KR20200086206A - Structure of joints of the steel beams in the upper and lower ground reinforcing shear force with the combination of projection and acceptance plate in the NATM - Google Patents

Abstract

A shear reinforcing structure in an NATM method is fastened by a pre-fastening bolt in a symmetrical structure with respect to a joint of a steel support material. The shear reinforcing structure is stable with respect to a bending moment of ground force, but is in a state having a shortage with respect to shearing fore. A size of the shortage of a shearing area is equal to or less than a size of a shearing area of one fastening bolt. In a state in which the pre-fastening bolt is maintained itself while the pre-fastening bolt in the symmetrical structure is presupposed, a pair of additional shear reinforcing parts in the symmetrical structure are only formed without the additional fastening bolt. Therefore, the shear reinforcing structure can efficiently and economically implement expansion and reinforcement with respect to the shortage of the shearing area by the simple structure.

Description

Structure of joints of the steel beams in the upper and lower ground reinforcing shear force with the combination of projection and acceptance plate in the NATM}

The present invention relates to the shear reinforcement structure for the insufficient area of the shear area of the steel reinforcement joint part by the ``one additional shear reinforcement part'' in the NATM method, and the joint part of the steel reinforcement is fastened by a pre-tightening bolt of a symmetrical structure. A stable structure with respect to the bending moment of the force, or a lack thereof in the shear force, and the size of the lack of the shear area is less than or equal to the size of the shear area of the one fastening bolt, and presupposes the previously fastened bolt of the symmetrical structure. However, the expansion and reinforcement of the shortage of the shear area is efficiently and economically achieved by the simple structure by forming the ``one set of additional shear reinforcement parts'' of a symmetrical structure without additional fastening bolts, while the fastening bolts remain intact. It is related to the invention made.

More specifically, the "one set of additional shear reinforcements" of the symmetrical structure formed on both sides of the flange portion of the steel reinforcement joint portion has a "protrusion" at a right angle to one flange portion and a "accommodating portion" to accommodate it. ”, and the “protrusions” and “acceptances” form symmetrical structures with respect to mm or nn, respectively, and the shortage of the shear area is enlarged/reinforced by a simple coupling structure between the “protrusions” and “acceptances”. This is done efficiently.

In addition, the ``one set of additional shear reinforcement'' of the lattice support and CFT steel pipe support is made by a circular projecting bonding shear plate and a circular receiving bonding shear plate, but the circular projection bonding shear plate and the circular receiving bonding shear plate are symmetrical with respect to nn or mm. The structure is made to efficiently support the shear force of the joint.

In addition, the ``one set of additional shear reinforcements'' of the H support is made of a quadruple projecting joint shear plate and a quadruple receiving joint shear plate, but the quadruple protruding joint shear plate and a quadruple receiving joint shear plate are symmetrical with respect to the mm axis. It is a useful invention that enables the shear force support of the joint portion to be efficiently made by being.

The NATM method is a method in which tunnel excavation is performed first and then ground support is followed. The steel reinforcement is designed by the bending moment of the initial load of the excavation ground. This is to ensure a stable support structure against the initial load and initial deformation of the excavated ground.

Gangjijae is divided into segments and manufactured. This is to facilitate mass production of factories, to be economical, and to facilitate transportation and installation.

In the case of segment production, the formation of a joint portion is inevitable. Three joints are formed in the arch-shaped river support. The three joints are the tip joint (JC) and the upper and lower joints (J1) (J2) (see Fig. 1).

The joint portion (JC) (J1) (J2) is fastened by a fastening bolt. The bending moment and shear force are supported by the fastening bolt of the joint portion by the fastening bolt.

Since the joint portion of the fastening bolt is designed by the maximum bending moment, the support for the maximum bending moment by the fastening bolt of the joint portion is sufficiently stable without lacking. However, even if the fastening bolt of the joint portion has a stable structure with respect to the maximum bending moment, the fastening bolt does not have a stable structure with respect to the leaflet. The leaflet of the fastening bolt is not enough and there will be a shortage. This is because the bending moment and the shear force are opposite to each other. That is, the maximum point of the bending moment is more so because it is the minimum point of the shear force.

At this time, the deficiency (Δ) of the shear force is less than the size of the shear area of the one fastening bolt. The present invention is intended to expand and reinforce the target deficiency (Δ) by expanding and reinforcing, but without the use of additional fastening bolts, by the “one set of additional shear reinforcement” structure.

According to Figures 3c and 3d, the fastening bolt of the joint portion has a symmetrical structure on the m-m or n-n axis. At this time, the fastening bolts (a)(b) of FIG. 3C and the fastening bolts (a1) ((a2)(b1)(b2) of FIG. 3D are the fastening bolts of the joint part in this state, to the'additional fastening bolts'. This will be referred to as the "group fastening bolt".

If one additional fastening bolt is added to the "group fastening bolt" in FIGS. 3C and 3D, there is a problem that a new symmetrical structure adjustment operation is followed. This is because the (new) symmetrical structure of the fastening bolt is effective for bending moments and leaflets.

The three joints (JC) (J1) (J2) of the steel complement are shown in FIG. 1.

The shear force coming from the ground is supported by fastening bolts (a) (b) fastened perpendicularly to the coupling plate (P) (Q) of the joint portion of Figure 3c.

The CFT steel pipe support is the same as the lattice support. The shear force is supported by fastening bolts fastened to the three joint portions (JC) (J1) (J2) at right angles.

According to FIG. 4A, the upper and lower joint portions J1 of the CFT steel pipe support member are the flange portion FA2 of the upper half-section CFT steel pipe support material 100A and the flange portion FB1 of the lower half-section CFT steel pipe support material 200B. It is made, the shear force is supported by a fastening bolt (N) in the right angle direction.

On the other hand, when the expansion/reinforcement of the shear force deficiency (Δ) in the "pre-tightening bolt" of the joint portion which has a stable structure against the bending moment is made by the'additional fastening bolt', the'pre-tightening bolt' and'additional fastening bolt' The problems according to 'are as follows.

Here, the "pre-tightening bolts" and "additional fastening bolts" are premised on the use of mass-produced ready-made fastening bolts of the same diameter that are readily available on the market. Because custom-made is expensive, it is inefficient and inefficient.

3C and 3D are cases of the grid support 330.

The "group fastening bolt" in FIG. 3C is a fastening bolt (a) (b), and is symmetrical to m-m or n-n. Similarly, the "group fastening bolt" in Fig. 3D is symmetrical to m-m or n-n.

In the case where the shear area deficiency (Δ) of the "group fastening bolt" of FIGS. 3C and 3D, which has a symmetrical structure with respect to mm or nn, is enlarged and reinforced by one'additional fastening bolt', the "pre-tightening bolt" And the'additional fastening bolts' have to have a new symmetrical structure together, so there is a problem of the inconvenience of installation due to the hassle of work due to the adjustment, and sometimes the "pre-tightening bolts" must be moved. At this time, the shortage (Δ) is less than the size of the shear area of one fastening bolt.

Figure 4a is a case of CFT steel pipe support (100, 200). H supporting material 430 is also the same concept as that of CFT steel pipe supporting materials 100 and 200, and thus is omitted.

According to Figure 4a, J1 is the upper and lower joints, Fc is the bolt hole of the fastening bolt (N). The "group fastening bolt (N)" is a symmetrical structure formed by the fastening bolt N.

When the shortening area (Δ) of the “pre-tightening bolt (N)” in FIG. 4A is enlarged and reinforced by one'additional fastening bolt', the'pre-tightening bolt (N)' and its'additional fastening bolt' together Since a new symmetrical structure has to be achieved, there is a problem of inefficiency of installation due to the hassle of the work due to the adjustment and sometimes the case where the "group fastening bolt" has to be moved. The problem of the H support 430 is the same.

Here, the circular mark of 200B in FIG. 4B is only a boundary surface where the lower half-section CFT steel pipe support 200B is positioned on the flange portion FB1, and is a flat plate that is blocked, not a perforated space. This is to prevent leakage of internal filling of concrete mortar.

발명 In the present invention, the NATM method is fastened by three fastening bolts of a symmetrical structure to the three joints of steel strip (that is, the high-end joints (JC), upper and lower joints (J1, J2)). A stable structure with respect to the bending moment of the force, or a lack thereof in the shear force, and the size of the lack of the shear area is less than or equal to the size of the shear area of the one fastening bolt, and presupposes the previously fastened bolt of the symmetrical structure. However, the expansion and reinforcement of the shortage of the shear area is efficiently and economically achieved by the simple structure by forming the ``one set of additional shear reinforcement parts'' of a symmetrical structure without additional fastening bolts, while the fastening bolts remain intact. The purpose is to make it happen,

대칭 The ``one set of additional shear reinforcements'' of the symmetrical structure formed on both side flanges of the steel reinforcement joint part has a structure with a ``protrusion part'' perpendicular to the flange part and a ``receptive part'' receiving the other part In addition, the "protrusions" and "acceptances" have symmetrical structures with respect to mm or nn, respectively, and the shortage of the shear area is effectively enlarged and reinforced by the simple coupling structure between the "protrusions" and "acceptances". Ham has a different purpose,

「The ``one set of additional shear reinforcements'' of the lattice support is made by a circular projecting bonding shear plate and a circular receiving bonding shear plate, but the circular projecting bonding shear plate and the circular receiving bonding shear plate are symmetrical with respect to nn or mm. There is another purpose to ensure that the shear force support of the joint portion is made efficiently,

「The “one set of additional shear reinforcements” of the H support is made of a quadruple projecting joint shear plate and a quadruple receiving joint shear plate, but the quadruple protruding joint shear plate and a quadruple receiving joint shear plate have a symmetrical structure with respect to the mm axis. Another object is to enable the shear force support of the joint to be efficiently made.

In the NATM method of the present invention, the structure of the shear reinforcement structure for the insufficient area of the shear area of the steel reinforcement joint portion by the "one additional shear reinforcement portion" will be described.

In the NATM method, for the shear resistance of the three joints of the steel reinforcement, the shear structure by fastening the two side flanges and one fastening bolt

The joint portion is fastened by a pre-tightening bolt of a symmetrical structure, but at this time, there is a stable structure for the bending moment of the ground force, but a shortage for the shear force, and the size of the shortage of the shear area is the size of the one fastening bolt. While the size of the shear area is less than or equal to the size, the deficiency is expanded by forming only ``one set of additional shear reinforcements'' without additional fastening bolts in the state in which the fastening bolts are maintained on the premise that the fastening bolts of the symmetrical structure are maintained. Reinforced, but the structure of the "one set of additional shear reinforcement" is provided with a "protrusion" at right angles to one flange portion, and a "accommodation portion" to accommodate it on the other, and the "protrusions" and "accommodation." Each part” has a symmetrical structure with respect to mm or nn, and by the combination of the above-mentioned “protrusion part” and “receiving part”, the shortfall is enlarged and reinforced. It is a shear reinforcement structure for the shortage of the shear area of the steel reinforcement joint.

Here,

The joint part of the lattice support 330, which consists of the upper steel bar (A), lower steel bar (B) (B), and shear plate (D), is fastened by a pre-tightening bolt of symmetrical structure, but for the bending moment of the ground force For a stable structure or shear force, the shortage is generated, and the size of the shortage of the shear area is equal to or less than the size of the shear area of the one fastening bolt, and the pre-tightening bolt is assumed on the premise of the pre-tightening bolt of the symmetrical structure. While maintaining the same, the deficiency is enlarged and reinforced by forming only one additional shearing reinforcing part 300 without additional fastening bolts, but the structure of the above-described "one additional shearing reinforcing part 300" has one shear The circular protruding coupling shear plate 310 is formed on both sides of the plate D, and the circular shear coupling shear plate 320 on both sides is formed on the other shear plate D corresponding thereto, wherein the circular protruding coupling shear plate 310 is provided. ) Is formed along the circumference of the circular space portion 312 installed at the center thereof, and a shear reinforcement protruding ring 314 and fastening bolt holes 316 installed at the top and bottom thereof, corresponding to the circular receiving coupling shear plate ( In the 320), the circular receiving space portion 322 installed at the center thereof, and the fastening bolt adjustment long hole 324 installed at the upper and lower sides thereof are formed, while the circular protruding coupling shear plates 310 and the circular receiving coupling shears on both sides are formed. The plates 320 form a symmetrical structure with respect to mm and nn, respectively, and shear reinforcement protrusions of the circular protruding coupling shear plates 310 in the combination of the circular protruding coupling shear plates 310 and the circular receiving coupling shear plates 320. NATM method characterized in that the outer diameter of the ring frame 314 is inscribed and symmetrically coupled to the circumferential surface of the circular receiving space portion 322 of the circular receiving coupling shear plate 320, thereby expanding and strengthening the shortage of the shear area. It is the shear reinforcement structure for the shortage of the shear area of the steel reinforcement joint part by 「1 additional shear reinforcement part」.

Also,

Shear for the shear area shortage of the steel reinforcement joint part by "1 set of additional shear reinforcement" in the NATM method, characterized in that the protruding length of the shear reinforcement protruding ring 314 of the circular protruding joint shear plate 310 is 2 to 6 mm. It is a reinforced structure.

In addition, in the NATM method, characterized in that the fastening bolt adjustment long hole 324 is formed on the upper and lower sides of the circular receiving joint shear plate 320 and is symmetrical with respect to nn. It is a shear reinforcement structure for the lack of negative shear area.

Not only that,

By forming a "one set of additional shear reinforcement 400" with respect to the joint portion J of the H support 430 made of the upper and lower flanges 432 and 434 and the web 436, the shortage of the shear area is expanded and reinforced. However, the structure of the "one set of additional shear reinforcement 400" accommodates a quadrangular protrusion coupling shear plate 410 at one end of the joint part J of the H support 430, and the other end corresponding thereto. The coupling shear plate 420 is formed, and at this time, the coupling bolt hole 416 is formed at the upper portion of the coupling protrusion shear plate 410, and the shear reinforcement quadrangular protrusion 414 is formed at the lower portion. On the receiving coupling shear plate 420, a fastening bolt hole 424 is formed on the upper portion thereof, and a quadrangular receiving space portion 422 is formed on the lower portion, while the quadrangular protrusion coupling shear plate 410 and the receiving coupling shear plate ( 420) each has a symmetrical structure with respect to mm, and the shear reinforcement quadrangular protruding portion of the quadrangular protruding coupling shear plate 410 in the coupling of the quadruple protruding coupling shear plate 410 and the receiving coupling shear plate 420 NAT414 method characterized in that 414) is inscribed and coupled to the square receiving space portion 422 of the receiving coupling shear plate 420 to form a symmetrical structure with respect to each mm, and the shortage of the shear area is expanded and reinforced. It is the shear reinforcement structure for the shortage of the shear area of the steel reinforcement joint part by ``one additional shear reinforcement part''.

Also,

The joints of the CFT steel pipe support members (100, 200) are fastened by a pre-tightening bolt of a symmetrical structure. At this time, a stable structure against the bending force of the ground force or a shortage of the shear force is generated, and a shortage of the shear area is insufficient. The size is equal to or less than the size of the shear area of the one fastening bolt, and assuming that the fastening bolt of the symmetrical structure is maintained, the fastening bolt remains intact without additional fastening bolts. 300)” to expand and reinforce the shortfall, but the structure of the “one set of additional shear reinforcement 300” has a circular protrusion coupling shear plate 310 at one end of the joint portion J, and A circular receiving coupling shear plate 320 is formed at the other end of the corresponding portion, wherein the circular protruding coupling shear plate 310 has a shear reinforcement protruding ring 314 along the circumference of the circular space portion 312 installed at its center. A, and a circular receiving space portion 322 is formed on the circular receiving coupling shear plate 320 corresponding thereto, while the circular protruding coupling shear plate 310 and the circular receiving coupling shear plate 320 are mm and Symmetrical structure with respect to nn, the outer diameter of the shear reinforcement protrusion ring 314 of the circular protrusion coupling shear plate 310 in the combination of the circular protrusion coupling shear plate 310 and the circular receiving coupling shear plate 320 In the NATM method, characterized in that the deficiency of the shear area is expanded and reinforced by being inscribed and symmetrically coupled to the circumferential surface of the circular accommodating space portion 322 of the circular accommodating shear plate 320. It is the shear reinforcement structure for the insufficient area of the shear area of the steel reinforcement joint part.

As described above, the present invention is a state in which the joint parts are connected and fastened by a "group fastening bolt" of a symmetrical structure, and on the premise of this, the shear area shortage (Δ) of the joint part is less than or equal to the size of the shear area of the one fastening bolt, The deficiency (Δ) of the shear area is enlarged and reinforced by the simple structure of the “one set of additional shear reinforcement parts”.

In the present invention, in the NATM method, the joint portion of the steel reinforcement is fastened by a "base fastening bolt" of a symmetrical structure, but at this time, a stable structure for the bending moment of the ground force or a shortage (Δ) for the shear force occurs, and the The size of the deficiency (Δ) of the shear area is equal to or less than the size of the shear area of the one fastening bolt, while presuming the ``group fastening bolt'' of the symmetrical structure, but the ``group fastening bolt'' is maintained, By forming a ``one set of additional shear reinforcements'' of a symmetrical structure without additional fastening bolts, there is an effect that the expansion and reinforcement of the deficiency (Δ) of the shear area is efficiently and economically achieved by a simple structure.

대칭 The ``one set of additional shear reinforcements'' of the symmetrical structure formed on both side flanges of the steel reinforcement joint part has a structure with a ``protrusion part'' perpendicular to the flange part and a ``receptive part'' receiving the other part In addition, the "protrusions" and "acceptances" have symmetrical structures with respect to mm or nn, respectively, and the shear area deficiency (Δ) is expanded and reinforced by the combination of the "protrusions" and "acceptances" to achieve a simple structure. Efficiently reinforced by,

「The ``one set of additional shear reinforcements'' of the lattice support is made by a circular projecting bonding shear plate and a circular receiving bonding shear plate, but the circular projecting bonding shear plate and the circular receiving bonding shear plate are symmetrical with respect to nn or mm. There is an effect that the shear force support of the joint portion is made efficiently,

「The “one set of additional shear reinforcements” of the H support is made of a quadruple projecting joint shear plate and a quadruple receiving joint shear plate, but the quadruple protruding joint shear plate and a quadruple receiving joint shear plate have a symmetrical structure with respect to the mm axis. It is a useful invention having an effect that the shear force support of the joint portion is effectively reinforced.

[Fig. 1] Cross section showing three joint parts (JC, J1, J2) in NATM method
[Figure 2] Comparison of the stiffness of the tunnel Gangjijae
[Figure 3a] perspective view of grid support
[Fig. 3B] A sectional view of Fig. 3A.
[Fig. 3c] Cross-sectional view of the joint part of the lattice support fastened by one fastening bolt
[Fig. 3d] A cross-section of a joint portion of a lattice beam fastened by two fastening bolts
[Fig. 3e] A real photograph showing the joint part of Fig. 3c.
4A is a cross-sectional view showing a state where the joint portion (J1) of the CFT steel pipe support is fastened and connected by a fastening bolt (N).
4B] BB sectional view of FIG. 4A
Figure 5a is an exploded perspective view of the "one set of additional shear reinforcement" formed of the protruding coupling plate and the receiving coupling plate of the present invention
[Figure 5b] Figure 5a in combination perspective
6A is a cross-sectional view showing a state in which the shear reinforcement protrusion ring 314 is formed on the circular protrusion coupling shear plate 310 of the "one set of additional shear reinforcements" of the lattice support.
Figure 6b is a cross-sectional view showing a state in which the circular receiving space portion 322 is formed on the circular receiving coupling shear plate 320 of the "one set of additional shear reinforcement" of the present invention grating support
Figure 7a is an exploded perspective view of the present invention H support material of the "one set of additional shear reinforcement" quadrangular projecting bonding shear plate, and the corresponding receiving bonding shear plate disassembled
[Fig. 7b] Attempt to combine Fig. 7a.

In the NATM method, the shear reinforcement structure for the insufficient area of the shear area of the steel reinforcement joint part by ``additional shear reinforcement part 1'' is described as follows.

The present invention is an invention in which the lack of the shear area is expanded and reinforced by the "one set of additional shear reinforcement parts" (300) (400) without reinforcement of the (additional) fastening bolt.

The deficiency of the shear area of the ``one set of additional shear reinforcements'' 300 and 400 is a stable structure against the bending moment and the size of the deficiency of the shear force is less than or equal to the size of the shear area of one fastening bolt. It is intended to expand and reinforce the shortfall of this size.

The steel reinforcement is designed by the bending moment. At this time, the joint parts (JC, J1, J2) are fastened by fastening bolts. The bending moment is supported by fastening bolts. When the fastening bolt is symmetrical, it is effective in supporting bending moment and shear force.

However, even if the supporting force of the joints (JC, J1, J2) against the bending moment is effectively structured by the fastening bolts of the symmetrical structure, there will be a shortfall in the leaflet holding force by the fastening bolts.

This is because the bending moment and the shear force are the opposite of the mechanical action. That is, the maximum point of the bending moment is the minimum point of the shearing force, and vice versa.

The lack of shear force by the fastening bolt is smaller than the size of the shear area of the one fastening bolt. The present invention is intended to expand and reinforce targets of shortages in this case.

Despite the fact that the joint parts (JC, J1, J2) of the steel reinforcement by the fastening bolt form a stable structure against the bending moment support, there is a shortage in the leaflet area of the joint, where the size of the shortage is the one It is smaller than the size of the shear area of the bolt, and this shortfall is enlarged/reinforced by the “one set of additional shear reinforcement parts” 300 and 400 without reinforcing the (additional) fastening bolt. This will be described as follows.

First, the "one set of additional shear reinforcement parts" 300 and 400 will be described.

The "one set of additional shear reinforcements" (300, 400) is a structure that enlarges and reinforces the shortage of the shortage of the shear area due to the pre-tightening bolt. At this time, the "one set of additional shear reinforcement parts" 300 and 400 have a structure in which a "protrusion part" is formed on one side and a "accommodation part" is received on the other side, unlike the fastening bolt.

In the case of the lattice support 330, the "protrusion" is a circular protruding coupling shear plate 310, and the corresponding "accommodating portion" is a circular receiving coupling shear plate 320 (see FIGS. 6A and 6A).

In the case of the H support member 430, the "protrusion" is a quadruple protruding coupling shear plate 410, and the corresponding "accommodating portion" is a receiving coupling shear plate 420 (see FIGS. 7A and 7A).

Next, the expansion/reinforcement of the insufficient area of the shear area due to the combination of the “one set of additional shear reinforcement parts” 300 and 400 will be described.

The "one set of additional shear reinforcement parts" 300 and 400 are coupled to each other by a "protrusion part" and a "receiving part".

In the case of the "one set of additional shear reinforcements" 300 of the lattice support 330, the "protrusion" of the circular protruding coupling shear plate 310 is a shear reinforcement protruding ring 314, and the "accommodating portion" is a circular receiving coupling shear. It is the circular accommodation space part 322 of the plate 320. The outer diameter of the shear reinforcement protrusion ring 314 protrudes/inscribes into the circular accommodating space portion 322, and the shear area increases by that amount.

In addition, in the case of the “one set of additional shear reinforcement parts” 400 of the H support member 430, the “protrusion part” of the quadrangular protruding coupling shear plate 410 is the shear reinforcement quadrangular protruding part 414, and the “accommodating part” is accommodated. It is a square receiving space portion 422 of the coupling shear plate 420. The shear reinforcement quadrangular protrusion 414 protrudes/inscribes into the receiving coupling shear plate 420, and the shear area is increased by the protrusion.

Next, the relationship between the "one set of additional shear reinforcement parts" 300 and 400 and the pre-tightening bolt and the additional fastening bolt will be described.

The deficiency of the shear area is enlarged and reinforced through the ``one set of additional shear reinforcements'' (300) (400) with ``protrusions'' and ``acceptances'', and additional fastening bolts are not used at all. Since the symmetrical structure is maintained and the change to the new symmetrical structure is omitted, the short structure of the "one set of additional shear reinforcement parts" 300 and 400 has the advantage of efficiently and economically expanding and reinforcing the shortfall.

Next, the relationship between the fastening bolt hole 316 of the circular protruding coupling shear plate 310 of the lattice support 330 and the fastening bolt adjustment long hole 324 of the circular receiving coupling shear plate 320 will be described (FIG. 6a and 6a).

The fastening bolt hole 316 of the circular protrusion coupling shear plate 310 of the lattice support 330 and the fastening bolt adjustment long hole 324 of the circular receiving coupling shear plate 320 are joined by the fastening bolt 318.

The shear reinforcement protruding ring 314 of the circular protruding coupling shear plate 310 of the lattice support 330 is inscribed to the circular receiving space portion 322 of the circular receiving coupling shear plate 320.

As described above, the present invention is in a state in which the joint parts are connected and fastened by a "group fastening bolt" of a symmetrical structure, and on the assumption that the shear area shortage (Δ) of the joint part is less than or equal to the size of the shear area of the one fastening bolt, The deficiency (Δ) of the shear area is enlarged and reinforced by the simple structure of the “one set of additional shear reinforcement parts”. At this time, it is a useful invention having an efficient and economical advantage by expanding and reinforcing its deficiency (Δ) by a simple structure.

[CFT steel pipe support]
100, 200; CFT steel pipe support,
100A; Upper half section CFT steel pipe support, 200B; Lower half-section CFT steel pipe support,
FA2; Flange part, Fa, Fb bolt hole, N; Fastening bolt,
FB1; Flange portion, Fc; Bolt hole, J; Connection, P,Q; Bonding plates, a, b; Fastening bolt,
[Grid support]
300; 「Additional shear reinforcement part 1」,
310; Circular protruding bond shear plate, 312; Circular space portion, 314; Shear reinforcement protrusion frame,
316; Fastening bolt ball, 318; Fastening bolt,
320; Combined shear plate for circular water, 322; A circular accommodation space portion 324; Fastening bolt adjustment tool,
330; Lattice support, A; Upper steel bar, B; Lower steel bar, D; Photography,
[H support]
400; 「Additional shear reinforcement part 1」,
410; Quadruple protrusion combined shear plate, 414; Shear reinforcement quadrangular protrusion, 416; Fastening bolt holes 416, 418; Fastening bolt,
420; Receiving binding shear plate, 422; A square accommodating space part, 424; Fastening Bolt Ball,
430; H support, 432; Upper flange, 434; Lower flange, 436; Web

Claims (6)

In the NATM method, in the shearing structure by fastening bolts of the two side flanges and one fastening bolt against the shear resistance of the three joints of the steel reinforcement.
The joint portion is fastened by a pre-tightening bolt of a symmetrical structure, but at this time, there is a stable structure for the bending moment of the ground force, but a shortage for the shear force, and the size of the shortage of the shear area is the size of the one fastening bolt. While the size of the shear area is less than or equal to the size, the deficiency is expanded by forming only ``one set of additional shear reinforcements'' without additional fastening bolts in the state in which the fastening bolts are maintained on the premise that the fastening bolts of the symmetrical structure are maintained. Reinforced, but the structure of the "one set of additional shear reinforcement" is provided with a "protrusion" at right angles to one flange portion, and a "accommodation portion" to accommodate it on the other, and the "protrusions" and "accommodation." Each part” has a symmetrical structure with respect to mm or nn, and by the combination of the above-mentioned “protrusion part” and “receiving part”, the shortfall is enlarged and reinforced. Shear reinforcement structure for insufficient shear area of steel reinforcement joint The method of claim 1
The joint part of the lattice support 330, which consists of the upper steel bar (A), lower steel bar (B) (B), and shear plate (D), is fastened by a pre-tightening bolt of a symmetrical structure. For a stable structure or shear force, the shortage is generated, and the size of the shortage of the shear area is equal to or less than the size of the shear area of the one fastening bolt, and the pre-tightening bolt is assumed on the premise of the pre-tightening bolt of the symmetrical structure. While maintaining the same, the deficiency is enlarged and reinforced by forming only one additional shearing reinforcing part 300 without additional fastening bolts, but the structure of the above-described "one additional shearing reinforcing part 300" has one shear The circular protruding coupling shear plate 310 is formed on both sides of the plate D, and the circular shear coupling shear plate 320 on both sides is formed on the other shear plate D corresponding thereto, wherein the circular protruding coupling shear plate 310 is provided. ) Is formed along the circumference of the circular space portion 312 installed at the center thereof, and a shear reinforcement protruding ring 314 and fastening bolt holes 316 installed at the top and bottom thereof, corresponding to the circular receiving coupling shear plate ( In the 320), the circular receiving space portion 322 installed at the center thereof, and the fastening bolt adjustment long hole 324 installed at the upper and lower sides thereof are formed, while the circular protruding coupling shear plates 310 and the circular receiving coupling shears on both sides are formed. The plates 320 form a symmetrical structure with respect to mm and nn, respectively, and shear reinforcement protrusions of the circular protruding coupling shear plates 310 in the combination of the circular protruding coupling shear plates 310 and the circular receiving coupling shear plates 320. NATM method characterized in that the outer diameter of the ring 314 is inscribed and symmetrically coupled to the circumferential surface of the circular accommodating space portion 322 of the circular receiving coupling shear plate 320, so that the shortage of the shear area is expanded and reinforced. The shear reinforcement structure for the insufficient area of the shear area of the steel reinforcement joint part by ``additional shear reinforcement part 1'' The method of claim 2
Shear for the shear area shortage of the steel reinforcement joint part by "1 set of additional shear reinforcement" in the NATM method, characterized in that the protruding length of the shear reinforcement protruding ring 314 of the circular protruding joint shear plate 310 is 2 to 6 mm. Reinforcement structure The method of claim 2
In the NATM method, characterized in that the fastening bolt adjustment long hole 324 is formed on the upper and lower sides of the circular receiving joint shear plate 320 and is symmetrical with respect to nn. Shear reinforcement structure for area shortage The method of claim 1
By forming a "one set of additional shear reinforcement 400" with respect to the joint portion J of the H support 430 made of the upper and lower flanges 432 and 434 and the web 436, the shortage of the shear area is expanded and reinforced. However, the structure of the "one set of additional shear reinforcement 400" accommodates a quadrangular protrusion coupling shear plate 410 at one end of the joint part J of the H support 430, and the other end corresponding thereto. The coupling shear plate 420 is formed, and at this time, the coupling bolt hole 416 is formed at the upper portion of the coupling protrusion shear plate 410, and the shear reinforcement quadrangular protrusion 414 is formed at the lower portion. On the receiving coupling shear plate 420, a fastening bolt hole 424 is formed on the upper portion thereof, and a quadrangular receiving space portion 422 is formed on the lower portion, while the quadrangular protrusion coupling shear plate 410 and the receiving coupling shear plate ( 420) each has a symmetrical structure with respect to mm, and the shear reinforcement quadrangular protruding portion of the quadrangular protruding coupling shear plate 410 in the coupling of the quadruple protruding coupling shear plate 410 and the receiving coupling shear plate 420 NAT414 method characterized in that 414) is inscribed and coupled to the square receiving space portion 422 of the receiving coupling shear plate 420 to form a symmetrical structure with respect to each mm, and the shortage of the shear area is expanded and reinforced. The shear reinforcement structure for the insufficient area of the shear area of the steel reinforcement joint part by ``additional shear reinforcement part 1'' The method of claim 1
The joints of the CFT steel pipe support members (100, 200) are fastened by a pre-tightening bolt of a symmetrical structure, but at this time, a stable structure against the bending force of the ground force or a shortage of the shear force is generated, and a shortage of the shear area is insufficient. The size is equal to or less than the size of the shear area of the one fastening bolt, and assuming that the fastening bolt of the symmetrical structure is maintained, the fastening bolt remains intact without additional fastening bolts. 300)” to expand and reinforce the shortfall, but the structure of the “one set of additional shear reinforcement 300” has a circular protrusion coupling shear plate 310 at one end of the joint portion J, and A circular receiving coupling shear plate 320 is formed at the other end of the corresponding portion, wherein the circular protruding coupling shear plate 310 has a shear reinforcement protruding ring 314 along the circumference of the circular space portion 312 installed at its center. A, and a circular receiving space portion 322 is formed on the circular receiving coupling shear plate 320 corresponding thereto, while the circular protruding coupling shear plate 310 and the circular receiving coupling shear plate 320 are mm and Symmetrical structure with respect to nn, the outer diameter of the shear reinforcement protrusion ring 314 of the circular protrusion coupling shear plate 310 in the combination of the circular protrusion coupling shear plate 310 and the circular receiving coupling shear plate 320 In the NATM method, characterized in that the deficiency of the shear area is expanded and reinforced by being inscribed and symmetrically coupled to the circumferential surface of the circular accommodating space portion 322 of the circular accommodating shear plate 320. The shear reinforcement structure for the insufficient area of the shear area of the steel reinforcement joint

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