KR101762206B1 - Structure for reinforcing member of space frame and pipe truss - Google Patents

Abstract

The present invention provides a stiffener comprising: a stiffener disposed in a plurality of positions along a circumference of a member, the stiffener being positioned such that both sides of the stiffener face each other; And a fastening member which is fastened to a portion where the reinforcing members are in surface contact with each other to thereby join the stiffeners to each other so that the stiffeners resist deformation of the member members. will be.
According to the present invention, reinforcement such as deformation prevention can be made possible only by assembling a member of a space frame or a member of a pipe truss. Further, after the assembling, the reinforcement strength can be greatly increased by the minimum welding, It is possible to greatly contribute to securing the ease of operation and safety of the reinforcement work and to shorten the length of air and to prevent heat damage due to welding to existing member members and to provide a reinforcing structure of excellent quality And securely adheres to the member member, thereby securing the stability and structural reliability of the space frame and the pipe truss structure.

Description

Technical Field [0001] The present invention relates to a member structure of a space frame and a pipe truss,

BACKGROUND OF THE INVENTION Field of the Invention [0002] The present invention relates to a member frame reinforcing structure of a space frame and a pipe truss, and more particularly, to a space frame and a member member reinforcing structure of a pipe truss for reinforcing member members constituting a structure of a pipe truss.

In general, the space frame is a type of three-dimensional truss construction method, and is widely used in large structures such as steel towers, bridges, and symbol towers, as well as roof frames of various buildings such as gymnasiums, swimming pools, exhibition halls, factories and warehouses .

Conventional space frames constitute member members such as upper and lower ends and inclined members formed by integrally welding cone members to both ends of a long cylindrical steel pipe, and by joining such member members to a ball member, trusses are completed , And the bolt provided at the end of the member member is screwed into a screw groove formed in the ball member, whereby the member member and the ball member are coupled to each other.

As the roof structure of the roof is aged, the structure is deformed by the factors of warming and load change (wind load, snow load, corrosion and thermal deformation), which poses a safety risk. Therefore, it is necessary to reinforce this.

As a conventional pipe reinforcing technique, Korean Patent Laid-Open No. 10-2002-0070267 entitled "Tubular structure reinforcing member having thermally expandable foam material" has been proposed. This reinforcing member accommodates a thermally expandable reinforcing material. And a fastener for mechanically fixing the reinforcing material to the carrier. The tubular carrier preferably has a continuous arcuate wall, and the reinforcing material is received outside thereof. Examples of the reinforcing material include a plurality of longitudinally spaced annular elements, elongated sleeves, or prismatic elements.

However, such a conventional technique has a problem that it is practically impossible to actually apply to the reinforcement of the member member used in the space frame or the pipe truss structure.

In addition, as other prior arts, techniques for preventing member member deformation of a space frame or a pipe truss structure include a flat plate reinforcement technique in which a reinforcing plate is welded to a member member along a longitudinal direction, Angle brazing technique for welding angles, square bending reinforcement technique for welding the reinforcing bending plate along the longitudinal direction to the member member, and round bending reinforcement technique for welding the reinforcing lining bar along the longitudinal direction to the member member.

However, these other conventional techniques have the following problems, because the reinforcing member is welded to the member member.

First, due to the thinness of the pipe member and the thickness of the member, high heat of the welding causes a hole to be formed in the welding, thereby requiring a high degree of skill.

Second, the member member is easily bent due to the heat deformation due to the high temperature of the welding, and the member member is easily deformed by welding high temperature under the condition of tensile and compressive stress.

Third, since it is necessary to weld for a long time at high altitude, the workability is lowered, and the danger is increased, and the safety of workers is greatly deteriorated.

Fourthly, it can not be easily applied to a space frame or a pipe truss structure.

In order to solve the problems of the prior art as described above, the present invention contributes greatly to enhancement of reinforcement of member members constituting a space frame or a pipe truss structure, and contributes greatly to securing ease and safety of reinforcement work, And it is an object of the present invention to provide a reinforcing structure of excellent quality by preventing heat damage due to welding to existing member members.

Other objects of the present invention will become readily apparent from the following description of the embodiments.

According to an aspect of the present invention, there is provided a reinforcement structure for a member member constituting a space frame or a pipe truss, the reinforcement structure comprising a plurality of members arranged along a periphery of the member, A stiffener positioned so as to lie along the longitudinal direction of the member; And a fastening member for fastening the stiffener to each other by being fastened to a portion where the stiffener is in face contact with each other so that the stiffener is resistant to deformation of the member member. do.

The reinforcing member may be formed with a curved portion having a curvature in cross section so as to surround the periphery of the member, and may be bent at both sides of the curved portion for surface contact with other reinforcing members to form a surface contacting portion in the longitudinal direction.

Wherein the reinforcing member has a cross section of a " C "shape so that a first space portion is formed on the inner side, and the member member is inserted into the first space portion; And a cross section of a "C" shape so that the second space portion formed on the inner side is inserted into the first space portion so as to face outward so that the outer side surfaces of both sides are in surface contact with the first space portion, And a sub-folding member that closely contacts the inner side of the first space portion.

And a lock plate which is formed of a plurality of members arranged vertically around the end of the member and supports an end of the reinforcement member and is fixed to the member and the reinforcement member by welding.

By forming the grooves, the lock plates form an opening for inserting the member into the central portion when a plurality of the grooves are arranged, and the plurality of grooves have a disk or a rectangular plate shape having the opening at the time of disposition, The contact extension portion may be formed to protrude for extension of the portion.

The fastening member may include a fastening bolt and a fastening nut that are screwed into fastening holes formed to coincide with portions where the reinforcing members are in contact with each other.

According to the member member reinforcing structure of the space frame and the pipe truss according to the present invention, it is possible to reinforce the member such as the deformation prevention by simply assembling the member constituting the structure of the space frame or the pipe truss. Further, It is possible to greatly improve the reinforcement strength by welding and to contribute to ease of reinforcement work and safety and to shorten the air shortage and to prevent heat damage due to welding to the existing member member, It is possible to provide a reinforcing structure of excellent quality and to securely adhere to the member member, thereby securing the stability and structural reliability of the space frame and the pipe truss structure.

1 and 2 are perspective views illustrating a process of installing a member frame reinforcing structure of a space frame and a pipe truss according to a first embodiment of the present invention.
FIGS. 3 to 5 are perspective views illustrating an installation process of a member frame reinforcing structure of a space frame and a pipe truss according to a second embodiment of the present invention. FIG.
6 to 8 are perspective views illustrating an installation process of a member frame reinforcing structure of a space frame and a pipe truss according to a third embodiment of the present invention.

The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated and described in detail in the drawings. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but is to be understood to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention, And the scope of the present invention is not limited to the following examples.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings, wherein like or corresponding elements are denoted by the same reference numerals, and redundant explanations thereof will be omitted.

1 and 2 are perspective views illustrating a process of installing a member frame reinforcing structure of a space frame and a pipe truss according to a first embodiment of the present invention.

1 and 2, the member member reinforcing structure 100 of the space frame and the pipe truss according to the first embodiment of the present invention is for reinforcing a member constituting a space frame or a pipe truss. For example, A reinforcing member 110 and a fastening member 120 may be included as a reinforcing method when the reinforcing member 10 and the reinforcing member 110 adhere closely to each other. Here, the member 10 may be a tubular member having a coupling portion at both ends, or may be a member having various structures used for a space frame or a structure of a pipe truss.

A plurality of stiffeners 110 are disposed along the periphery of the member member 10 such that the opposite sides of the stiffener member 110 are in surface contact with each other. Each of the stiffeners 110 is disposed along the longitudinal direction of the member member 10, However, the number of the members 10 is not limited thereto, and the number of the members 10 may be varied according to the diameter of the member 10. Also, the stiffener 110 may have a length that is suitable for exposing the end of the member member 10, and may be arranged in a line by dividing the stiffener 110 into a plurality of pieces as necessary.

The reinforcement member 110 may be formed with a curved portion 111 having a curved cross section so as to surround the periphery of the member member 10 and may be formed on both sides of the curved portion 111 for surface contact with the other reinforcement member 110. [ So that the surface contact portion 112 can be formed in the longitudinal direction.

The fastening member 120 is fastened to a portion where the stiffener 110 is in face-to-face contact with each other, so that the stiffeners 110 are engaged with each other so that the stiffener 110 is resistant to deformation of the member 10. The fastening member 120 may be made of various members having various shapes and structures including brackets for fastening the surface contact portions 112 to each other, rivets or fitting members, etc., where the reinforcing members 110 are in surface contact with each other, A fixing bolt 121 screwed to a fastening hole 113 formed to coincide with a portion where the reinforcing members 110 are in contact with each other, for example, a surface contacting portion 112, and a fixing nut 122). Here, the fixing bolt 121 may be a high-tension bolt. On the other hand, the reinforcing member 110 can be brought into close contact with the member member 10 by fastening the fastening member 120.

FIGS. 3 to 5 are perspective views illustrating an installation process of a member frame reinforcing structure of a space frame and a pipe truss according to a second embodiment of the present invention. FIG.

3 to 5, the member member reinforcing structure 200 of the space frame and the pipe truss according to the second embodiment of the present invention is used for reinforcing the member member 10 constituting the structure of the space frame or the pipe truss The reinforcing member 210 is advantageous in the case where the reinforcing member 210 is larger than the member member 10 as a reinforcing method when the member member 10 and the reinforcing member 210 are not in close contact with each other. ) Can be used.

The member member reinforcing structure 200 of the space frame and the pipe truss according to the second embodiment of the present invention is constructed such that the space frame and the pipe truss 200 according to the first embodiment of the present invention, Member member reinforcing structure 100 of the truss may include a stiffener 210 and a fastening member 220 and the stiffener 210 may have a curved portion 211 and a surface abutting portion 212, The member 220 may include a fixing bolt 221 and a fixing nut 222 that are fastened to the fastening hole 213 formed in the surface contacting portion 212 of the stiffener 210. [ In the member frame reinforcing structure 200 of the space frame and the pipe truss according to the second embodiment of the present invention, in the same portion as the member frame reinforcing structure 100 of the space frame and the pipe truss according to the first embodiment of the present invention Description thereof will be omitted. However, the reinforcing member 210 does not necessarily come into contact with or contact with the outer surface of the member 10 by fastening the fastening member 220.

The lock plate 230 is made of a plurality of members arranged so as to be perpendicular to the end of the member member 10 and supports the end of the stiffener 210 and is fixed to the member member 10 and the stiffener 210 by welding . The lock plates 230 may be fixed to each other by welding, and as another example, they may be fixed to each other by bolting or a separate member. Each of the lock plates 230 is formed with a groove 231 to form an opening for inserting the member member 10 at the central portion when a plurality of the lock plates 230 are arranged and can have a disk shape having an opening at the time of arrangement, The contact extension portions 232 are formed so as to protrude for expanding the portions 233 which are in contact with each other, thereby expanding the supporting force between them. The lock plate 230 may be provided at one end of the member 10 as well as at the other end to limit the bi-directional movement of the stiffener 210.

6 to 8 are perspective views illustrating an installation process of a member frame reinforcing structure of a space frame and a pipe truss according to a third embodiment of the present invention.

6 to 8, the member member reinforcing structure 300 of the space frame and the pipe truss according to the third embodiment of the present invention is for reinforcing the member member 910 constituting the structure of the space frame or the pipe truss The stiffeners 310 and 320, and the fastening member 330, and may additionally include a lock plate 340. [

The reinforcing members 310 and 320 have a cross section in the shape of a letter C to form a first space portion 312 on the inside and a main bent member 310 in which the member member 10 is inserted into the first space portion 312, And the second space portion 322 formed on the inner side is inserted into the first space portion 312 so that the outer side surfaces of the first space portion 312 and the second space portion 312 are spaced apart from each other, And a sub-folding member 320 which is in surface contact with the first member 312 and faces the member member 10 inwardly of the first space 312. Here, the sub-folding member 320 is inserted into the first space portion 312 so that the second space portion 322 faces outwardly, thereby facilitating fastening of the fastening member 330. Also, the reinforcing members 310 and 320 may have a length that is suitable for exposing the end of the member member 10, and may be arranged in a line by dividing each of the reinforcing members 310 and 320 into a plurality of pieces as necessary.

The fastening member 330 includes a fastening bolt 331 and a fastening nut 332 that are screwed into fastening holes 311 and 321 respectively formed to correspond to the portions where the main bending member 310 and the sub- . Here, the fixing bolt 331 may be a high tension bolt.

The member frame reinforcement structure of the space frame and the pipe truss according to the second embodiment of the present invention, such as each of the groove portions 341, except that the lock plates 340 have the shape of a rectangular plate when arranged with respect to each other Is the same as that of the lock plate 230 of the lock plate 200, and thus description of the same portions will be omitted. It is of course also possible to form a contact extension 232 (see FIG. 3) in each of the lock plates 340, like the lock plate 230 of the previous embodiment.

According to the member frame reinforcing structure of the space frame and the pipe truss according to the present invention, reinforcement such as deformation prevention can be made possible only by assembling the member constituting the structure of the space frame or the pipe truss. Further, The beam strength can be greatly improved by minimum welding.

Further, according to the present invention, it is possible to greatly contribute to securing easiness and safety of reinforcement work and shortening of air, and to prevent heat damage due to welding to existing member members, It is possible to provide a reinforcement structure and securely adhere to the member member, thereby securing the stability and structural reliability of the space frame and the pipe truss structure.

Although the present invention has been described with reference to the accompanying drawings, it is to be understood that various changes and modifications may be made without departing from the spirit and scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

10: member member 110, 210: stiffener
111, 211: curvature portion 112, 212:
113, 213: fastening holes 120, 220, 330:
121, 221, 331: Fixing bolts 122, 222, 332:
230, 340: Lock plate 231, 341:
232: contact extension part 233: contact part
310: main bending member 311: fastening hole
312: first space part 320: sub-
321: fastening hole 322: second space portion

Claims (6)

As a reinforcing structure of a member member constituting a space frame or a pipe truss,
A plurality of reinforcing members disposed along the circumference of the member and positioned so that both sides of the reinforcing member are in contact with each other;
A fastening member for fastening the stiffener to a portion where the stiffeners are in contact with each other to join the stiffeners to each other so that the stiffener is resistant to deformation of the member;
A lock plate having a plurality of members vertically arranged around an end of the member and supporting an end of the reinforcement member and fixed to the member and the reinforcement member by welding;
Member frame structure of a space frame and a pipe truss. The method according to claim 1,
The stiffener
A member of a space frame and a pipe truss in which a curved portion having a curved cross section is formed so as to surround the periphery of the member member and a surface contact portion is formed in the longitudinal direction by being bent at both sides of the curved portion for surface contact with other reinforcing members. Member reinforcing structure. The method according to claim 1,
The stiffener
A main bent member in which a first space portion is formed on the inside by having a cross section of a "C" shape, and the member is inserted into the first space portion; And
The second space portion formed on the inner side is inserted into the first space portion so as to face outward so that the outer side surfaces of both sides are in surface contact with the first space portion by having the cross section of the "C" shape, A sub-folding member which is in close contact with the inside of the first space portion;
Member frame structure of a space frame and a pipe truss. delete The method according to claim 1,
Wherein the lock plate comprises:
By forming the respective grooves, an opening is formed such that the member member is inserted into the central portion when a plurality of the grooves are arranged, and a plurality of grooves are formed in the shape of a circular plate or a square plate having the opening, Member member reinforcing structure of the space frame and the pipe truss are formed such that the contact extensions are protruded. The method according to any one of claims 1 to 3,
The fastening member
And a fixing nut screwed to a fastening hole formed so as to coincide with a portion where the reinforcing members come into contact with each other, and a fixing nut.

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