KR101281067B1 - Head reforcement apparatus of pipe piles for foundation work - Google Patents

Abstract

It relates to a stationary pile head reinforcement apparatus according to the present invention, while forming a mounting portion by bending a plurality of the outer vertical connecting reinforcing bar reinforcing head reinforcing structure in the horizontal horizontal direction, but the mounting head reinforcement structure through the mounting portion to the head of the pile The purpose is to improve the workability of the stationary head reinforcement structure by being supported. The present invention configured for this is a mounted pile head reinforcement device is formed in a form corresponding to the internal shape of the steel pipe pile or concrete piles are installed at a certain depth of the pile to block the inside of the pile and a certain depth of the top plate A pile head reinforcement device for reinforcing the head of a pile buried in the ground when constructing a building or a structure of a building or a bridge, wherein a plurality of vertically connected bars are arranged vertically and arranged at regular intervals. A portion of the upper side of the two to five vertical connecting reinforcing bar is made of a configuration including a mounting portion to be supported on the head of the pile.

Description

Fixed pile head reinforcement device {Head reforcement apparatus of pipe piles for foundation work}

The present invention relates to a stationary pile head reinforcement device, and more particularly, a plurality of vertical connecting reinforcing bars of the head reinforcement structure is installed on the steel pipe pile or concrete piles buried in the ground when building or structures such as buildings or bridges It relates to a stationary pile head reinforcement device to form a mounting portion by bending to the outside, but through the mounting portion to be mounted on the head of the pile to the pedestal head reinforcement structure to more easily mount the pile head reinforcement structure on the head of the pile.

In general, when constructing a building or a bridge, a steel pipe pile or a concrete pile is buried vertically with a hammer or the like on the ground, and then a vertical connection reinforcing bar is installed on the upper part of each pile to pour the expanded foundation concrete. In order to prevent deformation of the upper end of the pile due to the vertical load and sideways pressure acting on the upper and outer surfaces of the pile, a steel pipe or a pile head reinforcing structure is installed in the top portion of the pile supported by the pile.

The following shows the head reinforcement structure of the pile according to the prior art, the pile will be described taking the head reinforcement structure of the concrete pile as an example.

1 is an exploded perspective view showing a pile head reinforcement device according to the prior art, Figure 2 is a combined perspective view showing a pile head reinforcement device according to the prior art, Figure 3 is a combined sectional view showing a pile head reinforcement device according to the prior art.

The pile head reinforcement device 10 according to the prior art as shown in Figures 1 to 3 is bolt coupling means, pile 20 formed at equal intervals on the head which is the upper surface of the concrete pile (or steel pipe pile: 20) The inner diameter of the) is installed at a predetermined depth, but the lower end is coupled to each of the support plate 11, the coupling hole (11a) of the support plate 11, the plurality of coupling holes (11a) perforated up and down on the outer periphery, but the hook at the top Hook 12, which is formed integrally with the hook 12, a plurality of hook bolt member 13, which is hooked to each of the bolt coupling means to support the backing plate 11 by hanging the hook 12a of the hook rod 12 Nut member 14, which is screwed to the end of the use bolt member 13 to prevent the hook (12a) from being pulled out while fixing the hook bolt member 13 in each of the mounting grooves 22 of the pile 20, It is seated on the hook bolt member 13, but a plurality of through holes 15a are formed at equal intervals on the outer circumference thereof. Consists of a reinforced support member 16 for supporting a reinforced supporting spacer 15 and a reinforcement support connected to the vertical reinforcement 17, which is fastened to the through hole (15a) of the spacer (15) through its center for.

Bolt coupling means for coupling the hook bolt member 13 in the configuration of the pile head reinforcement device 10 according to the prior art as described above is formed in the same interval on the top surface of the pile 20 of the inverted triangle shape It consists of a mounting groove 22 formed of a V-shaped groove. The reason for forming the mounting groove 22 as the bolt coupling means as the V-shaped groove of the inverted triangle shape is that the bottom vertex of the mounting groove 22 when the mounting bolt member 13 is mounted on the mounting groove 22. The bolt head 13 and the nut member 14 of the hook bolt member 13 are caught on the inner and outer sides of the mounting groove 22 of the vertex when the fastening and tightening of the nut member 14 is caught. This is to ensure the fixing of the hook bolt member 13 on the vertex of the mounting groove (22).

And, in the configuration of the pile head reinforcement device 10 according to the prior art as described above, the mounting grooves 22 and the coupling holes 11a of the support plate 11 of the pile 20 are formed in the same number in the same position. do. Therefore, when the hook rod 12 is fastened to the hook bolt member 13 mounted on the mounting groove 22, the hook rod 12 is stretched up and down from the hook bolt member 13 without being twisted.

Since the pile head reinforcement apparatus according to the prior art as described above requires the pile head groove, hook rod, hook bolt member and rotating plate when the pile head reinforcement structure is supported on the head of the steel pipe pile or the concrete pile. Workability and workability are very good.

However, the pile head reinforcement device according to the prior art as described above requires a large number of parts, such as mounting grooves, hook rods, hook bolt members and rotating plate of the pile has a problem that the price competitiveness is lowered.

In addition, the pile head reinforcement device according to the prior art as described above requires many parts, such as the mounting groove of the pile, the hook rod, the hook bolt member and the rotating plate, the construction is good, but the time required for preparation work according to construction There is a problem of delaying the air is caught there is a problem of increasing the construction cost.

The present invention has been made to solve the problems of the prior art, bent out of a plurality of vertical connecting reinforcing bars constituting the pile head reinforcement structure to form a mounting portion through the pile head reinforcement structure steel pipe pile or concrete It is an object of the present invention to provide a stationary pile head reinforcement device that can be mounted to the head of the pile to improve the workability of the pile head reinforcement structure.

Another object of the technology according to the present invention by bending a plurality of vertical connecting bars constituting the pile head reinforcement structure to the outside direction to form a mounting portion by mounting the pile head reinforcement structure to the head of the steel pipe pile or concrete pile through the mounting portion The number of parts in the pile head reinforcement structure can be drastically reduced to improve the price competitiveness and construction cost reduction effect, as well as to facilitate the assembly work of the pile head reinforcement device based on the foundation construction of the pile head. .

In addition, the technology according to the present invention is to form a mounting portion by bending a plurality of vertical connecting reinforcement constituting the pile head reinforcement structure in the outward direction, but through the mounting portion the pile head reinforcement structure to be mounted on the head of the steel pipe pile or concrete pile The purpose is to simplify the air by making the workability according to the construction and assembly simpler.

The present invention configured to achieve the above object is as follows. That is, the mounted pile head reinforcement device according to the present invention is formed in a shape corresponding to the inner shape of the steel pipe pile or concrete pile, but is installed at a certain depth of the pile to block the inside of the pile and a certain depth of the pile plate A pile head reinforcement device for reinforcing the head of a pile buried in the ground when building a building or a bridge and a structure by constructing vertically connected rebars arranged in a plurality of vertically and arranged at regular intervals. It consists of a configuration including a mounting portion to be supported on the head of the pile by bending a portion of the upper side of the ~ 5 vertical connection rebar.

In the configuration according to the present invention as described above, the vertical connecting reinforcing bar is formed is more preferably arranged at equal intervals.

In addition, the bending structure of the mounting portion in the configuration of the present invention as described above is a first stage bending portion that is bent in the horizontal direction of the radially outward from the center of the pile in the upper portion of each of the vertically connected vertically connected rebar; A two-stage bending portion that is bent in a horizontal direction at a right angle from the first-stage bending portion; A three-stage bending portion that is bent in an inward direction of the pile in a horizontal direction at a right angle from the two-stage bending portion and bent in parallel with the first-stage bending portion; And a four-stage bent portion having a predetermined length bent vertically from the end of the three-stage bent portion.

In addition, the bending structure of the mounting portion in the configuration of the present invention as described above, the first stage bent portion bent in the horizontal direction of the radially outward from the center of the pile in the upper portion of each of the vertically connected vertically connected rebar; A two-stage bending portion that is bent in a perpendicular direction upward from the first-stage bending portion; A three-stage bending portion that is bent in the center direction of the pile in a horizontal direction perpendicular to the two-stage bending portion and bent in parallel with the first-stage bending portion; And a four-stage bent portion having a predetermined length bent vertically from the end of the three-stage bent portion.

On the other hand, in the configuration according to the present invention may be further provided with a band reinforcing bar is installed on the outer periphery of the vertical connecting bars arranged in a plurality on the top of the blocking plate to fix the arrangement of the vertical connecting bars.

In addition, in the configuration according to the present invention, a plurality of laser bending lines formed through a laser may be further formed in order to bend a portion of the blocking plate in case of an uneven internal diameter of the pile due to sludge during manufacture of the pile. have. In addition, a wedge groove may be further formed at both ends of each of the laser bending lines so as to be wedge-shaped from the outer circumference of the blocking plate to separate the bent portion of the blocking plate.

According to the technology of the present invention by bending a number of the outer side vertical connecting reinforcing bar reinforcement structure in the horizontal horizontal direction to form a cradle, but the cradle head reinforcement structure to be supported on the head of the pile through the cradle It is possible to improve the workability of the construction, as well as to significantly reduce the number of parts of the reinforcing head reinforcement structure to facilitate the assembly work according to the construction.

In addition, the technology according to the present invention can be formed in the outer horizontal direction by bending a large number of the outer vertical connecting reinforcement to form a cradle but can be supported by the cradle type reinforcing head reinforcement structure to the head of the pile to improve the price competitiveness Of course, it is possible to shorten the air by making workability according to workability and assembly better.

Figure 1 is an exploded perspective view showing a mounting pile head reinforcement device according to the prior art.
Figure 2 is a perspective view showing a stationary pile head reinforcement device according to the prior art.
Figure 3 is a cross-sectional view showing a mounting pile head reinforcement device according to the prior art.
Figure 4 is a perspective view showing a mounted pile head reinforcement device according to the present invention.
Figure 5 is a cross-sectional view showing a mounting pile head reinforcement device according to the present invention.
Figure 6 is a plan view showing a stationary pile head reinforcement device according to the present invention.
Figure 7 is a perspective configuration showing another example of the mounting pile head reinforcement device according to the present invention.
Figure 8 is a perspective configuration showing another example of the mounting pile head reinforcement device according to the present invention.
9 is a cross-sectional view of FIG. 8.

Hereinafter, with reference to the accompanying drawings for the mounting pile head reinforcement device according to an embodiment of the present invention will be described in more detail.

Figure 4 is a perspective configuration showing a mounting pile head reinforcement device according to the present invention, Figure 5 is a cross-sectional configuration showing a mounting pile head reinforcement device according to the present invention, Figure 6 shows a mounting pile head reinforcement device according to the present invention Fig. 7 is a perspective configuration diagram showing another example of the use of the mounted pile head reinforcement device according to the present invention, and Fig. 8 is a perspective configuration diagram showing another example of the mounted pile head reinforcement device according to the present invention. 8 is a cross-sectional configuration diagram of FIG. 8.

As shown in FIGS. 4 to 7, the stationary pile head reinforcement apparatus 100 according to the present invention is formed in a form corresponding to the internal shape of the pile (steel pipe pile or concrete pile: 200), but the constant of the pile 200 is fixed. Installed in the depth of the blocking plate 110 to block the inside of a certain depth of the pile 200, the vertical connection reinforcement 120 and vertical connection reinforcing bars are arranged in a plurality of vertically arranged on the upper portion of the blocking plate 110 It is formed on the upper side of the 120 is made of a configuration of the mounting portion 130 to be mounted to the head of the pile-type pile head reinforcement device 100 according to the present invention.

In other words, the present invention is formed in a shape corresponding to the internal shape of the pile 200, but is installed in a certain depth of the pile 200 to block the inside of the pile 200 to a certain depth of the blocking plate 110 and the blocking plate ( A plurality of vertically arranged reinforcing bars 120 are arranged on the upper part of the upper part, but are arranged at regular intervals to reinforce the mounted pile head to reinforce the head of the pile buried in the ground when the building or structure of the building or bridge is constructed. The apparatus 100 is configured to include a mounting portion 130 to be bent to the head of the pile 200 by bending the upper portion of the two to five vertical connecting reinforcing bars of the vertical connecting reinforcing rod 120.

Mounted pile head reinforcement device 100 according to the present invention configured as described above is arranged regularly a plurality of vertically connected reinforcing bars 120 on the upper surface of the blocking plate 110, then regularly arranged a plurality of vertical By fixing the band reinforcing bars 140 at regular intervals up and down to the outer periphery of the connecting reinforcing rod 120 is configured to be maintained in a vertical arrangement of the vertically arranged vertical connecting reinforcing bars 120.

Meanwhile, in the configuration of the mounted pile head reinforcement device 100 according to the present invention as described above, bending is formed in two to five vertical connection bars 120 arranged at equal intervals among the vertical connection bars 120 regularly arranged. The mounting portion 130 is mounted to the head of the pile 200 is configured. That is, the vertical connecting reinforcing rod 120, in which the mounting unit 130 is not formed, and the vertical connecting reinforcing rods 120 in which two or five forming the mounting unit 130 is formed at equal intervals, are bent. The structure is fixedly arranged on the upper surface of the 110.

Mounted pile head reinforcement apparatus 100 according to the present invention manufactured through the configuration as described above is the vertical connection reinforcing rod 120 and lower portion of the blocking plate 110 of the mounting portion 130 or less of the pile 200 The head is inserted through the inner diameter, the mounting portion 130 of the vertical connection reinforcing rod 120 is mounted on the head of the pile 20 so that the mounting of the mounted pile head reinforcement device 100 is made.

As described above, by inserting the pedestal-type pile head reinforcement device 100 according to the present invention into the head inner diameter of the pile 200 in the state to be mounted on the head of the pile 200 by a plurality of mounting portions 130 ( 110) When the concrete mortar is filled and cured in the inner diameter of the pile 200 on the upper side, the head of the pile 200 is reinforced.

Referring to each component constituting the stationary pile head reinforcement device 100 according to the present invention in more detail as follows. First, the blocking plate 110 is to be located at a certain depth of the inner diameter from the head of the concrete pile 200 to be filled with the concrete mortar, the blocking plate 110 is shown in Figures 4 to 7 As it is formed in the form of concentric circles corresponding to the internal shape of the pile 200 is installed at a predetermined depth of the pile 200 to block the inside of the predetermined depth of the pile 200 by the upper pile 200 of the blocking plate 110 ) Fill the concrete mortar with the inner diameter.

Of course, as described above, the blocking plate 110 constituting the present invention is formed in the form of concentric circles corresponding to the internal shape of the pile 200 and described with the expression that it is installed at a predetermined depth of the pile 200. Plate 110 is coupled to the vertical connection reinforcement 120 is positioned to a certain depth of the pile 200 by the mounting portion 130 is mounted to the head of the pile 200.

On the other hand, in the blocking plate 110 is configured as described above to be able to bend a large number of the blocking plate 110 in case the inner diameter of the pile 200 is uneven due to the sludge during the manufacture of the pile 200. A plurality of laser bending lines 150 formed through a laser may be formed. That is, before the pile 200 manufactured during the manufacture of the pile 200 is cured, a portion of the blocking plate 110 may be bent in consideration of this because the inner surface of the pile 200 is formed in an uneven state due to sludge. By forming a plurality of laser bending lines 150 to be able to be bent a portion of the blocking plate 110 so that the insertion of the blocking plate 110 to the inner diameter of the pile 200.

In addition, in the blocking plate 110 as described above, in addition to the plurality of laser bending lines 150 formed to bend a portion of the blocking plate 110, the blocking plate 110 at each end of each of the laser bending line 150. Wedge groove is cut from the outer circumference of the wedge to form a wedge groove 160 to separate the bent portion of the blocking plate 110. The wedge groove 160 is formed in a wedge-shaped cutout from the outer periphery of the blocking plate 110 at each end of each of the laser bending line 150 to bend a portion of the blocking plate 110 through the laser bending line 150. If so, the bending can be made more easily.

Next, the vertical connecting reinforcing bar 120 constituting the present invention is to reinforce concrete during curing by filling the concrete mortar in the inner diameter of the upper pile 200 of the blocking plate 110, such vertical connecting reinforcing bar 120 4 to 7 are arranged in a plurality of vertically arranged on the upper portion of the blocking plate 110, but is arranged regularly in a regular manner. Of course, in the case of the vertical connection reinforcing rod 120 is formed as described above, even if the mounting portion 130 is formed at equal intervals when the mounting portion 130 is mounted on the head of the pile 200 is evenly distributed It is better to make it.

In other words, the vertical connecting reinforcing bar 120 as described above is arranged vertically the vertical connecting reinforcing bar 120 and the vertical connecting reinforcing bar 120 is formed on which the mounting portion 130 is not formed, but the mounting portion In the case of the vertical connection reinforcing bar 120 is formed 130 it will be better to install at equal intervals so that the distribution of force can be made evenly.

And, the mounting portion 130 constituting the present invention is to be mounted to the head of the pile-type pile head reinforcement device 100, the mounting portion 130 is shown in Figures 4 to 7 As shown in the vertically connected reinforcing bar 120, a portion of the upper part of the two to five vertical connecting bars 120 is bent in a radially outward direction from the center of the pile 200 to be mounted at equal intervals on the head of the pile 200. Made of structure. At this time, the vertical connection reinforcing bar 120 is formed is arranged at equal intervals.

In more detail, the above-described mounting portion 130 is a first stage bent portion 132 that is bent in a radially outward direction from the center of the pile 200 in a portion of the upper side of each of the vertical connecting reinforcing bars 120 arranged vertically The second stage bent portion 134 is bent in the horizontal direction at right angles from the first stage bent portion 132, the first stage is bent in the inner direction of the pile 200 in the horizontal direction at a right angle from the second stage bent portion 134 It consists of a three-stage bending portion 136 bent in parallel with the bent portion 132 and a four-stage bending portion 138 of a predetermined length bent vertically upward from the end of the three-stage bending portion 136. That is, the mounting portion 130 is made of a "c" shape formed in the horizontal direction on the upper side of the vertical connecting reinforcement 120.

On the other hand, because the vertical connection reinforcing rods 120 are formed at equal intervals is formed in the horizontal portion of the "c" -shaped mounting portion 130 lying in the horizontal direction is mounted on the head of the pile 200 The lower surface of the first stage bent portion 132 and the second stage bent portion 134 and the third stage bent portion 136 of 130 are mounted in contact with the head surface of the pile 200, the pile according to the present invention. The mounting of the head reinforcement device 100 can be made.

In addition, as shown in Figures 8 and 9, the mounting portion 130a of another embodiment is in the horizontal direction of the radially outward from the center of the pile 200 in a portion of the upper side of each of the vertically connected vertical reinforcing bars 120 Pile 200 in the horizontal direction perpendicular to the second-stage bending portion 134a and the two-stage bending portion 134a that are bent in a right angle direction upward from the first-stage bending portion 132a and the first-stage bending portion 132a. Four ends of a predetermined length bent vertically from the ends of the three-stage bent portion (136a) and the three-stage bent portion (136a) which are bent in the same central direction as the one-stage bent portion (132a) It may be made of a configuration of the bent portion (138a). That is, the mounting portion 130a according to another embodiment of FIGS. 8 and 9 is different from the "c" shape formed in the horizontal direction as shown in FIGS. 4 to 7, and is formed in the vertical direction. It's in shape.

8 and 9 described above, the mounting portion 130a of the embodiment is formed in a “c” shape formed in a vertical direction so that the mounting portion 130 mounted on the head of the pile 200 is bent in one step. Only the lower portion of the portion 132 is mounted in contact with the head 200 head surface so that the mounting of the pile head reinforcement device 100 according to the present invention can be made.

As described above, the technology according to the present invention forms a mounting portion 130 on the vertical connection reinforcing rod 120, thereby providing a mounted pile head reinforcement device 100 having a structure to enable two-point support to five-point support. In addition to improving the workability of the reinforcing head reinforcement structure, it is possible to significantly reduce the number of parts of the reinforcing head reinforcement structure to facilitate the assembly work according to the construction.

In addition, the mounting pile head reinforcement device 100 according to the present invention to improve the price competitiveness through the structure of forming the mounting portion 130 on the vertical connection reinforcing rod 120 as described above, as well as construction performance It is possible to shorten the air by making the workability of the assembly better.

The present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the technical idea of the present invention.

100. Pile head reinforcement device 110. Blocking plate
120. Vertical connecting bar 130. Mounting part
140. Band rebar 150. Laser bending line
160. Wedge

Claims (7)

It is formed in a shape corresponding to the internal shape of the steel pipe pile or concrete pile, but installed in a predetermined depth of the pile to block the inside of the predetermined depth of the pile and a plurality of vertically arranged in the upper portion of the blocking plate, It is configured to reinforce the head of the pile buried in the ground when the building and the structure of buildings or bridges are constructed in the vertical connection reinforcement, the upper part of the two to five vertical connection reinforcement of the vertical connection reinforcement In the pile head reinforcement device comprising a mounting portion to be bent to be supported on the head of the pile, the vertical connection reinforcing bar is formed in the configuration arranged at equal intervals,
The bending structure of the mounting portion may include a first stage bending portion that is bent in a horizontal direction radially outward from the center of the pile in a portion of the upper side of each of the vertically connected rebars vertically arranged;
A two-stage bending portion that is bent in a horizontal direction at a right angle from the first-stage bending portion;
A three-stage bending portion that is bent in an inward direction of the pile in a horizontal direction at a right angle from the two-stage bending portion and bent in parallel with the first-stage bending portion; And
Stationary pile head reinforcement device characterized in that consisting of a four-stage bending portion of a predetermined length bent vertically from the end of the three-stage bending portion. delete delete The bending structure of claim 1, wherein the bending structure includes: a first stage bending portion bent in a horizontal direction radially outward from a center of the pile at a portion of an upper side of each of the vertically connected rebars;
A two-stage bending portion that is bent in a perpendicular direction upward from the first-stage bending portion;
A three-stage bending portion that is bent in an inner center direction of the pile perpendicular to the horizontal direction from the two-stage bending portion and bent in parallel with the first-stage bending portion; And
Stationary pile head reinforcement device characterized in that consisting of a four-stage bending portion of a predetermined length bent vertically from the end of the three-stage bending portion. The mounting pile according to claim 1 or 4, wherein a band reinforcing bar is installed at an outer circumference of the vertical connecting bars arranged in a plurality on the blocking plate to fix an arrangement of the vertical connecting bars. Head reinforcement device. The method of claim 5, wherein a plurality of laser bending lines formed through the laser is formed to be able to bend a plurality of part of the blocking plate in case the inner diameter of the pile is uneven due to the sludge during the manufacture of the pile. Mounted pile head reinforcement device. 7. The fixed pile head reinforcement of claim 6, wherein both ends of each of the laser bending lines are further formed with wedge grooves which are cut in a wedge shape from the outer circumference of the blocking plate to separate the bent portion of the blocking plate. Device.

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