KR101906499B1 - Wooden joining assembly for high-rise wooden building - Google Patents

Abstract

One embodiment of the present invention provides a wood coupling assembly for a high-rise wooden building, to facilitate management of a process and process precision. According to the present invention, the wood coupling assembly for a high-rise wooden building comprises a wood pillar coupling device, first and second wood pillars, and a wood beam. The wood pillar coupling device comprises: a first coupling frame; a horizontal partition to divide the inside of the first coupling frame into first and second coupling parts; a first inner partition dividing the inner side of the first coupling part to form a pair of first coupling spaces; a second inner partition dividing the inner side to form a pair of second coupling spaces and disposed in the same direction as that of the first inner partition; a vertical fixing plate; and a horizontal support plate simultaneously coupled to the bottom part of a cover side plate and the bottom part of the vertical fixing plate, and disposed symmetrically with the vertical fixing plate.

Description

[0001] WOODEN JOINING ASSEMBLY FOR HIGH-RISE WOODEN BUILDING [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wooden joining assembly for a high-rise wooden building, and more particularly to a wooden joining assembly for a high-rise wooden building in which structural stability of a joining portion is enhanced and process precision and process control are facilitated.

In general, wooden buildings are constructed using wood mainly, and their demand is steadily increasing in accordance with the needs of modern people.

The wooden structure interconnects columns and pillars, pillars and beams to form a whole structure. Conventionally, in order to interconnect columns and beams, a method of connecting grooves and protrusions, which are assembled to each other at the ends of the wood, is generally used. However, these conventional methods have a problem that it is difficult to process the grooves and projections other than the expert skilled person because the grooves and protrusions for connecting each other must be manually processed on the wood.

In addition, since the grooves and the projections must be processed one by one, the loss of the wood during the processing is large, and the joint strength is low because the grooves and the projections must support all the weight due to the combination of the processed grooves and the projections.

Furthermore, when the grooves and protrusions formed on the end portions of the wood do not fit together, they are very difficult to use and there is a need to rework to match them together in the field.

Meanwhile, in recent years, wooden buildings of residential buildings and wooden buildings of commercial buildings have been made high-rise. In this case, the connection between the columns supporting the respective layers is required. Conventionally, as described above, the columns and the columns are connected by connecting the protrusions between the columns and the grooves. However, this connection method is vulnerable to the lateral force applied to the column, so that there is a problem that it is difficult to ensure high safety together with firmness.

In addition, wooden pillars are widely used as pillars for supporting wooden buildings, and foundation concrete is used for stably supporting wooden pillars.

FIG. 1 is an exemplary view showing an example in which a wooden column is assembled to a foundation concrete.

1, in the conventional process of forming the foundation concrete 10, the lower end portions of the pair of anchor plates 30a and 30b are embedded in the foundation concrete 10 to a predetermined depth And a foundation hole 50 is formed in the foundation concrete 10. At this time, the anchor plates 30a and 30b are installed to be spaced apart from each other by an interval corresponding to the thickness of the wooden pillar 20 so as to catch the wooden pillar 20.

The wooden pillar 20 is positioned between the anchor plates 30a and 30b protruding from the upper surface of the foundation concrete 10 and the lower end of the wooden pillar 20 is inserted into the hole 50 And the screw bolts 40 are fastened to the wooden posts 20 through the fastening holes formed in the upper portions of the anchor plates 30a and 30b.

However, in this conventional technique, since the lower end of the wooden column 20 is installed in the embedded hole 50 formed in the base concrete 10, the rainwater or the like that has descended through the wooden column 20 flows into the embedded hole 50 . When the rainwater flows into the buried hole 50, the lower end of the wooden column 20 inserted in the buried hole 50 is directly exposed to the water, so that the lower end of the wooden column 20 is rotten There is a problem that the lifetime of the wooden column 20 can be shortened.

Patent Publication No. 0654006 (issued on December 5, 2006)

SUMMARY OF THE INVENTION In order to solve the above-described problems, the present invention provides a high-strength wooden building joining assembly for a high-rise wooden building, which has enhanced structural stability of the joining portion,

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the precise form disclosed. There will be.

According to an aspect of the present invention, there is provided a wooden pillar coupling device, A first wooden pillar vertically coupled to a lower portion of the wooden pillar coupling device; A second wooden pillar vertically coupled to the upper portion of the wooden pillar coupling device; And a wood beam joining device horizontally coupled to the joining device, wherein the joining device comprises a first joining part having a plurality of cover side plates having upper and lower portions penetrating and having a cross-sectional shape perpendicular to the axial direction, A horizontal diaphragm provided horizontally in the center of the first coupling frame and partitioning the inside of the first coupling frame into a first coupling portion and a second coupling portion; A first inner diaphragm provided in a vertical direction at a center of the first engaging portion and partitioning the first engaging portion so as to form a pair of first engaging spaces therein and a second inner diaphragm disposed at the center of the second engaging portion formed on the upper side of the horizontal diaphragm And a pair of second engaging spaces formed in the second engaging part in the vertical direction to define a pair of second engaging spaces, A vertical fixed plate protruding perpendicularly to the outer surface of each of the cover side plates and provided at the center of the respective side plates in the vertical direction and having a lower end on the same plane as the lower end of the cover side plate; And a horizontal support plate which is provided to extend in an outward direction at the center and is coupled to a lower end of the cover side plate and a lower end of the vertical fixing plate and is symmetrical about the vertical fixing plate, A first upper slit penetrating a side opposite to each other at the center of the upper end so as to insert an inner diaphragm and having a predetermined depth along the longitudinal direction, an upper end inserted into the first engagement portion, And a first lower slit formed to correspond to the slit, wherein the second wooden column has a lower end And a second lower slit penetrating the side opposite to the center and having a predetermined depth along the longitudinal direction, the lower end being inserted into the second engagement portion, and the upper slit being formed to correspond to the second lower slit A first side slit having a first upper slit and a second upper slit, the wood slit having a first side slit penetrating a side opposite to each other at a center of one end to insert the vertical fixing plate and having a predetermined depth along the longitudinal direction, And a second side slit at the other end to correspond to the first side slit.

In the embodiment of the present invention, the cover side plate, to which the first inner partition and the second inner partition are coupled and opposed to each other, is provided with the first inner partition and the second inner partition across the first and second engagement spaces, A plurality of first through holes are formed so that the first fastening members are coupled in a direction parallel to the second inner diaphragm, and a plurality of second through holes are formed in the vertical fixing plate in the thickness direction of the vertical fixing plate.

In the embodiment of the present invention, the first wooden column may be provided with a plurality of first through holes formed in an upper end thereof in a direction parallel to the first upper slit so that a first fastening member inserted into the first through- And a first lower through-hole may be formed in the lower end portion in a direction parallel to the first lower slit.

In the embodiment of the present invention, the lower end of the second wooden column may be provided with a first through-hole in a direction parallel to the second lower slit so that a first fastening member coupled to the first through- And a second upper through-hole may be formed at an upper end in a direction parallel to the second upper slit.

In one embodiment of the present invention, a first side through hole is formed at one end of the wood beam in a direction perpendicular to the first side slit so that a second fastening member coupled to the second through hole of the vertical fixing plate is engaged And a second side through hole may be formed at the other end in a direction perpendicular to the second side slit.

The present invention may further comprise a wooden slab provided on an upper surface of the wooden beam to be supported by the wooden beam and having an insertion groove formed to insert the first coupling frame.

In the embodiment of the present invention, a third through hole is further formed in the wood beam in the vertical direction, a fourth through hole corresponding to the third through hole is further formed in the wooden slab, And the third fastening member may be coupled to the third through hole.

In the embodiment of the present invention, a base portion formed of a concrete material and having an installation groove recessed at the center of an upper portion thereof, and a plurality of vertically- A base anchor box having a fourth fastening member; A pair of cover vertical plates vertically provided on both sides of an upper portion of the lower plate, and a cover vertical plate provided perpendicularly to an upper center of the lower plate, And a plurality of second through holes, each of which is formed in the thickness direction, to define a pair of third engagement spaces and to which the fifth fastening members are coupled, 2 associative frames; And a fixed concrete installed in the installation groove so as to cover the lower plate and the fourth fastening member to fix the first fastening frame and have the same height as the upper surface of the base, And an adjustment member which is provided at an upper end portion of the installation groove and between the bottom plate and the lower plate to support the lower plate and to adjust the horizontal degree of the first coupling frame, A third through hole may be further formed so as to engage the fifth fastening member, and the third through hole may be formed perpendicular to the first lower slit.

According to the embodiment of the present invention, the cover side plate of the joining device for the wooden pillar is provided so as to surround the upper end of the first wooden pillar and the lower end of the second wooden pillar to protect the upper end of the first wooden pillar and the lower end of the second wooden pillar . In addition, the first wooden column and the second wooden column are connected to each other so as to reinforce the lateral force applied to the outside, so that high safety can be secured together with firmness.

Further, according to the embodiment of the present invention, a space may be formed between the foundation anchor box and the lower end of the wooden column. This can reduce the time that the lower end of the wooden column touches the water and effectively protect the lower end of the wooden column from the moisture coming from the ground. In addition, since a space is formed between the lower end of the wooden column and the upper surface of the fixed concrete, the ventilation can be performed well, so that the decay and discoloration of the wooden column can be effectively prevented.

According to the embodiment of the present invention, in addition to the lower plate of the first coupling frame, the upper end of the first fastening member, and the adjusting member are provided in the installation groove of the foundation anchor box, Can be poured. Thus, the first coupling frame can be firmly fixed to the base portion in a state in which the horizontal degree is adjusted. In addition, the fixed concrete may be provided at the same height as the upper surface of the base portion, thereby enabling a finishing finish.

It should be understood that the effects of the present invention are not limited to the effects described above, but include all effects that can be deduced from the description of the invention or the composition of the invention set forth in the claims.

FIG. 1 is an exemplary view showing an example in which a wooden column is assembled to a foundation concrete.
2 is a perspective view illustrating a wood binding assembly for a high-rise wooden building according to an embodiment of the present invention.
3 is an exemplary view illustrating a first joint frame of a wooden joining assembly for a high-rise wooden building according to an embodiment of the present invention.
FIG. 4 is an exploded perspective view showing a first joining frame of a wooden joining assembly for a high-rise wooden building according to an embodiment of the present invention.
5 is a view illustrating an example of joining a wooden beam and a wooden slab of a wooden joining assembly for a high-rise wooden building according to an embodiment of the present invention.
6 is an exploded perspective view mainly showing a first wooden pillar and a foundation anchor box of a wood binding assembly for a high-rise wooden building according to an embodiment of the present invention.
7 is an exemplary view illustrating a foundation anchor box of a wooden joining assembly for a high-rise wooden building according to an embodiment of the present invention.
8 is a cross-sectional view illustrating a foundation anchor box and a second coupling frame of a wood binding assembly for a high-rise wooden building according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when a part is referred to as being "connected" (connected, connected, coupled) with another part, it is not only the case where it is "directly connected" "Is included. Also, when an element is referred to as " comprising ", it means that it can include other elements, not excluding other elements unless specifically stated otherwise.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, the terms "comprises" or "having" and the like refer to the presence of stated features, integers, steps, operations, elements, components, or combinations thereof, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view of a wooden joining assembly for a high-rise wooden building according to an embodiment of the present invention, FIG. 3 is an exemplary view illustrating a first joining frame of a wooden joining assembly for a high- And FIG. 4 is an exploded perspective view showing a first joint frame of a wood joining assembly for a high-rise wooden building according to an embodiment of the present invention, Fig. 7 is an illustration showing an example of joining a wooden beam and a wooden slab of an assembly. Fig.

2 to 5, a wooden joining assembly for a high-rise wooden building includes a wooden joining apparatus 100, a first wooden pillar 200, a second wooden pillar 300, and a wooden beam 400 .

The wood column coupling device 100 may be made of a metallic material and includes a first coupling frame 110, a horizontal partition 120, a first internal partition 130, a second internal partition 140, 150 and a horizontal support plate 160.

The first coupling frame 110 may have a plurality of cover side plates 111. The cover side plates 111 may be formed so that the upper and lower portions thereof penetrate and have a cross-sectional shape perpendicular to the axial direction.

The horizontal diaphragm 120 may be provided horizontally at the center of the first coupling frame 110. The horizontal diaphragm 120 can divide the inside of the first coupling frame 110 into a first coupling part 112 and a second coupling part 113. The first coupling portion 112 may be formed below the horizontal diaphragm 120 with respect to the horizontal diaphragm 120 and the second coupling portion 113 may be formed above the horizontal diaphragm 120.

The first inner diaphragm 130 may be provided at a center of the first engaging portion 112 in a vertical direction. The first internal diaphragm 130 may divide the first engaging portion 112 into two so that a pair of first engaging spaces S1 may be formed inside the first engaging portion 112. [

The second internal diaphragm 140 may be provided in the vertical direction at the center of the second engaging portion 113. The second inner partition 140 may divide the second coupling portion 113 into two portions so that a pair of second coupling spaces S2 may be formed inside the second coupling portion 113. Here, the second internal diaphragm 140 may be provided in the same direction as the first internal diaphragm 130. Accordingly, the first engagement space S1 and the second engagement space S2 formed in the first engagement frame 110 may be formed in the same size and shape.

The first inner partition plate 130 and the second inner partition plate 140 are coupled to each other in the cover side plate 111 and a plurality of first through holes 114 may be formed in the cover side plate facing each other. The first through hole 114 may be formed in both the first coupling portion 112 and the second coupling portion 113. The first through hole 114 may be formed in the pair of first coupling spaces S1, 2 coupling space S2, respectively.

The vertical fixing plate 150 may protrude perpendicularly to the outer surface of each cover side plate 111. The vertical fixing plate 150 may be provided at the center of the vertical direction of each cover side plate 111 and the lower end of the vertical fixing plate 150 may be provided on the same plane as the lower side of the cover side plate 111. A plurality of second through holes 151 may be formed in the vertical fixing plate 150 and a second through hole 151 may be formed in the thickness direction of the vertical fixing plate 150.

The horizontal support plate 160 may be provided at the center of the lower end of each cover side plate 111 and may be coupled together at the lower end of the cover side plate 111 and the lower end of the vertical fixing plate 150. The horizontal support plate 160 may be formed to extend outwardly and may be formed to be symmetrical with respect to the vertical fixing plate 150.

The first wooden pillar 200 may have a first upper slit 210 at its upper end. The first upper slit 210 may be formed at the center of the upper end of the first wooden pillar 200 and may be formed to pass through the side surfaces 201 facing each other. The first upper slit 210 may be formed at a predetermined depth along the longitudinal direction of the first wooden pillar 200 and may have a width corresponding to the thickness of the first inner partition 130 have. The upper end of the first wooden pillar 200 on which the first upper slit 210 is formed can be inserted into the first coupling portion 112 of the first coupling frame 110. [

A first upper through hole 211 corresponding to the first through hole 114 formed in the first coupling part 112 may be formed on the upper end of the first wooden pillar 200. The first upper through-hole 211 may be formed in a direction parallel to the first upper slit 210. A first fastening member 170 may be coupled to the first through hole 114 and the first upper through hole 211 so that the upper end of the first wooden post 200 is connected to the first coupling frame 110 The first engaging portion 112 of the first engaging portion 112 may be coupled to the first engaging portion 112 of the second engaging portion. The first fastening member 170 may be coupled in a direction parallel to the first inner partition 130 across the first engagement space S1.

In addition, a first lower slit 220 may be formed on the lower end of the first wooden pillar 200 to correspond to the first upper slit 210. The first lower slit 220 may be formed in the same direction as the first upper slit 210. In addition, a first lower through-hole 221 may be formed in the lower end of the first wooden pillar 200 in a direction parallel to the first lower slit 220.

The second wooden pillar 300 may have a second lower slit 310 at its lower end. The second lower slit 310 may be formed at the center of the lower end of the second wooden pillar 300 and may be formed to pass through the side surfaces 301 facing each other. The second lower slit 310 may have a predetermined depth along the longitudinal direction of the second wooden column 300 and may have a width corresponding to the thickness of the second inner partition 140 have. The lower end of the second wooden pillar 300 where the second lower slit 310 is formed can be inserted into the second coupling portion 113 of the first coupling frame 110.

A second lower through hole 311 may be formed in the lower end of the second wooden pillar 300 so as to correspond to the first through hole 114 formed in the second coupling portion 113. The second lower through-hole 311 may be formed in a direction parallel to the second lower slit 310. A first fastening member 170 may be coupled to the first through hole 114 and the second lower through hole 311 so that the lower end of the second wooden post 300 is connected to the first coupling frame 110 The second engaging portion 113 of the second engaging portion 113 is engaged. The first fastening member 170 may be coupled in a direction parallel to the second inner partition 140 across the second engagement space S2.

The cover side plate 111 is provided so as to surround the upper end of the first wooden pillar 200 and the lower end of the second wooden pillar 300 so that the upper end of the first wooden pillar 200 and the lower end of the second wooden pillar 300 Can be protected. In addition, the joints of the first and second wooden posts 200 and 300 are strengthened, so that a high safety can be ensured with respect to the lateral force externally applied.

In addition, a second upper slit 320 may be formed on the upper end of the second wooden column 300 to correspond to the second lower slit 310. The second upper slit 320 may be formed in the same direction as the second lower slit 310. In addition, a second upper through-hole 321 may be formed in the upper end of the second wooden column 300 in a direction parallel to the second upper slit 320.

The second wooden pillar 300 and the first wooden pillar 200 may be formed in the same shape. Accordingly, the versatility can be improved since the wood pillars can be used independently for each floor.

The wood beam 400 may have a first side slit 410 at one end. The first side slits 410 may be formed at the center of one end of the wood beam 400 and may be formed to penetrate the side surfaces 401 facing each other. The first side slit 410 may have a predetermined depth along the longitudinal direction of the wood beam 400 and may have a width corresponding to the thickness of the vertical fixing plate 150 of the first coupling frame 110 . In addition, a first side through hole 411 may be formed at one end of the wood beam 400. The first side through hole 411 may be formed perpendicular to the first side slit 410 through the first side slit 410. The second fastening member 420 may be coupled to the second through hole 151 through the first side through hole 411 so that one end of the wood beam 400 is connected to the second fastening member 420 of the first coupling frame 110 And may be coupled to the vertical fixing plate 150.

The second side slit 430 may be formed at the other end of the wood beam 400. The second side slit 430 may be formed to correspond to the first side slit 410. In addition, a second side through hole 431 may be formed in the other end of the wood beam 400 in a direction perpendicular to the second side slit 430. The first side slit 410 and the second side slit 430 and the first side through hole 411 and the second side through hole 431 may be formed symmetrically with respect to the center of the wood beam 400 have. Accordingly, the wood beam 400 can be formed to have no directionality, and the work can be easily performed during the assembling work.

The wooden joining assembly for a high-rise wooden building may further comprise a wooden slab (500). The wooden slab 500 may be provided horizontally on the upper surface of the wooden beam 400 and may be supported by the wooden beam 400. The wooden slab 500 may be positioned on the upper surface of the wooden beam 400, which is coupled to the wooden column connecting device 100 in one direction. An insertion groove 510 may be formed on one side of the wooden slab 500 to correspond to the first coupling frame 110. Accordingly, the wooden slabs 500 can be moved in the direction of the wooden column joining device 100 in the state of being provided on the upper portion of the wooden beam 400, and can be in close contact with each other.

A third through hole 402 may be further formed in the wood beam 400 in the vertical direction and a fourth through hole 501 corresponding to the third through hole 402 may be further formed in the wooden slab 500 . A third fastening member 520 may be coupled to the fourth through hole 501 and the third through hole 402 so that the wooden slab 500 can be coupled to the wood beam 400 .

FIG. 6 is an exploded perspective view showing a first wood column and a foundation anchor box of a wood joining assembly for a high-rise wooden building according to an embodiment of the present invention, and FIG. 7 is an exploded perspective view of a high- 8 is a cross-sectional view illustrating a base anchor box and a second coupling frame of a wood binding assembly for a high-rise wooden building according to an embodiment of the present invention.

6 to 8, the wooden joining assembly for a high-rise wooden building may further include a foundation anchor box 600, a second joining frame 700, and a fixed concrete 800. As shown in Figs.

The base anchor box 600 may have a base portion 610 and a fourth fastening member 620.

The base portion 610 may be made of a concrete material, and an installation groove 611 may be formed at the center of the upper portion.

The fourth fastening member 620 may be embedded in the base portion 610. The fourth fastening member 620 may be provided at the time of molding the base portion 610. The fourth fastening member 620 may be provided in a vertical direction, and a plurality of the fastening members 620 may be provided. The upper end of the fourth fastening member 620 may be exposed to the outside through the bottom surface 612 of the mounting groove 611. The upper end of the fourth fastening member 620 may be exposed from the upper surface of the base portion 610 613).

The lower end of the fourth fastening member 620 may be bent. As a result, the fourth fastening member 620 can be prevented from being pulled out from the base portion 610. The fourth fastening member 620 may have a thread on the outer peripheral surface.

The basic anchor box 600 may further have a binding portion 630. [ The coupling portion 630 may be embedded in the base portion 610 to bind the plurality of fourth fastening members 620 together. The binding portion 630 may be formed to fix each of the plurality of fourth fastening members 620, and the plurality of fourth fastening members 620 may be positioned at a predetermined interval. The coupling portion 630 may be provided to be coupled with the plurality of fourth fastening members 620 in advance before the base portion 610 is formed. Through the process of placing the binding portion 630 to which the fourth fastening member 620 is coupled in the molding die of the base portion 610 and then injecting and hardening the concrete into the molding die of the base portion 610, The fourth fastening member 620 and the coupling portion 630 may be integrally formed on the base portion 610. [

The second coupling frame 700 may be installed in the installation groove 611 of the base portion 610 and may have a lower plate 710, a cover vertical plate 720 and a third internal plate 730.

The lower plate 710 is a plate provided in the horizontal direction and can be positioned inside the installation groove 611. A first through hole 711 may be formed in the lower plate 710 so as to correspond to the position of the fourth fastening member 620 and penetrate the fourth fastening member 620.

The cover vertical plates 720 may be provided vertically on both sides of the upper portion of the lower plate 710.

The third internal diaphragm 730 may be vertically provided at the upper center of the lower plate 710 and both ends thereof may be coupled to the center of the cover straight plate 720. The third inner diaphragm 730 can divide the space formed by the lower plate 710 and the cover vertical plate 720 so that the third inner diaphragm 730 can be divided into two, A third pair of third engagement spaces S3 may be formed. A plurality of second through holes 731 may be formed in the thickness direction of the third inner partition 730 in the third inner partition 730.

The adjustment member 640 may be coupled to the upper end of the fourth fastening member 620. When the second engagement frame 700 is positioned in the installation groove 611 of the base portion 610 so that the fourth fastening member 620 is inserted into the first through hole 711 of the lower plate 710, (640) may be provided between the bottom surface (612) and the lower plate (710) of the installation groove (611). The adjustment member 640 can support the lower plate 710 and the horizontality of the second engagement frame 700 can be adjusted by adjusting the respective adjustment members 640.

The fixed concrete 800 can be installed in the installation groove 611. The fixed concrete 800 is fixed to the cover vertical plate 720 and the third inner diaphragm 730 together with the upper plate 710 of the second coupling frame 700 and the upper end of the fourth coupling member 620 and the adjusting member 640. [ Can be covered. Accordingly, the second coupling frame 700 can be firmly fixed to the base portion 610 in a state in which the horizontal degree is adjusted. The fixed concrete 800 may be provided at the same height as the upper surface 613 of the base portion 610, thereby enabling a finishing finish. The fixed concrete 800 may be a non-shrinkage concrete.

The first lower slit 220 of the first wooden pillar 200 may be formed to have a width corresponding to the thickness of the third internal partition 730 of the second coupling frame 700. The lower end of the first wooden pillar 200 divided by the first lower slit 220 can be located in the third engagement space S3 of the fourth fastening member 620. [

The first wooden pillar 200 may be formed to have a thickness corresponding to the interval between the cover vertical plates 720 of the second coupling frame 700 and the width of the cover vertical plate 720. In this way, both side surfaces of the first wooden pillar 200 can be covered and protected by the cover vertical plate 720 of the second coupling frame 700. When the interval between the cover vertical plates 720 and the width of the cover vertical plate 720 are the same, the first wooden pillar 200 may have a square cross-sectional shape.

The depth of the first lower slit 220 may be shorter than the height of the third inner partition 730. Specifically, the first lower slit 220 is formed such that the second joining frame 700 is located in the installation groove 611 of the base portion 610, and the lower end of the first wooden post 200 is located in the second joining frame 700 The lower end of the first wooden pillar 200 and the upper surface 801 of the fixed concrete 800 may be spaced apart from each other. The lower part of the third engagement space S3 of the second joint frame 700 can be exposed to the outside through the lower end of the first wooden post 200 and the upper surface 801 of the fixed concrete 800. [ In this embodiment, the distance between the lower end of the first wooden pillar 200 and the upper surface of the lower plate 710 may be 9 to 11 cm. The lower end of the first wooden pillar 200 and the upper surface 801 of the fixed concrete 800 may be separated by 4 to 6 cm.

As described above, a space may be formed between the foundation anchor box 600 and the first wooden pillar 200. This can reduce the time when the lower end of the first wooden pillar 200 is in contact with water and effectively protect the lower end of the first wooden pillar 200 from the moisture coming from the ground. In addition, since a space is formed between the lower end of the first wooden pillar 200 and the upper surface of the fixed concrete 800, the ventilation can be performed well. Therefore, it is possible to effectively prevent the decay and discoloration of the first wooden pillar 200 .

A third through hole 230 may be formed in the lower end of the first wooden pillar 200 to correspond to the second through hole 731. The third through hole 230 may be formed perpendicular to the first lower slit 220. The fifth fastening member 740 may be coupled to the third through hole 230 and the second through hole 731 while the third internal partition 730 is inserted into the first lower slit 220 Through which the lower end of the first wooden pillar 200 can be coupled to the second coupling frame 700. The third through holes 230 may be formed at different heights so as not to be connected to the first through holes 221.

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included within the scope of the present invention.

100: Wooden column coupling device
110: first coupling frame
111: Cover shroud
160: Horizontal support plate
200: 1st wooden pillar
300: 2nd timber pole
400: Wood beam
500: Wood slab
600: Foundation anchor box
611: Installation home
620: fourth fastening member
630:
640:
700: second coupling frame
800: Fixed concrete

Claims (8)

Wood column joining devices;
A first wooden pillar vertically coupled to a lower portion of the wooden pillar coupling device;
A second wooden pillar vertically coupled to the upper portion of the wooden pillar coupling device;
A wooden beam horizontally coupled to the wooden column coupling device;
The base anchor is formed of a concrete material and has an installation groove recessed in the center of the base. The base anchor is embedded in the base and has a plurality of fourth fastening members vertically exposed through a bottom surface of the installation groove. box;
A pair of cover vertical plates vertically provided on both sides of an upper portion of the lower plate, and a cover vertical plate provided perpendicularly to an upper center of the lower plate, And a plurality of second through holes, each of which is formed in the thickness direction, to define a pair of third engagement spaces and to which the fifth fastening members are coupled, 2 associative frames; And
And a fixed concrete installed in the installation groove to cover the lower plate and the fourth fastening member to fix the second joint frame, the fixed concrete having the same height as the upper surface of the base,
The wooden pillar coupling device includes a first coupling frame having a plurality of cover side plates through which upper and lower portions penetrate and which have a cross-sectional shape perpendicular to the axial direction, and a second coupling frame having a horizontal direction at the center of the first coupling frame And a second coupling unit for coupling the first coupling unit and the second coupling unit to each other, wherein the first coupling unit includes a first coupling unit and a second coupling unit, A pair of first inner diaphragms disposed at the center of the second engaging portions formed on the upper side of the horizontal diaphragm and arranged vertically in the second engaging portions so as to define a pair of first engaging spaces, A second inner partition which is formed in the same direction as the first inner partition and which protrudes perpendicularly to the outer surface of each of the cover side plates, And a lower end portion provided at a center in the vertical direction and provided on the same plane as the lower end portion of the cover side plate, and a cover plate provided to extend outward in the center of the lower end portion of each cover side plate, And a horizontal support plate symmetrically disposed around the vertical fixing plate,
The first wooden column has a first upper slit penetrating a side opposite to each other at the center of the upper end so as to insert the first inner partition and having a predetermined depth along the longitudinal direction, And a lower portion of the lower slit has a first lower slit corresponding to the first upper slit,
The second wooden column has a second lower slit penetrating a side opposite to the center of the lower end so as to insert the second inner diaphragm and having a predetermined depth along the longitudinal direction and a lower end inserted into the second engaging portion And a second upper slit formed on the upper end portion to correspond to the second lower slit,
The wood plate has a first side slit passing through a side opposite to each other at the center of one end so as to insert the vertical fixing plate and having a predetermined depth along a longitudinal direction of the first side slit and having one end coupled to the vertical fixing plate, A second side slit to correspond to the first side slit,
An adjusting member is provided at an upper end of the fourth fastening member and is provided between the bottom surface of the mounting groove and the lower plate to support the lower plate and to adjust the horizontality of the second joint frame,
And a third through hole is formed in the lower end of the first wooden column so as to be coupled to the fifth fastening member, and the third through hole is formed perpendicular to the first lower slit. Coupling assembly. The method according to claim 1,
Wherein the first inner partition and the second inner partition are coupled to each other and the cover side plate is opposed to the first partition so as to extend in a direction parallel to the first inner partition and the second inner partition across the first and second engagement spaces And a plurality of second through holes are formed in the vertical fixing plate in a thickness direction of the vertical fixing plate so that the first fixing members are coupled to the vertical fixing plate. 3. The method of claim 2,
A first upper through-hole is formed in an upper end portion of the first wooden column in a direction parallel to the first upper slit so that a first fastening member inserted into the first through hole formed in the first fastening portion is engaged, And a first lower through-hole is formed in a direction parallel to the first lower slit. The method of claim 3,
A second lower through hole is formed in a lower end portion of the second wooden column in a direction parallel to the second lower slit so that a first fastening member coupled to the first through hole formed in the second coupling portion is engaged, Wherein a second upper through-hole is formed in a direction parallel to the second upper slit. 5. The method of claim 4,
A first side through hole is formed at one end of the wood beam in a direction perpendicular to the first side slit so that a second fastening member coupled to the second through hole of the vertical fixing plate is engaged, And a second side through-hole is formed in a direction perpendicular to the side slit. The method according to claim 1,
Further comprising a wooden slab provided on an upper surface of the wooden beam to be supported by the wooden beam and having an insertion groove formed to be inserted into the first coupling frame. The method according to claim 6,
A third through hole is further formed in the wood beam in a vertical direction, a fourth through hole corresponding to the third through hole is further formed in the wooden slab, and a third through hole is formed in the fourth through hole and the third through hole, Wherein the first and second members are coupled to each other. delete

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