KR20200025800A - The hybrid precast concrete pile with all-in-one steel pipe and the manufacturing method thereof - Google Patents

Abstract

The present invention manufactures a steel pipe used as a mold and a concrete pile so as to have an integral structure in a step of manufacturing the concrete pile, thereby improving structural stability. In addition, the present invention minimizes a joint protruding when the steel pipe is coupled so that vortex phenomena caused by wind loads are prevented, thereby improving support force of the concrete pile.

Description

HYBRID PRECAST CONCRETE PILE WITH ALL-IN-ONE STEEL PIPE AND THE MANUFACTURING METHOD THEREOF}

The present invention relates to a steel-pipe hybrid hybrid ready-made concrete pile and a method for producing the same, and more specifically, it is possible to resist from horizontal loads such as wind load and hydraulic pressure acting on the ready-made concrete pile supporting the bridge, thereby improving structural stability. The present invention relates to a steel pipe integral hybrid ready-made concrete pile and a method of producing the same.

In general, when installing bridges, bridges such as concrete piles are installed to transfer loads from bridge girders to the lower ground.

Concrete piles have a very strong bearing force to support the bridge girders, but there are problems that are very vulnerable to horizontal loads such as wind load, hydraulic pressure and seismic load.

In particular, concrete piles supporting bridge shifts (both ends) have a problem that is more vulnerable to horizontal load than concrete piles supporting other bridge girders.

In order to solve this problem, a method of configuring the upper and lower thicknesses of the concrete pile differently, or adding a support for supporting the concrete pile is used.

However, in order to configure the thickness of the upper and lower parts of the concrete pile differently, there is a problem in that it is necessary to calculate and apply the exact point at which the horizontal load acts.

In addition, there is a problem in that air and construction costs increase as additional construction must be performed at the periphery where concrete piles are installed in order to add a new support for supporting concrete piles.

Therefore, there is a need for a new steel-pipe hybrid hybrid ready-made concrete pile and its production method capable of improving structural stability to be able to resist the horizontal load acting on the concrete pile without additional construction.

Korean Patent Publication No. 10-2007-0104111 (published Oct. 25, 2007)

The present invention was devised to solve the above problems, and more particularly, the steel pipe integral hybrid ready-made concrete pile and its production method capable of improving structural stability by producing in one piece with the steel pipe used to produce ready-made concrete piles. It is about.

In order to solve the above problems, the present invention, a pair of integrally coupled with the mortar (mortar) for manufacturing the concrete pile 10 and a pair consisting of the first casing member 110 and the second casing member 120. The casing member 100 and the casing member 100 to be rotated at high speed in close contact with the casing member 100 so as to correspond to the first casing member 110 and the second casing member 120. A pair of formwork 200 formed of formwork 220 and having a pair of first and second casing members 110 and 120 having a size and a shape corresponding to each other, and the first and second casing members 110 and 120. A plurality of protrusions 111 and 121 protruding from the inner diameter of the inner and outer diameters of the first and second casing members 110 and 120 extend in the height direction and have recessed grooves formed in the inner direction. , 122).

According to another embodiment of the present invention, a plurality of through holes 113 and 123 penetrating the inside and the outside of the casing member 100 and the inside of the casing member 100 are formed, and the through holes 113 and 123 are provided. It further comprises a plurality of nut members (114, 124) corresponding to the position of.

According to another embodiment of the present invention, both ends of the first and second dies 210 and 220 are joined to each other and are integrally coupled to each other, and the first and second dies 210 and 220 are integrally coupled to each other. The inner diameter of the projections 212 and 222 configured to correspond to the shape and position of the seating grooves 112 and 122 of the first and second casing members 110 and 120, and one side end of the junction portion 211, 221 Guide rails 213 and 223 extending in a height direction and having a flat cross section protruding in a trapezoidal shape, and a plurality of through holes 214 disposed at equal intervals in the height direction and fastened to a coupling member in the height direction. , 224).

According to another embodiment of the present invention, it characterized in that it further comprises a vortex preventing member 300 which is integrally coupled with the joints (211, 221) of the formwork (200).

According to another embodiment of the present invention, the vortex preventing member 300 has an inner surface corresponding to the outside diameter of the formwork 200_ and is formed of an index material so that the watertight contact portion 311 and 321 are in close contact with each other. And, it is configured to correspond to the shape and shape of the guide rails (213, 223), characterized in that it is composed of a slide coupling portion (313, 323) sliding along the height direction.

According to another embodiment of the present invention, the formwork 200 has coupling grooves 215 configured to concave inwardly at both end portions of the first formwork 210 and both side ends of the second formwork 220. Seated inside the coupling groove 215 is characterized in that it is composed of a coupling member 225 is configured in a corresponding position of the coupling groove 215 is integrally coupled.

According to another embodiment of the present invention, the coupling groove 215 is a key insertion groove 216 is inserted into the separation key (key) to be separated from the first formwork 210 and the second formwork (220) It is characterized in that it is further configured.

According to another embodiment of the present invention, in the production method of the steel-pipe integrated hybrid ready-made concrete pile, the production method is a step of installing and installing a plurality of steel wires in the casing member 100 (S100), the casing member ( The protrusions 212 and 222 of the formwork are seated in the seating grooves 112 and 122 of the step 100 so that the casing member 100 and the formwork 200 come into close contact with each other (S200), and the junction part of the formwork 200 is provided. Step (S300) of closely contacting and fixing (211, 221) to each other (S300), inserting and fixing a fastening member in the plurality of through holes (214, 224) (S400), injecting mortar into the casing member 100 Step (S500), the step of steam curing the casing member 100 at the same time as the high speed rotation (S600), the mortar is characterized in that it comprises a step (S700) to be integrated with the casing member (100).

According to another embodiment of the present invention, when the mortar and the casing member 100 are integrated, transferring to the construction site and placing the casing perpendicularly to the ground (S700), the guide rails 112 and 122 of the casing member 100 Sliding coupling the vortex prevention member 200 to the (S800) is characterized in that it further comprises.

On the other hand, the description of the technology disclosed herein is only an embodiment for structural or functional description, the scope of the disclosed technology should not be construed as limited by the embodiments described in the text. That is, since the embodiments may be variously modified and may have various forms, the scope of the disclosed technology should be understood to include equivalents capable of realizing the technical idea. In addition, the objects or effects presented in the disclosed technology does not mean that a specific embodiment should include all or only such effects, and thus the scope of the disclosed technology should not be understood as being limited thereto.

In addition, the meaning of the terms described in the present invention will be understood as follows. The terms “first” and “second” are used to distinguish one component from another component, and the scope of rights should not be limited by these terms. For example, the first component may be referred to as a second component, and similarly may be referred to as a first component as a second component.

Further, when a component is referred to as being "connected" to another component, it should be understood that there may be another component in between, although it may be directly connected to the other component. On the other hand, when a component is referred to as being "directly connected" to another component, it should be understood that there is no other component in between. On the other hand, other expressions that describe the relationship between components, such as "between" and "between" or "neighboring to" and "directly neighboring", should be interpreted as well.

Singular expressions should be understood to include plural expressions unless the context clearly indicates otherwise, and terms such as “include” or “have” refer to features, numbers, steps, actions, components, parts, or parts thereof described. It is to be understood that the combination is intended to be present and does not exclude in advance the possibility of the presence or addition of one or more other features or numbers, steps, actions, components, parts or combinations thereof.

The present invention is to produce a concrete pile, it is possible to improve the structural stability by producing a steel pipe and a concrete pile used as a mold having an integrated structure, by minimizing the joints protruding when joining the steel pipe due to the wind load There is an advantage to improve the bearing capacity of the concrete pile by preventing the vortex phenomenon.

1 and 5 is a view showing the overall appearance of the steel pipe integrated hybrid ready-made concrete piles according to the present invention,
6 to 8 is a view showing a steel pipe integrated hybrid ready-made concrete pile according to a second embodiment of the present invention,
9 to 11 is a view showing a steel pipe integral hybrid ready-made concrete pile according to a third embodiment of the present invention,
13 and 14 is a view showing a casing member composed of another structure of the steel pipe integrated hybrid ready-made concrete pile according to the present invention.

Hereinafter, with reference to the preferred embodiment to which the present invention belongs will be described in more detail.

First, Figures 1 to 4 is a view showing a steel pipe integrated hybrid ready-made concrete pile according to the present invention.

The present invention according to the drawings is composed of a casing member 100 and the formwork 200, the casing member 100 is configured integrally with the concrete pile 10 is filled and cured therein.

In detail, the casing member 100 and the formwork 200 are each composed of a pair of the first casing member 110 and the second casing member 120, the first formwork 210 and the second formwork ( 220).

In the present invention, the two described as a pair, but may be composed of two or more within the scope to achieve the same purpose and function.

In order for each of the first and second casing members 110 and 120 to be integrally coupled so that the cross-sectional area is formed in a circular shape, a plurality of protrusions protruding inwardly are formed in the inner diameter of the first and second casing members 110 and 120. (111, 121) are comprised.

At this time, the protruding portion 111 of the first casing member 110 is inserted into the protruding portion 121 of the second casing member 120, and the joint surface of the first casing member 110 and the second casing member 120. It is joined in one piece by welding.

Meanwhile, as shown in FIG. 5, in order to integrally couple the first casing member 110 and the second casing member 120, a plurality of bolts are pre-installed in the inner diameter of the casing member 100. In addition, by attaching a separate steel plate (steel plate) to the outer diameter of the casing member 100 can be combined integrally.

When the mortar is filled in the casing member 100 integrally coupled as described above, the first and second dies 210 and 220 are coupled to produce the concrete pile 10 through high speed rotation.

In this case, the inner diameters of the first and second dies 210 and 220 are in close contact with the outer diameters of the first and second casing members 110 and 120, and the first and second dies 210 and 220 rotate at a high speed. In this case, the first and second casing members 110 and 120 rotate together in the same direction.

Outer diameters of the first and second casing members 110 and 120 to prevent a phenomenon in which the first and second casing members 110 and 120 appear when the first and second dies 210 and 220 rotate at high speed. It is formed extending in the height direction, a plurality of recessed grooves 112, 122 concave inwardly is formed.

Inner diameters of the first and second dies 210 and 220 are formed with a plurality of protrusions 212 and 222 to correspond to the shape and position of the seating grooves 112 and 122.

By the protrusions 212 and 222 coupled to the seating grooves 112 and 122, the casing member 100 is interlocked with the formwork 200 to rotate in the same direction and speed.

The first and second formwork (210, 222) is formed in a flat cross-section (ohm, ohm) shape, the junction parts 211, 221 protruding from both ends are bonded to each other to be integrally combined.

In this case, a plurality of through-holes 214 and 224 disposed at equal intervals in the height direction are formed in the junction parts 211 and 221 and are fastened by the coupling member.

The coupling member is generally composed of a bolt and a nut, and detailed description thereof will be omitted.

In addition, the guide rails 213 and 223 extending along the height direction of the formwork 200 are formed at one end of the joint part 211 and 221.

The guide rails 213 and 223 have a flat cross section formed in a trapezoidal shape, which will be described later.

When the casing member 100 and the formwork 200 are tightly coupled as described above, the mortar is filled in the casing member 100, and then centrifugal molding is performed through high speed rotation.

Since the casing member 100 is integrally coupled to the filled and cured concrete pile 10 through steam curing, the casing member 100 resists from horizontal load and moment generated due to wind load or vibration. It is possible to improve the structural stability.

6 to 8 are views illustrating the vortex preventing member 300 according to the second embodiment of the present invention.

The vortex prevention member 300 targets the concrete pile 10 integrally coupled with the casing member 100, and is additionally used when the formwork 200 is additionally coupled according to the construction environment and purpose of use. It is used.

The inner surface of the vortex preventing member 300 is configured to correspond to the shape of the outer diameter of the mold 200 is in close contact, the outer surface is a streamlined.

At this time, the inner surface of the vortex preventing member 300 that is in close contact with the outer diameter of the formwork 200 is formed of the close contact portion (311, 321) made of a water repellent material to enable waterproof.

The vortex preventing member 300 is coupled in close contact with the joints 211 and 221 formed in the first and second dies 210 and 220, wherein the vortex preventing member 300 is provided with a slide coupling part 313 and 323. It is configured to be slidingly coupled with the guide rails (213, 223) of the bonding portion (211, 221).

The slide coupling parts 313 and 323 are formed to be concave inwardly to correspond to the shape and shape of the guide rails 213 and 223 and are extended along the height direction.

As the vortex preventing member 300 is coupled to the first and second formwork 210 and 220 as described above, the vortex shape generated by the joint parts 211 and 221 protruding from both ends of the formwork 210 and 220 is formed. It can prevent.

9 and 10 show a formwork 200 according to a third embodiment of the present invention.

In the formwork 200 according to the third embodiment, the vortex preventing member 300 of the second embodiment is integrally coupled.

The first formwork 210 of the formwork 200 is formed with a groove so that both ends are concave inward, the engaging groove 215 is further configured with an internal locking step.

Coupling members 225 are formed at both ends of the second formwork 220, and the first and second formwork 210 and the second formwork are formed by the coupling member 225 being seated inside the coupling groove 215. 220 is to be combined integrally.

The coupling member 225 is configured at a position corresponding to the coupling groove 214, and is formed of an elastic material so that the first and second dies 210 and 220 can be easily coupled.

The coupling member 225 is made of an elastic material and is compressed when the coupling member 225 is inserted into the coupling groove 214, and is expanded again when the coupling member 225 reaches the internal locking step configured in the coupling groove 214.

As described above, since the coupling member 225 is made of an elastic material, the first and second dies 210 and 220 may be easily coupled to each other.

Meanwhile, in order to separate the first and second dies 210 and 220 from each other, a key insertion groove 216 is further configured in the coupling groove 215 as shown in FIG. 11.

A separate separation key is inserted into the key insertion groove 216, and the first member 210 and the second mold 220 can be easily compressed by compressing the coupling member 225 formed of an elastic material. It is possible to separate.

12 and 14 are views showing a casing member composed of another structure of the steel-pipe integrated hybrid ready-made concrete pile according to the present invention.

First, as shown in FIG. 12, the inner diameter of the casing member 100 protrudes by a predetermined length inwardly, and includes a plurality of protrusions 111 and 121 configured to protrude to different shapes and different lengths. .

The protrusions 111 and 121 are used in a regular or irregular arrangement according to the construction environment and purpose of use, and variously configure the number and shape of the protrusions 111 and 121.

In this case, the protrusions 111 and 121 are preferably made of the same material as the concrete pile 10 so as to improve the integrity of the casing member 100 and the concrete pile 10, but have the same purpose and function. It can be used with other materials to the extent that can be achieved.

13 and 14 are views illustrating the casing member 100 penetrating the inner and outer parts thereof.

At a predetermined position of the casing member 100, a plurality of through holes 113 and 123 penetrating inside and outside are formed.

In the inner diameter of the casing member 100, a plurality of nut members 114 and 124 are formed at positions corresponding to the positions of the through holes 113 and 123.

The plurality of nut members 114 and 124 are the inner diameter of the casing member 100 is integrally coupled by welding in advance, and the concrete pillar cured by improving the adhesive force with the mortar filled in the casing member 100. There is an advantage that the integration between the 10 and the casing member 100 is improved.

In this case, the through holes 113 and 123 are formed with a film having a predetermined thickness, thereby preventing the mortar filled in the casing member 100 from leaking to the outside.

In addition, a plurality of screws may be inserted into the through holes 113 and 123 to firmly fix the casing member 100 and the concrete column 10.

As a production method for producing the concrete pile 10 is integrally coupled with the casing member 100 as described above, the steel wire installation step of placing and installing a plurality of steel wires inside the casing member 100 (S100) ), The casing member and the formwork installation step in which the protrusions 212 and 222 of the formwork are seated in the seating grooves 112 and 122 of the casing member 100 so that the casing member 100 and the formwork 200 are in close contact with each other. (S200), the step of fixing the contact portion (211, 221) of the formwork in close contact with each other formwork fixing step (S300), formwork fastening to insert and fasten the fastening member into the plurality of through holes (214, 224) Step (S400), the mortar injection step (S500) for injecting the mortar in the casing member 100, the centrifugal molding step (S600), and the mortar is cured to steam curing the casing member 100 at high speed Integrated with the casing member 100 It is produced via the integrated curing step (S700).

On the other hand, in order to integrate the casing member 100 and the formwork 200 to be installed at the construction site, when the mortar and the casing member 100 are integrated, the vertical casting step of transferring to the construction site and vertically placed on the ground ( S700) and the step of sliding coupling the vortex prevention member 200 to the guide rails 112 and 122 of the casing member 100 further includes a vortex prevention installation step (S800).

By producing the steel pipe integral hybrid ready-made concrete piles in which the concrete pile 10 and the casing member 100 are integrally formed as described above, it is possible to correspond to the horizontal load acting on the concrete pile installed to support the bridge girder. As a result, structural stability is improved, and durability and lifespan are increased.

In addition, by further integrating the formwork 200 into the concrete pile 10 integrally formed with the casing member 100, the structural strength is further improved, and the vortex phenomenon caused by the adhesive surface of the formwork 200 is reduced. It is possible to make, there is an advantage that can prevent the vibration phenomenon due to wind load.

Although described above with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified and changed within the scope of the invention without departing from the spirit and scope of the invention described in the claims below It can be done.

100 casing member 200 formwork
300: vortex prevention member

Claims (7)

A pair of casing members 100 integrally coupled with a filled mortar for manufacturing the concrete pile 10 and composed of a first casing member 110 and a second casing member 120;
It is in close contact with the outer diameter of the casing member 100 is rotated at a high speed, a pair of the first formwork 210 and the second formwork 220 formed to correspond to the first casing member 110 and the second casing member 120 It includes a formwork 200,
A pair of first and second casing members 110 and 120 having sizes and shapes corresponding to each other;
A plurality of protrusions 111 and 121 protruding from the inner diameters of the first and second casing members 110 and 120,
Steel pipe integrated hybrid ready-made concrete piles, characterized in that the outer diameter of the first and second casing members (110, 120) includes a seating groove (112, 122) extending in the height direction and formed with a concave groove in the inner direction.
The method of claim 1,
A plurality of through holes 113 and 123 penetrating inside and outside of the casing member 100;
The steel pipe integral type hybrid ready-made concrete pile, which is configured on the inner diameter of the casing member 100 and further includes a plurality of nut members 114 and 124 corresponding to the positions of the through holes 113 and 123.
The method of claim 1,
Bonding parts 211 and 221 to which both ends of the first and second dies 210 and 220 are joined and integrally coupled;
Inner diameters of the first and second dies 210 and 220 may include protrusions 212 and 222 configured to correspond to shapes and positions of the seating grooves 112 and 122 of the first and second casing members 110 and 120.
One side end of the junction portion 211, 221 is formed extending in the height direction, the guide rails (213, 223) protruding in a trapezoidal flat section surface,
Steel joint integral hybrid ready-made concrete piles, characterized in that the junction portion (211, 221) is arranged at equal intervals in the height direction and comprises a plurality of through holes (214, 224) to which the coupling member is fastened.
The method of claim 1,
Steel pipe integral type hybrid ready-made concrete piles, characterized in that it further comprises a vortex preventing member 300 that is integrally coupled with the junction (211, 221) of the formwork (200).
The method of claim 4, wherein
The vortex preventing member 300 is
The inner side is configured to correspond to the outer diameter of the formwork 200, and the close contact portion (311, 321) is made of a close contact with water so as to be waterproof, and
Steel pipe integral hybrid ready-made concrete piles, characterized in that configured to correspond to the shape and shape of the guide rails (213, 223), the slide coupling portion (313, 323) sliding along the height direction.
In the production method of the steel pipe integrated hybrid ready-made concrete piles according to claim 1, wherein the production method
Steel wire installation step (S100) for placing and installing a plurality of steel wires in the casing member 100,
The casing member and the mold installation step (S200) in which the protrusions 212 and 222 of the formwork are seated in the seating grooves 112 and 122 of the casing member 100 so that the casing member 100 and the formwork 200 are in close contact with each other. ),
Formwork fixing step (S300), which is fixed to be in close contact with each other (210, 221) of the formwork 200,
Forming fastening step (S400) for inserting and fastening the fastening member to the plurality of through holes (214, 224),
Mortar injection step (S500) for injecting mortar into the casing member 100,
Centrifugal molding step (S600) of steam curing the casing member 100 at the same time as the high speed rotation,
The method of producing a steel pipe integrated hybrid ready-made concrete piles, characterized in that it comprises a curing step (S700) that the mortar is cured and integrated with the casing member (100).
The method of claim 6,
When the mortar and the casing member 100 is integrated, the vertical pouring step (S700) to be transferred to the construction site vertically placed on the ground,
Sliding coupling the vortex prevention member 200 to the guide rails (112, 122) of the casing member (100) Spiral prevention installation step (S800) further comprising the production method of the steel pipe integral hybrid ready-made concrete pile .

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