KR102227234B1 - Framework of multistory traditional wooden building made up of steel-frame structure - Google Patents

Abstract

The present invention relates to a frame of a multi-layered hybrid traditional wooden structure made of a steel structure, in which the steel structure is not exposed to the outside by attaching wood to steel while forming the frame of a traditional wooden structure such as hanok in a steel structure.

Description

Framework of multistory traditional wooden building made up of steel-frame structure

The present invention relates to a frame of a multi-layered hybrid traditional wooden structure made of a steel structure, and more particularly, a steel structure in which the steel structure is not exposed to the outside by bonding wood to steel while forming the frame of the traditional wooden structure in a steel structure. It relates to the frame of a multi-storey hybrid traditional wooden structure made of.

Korean traditional hanok is built using wood as the main material, and the construction process of this is to first create the site to be built, place the foundation stone in the place where the pillars are to be built, vertically erect the pillars on the pillars, and use beams and dori on the pillars. After the frame is formed, walls and windows are formed between the pillars, and a roof is formed on the top of the beams and torii.

As the pillars, beams, and streets of traditional hanok are mainly natural wood, it is not only difficult to procure materials, but it is expensive, and natural wood has a disadvantage in that structural stability is weak due to warping or cracking after construction due to high contraction and expansion due to dry and humid conditions. The roof tiles are molded with cement and clay, and the weight is excessive, which puts a burden on the frame.

In addition, the traditional building method of hanok is passed down to only a few experts, and because it relies on skilled professionals for a long period of time handling natural wood or roof construction, it takes a lot of labor costs and increases the difficulty of the work, resulting in a long construction period. There is a problem of increasing construction cost.

Registered Patent No. 934458 “Korean-style building to which steel structure is applied and its construction method” (2009. 12. 21. registration) Registered Patent No. 1006225 “Modern Hanok with Steel Structure” (Registered on Dec. 29, 2010) Registered Patent No.1718801 "Hybrid-type wood structure member, manufacturing method and frame system using the same" (registered on March 16, 2017) Registered Patent No. 1730460 "Hybrid hanok using a mixture of steel frame and traditional wooden building techniques and construction method of such hybrid hanok" (registered on April 20, 2017)

In order to solve the conventional problems as described above, the present invention forms a frame of a traditional wooden building such as hanok into a steel structure having strong durability and structural stability and excellent workability, while attaching the wood to the steel so that the steel structure is not exposed to the outside. It aims to provide the frame of a multi-storey hybrid traditional wooden building.

모양으로 목재를 접합하여 형성하며, 상기 ㅑ자형 연결부재(22)의 마주보는 2개의 측판에는 볼트체결구멍이 형성되고, 상기 시작층 골조에 사용되는 복합 처마도리(30)는 각형 강관의 좌·우측단인 ㅁ자 모양의 내부면 중 하면 중앙에 ∨자형 보강철물(31)의 꼭지점이 닿고 상면의 양 측단에 ∨자형 보강철물(31)이 닿도록 ∨자형 보강철물(31)을 보강한 후 ∨자형 보강철물(31)이 보강된 각형강관의 좌·우측단에 ㅑ자형 연결부재(32)를 설치한 다음에

모양으로 목재를 접합하여 형성하고, 상기 ㅑ자형 연결부재(32)의 마주보는 2개의 측판에는 볼트체결구멍이 형성되는 것을 특징으로 할 수 있다.The framing of a multi-layered hybrid traditional wooden structure made of a steel structure according to the present invention is a composite pillar, a composite beam in which steel and wood are mixed in a manner in which wood is adhered to the surface of various steel materials used so that the steel structure is not exposed to the outside, Composite eaves, composite copper pillars, and composite bellows are used to form a three-story frame with a starting layer, a middle layer, and an uppermost layer, and the starting layer frame includes a composite column (10), a composite girder (20), and a composite eaves ( 30) is used and joined to form a frame, and a composite pillar 40, a composite girder 50, and a composite eaves 60 are used and joined to form a frame in the middle layer frame. ), composite girder (80), composite eaves (90), composite copper pole (100), composite bell beam (130) are used and joined to form a frame, and the intermediate layer frame is installed on the starting layer frame, and the intermediate layer The uppermost frame is installed on the frame, and the composite pillar 10 used for the starting layer frame touches the bottom sides of the triangular reinforcement hardware 11 at both ends of the H-beam flange, and the triangular reinforcement hardware ( After reinforcing the triangular reinforcement hardware (11) on the upper and lower portions of the H-beam to reach the vertices of 11), the base plate (12) is joined to the lower portion of the H-beam, and another base plate (13) is attached to the upper portion of the H-beam. After installing the X-shaped reinforcing member 14 vertically on the upper base plate 13, it is formed by joining wood in a □ shape on the surface of the H-beam, and continuous among the four side plates of the X-shaped reinforcing member 14 Between the two side plates, a C-shaped connecting member 15 formed lower than the height of the X-shaped reinforcing member 14 by a predetermined height is coupled to each of the four C-shaped connecting members 15 to the X-shaped reinforcing member 14 Are coupled, and bolt fastening holes are formed in the two side plates facing each other of the C-shaped connecting member 15, and each of the four C-shaped connecting members 15 is fixed with a -shaped reinforcing hardware 16 from the top. Top plate (17) on the top of the X-shaped reinforcing member (14) ) Is formed by fixing, and the composite girder 20 used for the starting layer frame has the bottom sides of the triangular reinforcing hardware 21 touching both ends of the H-beam flange, and the triangular reinforcing hardware 21 at the center of the web. After reinforcing the triangular reinforcement hardware (21) on the left and right sides of the H-beam to reach the vertices of the H-beam, install the K-shaped connecting member (22) on the left and right ends of the H-beam.

It is formed by joining wood in a shape, and a bolt fastening hole is formed on the two side plates facing each other of the ㅑ-shaped connecting member 22, and the composite eaves 30 used for the starting layer frame is the left and right of a rectangular steel pipe. When the right end of the inner surface of the shape-shaped ㅁja ∨ to the central vertex of the reinforcing hardware 31 touches ∨ on both side ends of the upper surface of the reinforcing-shaped hardware (31) shaped so that the touch ∨ After reinforcing the reinforcing hardware (31), install the ㅑ-shaped connecting member (32) at the left and right ends of the square steel pipe reinforced with the ∨-shaped reinforcing hardware (31).

It is formed by joining the wood in a shape, and it may be characterized in that a bolt fastening hole is formed in the two side plates facing each other of the ㅑ-shaped connecting member 32.

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In addition, between the two side plates facing the ㅑ-shaped connecting member 22 of the composite girder 20, facing the C-shaped connecting member 15 of the upper X-shaped reinforcing member 14 of one composite column 10 By inserting two side plates and fastening bolts between bolt fastening holes, two composite columns (10) and one composite girder (20) are integrally joined, and the ㅑ-shaped connection member of the composite eaves (30) Between the two opposite side plates of (32), insert two side plates facing each other of the C-shaped connecting member (15) of the upper X-shaped reinforcing member (14) of one composite column (10), and bolt between the bolt fastening holes. It may be characterized in that the two composite pillars 10 and one composite eaves 30 are integrally coupled to each other by a method of fastening them.

In addition, the composite pillar 40 used for the intermediate layer frame is the same as the composite pillar 10 used for the starting layer frame, but after fixing the base plate 42 to the lower part of the H-beam, X It is added to fix the shaped reinforcing member 44 and fix another base plate 43 at the lower end, and two anchor bolts 47 are installed on the upper left and right sides of the front end of the lower base plate 43. I can.

In addition, the composite pillar 70 used for the uppermost frame is the same as the intermediate layer composite pillar 40, but the height of the X-shaped reinforcing member 74 and the C-shaped connecting member 75 are the same, and the X-shaped reinforcing member Anchor bolts 77 are installed at predetermined positions on the inner two surfaces of the four upper surfaces of 74, and the top plate is not installed on the upper part of the X-shaped reinforcing member 74, and the base plate under the composite column 70 ( 72) Two anchor bolts (77) are installed on the upper left and right sides of the front end, and the composite copper column (100) used for the top frame is a ∨ shape in the center of the lower surface of the inner surfaces of the upper and lower ends of the rectangular steel pipe. The vertices of the reinforcing hardware 101 are touched and ∨ shaped on both sides of the upper surface ∨ shape so that the reinforcement hardware 101 touches After reinforcing the reinforcing hardware 101, the base plate 102 is joined to the upper end of the square steel pipe reinforced with the ∨- shaped reinforcement hardware 101, and wood is joined to the four sides of the square steel pipe to form the base plate ( An X-shaped reinforcing member 104 is installed on the upper surface of 102), and between two consecutive side plates of the four side plates of the X-shaped reinforcing member 104, the C-shaped reinforcing member 104 is formed to have the same height as the X-shaped reinforcing member 104 Each of the connecting members 105 is coupled to the X-shaped reinforcing member 104, and four C-shaped connecting members 105 are coupled, and a bolt fastening hole is formed on the two side plates facing the C-shaped connecting member 105. And, each of the four C-shaped connection members 105 are fixed with a ㅡ-shaped reinforcing hardware 106 from the top, and anchor bolts 107 are installed at the ends of the four upper surfaces of the X-shaped reinforcing members 104, respectively. And, the composite bellows 130 used for the uppermost frame is a ∨ shape in the center of the lower surface of the ㅁ-shaped inner surfaces, which are the left and right ends of the square steel pipe. The vertices of the reinforcement hardware 131 are touched and ∨ shaped on both sides of the upper surface After reinforcing the ∨- shaped reinforcement hardware 131 so that the reinforcing hardware 131 touches, a ㅑ-shaped connecting member 132 is installed at the left and right ends of the square steel pipe reinforced with the ∨-shaped reinforcement hardware, and the top layer composite bellows 130 ), the lower composite beams 140 and the upper composite beams 150 are installed, and the lower composite copper pillars 110 are installed at 1/4 points at the left and right ends of the composite beams 80 used for the top frame. It may be installed and characterized in that one upper composite copper pillar 120 is installed in the middle of the lower composite bell beam 140, and wood is bonded to each of the four surfaces.

In addition, the X-shaped reinforcing member 104 on the upper side of the lower composite copper column 110 between the two side plates facing each other of the ㅑ-shaped connecting member 132 installed on the left and right sides of the one lower composite bellows 140 Inserting two side plates facing each other of the C-shaped connecting member 105, and fastening the bolts between the bolt fastening holes, and of the k-shaped connecting member 132 installed on the left and right sides of the one upper composite longitudinal beam 150 Between two side plates facing each other, two side plates facing each other of the C-shaped connecting member 105 of the X-shaped reinforcing member 104 on the upper composite copper column 120 are inserted to fasten the bolts between the bolt fastening holes. It can be characterized by that.

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The present invention is constructed using wood as the main material by forming the frame of traditional wooden buildings such as hanok into a steel structure, so that durability and structural stability are strong and workability is excellent, and the steel structure is not exposed to the outside by bonding wood to steel. It has the effect of providing the frame of a multi-storey hybrid traditional wooden building that looks like it is.

1 to 3 are views showing the composite pillars of the starting layer,
4 and 5 are views showing the composite girders of the starting layer,
6 and 7 are views showing the composite eaves of the starting floor,
8 is a view showing the joint between the starting layer composite column and the composite girder,
9 is a view showing the joint between the starting layer composite column and the composite eaves,
10 is a view showing the starting floor frame;
11 is a view showing an intermediate layer composite column,
12 is a view showing the junction between the starting layer composite column and the intermediate layer composite column,
13 is a view showing that an intermediate layer frame is joined on a starting layer frame;
14 is a view showing the uppermost composite column,
15 is a diagram showing an uppermost composite copper column;
16 is a view showing the top layer composite bell,
17 is a view showing the junction between the uppermost composite pillar, the uppermost composite girder, and the uppermost lower composite copper pillar,
18 is a diagram showing the junction between the uppermost composite bellows and the uppermost composite copper pillars;
FIG. 19 is a view showing the junction between the uppermost composite copper pillar and the lower uppermost composite longitudinal beam;
FIG. 20 is a view showing the junction between the uppermost composite copper pillar and the uppermost composite longitudinal beam;
21 is a view showing that the middle layer frame is joined on the starting layer frame, and the top layer frame is joined on the middle layer frame.
34 is a view showing a three-segment frame of the starting floor;
Fig. 35 is a diagram showing a five-story frame in one compartment.

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

The present invention relates to a "frame of a multi-layered hybrid traditional wooden building made of a steel structure", and the steel structure is a frame of pillars, beams, stairs, roofs, floors, etc., which are the main structural parts of a building. It refers to assembling by joining methods such as joining, bolt joining, welding joining, etc., or constructing a structure with a single section steel.

In the present invention, the frame of a multi-layered hybrid traditional wooden structure is formed of a steel structure, and wood and synthetic resin materials are used when necessary, and the joints between the steel materials used are welded and bolted when a bolt fastening hole is formed. Glue is used to bond wood, and steel with bolt fastening holes can be screwed together, and screws or adhesives are used to bond wood to wood, and bonds between wood and synthetic resin materials and between synthetic resin materials and synthetic resin materials. It is based on the adhesive being used, but is not necessarily limited thereto.

In the present invention, wood is bonded to the surface of the steel material used so that the steel structure is not exposed to the outside. Is used, and hereinafter these are referred to as composite pillars, composite girders, composite eaves, composite copper pillars, and composite bell beams, respectively.

A pillar is a structure that receives the weight of the roof of a building and transmits it to the foundation stone, and it is a member that transmits the weight of the roof above the beam. The beam is a beam that is crossed between the pillar and the pillar to receive the load transmitted from the small beam. Each of the composite girders is mixed with H-beam and wood.

The torii is a horizontal structural member that receives the rafters by walking in the direction perpendicular to the beam, and the eaves is a torii placed on the outer pillar of the building, the copper pillar is a short pillar that is erected on the girder, and the bell beam is a beam that hangs between the copper pillars. Square steel pipes and wood are used in mixtures for purlins, composite copper pillars, and composite beams.

In the present invention, as a frame of a multi-layered hybrid traditional wooden building, a frame of three floors of one cell having a starting floor, an intermediate floor, and an uppermost floor is disclosed.

As shown in Figs. 1 to 3, the composite column 10 used for the starting layer framing has the bottom sides of the triangular reinforcement hardware 11 at both ends of the H-beam flange and the triangular reinforcement hardware in the center of the web ( After reinforcing the triangular reinforcement hardware (11) on the upper and lower portions of the H-beam to reach the vertices of 11), attach a base plate (12) to the lower portion of the H-beam, and another base plate (13) on the upper portion of the H-beam. And attaching the X-shaped reinforcing member 14 vertically to the upper base plate 13, and then joining the wood in a □ shape on the surface of the H-beam.

Between the four side plates of the X-shaped reinforcing member 14, a C-shaped connection member 15 formed lower than the height of the X-shaped reinforcing member 14 by a predetermined height is coupled between the two consecutive side plates to reinforce the X-shaped The member 14 is coupled with four C-shaped connecting members 15, and bolt fastening holes are formed on the two side plates facing each other of the C-shaped connecting member 15, and the four C-shaped connecting members 15 Is formed by fixing each with a ㅡ-shaped reinforcing hardware 16 at the top, and then fixing a top plate 17 on the top of the X-shaped reinforcing member 14.

모양으로 목재를 접합하여 형성하며, 상기 ㅑ자형 연결부재(22)의 마주보는 2개의 측판에는 볼트체결구멍이 형성된다. As shown in Figures 4 and 5, the composite girder 20 used for the starting layer frame has the bottom sides of the triangular reinforcement hardware 21 at both ends of the H-beam flange, and the triangular reinforcement hardware in the center of the web ( After reinforcing the triangular reinforcement hardware (21) on the left and right sides of the H-beam to reach the vertices of 21), install the ㅑ-shaped connecting member (22) on the left and right ends of the H-beam.

It is formed by joining wood in a shape, and a bolt fastening hole is formed on two side plates facing each other of the ㅑ-shaped connecting member 22.

모양으로 목재를 접합하여 형성하며, 상기 ㅑ자형 연결부재(32)의 마주보는 2개의 측판에는 볼트체결구멍이 형성된다. As shown in Figs. 6 and 7, the composite eaves 30 used for the starting floor framing has a vertex of the ∨- shaped reinforcement hardware 31 at the center of the lower surface of the ㅁ-shaped inner surfaces, which are the left and right ends of the rectangular steel pipe. ∨ shape so that ∨ -shaped reinforcement hardware (31) touches both sides of the upper surface After reinforcing the reinforcing hardware (31), install the ㅑ-shaped connecting member (32) at the left and right ends of the square steel pipe reinforced with the ∨-shaped reinforcing hardware (31).

It is formed by joining wood in a shape, and bolt fastening holes are formed on two side plates facing each other of the ㅑ-shaped connecting member 32.

As shown in FIGS. 8 to 10, the C-shaped upper X-shaped reinforcing member 14 of one composite column 10 between two side plates facing each other of the ㅑ-shaped connecting member 22 of the composite girder 20 Two composite columns 10 and one composite girder 20 are integrally coupled by a method of fastening bolts between the bolt fastening holes by inserting two side plates facing the connecting member 15. In this way, the other two composite columns 10 and the other composite girder 20 are combined.

Two opposite sides of the C-shaped connecting member 15 of the upper X-shaped reinforcing member 14 of one compound column 10 between the two side plates facing each other of the ㅑ-shaped connecting member 32 of the composite eaves 30 Two composite columns 10 and one composite eaves 30 are integrally combined by inserting two side plates to fasten bolts between bolt fastening holes. In this way, the other two composite columns 10 and the other composite eaves 30 are combined.

Four composite pillars 10, two composite beams 20, and two composite eaves 30 are combined on the foundation in the same manner as described above to complete the starting layer frame.

The composite pillar 40, composite girder 50, and composite eaves 60 used for the intermediate layer frame are formed almost the same as the case of the starting layer, and the starting layer is installed on the foundation and the intermediate layer is installed on the starting layer. Other than that, the combination of the composite pillar 40, the composite girder 50, and the composite eaves 60 used in the middle floor construction is almost the same as in the case of the starting floor, so only the differences will be described.

As shown in Figure 11, the composite pillar 40 used for the intermediate layer frame is the same as the composite pillar 10 used for the starting layer frame, but after fixing the base plate 42 to the lower portion of the H-beam, the base plate (42) It is added to fix the X-shaped reinforcing member 44 at the bottom and another base plate 43 at the bottom. At this time, two anchor bolts 47 are installed on the upper left and right sides of the front end of the lower base plate 43.

12 and 13, in the intermediate layer, each base plate 43 installed at the lower end of the composite column 40 is bonded to each of the top plates 17 installed on the top of the starting layer composite column 10 to be fixed. You can do it.

In this way, four composite pillars 40, two composite girders 50, and two composite eaves 60 are combined on the starting layer frame to complete the intermediate layer frame.

The composite column 70, the composite girder 80, and the composite eaves 90 used for the uppermost frame structure are formed almost the same as in the case of the intermediate layer, so only the differences will be described.

As shown in Figure 14, the top layer composite pillar 70 is the same as the intermediate layer composite pillar 40, but the height of the X-shaped reinforcing member 74 and the height of the C-shaped connecting member 75 are the same, and one composite When the outer surface of the eaves 90 is viewed vertically in the front, anchor bolts 77 are installed at predetermined positions on the inner two surfaces of the four upper surfaces of the X-shaped reinforcing member 74, and X-shaped reinforcement The top plate is not installed on the upper part of the member 74, and two anchor bolts 77 are installed on the upper left and right sides of the front end of the base plate 72 under the composite column 70.

As shown in Figure 15, the uppermost composite copper column 100 is a ∨ shape in the center of the lower surface of the inner surface of the ㅁ shape, which is the upper and lower ends of the rectangular steel pipe. The vertices of the reinforcing hardware 101 are touched and ∨ shaped on both sides of the upper surface ∨ shape so that the reinforcement hardware 101 touches After reinforcing the reinforcing hardware 101, the base plate 102 is joined to the upper end of the square steel pipe reinforced with the ∨- shaped reinforcement hardware 101, and wood is joined to the four sides of the square steel pipe to form. In this way, six composite copper poles 100 are formed, and the lower composite copper poles 110 and the upper composite copper poles 120 are installed as the uppermost composite copper poles 100.

An X-shaped reinforcing member 104 is installed on the upper surface of the base plate 102, and between two consecutive side plates of the four side plates of the X-shaped reinforcing member 104, the height of the X-shaped reinforcing member 104 is the same. The formed C-shaped connecting members 105 are each coupled to the X-shaped reinforcing member 104, and four C-shaped connecting members 105 are coupled, and two side plates facing the C-shaped connecting members 105 are bolted to each other. A fastening hole is formed, and each of the four C-shaped connection members 105 is fixed with a ㅡ-shaped reinforcing hardware 106 from the top, and anchor bolts ( 107) is installed.

As shown in FIG. 16, the uppermost composite bellows 130 is a ∨ -shaped in the center of the lower surface of the ㅁ-shaped inner surfaces of the left and right ends of the square steel pipe. The vertices of the reinforcement hardware 131 are touched and ∨ shaped on both sides of the upper surface After reinforcing the ∨- shaped reinforcing hardware 131 so that the reinforcing hardware 131 touches, the ㅑ-shaped connecting member 132 is installed at the left and right ends of the square steel pipe reinforced with the ∨-shaped reinforcing hardware. In this way, five composite bells 130 are formed, and the lower composite bells 140 and the upper composite bells 150 are installed as the uppermost composite bells 130.

17 and 18, a lower composite copper column 110 is installed at each 1/4 point at the left and right ends of the uppermost composite girder 80, and one in the middle of the lower composite girder 140 The upper composite copper pillar 120 is installed and wood is joined to each of the four sides.

As shown in FIG. 19, an X-shaped upper part of a lower composite copper column 110 between two side plates facing each other of the ㅑ-shaped connecting member 132 installed on the left and right sides of one lower composite bellows 140 Two side plates facing each other of the C-shaped connection member 105 of the reinforcing member 104 are inserted and bolts are fastened between the bolt fastening holes.

In this way, the four lower composite copper pillars 110 and the four lower composite bell beams 140 are combined to form a rectangular frame.

As shown in Fig. 20, the X-shaped reinforcing member of the upper composite copper column 120 between the two side plates facing each other of the ㅑ-shaped connecting member 132 installed on the left and right sides of one upper composite bellow 150 Insert the two side plates facing each other of the C-shaped connection member 105 of (104) and fasten the bolts between the bolt fastening holes.

In this way, two upper composite copper poles 120 and one upper composite bellow 150 are combined.

As described above, four composite pillars 70, two composite beams 80, two composite eaves 90, four lower composite copper pillars 110, and four lower composite beams 140 on the middle floor frame as described above. , Two upper composite copper pillars 120, and one upper composite bellow 150 are combined to complete the top floor frame, and as shown in FIG. 21, the start layer frame on the foundation, the middle layer frame on the start layer frame, and the middle layer The three-story frame is completed by joining the top frame on the frame.

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In the above, 1 section of the starting layer, the middle layer, and the top 3 floors has been described by default, but as shown in FIG. 34, from the installation of multiple composite beams and multiple composite eaves on multiple composite columns on the start floor. Starting with the method described above, it is possible to complete a three-layered frame of three spaces, and as shown in FIG. 35, a frame higher than three layers may be made by using the intermediate layer as several layers.

10: starting layer composite column 11: triangular reinforcement hardware
12, 13: base plate 14: X-shaped reinforcing member
15: C-shaped connection member 16: ㅡ-shaped reinforcement hardware
17: top plate 20: starting layer composite girder
21: triangular reinforcement hardware 22: ㅑ-shaped connecting member
30: starting floor complex eaves 31: ∨-shaped reinforcement hardware
32: ㅑ-shaped connecting member 40: intermediate layer composite column
41: triangular reinforcement hardware 42, 43: base plate
44: X-shaped reinforcing member 45: C-shaped connecting member
47: anchor bolt 50: intermediate layer composite girder
60: middle layer composite eaves 70: top layer composite column
72: base plate 74: X-shaped reinforcing member
75: C-shaped connection member 76: ㅡ-shaped reinforcement hardware
77: anchor bolt 80: top layer composite girder
90: top-floor composite eaves 100: top-floor composite copper pillar
101: ∨-shaped reinforcement hardware 102: base plate
104: X-shaped reinforcing member 105: C-shaped connecting member
106: ㅡshaped reinforcement hardware 107: anchor bolt
110: lower composite copper pole 120: upper composite copper pole
130: composite bell 131: ∨-shaped reinforcement hardware
132: ㅑ-shaped connecting member 140: lower composite bell
150: upper compound bell

Claims (12)

In a way that wood is adhered to the surface of various steel materials used so that the steel structure is not exposed to the outside, composite columns, composite beams, composite eaves, composite copper pillars, and composite beams are used to form the starting layer and the middle layer. , As a frame of 3 floors with 1 compartment with the top floor,
In the starting layer frame, a composite column 10, a composite girder 20, and a composite eaves 30 are used and joined to form a frame,
In the middle layer frame, a composite column 40, a composite girder 50, and a composite eaves 60 are used and joined to form a frame,
In the top frame, a composite pillar 70, a composite beam 80, a composite eaves 90, a composite copper pillar 100, and a composite bell beam 130 are used and joined to form a frame,
The intermediate layer frame is installed on the starting layer frame,
The uppermost frame is installed on the middle layer frame,
The composite pillar 10 used for the starting layer frame is H-beam so that the bottom sides of the triangular reinforcement hardware 11 touch both ends of the H-beam flange and the vertices of the triangular reinforcement hardware 11 touch the center of the web. After reinforcing the triangular reinforcement hardware (11) on the upper and lower portions, the base plate (12) is attached to the lower portion of the H-beam, and another base plate (13) is attached to the upper portion of the H-beam, and is perpendicular to the upper base plate (13). After installing the X-shaped reinforcing member (14), it is formed by joining the wood in a □ shape on the surface of the H-beam,
Between the four side plates of the X-shaped reinforcing member 14, a C-shaped connection member 15 formed lower than the height of the X-shaped reinforcing member 14 by a predetermined height is coupled between the two consecutive side plates to reinforce the X-shaped The member 14 is coupled with four C-shaped connecting members 15, and bolt fastening holes are formed on the two side plates facing each other of the C-shaped connecting member 15, and the four C-shaped connecting members 15 Is formed by fixing each with a ㅡ-shaped reinforcing hardware (16) from the top, and then fixing the top plate (17) on the top of the X-shaped reinforcing member (14),
The composite girders 20 used for the starting layer frame are H-beams such that the bottom sides of the triangular reinforcement hardware 21 touch both ends of the H-beam flange and the vertices of the triangular reinforcement hardware 21 reach the center of the web. After reinforcing the triangular reinforcement hardware (21) on the left and right sides, install the k-shaped connecting member (22) at the left and right ends of the H-beam

It is formed by joining wood in a shape, and a bolt fastening hole is formed in the two side plates facing each other of the k-shaped connecting member 22,
On both side ends of the upper surface of the composite architrave 30 used in the starting layer frame when in the left and right ends of ㅁja shaped inner surface of a square steel pipe touches the apex of the reinforcing hardware 31 shaped ∨ the center ∨ shaped reinforcement ∨ shape so that the hardware (31) touches After reinforcing the reinforcing hardware 31, install the ㅑ-shaped connecting member 32 at the left and right ends of the square steel pipe reinforced with the ∨-shaped reinforcing hardware 31, and then

A frame of a multi-layered hybrid traditional wooden structure made of a steel structure, characterized in that it is formed by joining wood into a shape, and bolt fastening holes are formed on two side plates facing each other of the ㅑ-shaped connecting member (32). delete delete The method of claim 1,
Two opposite sides of the C-shaped connection member 15 of the upper X-shaped reinforcing member 14 of one composite column 10 between the two side plates facing each other of the ㅑ-shaped connecting member 22 of the composite girder 20 Two composite columns 10 and one composite girder 20 are integrally combined by inserting two side plates to fasten bolts between bolt fastening holes,
Facing the C-shaped connection member 15 of the upper X-shaped reinforcing member 14 of one composite column 10 between the two side plates facing the ㅑ-shaped connecting member 32 of the composite eaves 30 A multi-layered hybrid traditional wooden structure made of a steel structure, characterized in that two composite columns 10 and one composite eaves 30 are integrally joined by a method of fastening bolts between bolt fastening holes by inserting two side plates. The frame of the building. The method of claim 1,
The composite pillar 40 used for the intermediate layer frame is the same as the composite pillar 10 used for the starting layer frame, but after fixing the base plate 42 under the H-beam, an X-shaped under the base plate 42 It is added to fix the reinforcing member 44 and fix another base plate 43 at the lower end, and when the outer surface of one composite eaves 60 is viewed vertically in the forward direction, the lower base plate ( 43) A frame of a multi-layered hybrid traditional wooden structure made of a steel structure, characterized in that two anchor bolts (47) are installed on the left and right upper surfaces of the front end. The method of claim 1,
The composite pillar 70 used for the uppermost frame is the same as the intermediate layer composite pillar 40, but the height of the X-shaped reinforcing member 74 and the C-shaped connecting member 75 are the same, and one composite eaves ( When the outer surface of 90) is viewed vertically in the forward direction, anchor bolts 77 are installed at predetermined positions on the inner two surfaces of the four upper surfaces of the X-shaped reinforcing member 74, and the X-shaped reinforcing member 74 ) The top plate is not installed on the upper part, and two anchor bolts 77 are installed on the upper left and right sides of the front end of the base plate 72 under the composite column 70,
The composite copper column 100 used for the uppermost frame is a ∨ shape in the center of the lower surface of the inner surface of the ㅁ shape, which is the upper and lower ends of the rectangular steel pipe. The vertices of the reinforcing hardware 101 are touched and ∨ shaped on both sides of the upper surface ∨ shape so that the reinforcement hardware 101 touches After reinforcing the reinforcing hardware 101, the base plate 102 is joined to the upper end of the square steel pipe reinforced with the ∨- shaped reinforcement hardware 101, and wood is joined to the four sides of the square steel pipe to form,
An X-shaped reinforcing member 104 is installed on the upper surface of the base plate 102, and between two consecutive side plates of the four side plates of the X-shaped reinforcing member 104, the height of the X-shaped reinforcing member 104 is the same. The formed C-shaped connecting members 105 are each coupled to the X-shaped reinforcing member 104, and four C-shaped connecting members 105 are coupled, and two side plates facing the C-shaped connecting members 105 are bolted to each other. A fastening hole is formed, and each of the four C-shaped connection members 105 is fixed with a ㅡ-shaped reinforcing hardware 106 from the top, and anchor bolts ( 107),
The composite bell beam 130 used for the uppermost frame is a ∨ -shaped in the center of the lower surface of the ㅁ-shaped inner surfaces, which are the left and right ends of the square steel pipe. The vertices of the reinforcement hardware 131 are touched and ∨ shaped on both sides of the upper surface After reinforcing the ∨- shaped reinforcement hardware 131 so that the reinforcing hardware 131 touches, a ㅑ-shaped connecting member 132 is installed at the left and right ends of the square steel pipe reinforced with the ∨-shaped reinforcement hardware, and the top layer composite bellows 130 ), the lower composite bellows 140 and the upper composite bellows 150 are installed,
A lower composite copper pillar 110 is installed at each 1/4 point at each of the left and right ends of the composite girder 80 used for the uppermost frame structure, and one upper composite pillar 110 in the middle of the lower composite beam 140 ( 120) and a multi-layered hybrid traditional wooden structure made of a steel structure, characterized in that wood is joined to each of the four sides. The method of claim 6,
Of the X-shaped reinforcing member 104 on the upper side of the lower composite copper column 110 between the two side plates facing each other of the ㅑ-shaped connecting member 132 installed on the left and right sides of the one lower composite bell beam 140 Insert the two side plates facing each other of the C-shaped connection member 105 to fasten the bolts between the bolt fastening holes,
C-shaped of the X-shaped reinforcing member 104 above the upper composite copper column 120 between two side plates facing each other of the ㅑ-shaped connecting member 132 installed on the left and right sides of the one upper composite bellow 150 A frame of a multi-layered hybrid traditional wooden structure made of a steel structure, characterized in that two side plates facing each other of the connecting member 105 are inserted to fasten the bolts between the bolt fastening holes. delete delete delete delete delete

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