KR101261208B1 - The mold steel pipe pillars of reinforced framing - Google Patents

Abstract

PURPOSE: A steel pipe mold pillar of a reinforcing frame is provided to improve the durability of a building by directly connecting a steel frame, a steel pipe, and a beam through a reinforcing bar connecting pipe and a reinforcing frame connecting pipe. CONSTITUTION: A steel pipe mold pillar of a reinforcing frame comprises a reinforcing frame(1), a steel pipe mold(6), and concrete casted inside. A connection unit of a beam in the steel pipe mold comprises an upper and a lower diaphragm(4,5). A reinforcing bar connecting pipe(2) is welded in an inner circumference of the upper diaphragm, and a reinforcing bar is welded in the inner circumference in a radial shape. The steel pipe mold comprises three unit layers with one column, and the reinforcing bar connecting pipe(7) is included in the inner circumference of a top diaphragm(4a).

Description

The mold steel pipe pillars of reinforced framing}

The present invention is a composite (RCFT) column that fuses the advantages of reinforced concrete tank (RC) and steel pipe concrete filler column (CFT), more specifically to produce a reinforced frame to be inserted into the steel pipe column, but constitutes a joint with the beam By making reinforcing frames using reinforcing bars of a certain length in reinforcing bar frames, the upper diaphragm (through diaphragm) joined to the upper flange of the beam is welded to the reinforcing bar and the load applied to the reinforcing bar directly. The present invention relates to a reinforcing steel frame formwork pillar integrating reinforcing steel frame and steel pipe formwork by covering the formwork of steel pipe formwork outside the reinforcing steel frame.

In general, the SRC structure forms the frame of the column with H beams and reinforces it with reinforcement around it to maintain the rigidity of the column and maintain the fire resistance performance with concrete. There was a problem that the concrete quality deterioration.

Although the steel pipe concrete filling column (CFT) is an excellent method that minimizes the use of steel by maximizing the excellent compressive force of the triaxial stress state of concrete, it does not satisfy the fire resistance performance required by the high-rise building for 3 hours. The construction was not universal due to the inefficiency to be prepared and the reliability of the concrete filling method and filling density. The CFT column without reinforcing bars showed stiffness for the first 90 minutes in the non-painted standard fire test. On the other hand, RCFT columns with 2% reinforcing bars in the CFT have been tested for 171 minutes. In the event of a fire, the reinforcing bar restrains the expansion of the steel pipe due to heat while constraining the concrete to maintain the rigidity of the column and improve the fire resistance.

RCFT columns with reinforcing steel bars inside large diameter steel pipes were constructed in several places including Incheon Bridge. However, there is a problem in the method of transmitting the bearing capacity of the reinforcing bar to the beam because the reinforcement is not directly connected to the beam, and there was also a problem in the concrete filling method and reliability.

In recent years, weldable rebars can be produced up to 57mm thick due to the technology development of rebar production. It can be dramatically increased and economical and precise pillars can be constructed.

Korean Patent Application No. 10-2005-0096682 is a CFT column composed of double steel pipes, which has a space between the outer steel pipe and the inner steel pipe to fill the space with concrete, and the inside of the inner steel pipe is hollow to improve the fire resistance performance. It became.

Korean Patent Application No. 10-2009-0118355 has been presented the junction of the double steel pipe type presented above. However, there is a problem between filling the space between the inner and outer steel pipes and filling concrete in the space, and since the inner steel pipe is hollow, it does not utilize the excellent compressive force of concrete, which is the biggest advantage of the concrete filled steel pipe, to the maximum. There was also a problem with reliability.

The present invention was developed in view of the conventional problems, an object of the present invention is to use a reinforced steel frame formwork (RCFT) column to improve the fire resistance performance while maintaining the rigidity of the column using a rebar relatively cheaper than the H beam To provide. Reinforcing steel frame bears a large part of the load required in the column to improve the fire resistance economically, and the external steel pipe formwork provides economical pillars that act as formwork and cross-constraining concrete.

To this end, the present invention arranges the reinforcing bars radially to enter the inside of the steel pipe formwork, which acts as a pillar of the building, and binds the reinforcing bars with the reinforcing band. And the upper and lower joints of the reinforcing bar is welded radially to the inner circumferential surface of the reinforcing pipe to produce a reinforcing bar frame consisting of three layers of one.

In addition, the steel pipe formwork is prepared so that three layers constitute one section, the steel pipe formwork is provided with upper and lower diaphragms for each joint of the beam. At this time, the upper diaphragm is a through diaphragm, the reinforcing bar pipe passes through the center of the upper diaphragm (through diaphragm), and the outer circumferential surface of the reinforcing bar pipe and the upper diaphragm are welded so that the load applied to the beam is directly transmitted to the reinforcing frame.

In addition, the section where the upper section of the steel pipe formwork of one section and the lower section of the steel pipe formwork of one section is connected to the reinforcing frame of the reinforcing bar is provided. Therefore, the one-piece steel pipe formwork and the one-piece steel pipe formwork joint are connected to the reinforcing frame connector and the upper diaphragm, and the upper diaphragm is fastened to the upper flange of the beam, so that the supporting force of the reinforcing steel frame is directly transmitted to the beam. Durability is improved. At this time, the upper diaphragm processes a plurality of holes for filling concrete in the portion projecting into the steel pipe formwork. The lower diaphragm of the steel pipe formwork is configured in the form of an external diaphragm to reduce the cutting point of the steel pipe formwork, which considers the convenience and economical efficiency of manufacturing and facilitates the filling of concrete.

In the concrete filling method, when the concrete is filled using a steel pipe concrete charger equipped with a plurality of vibrators at the bottom of the concrete filling tube and equipped with an endoscope camera and lighting, high strength concrete, not high flow, may be filled with high density. When filling the upper diaphragm joint, place the bottom of the concrete filling tube at the bottom of the reinforcing frame connector, and when filling concrete while applying vibration, the upper part of the reinforcing frame connector is located above the upper diaphragm. As the concrete rises into the processed concrete filling hole, the concrete can be filled without voids in the lower portion of the upper diaphragm. At this time, the concrete filling situation can be recorded and used as supervision data to check the reliability.

Applying the reinforced frame connecting tube protruding inside the upper diaphragm as described above not only facilitates the concrete filling but also serves to reinforce the lateral load of the steel pipe formwork joint. Below the allowable thickness, welding can be performed without improving the steel pipe, thus reducing the amount of welding and greatly contributing to productivity improvement. In addition, one piece of lower steel pipe formwork and one piece of upper steel pipe formwork are more economical to use welded joints than base or pipe flange joints.

According to the present invention, since the use of reinforcing bar relatively inexpensive to the H-beam economically maintains the rigidity of the column to improve the fire resistance, the rebar reinforcement work and the formwork installation and dismantling process made in the field is omitted, reinforcing bar and steel pipe Since the RCFT pillar integrated with the formwork is manufactured at the factory and constructed on the 3rd floor, it is possible to shorten the construction period and to construct economical and precise columns that make the best use of the excellent quality and compressive strength of high strength concrete. In particular, the steel formwork delays the oxidation of the concrete, extending the life of the building.

In addition, since the reinforcement frame and steel pipe formwork and beams are directly connected through the reinforcing bar connector and the reinforcing bar connector, there is an advantage that the durability of the building is improved. In addition, due to the binding force of the steel pipe formwork during the earthquake, it prevents the crack of the concrete from the earthquake impact, and also prevents the fall and maintains the rigidity of the column.

1 is a column of one section of one embodiment of the present invention
Figure 2 is an exploded perspective view of the formwork pillar of one embodiment of the present invention
Figure 3 is an assembly cross-sectional view of the formwork pillar of one embodiment of the present invention
Figure 4 is a cross-sectional view of the connecting portion of the formwork pillar of one embodiment of the present invention
5 is a cross-sectional view taken along the line A-A of FIG.

In the embodiment of the present invention, since the steel frame formwork of the reinforcing steel frame is composed of three layers consisting of one section, the reinforcing steel frame and the steel formwork 6 also comprise three layers. In the production of the reinforcing bar is provided a reinforcing bar (2) constituting the joint, the reinforcing bar (1) is welded to the inside of the reinforcing bar (2) at a predetermined interval. At this time, the middle portion of the reinforcing bar (1) is tied to the reinforcing band (3) to prevent sagging.

The steel pipe formwork 6 is provided with an upper diaphragm 4 and a lower diaphragm 5 in consideration of the connection with the beam 11, the upper diaphragm 4 has an inner circumferential surface protrudes into the interior of the steel pipe formwork 6 It is made of a through diaphragm, and the outer circumferential surface of the reinforcing bar connecting pipe 2 is welded to the inner circumferential surface of the through part so that the reinforcing bar 1 and the upper diaphragm 4 are connected to one.

The portion of the upper diaphragm 4 protruding into the steel pipe formwork 6 is formed radially a plurality of concrete filling holes 13 in consideration of the flow during the filling of the concrete. The lower diaphragm 5 is directly welded to the outer circumferential surface of the steel pipe formwork 6.

In Figure 4, the reinforcing frame connecting pipe (7) is used in a portion where the upper end of the one-piece steel pipe formwork 6 and the lower portion of the one-piece steel pipe formwork 6 are connected. The top end of the one-piece steel pipe formwork 6 is provided with a top diaphragm 4a, and the reinforcing frame connecting pipe 7 is welded to the inner circumferential surface of the top diaphragm 4a. And the reinforcing bars (1) are welded to the outer circumferential surface of the reinforcing frame connecting pipe (7). In addition, the lower end of the one-piece steel pipe formwork 6 is maintained in a state in which the reinforcing bars 1 are arranged in a circular shape by a gap retaining piece 7a, which is fitted to the protruding outer circumferential surface of the reinforcing frame connector 7. .

And to form a column connecting piece (8) (9) at the top and bottom of the steel pipe formwork (6) of one section to match the horizontal and vertical degrees when connecting one column and one column. After welding the connecting portion of the column, the connecting piece 9 is preferably arranged on the same line as the gap retaining piece (7a) so that the supporting force is complemented.

Reference numeral 10 denotes a welding portion of the pillar and the pillar, 11a and 11b represents the upper and lower flanges of the beam 11, 12 is a connecting plate for connecting the beam and the steel pipe formwork (6).

In one embodiment of the present invention configured as described above, three sets of steel pipe formwork 6 are mainly subjected to a compressive load, so it is preferable to manufacture the through diaphragm, which is the uppermost diaphragm 4a of the upper layer. It is manufactured by inserting the upper diaphragm or welding the diaphragm of the half, welding the reinforcing bar 1 at regular intervals between the lower reinforcing pipes 2, and binding it with a reinforcing band 3 such as wire and Cover the steel pipe formwork (6) that serves as the formwork. Then, the outer diaphragm, which is the lower diaphragm 6, is mounted. Steel pipe formwork 6 is preferably made of one layer as a basic unit to assemble three layers into one. Steel pipes inside and outside 4M are manufactured by roll bending method, so it is economical and precise, and there is no fear of material deformation because there is no heat correction.

The lower diaphragm 5 of the steel pipe formwork 6 to which the lower flange 11b of the beam 11 is joined is configured in the form of an external diaphragm to reduce the cutting point of the steel pipe formwork, taking into account the convenience and economical efficiency of manufacturing and filling the concrete. To facilitate. At this time, the top-down basement column should minimize the external diaphragm so that the external diaphragm reinforcement plate is welded inside the steel pipe, and the H-span of the long span that takes a large load is reinforced.

4 shows the joint of the pillar and the pillar, the top diaphragm 4a on the top layer of the lower steel tube formwork 6 welded to the lower portion of the upper steel tube formwork 6. At this time, the lower column top diaphragm 4a is provided with a column connecting piece 8 for installing and assembling the column, and the column connecting piece 9 is also provided under the upper column so that the vertical precision of the column can be adjusted using them. At this time, the horizontal length of the column connecting piece 9 on the upper side is projected from the lower column connecting piece 8, so that the vertical precision of the column while wedging a wedge between the upper connecting piece and the lower column top diaphragm 4a serving as a base. Can be adjusted. The column connecting pieces 8 and 9 are then embedded in the concrete of the floor slab.

In addition, the outer frame of the uppermost diaphragm (4a) of the lower section of the reinforcement is connected to the reinforcing bar (7) of the reinforcing frame (1) of the lower column is provided with a gap retaining piece (7a) at the lower end of the upper column of one section Since the reinforcing frame connecting pipe (7) is fitted to the outside of these reinforcement (1) is connected to one to reinforce the column and the joint of the column.

1: Rebar 2: Rebar connector
3: reinforcing band 4: upper diaphragm
4a: upper diaphragm 5: lower diaphragm
6: steel pipe formwork 7: reinforced frame connector
7a: spacing maintenance part 8: column connection piece
9: column connection piece 10: welding part
11: beam 11a: upper flange
11b: lower flange 12: connecting plate
13: concrete filling hole

Claims (3)

In the reinforcing steel frame formwork pillars in which a plurality of reinforcing bars radially tied to make a steel frame and installed inside the steel pipe formwork, and poured concrete into the steel pipe formwork,
In the steel pipe formwork, the connection portion of the beam is provided with an upper diaphragm and a lower diaphragm, wherein the upper diaphragm has an inner circumferential surface penetrated into the steel pipe formwork, and a reinforcing connector tube is welded to the inner circumferential surface of the penetrating portion.
Reinforcing steel frame form pillar, characterized in that the reinforcing bar is welded radially on the inner peripheral surface of the reinforcing pipe. The method of claim 1,
The steel pipe formwork is composed of three layers of one column, the top of the one column is provided with a top diaphragm, the inner circumferential surface of the top diaphragm is provided with a reinforcing frame connecting pipe,
The reinforcing bar is radially welded to the outer circumferential surface of the reinforcing frame connector,
Reinforcing steel frame formwork pillars, characterized in that the lower end portion of the one-piece pillar is provided with a gap retaining piece to wrap the reinforcement to maintain a gap with the steel pipe formwork. The method of claim 2,
Reinforcing steel frame form pillar, characterized in that the column connecting piece is provided radially in each of the steel pipe formwork at the portion where the two different sections are connected to match the vertical precision of the column and the pillar.

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