KR20020030194A - Reinforcement structure for a foundation pile - Google Patents

Abstract

PURPOSE: A structure for reinforcing an upper end of a steel pipe for foundation construction is provided to be simply inserted into the steel pipe, thus enabling the mass transportation of the steel pipe while reinforcing the steel pipe more stably. CONSTITUTION: The reinforcement structure for an upper end of a steel pipe, into which footing concrete is filled, comprises a disk(30), a circular ring(20) drilled with plural vertical iron rods insertion holes(40) through which plural vertical connection iron rods are fitted, and a wire rope for connecting the disk and the circular ring in a foldable condition. The diameter of the disk is larger than that of the circular ring, and ready mixed concrete is charged between the disk and the circular ring so as to maintain the close contact condition between the disk and the steel pipe while the reinforcement structure is inserted into the steel pipe.

Description

Reinforcement structure for a foundation pile}

The present invention relates to the reinforcing structure of the upper end portion of the steel pipe for basic construction for reinforcing the upper end of the steel pipe placed on the ground in the construction or civil engineering foundation, in particular, the steel pipe through the steel pipe reinforcing member that can be folded and easy to move The present invention relates to the reinforcing structure of the upper end part of a steel pipe for basic construction, which can prevent the upper end part of the steel pipe from being changed by the vertical load and the side soil pressure acting on the steel pipe, as well as to easily install the vertical connecting reinforcement of the basic foundation concrete.

In general, when constructing a building or a bridge, steel pipes are placed on the ground with hammers, and vertical connecting bars are installed on the upper parts of each steel pipe, and the basic foundation concrete is placed.

It is common to install a reinforcing member at the upper end of the steel pipe to prevent the upper end of the steel pipe from being deformed by the vertical load acting on the upper end of each steel pipe whose lower end is supported by the rock under the ground and the soil pressure acting as the outer circumferential surface of the steel pipe. .

Conventionally, the reinforcing structure of the upper end of the steel pipe is to cast concrete together with the vertical connecting reinforcing bar on the inner upper end of the steel pipe, and the cross-shaped reinforcing member 200 on the inner upper end of the steel pipe 100 as shown in Figs. After welding the welded support disc 300 on top again, welding a plurality of vertical connecting bars 400 around the upper end of the support disc 300, and fastening the cross reinforcement member welded to the support disc It was mainly used to fix the steel pipes through bolts, and to screw vertical connecting bars into bolt fastening holes formed around the top of the support disk.

Among the conventional structures, the structure in which concrete is poured with the vertical connecting reinforcement at the inner upper end of the steel pipe can be firmly reinforced at the upper end of the steel pipe, but the sand is filled in the inside of the steel pipe or the formwork is installed vertically thereon. Pour the concrete with the connecting reinforcement and then expand the horizontal foundation reinforcement to be installed, there is a problem that the construction is bad, welding the cross-shaped reinforcing member 200 in the upper portion of the steel pipe 100 as shown in Figs. The reinforcing structure fixedly installed through the fastening bolt and welding the support disc 300 and the vertical connecting reinforcement 400 to the cross-shaped reinforcement member 200 welds each member 200, 300, 400 to the steel pipe 100. In the process of heat deformation, the strength of the steel pipe 100 is lowered, and in the case of bolting type, there is not only the difficulty of construction when fastening the member and the steel pipe with bolts, but also the spiral grooves are vertically There was a problem of sex.

On the other hand, in the upper part of the plurality of steel pipes to be placed on the ground horizontal bar is installed in the horizontal direction and vertical direction for the bottom-based foundation concrete construction bar, in the conventional steel pipe upper end reinforcement structures of the upper part of the steel pipe 100 In the case of installing the vertical connecting reinforcing bar (400) first in the vertical connecting bar (400) vertically erected to interfere with the installation of the horizontal floor reinforcement around the steel pipe 100, there was a problem that the work becomes difficult, horizontal floor rebar Even after the first installation of the vertical connecting reinforcement (400) even when welding the horizontal floor reinforcement installed around the steel pipe 100 had a problem that interferes with the installation work of the vertical connecting reinforcement (400).

Therefore, in the related art, as shown in FIG. 3, the circular locking protrusion 5 is fixed to the inner upper end of the steel pipe 100 by welding, and then the circular plate 6 is raised thereon to be fixed by welding.

Then, the welding protrusions 5 fixed to the inner upper end of the steel pipe 100 are welded to the circular ring 7 in a plurality of stages again, and then vertically connected reinforcement 400 to the inner upper end of the steel pipe 100. This was to be inserted.

Thereafter, the expanded basic concrete 500 was inserted into the inner upper end of the steel pipe 100 into which the vertical connection rebar 400 was inserted.

The expanded basic concrete 500 is supported by a circular plate 6 fixed to the inner upper end of the steel pipe 100 by welding, and then cured from a plurality of stages of circular rings 7 formed on the inner circumferential surface thereof. It was able to maintain the robustness.

However, the second conventional embodiment as described above also has the following problems.

That is, since the locking projection 5, the circular plate 6, and the circular ring 7 for inserting the enlarged basic concrete 500 into the inner upper end of the steel pipe 100 are all fixed by welding, the efficiency of work This has the disadvantage of deteriorating.

In addition, as in the first embodiment of the conventional structure, in the case of installing the vertical connecting bar 400 first on the upper portion of the steel pipe 100, the vertical connecting bar 400, which is vertically erected on the horizontal bottom around the steel pipe 100 There was a problem that the work is difficult to interfere with the installation of the reinforcing bar (3), even when the horizontal bottom reinforcing bar (3) is installed first and then the vertical connection reinforcement (400) welded horizontal floor installed around the steel pipe (100) Rebar (3) had a problem that interferes with the installation of the vertical connection rebar (400).

In addition, in the case of the steel pipe reinforcement member as described above, the bar is installed in the steel pipe 100 from the work at the construction site, both have a disadvantage of excessive work time as well as the work process.

Thus, in the related art, a technique for installing a steel pipe reinforcement member from a simple assembly at a construction site as a steel pipe 100 is provided.

That is, as shown in Figure 4, the nut 600 and the length of the longitudinal direction in the state in which the circular ring 20 and the disc 30 having a plurality of vertical reinforcement insertion holes 40 are separated and put into the construction site By adjusting the circular ring 20 and the disc 30 to a predetermined height through a bolt 700 having a, the circular ring 20 is to span the outer top surface of the steel pipe 100, the disc 30 is a steel pipe It was to be inserted into the inner upper end of (100).

However, also in the steel pipe reinforcement member of Figure 4 as described above, in order to assemble the circular ring 20 and the disc 30 through the bolt 700 and the nut 600 at the construction site circular ring 20 and the disc ( The processing of a plurality of through holes 800 through which the bolt 700 having a length in the long direction passes through 30) is inconvenient and requires an assembling process at a construction site. Although it did not shorten the time, when the fastening of the bolt 700 and the nut 600 occurs, the closed end of the inner upper end of the steel pipe 100 is not properly made.

In addition, the steel pipe reinforcement member of FIG. 4 as described above may be transported to a construction site in a state of being assembled in advance so that the assembly may be performed immediately. In this case, the circular ring 20 may be formed by the bolt 700 and the nut 600. ) And the disk 30, the volume of the steel pipe reinforcing member assembled is considerably larger, the cost of the transportation, as well as had a problem in that the transport itself is difficult.

Therefore, the present invention has been made to solve the conventional problems as described above, the object of the present invention, so that the insertion into the upper end of the steel pipe to the construction site through the integrated steel pipe reinforcing member that can be folded more easily. Of course, the transport of the steel pipe reinforcing member is made easy to carry out the mass transport while making it possible to reduce the cost of transport, and also through the folding steel pipe reinforcing member to be placed on the ground through It is to provide a reinforcement structure of the upper end of the steel pipe for the basic public works that can be installed in the upper end of the steel pipe as well as to enable a stable reinforcement.

1 is a first embodiment showing a perspective view of a conventional structure;

Figure 2 is a first embodiment showing a longitudinal cross-sectional view of a conventional structure.

3 is a second embodiment showing a sectional view of a conventional structure;

4 is a third embodiment showing a sectional view of a conventional structure;

Figure 5 is a perspective view showing an unfolded state of the reinforcement structure of the upper end of the steel pipe for basic construction as an embodiment of the present invention.

Figure 6 is a perspective view showing a folded state of the steel pipe upper end reinforcement structure for an embodiment of the present invention.

Figure 7 is an overall exploded perspective view of the reinforcing structure of the upper end of the steel pipe for basic construction as an embodiment of the present invention.

Figure 8 is a cross-sectional view of the entire coupling of the steel pipe upper end reinforcement structure for an embodiment of the present invention.

Figure 9 is a state of use of the steel pipe upper end reinforcement structure for the basic construction as an embodiment of the present invention.

Figure 10 is a side view of the steel pipe upper end reinforcement structure for an embodiment of the present invention.

* Explanation of symbols on the main parts of the drawings *

One ; Fastening bolt 2; surface

3; Horizontal bottom rebar 4; Bedrock

20; Circular ring 30; negative

40; Vertical rebar insertion holes 50; Wire rope

60; First guide protrusion 70; 2nd guide protrusion

80; Fixing member 100; Steel pipe

400; Vertical rebar 500; Expanding foundation concrete

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

For reference, the drawings referred to below will be described with the same reference numerals for the same parts as in the prior art for convenience of description.

Figure 5 is a perspective view showing an unfolded state of the steel pipe upper end reinforcement structure for the basic construction as an embodiment of the present invention, Figure 6 is a perspective view showing a folded state of the steel pipe upper end reinforcement structure for the basic construction as an embodiment of the present invention, Figure 7 Is an overall exploded perspective view of the reinforcement structure of the upper end of the steel pipe for basic construction as an embodiment of the present invention.

8 is an overall combined cross-sectional view of the reinforcement structure of the upper end portion of the basic construction steel pipe as an embodiment of the present invention, Figure 9 is a state diagram used in the upper portion of the reinforcement structure of the basic construction steel pipe in one embodiment of the present invention, Figure 10 is As an example is a side view of the reinforcement structure of the upper end of the steel pipe for basic construction.

As shown in Figure 5 to 10, while expanding the base concrete 500 is filled with the inner upper end of the steel pipe 100 constitute a steel pipe reinforcing member to reinforce the upper end of the steel pipe 100,

The steel pipe reinforcing member is a circular ring 20 formed with a plurality of vertical reinforcing bar insertion hole 40 is formed by the disk 30 and the plurality of vertical connecting reinforcement 400 is inserted through the connection of the wire rope 50 So that it can be unfolded and folded

The diameter of the circular ring 20 is larger than the diameter of the disk 30 is caught on the upper end of the steel pipe 100, the disk 30 is inserted into the inner upper end of the steel pipe 100 to maintain a close state with the inner surface So that the ready-mixed concrete is filled between the circular ring 20 and the disc 30,

The circular ring 20 has a predetermined inclination angle and a wire guide groove (not shown) so that the connection of the wire rope 50 which integrally connects the circular ring 20 and the disc 30 to a single body is made easier. A plurality of first guide protrusions 60 for guiding and supporting the wire rope 50 to the disc 30 through) are alternately formed on the plane and the bottom, respectively,

Wire guide groove to guide the wire rope 50 guided from the first guide protrusion 60 of the circular ring 20 back to the circular ring 20 having a predetermined inclination angle on the bottom surface of the disc 30 A plurality of second guide protrusions 70 (not shown) are formed at predetermined intervals,

The wire 50 positioned on the bottom surface of the circular ring 20 and the plane of the disc 30 does not have a variable length of the wire rope 50 when the circular ring 20 and the disc 30 are folded. It forms a structure in which a fixing member 80 for holding the rope 50 is formed.

Although not shown in the drawings, the wire rope 50 passes through the circular ring 20 and the disc 30 between the first and second guide protrusions 60 and 70 so that the connection can be made naturally. It is preferable to form a wire through hole.

Hereinafter, reference numeral 2, which is not described, refers to the ground, and 4 to the rock.

Referring to Figures 5 to 10 attached to the operation of an embodiment of the present invention configured as described above are as follows.

As shown in FIG. 9, the steel pipe 100 is poured on the ground 2.

Thereafter, the circular ring 20 and the disc 30 which are integrated from the wire rope 50 as a steel pipe reinforcing member are inserted into the inner upper end of the steel pipe 100.

Then, the circular ring 20 is caught on the upper surface of the steel pipe 100, the disc 30 is integrated through the circular ring 30 and the wire rope 50 into the inner upper end of the steel pipe 100 Insertion is made to maintain a close contact with the inner surface of the steel pipe (100).

Looking at this in more detail as follows.

First, a plurality of first guide protrusions 60 for guiding and supporting the wire rope 50 to the disc 30 through a wire guide groove (not shown) having a predetermined inclination angle to the plane and the bottom of the circular ring 20. ), Stagger each other.

Then, the wire guide to guide the wire rope 50 guided from the first guide protrusion 60 of the circular ring 20 back to the circular ring 20 while having a predetermined inclination angle on the bottom surface of the disc 30. A plurality of second guide protrusions 70 having grooves (not shown) are formed at predetermined intervals.

Thereafter, the wire rope 50 is connected to the circular ring 20 and the wire guide grooves of the first and second guide protrusions 60 and 70 formed on the disc 30, the circular ring 20 and Disc 30 has a structure in which the wire rope 50 is integrally connected.

At this time, when the folding of the circular ring 20 and the disc 30 is located on the bottom of the circular ring 20 and the plane of the disc 30 so as to prevent the length deformation due to the sagging of the wire rope 50 When the fixing member 80 is formed by tightening the screw to the wire rope 50 to be formed, the circular ring 20 and the disc 30 from the screw tightening of the fixing member 80 as shown in Figure 6 Even if the folding is made, the length of the wire rope 50 located between the circular ring 2 and the disc 30 is only to bend the function of the variable length is not made.

On the other hand, the steel pipe reinforcement member completed through the assembly process as described above is made more loading on the vehicle,

After transporting the steel pipe reinforcing member to the construction site, the input into the steel pipe 100 embedded in the ground (2) can be made immediately without a separate welding or bolting work.

In other words, as described above, when the disc 30 is inserted into the inner upper end of the steel pipe 100 embedded in the ground 2,

The circular ring 20 integrated through the disc 30 and the wire rope 50 is engaged with the upper end surface of the steel pipe 100, so that the disc 30 is formed around the inner upper end of the steel pipe 30. It keeps close contact.

Thereafter, the installation of the horizontal bottom reinforcing bar 3 of the expanded basic concrete 500 in the horizontal and vertical directions on the upper portion of the steel pipe 100 is finished.

At this time, a plurality of vertical reinforcing hole 40 is formed on the surface of the circular ring 20, using the gap of the horizontal bottom reinforcing bar (3) vertical connecting reinforcement (40) When the 400 is inserted, one end of the vertical connection rebar 400 is easily installed without welding while maintaining its contact with the upper surface of the disc 30.

Thereafter, when the expansion foundation concrete 500 is poured onto the ground 2 on which the vertical connection reinforcement 400 and the horizontal bottom reinforcement 3 are installed, the expansion foundation concrete 500 is connected to the vertical connection reinforcement ( 400 and the horizontal bottom reinforcement (3) and at the same time flows into the inner upper end of the steel pipe (100).

That is, the disc 30 and the wire rope 50 of the steel pipe reinforcing member is installed in the inner upper end of the steel pipe 100 is in close contact with the inner surface of the steel pipe 100 while being inserted into the inner upper end of the steel pipe 100. Bars forming a space while maintaining the state,

Expanding basic concrete 500 is introduced into the space formed according to the close contact state of the disc 30 and the wire rope 50 and the steel pipe 100 is cured.

Therefore, the expanded basic concrete 500 has a higher density through the wire rope 50 connecting the circular ring 20 and the disc 30, thereby more effectively strengthening the inner upper end of the steel pipe 100. It can be done.

As described above, the present invention makes it easier to insert the steel pipe reinforcing member into the construction site through the integrated steel pipe reinforcing member that can be folded, as well as to easily carry it from the folding of the steel pipe reinforcing member. It enables mass transportation while making it possible to reduce the cost of transportation, and also makes it possible to more stably reinforce the upper part of the steel pipe placed on the ground through the folding steel pipe reinforcing member, and also to make it easier to vertically connect to the upper part of the steel pipe. Provides the effect of installing rebar.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (1)

As the inner base of the steel pipe is filled with expanded basic concrete, the steel pipe reinforcing member reinforcing the upper end of the steel pipe, The steel pipe reinforcement member is configured to be unfolded and folded through the connection of the wire rope is formed of a circular ring formed of a plurality of vertical reinforcing bar insertion hole in which the disc and the vertical connecting bar is inserted, The diameter of the circular ring is larger than the diameter of the disc is caught on the upper end of the steel pipe, the disc is inserted into the inner upper end of the steel pipe to maintain a close state with the inner surface so that the ready-mixed concrete is filled between the circular ring and the disc, A plurality of first guide stones for guiding and supporting the wire rope to the disc through the wire guide groove with a predetermined inclination angle so that the connection of the wire rope integrally connecting the circular ring and the disc is made easier. Wealth is formed to cross each other on the plane and the bottom, A plurality of second guide protrusions having wire guide grooves are formed on the bottom surface of the disc at predetermined intervals so as to guide the wire rope guided from the first guide protrusion of the circular ring to the circular ring again with a predetermined inclination angle. The upper end of the steel pipe for basic construction, characterized in that the wire rope is located on the bottom surface of the circular ring and the plane of the disk to form a fixing member to hold the wire rope so that the length of the wire does not occur during the folding operation of the circular ring and the disk Reinforcement structure.