KR101513064B1 - Method for lifting traditional korean-style house - Google Patents

Abstract

This invention related with a method to raise the subsided traditional Korean-style house consists of the following steps of: installing support fixtures that can support beams on the columns in order to distribute a roof load; covering the bottom of the column with circular steel sheets and fixing the sheets on the columns with anchor bolts; connecting the foundation stones on the bottom of the columns with the circular steel sheets by a connecting material; connecting a side wing unit to one side or both sides of the circular steel sheet; installing a hydraulic jack on the bottom of the side wing unit; inserting round bars between the side wing unit and the hydraulic jack, and supporting the side wing unit with the jack; and straightening up the columns vertically by pushing the foundation stones upward with the hydraulic jack.

Description

{Method for lifting a traditional korean-style house}

The present invention relates to a method of raising a settled hanok, and more particularly, to a method of raising and raising a hanok tilted due to a ground settlement.

In recent years, there has been a growing interest in health along with a well-being epidemic, and wooden houses, which are constructed of eco-friendly wood as residential houses, are becoming popular. In the case of a Korean traditional hanok 10 as shown in FIG. 1, the building method is to construct a building to be constructed first, and the position of the hanok to be built in the building is selected, A column 20 is vertically erected on the foundation stone 30 and then a frame is formed on the column 20 by crossing the girder and the intermediate beam in the transverse direction.

However, in the case of such a traditional hanok, it is a structure to place the foundation stone on the foundation of the hanok and to erect the pillars on the foundation stone. Therefore, when the subsidence occurs due to the influx of the storm, have.

On the other hand, when such subsidence occurs in a concrete structure, generally, a method of reinforcing the foundation by injecting cement liquid or mortar into the ground or installing a micro pile on the ground is used.

However, in the case of the traditional hanok as described above, since the column 20 is constructed on the foundation stone 30 placed on the foundation, it is difficult to apply the basic reinforcing method of the concrete structure. Also, Since the column tilts as it sinks, there is a problem that it can not be a fundamental solution unless the column is directly erected.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a method for effectively raising a settled or tilted hanok.

A method of pulling down a hanok according to the present invention comprises the steps of providing a supporting member for supporting a beam member installed on a column of a hanok to disperse the roof load of the hanok around a beam member and a column, A step of joining circular steel plates surrounding the columns and fixing the circular steel plates to the columns with anchor bolts, connecting the foundation stone provided at the bottom of the columns to the circular steel plates using a connecting member, Connecting a side wing member to the side wing member, mounting a hydraulic jack on a lower side of the side wing member, sandwiching a round bar between the side wing member and the hydraulic jack, and supporting the side wing member with the hydraulic jack, And pushing the foundation stone so that the column is vertically erected.

The step of fixing the circular steel plate to the column may further include the step of injecting and bonding epoxy between the circular steel plate and the column.

In addition, the step of connecting the foundation stone and the circular steel plate is characterized in that a bolt or a chemical anchor is embedded in a foundation stone and then a bolt or a chemical anchor embedded in the foundation steel is welded to the circular steel plate.

Further, the method may further include a step of horizontally aligning the pillars using a hydraulic jack that supports the side wings after the step of vertically straightening the pillars.

The method may further include the step of aligning the horizontal surfaces of the pillars and pouring the mortar around or under the pillars under the pillars to increase the cross-sectional area of the pillars or to form an independent foundation.

The method may further include connecting the side wing members coupled to the column with each other by horizontally aligning the columns, and connecting the side wing members and the connection bar with the hinges of the bolts.

According to the present invention, a method for effectively raising a settled hanok is provided.

1 is a view showing a structure of a conventional hanok,
2 is a view showing a state in which a supporting member is installed on a beam member installed on a column in the method of pulling up a hanok according to the present invention,
FIG. 3 is a view showing a method of straightening pillars in the method of pulling up a hanok according to the present invention,
Fig. 4 is a view showing a state in which the pillars are horizontally aligned in the hanok impression method according to the present invention,
5 is a view showing a state in which the method of lifting a hanok according to the present invention is completed.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a view showing a state in which a support member is installed on a beam member installed on a column in the method of pulling up a hanok according to the present invention, and FIG. 3 is a view showing a method of straightening a column in the method of pulling up a hanok according to the present invention FIG. 4 is a view showing a state in which pillars are aligned horizontally in the method of lifting a hanok according to the present invention, and FIG. 5 is a view showing a state in which the method of lifting a hanok according to the present invention is completed.

As shown in FIG. 2, the method for pulling down the hanok 10 according to the present invention includes firstly joining the top of the wooden pillar 20 to disperse the roof load applied to the wooden pillar 20 of the hanok 10, (Not shown) for supporting the column and a support 25 for supporting the column are installed around the column 20. The support table 25 is installed on both sides of the column 20 so that the upper end of the support table 25 supports one end of the beam member in a standing state on the ground so that the load applied to the column 20 is dispersed. The support base 25 is installed not only on the intermediate beam coupled to the column 20 but also on the member supported by the beam column 20. The support base 25 is made of a metal material, The pedestal part is wrapped with a sponge cloth to less damage the Hanok structural member.

Next, a step of engaging the circular steel plate 40 at the lower end of the column 20 and fixing the circular steel plate 40 to the column 20 is performed (see FIG. 3). In order to join the circular steel plate 40 to the lower end of the column 20 in the present invention, semicircular iron plates are placed on both sides of the columns 20 and then welded to each other to join them. After the circular steel plate 40 is coupled to the column 20 so as to surround the column 20 as described above, a plurality of anchor bolts 41 are embedded around the circular steel plate 40, 20). In the present embodiment, four anchor bolts 41 are coupled to the outer periphery of the round steel plate 40 at two intervals so as to fix the round steel plate 40 to the column 20 at intervals of 90 degrees. An epoxy 42 is additionally injected between the column 20 and the circular steel plate 40 to join the column 20 and the circular steel plate 40 more firmly.

After the circular steel plate 40 is coupled and fixed to the column 20 as described above, a step of connecting the base plate 30 supporting the column 20 and the circular steel plate 40 using a connecting member is performed 3). In the present invention, the bolt 45 is used as a connecting member used to connect the foundation stone 30 and the circular steel plate 40. The computer bolt 45 is first embedded in the foundation 30 to connect the foundation 30 and the circular steel plate 40. To this end, A computer bolt 45 is embedded in the perforation hole and a construction adhesive is injected into the gap between the computer bolt 45 and the perforation hole to fix the computer bolt 45 to the foundation 30. The upper portion of the bolt 45 is welded to the circular steel plate 40 to connect the base plate 30 and the circular steel plate 40 together. In this embodiment, the bolt 45 is used to connect the base 30 and the circular steel plate 40, but a chemical anchor can be used instead.

Next, a step of joining the side wing members 40, which extend horizontally to the side of the circular steel plate 40, to one side or both sides of the circular steel plate 40 is performed. An H beam having a predetermined length is welded to the circular steel plate 40 by joining to the side surface of the circular steel plate 40.

The bottom side of the side wing members 40 is provided with an iron plate for preventing settlement on the floor and a hydraulic jack 60 is provided thereon to support the side wing members 40 using the hydraulic jacks 60, A circular rod 65 is inserted between the side wing member 40 and the hydraulic jack 60 in advance as shown in Fig. 3 and then the hydraulic jack 60 is inserted into the side So as to support the wing member 40.

Next, steps for erecting the foundation stone 30 and the pillars 20 are carried out. For this purpose, the foundation stone is first disposed on the side of the foundation stone 30 to secure a horizontal movement path. Thereafter, a brace 75 is installed on one side of the footstone 30 and then a side hydraulic jack 70 is provided between the brace 75 and the footstone 30 and the foundation stone 30 is pushed using the side hydraulic jack 70 The column 20 is vertically erected. In this step, in the state where the side wing member 40 previously coupled to the column 20 is supported by the hydraulic jack 60 and the round bar 65 is installed between the side wing member 40 and the hydraulic jack 60, 30) of the pillar 20 can be more easily secured. The process of directly erecting the column 20 is performed sequentially in each column 20. [

The step of straightening each column 20 vertically is performed as described above and then the step of aligning the columns 20 using the side wing member 40 of the column 20 and the hydraulic jack 60 is performed.

After all the columns 20 have been leveled, a step of casting no shrinkage high strength mortar or crude steel cement around or under the foundation 30 below the column 20 to expand the base cross-sectional area and form an independent foundation 80 (See FIG. 4). In this manner, by expanding the foundation base 80 and the base cross-sectional area around or under the foundation 30, it is possible to prevent further sinking of the pillars 20 and to secure the grounding force.

Thereafter, a step of connecting the side wing members 40 coupled to the column 20 to each other with the connecting bar 90 is performed (see FIG. 5). By connecting the side wing members 40 coupled to the columns 20 to each other by the connecting bar 90 as described above, it is possible to further strengthen the supporting force of the column 20 and further prevent the column 20 from sinking or tilting . In this step, a steel beam is used as the connecting bar 90, and the side wing members 40 and the connecting bar 90 are pin-connected to the high-strength bolts.

Therefore, according to the present invention, the vertical posture and horizontality of the wooden columns 20 of the hanok 10 can be effectively secured, and the hanok 10, It will be possible to raise it.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but many variations and modifications may be made without departing from the scope of the present invention. It will be easily understood.

10: Hanok 20: Columns
25: Support base 30:
40: round iron plate 50: side wing member
60: Hydraulic jack 70: Side hydraulic jack
75: Props 80: Independent Foundation
90: Connection bar

Claims (6)

A support 25 for supporting a beam member which is coupled to the upper end of the column 20 and supports the roof of the hanok 10 is disposed around the column 20 of the hanok 10 to disperse the roof load of the hanok 10, And a step
Coupling a circular steel plate 40 surrounding the column 20 to the lower end of the column 20 and fixing the circular steel plate 40 to the column 20 with an anchor bolt,
Connecting the base plate (30) provided under the column (20) and the circular steel plate (40) using a connecting member,
Joining the side wing members (40) to one side or both sides of the circular steel plate (40)
A hydraulic jack is provided on the lower side of the side wing member 40, a round bar is inserted between the side wing member 40 and the hydraulic jack, and the side wing member 40 is supported by the hydraulic jack,
And pushing the foundation stone (30) by using the side hydraulic jack (70) so as to vertically raise the pillars (20) vertically. The method according to claim 1,
The step of fixing the circular steel plate (40) to the column (20) further comprises the step of injecting and bonding an epoxy between the circular steel plate (40) and the column (20) Way. The method according to claim 1,
Further comprising the step of horizontally aligning the pillars (20) using a hydraulic jack that supports the side wing members (40) after the step of vertically erecting the pillars (20). The method of claim 3,
The step of connecting the base 30 with the circular steel plate 40 comprises the steps of embedding bolts into the base 30 and welding the bolts to the circular steel plate 40,
Further comprising the step of aligning the posts 20 and then placing mortar or cement around the footstones 30 under the posts 20 to form an independent foundation 80 surrounding the footsteps 30, How to raise subsided hanok. The method of claim 3,
Further comprising the step of connecting the side wing members (40) coupled to the column (20) with the connecting bars (90) after aligning the columns (20) horizontally. delete

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