KR200454452Y1 - Pillar - Google Patents

Abstract

The present invention relates to a pillar for a building. The composition is; An elongated outer cylinder (2) formed by assembling a side plate (6) obtained by bending two or more metal sheets, each having a hollow, oval or polygonal cross section, which determines the external shape of the column like a formwork. ); A plurality of reinforcing bars (4) installed at the center of the outer cylinder; Reinforcing bar 4 includes reinforcing bar fixing means for connecting the outer cylinder (2) and the reinforcing bar (4) to each other to be fixed to a predetermined position inside the outer cylinder (2). Cement mortar is poured into the pillar for building to form the pillar.

Pillar, strut, cement, concrete, composite, formwork, bending, barrel, box

Description

Column body of building

The present invention relates to a pillar for a building, and more particularly, to a pillar for a building in which a cement mortar for forming strength and a metal plate material having a formwork function are combined.

In general buildings including parking lot buildings, H-beams are widely used as pillars. H-beams offer many advantages, such as shortening the air and diversifying the structure of the building, but in recent years, the rising cost of raw materials raises the problem of high cost.

On the other hand, reinforced concrete pillars are obtained by setting up one bar of reinforcing steel, forming formwork around it, and pouring and curing cement mortar. Such reinforced concrete forms are inexpensive but have a long construction period.

With regard to the above problems, the present invention aims to provide a building pillar that can shorten the air of building construction, minimize the cost burden on the rise of raw material prices, and make it easy to construct.

The above object is to determine the external shape of a column like a formwork, and is an elongated outer cylinder formed by assembling side plates obtained by bending two or more metal sheets, respectively, to have a hollow, oval or polygonal cross section. ; A plurality of reinforcing bars installed at the center of the outer cylinder; The reinforcing bar is achieved by a building pillar including reinforcing bar fixing means for connecting the outer cylinder and the reinforcing bars to be fixed to a predetermined position inside the outer cylinder.

According to an embodiment of the present invention, the side plate constituting the outer cylinder is characterized in that the concave-convex portion for strength reinforcement is provided between the bulbs along the longitudinal direction.

According to an embodiment of the present invention, the reinforcing bar fixing means has a long bolt penetrating the outer cylinder in a direction perpendicular to the extending direction of the outer cylinder; It is characterized in that the binding bolt for binding the reinforcing rod and the long bolt across the inside of the outer cylinder.

According to the configuration as described above, by curing the mortar by pouring cement mortar inside the outer cylinder can be completed. The building pillar may be prefabricated in a factory and transported to a building site. Therefore, it is possible to reduce the time for laying reinforcing bars and installing formwork at the construction site, thereby shortening the construction period, and reducing costs by not using expensive H-beams.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. 1 is a perspective view of a pillar for a building according to an embodiment of the present invention, Figure 2 is an exploded perspective view thereof, Figure 3 is a plan view. 4 is a perspective view of a state in which cement mortar is poured into the pillar body.

Building pillar according to the present invention is composed of an outer cylinder (2), a plurality of reinforcing bars (4) installed therein and reinforcing bar fixing means for connecting the outer cylinder (2) and reinforcing bars (4). The reinforcing bar fixing means allows the reinforcing bar 4 to be evenly distributed inside the outer cylinder 2.

The outer cylinder determines the outer shape of the columnar body like a formwork, and is obtained by assembling the side plates 6 obtained by bending two or more metal sheet materials, respectively. It may also be considered to bend the sheet to join the ends, but it will not be easy to manufacture.

According to this embodiment, a total of four side plates 6 are assembled together to form one outer cylinder 2 having a substantially square cross section. The method of assembling the side plate 6 includes bolting, riveting or welding. The length of the outer cylinder 2 corresponds to the height of one floor of the building and is approximately 2.5 to 3.5 m.

According to the present embodiment, two first side plates 6a and two second side plates 6b constitute the outer cylinder 2. Each side plate and the connection point of the side plates will have overlapping portions of a certain width. The overlapping part F is used to connect the side plate 6 and the side plate 6.

If the thickness of the side plate 6 is in the range of 1 to 3mm is appropriate, too thick, there is a problem of bending and rising costs, if too thin, there is a problem in strength. The outer cylinder 2 may be any metal, such as steel, aluminum, stainless steel or galvanized steel sheet, and in most cases will be determined in consideration of cost and appearance.

The assembly of the side plates 6 provides an outer cylinder 2 having a circular, oval or polygonal cross section with an empty interior. The form shown in FIG. 3 is only one example. The outer cylinder 2 may be a cross section of various shapes.

The side plate 6 is provided with a concave-convex portion 8 for strength reinforcement along its longitudinal direction. As shown, the uneven portion 8 is provided in two places on each side of the outer cylinder.

A plurality of reinforcing bars 4 are installed at the center of the outer cylinder 2. The number and diameter of the reinforcing bars 4 are specifically determined by the strength design calculated with reference to the cross sectional area and height of the column and the load capacity.

The reinforcing bar fixing means connects the outer cylinder 2 and the reinforcing bar 4 to each other so that the reinforcing bar 4 is fixed at a predetermined position inside the outer cylinder 2. According to an embodiment of the present invention, the reinforcing bar fixing means has a long bolt 10 penetrating the outer cylinder 2 in a direction perpendicular to the extending direction of the outer cylinder (2); It is characterized in that the binding strap 12 for binding the long bolt 10 and the reinforcing bar (4) across the outer cylinder (2). Jang bolt 10 has a configuration and function corresponding to the tie bolt used in the general construction site. In the interior of the outer cylinder 2, the long bolt 10 and the reinforcing bar 4 cross each other in the form of a cross (twist), but the tie string 12 is installed at each intersection if possible. The tie string 12 is a wire having a length of about 30 cm and is widely used to bind rebar in a general construction site.

The long bolt 10 is installed in several places at regular intervals along the longitudinal direction of the outer cylinder 2. The side plate 6 is provided with a bolt hole 14 through which the long bolt 10 can pass at regular intervals. In particular, the bolt hole 14 is perforated in the uneven portion 8.

4 illustrates a state in which cement mortar M is poured into an upright installed pillar. The reinforcing bar 4 rises higher than the upper end of the outer cylinder 2 to install the building slab. When cured in this state, one building pillar made of composite material is completed.

According to another embodiment of the present invention, the closing cap 16 may be fitted to the uneven portion 8 so that the bolt head and nut of the long bolt 10 is not exposed to the outside of the pillar. Closing cap 16 is a metal or synthetic resin material having a cross-section (D) shape. The closing cap 16 may be attached and fixed to the outer cylinder 2 by welding, adhesive or silicone.

Hereinafter, another embodiment of the present invention will be described with reference to FIGS. 5 to 6. 5 is an exploded perspective view of a building pillar according to another embodiment of the present invention, Figure 6 is a perspective view of the combined state.

The base plate 22 is attached to the flange plate 22 at the bottom of the outer cylinder 2 for welding. The base plate 22 is perforated with a connection hole 22 into which the bolt can be inserted. The columnar body can be installed continuously in the longitudinal direction via a tubular sleeve 24 into which the reinforcing bars 4 can be inserted. Between the outer cylinder (2) and the outer cylinder (2) of the pillar body is further provided with a cover belt 24 for preventing the leakage of the concrete mortar and processing the finishing portion. The cover strip 24 is coupled to the outer cylinder 2 by welding or a screw not shown.

Reinforcing bars of the lower column and the reinforcing bars of the upper column are inserted into the sleeve 24 by half to assist the connection of the reinforcing bars. The sleeve 24 and the reinforcing bars 4 may be fixed to each other by a metal adhesive. Concrete mortar may be poured in the gaps at the joints of the pillars.

Such an embodiment corresponds to one example for installation and connection of a pillar.

1 is a perspective view of a pillar for a building according to an embodiment of the present invention, Figure 2 is an exploded perspective view thereof, Figure 3 is a plan view.

4 is a perspective view of a state in which cement mortar is poured into the pillar body.

Figure 5 is an exploded perspective view of a building pillar according to another embodiment of the present invention and Figure 6 is a perspective view of the combined state.

Explanation of symbols on the main parts of the drawings

2 ; Outer cylinder 4; rebar

6; Shroud 8; Irregularities

10; Long bolt 12; Ties

16; Closing cap M; Cement mortar

Claims (4)

An elongated outer cylinder (2) formed by assembling a side plate (6) obtained by bending two or more metal sheets, each having a hollow, oval or polygonal cross section, which determines the external shape of the column like a formwork. ); A plurality of reinforcing bars (4) installed at the center of the outer cylinder; Reinforcing bar 4 includes reinforcing bar fixing means for connecting the outer cylinder (2) and the reinforcing bar (4) to each other to be fixed to a predetermined position inside the outer cylinder (2), The side plate (6) constituting the outer cylinder (2) is a pillar for a building, characterized in that the concave-convex portion (8) for strength reinforcement is provided between the light bulbs along the longitudinal direction. delete According to claim 1, wherein the reinforcing bar fixing means has a long bolt (10) penetrating the outer cylinder (2) in a direction perpendicular to the extending direction of the outer cylinder (2); Building pillars, characterized in that the binding strap 12 for binding the long bolt 10 and the reinforcing bar (4). The bolt hole (14) according to claim 1, wherein the reinforcing bar fixing means is a long bolt (10) passing through the outer cylinder (2) at right angles to the extending direction of the outer cylinder (2). ); Building pillars, characterized in that the concave-convex portion (8) is covered with a fixing cap 16 is fixed so that the long bolt 10 is visually hidden.

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