KR20090000818U - A cast-in place pile using multi-piled up metal nets - Google Patents

Abstract

The present invention relates to a cast-in-place pile using multiple overlapping reinforcing bars, and to increase the resistance to the compressive force due to the horizontal force and the vertical load applied to the cast-in-place pile in the lateral direction by using the multiple overlapping reinforcing bar as a reinforcement. will be.

To this end, the present invention, in the field-casting pile is installed by inserting the reinforcement of the reinforcement net and concrete filling in the drilled hole drilled in the ground to prevent the settlement of civil engineering, building structures, the reinforcement inserted into the drilling tool Multiple overlapping reinforcing bars consisting of a plurality of overlapping reinforcing bars in which a plurality of reinforcing bars extending in the longitudinal direction and a plurality of band bars arranged around the reinforcing bars at a predetermined interval are assembled for fixing and reinforcing positions of the reinforcing bars. By providing a cast-in-place pile made of a network, it is possible to expect a reduction effect such as the cost required due to manpower and time by increasing the constructability and facilitating quality control.

Cast-In Place Pile, Reinforcing Bar, Multiple, Nested, Lattice

Description

Cast-in place pile using multi-piled up metal nets

The present invention relates to a cast-in-place pile using multiple overlapping reinforcing bars, and more specifically, as a reinforcement of the cast-in-place piles by constructing concrete, a multi-overlapping reinforcing bar network formed by overlapping a plurality of reinforcing bars is formed. Regarding the cast-in-place pile using multiple overlapping reinforcing nets to increase the compressive force on the axial and transverse cross-sections of the cast-in-place pile by providing additional resistance to the vertical and horizontal forces applied to the cast-in-place pile will be.

In general, pile foundations are used as foundations of structures to prevent ground subsidence in civil engineering and construction structures. It is divided into cast-in-place piles in which concrete is poured after reinforcing materials are inserted or after reinforcing materials are inserted.

In recent years, since the civil complaints increase in urban areas due to the increase in loads and construction depths, especially the noise and vibration problems due to the size of the structure, cast-in-placement piles have been preferred in recent years.

However, existing cast-in-place piles have low noise and can penetrate to the required depth required in the field, but problems due to securing of space and supply of equipment when assembling reinforcing bars applied as reinforcement for compression and shearing Due to the complicated process that occurs during the movement and construction, there are problems such as a lot of manpower, time and construction costs.

1 is a view showing a reinforcing bar for the site pour pile according to the prior art, the reinforcing bar 4 to be inserted into the drilling hole excavated in the ground is a plurality of cast iron bars (4a) extending in the longitudinal direction, that is, the longitudinal direction of the drilling tool ) And a plurality of strip reinforcing bars 4b arranged around the main reinforcing bars 4a so as to be spaced at predetermined intervals for fixing and reinforcing the main reinforcing bars.

However, the rebar network of such a configuration is not only easy to control the number of holes to be applied, but also easy to design and construct the site-placed piles to be applied, and in particular, there is a possibility of problems in the connection part because it is manufactured by hand in the field. And the failure rate is also high, the compression force against the vertical load of the cast-in-place pile is weak when the vertical pressure is applied.

Therefore, the present invention has been devised to solve the above problems, and the object of the present invention is a cast-in-place pile in a drilled hole drilled into the ground, the length of the plurality of cast iron and longitudinally extending the cast iron in the drill hole For reinforcement and reinforcement, by using reinforcement, multiple overlapping reinforcing bars consisting of multiple overlapping reinforcing bars arranged in the circumference of the main reinforcing bars at predetermined intervals are used as reinforcement materials. It is to provide a cast-in-place pile using multiple overlapping rebar networks that can maximize the resistance to compressive force.

A feature of the present invention for achieving the above object is, in the field casting pile which is constructed by inserting the reinforcement of the reinforcement mesh and concrete filling in the drilled hole in the ground to prevent settlement of civil engineering, building structures, the The reinforcing material inserted inside the drilling tool has a plurality of reinforcing bars which are assembled in the drilling tool in the longitudinal direction, and a plurality of reinforcing steel bars arranged around the reinforcing bars at predetermined intervals for fixing and reinforcing the positions of the reinforcing bars. It is a cast-in-place pile consisting of multiple overlapping reinforcing bar networks.

In the cast-in-place pile according to the present invention, the multiple overlapping reinforcing bar network is inserted into the concrete before the concrete filled in the drilling tool is hardened, and a lattice mesh larger than the concrete maximum particle is formed so that the concrete can enter and exit. It is preferable to use one.

In the cast-in-place pile according to the present invention, the multiple overlapping reinforcing bar network, the outermost reinforcing bar mesh grid formed; A first internal reinforcing bar network, in which a lattice network is formed and inserted into the outermost reinforcing bar network; A grid-like mesh is formed and may be composed of a second internal reinforcing bar network inserted overlapping the interior of the first internal reinforcing bar network.

In the cast-in-place pile according to the present invention, the first internal reinforcing bar or the second internal reinforcing bar corresponds to 1/2 to 1/3 of the total length L of the reinforcing bar net from the upper end of the outermost reinforcing bar net. Characterized in that overlapping to the bottom of the length is formed.

According to the present invention, the compression of the vertical load by replacing the reinforcement of the cast-in-place pile, which is generally applied as the foundation of the structure that is subjected to a large load, with the multiple overlapping reinforcing bar network 20 in which the main reinforcing bars and the band reinforcing bars are assembled. It is possible to increase the resistance to the maximum, and also the first inner reinforcing bar 22 and the second inner reinforcing bar 22, which is assembled inside the outer reinforcing bar mesh 23 from the ground 1/2 of the total length of the reinforcing bar network By assembling by overlapping the double and triple to the point that is ~ 1/3, it is useful to be able to maximize the resistance to the horizontal force acting in the transverse direction near the ground to the maximum.

In addition, according to the present invention, by applying the multiple overlapping reinforcing bar network 20 by adjusting the finished product at an appropriate length by the appropriate length, it is possible to facilitate the increase in constructability and quality control, etc. You will be able to expect savings.

The objects, features and advantages of the present invention will be more readily understood by reference to the accompanying drawings and the following detailed description.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the configuration and operation of the preferred embodiment of the present invention.

Figure 2 is an exploded perspective view showing an extract of the multiple overlapping rebar network according to the present invention, the multiple overlapping rebar network inserted into the drilling tool 100 as a reinforcement of the site casting pile to prevent settlement of civil engineering, building structures ( 20 is shown in detail. As shown in FIG. 2, the multiple overlapping rebar networks 20 according to the present invention are spaced apart by a predetermined interval for fixing and reinforcing the positions of the plurality of cast bars 21a extending in the longitudinal direction of the drill tool. The outermost reinforcing bar 21 is assembled with a plurality of strip reinforcing bars 21b arranged around the main reinforcing bar to form a plurality of lattice meshes, and overlaps and is inserted into the outermost reinforcing bar network, and the inside of the drilling tool. In order to fix and reinforce the positions of the plurality of cast iron bars 22a extending in the longitudinal direction thereof, a plurality of band bars 22b arranged around the cast iron bars at predetermined intervals are assembled to form a plurality of lattice meshes. The first inner reinforcing bar 22 and the plurality of main reinforcing bars 23a inserted in the inner part of the first inner reinforcing bar and extending in the longitudinal direction in the drilling tool, and for fixing and reinforcing the positions of the main reinforcing bars Spacing A plurality of strip reinforcing bars (23b) are arranged to circumferentially arranged around the main reinforcing bar is composed of a second internal reinforcing bar network 23 to form a plurality of lattice mesh.

Here, the multiple overlapping reinforcing bar 20 is preferably formed of a lattice mesh larger than the largest concrete particles, that is, the maximum aggregate particles so that the concrete filled in the drilling tool can enter. As a result, when the concrete is placed inside the drilling tool for the construction of the cast-in-place pile, the concrete is tightly packed into the pile through the lattice mesh formed in the multi-stacked rebar network 20, thereby increasing the adhesion between the multi-stacked rebar network 20 and the concrete. In this way, by applying a lattice mesh larger than the size of the maximum concrete particles, it is possible to prevent the separation of materials that may have occurred during concrete pouring, and also to manufacture the multi-overlapping rebar mesh 20 itself in a factory. By providing a standardized product, it is possible to promote convenience in designing and constructing a cast-in-place pile.

3 is an exemplary view illustrating a state of use of a site-pouring pile in which multiple overlapping rebar networks are constructed according to the present invention, when the concrete 101 is poured into a drilling tool 100 perforated in the ground, the first internal rebar network 22 or The second internal reinforcing bar 23 is overlapped from the upper end of the outermost reinforcing bar 21 to the lower end of the length corresponding to 1/2 to 1/3 of the total length L of the multiple overlapping reinforcing bar 20 It is preferably formed. Since the vertical force due to the vertical load is mainly applied to the pile near the ground and is not transmitted to the lower end of the pile, the vertical force acting on the upper portion of the cast-in-placement pile is exceeded when it exceeds 1/2 of the total length of the rebar network. The strength is sufficient, but it is not cost effective, and if it is shorter than 1/3 of the total length of the reinforcing bar, it will not be able to exhibit sufficient reinforcement against the vertical force acting from the vertical to the ground. Because.

Looking at the construction of the cast-in-place construction of the present invention, first, when the concrete is filled in the drilling tool excavated to the ground to the desired depth is inserted multiple overlapping rebar network 20 according to the present invention. The multiple superimposed rebar network 20 can form a composite structure with the concrete connected by the grid network, the adhesion performance of the concrete and the reinforcing steel network of the present invention by the reinforcing steel mesh overlapping with the grid network Since it is greatly promoted to be integrated with each other, when the concrete is cured, it is possible to complete the cast-in-place pile that can resist axial force, shear force and bending stress.

The present invention has been shown and described with respect to certain preferred embodiments. However, the present invention is not limited to the above-described embodiment, and those skilled in the art to which the present invention pertains various modifications without departing from the technical spirit of the present invention described in the following claims. You can do it.

1 is a perspective view of a reinforcing steel bar used in the conventional cast-in-place construction

Figure 2 is an exploded perspective view showing an extract of the multiple overlapping rebar network according to the present invention

Figure 3 is an exemplary state of use of the cast-in-place piles are constructed of multiple overlapping rebar network according to the present invention

<Explanation of symbols for the main parts of the drawings>

20: Multiple overlapped rebar network 21: Outer rebar network

22: first internal rebar network 23: second internal rebar network

21a, 22a, 23a: cast steel 21b, 22b, 23b: band steel

Claims (5)

In the site-placement pile that is constructed by inserting reinforcement and concrete filling into the drilled hole in the ground to prevent the settlement of civil engineering, building structures, The reinforcing material inserted into the drilling tool is a reinforcing steel bar which is composed of a plurality of cast iron bars extending in the longitudinal direction in the drilling tool and a plurality of strip reinforcing bars arranged around the main steel bars at predetermined intervals for fixing and reinforcing the positions of the cast steel bars. Cast-in-place pile using multiple overlapping reinforcing bar network, characterized in that the multiple overlapping reinforcing bar network composed of a plurality of overlapping. The method of claim 1, wherein the multiple overlapping rebar network, The concrete is filled in the drilling tool is inserted into the concrete before the hardening, cast-in-place pile using a multiple overlapping reinforcing bar network, characterized in that the lattice mesh is formed larger than the concrete maximum particle to enter the concrete. The method according to claim 1 or 2, wherein the multiple overlapping rebar network, Outermost reinforcing bar network with lattice mesh; A first internal reinforcing bar network formed with a lattice mesh and inserted overlapping the inside of the outermost rebar network; A cast-in-place pile using a multiple overlapping reinforcing bar network, characterized in that consisting of; a grid-like mesh is formed and a second internal reinforcing bar network overlapping and inserted into the first internal rebar network. The method of claim 3, wherein the first internal reinforcing bar network, On-site casting pile using a multiple overlapping reinforcing bar network, characterized in that formed from the upper end of the outermost reinforcing bar network overlapping to the lower end of the length corresponding to 1/2 to 1/3 of the total length (L) of the rebar. The method of claim 3, wherein the second internal reinforcing bar network, On-site casting pile using a multiple overlapping reinforcing bar network, characterized in that formed from the upper end of the outermost reinforcing bar network overlapping to the lower end of the length corresponding to 1/2 to 1/3 of the total length (L) of the rebar.

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