KR20150101673A - Install pillar structure and construction methods for earthquake-proof of traditional wooden building - Google Patents

Abstract

The present invention relates to a pillar installation structure on a cornerstone on the ground in a traditional building and a construction method for the same. More specifically, the purpose of the present invention is to prevent the entire building from being collapsed or significantly damaged by the dislocation of the pillar and the cornerstone in an earthquake. To achieve this, an insertion groove is provided at the upper center of the cornerstone. A square tip is marked at the lower center of the pillar during the detachment of a currycomb. Every part other than the tip is removed to make the tip be inserted into the insertion groove to stand the pillar upright.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pillar construction method and a pillar construction method,

The present invention relates to a structure for installing a column on a foundation stone of a floor in a traditional building and a construction method thereof, and more particularly to a structure for preventing the entire building from being collapsed or damaged by an earthquake, will be.

In general, when constructing a traditional wooden building, the first step is to lay the foundation stone and the foundation stone, and then various pillars (Pyeongju, Universe, Gajju, etc.) are placed on the foundation stone, and work is carried out in order to connect the beam, In the conventional construction, the upper surface of the cornerstone is smooth and flattened, and the lower side of the column is also closely adhered to the upper surface of the cornerstone so that the column is vertically maintained.

According to the conventional foundation stone and column installation structure, there is no connection structure to hold each other in the horizontal direction, and the structure is simply mounted on the top surface of the foundation stone, and the pillars are integrally connected with the beams, There is no reason why the pillars and foundation stones will be displaced due to the weight of the roof. However, if earthquakes occur due to the shaking of the ground, the foundation stone will move first. Therefore, all the structures including the upper pillars, The position is shifted.

If the movement of the foundation stone due to such an earthquake is large, the entire building may be broken due to the pillar going out of the cornerstone, and even if there is not a lot of movement, it is difficult to correct the deviation once, .

In this way, it is difficult to find earthquake-resistant structures in traditional wooden buildings. Therefore, recent earthquakes have been increasing in recent years. In recent years, It is a clear reality that the contrast is required.

Registration No. 10-0635869 (Date of Publication: October 18, 2006)

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems and provides a connection structure and a construction method for installing a foundation stone and a column of a traditional wooden building so that the foundation stone and the column can move simultaneously when the earth moves, And to improve the durability with respect to the life span of traditional wooden buildings.

In order to accomplish the above object, the present invention provides a method of constructing a cornerstone and a column in a traditional wooden building,

After cutting the stone to complete the outline of the foundation stone, a cutting groove is formed in the middle of the top surface of the foundation stone in the form of a triangle and the central portion is cut to a certain depth to provide an insertion groove. The foundation stone is placed horizontally on the foundation concrete The lower part is filled with cement,

A column is made and temporarily stood on the foundation stone, and a sign is drawn on the bottom surface of the column by removing the mark to the same height as the top surface of the foundation stone,

When the digging operation is performed, a rectangular point is displayed at the center of the bottom of the lower part of the column, then the remaining part is removed,

And a step of erecting the column vertically while inserting the needle into the insertion groove while erecting the column.

According to the present invention, since the projections provided at the center of the bottom surface of the column are fitted to the central hole of the foundation stone while being installed on the column above the foundation stone, the joining force and rigidity of the whole building can be improved, It is possible to move the column at the same time as the movement of the foundation stone, so that the columns are moved in the same direction as the beam, the torii, and the rafter so that the earthquake damage can be minimized.

As a result, the present invention is applied to the maintenance process of a traditional wooden building or to the construction of a new traditional wooden building, and it is a useful invention that can achieve technological advancement by improving maintenance and new construction techniques and robustness while minimizing earthquake damage .

Fig. 1 is a perspective view of a cornerstone machining flow chart
Fig. 2 is a view showing a cornerstone construction flowchart of the present invention
Fig. 3 is a perspective view of a column of the present invention,
Figure 4 is a flow chart of the present invention
FIG. 5 is a cross-sectional view

Hereinafter, preferred embodiments of the present invention will be described.

First, the construction method of the present invention will be described in order.

- Corundum processing and landfill

The stone is processed to complete the outline of the foundation stone 10.

The incision grooves 11 are formed in the shape of a pillar in the center of the upper surface of the foundation stone 10.

The insertion groove 12 is formed by digging a central part of the cutout groove 11 having the above-mentioned shape to a predetermined depth.

The foundation stone 10 is placed horizontally on the foundation concrete 2 previously constructed in the pit, and the entire pit including the foundation stone and the foundation concrete is buried from the side of the foundation stone with cement and hardened.

The

The column 20 is processed to form the column 20 and the column 20 is temporarily erected on the foundation stone 10 with the strut 21 so that the column 20 is exactly perpendicular.

The base line of the column (20) is set at the same height as the top surface of the foundation stone (10) by setting the straight line to the foundation stone and the column, The display is removed and the base line 22 is displayed. This is to make the lower end of the column 20 closely contact with the minute elevation of the surface of the foundation stone 10 without gaps.

- Goring is releasing

A square claw 23 is displayed at the center of the bottom of the lower end of the column 20 in the exact position and direction corresponding to the insertion groove 12 and then the tip 23 is left, Remove the part.

- Column building

 The column 20 is vertically erected so that the needle 23 is inserted into the insertion groove 12 while the salt 13 is inserted into the hole of the foundation stone 10 and the column 20 is raised. The salt 13 is for preventing penetration of insects and decay in the interior of the insertion groove 12.

The rest of the construction works are carried out through other general processes to complete the construction of traditional wooden buildings.

The foundation stone 12 is formed at the center of the top surface of the foundation stone and the bottom of the insertion groove 12 is filled with salt 13, The pillar 20 is structured to move simultaneously when the foundation stone 10 moves horizontally due to the earthquake.

According to the present invention, when the corner stone 23 of the column 20 is inserted into the insertion groove 12 of the corner stone 10 and the horizontal movement of the corner stone 10 due to the earthquake occurs, (10), the foundation stone (10) and the column (20) can maintain an accurate position with respect to each other even if a magnitude of earthquake occurs, and as a result, The life can be maintained.

10: Cornerstone
11: incision groove
12: Insert groove
20: Column
21: Strut
22: detachment vessel
23:

Claims (2)

The incision grooves 11 are processed to have a predetermined depth in the form of a triangle in the center of the upper surface of the foundation stone 10 and the central part of the incision groove 11 of the above- A crushing process and an embedding process in which the insertion groove 12 is formed by crushing, the crushed stone 10 is placed on the foundation concrete in the pit, the crushed crushed slurry is leveled, the cement is filled and hardened;
The column 20 is processed to form the column 20 and the column 20 is temporarily vertically erected on the foundation stone 10 by using the strut 21 so that the column 20 is exactly vertical, And displaying the base line 22 at the same height as the upper surface of the display screen;
A square claw 23 is displayed at the center of the bottom of the lower end of the column 20 in the exact position and direction corresponding to the insertion groove 12 and then the tip 23 is left, Removing the part;
A step of erecting the column 20 vertically while the post 23 is inserted into the insertion groove 12 while the column 20 is being raised;
Wherein the column comprises a plurality of columns. The bottom of the insertion groove 12 is filled with the salt 13 and the insertion groove 12 is provided with the column 13 And the pillar 20 is also moved simultaneously when the foundation stone 10 moves horizontally due to the earthquake due to the protrusion 23 inserted into the bottom surface of the pillar 20, Installation structure.

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