KR100664874B1 - The truss - Google Patents

Abstract

A truss with a piped web is provided to be assembled easily without special function in a construction site by manufacturing in a factory, to be carried easily by carrying each member at the dismantled state and to be installed easily without using heavy equipment by connecting with another truss using a buckling reinforcement. A truss with a piped web comprises an upper chord(10) formed in the T-shape and provided with a hole(11) to penetrate a coupling bolt, a lower chord installed parallel to the upper chord, a piped web(30) coupling the upper and lower chords by a bolt(36), an inner pipe(31) inserted to the top or bottom of the web to reinforce a joint of the chords and the web and provided with a projection to hang on the top and bottom of the web, a groove to house a portion of the chords and a hole to penetrate a bolt, and a buckling reinforcement installed to reinforce the buckling load of the web.

Description

Truss made of pipes {The truss}

1 is an elevational view of the truss of the present invention.

2 is a partial perspective view of the truss of the present invention.

3 is an enlarged cross-sectional view of the truss of the present invention.

4 is an assembly view of the truss of the present invention.

5 is an example of use of the truss of the present invention.

Fig. 6 is a plan view showing a truss of the present invention and an example of use thereof.

7 is a use example of a buckling stiffener used in the truss of the present invention.

8 is a plan view and a cross-sectional view of another example of use of a buckling stiffener used in the truss of the present invention.

<Description of the symbols for the main parts of the drawings>

10: upper present 20: lower current 30: steel pipe web

31: inner tube 36: coupling bolt 40, 40a: buckling stiffener

The present invention relates to a truss for use in the construction of buildings. More specifically, because it is made to a certain size, it is light and easy to carry, it can be easily made to the desired shape in the field, and it can be assembled without special functions because each member is bolted together. It relates to a truss that can be used in combination with a truss.

Generally, trusses are a type of structure or structure in which horizontal, vertical, and diagonal linear members are combined in the form of triangles or other polygons so that the long span of the ceiling, roof, or pier is structurally and mechanically supported. It is classified as bridge truss, roof truss, strut truss, etc., and it is one of very widely used building construction materials classified into three-dimensional truss and flat truss according to the assembled form.

The truss normally determines the dimensions of the web, top and bottom of the web by structural calculation, and each member is transported to the construction site by welding or bolting at the manufacturing plant. The truss in the assembled state is large and heavy, so it is difficult to transport, and it is time-consuming and expensive because it is required to install using heavy equipment even when installed in the field.

If it is manufactured, transported, assembled and installed in each member unit of the truss, each member is light, and it is very convenient if the worker can simply assemble the bolt without any special function, but it is still difficult to find a truss to meet these demands.

An object of the present invention is to provide a truss that can be easily assembled without a special function in the construction site.

Still another object of the present invention is to provide a truss that is easy to transport by transporting each member in a disassembled state.

Still another object of the present invention is to provide a truss that can easily cope with where a large load is required by combining the trusses in parallel.

The present invention uses the T-shaped steel for the upper and lower chords, and the web can be easily manufactured by selecting a standardized one in the market using steel pipes or tubes.

In addition, in the present invention, even if the base truss is made small in size, where two or three trusses of the present invention are combined in parallel where a large load is applied, the truss can cope with a large load.

In addition, the present invention also provides a means for reinforcing buckling because the length of the web consisting of pipe material can be more vulnerable to buckling than the strength of the web material.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described with reference to the drawings.

1 is an elevational view of the truss of the present invention, FIG. 2 is a partial perspective view of the truss of the present invention, FIG. 3 is an enlarged cross-sectional view of the truss of the present invention, and FIG. 4 is an assembled view of the truss of the present invention.

The truss of the present invention is composed of an upper chord 10, a lower chord 20, a steel pipe web 30 for coupling the upper chord, the lower chord. If necessary, an inner tube 31 for reinforcing the joint of the steel pipe web and the buckling stiffener 40 for reinforcing the buckling load of the web can be added.

The upper chord 10 is formed long in the longitudinal direction and has a T-shaped cross section. Where it is engaged with the web, a hole 11 is formed so that the coupling bolt can pass through.

Below the upper chord 10 is provided a lower chord 20 arranged in parallel with a predetermined interval. The lower chord has the same structure as the upper chord and differs only in position.

The cross-sectional sizes of the upper chord 10 and the lower chord 20 are determined by structural calculation. The upper and lower chords use T-beams. T-beams may be made by cutting the steel plate or by cutting flanges from H-beams.

The upper and lower chords are not necessarily limited to T-shaped steels, but any member having a protrusion may be formed to be combined with a steel pipe web.

Steel pipe web 30 is coupled to the upper chord 10 and the lower chord 20 by a bolt 36. The web can be replaced with steel or steel tubes, wood or plastic instead of steel depending on the degree of load and the application.

At the top and bottom of the web, grooves are formed to receive the present, and holes are formed for the bolts to pass through.

The bolting of the web and the present is intended to allow the workman to work without any special features.

The inner tube 31 can be further inserted at the top or bottom of the web to make the web and current engagement stronger. The inner tube is installed at the top or bottom of the web. The inner tube has a smaller diameter than the web, and is combined into the web, but a jaw is formed at the top to hang on the upper and lower ends of the web, and a groove is formed at the upper portion of the inner tube to accommodate a portion of the current, and a hole is provided to allow the bolt to penetrate. Formed.

The material of the inner tube may be made of iron like the material of the web, or various materials such as plastic and wood may be used.

The web uses steel pipes, but because of its large size, that is, its length is long compared to the width of the material, the compressive strength is greatly reduced due to buckling. In order to prevent this phenomenon, webs are connected to each other to prevent a decrease in compressive strength due to buckling. The buckling stiffener 40 is installed to connect the webs together.

As shown in Figs. 1 and 7, the buckling stiffener forms a groove corresponding to the web so as to receive the web in the middle and bolt holes to be bolted at both ends.

5 shows an embodiment in which the basic trusses are horizontally connected in parallel. If the load on the truss is increased, it can be used by connecting two or three or more trusses if it cannot support as one truss. When the truss is connected, the buckling stiffener 40 of FIG. 7 is used so as to integrally behave.

6 shows another embodiment of parallel connection of trusses. By connecting the web with each other by the deformed left spherical reinforcement (40a) it is possible to further strengthen the connection. Deformed buckling reinforcement (40a) formed a groove that can receive the web on both sides and formed a hole to penetrate both ends. And when combined, the longitudinal groove is formed in the middle so that the buckling stiffener is coupled to each other.

According to the present invention, since the truss is manufactured at the factory and transported by the member unit, the truss has a small volume to be transported and thus is easy to transport. In addition, since each member manufactured in the factory only needs to be joined by bolts, the assembly can be installed without any special function.

In addition, depending on the load state, two or three or more trusses can be connected to each other using buckling stiffeners and can be easily installed even without heavy equipment.

Claims (4)

Phase current having a T-shaped cross section; Lower chord cross-section inverted T-shaped; And And a groove through which the upper chord and the lower chord are inserted to form a hole through which the bolt passes, and the steel pipe web coupled to the upper chord and the lower chord by the bolt. A groove is formed in the upper middle portion and the upper end is protruded and the inner tube having a hole for bolts in the middle portion of both sides; further comprising, inserting the inner tube in the upper and lower portions of the steel pipe web to the steel pipe web Truss characterized in that coupled to the upper and lower chords. In claim 1, And a plurality of buckling stiffeners arranged to space apart the plurality of steel pipe webs between the upper and lower chords, and connecting the spaced steel pipe webs to each other. The method of claim 1 or 2, Two or more said trusses in parallel, and the truss characterized by connecting the steel pipe web and steel pipe web of the parallel truss with buckling reinforcement. In claim 3, The buckling stiffener connecting the steel pipe web and the steel pipe web of the parallel truss is arranged to form an X-shape by connecting the steel pipe web and the steel pipe web to cross each other.

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