KR101612623B1 - Fabricated beam with steel plates and angles and composite beam using the same - Google Patents

Abstract

The present invention relates to a steel plate assembly beam for constituting a steel concrete composite beam composed of a permanent formwork on a cross-section outer shell and filled with concrete in a cross-section, and more particularly to a steel plate assembly beam having a steel plate and an angle Assembled steel plate assembly beam and a steel concrete composite beam using the same.
A double angle thin plate assembly according to a preferred embodiment of the present invention includes a bottom plate having a predetermined thickness and a pair of side plates each of which is formed of a thin plate having a thickness thinner than that of the bottom plate and vertically coupled to both ends of the top plate, And the inner surface of the vertical portion of the a-shaped steel is joined to the outer surface of the upper end of the pair of side plates so that the horizontal portion of the a-shaped steel is directed to the inside of the end surface, and a pair of angle members And a side plate connecting member for connecting the pair of side plates at regular intervals along the lengthwise direction of the pair of side plates.

Description

Technical Field [0001] The present invention relates to a double-angle thin plate assembly beam and a composite beam using the same,

The present invention relates to a steel plate assembly beam for constituting a steel concrete composite beam composed of a permanent formwork on a cross-section outer shell and filled with concrete in a cross-section, and more particularly to a steel plate assembly beam having a steel plate and an angle Assembled steel plate assembly beam and a steel concrete composite beam using the same.

Steel Concrete Composite steel beam and concrete are made to behave as a single member, so that when the bending moment is applied, most of the compressive stress is made to be borne by the concrete and tensile stress is made to be imposed by the steel material. It is possible to reduce the stratification of the beam span and to increase the resistance strength and resistance stiffness of the beam section, thereby enabling the long span structure and increasing the extreme performance and deformation performance. Steel Concrete Composite has been developed for a long time, one of which is a steel plate permanent composite composite beam in which the section of steel is concentrated on the tensile side of the structural member and the concrete is filled in. Since the concrete is confined by the steel plate, the flexural rigidity is increased and the concrete is not exposed. Therefore, it is possible to prevent cracks and neutralization, thereby improving durability. In addition, since the concrete of the composite beam and the slab is cured by being poured integrally, it is an economical and environmentally friendly method because structural integrity is secured and no separate formwork is used.

As a background of the present invention, there is a patent application No. 10-0343960 'Steel Concrete Structure System' (Patent Document 1). This patent proposes a steel concrete composite beam comprising a channel or two angles disposed on the outermost of the beam with a tensile material. The steel concrete composition proposed by this patent is efficient as it can be used as a structural member in the channel and angle while simultaneously acting as a formwork during the construction, and the steel is disposed at the outermost part of the structural member, which is effective in stress and can prevent cracking It is disadvantageous to use irregular excessive steel amount because the whole channel-shaped steel beam is uniformly formed with the thickness of the bottom plate necessary for bending reinforcement.

Another technology to be a background of the present invention is a patent registration No. 10-0759041 'Connection structure and connection method of column and steel frame of a building' (Patent Document 2). This patent proposes a technique of designing beam with bending moment generated at center of beam by constructing iron plate as permanent form on the end of steel beam where maximum bending moment occurs and concrete is laid by separately reinforcing the end of beam. Although the proposed technique has the advantage of reducing the overall cross-sectional area and the amount of steel material in the beam, it has the disadvantage of using excessive irregular steel amount because it constitutes a steel plate of uniform thickness in reinforcing the end of the beam.

Patent Registration No. 10-0343960 'Steel Concrete Structure System' Patent Registration No. 10-0759041 'Connection structure and connection method of column and steel frame of a building'

The present invention has been made to solve the problems of the prior art described above, and it is an object of the present invention to provide an advantage of a conventional steel plate permanent form composite beam in which a cross section of steel is concentrated on a tensile side skin of a structural member, And which can resist an external force economically, and a composite beam using the same.

A double angle thin plate assembly according to a preferred embodiment of the present invention includes a bottom plate having a predetermined thickness and a pair of side plates each of which is formed of a thin plate having a thickness thinner than that of the bottom plate and vertically coupled to both ends of the top plate, And the inner surface of the vertical portion of the a-shaped steel is joined to the outer surface of the upper end of the pair of side plates so that the horizontal portion of the a-shaped steel is directed to the inside of the end surface, and a pair of angle members And a side plate connecting member for connecting the pair of side plates at regular intervals along the lengthwise direction of the pair of side plates.

At this time, a stud bolt may be installed on the upper surface of the lower plate so as to protrude inwardly from the end surface of the double-angle thin plate assembly with a predetermined interval along the longitudinal direction of the lower plate.

In addition, the side plate connecting members may be provided in two rows in the center portion of the side plate in the height direction and the bottom portion in the height direction of the side plate.

On the other hand, the bottom plate can be arranged in an inverted T-shape composed of T-shaped steel.

A composite according to a preferred embodiment of the present invention is composed of a lower plate having a certain thickness and a pair of side plates each of which is formed of a thin plate having a thickness thinner than that of the lower plate and vertically coupled to both ends of the upper surface of the lower plate, A pair of angle members joined to the outer surface of the upper end of the vertical portion of the a-shaped steel such that the horizontal portion of the a-shaped steel is directed to the inside of the end face, and stud bolts are bonded to the upper surface at regular intervals along the longitudinal direction, And a side plate connecting member for connecting the pair of side plates at regular intervals along the side plate longitudinal direction of the double-side thin plate assembly ass'y. A deck plate on which an end portion of the double-angle thin plate assembly beam is mounted on an upper portion of an angle member; And concrete that is cured on the inside of a cross section of the double-angle thin plate assembly beam and on the top of the deck plate.

Since the double-angle thin plate assembly beam and the composite using the same according to the present invention are formed integrally with the concrete of the composite beam and the slab, the structural integrity is secured and the steel plate assembly beam replaces the role of the formwork, It is possible to achieve the shortening and the cost saving effect.

Also, since the concrete is restrained by the steel plate, the flexural rigidity is increased and the concrete is not exposed, so cracks and neutralization are prevented and the durability is improved.

In particular, since the amount of steel material required for each part can be flexibly adjusted, the steel material can be economically resisted against external force while reducing the amount of steel material, thereby providing an efficient, environmentally friendly, and economical 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 a double-angle thin plate assembly beam according to an embodiment of the present invention.
2 is a perspective view of a double-angle thin plate assembly beam according to another embodiment of the present invention.
3 is a cross-sectional view of a double-angle thin plate assembly beam according to another embodiment of the present invention.
4 is a cross-sectional view of a composite beam using the double-angle thin plate assembly 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.

1 is a perspective view of a double-angle thin plate assembly beam according to an embodiment of the present invention.

The double angle thin plate assembly according to the present invention includes a bottom plate 11 having a predetermined thickness and a pair of side plates 12 and 12 each formed of a thin plate having a thickness thinner than the bottom plate 11 and vertically coupled to both ends of the top surface of the bottom plate 11 And an inner side surface of the a-shaped steel is joined to an outer surface of the upper end of the pair of side plates 12, 12, and stud bolts (not shown) are formed on the upper surface at regular intervals along the longitudinal direction A side plate connecting member 14 connecting the pair of side plates 12 and 12 at regular intervals along the longitudinal direction of the pair of side plates 12 and 12, .

The lower plate 11 is made of a steel plate which is thickest than the other components. The lower plate 11 located at the lowest end of the beam neutral axis is a component that requires maximum tensile performance. In the present invention, the bottom plate 11, which resists the tensile force of the lowest neutral axis, i.e., the maximum value, is made of the thickest steel plate, and the other components, which do not need to withstand or resist a tensile force smaller than that of the bottom plate 11, And the amount of steel used in the beam configuration can be flexibly adjusted. The thickness of the bottom plate 11 is determined by the structural calculation so that the maximum bending resistance is determined by a sufficient tensile force.

The pair of side plates 12 and 12 are formed of a thin plate thinner than the bottom plate 11 and are vertically coupled to the bottom plate 11 at both ends of the upper surface of the bottom plate 11. The pair of side plates 12 and 12 constitute side walls of the double-angle thin plate assembly beam and may be formed to be inclined at an acute angle or an obtuse angle, but they are preferably formed vertically and may have various heights. The bottom plate 11 and the pair of side plates 12 and 12 form a U-shaped section to serve as a mold when concrete is poured, and after the curing of the concrete, the reinforcing concrete structure, such as Stirrup, At the same time, it connects the compression side and the tensile side, and reinforces the tensile stress in the vicinity of the point.

The pair of side plates 12 and 12 may be joined to the bottom plate 11 by any method known in the art, such as welding, and preferably the bottom plate 11 is formed with a groove 11h The side plate 12 may be fitted in the groove 11h and then welded on the outside. When the lower end of the side plate 12 is welded to the groove 11h, the lower end of the side plate 12, which is to be opened outward due to the side pressure of the concrete, is primarily restrained by the groove 11h, There is an advantage that the amount of welding for fixing to the bottom plate 11 can be reduced.

Angle members (13, 13) are respectively coupled to the upper ends of the pair of side plates (12, 12). The pair of angle members 13 and 13 are made of a thicker than the side plates 12 and 12 and the inner side of the vertical portion of the a-shaped steel is arranged on the pair of side plates 12 and 13 so that the horizontal part of the a- 12). The angle member 13 mounts the deck plate as a means for providing a support point of a deck plate to be described later to support the weight of the deck plate and to provide a load transmission support point to the deck plate when the concrete is poured. The size and thickness of the angle member 13 are determined by structural calculation in consideration of the deck plate straddling length, the deck plate, and the concrete load.

The stud bolts 131 are joined to the upper surface of the pair of angle members 13 and 13, that is, the upper surface of the horizontal portion of the a-shaped steel, at regular intervals along the longitudinal direction of the angle member. The stud bolt 131 is a kind of shear connector that transmits shear stress against horizontal shear force and prevents separation of slab concrete and angle member due to bending stress, . The stud bolts 131 are joined to the upper surface of the angle member and are coupled with a sufficient distance to secure the straddle length of the deck plate.

The side plate connecting member 14 is a means for maintaining a space between the pair of side plates 12, 12 by connecting the pair of side plates 12, 12. The side plate connecting members 14 are connected to connect the pair of side plates 12, 12 at regular intervals along the longitudinal direction of the pair of side plates 12, 12, and preferably, The long bolt B is inserted so as to penetrate through both side plates 12 and 12 and can be coupled by fastening the nut N outside the side plate. The side plate connecting member 14 prevents shearing of the pair of side plates 12 and 12 due to the side pressure generated when the concrete is poured, and acts as an integral part of the concrete, thereby exhibiting shear strength. The mounting height of the side plate connecting member 14 is not limited, but it is preferable that the side plate connecting member 14 is installed at the center of the side plate in the height direction.

2 is a perspective view of a double-angle thin plate assembly beam according to another embodiment of the present invention.

In this embodiment, the stud bolts 111 are further provided on the upper surface of the lower plate 11 so as to protrude inwardly from the end surface of the double-angle thin plate assembly with a predetermined interval along the longitudinal direction of the lower plate 11. This is to ensure that the concrete that is cured to the inside of the double angle thin plate assembly beam and the double angle thin plate assembly beam performs the integrated behavior of the composite beam. It transmits the shear stress against the horizontal shear force between the double angle thin plate assembly beam and concrete, . Although the stud bolts 111 are shown as being arranged in a line in the drawing, the present invention is not limited thereto and the double-angle thin plate assembly beam may be arranged in two or more rows according to the size and structure calculation. The joining of the stud bolts 111 follows any method known in the art, such as welding.

Further, in the present embodiment, the side plate connecting member 14 for connecting the pair of side plates 12, 12 is further provided at the lower side in the height direction of the side plate in addition to the center portion in the side plate height direction. When the side plate connecting member 14 is further provided at the lower end of the side plate, it is possible to prevent the side plate 12 from being detached from the bottom plate 11 when the concrete is laid. At this time, the stud bolt 111 and the side plate lower end side plate connecting member 14 may be alternately installed so as not to interfere with each other.

3 is a cross-sectional view of a double-angle thin plate assembly beam according to another embodiment of the present invention.

In the present embodiment, the lower plate 11a is made of T-shaped steel and disposed in an inverted T-shape. When the lower plate 11a is formed of a T-shaped steel plate rather than a flat plate, the stud bolts 111 provided on the lower plate 11 may be omitted in the above-described embodiment, and shear reinforcement and integration with concrete can be expected. In addition, since a cross-section is reinforced on the tensile side, a greater flexural strength can be expected than when a flat plate is used. Therefore, when a large tensile strength is required, it is preferable that the lower plate 11a is made of T-shaped steel.

4 is a cross-sectional view of a composite beam using the double-angle thin plate assembly beam according to the present invention.

The steel concrete composite beam using the double-angle thin plate assembly beam 10 constructed as described above will be described below. When the double-angle thin plate assembly beam 10 is installed on a column (not shown) erected at a design position, an end of the deck plate 15 is fixed to an upper portion of the angle member 13 of the double- Is mounted. As described above, the angle member 13 provides the mounting surface of the deck plate 15 and provides a load supporting point. Concrete 16 is laid on the inside of the end face of the double-angle thin plate assembly beam 10 and the deck plate 15 so that a composite beam is formed inside the double-angle thin plate assembly beam and a slab is integrally formed on the deck plate.

As described above, according to the present invention, since the composite beams and the concrete of the slab are integrally formed, the structural integrity is secured and the steel plate assembling beam replaces the role of the formwork, so that no separate formwork is used, .

Also, since the concrete is constrained by the steel plate, the flexural rigidity is increased and the concrete is not exposed. Therefore, it is possible to prevent cracks and neutralization, thereby improving durability.

In particular, it is possible to control the amount of steel material required depending on the area, thereby reducing the amount of steel used and economically protecting the external force, thereby being efficient, environmentally friendly and economical.

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.

10: double angle thin plate assembly beam 11: bottom plate
111: Lower plate stud bolt 11h: Lower plate groove
12: side plate 13: angle member
131: Angle member stud bolt 14: Side plate connecting member
15: Deck plate 16: Concrete

Claims (5)

A pair of side plates 12 and 12 and a pair of side plates 12 and 12 which are formed of a thin plate having a thickness thinner than that of the bottom plate 11 and are respectively connected to both ends of the top surface of the bottom plate 11, And the inner surface of the vertical portion of the a-shaped steel is joined to the outer surface of the upper end of the pair of side plates 12 and 12 so that the horizontal portion of the a-shaped steel is directed to the inside of the end surface, A pair of angle members 13 and 13 to which the bolts 131 are joined, a pair of side plates 12 and 12 and a pair of side plates 12 and 12, (14)
A groove 11h is formed in the bottom plate 11 and the pair of side plates 12 and 12 are fitted in the groove 11h and are welded on the outside to weld the bottom plate 11 and the pair of side plates 12 and 12 Coupled,
Wherein the side plate connecting members (14) are installed in two rows in a height direction central portion of the side plate (12) and a bottom side height direction of the side plate (12). The method according to claim 1,
And a stud bolt (111) is further provided on the upper surface of the lower plate (11) so as to protrude inwardly from the end surface of the double angle thin plate assembly with a predetermined interval along the longitudinal direction of the lower plate (11). delete The method according to claim 1,
The lower plate (11)
T-shaped steel and arranged in an inverted T-shape. A pair of side plates 12 and 12 and a pair of side plates 12 and 12 which are formed of a thin plate having a thickness thinner than that of the bottom plate 11 and are respectively connected to both ends of the top surface of the bottom plate 11, And the inner surface of the vertical portion of the a-shaped steel is joined to the outer surface of the upper end of the pair of side plates 12 and 12 so that the horizontal portion of the a-shaped steel is directed to the inside of the end surface, A pair of angle members 13 and 13 to which the bolts 131 are joined, a pair of side plates 12 and 12 and a pair of side plates 12 and 12, And a pair of side plates 12 and 12 are fitted in the respective grooves 11h and then are welded on the outer side and welded to the lower plate 11 to form a pair The side plate connecting members 14 are installed in two rows in the height direction center portion of the side plate 12 and the bottom side in the height direction of the side plate 12 Thin beam angle block assembly (10);
A deck plate (15) having an end portion mounted on an upper portion of an angle member (13) of the double - angle thin plate assembly beam (10); And
And a concrete (16) cast inside the end face of the double-angle thin plate assembly beam (10) and above the deck plate (15).

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