KR101452382B1 - Measuring apparatus for pile and measuring method using the same - Google Patents

Abstract

The present invention relates to an upper concrete (110) which is installed on a bottom surface of an upper concrete (11); A lower plate 120 spaced apart from the lower portion of the upper plate 110; An outer upper partition wall 111 provided with an outer edge of the upper plate 110; An outer lower partition wall 121 provided to surround the outer edge of the lower plate 120 so as to be in surface contact with the outer upper partition wall 111; The upper plate 110 or the lower plate 120 is formed so as to supply a fluid for supplying hydraulic pressure to the storage space a formed by the upper plate 110, the lower plate 120, the upper upper partition wall 111 and the outer lower partition wall 121. [ And a fluid channel (130) formed in the lower plate (120). The present invention provides an apparatus (100) for measuring the bearing capacity of a pile,

Description

TECHNICAL FIELD [0001] The present invention relates to a pile load measuring device, and a pile load measuring method using the pile load measuring device.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a civil engineering field, and more particularly, to an apparatus and a method for measuring the bearing capacity of a pile.

The bearing capacity of the pile is made by the bearing capacity of the end and the frictional force of the main surface. The former is relatively easy to measure, but the latter is difficult to measure.

1 and 2 are block diagrams for explaining a conventional endurance force (main surface friction force) measuring device of a pile.

As shown in the drawings, a lower plate 22 is provided on a lower portion of a lower concrete 12, a plurality of hydraulic cylinders 30 are installed on the lower plate 22, an upper plate 21 is installed thereon, ) Was used as the capillary force measuring device.

After this structure was installed, the friction force of the pile was measured by supplying the hydraulic pressure to the hydraulic cylinder 30 to measure the height of the upper concrete 11.

However, such a conventional load-bearing-force measuring apparatus is not efficient because it supports only a part of the area of the pile section by a plurality of hydraulic cylinders, the expensive hydraulic cylinders are used, high cost is required, There is a problem that it is wasteful because it has nothing to do.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a device for measuring the stiffness of a pile and a method for measuring stiffness of the pile using the stiffness measuring device.

In order to solve the above-described problems, the present invention provides a concrete structure comprising: an upper plate (110) installed on a bottom surface of an upper concrete (11); A lower plate 120 spaced apart from the lower portion of the upper plate 110; An outer upper partition wall 111 provided with an outer edge of the upper plate 110; An outer lower partition wall 121 provided to surround the outer edge of the lower plate 120 so as to be in surface contact with the outer upper partition wall 111; The upper plate 110 or the lower plate 120 is formed so as to supply a fluid for supplying hydraulic pressure to the storage space a formed by the upper plate 110, the lower plate 120, the upper upper partition wall 111 and the outer lower partition wall 121. [ And a fluid channel (130) formed in the lower plate (120).

The upper plate 110 and the lower plate 120 are respectively formed with upper plate casting holes 113 and lower plate casting holes 123 for pouring the lower concrete 12, An inner upper partition wall 112 is provided and an inner lower partition wall 122 surrounding the inner edge of the lower plate placement hole 123 is provided so as to be in surface contact with the inner upper partition wall 112, a) may be formed by the upper plate 110, the lower plate 120, the outer upper partition wall 111, the outer lower partition wall 121, the inner upper partition wall 112, and the inner lower partition wall 122.

The fluid channel (130) includes an inflow channel (131) formed at one side of the lower plate (120) to introduce the fluid. A guide passage 132 connected to the inflow passage 131 and formed in the lower plate 120; A supply passage 133 connected to the guide passage 132 and exposed toward the storage space a; And an outflow channel 134 connected to the guide channel 132 and formed on the other side of the lower plate 120 to discharge the fluid.

Preferably, the guide passage 132 is formed in a ring-like structure in the lower plate 120, and a plurality of the supply passage 133 is formed in a radially symmetric structure.

Preferably, a pressure measurement sensor 140 is installed on the upper surface of the upper plate 110.

The present invention is a method for measuring the bearing capacity of a pile using the apparatus (100) for measuring the bearing capacity of the pile, comprising: placing a lower concrete (12) in a perforation hole in the ground; Installing a pile endurance measurement device (100) on the lower concrete (12); Providing an upper rope (115) on the upper plate (110); Connecting a hydraulic supply hose to the fluid flow path (130); Placing an upper concrete (11) on an upper part of the upper plate (110); And measuring the height of the upper concrete (11) while supplying the hydraulic pressure through the hydraulic pressure supply hose (10).

The present invention provides a method of measuring the bearing capacity of a pile using the apparatus 100 for measuring the bearing capacity of the pile, the method comprising the steps of: providing an upper rope 115 and a lower rope 115 at an upper portion of the upper plate 110; Installing a bearing capacity measuring device (100) of the pile on the perforation hole of the ground; Connecting a hydraulic supply hose to the fluid flow path (130); Placing the lower concrete (12) through the upper plate casting hole (113) and the lower plate casting hole (123); Placing an upper concrete (11) on an upper part of the upper plate (110); And measuring the height of the upper concrete (11) while supplying the hydraulic pressure through the hydraulic pressure supply hose (10).

The present invention provides a method of measuring the bearing capacity of a pile using the apparatus 100 for measuring the bearing capacity of the pile, the method comprising the steps of: providing an upper rope 115 and a lower rope 115 at an upper portion of the upper plate 110; Installing a bearing capacity measuring device (100) of the pile on the perforation hole of the ground; Connecting the hydraulic pressure supply hose and the hydraulic pressure discharge hose to the inflow passage (131) and the outflow passage (134), respectively; Placing the lower concrete (12) through the upper plate casting hole (113) and the lower plate casting hole (123); Placing an upper concrete (11) on an upper part of the upper plate (110); And measuring the height of the upper concrete (11) while supplying the hydraulic pressure through the hydraulic pressure supply hose (10).

The present invention proposes a device for measuring the stiffness of a pile and a method for measuring the stiffness of the pile using the same.

1 is a side cross-sectional view of a conventional endurance measurement device.
2 is a plan view of a conventional endurance measurement device.
3 shows the embodiment of the present invention,
3 is a side sectional view.
4 is a side sectional view of the upper plate and the lower plate;
5 is a plan view of the upper plate;
6 is a side sectional view of the lower plate;
7 is a plan view of the lower plate;

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

As shown in FIG. 3 and FIG. 3, an apparatus 100 for measuring the bearing capacity of a pile according to the present invention basically comprises: an upper plate 110 installed on a bottom surface of an upper concrete 11; A lower plate 120 spaced apart from a lower portion of the upper plate 110; An outer upper partition wall 111 provided with an outer edge of the upper plate 110; An outer lower partition wall 121 provided on an outer edge of the lower plate 120 so as to be in surface contact with the outer upper partition wall 111; The upper plate 110 or the lower plate 120 is provided so as to supply the fluid for supplying the hydraulic pressure to the storage space a formed by the upper plate 110, the lower plate 120, the upper upper partition wall 111 and the lower outer partition wall 121 And a fluid channel (130) formed in the fluid channel (120).

That is, by supplying hydraulic pressure to the storage space a formed by the upper plate 110, the lower plate 120, the upper upper partition wall 111 and the lower outer partition wall 121, As shown in FIG.

This has the following effects.

In the prior art, only a part of the pile cross-sectional area is supported by a plurality of hydraulic cylinders. However, in the case of the present invention, since the entire pile section is supported by the cylinder (upper storage space) There is an effect to make.

In other words, since the present invention uses cylinders having a much larger cross-sectional area than the prior art, the load acting on the upper concrete can be made equal to or greater, while using less oil pressure than in the prior art.

Secondly, since the cylinder structure is formed by using the upper plate, the lower plate, and the like which are used in the past without using the expensive hydraulic cylinder as in the prior art, the cost can be greatly reduced.

An upper plate mounting hole 113 and a lower plate mounting hole 123 are formed in the deep portions of the upper plate 110 and the lower plate 120 in order to install the lower concrete 12, An inner lower partition wall 112 is provided and an inner lower partition wall 122 surrounding the inner edge of the lower plate placement hole 123 is provided so as to be in surface contact with the inner upper partition wall 112. The storage space 110, the lower plate 120, the outer upper partition wall 111, the outer lower partition wall 121, the inner upper partition wall 112 and the inner lower partition wall 122, The lower concrete 12 can be easily installed through the lower plate casting hole 123 (FIGS. 3 and 4).

The fluid channel 130 may have any structure that can supply fluid to the receiving space a, but may include an inflow channel 131 formed at one side of the lower plate 120 to allow the fluid to flow therethrough; A guide passage 132 formed in the lower plate 120, connected to the inflow passage 131; A supply passage 133 connected to the guide passage 132 and exposed toward the storage space a; And an outflow channel 134 connected to the guide channel 132 and formed on the other side of the lower plate 120 to allow the fluid to flow out is preferable in view of structural stability.

The guide passage 132 is formed in a ring-like structure inside the lower plate 120. When a plurality of the supply passage 133 are formed in a radially symmetric structure, the fluid is uniformly supplied to the storage space a, So that it is possible to stably drive the motor.

When the pressure measuring sensor 140 is installed on the upper surface of the upper plate 110, it is possible to measure not only the rising amount of the upper concrete 11 but also the pressure applied to the upper plate 110, There is an effect to make.

Hereinafter, a method of measuring the bearing capacity of a pile using the apparatus 100 for measuring the bearing capacity of a pile according to the present invention will be described.

When the upper plate mounting hole 113 and the lower plate mounting hole 123 are not formed in the bearing measuring device 100, the lower concrete 12 is first placed in the perforation hole of the ground, (115) is installed on the upper part of the upper plate (110) and the upper concrete (11) is laid.

When the upper plate mounting hole 113 and the lower plate mounting hole 123 are formed in the bearing measuring apparatus 100, the upper roots 115 and 125 are first provided on the upper portion of the upper plate 110 and the lower portion of the lower plate 120, A load bearing force measuring apparatus (100) of such a pile is installed in the perforation hole.

A hydraulic pressure supply hose and a hydraulic pressure discharge hose (not shown) are connected to the inflow passage 131 and the inflow passage 134, respectively.

The lower concrete 12 is laid through the upper plate casting hole 113 and the lower plate casting hole 123 and the upper concrete 11 is laid on the upper plate 110. [

Thereafter, while the hydraulic pressure is supplied through the hydraulic pressure supply hose, the rising amount of the upper concrete 11 is measured.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

11: Upper concrete 12: Lower concrete
100: stiffness measuring device of pile 110: top plate
111: outer upper bulkhead 112: inner upper bulkhead
113: upper plate casting hole 120: lower plate
121: outer lower bulkhead 122: inner lower bulkhead
123: lower plate casting hole 130: fluid channel
131: Inflow channel 132: Guide channel
133: Supply channel 134: Outflow channel
140: Pressure sensor

Claims (8)

An upper plate 110 installed on the bottom surface of the upper concrete 11;
A lower plate 120 spaced apart from the lower portion of the upper plate 110;
An outer upper partition wall 111 provided with an outer edge of the upper plate 110;
An outer lower partition wall 121 provided to surround the outer edge of the lower plate 120 so as to be in surface contact with the outer upper partition wall 111;
An upper plate casting hole 113 penetrating through the core of the upper plate 110 for pouring the lower concrete 12 located under the lower plate 120;
A lower plate mounting hole 123 formed through the core of the lower plate 120 and connected to the upper plate mounting hole 113;
An inner upper partition wall 112 provided with an inner edge of the upper plate casting hole 113;
An inner lower partition wall 122 provided on an inner edge of the lower plate mounting hole 123 so as to be in surface contact with the inner upper partition wall 112;
A storage space a closed at all by the upper plate 110, the lower plate 120, the outer upper partition wall 111, the outer lower partition wall 121, the inner upper partition wall 112 and the inner lower partition wall 122; And
And a fluid passage (130) formed in the upper plate (110) or the lower plate (120) to supply fluid for supplying the hydraulic pressure to the storage space (a)
The fluid channel (130)
An inflow channel 131 formed at one side of the lower plate 120 to introduce the fluid;
A guide passage 132 connected to the inflow passage 131 and formed in the lower plate 120;
A supply passage 133 connected to the guide passage 132 and exposed toward the storage space a; And
And an outflow channel (134) connected to the guide channel (132) and formed on the other side of the lower plate (120) to discharge the fluid,
The guide passage 132 is formed in a ring-shaped structure inside the lower plate 120,
The apparatus for measuring stiffness of a pile (100) according to claim 1, wherein a plurality of the supply channels (133) are formed in a radially symmetric structure.
The method according to claim 1,
And a pressure measuring sensor (140) is installed on the upper surface of the upper plate (110).
A method for measuring bearing capacity of a pile using the apparatus (100) for measuring bearing capacity of a pile according to claim 2,
(115, 125) on the upper part of the upper plate (110) and the lower part of the lower plate (120);
Installing the apparatus 100 for measuring the bearing capacity of the pile by coupling the upper plate 110 and the lower plate 120 to the perforation hole of the ground;
Connecting a hydraulic supply hose to the fluid flow path (130);
Placing the lower concrete (12) through the upper plate casting hole (113) and the lower plate casting hole (123);
Placing an upper concrete (11) on an upper part of the upper plate (110);
Measuring the height of the upper concrete (11) while supplying hydraulic pressure through the hydraulic pressure supply hose
And measuring the bearing capacity of the pile.
A method for measuring bearing capacity of a pile using the apparatus (100) for measuring bearing capacity of a pile according to claim 2,
(115, 125) on the upper part of the upper plate (110) and the lower part of the lower plate (120);
Installing the apparatus 100 for measuring the bearing capacity of the pile by coupling the upper plate 110 and the lower plate 120 to the perforation hole of the ground;
Connecting the hydraulic pressure supply hose and the hydraulic pressure discharge hose to the inflow passage (131) and the outflow passage (134), respectively;
Placing the lower concrete (12) through the upper plate casting hole (113) and the lower plate casting hole (123);
Placing an upper concrete (11) on an upper part of the upper plate (110);
Measuring the height of the upper concrete (11) while supplying hydraulic pressure through the hydraulic pressure supply hose
And measuring the bearing capacity of the pile.
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