KR20010005431A - Steel concrete structure - Google Patents

Abstract

PURPOSE: A steel concrete structure system is provided, which is economical and effective by using a tension member to the whole cut end of structural steel, can be applied on apartment construction by reducing floor height sharply, can reduce the dismantling expenses of a form by combining the form work and the fireproof covering work, is easy to execute the reinforcement work if the extension work or additional live load is necessary and prevents the occurrence of cracks by arranging steels on the most outer block. CONSTITUTION: A steel concrete structure system arranges structural steel along the lower end of a beam instead of a main root of a reinforced concrete beam to endure tensile force. As steel materials, a channel (2) or two angles are used and a plate can be used if a span isn't long enough; if using a channel (2), a channel having the same width as the width of a beam is exposed and installed on the lowest end of a beam, so that a tension member is placed at the most outer block of a beam and a steel member is more advantageous than the existing a steel reinforced concrete reclaimed in the middle of concrete in a profile capacity; if using an angle, two angles are installed on the both bottom corners of a beam and a truss bar (4) or a plate piece is attached after welding to bind two angles; if using a column, each angle is arranged on four corners of a column to play as a column main reinforcing bar and a truss bar or a welding wire net is installed vertically between the inner face of an angle; if using a channel, two channels having the same width as the width of a column are installed and two truss bars or a plate piece is attached after welding to the inside of a flange.

Description

Steel concrete structure {Steel concrete structure}

The present invention relates to a steel concrete structure system. More specifically, the present invention relates to a concrete structure in which steel materials are disposed on the tension-side shell of the structural member to resist external forces by synthesizing the steel materials and concrete.

There are four types of structure of a conventional building. Reinforced concrete structure, steel structure, steel reinforced concrete structure and composite structure.

The reinforced concrete structure is a structure in which the concrete bears the compressive force and the reinforcing steel in the concrete bears the tensile force.In the concrete, the reinforced concrete cannot afford the moment or tensile stress due to lack of material or tensile strength. Expensive rebars are arranged only in the areas where tensile stresses occur, which enables economic design as a whole.

Steel structure has high cost per unit volume, so develop and use a good cross section. In other words, wood or concrete sections are mainly hollow sections, while steel frame sections are usually hollow sections or plate-like materials such as angles or channels. However, since the steel structure is difficult to change the cross-sectional area of the structural member in the middle, it has to be designed based on the cross-section with the maximum stress, so that the waste of the cross-sectional area is large, the height of the floor is increased, and the fireproof coating must be separately installed. .

Reinforced concrete structure is a non-flammable material, but is not suitable for fireproof structure. When each frame is insufficient in strength, both steel and steel structures are constructed in the same place. In this way, the reinforced concrete structure can be overlaid or attached to the side to enable the design of nougat strength. The inconvenient point of general steel reinforced concrete structure is to install formwork around and add additional reinforced concrete after finishing steel frame construction, and because the minimum cover thickness should be secured on the outer side of steel frame, the cross section becomes large and construction cost is high. There is a problem. The steel reinforced concrete structure can be disposed within the concrete cross section when there is room in the cross-sectional size, but when reducing the cross-section there is a problem that can not secure the required strength only by the steel frame disposed inside the concrete.

Recently, many attempts have been made to design an apartment structure into a steel structure for rationalization of apartment construction. However, there is a problem that steel structure has a limitation in reducing the height of the apartment, so it is not easy to apply it in reality.

It is an object of the present invention to provide a stress-efficient structural system in which all of the cross-sectional area of the steel can be used as the tensile material, and the cross-sectional area of the steel is at the outermost part of the member.

Another object of the present invention is to provide a structural system that can be applied to the construction of apartments can be significantly reduced floor.

Still another object of the present invention is to reduce the cost of dismantling the formwork to be able to combine the formwork and fireproof coating construction, and to provide an economically advantageous structure system without a fireproof coating construction separately.

Still another object of the present invention is to provide a structural system that is easy to reinforce when construction of an extension or loading is required.

Still another object of the present invention is to provide a structural system in which steel is disposed at the outermost part of the member to prevent the occurrence of cracks.

1 is a cross-sectional view of a beam in the steel concrete structure system of the present invention and a perspective view of the steel used in the beam.

Fig. 2 is a sectional view and a perspective view when an angle is used as the steel of the beam.

3 is a cross-sectional view of the truss bar attached to the channel.

Fig. 4 is a diagram of a state in which a switch socket is attached to an end of the wire strand and a state where the wire strand is bound in a loop shape.

5 is a cross-sectional view of the pillar and the perspective view of the steel used in the pillar in the steel concrete structure system of the present invention.

Fig. 6 is a sectional view and a perspective view when an angle is used as the steel of a column.

7 and 8 are a plan view and a side view of the joint of the column and the beam.

9 is a perspective view of the Sendeck.

Fig. 10 is a plan view and side view of a state where the deck is installed as a slab formwork;

<Brief description of the symbols in the drawings>

2, 28: channel 4, 22: truss bar

6: horizontal rebar 8, 26: lattice muscle

10: concrete 12, 20: angle

14: wire strand 24: vertical rebar

30: fixed plate 32: bonded plate

34: bolt 36: joint angle

38: sen deck 40: horizontal plate

42: triangular rib 44: hole

46: tie bar 48: fireproofing formwork

The present invention will be described with reference to the drawings.

1 is a cross-sectional view of a beam of the steel concrete structure system of the present invention and a perspective view of the steel used in the beam. The structural system of the present invention is to place a steel material in the lower end of the beam instead of the lower main reinforcement of the reinforced concrete beam to bear the tensile force. The steel uses channels 2 or two angles 12, and plates may be used if the span is not long.

In the case of using the channel 2, the channel having the same width as the beam width is installed at the lower end of the beam, but the flange of the channel 2 is installed upward. The channel (2) performs the role of formwork for accommodating concrete at the same time, so it is not necessary to install a separate formwork for the lower beam, it is easy to install. It is advantageous in terms of cross-section performance than existing steel reinforced concrete structures embedded in concrete. In addition, the center of the channel can be attached by welding the stud bolts at regular intervals to increase the adhesion to the concrete.

In the case of using the angle 12, two angles 12 are installed at both lower corners of the beam, and the truss bar 4 is welded and attached between the angles 12 to bind the two angles 12. The truss bar 4 is arranged by placing two horizontal bars 6 in parallel and welding a lattice muscle 8 repeatedly bent in a triangular shape between the two horizontal bars 6. When the horizontal bar is welded and attached to the upper surface of 12), the angles are bound together. In the case of using the angle 12, the beam lower formwork (fireproof coating) is to be separately installed. In addition, instead of the truss bar 4, a plurality of narrow and long pieces of plate may be welded horizontally at regular intervals between the angle 12 and the angle 12.

FIG. 3 is a cross-sectional view of the truss bar 4 installed perpendicular to the channel 2, and the truss bar 4 integrates the concrete 10 and the channel 2 in the state where the concrete 10 is poured later. It acts as a shearing reinforcement for concrete. The truss bar (4) may be attached to the inner surface of the flange of the channel (2) attached to the lattice root (8) repeatedly bent in a triangular shape between the two horizontal bars (6), A horizontal bar 6 is installed at the bottom and the lower part, and a lattice bar 8 repeatedly bent in a triangular shape is attached between upper and lower horizontal bars, and a tie bar 46 is attached between upper bars. It can also be attached to the center of the web, or a general welded wire mesh can be used instead of the lattice root. The lattice muscle 8 also serves as a support for supporting the strong deck 38 as a slab formwork.

If the span of the beam is small and the stress on the beam is not large, only the channel 2 or angle 12 can be used. However, if the channel 2 or angle 12 alone lacks the dance of the beam, the channel or angle 12 A beam formwork can be installed on the side to increase the dance of the beam. Beam side formwork can be used as a plywood formwork commonly used, but can be used as a fireproof coating of steel, if the formable material 48 to serve as a fireproof coating material to remain without demolding the fireproof coating formwork 48.

It is difficult to expect the structural strength by itself because the channel 2 is used in the lying direction rather than the direction in which it is generally used. Therefore, unlike general steel construction, when installing the channel (2), it is necessary to install a temporary support or to use a temporary truss using the channel (2) or angle (12) as a compression member of the construction truss. That is, the channel and the concrete are not considered to be able to play a structural role until the channel 2 and the concrete 10 poured on the upper portion of the channel are integrated. Steel concrete structure system of the present invention is a structure similar to the theory of reinforced concrete structure, the steel is used instead of the reinforcement, except that the steel is exposed to the shell of the structural member.

It is advantageous to solve the general reinforced concrete structure concept by reinforcing the reinforcing bars or wire strands 14 in concrete instead of the steel parts. This is because it is difficult to cast it tightly. Since the wire strand 14 may have a smaller cross-sectional area than strength and thus may have insufficient adhesion strength, as shown in FIG. 4, a wire socket 14 may be attached to a swage socket 16 or manufactured in a loop. That is, the circular washer 18 is inserted at the end of the wire strand 14 and the switch socket 16 is installed behind the washer 18 so that the washer 18 can resist the tensile force applied to the wire strand 14. Alternatively, by forming a loop at the end of the wire strand 14 and binding it with a switch socket 16, the loop is fitted into the reinforcing bar so as to resist the tension applied to the wire strand 14.

In addition, the reinforced concrete structure is to remove the formwork when the concrete is cured, but in the steel concrete structure system of the present invention, since the steel is exposed to the shell of the structural member, it is desirable to permanently use the refractory material as the form material. Do.

5 and 6 are cross-sectional views of pillars and steel materials of the steel concrete structure system of the present invention. The steel uses four angles 20 or two channels 28. When the angle 20 is used, the angles 20 are disposed at four corners of the columns, respectively, so that the four angles 20 serve as the column reinforcing bars, and the truss bar 22 or between the inner surfaces of the angles 20. Install the welded wire mesh vertically. The truss bar 22 is used to attach a lattice bar 26 repeatedly bent in a triangle between the two vertical bars 24, the vertical bar 24 of the truss bar 22 of the angle 20 Weld on the inner side and attach. In the case of using the channel 28, two trusses 28 having the same width as the width of the column are installed in the short side direction of the column, and two truss bars (in the flange of the channel 28) between the channels 28 ( 22) by welding. In addition, instead of the truss bar 4, a plurality of narrow and long pieces of plate may be vertically welded and attached between the angle 12 and the angle 12 vertically.

When the formwork is installed on the outer surface of the angle 20 or channel 28 and the concrete is poured, the column is completed. Formwork can use the existing plywood formwork as it is, and if the formwork acts as a fireproof coating as a formwork, it is not necessary to demould the formwork and can be combined with fireproof coating construction, so construction is easy.

Attaching the truss bars 4, 22 to the angles 12, 20 or the channels 2, 28 in the columns or beams described above may be carried out in the field, but the angles 12, 20 or the channels 2, 28) and welding of the truss bars (4, 22) can be carried out at the factory and the assembly can be transported and installed on site, in which case rebar reinforcement is mechanized and field work is reduced.

7 and 8 are a plan view and a side view of the junction of the beam and the pillar. A fixed plate 30 is horizontally attached to a portion where the channel 2 of the beam abuts between the side angle 20 and the angle 20 of the column, and two joining plates 32 on the left and right sides of the fixed plate 30. ) Are spaced vertically by the width of the beam. The channel 2 of the beam is sandwiched between the two joining plates 32, and a plurality of bolt holes are formed at the flange ends of the joining plate 32 and the channel 2 of the beam, respectively. Insert the bolt 34 and tighten the nut to bind the angle 20 of the column and the channel 2 of the beam. The bolt 34 is installed through the channel 2 to be integral with the concrete 10 placed inside the channel 2 to bind the angle 20 and the channel 2.

8 is a plan view and a side view of another method for joining columns and beams, using only one joining angle 36 without using two joining plates 32. The joint angle 36 is horizontally attached to the fixed plate 30 attached between the angles 20 of the pillars so that one wing of the angle overlaps the web of the channel 2 of the beam, and the protrusion of the joint angle 36 is performed. The bolt 34 is fastened to the bolt hole formed at the web end of the wing and the channel 2 to bind the blade.

9 is a perspective view of a sen deck 38 that can be used as a slab formwork, and FIG. 10 is a perspective view of a slab formwork installed using the sen deck 38. The slab formwork may use a general plywood formwork, but when using the sen deck 38 can further improve productivity.

The sen deck 38 is a composite deck plate, which is not merely a formwork, but a structural deck plate that is integrated with concrete and resists external forces. The lower deck 38 is a bottom plate is smooth and the upper surface is a continuous bending of the iron plate so that a plurality of triangular ribs 42 protrude, triangular rib 42 is composed of a straight portion and a triangular portion horizontal plate 40 ), The straight portion protrudes vertically and is bent back triangularly at the top of the straight portion. Both ends are formed with a male and female binding portion to connect the sen deck 38 made of a predetermined module to each other, it can be connected by self-supporting.

The sen deck (38) also serves as a structural material, not just a formwork, it acts as a formwork until concrete is cured, and can be used as a substitute for reinforcing bar after curing, thereby eliminating the lower reinforcing bar of the slab. In addition, it is possible to construct the structure by only reinforcing the wire mesh on the top. The sen deck 38 may be installed to span the beam side formwork according to the general deck plate installation method, and after covering the upper portion of the beam with the sen deck 38, the horizontal plate 40 of the sen deck 38 only in the area where the beam passes. Concrete can also be poured by drilling a hole 44 in the).

The steel concrete structural system of the present invention is economical because all the cross-sectional area of the steel is used as the tension member, and the channel and the angle are structural materials, and can be simultaneously performed as a formwork during construction. In addition, by using a material that serves as a fireproof coating of the formwork, it is not necessary to dismantle the formwork and can also function as a fireproof coating, which is advantageous for shortening the air. In addition, since the steel material is disposed at the outermost part of the structural member, it is efficient in stress and can prevent cracking. In addition, it is possible to significantly reduce the floor height than the existing steel structure is suitable for apartment design, reinforcement work is easy when extension or loading load is required. In addition, since the production and assembly of steel and truss bar can be done in the factory, the amount of field work is reduced and precision construction is possible, and since reinforcement of reinforcing bars is not dense, concrete pouring or conduit piping is easy. .

Claims (8)

In the reinforced concrete structure consisting of a column or bearing wall, a beam and a slab, the steel is exposed at the lower end of the beam in place of the lower main reinforcing bar of the beam, and the truss is perpendicular to the upper part of the steel in place of the stirrup reinforcement of the beam. Steel concrete structure, characterized in that the bar (4) or a welded wire mesh is installed. 2. The steel according to claim 1, wherein the steel is a channel (2) having a web length equal to the width of the beam and the flanges pointing upwards or two angles installed at the lower edge of the beam and connected to each other by truss bars (4). The steel concrete structure characterized by the above-mentioned. 2. The truss bar (4) according to claim 1, wherein the truss bar (4) consists of a lattice root (8) which is repeatedly bent and welded in a triangle between two horizontal bars (6) arranged parallel to the upper and lower parts at regular intervals, or Three horizontal rebars 6 are arranged at the top and two parallel ones at the bottom. Between the upper and lower horizontal bars, a lattice bar 8 repeatedly bent in triangle is welded, and between the upper horizontal bars, a tie bar ( 46) strong concrete structure, characterized in that attached. 4. The horizontal plate 40 of the sensor deck according to claim 1, wherein a sensor deck 38 is provided above the truss bar 4 attached to the steel or steel of the beam. Steel concrete structure, characterized in that the concrete is poured by drilling a hole (44) in the passing portion. 4. A wire according to any one of claims 1 to 3, wherein a plurality of wire strands (14) are provided above the ends of the beams, and washers (18) and switch sockets (16) are provided at the ends of the wire strands (14). Strong concrete structure, characterized in that the installation or forming a loop. The steel concrete structure according to any one of claims 1 to 3, wherein a fireproof formwork 48 is installed on the outer surface of the steel to pour concrete and not remove the fireproof formwork 48. . In a reinforced concrete structure consisting of a column or bearing wall, beams, and slabs, a plurality of steels are exposed and installed on the outer surface of the column in place of the main reinforcing bar of the column, and trusses between each of the steels in place of the band bars of the column. Steel concrete structure, characterized in that attached to the bar (22) or welded wire mesh. 8. The steel concrete structure according to claim 7, wherein the steel is an angle (20) vertically installed at four corners of the pillar, or a channel (28) vertically installed at two opposite sides of the four sides of the pillar.