Support apparatus for mobile modular house

Abstract

The present invention relates to a support apparatus for a mobile modular house, comprising: at least one pair of coupling members (210) positioned at and coupled to opposite sides of a lower portion of a modular house (10) composed of at least one pair of modular units (11); at least one pair of H-beams (220) positioned below the coupling members (210); a plurality of jack supports (230) positioned below the H-beams (220); a plurality of base plates (240) positioned below the jack supports (230); a plurality of fixing members (250) coupled to the coupling members (210) and the H-beams (220) to fix same so as to not move, and coupled to the H-beams (220) and the jack supports (230) to fix same so as to not move; and a plurality of bolts (260), wherein the coupling members (210), the H-beams (220), the jack supports (230), the base plates (240), and the fixing members (250) are positioned under and support the modular house (10) such that the modular house (10) may be stably positioned above the ground.

Description

Mobile modular house support device

[0001] The present invention relates to a movable modular house support device, and more specifically, to a support device that supports the lower part of a modular house so that the modular house can be stably positioned above the ground.

[0002] Mobile modular houses have the advantage of being easy and quick to construct, so they are manufactured and used for various purposes at housing construction sites, such as offices, guard rooms, warehouses, general offices, waiting rooms, accommodations, and simple rest areas. Recently, they are also being widely installed for temporary school buildings, worker dormitories, temporary disaster relief housing, military barracks, homes, vacation homes, campsites, and for use as exhibition halls and multi-purpose rooms for local government and international events.

[0003] Since foundation work is required for the installation and construction of such mobile modular houses, H-beams, jack supports, etc., are installed beneath the mobile modular house. Through this, foundation work is carried out to absorb and distribute the excessive load of the mobile modular house, thereby providing horizontal and stable support.

[0004] However, in conventional structures, there was a problem in that H-beams could move within the lower part of the mobile modular house, and even when jack supports were installed at the bottom of the H-beams, they could move because they were not fixed to the H-beams, resulting in unstable support.

[0005] Accordingly, conventionally, technology such as that disclosed in Japanese Patent Publication No. 2013170420 is disclosed, and an H-beam and a jack support are joined through bolts.

[0006] However, when using such conventional technology, there was an uneconomical problem in that the manufacturing cost was high because multiple connection holes had to be made in the upper plate portion of the H-beam and jack support and fixed by inserting bolts, and there was a problem in that work efficiency was reduced because the connection had to be made by inserting into the connection holes.

[0007] Therefore, there is a need for a support device that can stably support mobile modular houses, is economical due to low manufacturing costs, and offers high work efficiency through easy and convenient installation.

[0008] Accordingly, the present invention aims to provide a movable modular house support device that can install a modular house horizontally and stably from the ground by installing a support device, in which a connecting member and an H-beam, and an H-beam and a jack support are combined as a fixing member, at the bottom of the modular house.

[0009] In addition, the present invention aims to provide an economical mobile modular house support device that is formed in a form that can be easily mounted and detached, allowing for repeated use.

[0010] In addition, the present invention aims to provide a movable modular house support device capable of horizontal and positional adjustment by conveniently checking the degree of ground settlement through a distance sensor installed at the bottom of the jack support upper base, and the degree of tilt of the modular house through an inclination sensor installed at the bottom of the H-beam.

[0011] In addition, the present invention aims to provide a movable modular house support device that can be used as a foundation structure for a permanent building by replacing a base plate, which was previously installed underground, with a support device that improves underground stability and constructability.

[0012] The present invention comprises: at least one pair of connecting members (210) positioned and connected on both sides of the lower portion of a modular house (10) composed of at least one pair of modular units (11); at least one pair of H-beams (220) located below the connecting members (210); a plurality of jack supports (230) located below the H-beams (220); a plurality of base plates (240) located below the jack supports (230); and a plurality of fixing members (250) connected to the connecting members (210) and the H-beams (220) to fix the connecting members (210) and the H-beams (220) so as not to move, and connected to the H-beams (220) and the jack supports (230) to fix the H-beams (220) and the jack supports (230) so as not to move. It is composed of a plurality of bolts (260); and is characterized in that the connecting member (210), H-beam (220), jack support (230), base plate (240), and fixing member (250) are positioned and supported at the bottom of the modular house (10), so that the modular house (10) can be positioned stably from the ground.

[0013] The above-mentioned connecting member (210) is formed in the shape of a rectangular plate that is long in the longitudinal direction and has a plurality of connecting holes (212), and is characterized in that a portion of each is positioned to protrude outward from the modular house (10) in order to be connected to the H-beam (220) through the fixing member (250).

[0014] The above connecting member (210) is composed of at least four per modular unit (11) and is formed in the shape of a rectangular plate, and is characterized in that a column (12) of the modular unit (11) is welded and positioned at one side of the connecting member (210) to be connected to the H-beam (220), and is closely connected to the H-beam (220) through a fixing member (250).

[0015] The jack support (230) is composed of an upper base (2310) located at the bottom of an H-beam (220), a vertical pipe (2320) located at the bottom of the upper base (2310), a screw pipe (2330) located and coupled to the inside of the vertical pipe (2320), a height adjustment member (2340) coupled to the outer surface of the screw pipe (2330), and a lower base (2350) located and coupled to the bottom of the screw pipe (2330), and is characterized by being located at the bottom of the H-beam (220) to support a modular house (10) and to adjust the installation height of the modular house (10).

[0016] The base plate (240) is formed in the shape of a plate having a plurality of connecting holes (242) and is characterized by being located on the upper part of the ground.

[0017] The above-mentioned fixing member (250) is formed in a 'U' shape, and is characterized in that a nut (252) is coupled and positioned in a plurality of coupling holes formed in each of a pair of protruding parts, and a plurality of bolts (254) are coupled and positioned in the plurality of nuts (252).

[0018] It is characterized by additionally having a distance sensor (270) installed at the bottom of the upper base (2310) of the jack support (230) to measure the degree of ground subsidence by measuring the distance between the modular house (10) and the base plate (240).

[0019] It is characterized by additionally having an inclination sensor (280) installed at the bottom of the H-beam (220) to measure the degree of inclination of the modular house (10).

[0020] Accordingly, the present invention has the effect of enabling the modular house to be installed horizontally and stably from the ground by installing a support device in which a connecting member and an H-beam, and an H-beam and a jack support are combined as a fixing member, at the bottom of the modular house.

[0021] In addition, the present invention is formed in a form that can be easily mounted and detached, allowing for repeated use, and thereby provides an economic effect.

[0022] In addition, the present invention allows for convenient horizontal and positional correction by measuring the distance between the modular house and the base plate through a distance sensor installed at the bottom of the jack support upper base, thereby checking the degree of ground settlement, and checking the degree of tilt of the modular house through an inclination sensor installed at the bottom of the H-beam.

[0023] In addition, the present invention allows a base plate, which was previously installed underground, to be replaced with a support device that improves underground stability and constructability, thereby enabling its use as a foundation structure for a permanent building.

[0024] In addition, it should be noted that, in addition to the effects specifically stated above, unique effects that can be easily derived and expected from the characteristic configuration of the present invention may also be included in the effects of the present invention.

[0025] FIG. 1 is a perspective view showing the installed appearance of a first embodiment of the movable modular house support device of the present invention.

[0026] FIG. 2 is a perspective view of a first embodiment of the movable modular house support device of the present invention.

[0027] FIG. 3 is an exploded perspective view of a first embodiment of the movable modular house support device of the present invention.

[0028] FIG. 4 is a perspective view showing the installed appearance of a second embodiment of the movable modular house support device of the present invention.

[0029] FIG. 5 is a perspective view of a second embodiment of the movable modular house support device of the present invention.

[0030] FIG. 6 is an exploded perspective view of a second embodiment of the movable modular house support device of the present invention.

[0031] FIG. 7 is a perspective view showing the installed appearance of a third embodiment of the movable modular house support device of the present invention.

[0032] FIG. 8 is a drawing showing the operation through the sensor of the third embodiment of the mobile modular house support device of the present invention.

[0033] FIG. 9 is a perspective view showing the installed appearance of a fourth embodiment of the movable modular house support device of the present invention.

[0034] FIG. 10 is an exploded perspective view of a fourth embodiment of the movable modular house support device of the present invention.

[0035] Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be interpreted as being limited by the embodiments described below. These embodiments are provided to more fully explain the present invention to those with average knowledge in the art. Accordingly, the shapes of components in the drawings, etc., are exaggerated to emphasize clearer explanations.

[0036] In the following description, terms such as "first," "second," etc., may be used to describe various components, but said components should not be limited by said terms. Such terms are used solely for the purpose of distinguishing one component from another. The terms used in this application are used merely to describe specific embodiments and are not intended to limit the invention.

[0037] The singular expression includes the plural expression unless the context clearly indicates otherwise. In this application, terms such as "comprising" or "having" are intended to specify the existence of the features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, and should be understood as not precluding the existence or addition of one or more other features, numbers, steps, actions, components, parts, or combinations thereof.

[0038] FIG. 1 is a perspective view showing the installed appearance of a first embodiment of a movable modular house support device according to the present invention; FIG. 2 is a perspective view of the first embodiment of a movable modular house support device according to the present invention; FIG. 3 is an exploded perspective view of the first embodiment of a movable modular house support device according to the present invention; FIG. 4 is a perspective view showing the installed appearance of a second embodiment of a movable modular house support device according to the present invention; FIG. 5 is a perspective view of the second embodiment of a movable modular house support device according to the present invention; FIG. 6 is an exploded perspective view of the second embodiment of a movable modular house support device according to the present invention; FIG. 7 is a perspective view showing the installed appearance of a third embodiment of a movable modular house support device according to the present invention; FIG. 8 is a drawing showing operation through a sensor of the third embodiment of a movable modular house support device according to the present invention; FIG. 9 is a perspective view showing the installed appearance of a fourth embodiment of a movable modular house support device according to the present invention; FIG. 10 is an exploded view of the fourth embodiment of a movable modular house support device according to the present invention. It is a cross-section.

[0039]

[0040] A modular house (10) on which a movable modular house support device according to the present invention is installed is formed by connecting a plurality of modular units (11), wherein the modular units (11) are formed in the shape of a rectangular parallelepiped by connecting a plurality of columns (12), a plurality of upper girders (13), and a lower girder (14).

[0041] In addition, the above modular unit (11) is formed in the shape of a rectangular parallelepiped as an embodiment of the present invention, but is not limited thereto.

[0042]

[0043] <1st Example>

[0044] As illustrated in FIGS. 1 to 3, the components of the first embodiment of the movable modular house support device according to the present invention are schematically composed of at least one pair of coupling members (210) located and coupled on both sides of the lower part of the modular house (10), at least one pair of H-beams (220) located below the coupling members (210), a plurality of jack supports (230) located below the H-beams (220), a plurality of base plates (240) located below the jack supports (230), a plurality of fixing members (250) coupled and fixed to the coupling members (210) and the H-beams (220) and coupled and fixed to the H-beams (220) and the jack supports (230), and a plurality of bolts (260) for coupling and fixing.

[0045] The above components are explained in detail as follows.

[0046] The above-mentioned connecting member (210) is formed in the shape of a rectangular plate that is long in the longitudinal direction and has a plurality of connecting holes (212).

[0047] In addition, the above-mentioned connecting member (210) may be formed to be as long as the length of the modular house as in one embodiment of the present invention, but is not limited thereto, and a plurality of connecting members (210) of a certain length may be formed and connected to the modular house.

[0048] Additionally, each of the connecting members (210) is positioned so that a portion of each protrudes outward from the modular house (10) in order to be connected to the H-beam (220) through the fixing member (250).

[0049] The above multiple connecting holes (212) are connected to the modular house (10) through multiple bolts (260).

[0050] The above H-beam (220) is a steel column with an 'H'-shaped cross-section, is located at the bottom of the connecting member (210), and is connected to each other through a plurality of fixing members (250).

[0051] In addition, at least one stiffener (224) is installed on the inner side of the H-beam (220) to prevent the flange from sagging or the web from buckling due to the eccentricity of the flange positions of the modular unit (10) and the H-beam (220).

[0052] The stiffener (224) of the above H-beam (220) may be installed as a load point stiffener and / or an intermediate stiffener between the upper and lower flanges near where the column of the modular unit (10) is located as an embodiment of the present invention, but is not limited thereto.

[0053] The jack support (230) is composed of an upper base (2310) located at the bottom of the H-beam (220), a vertical pipe (2320) located at the bottom of the upper base (2310), a screw pipe (2330) located and coupled to the inside of the vertical pipe (2320), a height adjustment member (2340) coupled to the outer surface of the screw pipe (2330), and a lower base (2350) located and coupled to the bottom of the screw pipe (2330), and is located at the bottom of the H-beam (220) to support the modular house (10) and adjust the installation height of the modular house (10).

[0054] In addition, as an embodiment of the present invention, the three jack supports (230) are located at the bottom of the H-beam (220), but are limited thereto, and the number can be adjusted according to the length and size of the modular house (10) and the H-beam (220).

[0055] The upper base (2310) is formed in a plate shape and supports the bottom surface of the H-beam (220).

[0056] The above vertical pipe (2320) is formed with a female screw portion (2322) formed on the lower inner surface and is formed in the shape of a pipe with an open lower end and a predetermined length.

[0057] The above female screw portion (2322) is coupled by engaging with the male screw portion (2332) of the screw tube (2330) described later.

[0058] The above screw tube (2330) is provided with a male screw portion (2332) on its outer surface and is formed to a predetermined length.

[0059] The height adjustment member (2340) is formed in a cylindrical shape having an internal female screw portion (2342) and a pair of handles (2344) formed on both sides of the outside, and supports the modular house (10) while adjusting the overall height of the jack support (230) by rotating through the handles (2344).

[0060] The above female screw portion (2342) is coupled by engaging with the male screw portion (2332) of the above screw tube (2330).

[0061] The lower base (2350) is formed in the shape of a plate having a coupling portion (2353), which is an internal space in which a female screw portion (2352) is formed, and a plurality of coupling holes (2354) formed around the coupling portion (2353), and is located on the upper part of the base plate (240).

[0062] The above female screw portion (2352) is coupled by engaging with the male screw portion (2332) of the above screw tube (2330).

[0063] The above-mentioned connecting hole (2354) is connected to the connecting hole (242) of the base plate (240) through a plurality of bolts (260).

[0064] The base plate (240) is formed in the shape of a plate having a plurality of connecting holes (242) and is located on the upper part of the ground.

[0065] The above coupling hole (242) is coupled to the coupling hole (2354) of the jack support (230) through a bolt (260).

[0066] Additionally, the base plate (240) is formed in a square shape as an embodiment of the present invention, but is not limited thereto.

[0067] Additionally, the base plate (240) is formed on the lower part of each jack support (230) as an embodiment of the present invention, but is not limited thereto and may be located on the lower part of a plurality of jack supports (230).

[0068] In addition, the base plate (240) has the effect of allowing the worker to conveniently check the degree of ground subsidence, degree of imbalance, etc., through a portable terminal such as a mobile phone or laptop by installing an additional sensor at the bottom, and to adjust the horizontal and position.

[0069] As an embodiment of the present invention, the above sensor is formed as one or more of a tilt sensor, such as a position sensor, a ball switch type, or a mercury switch type, but is not limited thereto.

[0070] Additionally, the lower base (2350) and the base plate (240) may be joined using a plurality of bolts (260) as an embodiment of the present invention, but are not limited thereto, and the lower base (2350) may be positioned on the upper part of the base plate (240) without being fixed.

[0071] The above fixing member (250) is formed in a 'U' shape, and a nut (252) is coupled and positioned in a plurality of coupling holes formed in each of a pair of protruding parts, and a plurality of bolts (254) are coupled and positioned in the plurality of nuts (252), and a component located in the internal space can be fixed by pressing through the bolts (254).

[0072] Additionally, the fixing member (250) positions the coupling member (210) and the H-beam (220) on the inside and, after the bolt (260) is fitted into the nut (252) of the fixing member (250), presses the upper and lower parts of the coupling member (210) and the H-beam (220) to fix them so that they cannot move.

[0073] Additionally, the fixing member (250) positions the H-beam (220) and the jack support (230) on the inside, and after the bolt (260) is fitted into the nut (252) of the fixing member (250), it is fixed so that the H-beam (220) and the jack support (230) cannot move by applying pressure from the upper and lower parts.

[0074] The above connecting member (210), base plate (240), and fixing member (250) are formed of steel material as an embodiment of the present invention, but are not limited thereto.

[0075]

[0076] <2nd Example>

[0077] As illustrated in FIGS. 4 to 6, the components of the second embodiment of the movable modular house support device according to the present invention are schematically composed of at least one pair of coupling members (210) located and coupled to both sides of the modular house (10), at least one pair of H-beams (220) located below the modular house and the coupling members (210), a plurality of jack supports (230) located below the H-beams (220), a plurality of base plates (240) located below the jack supports (230), a plurality of fixing members (250) coupled and fixed to the coupling members (210) and the H-beams (220) and coupled and fixed to the H-beams (220) and the jack supports (230), and a plurality of bolts (260) for coupling and fixing. Since the coupling members (210) are installed on the side of the modular house (10), the worker can install it more easily and conveniently, thereby increasing the efficiency of the work.

[0078] The above-mentioned connecting member (210) is formed in a longitudinally long 'L' shape having a plurality of connecting holes (212) formed on the side.

[0079] In addition, the above-mentioned connecting member (210) may be formed to be as long as the length of the modular house as an embodiment of the present invention, but is not limited thereto.

[0080] The above multiple connecting holes (212) are connected to the modular house (10) through multiple bolts (260).

[0081] The above H-beam (220), jack support (230), base plate (240), fixing member (250), and bolt (260) are identical to the configuration of the H-beam (220), jack support (230), base plate (240), fixing member (250), and bolt (260) of the first embodiment of the movable modular house support device according to the present invention, so a detailed description is omitted.

[0082]

[0083] <3rd Example>

[0084] As illustrated in FIGS. 7 and 8, the components of the third embodiment of the movable modular house support device according to the present invention are schematically described as follows: at least one pair of coupling members (210) located and coupled to both sides of the modular house (10); at least one pair of H-beams (220) located below the modular house and the coupling members (210); a plurality of jack supports (230) located below the H-beams (220); a plurality of base plates (240) located below the jack supports (230); a plurality of fixing members (250) coupled and fixed to the coupling members (210) and the H-beams (220), and coupled and fixed to the H-beams (220) and the jack supports (230); a plurality of bolts (260) for coupling and fixing; a plurality of distance sensors (270) installed below the upper base (2310) of the jack supports (230); and a plurality of [unclear] installed below the H-beams (220). It is composed of an inclination sensor (280), and through the distance sensor (270) and the inclination sensor (280), the degree of ground subsidence, the degree of tilt of the modular house (10), etc., can be conveniently checked and the horizontal and positional adjustments can be made.

[0085] The above-mentioned connecting member (210), H-beam (220), jack support (230), base plate (240), fixing member (250), and bolt (260) are identical in configuration to the connecting member (210), H-beam (220), jack support (230), base plate (240), fixing member (250), and bolt (260) of the first embodiment of the movable modular house support device according to the present invention, so a detailed description is omitted.

[0086] The distance sensor (270) is installed at the bottom of the upper base (2310) of the jack support (230) to measure the distance between the modular house (10) and the base plate (240), thereby measuring the degree of ground subsidence.

[0087] Specifically, the distance sensor (270) is installed one per column of the modular unit (11) to measure the distance from the base plate (240) and measure the amount of subsidence.

[0088] The above-mentioned inclination sensor (280) is installed at the bottom of the H-beam (220) to measure the degree of inclination of the modular house (10).

[0089] Specifically, the inclination sensor (280) is installed in the horizontal and vertical directions for each modular unit (11) to measure the degree of inclination of the modular house (10) and the slope of the terrain.

[0090] The distance sensor (270) and the inclination sensor (280) are wirelessly connected to a mobile terminal such as a mobile phone or laptop, allowing the worker to easily and conveniently check the distance and inclination, and to easily and conveniently adjust the position and level.

[0091]

[0092] <Fourth Example>

[0093] As illustrated in FIGS. 9 and 10, the components of the fourth embodiment of the movable modular house support device according to the present invention are schematically described as follows: a plurality of connecting members (210) located and connected to the lower part of the column (12) of a modular unit (11) formed by a column (12), an upper girder (14), and a lower girder (14); at least one pair of H-beams (220) located below the connecting members (210); a plurality of jack supports (230) located below the H-beams (220); a plurality of base plates (240) located below the jack supports (230); a plurality of fixing members (250) connected and fixed to the connecting members (210) and the H-beams (220), and connected and fixed to the H-beams (220) and the jack supports (230); a plurality of bolts (260) for connecting and fixing; and a plurality of bolts located by fitting between the columns of the modular house (10). It is composed of a fitting cover plate (290), and since the connecting member (210) is welded to the lower part of the modular house (10), the worker can install it more easily and conveniently, thereby increasing the efficiency of the work.

[0094] The above connecting member (210) is formed in the shape of a rectangular plate and is welded to the lower part of the column of the modular house (10).

[0095] At this time, the column of the modular house (10) is welded to a position offset from one side of the connecting member (210) and connected to the H-beam (220) by connecting it to the connecting hole (212) located next to the modular house (10) with a bolt (260).

[0096] Additionally, the above-mentioned coupling member (210) may be coupled with a fixing member (250) and a bolt (260), etc., by having at least one coupling hole with a threaded portion on its inner surface as needed.

[0097] The above-mentioned insert plate (290) is inserted into the gap formed between the columns of the modular unit (11) that do not come into contact due to the position of the connecting member (210) connected to the modular unit (11), thereby keeping the modular house (10) stable and preventing movement.

[0098] In addition, the above-mentioned insert cover plate (290) is formed in a plate shape as an embodiment of the present invention, but is not limited thereto and is formed in various shapes such as a 'U' shape, an 'E'* shape, etc., and at least one is inserted and coupled between the columns of the modular unit (11) and / or the columns of the modular unit (11).

[0099] The above H-beam (220), jack support (230), base plate (240), fixing member (250), and bolt (260) are identical to the configuration of the H-beam (220), jack support (230), base plate (240), fixing member (250), and bolt (260) of the first embodiment of the movable modular house support device according to the present invention, so a detailed description is omitted.

[0100] The support device (20) according to the first to fourth embodiments of the movable modular house support device of the present invention can adjust the size, length, and number of the connecting member (210) and H-beam (220) to match the size and shape of the modular house (10), and can adjust the size and number of the jack support (230), base plate (240), and fixing member (250). In addition, the number of bolts (260) can be adjusted accordingly.

[0101] Accordingly, the present invention has the effect of enabling the modular house to be installed horizontally and stably from the ground by installing a support device in which a connecting member and an H-beam, and an H-beam and a jack support are combined as a fixing member, at the bottom of the modular house.

[0102] In addition, the present invention is formed in a form that can be easily mounted and detached, allowing for repeated use, and thereby provides an economic effect.

[0103] In addition, the present invention aims to provide a movable modular house support device capable of horizontal and positional adjustments by conveniently checking the degree of ground settlement through a distance sensor installed at the bottom of the jack support upper base, and the degree of tilt of the modular house through an inclination sensor installed at the bottom of the H-beam.

[0104] In addition, the present invention aims to provide a movable modular house support device that can be used as a foundation structure for a permanent building by replacing a base plate, which was previously installed underground, with a support device that improves underground stability and constructability.

[0105] In the foregoing, the configuration and operation of the movable modular house support device according to the present invention have been illustrated with reference to the detailed description and drawings; however, this is merely an example, and various changes and modifications are possible within the scope of the technical concept of the present invention.

[0106] The description of the symbols in the drawing is as follows.

[0107] 10: Modular house, 11: Modular unit, 12: Column, 13: Top girder, 14: Bottom girder

[0108] 20: Support device, 210: Connecting member, 212: Connecting hole, 220: H-beam, 224: Stiffener, 230: Jack support, 2310: Upper base, 2320: Vertical pipe, 2322: Female threaded section, 2330: Screw pipe, 2332: Male threaded section, 2340: Height adjustment member, 2342: Female threaded section, 2344: Handle, 2350: Lower base, 2352: Female threaded section, 2353: Connecting section, 2354: Connecting hole, 240: Base plate, 242: Connecting hole, 250: Fixing member, 252: Nut, 260: Bolt, 270: Distance sensor, 280: Inclination sensor, 290: Insert cover plate

Claims

1. At least one pair of connecting members (210) located and connected on both sides of the lower portion of a modular house (10) composed of at least one pair of modular units (11); and At least one pair of H-beams (220) located at the lower part of the above-mentioned connecting member (210); A plurality of jack supports (230) are configured to be located at the bottom of the H-beam (220), an upper base (2310) located at the bottom of the upper base (2310), a vertical pipe (2320) located at the bottom of the vertical pipe (2320), a screw pipe (2330) located and coupled to the inside of the vertical pipe (2320), a height adjustment member (2340) coupled to the outer surface of the screw pipe (2330), and a lower base (2350) located and coupled to the bottom of the screw pipe (2330), and are located at the bottom of the H-beam (220) to support the modular house (10) and adjust the installation height of the modular house (10). A plurality of base plates (240) located at the bottom of the jack support (230); A plurality of fixing members (250) that are coupled to the coupling member (210) and the H-beam (220) to fix the coupling member (210) and the H-beam (220) so as not to move, and are coupled to the H-beam (220) and the jack support (230) to fix the H-beam (220) and the jack support (230) so as not to move; It is composed of a plurality of bolts (260), and A distance sensor (270) is additionally provided to measure the degree of ground subsidence by measuring the distance between the modular house (10) and the base plate (240) installed at the lower part of the upper base (2310) of the jack support (230), and a tilt sensor (280) of the ball switch type or mercury switch type is additionally provided to measure the degree of tilt of the modular house (10) installed at the lower part of the H-beam (220), and the distance sensor (270) and the tilt sensor (280) are wirelessly connected to a portable terminal including a worker's mobile phone or laptop so that the worker can easily and conveniently check the distance and tilt, and easily and conveniently adjust the position and level. A plurality of insertable cover plates (290) are additionally provided, which are formed in any one of a plate shape, a 'U' shape, or an 'E' shape and are positioned by being inserted and coupled between the columns of the modular house (10), so that the modular house (10) is secured in the gap formed between the columns of the modular unit (11) that are not in contact due to the position of the coupling member (210) coupled to the modular unit (11), thereby ensuring stability and preventing movement of the modular house (10). A movable modular house support device characterized by the above-mentioned connecting member (210), H-beam (220), jack support (230), base plate (240), and fixing member (250) being positioned and supported at the bottom of the modular house (10), so that the modular house (10) can be stably positioned from the ground.

2. A movable modular house support device according to claim 1, wherein the coupling member (210) is formed in the shape of a rectangular plate long in the longitudinal direction having a plurality of coupling holes (212), and each part of which is positioned to protrude outward from the modular house (10) in order to be coupled with an H-beam (220) through a fixing member (250).

3. A movable modular house support device according to claim 1, wherein the coupling member (210) is composed of at least 4 per modular unit (11), is formed in the shape of a rectangular plate, and the column (12) of the modular unit (11) is welded and positioned at one side of the coupling member (210) to be coupled with the H-beam (220), and is closely coupled with the H-beam (220) through a fixing member (250).

4. A movable modular house support device according to claim 1, wherein the base plate (240) is formed in the shape of a plate having a plurality of coupling holes (242) and is located above the ground.

5. A movable modular house support device according to claim 1, wherein the fixing member (250) is formed in a 'U' shape, and a nut (252) is coupled and positioned in a plurality of coupling holes formed in each of a pair of protruding parts, and a plurality of bolts (254) are coupled and positioned in the plurality of nuts (252).

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