KR200361532Y1 - Girder for truss structure of edifice - Google Patents

Abstract

The present invention relates to the truss structural girders of the building, which is formed with a corresponding length between the pillars of the building and composed of structural aggregate wood for reducing the load and size of the girders and ease of the arch structure, but the coupling grooves at both ends Each formed and formed of an arc-shaped large aggregate material and the same structural aggregate wood and the large aggregate material is inserted into the coupling groove and fastened to each of the coupling grooves, but arranged at regular intervals above the middle portion of the large aggregate material. It has a curved treatment corresponding to the left / right end and the central portion is formed in the arc-shaped aggregate member formed integrally connected to the large aggregate material, and to be fastened across the large aggregate material and the large aggregate material to maximize the dispersion effect on the load A plurality of reinforcing frames having an inclined arrangement structure for the, and the large aggregated side connection of the small aggregates Min are respectively fastened to the beam characterized by comprising a connecting bracket that allows the connection between them when arranged a number of beams for the roof of a building formed.

According to the present invention, it is possible to efficiently cope with the load load of the roof to support the roof more securely.

Description

Truss girder for buildings {GIRDER FOR TRUSS STRUCTURE OF EDIFICE}

The present invention relates to a truss structural girders of buildings, and more particularly, to maximize the distribution of loads by efficiently distributing the load loads and self load loads on the roof of the building to improve the safety of the building It relates to a truss structural girder of a building so that it can be supplied at low cost.

Generally, beam refers to a thin and long rod that supports the lateral load among various structural components, and is a horizontal direction among the long and thin rods that constitute the architectural skeleton such as steel structure, reinforced concrete structure, and wood structure. It is placed to act mainly to support the lateral load in the direction perpendicular to the reaxial line (材 軸線).

In most cases, the beams of the building skeleton are rigidly bonded to the columns to form a ramen (hardening of the material joints, ie, the form or structure of the structure in which the reinforcing bars or steel frames are skeletons). In addition to supporting loads, the whole armature, along with the columns, also plays a role in configuring the performance to withstand horizontal wind loads and earthquake disturbances.

These beams are largely classified into girder beams, bell beams, marl beams, receding beams, and woomi-yang beams. The girder, which spans between the columns and the columns, has a significant influence on the structural design of the structure.

However, according to the related art, when constructing a structure having a certain size, it is common to use steel frame or reinforced concrete as a girder, which provides a disadvantage that the structural design of the building is not easy, and especially when constructing an arched roof structure. The construction itself was not easy and there was a difficult task.

In addition, the steel frame or reinforced concrete has a considerable weight and volume of its own and structurally have a significant load load, so there was a significant problem of giving a structural complexity for safety design.

Furthermore, in the related art, there is a problem in that a safety problem occurs due to concentration of loads as a disadvantage of not providing an even distribution force against load.

The present invention was devised to solve the above problems, and its purpose is to distribute the total load load on the roof including its own load to each part of the girder evenly and efficiently, It is to provide truss structural girders of the structure to enable distributed response optimization and to greatly improve the safety of the structure.

In addition, it is possible to reduce the load and volume of the girders as compared to the existing, to significantly reduce the burden of the building according to the total load load, and to provide a truss structural girders of the structure to facilitate the design of the arch structure. have.

Furthermore, it is to provide a truss structural girders of the building to reduce the production cost of the girders to significantly reduce the construction cost, but to improve the structural strength to withstand the load.

1 is a perspective view showing a girder according to the present invention.

Figure 2 is a state showing the front arrangement of the reinforcement frame in the present invention.

Figure 3 is a state showing the rear arrangement of the reinforcement frame in the present invention.

Figure 4 is an exploded perspective view of the main portion showing one side end of the mass collector in the present invention.

5 is a perspective view showing a state in which a plurality of girders of the present invention is connected by a beam connecting bracket.

6 is an exemplary view showing an example in which the girder of the present invention is applied to a building.

Explanation of symbols on the main parts of the drawings

100: girder 110: large gathering material

111: coupling groove 112: pillar coupling bracket

120: collecting member 130: reinforcing frame

140: bracket for beam connection 200: connection beam

300: roof top

The present invention for achieving the above object is formed with a corresponding length between the pillars of the building and composed of structural aggregate wood for reducing the load and size of the girders and ease of the arch structure, but the coupling grooves at both ends Formed and formed of an arch-type large-scale aggregate material and each of the coupling groove for coupling the pillar to the coupling groove, and the same structural aggregate timber as the large-scale aggregate material, but arranged at a predetermined interval above the middle portion of the large-scale aggregate material Correspondingly curved, but left and right ends and the central portion is formed to be integrally connected to the large aggregate material and the arc-shaped aggregate material to be fastened across the mass collector material and the aggregate material, while maximizing the dispersion effect on the load A plurality of reinforcing frames having an inclined arrangement structure for Results are formed characterized by comprising a beam connecting brackets to enable connection between them when arranged plurality of beams for forming the roof construction.

In addition, the reinforcement frame is formed so as to face the outer side facing each other from the center portion of the girders so that the efficient distribution response to the load load to be arranged in the front side of the girders, and to face the center portion of the girders It is formed to be inwardly inclined so as to be arranged on the other side of the girder.

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

1 is a perspective view showing a girder according to the present invention, Figure 2 is a state diagram showing the front arrangement of the reinforcement frame in the present invention, Figure 3 is a state diagram showing the rear arrangement of the reinforcement frame in the present invention, Figure 4 Figure 5 is an exploded perspective view showing the main end portion of the large collection material in the present invention, Figure 5 is a perspective view showing a state in which the girder of the present invention is connected by a plurality of beam connecting brackets, Figure 6 is applied to the girder of the present invention building It is an exemplary view showing an example of being.

As shown in Figure 1 to 6, the truss structural girders 100 of the building according to the present invention is formed with a corresponding length between the pillars (P1, P2) of the building and the reduction of the load and size of the girder and the arch ( For ease of structure, the arch-shaped large aggregate material (大 集成材) consisting of laminated laminated wood (大成 成材) 110, and the same structural aggregate wood as the large aggregate material 110, but the large aggregate material It is disposed at a predetermined interval above the middle portion of the 110 and has a curved line corresponding to the large-scale material 110, but the left / right ends 121 and 122 and the central portion 123 are integrally connected to the large-scale material 110. The arch-shaped gathering member 120 and the large gathering member 110 and the gathering member 120 are fastened to each other, but have an inclined arrangement structure for maximizing the dispersing effect on the load. A plurality of reinforcement frame 130, It is fastened to the connecting portion (121, 122, 123) of the large aggregate member 110 side of the small aggregate member 120 to the beam connection bracket 140 to enable the connection between each other when placing a plurality of girders for forming the roof of the building Is done.

In this case, coupling grooves 111 are formed at both side ends of the large-scale material 110, and fastening holes 111a are formed at the coupling grooves 111, and brackets for pillars are coupled to the coupling grooves 111. Each of the 112 is inserted into the fastening means 113 by the fastening means 113 of the bolt and nut. At this time, the pillar coupling bracket 112 is made of an integral configuration of the coupling groove insertion side and the pillar coupling side, but is coupled to the large aggregate material 110 side to the structure to form a plurality of coupling holes (112a) becomes the component. In addition, as shown in FIG. 6, it is possible to engage and fix the large-scale material 110 between the pillar P1 and the pillar P2 of the building.

Here, the large aggregate material 110 can be significantly reduced the weight and volume of the girders compared to the steel frame or reinforced concrete used in the structure of structural aggregate wood, thereby reducing the burden on the load load and arch Not only the structure can be easily expressed, but also the dispersion effect of the load due to the formation of the arch structure can be induced.

The gathering member 120 is also a structure for the coupling arrangement of the reinforcement frame 130, but in addition to the inclination arrangement structure of the reinforcement frame 130 to induce the left / right dispersion of the load load in the middle portion of the girders 100 This is to prevent concentration of the load on one part.

The reinforcing frame 130 is a configuration of the steel beam, the front side of the girders 100, as shown in Figure 2 to form an outward inclination to face each other starting from the center portion of the girders 100, that is, the left side to the left The right side is inclined and the right side is disposed to be inclined to the right side. Alternatively, the other side of the girder 100 forms an inward inclination toward the central portion of the girder 100 as shown in FIG. Allow it to be inclined to the left. It is an arrangement structure that induces even distribution of load loads, which prevents the concentration of one part of the load loads, thereby improving the load capacity of the load loads.

As shown in FIG. 5, the beam connecting bracket 140 has a cross-beam girder 100 coupled to a plurality of beams when the cross beams are coupled between the pillars P1 and the pillars P2 to form the foundation of the building roof. Girder connecting beam 200 for the longitudinal connection of the girders (100), which are constructed in a number of in that it has a longitudinal connection through the connecting beams 200 to improve the load resistance and implement safety The (100) side of the coupling is fixed while supporting the action.

On the other hand, laminated wood constituting the large aggregate material 110 and the small aggregate material 120 refers to the wood bonded or processed by collecting a plate or a small square material, the plate material having a predetermined thickness of the plate pattern direction After laminating accordingly, the adhesive is applied and pressed, which is characterized by no bending deformation caused by any physical element. These aggregates are classified into indoor, outdoor, and structural, depending on their use. Structural aggregates have the advantages of high strength and excellent strength against loads and other physical forces.

Building truss structural girders 100 according to the present invention made of this configuration is fastening the column coupling bracket 112 between the pillars (P1) and the pillars (P2) to form the roof of the arch-type massive material 110 By lateral coupling / fixing between the pillars (P1, P2) to make the girders (100) transversely coupled to the size of the roof.

When the lateral coupling of the girders 100 is completed, both ends of the connecting beams 200 are coupled / fixed to the beam connecting bracket 140 to simultaneously form a longitudinal connection structure of the girders 100 having a transverse structure. To be. At this time, the auxiliary frame is fastened to induce the distribution of the load by inclining the opposite sides of the connecting beam 200 to induce load distribution, the connecting beam 200 may be a structure of a metal frame or the girders of the subject innovation It may be a structure of structural aggregate wood such as the large aggregate material 110 and the small aggregate material 120 of (100).

The arch-shaped girder 100 according to the present invention is constructed between the pillars P1 and the pillars P2 of the building, and when the structure of the roof is completed by the connection construction of the connecting beam 200, the roof top plate ( 300 fit together to form a roof.

As the roof is formed, the roof and structural loads are generated in the building, and the loads are arranged by the arrangement of the reinforcement frame 130 having an arch-type large gathering member 110 and the small gathering member 120 and an efficient load distribution structure. By evenly dispersing, it is possible to prevent the concentration of load and to facilitate the distribution response to the load. Therefore, the present invention provides usefulness for supporting the roof of the building more safely.

As described above, according to the truss structural girders of the building according to the present invention, the overall load load for the roof including its own load is distributed evenly and efficiently to each part of the girders, thereby optimizing the distributed response to the load load. It has an effect that can greatly improve the safety of the building.

In addition, it is possible to reduce the internal load and volume of the girders as compared to the existing, greatly reducing the burden of the building according to the overall load load, and there is an effect that can easily promote the design of the arch structure.

In addition, the production cost of the girders becomes cheaper, and therefore, the construction cost can be greatly reduced, and the roof can be more safely supported by the structural strength improvement to withstand the load.

Claims (2)

It is formed with a length corresponding to the pillars of the building, and is composed of structural aggregate wood for reducing the load and size of the girders and ease of the arch structure. Arch type large laminated material which is inserted and fastened respectively, Consists of the same structural aggregate wood with the large aggregate material, but is arranged at a predetermined interval above the middle portion of the large aggregate material and has a curved line corresponding to the large aggregate material, and the left / right ends and the central portion are integrally formed with the large aggregate material. With the arched compactive material, A plurality of reinforcing frames to be fastened across the large and small aggregates and having an inclined arrangement structure for maximizing the dispersion effect on the load; The truss structural girders of the building, characterized in that the fasteners are formed on each side of the large gathering material of the gathering material is fastened to each other when the plurality of girders for the roof formation of the building arrangement to enable the connection between the beams. The method of claim 1, The reinforcement frame is formed so as to face outwardly from the center of the girders to face the center portion of the girders so as to effectively distribute the load to the load, and to be disposed on the front side of the girders, and inwardly toward the center of the girders. Truss structural girders of buildings, characterized in that formed to be inclined to be arranged on the other side of the girder.