KR102530136B1 - Modular Movable Building Prefabricated Foundation Structure - Google Patents

Abstract

The present invention relates to a modular mobile building prefabricated foundation structure, and more particularly, a mobile building is a method of reusing a building by moving it to another place after using it for a certain period of time. It relates to a modular mobile building prefabricated foundation structure that can be built.

Description

Modular Movable Building Prefabricated Foundation Structure {Modular Movable Building Prefabricated Foundation Structure}

The present invention relates to a modular mobile building prefabricated foundation structure, and more particularly, a mobile building is a method of reusing a building by moving it to another place after using it for a certain period of time. It relates to a modular mobile building prefabricated foundation structure that can be built.

Modular construction is a system in which a building can be easily constructed by simply assembling on the site by moving the module unit to the site after manufacturing the module in the factory.

As in the embodiment shown in FIG. 13, the foundation of a conventional modular building is manufactured by pouring concrete on site, and anchor bolts for fixing module units are placed before concrete is poured, and then the anchor bolts are buried during concrete pouring. Installed and manufactured.

Here, the module unit 1 may be composed of a floor panel 2, a ceiling panel 3, a pillar 4 and a stud 5 vertically installed between the floor panel and the ceiling panel. In addition, at least one of the floor panel and the pillar may be installed in the foundation concrete by a method such as bolted connection with anchor bolts embedded in the foundation concrete 6.

That is, in the conventional modular building construction method, the module unit is manufactured in a factory, whereas the foundation for fixing the module unit is manufactured using concrete in the field.

However, in the process of pouring concrete, construction errors occur due to problems such as the movement of anchor bolts embedded in the concrete of the foundation part. Accordingly, the module unit is manufactured in a factory and has high precision, whereas the foundation part is manufactured on the site and construction errors may occur greatly, resulting in a problem of deteriorating the quality of modular construction due to poor vertical and horizontal accuracy.

In addition, it takes time in the process of pouring and hardening concrete, and it may take time in the process of correcting construction errors due to poor accuracy, resulting in an overall increase in the construction period.

In addition, since concrete is poured to form the foundation of a modular building, it is difficult to dismantle and reuse the foundation part, which may cause a problem of deterioration in economic feasibility.

The technical problem to be achieved by the present invention for solving the above-described problems is a modular mobile building prefabricated foundation structure that is easy to assemble by bolting without welding as a prefabricated structure and shortens the air by not pouring concrete during the construction of a modular mobile building. intended to provide

Another object of the present invention is to provide a prefabricated foundation structure of a modular movable building, which is easy to install, dismantle, and reuse of the foundation part of the modular movable building, increases field workability, and secures economic feasibility.

As a means for achieving the above-described technical problem, the modular mobile building prefabricated foundation structure according to the present invention has a bottom surface disposed in contact with the floor and two coupling parts protruding upward, and the coupling parts are spaced apart from each other at a predetermined interval. bottom iron plate; a level adjusting liner disposed between the connecting parts of the floor iron plate and disposed to adjust a height; an H beam installed on top of the liner for leveling and formed long in the longitudinal direction to integrate the foundation; Joints connecting the two coupling parts of the H-beam and the bottom iron plate, respectively; A box-shaped joint disposed on the H-beam and installed at a position where a modular column is located; And a guide pin coupled to the guide pin coupling hole formed in the box-shaped junction; The coupling part and the joint of the floor iron plate are bolted, the joint and the H-beam are bolted, and the H-beam and the box-shaped joint are bolted; It is characterized in that the pillar of the modular can be coupled to the guide pin.

Preferably, the coupling part of the bottom iron plate has at least one coupling hole to enable bolting coupling; The joint portion has at least two coupling holes to enable bolting coupling with the coupling portion of the H-beam and the bottom steel plate; The H-beam includes a lower frame, a connecting frame, an upper frame, and a stiffener, and has at least one coupling hole in each of the lower frame and the upper frame to enable bolting coupling with the joint portion and the box joint portion; The box-shaped joint includes a lower frame, a connecting frame, an upper frame, and a support, and has at least two or more coupling holes in the lower frame to enable bolting with the H-beam, and at least two coupling holes in the upper frame to enable coupling with the H-beam. It is characterized by having one or more coupling holes.

Also preferably, the box-shaped joint is installed at the place where the modular column is located, and is formed in a box shape of the same size as the modular column to withstand the axial force, and the connecting frame is provided only on one side and the other side of the H-beam in the longitudinal direction. And, on the side, a space is formed to enable bolting; The box-type junction is manufactured by setting the height according to the level of the existing building when a movable building is to be used by connecting it to an existing permanent building, and when the modular is not installed adjacently, one guide pin can be combined It is divided into a first box-shaped joint and a second box-shaped joint to which two guide pins can be coupled when the modular is installed adjacently, and the first box-shaped joint or the second box-shaped joint is installed depending on the location where the modular is coupled. to be characterized

Also preferably, when connecting the joint portion of the H beam and the floor iron plate, a liner for level adjustment is further included on the lower side of the joint portion, so that the H beam is maintained horizontally when the joint portion and the H beam are combined. characterized by

According to the present invention, when constructing a modular movable building, the construction period is shortened because concrete is not poured, and the prefabricated structure is fixed by bolting without welding, so that assembly is easy.

In addition, according to the present invention, the installation, release and reuse of the foundation part of the modular movable building is easy, and the on-site workability is increased, and at the same time, it has the effect of securing economic feasibility.

1 is a view showing a state in which a floor steel plate of a modular mobile building prefabricated foundation structure according to an embodiment of the present invention is disposed.
2 is a view showing a state in which a liner for level adjustment is disposed on a floor steel plate in a modular mobile building prefabricated foundation structure according to an embodiment of the present invention.
3 is a view showing a state in which a long H-beam is installed in a modular mobile building prefabricated foundation structure according to an embodiment of the present invention.
4 and 5 are diagrams showing a state in which joints are arranged and combined in a modular mobile building prefabricated foundation structure according to an embodiment of the present invention.
6 is a view showing a state in which box-type junctions are arranged in a modular mobile building prefabricated foundation structure according to an embodiment of the present invention.
7 is a view showing a state in which guide pins are coupled in a modular mobile building prefabricated foundation structure according to an embodiment of the present invention.
8 is a view showing a state in which a modular module is coupled to a prefabricated foundation structure for a modular movable building according to an embodiment of the present invention.
Figure 9 is a view showing the configuration of the second box-type junction in the modular mobile building prefabricated foundation structure according to an embodiment of the present invention.
10 is a view showing a state in which a modular module is installed adjacent to a second box-type junction in a modular movable building prefabricated foundation structure according to an embodiment of the present invention.
11 is a view showing a state in which a prefabricated foundation structure is installed along the longitudinal direction of a long H-beam so that a modular mobile building according to an embodiment of the present invention can be installed.
12 is a conceptual diagram showing a state in which a modular movable building is installed in a prefabricated foundation structure according to an embodiment of the present invention.
13 is a view showing a conventional modular building foundation structure.

In order to fully understand the operational advantages of the present invention and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings illustrating preferred embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, the configuration and operation of preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Here, in adding reference numerals to the components of each drawing, it should be noted that the same components are marked with the same numerals as much as possible, even if they are displayed on different drawings.

The following examples may be modified in many different forms, and the scope of the present invention is not limited to the following examples.

The modular movable building prefabricated foundation structure according to the present invention can be used in modular temporary schools that have been widely used recently. It can be used for assembly-type buildings, temporary hospitals that can be built quickly in the event of an infectious disease, and temporary accommodations required due to natural release.

1 to 12, the modular mobile building prefabricated foundation structure according to the present invention, the floor steel plate 100, the level adjustment liner 10, the H beam 120, the joints 111 and 112, and the guide It may include box-shaped junctions 140 and 150 to which pins are coupled.

As shown in FIG. 1, the bottom iron plate 100 is formed with its bottom surface in contact with the floor and two coupling parts 101 and 102 protruding upward, and the coupling parts 101 and 102 are spaced apart from each other at regular intervals. They can be spaced apart.

In addition, at least one coupling hole 101a, 102a may be formed in the coupling portion 101, 102 to enable bolting coupling.

That is, the floor iron plate 100 may be provided to form a flat and hard floor to install the foundation.

In addition, it is disposed between the coupling parts 101 and 102 of the floor iron plate 100, is disposed as shown in FIG. 2 to adjust the height, and is provided with a level adjustment liner 10 capable of adjusting the fine level. can

At this time, the liner 10 for level adjustment is necessary to adjust the fine level because it only performs basic floor stop work.

In addition, the liner 10 for level adjustment is installed on top of the position, and as shown in FIG. 3 for integration of the foundation, a long H beam 120 formed in the longitudinal direction may be installed.

In addition, as shown in FIGS. 4 and 5 in the state where the H beam 120 is installed, the joint portion connecting and fixing the two coupling parts 101 and 102 of the H beam 120 and the floor iron plate 100, respectively ( 111, 112) may be provided.

At this time, at least two coupling holes 111a, 111b, 112a, and 112b may be respectively formed in the first junction 111 and the second junction 112 to enable bolt coupling.

In addition, when connecting the coupling portions 101 and 102 of the H beam 120 and the floor iron plate 100, a liner 10 for level adjustment may be further included and disposed below the joint portions 111 and 112.

As a result, when combining the joints 111 and 112 and the H beam 120, the height of the H beam 120 can be adjusted so that the H beam 120 remains horizontal and coupled.

In addition, the joints 111 and 112 may be bolted to the coupling parts 101 and 102 of the bottom steel plate 100 and bolts B, and may be bolted to the H beam 120 and bolts B. .

As shown in FIGS. 6 and 7 , the box-shaped joint 140 is disposed on the H-beam 120 and may be installed in a position where the pillar of the modular M is located.

In addition, a guide pin 147 coupled to a guide pin coupling hole 144 formed in the box-shaped joint 140 may be included.

In addition, the coupling parts 101 and 102 of the floor iron plate 100 have at least one coupling hole 101a and 102a so as to enable bolting, and the junctions 111 and 112 are connected to the H beam 120 and the floor iron plate. At least two coupling holes 112a and 112b are provided so that the coupling parts 101 and 102 and bolting can be coupled.

In addition, the H beam 120 includes a lower frame 121, a connecting frame 122, an upper frame 123, and a stiffener, and a bolting connection between the joints 111 and 112 and the box joint 140 At least one coupling hole 121a, 123a may be provided in each of the lower frame 121 and the upper frame 123 so as to be possible.

At this time, the stiffener 125 may be provided by welding in advance when the H beam 120 is manufactured.

In addition, the stiffener 125 will be located at the lower position on the vertical line of one side and the other side of the support part 145 of the box-shaped joint 140 between the upper frame 123 and the lower frame 121 of the H beam 120 can

In addition, of course, the stiffener may be disposed on the other side at a corresponding position other than one side shown in FIGS. 6 and 7 .

In addition, the box-shaped joint 140 includes a lower frame 141, a connecting frame 142, an upper frame 143, and a support 145, and is coupled to the H-beam 120 by bolting at least to the lower frame. Two or more coupling holes 141a may be provided, and at least one coupling hole 146 may be provided in the upper frame 143 to enable bolting with the modular M.

In addition, looking at the modular mobile building prefabricated foundation structure according to the present invention, as shown in FIG. 8, the coupling parts 101 and 102 of the floor iron plate 100 and the junction parts 111 and 112 are connected through bolts (B). It can be bolted, and the junctions 111 and 112 and the H beam 120 are bolted together through a bolt B, and the H beam 120 and the box-shaped junction 140 are bolted through a bolt B, , The modular column 200 may be coupled to the guide pin 147.

In addition, since the modular (M) and the box-type junction 140 are installed in the modular pillars, they can be designed in a box shape of the same size as the modular pillars in order to withstand the axial force.

This allows overall level adjustment. For example, when a mobile building is to be used in connection with an existing permanent building, the mobile building must match the level of the existing building. At this time, it is possible to manufacture and use the height of the box joint 140 according to the building level, and since the floor steel plate 100 and the H beam 120 can be continuously used, only the box joint 140 can be manufactured and improved in terms of economic efficiency. have a possible effect.

In addition, the box-type junction 140 is installed at the position where the modular pillar 200 is located, and may be formed in the form of a box having the same size as the modular pillar in order to withstand axial force, and the connecting frame 142 is an H beam ( 120) is provided only on one side and the other side in the longitudinal direction, and a space portion 149 may be formed on the side surface to enable bolting.

In addition, in existing modular buildings, a pit for facility piping is created at the bottom (foundation) of the module on the first floor to secure an installation work space. However, since the modular movable building is a building for temporary use, pit space cannot be created, and workers crawl under the module to work. In the modular mobile building prefabricated foundation structure according to the present invention, by forming the space portion 149 at the box-shaped joint 140, the bolting operation is possible from the outside of the modular and box-shaped joint 140, so the work is easy.

In addition, when a movable building is to be used by connecting it to an existing permanent building, the box-shaped joint 140 can be manufactured by setting the height according to the level of the existing building, and can be manufactured according to the size of the modular column. .

In addition, the box-shaped joint is adjacent to the first box-shaped joint 140 to which one guide pin can be coupled when the modular is not installed adjacently, as shown in FIGS. 9 and 10, the modular (M) When installed, it can be divided into a second box-shaped joint 150 to which two guide pins can be coupled.

In addition, the second box-shaped joint 150 includes a lower frame 151, a connecting frame 152, an upper frame 153, and two support parts 155, and at least two guide pins are coupled to the upper frame 153. A hole 154 may be provided.

At least two guide pin coupling holes 154 are spaced apart from each other at a predetermined interval, and the two support parts 155 are installed adjacent to each other, and the adjacent modular units 210 and 220 are combined into one second box-shaped joint ( 150) can be supported.

As a result, when there is a modular installed adjacent to each other, installing the second box-shaped joint 150 is more economical than installing two first box-shaped joints 140 and has an effect of reducing assembly time.

In addition, the H beam 120 is provided with a stiffener 127, one side of the support portion 155 of the second box-shaped joint 150 between the upper frame 123 and the lower frame 121 of the H beam 120 It can be located at the lower position on the vertical line of the other side.

In addition, it goes without saying that the stiffener may be disposed on the other side at a corresponding position other than the one side shown in FIGS. 9 and 10 .

Therefore, as shown in FIG. 11 , the first box-shaped joint 140 or the second box-shaped joint 150 may be selectively installed according to the position where the modular is coupled.

12 is a view showing a state in which a modular movable building is installed in a prefabricated foundation structure according to an embodiment of the present invention.

In conclusion, according to the present invention, when constructing a modular movable building, the construction period is shortened because concrete is not poured, and the prefabricated structure is fixed by bolting without welding, so that assembly is easy.

In addition, according to the present invention, the installation, release and reuse of the foundation part of the modular movable building is easy, and the on-site workability is increased, and at the same time, it has the effect of securing economic feasibility.

As described above, the present invention has been described in detail with reference to specific examples. However, since the examples are only for illustrating the present invention, substitution, addition, and modified embodiments within the scope that does not deviate from the technical spirit of the present invention are also protected by the present invention, which is defined by the appended claims below. would be within the range.

10: liner for level adjustment 100: bottom iron plate
101, 102: coupling part 101a, 102a: coupling hole
111, 112: junction 111a, 112a: coupling hole
120: H beam 121: lower frame
122: connection frame 123: upper frame
121a, 123a: coupling hole 125, 127: stiffener
140: first box-shaped joint 141: lower frame
142: connection frame 143: upper frame
144: guide pin coupling hole 145: support
146: coupling hole 147: guide pin
150: second box-shaped joint 151: lower frame
152: connection frame 153: upper frame
154: guide pin coupling hole 155: support
156: coupling hole 157: guide pin
200: modular
B: bolt M: modular construction

Claims (4)

A bottom iron plate having a bottom surface in contact with the floor, two coupling parts protruding upward, and the coupling parts being spaced apart from each other by a predetermined distance;
a level adjusting liner disposed between the connecting parts of the floor iron plate and disposed to adjust a height;
an H beam installed on top of the liner for leveling and formed long in the longitudinal direction to integrate the foundation;
Joints connecting the two coupling parts of the H-beam and the bottom iron plate, respectively;
A box-shaped joint disposed on the H-beam and installed at a position where a modular column is located; and
It includes a guide pin coupled to a guide pin coupling hole formed in the box-shaped junction;
The coupling part, joint part, H-beam and box-type joint part of the floor steel plate each have a coupling hole to enable bolting;
The coupling part and the joint of the floor iron plate are bolted, the joint and the H-beam are bolted, and the H-beam and the box-shaped joint are bolted;
Modular mobile building prefabricated foundation structure, characterized in that the modular column can be coupled to the guide pin.
The method of claim 1,
The coupling part of the bottom iron plate has at least one coupling hole to enable bolting coupling;
The joint portion has at least two coupling holes to enable bolting coupling with the coupling portion of the H-beam and the bottom steel plate;
The H-beam includes a lower frame, a connecting frame, an upper frame, and a stiffener, and has at least one coupling hole in each of the lower frame and the upper frame to enable bolting coupling with the joint portion and the box joint portion;
The box-shaped joint includes a lower frame, a connecting frame, an upper frame, and a support, and has at least two or more coupling holes in the lower frame to enable bolting with the H-beam, and at least two coupling holes in the upper frame to enable coupling with the H-beam. Modular movable building prefabricated foundation structure, characterized in that provided with one or more coupling holes.
The method of claim 1,
The box-shaped joint is installed at the place where the modular column is located, is formed in the form of a box of the same size as the modular column to withstand axial force, and a connecting frame is provided only on one side and the other side of the H-beam in the longitudinal direction, and bolting on the side. Forming a space to enable coupling;
The box-type junction is manufactured by setting the height according to the level of the existing building when a movable building is to be used by connecting it to an existing permanent building, and when the modular is not installed adjacently, one guide pin can be combined It is divided into a first box-shaped junction and a second box-shaped junction to which two guide pins can be coupled when the modular is installed adjacently;
A modular movable building prefabricated foundation structure, characterized in that the first box-shaped junction or the second box-shaped junction is installed according to the position where the modular is coupled.
The method of claim 1,
Modular, characterized in that when connecting the coupling part of the H beam and the floor iron plate, a liner for level adjustment is further included on the lower side of the joining part, so that the H beam can be adjusted so that the H beam is kept horizontal when the joining part and the H beam are coupled Mobile building prefabricated foundation structure.

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