KR20190031752A - Coupling Bar and End Reinforced Beam Using T-Shaped Member - Google Patents

Abstract

An end reinforcing beam of the present invention includes: a body beam having an upper flange, a lower flange, and a web for connecting the upper flange and the center portion of the width of the lower flange; a T-shaped reinforcing member having a vertical plate connected to an upper portion of the upper flange so that the vertical plate can coincide with the web of the body beam; steel anchors protruding from both sides of the vertical plate at regular intervals in the longitudinal direction of the vertical plate and formed in a horizontal direction; and a coupling bar seated on and connected to an upper portion of the steel anchor.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to an end reinforcing beam using a coupling rope and a T-shaped reinforcing member,

The present invention relates to an end reinforcement beam using a coupling root and a T-shaped reinforcement member and a connection structure between the end reinforcement beam and the column using the coupling root and the T-type reinforcement member. More particularly, In order to construct the effective reinforcement, it is necessary to connect the coupling roots to the flange of the column and the web of the end T type to effectively transmit the parent moment in each direction around the column, In order to improve the strength of joints and to strengthen the momentum of the joints, steel anchors are used for shear slip resistance with the slabs. The end reinforcing beam using the coupling rope and the T-shaped reinforcing member to easily mount and reinforce the ring rope, It relates to a connection structure of the.

Conventionally, a beam of a building requires a section having sufficient strength or rigidity against a long-term load acting in a vertical direction such as a fixed load and a loading load and a short-term load acting in a horizontal direction such as an earthquake and wind. The beam is generally designed to have the same cross section over the entire length.

As a background of the present invention, there is a patent registration No. 1144586 entitled " Application of a closed end steel beam for reducing the floor height and a concrete filled composite beam system using the same, " In the background art, a lower half-sided member composed of a lower plate, two side plates extending upward from both ends in the width direction of the lower plate, and a support plate horizontally extending outwardly from the two side plates respectively; An upper half section member which is composed of an upper plate having a plurality of holes for pouring concrete and two inclined plates extending downward from both ends in the width direction of the upper plate and joined to the upper part of the lower half section member to close the section; And a connecting member provided at both ends in the longitudinal direction of the closed cross-section in which the lower half-sectional member and the upper half-sectional member are joined, and the connecting member includes an 'H' character having an upper flange, Section having a height greater than the height of the closed section formed by the lower half-section member and the upper half-section member joined together by the lower half-section member and the upper half- Is inserted inward and a gap is formed between the lower flange and the lower plate, and a closed end steel beam for floor height reduction is proposed.

However, the above background art is not a sectional structure in which the end portion of the steel beam member is projected higher than the bottom portion in the slab, and therefore, the total thickness of the upper half- The strength of reinforcing bars for reinforcing the mandrels placed in the slabs around the pillars is large because of the large loss of steel material. Moreover, since the main direction and the negative direction are interdigitated with each other, difficulty in field construction and difficulty in casting concrete into concrete are difficulties. There is a problem that it is difficult to arrange or reinforce steel reinforcement or reinforcing steel reinforcement for reinforcement of the section of the moment at the end of the beam.

Patent Registration No. 1144586, "Concrete Filled Composite Beam System Using Closed End Steel Beams and Its Application for Floor Height Reduction"

In order to solve the above problems, the present invention provides a method of joining a main coupling root to a flange surface of a column in order to construct an effective reinforcement between a main direction reinforcement rope and a main direction reinforcement rope intersecting each other in a slab, By connecting the negative directional coupling roots orthogonally arranged to the upper slab of the directional steel beam to the web of the end T-shaped reinforcement member of the steel beam, it is possible to effectively transmit the momentum in each direction around the column, It is placed on the upper flange of the steel beam to be placed in the slab, and the reinforcing member is joined to the part of the end of the steel beam by the T-shaped section to improve the performance of the effective joint in the main direction. In addition, in the steel beam crossing around the column, the integral behavior between the end T-shaped reinforcement member and the slab is ensured on the main steel beam, A steel anchor for the slip resistance of the shear with the slab is formed on the web of the T-shaped reinforcement member so as to be able to connect the reinforcement member to the end of the reinforcement member, And a connecting structure between the end reinforcing beam and the column using the coupling beam and the T-shaped reinforcing member.

A main beam having an H-shaped cross section and comprising a top flange, a bottom flange spaced a predetermined distance from the bottom of the top flange, and a web connecting the widthwise center portions of the top flange and the bottom flange; And a vertical plate formed vertically at the center in the width direction of the horizontal plate and the horizontal plate from the both ends in the lengthwise direction of the main beam to a certain distance inwardly to have a T-shaped cross section so that the web of the main beam and the vertical plate A T-shaped reinforcement member formed by joining a vertical plate to an upper portion of the flange; A steel anchor formed in a horizontal direction so as to protrude by a predetermined length to both sides of the vertical plate at regular intervals in the longitudinal direction of the vertical plate; And a main direction coupling root which is arranged on both sides in the width direction of the T-shaped reinforcing member and is joined to the upper portion of the steel anchor, and a plurality of the main direction coupling rods are arranged on the entire length of the main beam section or main beam of the main beam. And an end reinforcing beam using a T-shaped reinforcing member.

Further, it is desirable to provide an end reinforcing beam using a coupling rope and a T-shaped reinforcing member, characterized in that the vertical plate is formed with a plurality of through holes.

Also, an end reinforcement beam using a coupling root and a T-shaped reinforcement member is provided, wherein a through hole is formed in the joint of the steel anchor of the vertical plate, and the steel anchor penetrates through the through hole and is projected to both sides of the vertical plate .

In addition, the T-shaped reinforcement member is extended from both ends of the horizontal plate in the width direction by a predetermined distance to form a reinforced portion, thereby providing an end reinforcing beam using the coupling rope and the T-shaped reinforcement member.

Further, the steel anchor is composed of a member having a U-shaped or V-shaped cross-section with a predetermined length in which a seating groove is formed at an upper portion thereof, and is joined to the seating groove in a direction perpendicular to the main- And a reinforcing member having a T-shaped reinforcement member.

In addition, the steel anchor is composed of a reinforcing coupler in which a coupling hole is formed in the longitudinal direction, and a coupling groove is coupled to the coupling hole, thereby providing an end reinforcing beam using the coupling rope and the T- do.

Further, the steel anchor is provided with an extension portion having a U-shaped or V-shaped cross section having a predetermined length in which a seating groove is formed at an upper end in an outer end portion in the longitudinal direction. Beam. ≪ / RTI >

In addition, the column is made of H-shaped steel composed of a web connecting the flange and the flange. The end reinforcing beam is joined to the flanges on both sides in the main direction at a certain height, and the negative beam is joined to both sides of the web in the negative direction And the main reinforcing beam of the end reinforcing beam is joined to the flange of the column, respectively, to provide a coupling structure between the coupling rope and the column using the end reinforcing beam using the T-shaped reinforcing member.

And a coupler nut having a predetermined length is fixed and fixed to the outer surface of the flange of the column to which the main direction coupling rope is joined so that the coupling rods of the main direction are fitted to the coupler nuts and are coupled. To provide a connection structure with a column using an end reinforcing beam using a member.

In addition, the coupler nut is fixed to the inner end of the coupler nut by passing the bolt through the inner surface of the flange of the column, and the coupling structure between the coupling root and the column using the end reinforcing beam using the T- .

Wherein the main direction coupling rope is formed to have a threaded end and is coupled to a coupler nut or is formed of a threaded reinforcing bar and is coupled to a coupler nut. To provide a connection structure between the two.

The end reinforcing beam using the coupling rope and the T-shaped reinforcing member of the present invention and the connecting structure between the reinforcing beam and the column using the coupling rope and the T- Direction coupling yoke is connected to the web of the end portion T-shaped reinforcement member of the steel beam and a negative direction coupling yoke orthogonally disposed to the upper slab of the main direction steel beam is connected to the web of the end portion T- And the reinforcing members are bonded to the upper end flange of the steel beam having the H-shaped cross-section and placed in the slab. To be improved. In addition, in the steel beam crossing around the column, the integral behavior between the end T-shaped reinforcement member and the slab is ensured on the main steel beam, A steel anchor for the slip resistance of the shear with the slab is formed on the web of the T-shaped reinforcement member so as to be able to connect the reinforcement member to the end of the reinforcement member, So that there is a very useful effect.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
1 is a perspective view of an embodiment of an end reinforcing beam using a coupling rope and a T-shaped reinforcing member of the present invention.
Fig. 2 is a partial enlarged view of Fig. 1. Fig.
3 is a front view of the above FIG.
4 is a sectional view showing various embodiments of the steel material anchor according to the present invention.
5 is a partially enlarged perspective view illustrating various embodiments of the steel anchor of the present invention.
FIG. 6 is a view showing another embodiment of FIG. 2. FIG.
7 is a view showing an embodiment of the construction using the end reinforcing beam using the coupling rope and the T-shaped reinforcing member of the present invention.
8 is a perspective view and a side sectional view showing a part of a connection structure with a column using an end reinforcing beam according to the present invention.
9 is a plan view showing a connection structure with a column using an end reinforcing beam according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

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

FIG. 1 is a perspective view of an end reinforcing beam using the coupling rope and a T-shaped reinforcing member of the present invention, FIG. 2 is a partially enlarged view of FIG. 1, and FIG. 3 is a front view of FIG.

As shown in Fig. 1, the end reinforcing beam 1 using the coupling rope and the T-shaped reinforcing member of the present invention has a T-shaped reinforcing member (not shown) at the upper portion of both sides in the longitudinal direction of the main beam 10 having the H- 20) are joined to each other so as to reinforce the momentum section and improve the performance of the joint. The steel anchor 30 is used to project on both sides of the T-shaped reinforcement member 20, The ring roots 40 and the negative direction coupling ropes are easily mounted and reinforced.

The body beam 10 includes an upper flange 11, a lower flange 12 spaced a predetermined distance from the lower portion of the upper flange 11, And a connecting web 13 to have an H-shaped cross section, and a preformed H-shaped steel can be used.

A T-shaped reinforcing member 20 having a T-shaped cross section is joined to an upper portion of the upper flange 11 in a section from the both end portions in the longitudinal direction of the main beam 10 to a certain distance inward.

 1, the T-shaped reinforcing member 20 is composed of a vertical plate 21 and a vertical plate 23 vertically formed at a widthwise central portion of the horizontal plate 21 and has a T-shaped cross section, And the vertical plate 23 is joined to the upper portion of the upper flange 11 so that the web 13 of the beam 10 and the vertical plate 23 coincide with each other.

The width of the horizontal plate 21 can be variously formed, and preferably, the main beam 10 can be formed to be equal to or smaller than the width of the upper flange 11.

7 is a view showing an embodiment of the construction using the end reinforcing beam using the coupling rope and the T-shaped reinforcing member of the present invention.

The height of the vertical plate 23 may be varied according to the height of the slab concrete placed on the upper portion of the main beam 10. The horizontal plate 21 may be embedded in the slab concrete, The height can be adjusted so that the upper surface of the horizontal plate 21 is exposed.

In addition, a plurality of air holes (not shown) may be formed in the horizontal plate 21 so as to serve as an air outlet when pouring concrete.

In particular, the vertical plate 23 of the T-shaped reinforcement member 20 is formed with a plurality of through holes 231 formed therein so as to be deformed. When the concrete is poured, the shear connection and the slab reinforcement are inserted It can also be used as a path.

The through-holes 231 may be formed in a circular or square shape such that the through-holes 231 are formed at regular intervals in the longitudinal direction of the upright plate 23 or may be formed in a predetermined size and shape at the lower end of the upright plate 23 But it may be formed in a trapezoidal shape as shown in FIG.

FIG. 6 is a view showing another embodiment of FIG. 2. FIG.

6, the T-shaped reinforcement member 20 may extend from both ends in the width direction of the horizontal plate 21 by a predetermined distance to form a reinforced portion 211. In addition, as shown in FIG. At this time, the reinforcing portion 211 may extend to the upper portion of the steel anchor 30, and when the height of the reinforcing portion 211 is high, the steel anchor 30 interferes with the steel anchor 30, A separate through-hole (not shown) may be formed. A plurality of shear connection holes may be formed in the reinforcement portion 211.

The steel plate anchor 30 is formed on the vertical plate 23 of the T-shaped reinforcement member 20 so as to protrude from both sides of the vertical plate 23 at regular intervals in the longitudinal direction. It is possible to easily perform the function of the shear connection member with the concrete placed in the main direction coupling rope 40 and the side direction coupling rope 50 and to perform the end reinforcement function for the end portion resistance.

4 is a sectional view showing various embodiments of the steel material anchor according to the present invention.

As shown in FIG. 4, the steel anchor 30 may be made of a steel, a steel bar, a steel bar, a rectangular steel pipe, a pipe, or the like having a predetermined length. Angles, channels and U and V- Holes 232 are formed in the joining portion of the steel anchor 30 of the vertical plate 23 so as to be protruded from both sides of the vertical plate 23 by a predetermined length so as to be joined to the opposite side surfaces of the vertical plate 23 by various known methods, So that the steel anchor 30 penetrates the through hole 32 and protrudes to both sides of the vertical plate 23, so that the steel anchor 30 can be joined by a method such as welding.

Particularly, the steel anchor 30 allows the main directional coupling rope 40 to be mounted on the upper portion, and the main directional coupling rope 40 is disposed in the width direction of the T-shaped reinforcing member 20 A plurality of beams may be longitudinally arranged on the entire length of the main beam section A or the main beam 10 of the main beam 10 on both sides of the main beam 10 so as to be stuck on and bonded to the upper part of the steel anchor 30.

5 is a partially enlarged perspective view illustrating various embodiments of the steel anchor of the present invention.

5A, the steel anchor 30 is formed of a member having a U-shaped or V-shaped cross section having a predetermined length in which the seating groove 31 is formed, 5b, the steel anchor 30 can be formed to have a length (or length) of the length of the anchor 30, And the coupling port 32 is formed with a reinforcing coupler in which the coupling hole 32 is formed in the direction of the coupling axis 32. The coupling direction of the coupling ring 32 is not limited to this.

The reinforcing coupler can use any of various well-known reinforcing couplers. As in the illustrated embodiment, the steel anchor 30 is formed in a cylindrical shape using a reinforcing coupler having a helical groove formed therein, It is possible to rotate the secondary direction coupling rope 50 to the steel anchor 30 made of a reinforcing coupler by using the deformed reinforcing bars.

In particular, as shown in FIG. 5C, when the steel anchor 30 is formed of a reinforcing coupler, the U-shaped or V-shaped cross section having a predetermined length of the seating groove 31 formed at the outer end in the longitudinal direction, So that a portion 30a can be formed.

With this configuration, the steel plate anchor 30 and the negative direction coupling rope 50 can be easily joined to each other by projecting a predetermined length outward beyond the horizontal plate 21 of the T-shaped reinforcement member 20, Directional coupling rope 50 is coupled to the steel anchor 30 by being inserted into the elongated engaging portion 30a and inserted into the inside of the steel anchor 30, After the joining is completed, the welding area can be secured and the joining can be strengthened.

At this time, a spiral groove may be formed in the extended portion 30a.

The end reinforcing beam 1 using the coupling rope and the T-shaped reinforcing member of the present invention is formed by placing the slab concrete on the upper portion of the main beam 10 so that the T-shaped reinforcing member 20 is embedded at a predetermined depth, May be buried in such a manner that the upper surface thereof is exposed.

FIG. 8 is a perspective view and a side sectional view showing a part of a connection structure with a column using an end reinforcing beam according to the present invention, and FIG. 9 is a plan view showing a connection structure with a column using an end reinforcing beam according to the present invention.

The end reinforcing beam 1 of the present invention is joined to the main direction perpendicular to the flanges 61 and 62 in the H-shaped column 6 as shown in Figs. 8 and 9, And the flange 61 of the column 6 and the main directional coupling rope 40 of the end reinforcing beam 1 are joined to the column 6 ), So that the effective reinforcement construction between the main direction reinforcement rods and the main direction reinforcement rods intersecting within the slab is made possible while reducing the amount of reinforcement of the main direction rope (9).

In the present invention, the column 6 is formed of an H-shaped steel comprising a web 63 connecting flanges 61 and 62 and flanges 61 and 62, and flanges 61 on both sides, The end reinforcing beam 1 is joined to each of the side beams 62, and the negative beam 7 is joined to both sides of the web 63 which is the negative side. At this time, the main direction coupling rope 40 of the end reinforcing beam 1 is connected to the flanges 61 and 62, respectively.

At this time, the main direction coupling rope 40 can be joined to the outer surface of the flanges 61 and 62 of the column 6 by various methods known by welding or the like.

Especially, as shown in FIG. 8, the flange 61 (62) to which the main direction coupling rope (40) is joined is provided with a coupler nut (81) 40 may be fitted and coupled to the coupler nut 81.

At this time, the coupler nut 81 can pass through the bolt 85 at the inner side of the flanges 61 and 62 and be fitted to the inner end of the coupler nut 81 to be fixed to the column 6, The main directional coupling rope 40 is machined such that its ends are threaded to be coupled to the coupler nut 81 so that the ring rope 40 can be easily coupled to the coupler nut 81, May be made of a threaded reinforcing bar so as to be coupled to the coupler nut 81.

The end reinforcement beam using the coupling rope and the T-shaped reinforcement member of the present invention as described above and the connecting structure between the end reinforcing beam and the column using the coupling rope and the T-shaped reinforcement member according to the present invention can be effectively used to construct an effective reinforcement structure between the main direction reinforcement bars and the negative direction reinforcement bars, By connecting the main directional coupling rope to the flange face of the column and connecting the negative directional coupling rods orthogonally arranged with the upper slab of the main direction steel beam to the web of the end T-shaped reinforcement member of the steel beam, And the reinforcing member is joined to the upper end flange of the steel beam having the H-shaped cross section so as to effectively transmit the momentum to the upper end of the steel beam, Thereby improving the performance of the system. In addition, in the steel beam crossing around the column, the integral behavior between the end T-shaped reinforcement member and the slab is ensured on the upper side of the steel beam in the main direction, and the main-direction coupling- A steel anchor for the slip resistance of the shear with the slab is formed on the web of the T-shaped reinforcement member so as to be able to connect the reinforcement member to the end of the reinforcement member, So that there is a very useful effect.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

1: end reinforcing beam using coupling rope and T-shaped reinforcing member
10: main beam
11: Upper flange
12: Lower flange
13: web
20: T-shaped reinforcing member
21: Horizontal plate
23: Vertical plate
30: Steel anchor
40: main direction coupling root
50: Negative Coupling Root
6: Column

Claims (11)

A lower flange 12 formed at a predetermined distance from the lower portion of the upper flange 11 and a web 13 connecting the upper end of the upper flange 11 and the lower end of the lower flange 12, A main beam 10 having an H-shaped cross section;
And a vertical plate 23 vertically formed at the central portion in the width direction of the horizontal plate 21 and the vertical plate 21 from the both ends in the lengthwise direction of the main beam 10 to a certain distance inward. A T-shaped reinforcing member 20 formed by joining a vertical plate 23 to an upper portion of the upper flange 11 so that the web 13 of the main beam 10 and the vertical plate 23 coincide with each other;
A steel anchor 30 formed in a horizontal direction so as to protrude by a predetermined length to both sides of the vertical plate 23 at regular intervals in the longitudinal direction of the vertical plate 23;
A main directional coupling rope 40 is disposed on both sides in the width direction of the T-shaped reinforcing member 20 and a plurality of rods are arranged on the entire length of the main beam section or main beam of the main beam and are mounted on and bonded to the upper portion of the steel anchor 30 And an end reinforcing beam using the coupling rope and the T-shaped reinforcing member. The method according to claim 1,
Wherein the vertical plate (23) is formed with a plurality of through holes (231) formed therein so as to communicate therewith. The method according to claim 1,
A through hole 232 is formed in the joint portion of the steel anchor 30 of the vertical plate 23 so that the steel anchor 30 is bonded to the vertical plate 23 so as to protrude from both sides of the through hole 32 End reinforcing beam using a coupling rod and a T-shaped reinforcing member. The method according to claim 1,
Wherein the T-shaped reinforcement member (20) extends from both ends of the horizontal plate (21) in the width direction by a predetermined distance to form a reinforced portion (211). The method according to claim 1,
The steel anchor 30 is made up of a member having a U-shaped or V-shaped cross section with a predetermined length in which a seating groove 31 is formed at an upper portion thereof. The steel anchor 30 is fitted into the seating groove 31 in a direction perpendicular to the main direction coupling rope 40 (50) to be joined to each other by means of the coupling roots (50). The method according to claim 1,
The steel anchor (30)
And a reinforcing coupler in which a coupling hole (32) is formed in the longitudinal direction, and a coupling head (50) is fitted and coupled to the coupling hole (32) . The method of claim 6,
The steel anchor (30)
And an extension portion (30a) having a U-shaped or V-shaped cross-section having a predetermined length in which a seat groove (31) is formed at an upper end on an outer side end in the longitudinal direction. Reinforcing beam. A connection structure for a column using an end reinforcing beam according to any one of claims 1 to 7,
The column 6 is made of an H-shaped steel composed of a web 63 connecting the flanges 61 and 62 and the flanges 61 and 62,
The end reinforcing beam 1 is joined to the flanges 61 and 62 of the pillars 6 on both sides which are the main direction at a predetermined height and the secondary beams 7 are welded to both sides of the secondary web 63, And,
Characterized in that the primary direction coupling ropes (40) of the end reinforcing beams (1) are joined to the flanges (61) (62) of the column (6), respectively, Connection structure with used columns. The method of claim 8,
Coupler nuts 81 of a certain length are fixed and fixed to the flanges 61 and 62 of the column 6 to which the main direction coupling rope 40 is joined,
And the coupling direction of the main direction coupling rope (40) is fitted to the coupler nut (81). The method of claim 9,
The coupler nut (81)
The bolt 85 penetrates from the inner side of the flanges 61 and 62 of the column 6 and is fitted and fixed to the inner end of the coupler nut 81. [ Connection structure between columns using reinforced beams. The method of claim 9,
Wherein the main directional coupling rope 40 is machined to form a threaded end and coupled to the coupler nut 81 or to a coupler nut 81 made of a threaded reinforcement. Link Structure with Columns using End Reinforced Beams.

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