KR20100002842U - Crossbeam structure with a reforming deck type - Google Patents

Abstract

The present invention relates to a beam structure of the reinforcement deck type, reinforces the steel structure consisting of lattice wire and the side and the lower wire at regular intervals, and form a wire mesh on the upper side as a whole, the reinforcement portion at regular intervals It is an object of the present invention to provide a beam structure of the reinforcement deck type that can reduce the overall thickness by tensioning the prestress inside the reinforcement portion while forming the reinforcement, while having excellent support for vertical and horizontal shear forces.

When the present invention is applied, the prestress is drawn and concrete is cast to improve the tensile strength of the structure by strengthening the entire upper end of the structure and to increase the internal downward shear force of the protrusions projecting downward, thereby forming a beam having a longer length. Therefore, there is an advantage that the pillar spacing of the building can be further extended. In addition, by joining secondary concrete to each beam structure's neighboring part and the upper surface of the beam structure, the coupling force between beam structures can be further increased, and the support force for vertical and horizontal shear forces is increased through beam structure and prestress. There is an advantage that can significantly reduce the construction cost of a building.

Reinforcement deck, truss, truss deck, lattice wire, beam, prestress.

Description

Reinforcement deck type beam structure {CROSSBEAM STRUCTURE WITH A REFORMING DECK TYPE}

The present invention relates to a beam structure of the reinforcement deck type, in more detail the steel structure consisting of a lattice wire and the side and the lower wire at a predetermined interval, and to form a wire mesh on the upper side as a whole, a constant interval The present invention relates to a beam structure of a reinforcement deck type that has a superior support for vertical shear and horizontal shear, while reducing the overall thickness by stretching the prestress into the reinforcement and reinforcing the prestress.

As is well known, a building is generally based on various structural components such as pillars, beams, ceilings, stairs, and the like. In the case of a pillar of a small building, it is usually formed by forming formwork and pouring concrete. In the case of beams for connecting the upper ends of the columns, formwork was formed and concrete was poured.

However, this method of forming the beam takes a lot of time for forming the formwork, and it is very economically disadvantageous method because it requires a long drying time until it has a support strength of a certain strength after concrete placement. .

Therefore, recently, in order to solve this problem, truss deck plates for reinforcing the beams and forming the beams have been manufactured.

The truss deck plate is coupled to the plywood on the upper part of a predetermined width and forms a certain structure is composed of an iron structure to increase the bondability when placing concrete. However, such a conventional truss deck plate is to form a beam through the penetration of concrete between the steel structure bar, such a truss deck plate after the concrete casting and curing occurs due to the center curvature due to its own weight will cause damage due to its own weight There was a problem that it could.

That is, the conventional truss deck plate had a problem that it was vulnerable to the vertical shear force.

In addition, in the case of the method of forming a beam structure by reinforcing the reinforcing bars in advance, and forming the beam by placing the beam structure on the upper surface of the column, the connection between each beam structure is weak, weakening the support or reinforcement of the entire structure There was a problem that can be made. In other words, the conventional truss deck plate was also vulnerable to the horizontal shear force was needed to reinforce the situation.

The present invention has been made in view of the above-described prior art, and the steel structure consisting of a lattice iron wire and a side and a lower wire is placed at regular intervals, the wire mesh is formed on the upper side as a whole, and at regular intervals. The purpose of the present invention is to provide a reinforcement deck type beam structure that can reduce the overall thickness by forming a reinforcement part and stretching the prestress inside the reinforcement part to reduce the overall thickness, while also having excellent support for vertical shear force and horizontal shear force. have.

In order to achieve the above object, according to a preferred embodiment of the present invention, respectively installed in the width direction inside the structure, is continuously bent in the form of a sine wave, the left and right lattice iron wire 20 is inclined at a predetermined angle and the bottom A reinforcing structure consisting of a lattice iron wire 20 and a lower iron wire 18 which are in contact with and welded to the outer circumference of the silver lower wire 18; Side wires 22 disposed in the width direction of the structure to be in contact with both sides of the lattice wire 20; A wire mesh 24 installed on an upper side of the reinforcing structure and formed in a rectangular lattice shape; The prestress is reinforced at a predetermined interval in the interior of the reinforcing part 6 formed to protrude directly below the reinforcing structure, and when the concrete is poured in the state where both ends are drawn, the shrinkage pressure is applied during curing to increase the shear reinforcement of the structure. (16); Reinforced deck type beams, characterized in that the lattice wire 20, the wire mesh 24, the prestress 16 is located therein, and the concrete structure (4) formed by placing and curing concrete in the formwork A structure is provided.

Preferably, the wire mesh 24 is provided with a reinforcement deck type beam structure, characterized in that the reinforcement to the entire inner upper side of the concrete structure (4).

Preferably, the concrete structure 4 is characterized in that the joints 8 recessed inwardly are formed on both surfaces thereof in the longitudinal direction, and the upper jaw 14 and the lower jaw 12 are respectively formed at upper and lower ends thereof. A reinforcement deck type beam structure is provided.

Preferably, the lattice iron wire 20 is characterized in that consisting of the exposed portion 20b exposed to the upper surface of the concrete structure portion 4 and the buried portion 20a embedded in the concrete structure portion 4 A reinforcement deck type beam structure is provided.

Preferably, the lattice iron wire 20 is bent in the shape of a sine wave, the plurality of lattice wire wire 20 is in contact with a lower portion in a state where the upper portion at a predetermined angle, the lower end of the lattice wire wire 20 Is provided in the reinforcement deck type beam structure, characterized in that the welded to the lower wire 18, in the state in contact with the outer periphery of the lower wire 18 is installed in the width direction.

Preferably, the concrete structure 4 is provided with a reinforcement deck type beam structure, characterized in that the concave-convex portion 26 is formed on the upper surface.

Preferably, the concrete structure 4 is provided with a beam structure of the reinforcement deck type, characterized in that the secondary concrete casting of a certain thickness is made on the upper surface of the site, and is cured.

The beam structure of the reinforcement deck type according to the present invention is reinforced with the entire inner top to improve the tensile force of the structure, and to precast the concrete in order to increase the internal downward shear force of the protruding downward projection, whereby a longer length It is possible to form the beams, which can extend the spacing of the columns. In addition, by joining secondary concrete to each beam structure's neighboring part and the upper surface of the beam structure, the coupling force between beam structures can be further increased, and the support force for vertical and horizontal shear forces is increased through beam structure and prestress. There is an advantage that can significantly reduce the construction cost of a building.

Hereinafter, the present invention will be described in detail with reference to the drawings.

1 is an internal perspective view showing the structure of a beam structure of the reinforcement deck type according to an embodiment of the present invention, Figure 2 is a front sectional view showing the structure of the beam structure of the reinforcement deck type according to an embodiment of the present invention, 3 is a side cross-sectional view showing the structure of the beam structure of the reinforcement deck type according to an embodiment of the present invention.

Referring to this, the reinforcement deck-type beam structure (2) according to an embodiment of the present invention is to reinforce the steel structure consisting of lattice wire and the side and the lower wire at regular intervals, and wire mesh on the upper side It is a structure that is formed as a whole, while forming the reinforcement portion at regular intervals, while reducing the overall thickness by stretching the pre-stress inside the reinforcement portion to have an excellent vertical shear force and a corresponding supporting force to the horizontal shear force.

At this time, the beam structure 2 of the reinforcement deck type according to an embodiment of the present invention may be manufactured by installing a formwork so that the beam structure of FIG. 1 may be formed, and pouring and curing concrete, as shown in FIG. The beam structure may be formed separately and placed on the upper surface of the column.

In both methods, additional concrete casting is required on the top of the beam structure.

More specifically, the reinforcement deck type beam structure 2 according to an embodiment of the present invention looks at its outer surface, the upper surface is composed of a plurality of small concave-convex portion, the lower surface of the large area recessed portion and the convex portion repeatedly It is formed to be made.

In addition, the reinforcement structure, the wire mesh 24 and the prestress 16 are largely disposed inside the beam structure 2 of the reinforcement deck type according to the embodiment of the present invention.

In more detail, the reinforcing structures are arranged in a plurality of spaced apart at regular intervals in the width direction of the beam structure 2 of the reinforcement deck type, the reinforcing structures are each installed in the width direction, continuous bending in the form of a sine wave The left and right lattice iron wire 20 is inclined at a predetermined angle, and the lower end thereof consists of a lattice iron wire 20 which is contacted and welded to the outer periphery of the lower wire wire 18, and the lattice wire wire 20 It consists of a lower steel wire 18 welded to the bottom.

That is, in order to configure one reinforcing structure, a plurality of lattice iron wire 20 is required, each lattice iron wire 20 is bent in the shape of a sine wave (Sin Wave), as shown in FIG. As shown in FIG. 2, each lattice iron wire 20 is configured to be in contact with a lower portion thereof and an upper portion thereof is opened at an angle.

In more detail, the lattice iron wire 20 is bent in the shape of a sine wave, the plurality of lattice iron wire 20 is configured to contact the lower portion in the state where the upper portion is opened at a predetermined angle, respectively.

In addition, the lower surface of the lattice iron wire 20 is welded and fixed to the lower wire wire 18 in a state in which it is in contact with the outer periphery of the lower wire wire 18 provided in the width direction.

In addition, the reinforcement deck-type beam structure 2 according to an embodiment of the present invention, the side of the reinforcement structure, that is, both sides of the lattice iron wire 20 side wires 22 in the width direction of the structure, respectively When installed, the side iron wire 22 serves to prevent the lattice iron wire 20 from being struck.

On the other hand, the reinforcement deck type beam structure 2 according to an embodiment of the present invention is covered with a wire mesh 24 made of a rectangular grid shape on the upper side of the reinforcement structure, more precisely the wire mesh 24 ) Is placed on the entire inner upper side of the concrete structure 4.

At this time, the wire mesh 24 is a means for reinforcing the internal tensile force of the structure, it is to easily improve the safety of the building by preventing the structure is separated into a certain mass by the external force such as easily damaged or earthquake. . In addition, through the improvement of the tensile force due to the wire mesh 24, it is possible to further widen the interval between the pillar and the pillar of the building.

On the other hand, the reinforcement deck-type beam structure 2 according to an embodiment of the present invention is composed of a large lump of concavities and convexities on its lower surface, the recess is a reinforcement portion (protruded by a predetermined length downward) 6), in order to further enhance the reinforcement of the reinforcing part 6, a plurality of prestresses 16 are arranged near the inner lower end of the reinforcing part in the width direction, and the prestresses 16 are located at predetermined positions inside the structure. That is, each of the reinforcement parts 6 of the concrete structure 4 to be described later are reinforced at a predetermined interval, the concrete is placed in the state that the both ends are drawn to the contraction pressure during curing acts to increase the shear reinforcement of the structure It is done.

On the other hand, in the state in which the reinforcing structure and the side wire 22, the wire mesh 24 and the prestress 16 are reinforcement, the concrete structure 4 formed by pouring and curing concrete in the formwork is configured.

At this time, the concrete structural portion 4 is formed with a certain interval of the reinforcement portion 6 protruding further a predetermined length downward to increase the reinforcement while reducing the amount of concrete used.

Therefore, the concrete structure portion 4 is made of a flat surface, the bottom surface is to be formed so that the reinforcement portion 6, which is a recess and a convex portion repeatedly.

Preferably, the concrete structure portion 4 is formed with a joint portion 8 recessed inwardly on both sides thereof in the longitudinal direction, and the upper jaw 14 and the lower jaw 12 are respectively formed at upper and lower ends thereof. The lower jaw 12 is formed to be exposed to the outside more than the upper jaw 14, the reinforcement deck type of the beam structure (2), and the joint portion of the neighboring reinforcement deck type beam structure ( When 8) is in contact, a gap 10 is formed at the top.

Meanwhile, part of the lattice wire 20 is exposed to the upper surface of the concrete structure 4, and the lattice wire 20 is exposed to the upper surface of the concrete structure 4 and the exposed part 20b. , Is made up of a buried portion (20a) to be embedded in the concrete structure (4). Accordingly, secondary concrete is placed inside the exposed portion 20b of the lattice wire 20 and the joint 8 to expose the exposed portion and the joint 8 to increase the bonding force between the beam structures. It is composed.

Through this, the reinforcement deck-type beam structure 2 according to an embodiment of the present invention is to reinforce the wire mesh 24 to the entire inner top to improve the tensile force of the structure, protruding downward of the reinforcement part 6 In order to increase the corresponding bearing capacity against the internal vertical shear force, the prestress 16 is drawn and placed in concrete, whereby a longer length beam can be formed, thereby further extending the pillar spacing of the building.

In addition, by placing the secondary concrete on the neighboring portion and the upper surface of the beam structure, each beam structure can further increase the bonding force between the beam structure, thereby significantly reducing the construction cost of the building.

In addition, the exposed portion 20b of the lattice iron wire 20 is formed to increase the bonding force between the beam structure by the secondary concrete casting bar, the exposed portion 20b is horizontal by increasing the bonding force between the adjacent beam structure Corresponding support for shear forces can be increased by about two times.

On the other hand, the concrete structure (4) upper surface of the reinforcement deck type beam structure (2) according to an embodiment of the present invention a plurality of uneven parts 26 to further increase the bonding force with the secondary concrete placed in the field Is formed. Therefore, in the state where the beam structure 2 of the reinforcement deck type according to the embodiment of the present invention manufactured in advance is installed between the pillar and the pillar, when secondary concrete is poured and cured on the upper surface thereof, the structure shown in FIG. As described above, the beam structure is completed by the uneven portion 26 and the exposed portion 20b of the lattice iron wire 20 in a state in which the corresponding supporting force against the horizontal shear force is increased.

On the other hand, the reinforcement deck-type beam structure according to an embodiment of the present invention is not limited to the above embodiments, but various modifications can be made without departing from the technical gist of the present invention.

1 is an internal perspective view showing a structure of a beam structure of a reinforcement deck type according to an embodiment of the present invention;

Figure 2 is a front sectional view showing the structure of the beam structure of the reinforcement deck type according to an embodiment of the present invention,

Figure 3 is a side cross-sectional view showing the structure of the beam structure of the reinforcement deck type according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

4: concrete structure, 6: reinforcement,

8: seam, 10: gap,

12: lower jaw, 14: upper jaw,

16: prestress, 18: undercarriage,

20: lattice wire, 20a: buried part,

20b: exposed part, 22: side wire,

24: wire mesh, 26: uneven portion.

Claims (7)

Installed inside the structure in the width direction, each is bent continuously in the form of a sine wave, the left and right lattice iron wire 20 is contacted and welded to the outer periphery of the lower steel wire 18, respectively, the upper end of the A reinforcing structure composed of a lattice wire 20 and a lower wire 18 welded to the outer circumference of the lower end of the lattice wire 20; Side wires 22 disposed in the width direction of the structure to be in contact with both sides of the lattice wire 20; A wire mesh 24 installed on an upper side of the reinforcing structure and formed in a rectangular lattice shape; The prestress is reinforced at a predetermined interval in the interior of the reinforcing part 6 formed to protrude directly below the reinforcing structure, and when the concrete is poured in the state where both ends are drawn, the shrinkage pressure is applied during curing to increase the shear reinforcement of the structure. (16); Reinforced deck type beams, characterized in that the lattice wire 20, the wire mesh 24, the prestress 16 is located therein, and the concrete structure (4) formed by placing and curing concrete in the formwork structure. The reinforcement deck type beam structure according to claim 1, wherein the wire mesh (24) is disposed throughout the upper upper side of the concrete structure (4). According to claim 1, The concrete structure (4) is formed with a joint portion (8) recessed inwardly on both sides in the longitudinal direction, respectively, the upper jaw 14 and the lower jaw 12 is composed of Reinforcement deck type beam structure, characterized in that. According to claim 1, The lattice wire 20 is composed of an exposed portion 20b is partially exposed to the upper surface of the concrete structure portion 4 and the buried portion 20a embedded in the concrete structure portion (4) Reinforcement deck type beam structure, characterized in that. According to claim 1, wherein the lattice iron wire 20 is bent in the shape of a sine wave, the plurality of lattice iron wires 20 are in contact with the lower portion in a state where the upper portion at a predetermined angle, the lattice iron wire 20 The bottom of the beam structure of the reinforcement deck type, characterized in that the welded to the lower wire (18) in the state in contact with the outer periphery of the lower wire (18), respectively installed in the width direction. The reinforcement deck type beam structure according to claim 1, wherein the concrete structure portion (4) has an uneven portion (26) formed on an upper surface thereof. The beam structure of the reinforcement deck type according to claim 1, wherein the concrete structure portion (4) is made of a secondary concrete pour of a predetermined thickness on the upper surface thereof and is cured.

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