the body of the foundation structure and the other side of which the thread is formed has a plurality of second reinforcing bars projecting outward from the body by a predetermined length and one side of the first and second reinforcing bars projecting outwardly And a coupling structure including a plurality of reinforcing bars inserted into the reinforcing bars, the reinforcing bars being formed at one side of the reinforcing bars and capable of injecting the non-contracting molten metal, the second reinforcing bars being formed at one side And a nut, which is fastened to the screw thread and adjusts a vertical error of the coupling structure, A groove having an inclination angle of 90 degrees or less is formed, and the coupling structure has a bottom surface of the same shape corresponding to the groove of the foundation structure.

In order to achieve the above object, a unit modular substructure according to another aspect of the present invention comprises a column structure forming a column of a modular housing, a foundation structure, and a joining structure joining the column structure and the foundation structure together by mortar A unit modular substructure comprising:

A plurality of first reinforcing bars, one side of which is embedded in the body of the foundation structure and the other side of which is protruded outward from the body by a predetermined length, and the other side of which one side is embedded in the body of the foundation structure, And a plurality of reinforcing bars inserted into the reinforcing bars, one of the first reinforcing bars and the second reinforcing bars projecting to the outside, And at least one leveling shim plate for supporting the load of the building and the weight of the coupling structure between the foundation structure and the coupling structure via the column portion, And the second reinforcing bar is fixed to a screw thread formed on the one side of the nut to adjust a vertical error of the coupling structure, It is configured to include the base structure toward the center of the upper surface 90 and a groove having an inclination angle of less than, the engaging structure has a bottom surface of the same shape so as to correspond with the groove of the base structure.

It is an object of the present invention to realize a joining member and a joining method between a unit modular substructure and a substructure of a modular housing that enables a high binding force of a joining joint and a height of a pedestal to be adjustable.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a view illustrating a coupling between a unit modular substructure and a substructure of a modular housing according to the present invention. Referring to FIG. 1, the first and second columns 300a and 300b having different ground heights (10mm error) (For example, 50 mm) within 10 mm.

1, the upper level of the pedestal 200b on the side of the second column 300b is smaller than that on the side of the first column 300a due to a construction error (for example, 50mm lower construction) of the bottom foundation work of the foundation structure 100b To adjust the lowered error, the operator adjusts the nut height of the threaded bar 120b.

FIG. 2A is a plan view of a unit modular substructure and a substructure combination according to the present invention, and FIG. 2B is a sectional view of a unit modular substructure and a substructure combination according to the present invention. FIG.

Each column 300 of the modular housing forms a structure formed by joining the pedestal 200 and the foundation structure 100 under the column.

2B, the projections of the reinforcing bars embedded in the foundation structure 100 are inserted into the reinforcing insert holes 125 of the pedestal 200, The pedestal 200 and the foundation structure 100 are integrated by tightly filling the non-shrinkage mortar into the reinforcing bar insertion holes 125. The reinforcing bar insertion hole 125 is a part of the BCS sleeve, and means a space into which the first and second reinforcing bars 124 and 128 are inserted.

Referring to FIGS. 2A and 2B, the structure and construction procedure of the unit modular substructure of the modular housing according to the present invention will be described.

The unit modular substructure of the modular housing according to the present invention mainly comprises a substructure 100, a pedestal 200, or a joining structure, and a column 300.

The column portion 300 is a column of a modular housing, which is coupled with a wall member, a track member, or a joist of the modular housing to support the load of the house.

The foundation structure 100 is installed on the ground of the modular housing and supports the load of the building transmitted through the column from the lower part of the column part 300. The transfer of force between the foundation structure 100 and the pedestal 200 is applied to eight reinforcing rods 8-HD19 using a bar connection sleeve (hereinafter, referred to as a BCS (Bar Connection Sleeve) sleeve). That is, eight reinforcement rods (8-HD19) are laid on the foundation structure (100).

Among the eight reinforcing rods 8-HD 19 laid on the foundation structure 100, the four reinforcing rods 4 -HD 19 are threaded to the outside so that the nuts can be tightened to adjust the height, . The remaining four reinforcing rods 4-HD19 are used for filling the non-shrinkage mortar between the pedestal 200 and the foundation structure 100 without threading. Hereinafter, the four reinforcing bars that have not been subjected to the threading are referred to as a first reinforcing bars 124, and the four reinforcing bars processed with the threads are referred to as second reinforcing bars 128. One side of each of the first and second reinforcing bars 124 and 128 is embedded in the body of the foundation structure 100 and the other side thereof is protruded to the outside of the body by a predetermined length. The length of the first reinforcing bars 24 and the second reinforcing bars 128 protruding from the outside is approximately 150 mm to 300 mm (for example, 220 mm) for controlling the embedding depth of the BCS sleeve (for example, 130 mm) do.

The second reinforcing bar 128 can adjust the vertical error of the pedestal 200 by fastening the nut 220 to the threaded outer protruding portion.

It is necessary to minimize the construction error in the construction of the foundation structure 100. It is assumed that the present invention does not exceed a maximum of 50 mm even if a construction error occurs.

The transmission of the force between the foundation structure 100 and the pedestal 200 can be accomplished by eight reinforcement rods 8-HD19. However, for the sake of precision and ease of construction, At least one leveling shim plate (170) is installed between the pedestal (100) and the pedestal (200). The leveling shim plate 170 supports the load of the building transmitted through the column portion 300 and the weight of the pedestal 200 between the foundation structure 100 and the pedestal 200.

The pedestal 200 is provided with a plurality of reinforcing bars 125 through which the outer protruding portions of the first and second reinforcing bars 124 and 128 are inserted, And a predetermined injection hole 130 for allowing the injection of the non-shrinkage mortar. And a pore 127 formed at one side of the side of the reinforcing bar insertion hole 125 and discharging the air in the reinforcing bar insertion hole 125 so that the mortar can be injected smoothly at the time of injecting the non-shrinkage mortar.

Since the lower portion of the reinforcing bar insertion hole 125 is blocked by the nut 220, the BCS sleeve (or reinforcement insertion hole 125) is inserted into the non-shrinkage mortar through the injection hole 130 of the second reinforcing bar 128, Only the interior is filled. The non-shrinkage mortar to be injected through the injection hole 130 of the first reinforcing bar 124 is filled between the pedestal 200 and the foundation structure 100 after filling the BCS sleeve To fill the space of. The shrink-free mortar unifies the pedestal 200 and the foundation structure 100 by tightly filling the BCS sleeve (or reinforcement hole 125) and the pedestal 200 and the foundation structure 100.

The pedestal 200 forms a protrusion (or protruded surface) having an inclination angle of 90 degrees or less toward the center so that the pedestal 200 corresponds to the groove formed on the upper surface of the foundation structure 100. The bottom surface of the pedestal 200 is protruded in the same shape as the upper surface of the foundation structure 100. The reason why the bottom surface of the pedestal 200 and the top surface of the foundation structure 100 form a slope (inclination angle) of a predetermined angle (for example, 90 degrees or less) toward the center portion is that the reinforcing bars 125 are filled sufficiently to the center of the space between the pedestal 200 and the foundation structure 100. The non-shrinkage mortar flowing down from the reinforcing bar insertion hole 125 of the first reinforcing bar 124 will be sufficiently filled up to the center along the inclined surface on the foundation structure 100.

FIGS. 3A to 3E are views showing a construction procedure of a unit modular substructure according to the present invention, and FIG. 3A is a view showing a foundation structure applied to the ground of a modular housing.

As shown in FIG. 3A, the present invention first constructs the foundation structure 100 on the ground of the modular housing. At this time, it is assumed that the foundation structure 100 installed on the ground is constructed 50 mm lower than the surrounding foundation structure. In order to correct such a construction error (50 mm), as shown in FIG. 3B, The nut 220 fastened to the pedestal 128 is upwardly adjusted to prevent a vertical error generated in the pedestal 200. FIG. 3B is a view illustrating height adjustment for vertical error correction of a unit modular substructure according to the present invention. FIG.

Once the construction error (50 mm) of the foundation structure 100 is confirmed, the worker adjusts the nut 220 fastened to the second reinforcing bar 128, and at the same height as the nut 220, SHIM PLATE, 170). The leveling shim plate 170 stacks plates of a thin thickness (e.g., less than 10 mm) to match the height of the nuts 220, as shown in FIG. 3B.

When the height of the nut 220 of the second reinforcing bar 128 is adjusted and the leveling shim plate 170 is completed, the pedestal 200, in which the pillar 300 is embedded, To the top. At this time, the operator installs the pedestal 200 so that the first and second reinforcing bars 124 and 128 of the foundation structure 100 are inserted into the respective reinforcing bar insertion holes 125, as shown in FIG. 3C And the nut 220 of the second reinforcing bar 128 and the leveling shim plate 170 are positioned between the pedestal 200 and the foundation structure 100 so that the height of the pedestal 200 ). Figure 3c is a view of installing a pedestal above the foundation structure in accordance with the present invention.

Once the installation of the pedestal 200 is completed on the foundation structure 100, the operator inserts the pedestal 200 and the foundation structure 100 into the first and second reinforcing bars 100, Shrinkage mortar to the injection holes 130 on the side of the injection nozzles 124, 128.

Since the lower portion of the reinforcing bar insertion hole 125 is blocked by the nut 220, the non-shrinkage mortar to be injected into the injection hole 130 on the second reinforcing bar 128 side is inserted into the reinforcing bar insertion hole 125 The non-shrinkage mortar to be injected into the injection hole 130 of the first reinforcing bar 124 is filled in the reinforcing bar insertion hole 125 and then the pedestal 200 And the base structure 100, as shown in FIG.

The shrink-free mortar flowing into the space between the pedestal 200 and the foundation structure 100 will be filled tightly to the center along the inclined surface (curved surface) on the foundation structure 100. FIG. 3D is an example of a unit modular substructure in which a mortar is filled in the injection hole 130 on the side of the second reinforcing bar 128. FIG. 3E is a view showing the unit modular substructure filling the mortar with the injection hole 130 on the side of the first reinforcing bar 124 Fig. 6 is a view showing an example of a unit modular substructure inserted.

The non-shrinkage mortar filled in the reinforcing bar insertion hole 125 and between the pedestal 200 and the foundation structure 100 strongly bonds the pedestal 200 and the foundation structure 100 by bonding.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. May be constructed by selectively or in combination. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

As described above, the present invention provides a unit modular underfloor structure capable of uniformly adjusting the height of the pedestal upper end and precisely installing the pedestal in a process of joining the pedestal (or the substructure of the unit module) Respectively.

The present invention improves convenience and precision in the construction of the unit modular substructure by making the height of the pedestal adjustable and increasing the bonding force between the pedestal and the foundation structure.

100: foundation structure 200: pedestal
124: first reinforcing bar 125: reinforcing bar insert
127: pore 128: second reinforcing bar
130: Injection hole 170: Leveling shim plate
220: nut 300:

Claims (7)

A unit modular substructure for coupling a column and a foundation structure of a modular housing,
A pillar (300) for supporting a load of a house in association with a wall member, a track member or a joyst of a modular house;
A foundation structure 100 installed in the ground of the modular housing and supporting the load of the building transmitted through the pillars in the lower portion of the pillars 300;
A plurality of first reinforcing bars 124 one side of which is embedded in the body of the foundation structure 100 and the other side of which protrudes outward from the body by a predetermined length;
A plurality of second reinforcing bars 128, one side of which is embedded in the body of the foundation structure 100 and the other side of which is threaded, protruding outside the body by a predetermined length;
And a plurality of reinforcing bar insertion holes 125 into which one side of each of the first and second reinforcing bars 124 and 128 protruded outward is respectively inserted and formed on one side of the reinforcing bar insertion hole 125, And a predetermined injection hole (130) for allowing the injection of the liquid,
The second reinforcing bar 128 includes a nut 220 fastened to the screw thread formed on one side of the second reinforcing bar 128 to adjust a vertical error of the coupling structure,
The base structure 100 forms a groove having an inclination angle of 90 degrees or less toward the central portion on the upper surface and the coupling structure 200 has a bottom surface of the same shape corresponding to the groove of the foundation structure 100 Lt; / RTI >
The method of claim 1, wherein the coupling structure (200)
And a pore (127) formed at one side of the side of the reinforcing bar insertion hole (125) and discharging the air in the reinforcing bar insertion hole (125) so that the mortar can be smoothly injected when the non - Substructure.
The method according to claim 1,
At least one leveling shim plate 170 for supporting the load of the building and the weight of the coupling structure 200 transmitted through the column section 300 between the foundation structure 100 and the coupling structure 200 Wherein the first and second unit modular structures are configured to include a plurality of unit modules.
1. A unit modular substructure comprising a column of a modular housing, a foundation structure (100), and a joining structure (200) for joining together the columns and the foundation structure by mortar,
A pillar (300) for supporting a load of a house in association with a wall member, a track member or a joyst of a modular house;
A plurality of first reinforcing bars 124 one side of which is embedded in the body of the foundation structure 100 and the other side of which protrudes outward from the body by a predetermined length;
A plurality of second reinforcing bars 128, one side of which is embedded in the body of the foundation structure 100 and the other side of which is threaded, protruding outside the body by a predetermined length;
And a plurality of reinforcing bar insertion holes 125 into which one side of each of the first and second reinforcing bars 124 and 128 protruded outward is respectively inserted and formed on one side of the reinforcing bar insertion hole 125, And a predetermined injection hole (130) for allowing the injection of the liquid,
The second reinforcing bar 128 includes a nut 220 fastened to the screw thread formed on one side of the second reinforcing bar 128 to adjust a vertical error of the coupling structure,
The base structure 100 forms a groove having an inclination angle of 90 degrees or less toward the central portion on the upper surface and the coupling structure 200 has a bottom surface of the same shape corresponding to the groove of the foundation structure 100 Lt; / RTI >
5. The method of claim 4, wherein the coupling structure (200)
And a pore (127) formed at one side of the side of the reinforcing bar insertion hole (125) and discharging the air in the reinforcing bar insertion hole (125) so that the mortar can be smoothly injected when the non - Substructure.
5. The method of claim 4,
At least one leveling shim plate 170 for supporting the load of the building and the weight of the coupling structure 200 transmitted through the column section 300 between the foundation structure 100 and the coupling structure 200 Wherein the first and second unit modular structures are configured to include a plurality of unit modules.
A unit modular bottom structure comprising a column portion 300 forming a column of a modular housing, a base structure 100, and a joining structure 200 joining together the column portion 300 and the foundation structure 100 by mortar ,
A plurality of first reinforcing bars 124 one side of which is embedded in the body of the foundation structure 100 and the other side of which protrudes outward from the body by a predetermined length;
A plurality of second reinforcing bars 128, one side of which is embedded in the body of the foundation structure 100 and the other side of which is threaded, protruding outside the body by a predetermined length;
And a plurality of reinforcing bar insertion holes 125 into which one side of each of the first and second reinforcing bars 124 and 128 protruded outward is respectively inserted and formed on one side of the reinforcing bar insertion hole 125, A coupling structure 200 including a predetermined injection hole 130 for allowing the injection of the fluid;
At least one leveling shim plate 170 for supporting the load of the building transmitted through the column part 300 and the weight of the coupling structure 200 between the foundation structure 100 and the coupling structure 200 Respectively,
The second reinforcing bar 128 includes a nut 220 fastened to the screw thread formed on one side of the second reinforcing bar 128 to adjust a vertical error of the coupling structure,
The base structure 100 forms a groove having an inclination angle of 90 degrees or less toward the central portion on the upper surface and the coupling structure 200 has a bottom surface of the same shape corresponding to the groove of the foundation structure 100 Lt; / RTI >

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