KR20150088049A - A steel form assembly for atypical concrete structures - Google Patents

Abstract

The present invention provides a steel form assembly for an atypical concrete structure, which is a proper steel form to place a concrete structure with a great surface curvature and surfaces with severe changes in protruding and denting, with an improved structure to prevent torsion or damage even if the load of concrete works on a connecting part between a steel frame and a stiffener. The steel form comprises: a widthwise member (2) in a shape of a curve with a cutout (4) on both side ends, and a number of binding grooves (6) formed and divided evenly on an external side; a longitudinal member (10) in the shape of a curve with a bump (12) formed on both side ends, and a number of corresponding binding grooves (14) formed and divided evenly in an internal side; widthwise stiffeners (18) in the shape of a curve placed in a direction crossing a longitudinal member (3) with a protruding part (20) formed on both ends, and an assembly groove (22) formed on a same position as that of the binding groove (6) of the widthwise member (3) on the external side; and longitudinal stiffeners (24) in the shape of a curve placed in a direction crossing the widthwise member with a protruding part (26) formed on both ends, and a corresponding assembly groove (28) in the same position as that of a corresponding binding groove (14) of the longitudinal member (10). All contacting parts are welded and connected when a steel plate (30) is attached to one side of a steel frame formed by welding and connecting the cutout (4) and the bump; the binding groove (6) and the protruding part (26); the corresponding binding groove (14) and the protruding part (20); and the assembly groove (22) and the corresponding assembly groove (28), which are assembled to interlink.

Description

Technical Field [0001] The present invention relates to a steel form assembly for atypical concrete structures,

The present invention relates to a steel foam used for pouring concrete, and more particularly, to a steel foam structure for forming an irregular concrete structure suitable for pouring a concrete structure continuous to a nonplanar surface.

A form called Euroform is widely used in the formwork which keeps a certain shape until the concrete put in the construction work coagulates. However, this is a structure in which a waterproof plywood or an aluminum plate is attached to the inside of the frame made of steel. But it is possible to construct only a planar shape.

The formwork for placing a concrete structure having a curved surface having a flat surface, such as a pier, has adopted a steel foam assembly in which an iron plate is welded to a steel frame to assure a certain level of precision in construction.

1, a steel plate 1 having a curved surface conforming to the surface curvature of the concrete structure to be formed is welded to one side of the steel frame 3, and the rear side thereof is welded to the steel frame 1 3), the stiffeners (5) are arranged in a lattice pattern, and all the seams between these parts are welded together, but they are integrally bonded to each other. However, when the concrete structure having a large surface curvature When the steel foam having the above structure is applied, a strong twist acts between the steel frame 3 and the stiffener 5, and the welded joint is often twisted to cause a breakage.

Examples of the steel foams used for the irregular concrete structures include a plurality of lightweight vertical steel bars installed upright on the boundary of an area for constructing a concrete structure as shown in Figs. 1 and 2 of the following patent document 1, A pair of lightweight horizontal steel frames installed between the steel frames, and vertical and horizontal reinforcing bars arranged in the vertical and horizontal directions between the lightweight horizontal steel frames.

As shown in Figs. 2 and 3 of the following patent document 2, examples of the steel foams used in the non-flat concrete structures of another example include a T-type steel frame having a plurality of triple pairs arranged on the base steel frame provided on the atypical building structure A connecting plate provided on the upper portion thereof, a reinforcing pipe, a joint member provided between the T-shaped steel frames, and a finishing member.

As another example of the steel foam for an irregular concrete structure, as shown in Fig. 8 of the following patent document 3, a base panel which can be continuously connected in four directions and whose sides are formed in an inclined surface, A plurality of connecting panels provided with corner points at different angles so as to be able to change the angle of confrontation and a pair of base panels sandwiched between the side surfaces of the adjacent base panels including the connecting members, And a fixing member connected to maintain an angle.

Korean Patent No. 10-1184277, Figures 1 and 2 Korean Patent No. 10-1209662, Figures 2 and 3 Korean Patent No. 10-1338601, Drawing 8

The conventional steel foam for forming an atypical concrete structure focuses on the rigidity of the assembly so that the shape of the form may not be deformed even if a concrete load acts before solidification or a curved surface can be easily placed according to the construction site It is not suitable for the placement of an irregular concrete structure in which the surface curvature intended by the present invention is large and the surface protrusions and depressions vary greatly.

It is therefore an object of the present invention to provide a steel form for application to a concrete structure having a large surface curvature and a significant change in the protrusion and depression of the surface. Even if the torsion acts on the connection portion between the steel frame and the stiffener due to the load of the concrete, The present invention provides a steel foam structure for forming an atypical concrete structure having a structure that does not cause an occurrence of a crack.

The steel foam structure for forming an atypical concrete structure of the present invention which realizes the above object is characterized in that a pair of transverse members and a longitudinal member are symmetrically arranged so that the notches at both side ends are engaged with each other, And both ends of the lateral stiffener are fitted to the corresponding fastening grooves of the longitudinal members and welded to each other, and at both ends of the longitudinal stiffener, A welded joint and a corresponding assembly groove formed on the curved surface are inserted into an assembly groove formed on a curved surface of the transverse stiffener and welded to each other so that the steel frame and the stiffener arranged in a lattice form in the steel frame are engaged with each other Welded, and a steel plate is attached to either side of the steel frame Roo is a structure that is not significant in the twisted decomposed or modified by external loads both the contact area on the welding connection.

In the steel foam structure for forming an atypical concrete structure of the present invention, which is characterized by the above-described structure, the cross member and the cross member may be arranged such that their curved surfaces are symmetrical with each other.

In the steel foam structure for forming an atypical concrete structure having the above-described structure, the notch, the engaging groove, the protrusion, the corresponding engaging groove, the protrusion, the assembling groove, and the corresponding assembling groove formed in the transverse member, the longitudinal member and the stiffener Is preferably formed to have a size corresponding to 1/2 of the width of the steel material on the strip.

The steel foam structure for forming an atypical concrete structure according to the present invention is characterized in that a steel plate frame is welded in a state where a steel plate frame is formed between the steel plate and the steel plate and between the steel frame and the steel plate, And the horizontal stiffener and the vertical stiffener are integrally welded together in a state where the assembly groove and the corresponding assembly groove are engaged with each other. In addition, since the steel plate is attached to one side of the steel frame, Even if a considerable external force is applied, the steel frame frame and the stiffener are firmly supported without staggering, so that the surface of the concrete structure to be laid is not only formed smooth but also deformed.

Furthermore, since the external appearance of the steel frame and the stiffener are common to each other, both the steel frame and the stiffener can be used solely by a single component member, which facilitates the standardization of the parts and has the advantage of being manufactured at a low cost.

1 is a partially exploded perspective view showing a conventional steel foam;
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a steel frame,
3 is a perspective view showing another structural member required for a steel frame of a steel form according to the present invention.
4 is a perspective view showing a process of arranging a horizontal stiffener in a steel frame of a steel foam according to the present invention.
5 is an enlarged partial perspective view showing a connection portion of a corner portion of a steel frame of a steel foam according to the present invention.
FIG. 6 is a perspective view showing a process of installing a vertical stiffener which is arranged in an intersecting manner in the horizontal stiffener in the example shown in FIG. 4;
7 is a partial perspective view showing an example of cross connection of the horizontal stiffener and the vertical stiffener.
8 is a perspective view showing an example in which a steel plate is attached to one side of a steel frame on which a horizontal stiffener and a vertical stiffener are assembled.

Hereinafter, a steel foam according to the present invention will be described in detail as a preferred embodiment according to the accompanying drawings 2 to 8.

FIG. 2 is a perspective view of a main structural member constituting a steel foam according to the present invention. The illustrated horizontal member 2 is a strip-shaped steel material formed to be curved at a predetermined curvature, and cutouts 4 are formed at both sides thereof, In the curved surface, a plurality of binding grooves 6 are equally divided and the through holes 8 are formed at even intervals on the flat surface in the cross direction.

The transverse members 2 having the above-described structure are provided in pairs to form one steel foam. As shown in Fig. 3, a pair of the transverse members 2 are arranged at predetermined intervals, and the longitudinal members 10, which are almost the same in shape at both side ends thereof, are similarly arranged in pairs.

The longitudinal member 10 is made of a strip-shaped steel material formed to be curved at a predetermined curvature. At both sides of the longitudinal member 10, protrusions 12 to be engaged with the notches 4 are formed. On the inner curved surface, And a plurality of through holes 16 are arranged at regular intervals on the flat surface in the cross direction as in the case of the transverse member 2. [

In the present invention, the sizes of the notches 4 and the protrusions 12 are set to be equal to each other. However, the number of the coupling grooves 6 and the corresponding coupling grooves 14 may be adjusted depending on the direction .

2, when the number of the corresponding fastening grooves 14 is larger than the number of the fastening grooves 6 of the transverse member 2 in the longitudinal direction, A larger number of lateral stiffeners 18 can be arranged.

The horizontal stiffener 18 shown in Fig. 4 is formed of a strip-shaped steel material formed to be curved at a predetermined curvature, and protruding portions 20 are formed at both ends of the horizontal stiffener 18 to be fitted into corresponding fastening grooves 14 of the longitudinal members 10 And an assembling groove 22 is formed on the outer curved surface to be positioned at the same position as the engaging groove 6 of the transverse member 3.

The transverse stiffener 18 is assembled so as to be arranged in the same direction as the transverse member 2 from the inside of the steel frame frame formed of the pair of transverse members 2 and the pair of longitudinal members 10. [

The steel frame is welded to the contact line between the notch 4 and the protrusion 12 which are engaged with each other as shown in Fig. 5 when a pair of the transverse member 2 and the pair of longitudinal members 10 are arranged in a rectangular shape .

As shown in Fig. 6, the vertical stiffener 24 is arranged for the horizontal stiffener 18 arranged as described above. The longitudinal stiffener 24 is formed of a strip-shaped steel material curved at a curvature corresponding to the longitudinal member 10, and protruding portions 26 are formed at both ends of the longitudinal stiffener 24, And the corresponding mounting groove 28 is formed at the same position as the mounting groove 14.

In assembling, both end protruding portions 26 of the vertical stiffener 18 are welded along the contact lines appearing to be fitted into the fastening grooves 6 of the transverse member 2 respectively, Are welded and integrally joined along contact lines which are inserted and assembled into the assembly grooves 22 of the horizontal stiffeners 18 arranged side by side as shown in the drawing.

A steel plate 30 is attached to either side of the welded steel frame with the transverse stiffener 18 and the longitudinal stiffener 24 arranged inside and the steel plate 30 as shown in Fig.

The portion where the steel plate 30 is in contact with the transverse member 2, the longitudinal member 10, the lateral stiffener 18, and the longitudinal stiffener 24 is also welded together.

The steel plate 30 is attached as shown in FIG. 8 when the surface of the atypical concrete structure has a concave curved surface. When it is desired to place the convex curved concrete structure at the opposite side, the concrete plate Can be obtained.

The protrusions 12 of the transverse member 2 and the engaging grooves 6, the protrusions 12 of the transverse member 10, the corresponding engaging grooves 14, the projections 20 of the transverse stiffener 18, The protrusions 26 of the vertical stiffener 24 and the corresponding fitting grooves 28 are preferably formed to have a size corresponding to one half of the width of the steel on the strip.

As described above, the steel foam structure for forming an atypical concrete structure according to the present invention is characterized in that the notch 4 and the protrusion 12 are engaged, the engaging groove 6 is engaged with the protrusion 20, The longitudinal members 10 and the lateral stiffeners 18 and the longitudinal stiffeners 24 are integrally joined to each other by the engagement between the grooves 28 and the lateral members 2 And the through holes 8 and 16 formed in the longitudinal member 10, so that adjacent steel foams are continuously connected to each other to form a predetermined shape.

2: transverse member 4: notch
6: Bonding groove 8: Through hole
10: longitudinal member 12: projection
14: Corresponding fastening groove 16: Through hole
18: Horizontal stiffener 20: Projection
22: Assembly groove 24: Vertical stiffener
26: protrusion 28: corresponding assembly groove
30: Steel plate

Claims (3)

A transverse member (2) formed of a strip-shaped strip material formed to be bent and formed with cutouts (4) at both ends thereof and having a plurality of bond grooves (6)
And a plurality of corresponding fastening grooves 14 are equally divided in the inner curved surface so that the distance between the notches 4 and the protrusions 12 at both sides is equal to A longitudinal member (10) for forming a steel frame frame together with the transverse member (2) by being welded and connected;
And an assembly groove 22 is formed in the outer curved surface at the same position as the fixing groove 6 of the transverse member 3 so that the longitudinal member A plurality of transverse stiffeners 18 arranged in parallel with the transverse member 2 as the protrusions 20 are engaged and welded to corresponding fastening grooves 14 of the transverse member 3;
A protruding portion 26 is formed at both ends and a corresponding fitting groove 28 is formed at the same position as the corresponding fastening groove 14 of the longitudinal member 10 so that the transverse member 2 Of the transverse stiffener 18 and the fitting groove 22 of the transverse stiffener 18 and the corresponding fitting groove 28 are welded and welded to each other in parallel with the longitudinal member 3 A plurality of longitudinal stiffeners 24;
A steel plate 30 in which both the lateral member 2 and the longitudinal member 10 and the portion of the steel frame formed by the lateral stiffener 18 and the longitudinal stiffener 24 that are attached to and contacted with each other are welded together Steel Foam Structure for Constructing Irregular Concrete Structures. 2. The steel foam structure for forming an atypical concrete structure according to claim 1, wherein the transverse member (2) and the longitudinal member (10) are arranged such that their curved surfaces are symmetrical. 2. The apparatus according to claim 1, wherein the notch (4) of the transverse member (2) and the engaging groove, the protrusion (12) of the longitudinal member (10) and the corresponding engaging groove (14) Wherein the assembly groove 22 and the projecting portion 26 of the vertical stiffener 24 and the corresponding assembly groove 28 are formed to have a size corresponding to 1/2 of the width of the steel material. Structure.

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