KR20090069148A - Prefab apparatus for reinforcing head of pile - Google Patents

Abstract

A prefabricated head reinforcing apparatus of a pile for construction is provided to reduce the cost of construction as a whole by decreasing physical distribution costs and labor costs by welding works, and to heighten safety at construction work. A prefabricated head reinforcing apparatus of a pile for construction comprises many horizontal reinforcing bars(10) having the shape of a ring and arranged at a certain distance in the perpendicular direction, many vertical reinforcing bars(20) arranged to cross the horizontal reinforcing bars, many brackets(30) coupled at the intersection of the horizontal reinforcing bars and the vertical reinforcing bars to be separable to couple the horizontal reinforcing bars and the vertical reinforcing bars mutually, and a disk-shaped cap(40) connected to the bottom of the vertical reinforcing bars to support the upper part.

Description

Prefab apparatus for reinforcing head of pile}

The present invention relates to a head reinforcement device of a prefabricated building pile, and more particularly, by improving the structural member to be assembled on site with a simple structure and method, it is easy to transport the logistics to reduce the logistics cost as well as welding work It is related to the head reinforcement device of the prefabricated building piles which can reduce the overall construction cost and increase the safety of construction by reducing labor costs.

When constructing various building structures such as buildings and bridges, the PILE method is often used as a countermeasure against the stability and settlement of structures based on soft ground. In other words, steel pipe piles, PHC piles, PC piles or RC piles pre-produced at the factory will be constructed by the type method (hit, vibration) or embedding method. The protruding pile is cut appropriately and the end is reinforced. Next, reinforce the bottom reinforcement in the horizontal direction on the upper part, and cast the foundation concrete so as to stably support the structure by the piled pile and the poured concrete.

At this time, the head reinforcement device of the building pile for reinforcing the head of the building pile is considered to be very important because it is closely related to the safety of the construction as well as the construction period and the construction cost, where the head of the conventional pile pile Let's summarize some of the ways to reinforce it.

First, there is a method of installing the cover plate on the top of the pile by welding the reinforcement plate on the inner circumferential surface of the pile and then welding the cover plate to the top of the pile, and welding the rebars around the cover plate.

However, this method not only increases the labor and production cost because the worker has to weld the cover plate and the rebar in the field, but also the heat of welding can cause deformation, cracking, weakening and corrosion of the weld, Due to this, welding may be eliminated, and it is vulnerable to vertical load, which may cause a failure of the structure.

Second, there is a bolt-type steel pipe pile head reinforcement method. This is a method of drilling a bolt hole in the side of the pile with a hydraulic perforator, inserting the ready-made bolt-type steel pipe pile head reinforcement cover plate into the steel pipe, and then assembles the high-strength bolt on the construction pile side.

Although the bolt-type steel pipe pile head reinforcement method has the advantage of eliminating the need for on-site welding and shortening the construction time by using a cover plate which is a ready-made product (factory fabricated welding), the construction cost due to the transportation and transportation of the cover plate. This has the disadvantage of being inconvenient to transport and handle on site due to the increased weight.

Thirdly, cross reinforcing steel plate is inserted into the pile and welded to the inside of the steel pipe, then the circular cover plate and the steel pipe pile head are welded to each other, the vertical rebar is fillet welded around the outer side of the construction pile, and the expanded foundation reinforcing bars are assembled. Next, there is a method of pouring concrete.

This method does not require filling concrete, but has the disadvantage of having to weld on site, difficult to assemble reinforcing foundations, difficult transportation, and expensive construction cost.

In particular, as described above, the head reinforcement device of the conventional building piles require welding work, thereby causing a manpower and cost increase problem, power supply is required for welding, and also the welding of the head reinforcement device is completed In the case of transportation, the volume or size of the finished product is increased, which causes difficulties in logistics transportation and increases the logistics cost. Therefore, a countermeasure is required.

An object of the present invention relates to a head reinforcement device of a prefabricated building pile, and more particularly, by improving the constituent members to be assembled in the field by a simple structure and method, it is possible to reduce the logistics cost by facilitating logistics transport. It is to provide a head reinforcement device of a prefabricated building pile that can reduce the overall construction cost and increase the safety of construction by reducing the labor cost of welding work.

The object is a plurality of horizontal reinforcing bars having a ring shape and disposed spaced apart from each other in the vertical direction; A plurality of longitudinal bars arranged to intersect the transverse bars; A plurality of brackets detachably coupled to the intersection of the horizontal rebar and the vertical rebar to couple the horizontal rebar with the vertical rebar; And it is achieved by the head reinforcement device of the prefabricated building pile, characterized in that it comprises a cap of a disk shape connected to the lower end of the longitudinal reinforcement to support the top.

Here, each of the plurality of brackets, horizontal reinforcing bar support flange to form a horizontal reinforcing bar insertion space is inserted into the horizontal reinforcement; And a longitudinal reinforcing support flange connected to the transverse reinforcing support flange and forming a longitudinal reinforcing bar insertion space into which the longitudinal reinforcing bar is inserted.

In addition, the transverse reinforcing support flange and the reinforcing bar support flange are bent toward the reinforcing bar and the reinforcing bar so that the transverse reinforcement space and the reinforcing bar inserted in the reinforcing bar insertion space and the reinforcing bar insertion space are not separated. Squeezed.

At this time, the cap is formed with a plurality of passage holes through which a portion of the lower end of the longitudinal reinforcing bars pass.

In addition, a pinhole is formed at the lower end of the longitudinal reinforcing bars, and a coupling pin is inserted into the pinhole so that the longitudinal rebars passing through the through hole of the cap are not separated from the cap.

According to the present invention, by improving the constituent members to be assembled in the field by a simple structure and method, it is easy to transport the logistics to reduce the logistics cost as well as to reduce the overall construction cost by reducing the labor cost according to the welding operation A head reinforcement of a prefabricated building pile is provided to increase safety.

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

1 is a perspective view of a head reinforcement device of a prefabricated building pile according to an embodiment of the present invention, Figure 2 is a perspective view of Figure 1 from a different angle, Figure 3 is a side view of Figure 1, Figure 4 is a plan view of Figure 1, 5 is a perspective view of the bracket, FIG. 6 is an enlarged view of region A of FIG. 1, and FIG. 7 is a perspective view of the cap.

1 to 4, the head reinforcement device of the prefabricated building pile of the present embodiment, a plurality of transverse reinforcement 10, a plurality of longitudinal reinforcement 20, the horizontal reinforcement 10 and the longitudinal reinforcement 20 And a plurality of brackets 30 and caps 40 interconnecting them.

The transverse rebar 10 has a ring shape. However, it is not necessarily limited to the prototype. In the present embodiment, the ring-shaped transverse reinforcing bar 10 is illustrated as being provided four spaced apart from each other along the vertical direction, but is not necessarily limited to this value. Therefore, the number and the mutual separation interval of the horizontal reinforcing bar 10 can be appropriately adjusted according to the site situation.

The longitudinal rebar 20 is arranged to intersect the transverse rebar 10 and the upper region is bent to span the top of the building pile. Therefore, the longitudinal reinforcing bar 20 has an approximately L shape as shown in FIG. 3.

In the present embodiment, six longitudinal reinforcing bars 20 are shown to be provided, which are arranged at intervals along the circumferential direction of the horizontal reinforcing bars 10 inside the horizontal reinforcing bars 10, and the bent ends are horizontal reinforcing bars 10. Is exposed outward through the upper region. However, the number and shape of the longitudinal reinforcing bars 20 is not limited to the illustrated form.

On the other hand, when connecting the four horizontal reinforcement 10 and the six longitudinal reinforcement 20 to cross each other as shown in Figure 1, as shown in Figure 1, a total of 24 intersections are formed, such as the horizontal reinforcement 10 At the intersection where the vertical rebars 20 abut, the bracket 30 is coupled to couple the horizontal rebars 10 and the vertical rebars 20 at the corresponding positions.

For the most robust connection, the brackets 30 should be coupled to all the intersections where the horizontal bars 10 and the vertical bars 20 meet, but as shown in FIG. It may be sufficient to connect the rebars 10 and the longitudinal rebars 20.

As such, in the present embodiment, the horizontal rebars 10, the vertical rebars 20, and the cap 40 are individually transported to the site, and then they can be easily assembled at the site, thereby providing a bulkier volume than the conventional method. Will take up less.

The bracket 30 that is detachably provided to connect the horizontal rebars 10 and the vertical rebars 20 will be described with reference to FIGS. 5 and 6.

5 and 6, the bracket 30 is a horizontal reinforcing bar support flange 31 to form a horizontal reinforcing bar insertion space 31a into which the horizontal reinforcing bar 10 is partially inserted, and the horizontal reinforcing bar support The longitudinal reinforcing bar support flange 32 is connected to the flange 31 and forms a vertical reinforcing bar insertion space 32a into which the longitudinal reinforcing bar 20 is partially inserted.

The bracket 30 is made of a metal material that can be deformed while having a certain rigidity, the horizontal reinforcing support flange 31 and the vertical reinforcing support flange 32 is integrally manufactured.

Thus, as shown in FIG. 6, the longitudinal rebar 20 is partially inserted into the longitudinal reinforcing bar insertion space 32a. In addition, the horizontal rebar 10 is partially inserted into the horizontal rebar insertion space 31a. However, if left in this state, the horizontal reinforcing bars 10 and the vertical reinforcing bars 20 may be separated, so the horizontal reinforcing bars 10 and the vertical reinforcing bars partially inserted into the horizontal reinforcing bar space 31a and the vertical reinforcing bar space 32a are inserted. The transverse reinforcing support flange 31 and the longitudinal reinforcing bar support flange 32 are bent and pressed toward the transverse reinforcing bar 10 and the longitudinal reinforcing bar 20 so that the 20 is not separated.

That is, the bracket 30 illustrated in FIG. 5 represents a state in which the horizontal reinforcing support flange 31 and the vertical reinforcing support flange 32 are bent and pressed toward the horizontal reinforcing bar 10 and the vertical reinforcing bar 20. In other words, the transverse reinforcing support flange 31 has been bent and pressed in the θ1 direction of FIG. 5 and the longitudinal reinforcing support flange 32 is bent and compressed in the θ2 and θ3 directions of FIG. 5. Only then, the horizontal reinforcing bars 10 and the vertical reinforcing bars 20 partially inserted into the horizontal reinforcing rod insertion space 31a and the vertical reinforcing rod insertion space 32a are not separated, and the horizontal reinforcing bars 10 and the vertical reinforcing bars 20 are not separated. They can be combined strongly. When bending and crimping the horizontal reinforcing support flange 31 and the vertical reinforcing support flange 32, a general pliers may be used, or a separate crimping jig may be used.

Cap 40 is connected to the lower end of the longitudinal reinforcing bars 20 serves to support the top. 1, 2 and 7, the cap 40 has a disk shape, the outer side is formed with a plurality of spaced apart wings 41 are spaced apart from each other along the circumferential direction. Spacer wing 41 serves to be fixed to a large surface area with the concrete at the time of concrete pouring.

The cap 40 is formed with a plurality of passages 42 through which the lower ends of the longitudinal reinforcing bars 20 are partially passed. In the present embodiment, since six longitudinal reinforcing bars 20 are provided, six through holes 42 are also provided.

The through-holes 42 are longitudinal reinforcing bars 20 are passed through the lower end of a predetermined length, the coupling pin 43 is coupled to the lower end of the longitudinal reinforcing bars 20 passed through the cap 40. That is, the lower ends of the vertical rebars 20 are formed through the pinhole 20a. After the lower ends of the vertical rebars 20 pass through the through holes 42 of the cap 40, the coupling pins 43 are pinholes. Coupled to 20a. Therefore, the phenomenon that the cap 40 falls out at the corresponding position can be prevented. The coupling of the coupling pin 43 to the pinhole 20a may be an interference fit.

As a result, such a cap 40 may also be provided in a field assembly type instead of a fixed type, so that the logistics transfer may be facilitated, thereby providing sufficient effects of the present invention, which may reduce the logistics cost.

As shown in FIG. 7, the cap 40 further includes a plurality of through holes 44. In the present embodiment, two through holes 44 are provided, and these through holes 44 are used for coupling U-shaped reinforcing bars (not shown).

By such a configuration, a plurality of transverse reinforcing bars 10, a plurality of longitudinal reinforcing bars 20, a plurality of brackets 30 and a cap 40 are transferred to a site where foundation work is required. Then they are assembled and used on site. Looking at the assembly method, first, a plurality of brackets 30 are coupled to the longitudinal rebars 20 at predetermined intervals. At this time, the coupling of the bracket 30 and the longitudinal reinforcing bar 20 shows the left and right sides of the vertical reinforcing support flange 32 after the longitudinal reinforcing bar 20 is disposed in the longitudinal reinforcing bar insertion space 32a of the bracket 30. Are combined by bending and bending in the θ2 and θ3 directions. If necessary, the longitudinal reinforcing bars 20 and the bracket may be assembled before transport to the site.

Thereafter, the horizontal rebars 10 are inserted outside the vertical rebars 20 to which the brackets 30 are coupled to arrange the horizontal rebars 10 and the vertical rebars 20. 6, the horizontal rebar 10 is disposed in the horizontal rebar insertion space 31a and the horizontal reinforcing support flange 31 is bent in the horizontal rebar 10 direction, that is, in the θ1 direction of FIG. 5. The horizontal reinforcing bar 10 is fixed to the longitudinal rebar 20 by pressing. In some cases, the bracket 30 is first coupled to the horizontal reinforcing bar 20, and then the vertical reinforcing bar 20 may be changed to be arranged and assembled in the vertical reinforcing space 32a of the bracket 30.

Next, after the lower end of the longitudinal reinforcing bars 20 to pass through a portion of the through hole 42 of the cap 40, the coupling pin 43 is coupled to the pin hole 20a formed in the lower end of the longitudinal reinforcing bars 20 By doing so, the assembly work can be completed very simply and simply.

As described above, according to the present embodiment, since the assembly of the site can be performed by a simple and simple structure and method, the logistics transportation can be facilitated, thereby reducing the logistics cost, and thus, the construction period, the construction cost, the ease of handling, and the construction. It is possible to effectively and effectively meet all requirements such as safety and construction reliability.

As described above, the present invention is not limited to the described embodiments, and various modifications and changes can be made without departing from the spirit and scope of the present invention, which will be apparent to those skilled in the art. Therefore, such modifications or variations will have to be belong to the claims of the present invention.

1 is a perspective view of a head reinforcement device of a prefabricated building pile according to an embodiment of the present invention,

FIG. 2 is a perspective view of FIG. 1 from another angle;

3 is a side view of FIG. 1;

4 is a plan view of FIG.

5 is a perspective view of the bracket,

6 is an enlarged view of region A of FIG. 1,

7 is a perspective view of the cap.

* Explanation of symbols for the main parts of the drawings

10: horizontal rebar 20: vertical rebar

30 bracket 31 flange for supporting horizontal rebar

32: Flange for vertical rebar support 40: Cap

41: spaced wing 42: through hole

43: coupling pin 44: through hole

Claims (5)

A plurality of transverse bars having a ring shape and spaced apart from each other in the vertical direction; A plurality of longitudinal bars arranged to intersect the transverse bars; A plurality of brackets detachably coupled to the intersection of the horizontal rebar and the vertical rebar to couple the horizontal rebar with the vertical rebar; And Head reinforcement device of the prefabricated building piles, characterized in that it comprises a disk-shaped cap connected to the lower end of the longitudinal reinforcement to support the top The method of claim 1, Each of the plurality of brackets, A horizontal reinforcing bar support flange forming a horizontal reinforcing bar space into which the horizontal bar is inserted; And The reinforcing head of the prefabricated building piles, characterized in that it is connected to the horizontal reinforcing support flange, and includes a vertical reinforcing support flange forming a vertical reinforcing bar insertion space into which the vertical reinforcing bar is inserted. The method of claim 2, The horizontal reinforcing support flange and the vertical reinforcing support flange are bent and crimped toward the horizontal reinforcing bars and the vertical reinforcing bars so that the horizontal reinforcing bars and the vertical reinforcing bars inserted into the horizontal reinforcing rod insertion space and the longitudinal reinforcing bar insertion space are not separated. Head reinforcement device of the prefabricated building piles, characterized in that the. The method of claim 1, The cap is a head reinforcement device of the prefabricated building piles, characterized in that a plurality of passages through which the lower portion of the longitudinal reinforcement is formed. The method of claim 4, wherein A pinhole is formed at the lower end of the longitudinal reinforcing bars, and the pin reinforcing head reinforcement device of the prefabricated building pile, characterized in that the coupling pin is inserted into the pinhole so that the longitudinal reinforcing bars passing through the cap are not separated from the cap.

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