KR20200019469A - Pile tip load test system using double acting hydraulic jack with reaction spring - Google Patents

Abstract

The present invention relates to a pile tip load test apparatus using a double-action hydraulic jack with an embedded reaction spring, in which the reaction spring is formed in the pile tip load test apparatus to allow the hydraulic jack to be operated in a double-action type, such that a piston of the pile tip load test apparatus is restored to an original position inside a cylinder to increase a soil bearing force of a deposited pile. According to the present invention, a pile tip load test apparatus including a cylinder, a piston, and a hydraulic line comprises: the cylinder installed in a mold installed to deposit a pile to be integrally deposited with the pile, having the piston embedded therein, and connecting a hydraulic pressure supply and discharge hose to the hydraulic line formed to supply and discharge hydraulic pressure; the piston embedded in the cylinder before the deposition and lowered by the hydraulic pressure supplied from the hydraulic line; the reaction spring installed in the piston to restore the piston; a steel plate bolt-coupled to the lower end part of the cylinder before the deposition; a lower steel plate formed on the lower part of the steel plate; and the hydraulic line supplying and discharging the hydraulic pressure to and from the inside of the cylinder.

Description

Pile tip load test system using double acting hydraulic jack with reaction spring}

The present invention relates to a pile tip loading test apparatus using a double-acting hydraulic jack with a reaction force spring. More specifically, by forming a reaction force spring in a pile tip loading test apparatus to operate the hydraulic jack in a double-acting manner, It relates to a pile tip loading test apparatus using a double acting hydraulic jack with a reaction force spring which increases the bearing capacity of the placed pile by restoring the piston to its original position in the cylinder.

In general, designation works are carried out to reinforce the foundation or to strengthen the strength of the ground in order to safely support the foundation of the structure. Designation works are designated according to specific methods (rubble designation, sand designation, gravel designation), raft designation, peer designation. It is divided into designation and pile designation, and it is selected in consideration of the load of the structure, ground conditions, construction conditions, etc. Double pile designation is the most commonly used method. It is a method to exert the strength with friction bearing force.

The pile designation is classified into two types according to the construction method: ready-made pile designation and in situ concrete designation.

The ready pile designation is a method of carrying dry members such as section steel, steel pipe, and PHC to the site and construct it through pile piling.In situ concrete pile designation is like reinforcing reinforcement after drilling the ground at the site like concrete construction in general site construction. Construction through concrete and concrete pouring.

Designated pile designation and in-situ concrete pile designation are selected according to the construction site conditions.However, in case of making 1000-3000mm large diameter piles, it is difficult to carry and lift the concrete piles. It is common.

On the other hand, in order to apply the pile designation to the site, the pile design must be preceded, and the pile design starts by calculating the allowable bearing capacity of the pile to be constructed.

The allowable bearing capacity of the pile is calculated through the pile load test, and recently, in the case of on-site concrete piles, the load test as shown in FIGS. 1 and 3 attracts attention.

That is, while the load test device as shown in Figures 1 and 3 is tightly connected to the lower part of the reinforcing bar, while mounting a stress gauge on the reinforcing bar and then intruding into the excavation hole, the concrete is poured and then the loading test device It is to measure the tip bearing capacity and the principal surface frictional force according to the load.

The loading test apparatus 10 of FIG. 3 is composed of the upper and lower plates 11 and 12, the cylinder 13 between the upper and lower plates, and a displacement meter 14 for measuring the displacement of the upper and lower plates. The tester is a device that measures the displacement at this time by displacement meter when displacement occurs in the upper and lower plates by the driving of cylinder.

In such a load test apparatus, the plurality of cylinders have a form in which air or fluid for driving the cylinders is individually supplied as shown in FIG. 3 (a). As a result, each cylinder has a shape of FIG. Likewise, the rod is not easily driven evenly.

When the cylinder rod is driven unevenly, eccentricity acts on the upper and lower plates, resulting in non-uniform displacement. As a result, the displacement value of the upper and lower plates varies depending on the measurement position, so that the bearing capacity of the site concrete pile cannot be reliably measured.

In addition, a load test device 10 is provided to install a plurality of hydraulic jacks 50 or cells at the tip ends 11 and 12 of the pile as a test device and use them as a load carrying means. When the test apparatus uses a single-acting cell or a hydraulic jack, as shown in FIG. 4, after the end of the pile loading test, a certain residual space is generated inside the pile loading test apparatus, which causes a problem of long-term stability of the foundation pile. .

Republic of Korea Patent Publication 10-2007-0051595

The present invention has been made in order to solve the problems of the prior art for the remaining space in the loading using the above-mentioned single-actuated hydraulic jack, forming a reaction spring in the pile tip loading test device to operate the hydraulic jack in double acting type It is an object of the present invention to provide a pile tip loading test device using a double acting hydraulic jack with a reaction force spring which increases the bearing capacity and stability of the pile that is placed by restoring the piston of the loading test device to its original position after the test. .

The present invention for achieving the above object is installed in the girdle that is installed in order to pour the pile is installed integrally with the pile, the piston is built in, for the hydraulic supply and discharge to the hydraulic line formed to supply and discharge the hydraulic pressure A cylinder connected to the lake, the piston built in the pre-pouring cylinder, which is lowered by the hydraulic pressure supplied from the hydraulic line, a reaction spring installed inside the piston to restore the piston, and a lower end of the pre-pouring cylinder. The steel plate to be bolted, the lower steel plate formed under the steel plate, and the hydraulic line for supplying and discharging the hydraulic pressure into the cylinder can be achieved.

At this time, the cylinder is installed in the pile to be poured, so that the piston built in by the hydraulic pressure supplied from the hydraulic line can be lowered, but when tested by applying a load of 400t in a volume of 250mm length ø245mm, 800t load It is preferable to form a volume of ø380mm in a length of 240mm and a volume of 423mm in a length of 242mm when testing with a load of 1000t.

In addition, the piston is built in the cylinder before placing the steel plate and lower steel plate by the hydraulic line, and at the same time to break the tip of the pile so that the load test can be carried out with a load of 400t 200mm in length It is preferable to form a volume of 195 mm to a length of ø270 mm and a volume of ø300 mm to a length of 195 mm when testing with a load of 1000 t.

In addition, the reaction spring is to be installed in the spring receiving portion of the piston to restore the piston to the original position in the cylinder upwards, the outer diameter of 70mm, length 100mm, reaction force is preferably formed to 780 ~ 866kg.

And the hydraulic line is composed of a supply line for supplying the hydraulic pressure into the cylinder and a discharge line for discharging the supplied hydraulic pressure when the piston is restored by the reaction spring.

The pile tip loading test apparatus using the double-acting hydraulic jack with the present invention reaction spring according to the present invention was devised to solve the problems of the prior art, and the hydraulic jack is doubled by forming a reaction spring in the pile tip loading test apparatus. By operating in the same way, it is possible to increase the bearing capacity of the poured pile by restoring the piston of the loading test apparatus to the original position in the cylinder after the test.

1 is a view of a conventional loading test device is installed to measure the bearing capacity of the field concrete piles,
Figure 2 is a detailed view of the loading test apparatus in Figure 1,
3 is a displacement state of the cylinder according to the piping system and the drive of the cylinder for driving the cylinder in the loading test apparatus of FIG.
Figure 4 is a schematic diagram showing a pile bi-directional loading test apparatus using another conventional single-acting hydraulic jack,
5 is a view showing a pile tip loading test apparatus using a double-acting hydraulic jack with a reaction force spring of the present invention,
6 to 8 is a view showing a tip loading test process through the pile tip loading test apparatus using a double-acting hydraulic jack with a reaction force spring of the present invention.

The technical objects, configurations and effects of the present invention will be clearly understood through the detailed description of the invention with reference to the drawings for the embodiments of the present invention.

5 is a view showing a pile tip loading test apparatus using a double-acting hydraulic jack with a reaction force spring installed therein, which is installed inside a gorge installed to pour the pile 10 and integrally installed with the pile. A cylinder (100) in which a piston is installed inside, and a hydraulic line is formed to supply and discharge hydraulic pressure; A piston 200 which is installed inside the cylinder 100 and is lowered by the hydraulic pressure supplied from the hydraulic line 600; A reaction force spring 300 installed in the piston 200 to restore the piston 200; A steel plate 400 bolted to a lower end of the cylinder 100; A lower steel plate 500 formed below the steel plate; Hydraulic line 600 consisting of a supply line 610 for supplying hydraulic pressure into the cylinder 100 and a discharge line 630 for discharging the supplied hydraulic pressure when the piston 200 is restored by the reaction force spring 300. It includes.

The cylinder 100 is installed in the pile 10 to be poured, so that the piston built in by the hydraulic pressure supplied from the hydraulic line can be lowered.

At this time, the cylinder 100 has a length of 250 mm to ø245 mm when tested by applying a load of 400 tons, 240 mm to ø380 mm when tested by applying a load of 800 tons, and ø423 mm to 242 mm by a load of 1000 tons. It is preferable to form.

In addition, a piston accommodating part 110 is formed in the cylinder 100 so that the piston can be installed therein, and a hydraulic line 600 is formed through the piston accommodating part 110.

The piston 200 is installed in the cylinder 100, but is lowered by the hydraulic pressure supplied from the hydraulic line 600 to the steel plate 400, the lower steel plate 500, the lower end 11 of the pile Test the pile load by breaking down and breaking.

For example, the piston 200 has a length of ø185mm at a length of 200mm when tested with a load of 400t, and a length of ø270mm at a length of 195mm when tested with a load of 800t, and a diameter of ø300mm at a length of 195mm when tested with a load of 1000t. It is desirable to.

The piston 200 has a spring receiving portion 210 is formed so that the reaction force spring is installed.

In addition, a lower O-ring accommodating part 230 is formed at the outside of the spring accommodating part 210 to accommodate the lower O-ring R1 that prevents foreign matter from penetrating into the spring accommodating part 210.

In addition, a plurality of upper O-ring accommodating parts 250 are formed on the upper outer circumference of the piston 200 to accommodate the upper O-ring R2 for maintaining the airtight pressure of the piston.

The reaction spring 300 is installed in the spring receiving portion 210 of the piston 200 to raise the piston 200 to the upper portion to restore to the original position inside the cylinder, the outer diameter 70mm, length 100mm, reaction force 780 ~ It is preferable to use 866 kg.

The steel plate 400 is fastened by a bolt 410 to the lower end of the cylinder 100 is downward by the piston 200, thereby lowering the lower steel plate 500 installed in the lower load test To do this.

At this time, the bolt 410 is broken like a pile.

The lower steel plate 500 is installed below the steel plate 400, and is placed on the pile to be lowered by the piston and at the same time to press the lower portion of the pile to allow the lower portion of the pile to be tested.

The hydraulic line 600 is a discharge line 630 for discharging the supplied hydraulic pressure when the piston 200 is restored by the supply line 610 and the reaction spring 300 for supplying the hydraulic pressure into the cylinder 100. Is done.

For example, when the hydraulic line 600 is tested by applying a load of 400 tons, the interval is 160 mm, when the test is applied by applying a load of 800 tons, the interval is 200 mm, when the test is performed by applying a load of 1000 tons, the spacing is formed to be 220 mm. desirable

Hereinafter, the pile tip loading test process according to the present invention will be described with reference to FIGS. 6 to 8.

The reaction force spring is internally installed, and the piston having a plurality of upper O-rings fastened on the upper and outer circumferential surfaces is installed in the cylinder, and is formed to penetrate the hydraulic line on the upper cylinder.

Then, bolt the steel plate to the lower part of the cylinder and then fasten the lower steel plate to the lower part.

After connecting the hose to supply the hydraulic pressure to the hydraulic line, the test device is installed in the pile to install the pile.

At this time, according to the conditions of the pile to be tested, a combination of the piston and the cylinder to form a test apparatus, and then internally.

In addition, the lower steel plate has a volume larger than the circumference of the piston and is embedded in the pile.

After that, the hydraulic pressure is supplied to the hydraulic line supply line to lower the piston.

At this time, the outlet of the discharge line of the hydraulic line is supplied in a blocked state.

Accordingly, as the piston descends, the bottom of the steel plate, the lower steel plate, and the pile is pressed downward so that the bottom of the pile is broken.

At this time, when the pile is broken, it can be checked whether or not the break is caused by the change in the hydraulic pressure supplied.

After the loading test as above, the piston is restored to the original position by the reaction force of the reaction spring when the supply line is blocked and the outlet of the discharge line is opened.

10: pile
100: cylinder 110: piston receiving portion
200: piston 210: spring receiving portion
230: lower O-ring accommodating part 250: upper O-ring accommodating part
300: reaction spring 400: steel plate
500: lower steel plate
600: hydraulic line 610: supply line
630: discharge line

Claims (9)

In the pile tip loading test device consisting of a cylinder, a piston, a hydraulic line,
A cylinder which is installed in the girdle for placing the pile and is integrally placed with the pile, the piston is internally connected, and the hydraulic supply and discharge lake is connected to the hydraulic line formed to supply and discharge the hydraulic pressure;
A piston built in the cylinder and lowered by the hydraulic pressure supplied from the hydraulic line;
A reaction force spring installed inside the piston to restore the piston;
A steel plate bolted to the lower end of the cylinder;
A lower steel plate formed under the steel plate;
A pile tip loading test apparatus using a double-acting hydraulic jack with a reaction force spring, characterized in that it comprises a hydraulic line for supplying and discharging the hydraulic pressure into the cylinder.
The method of claim 1,
The cylinder is integrally placed in the pile to be poured, so that the piston built in by the hydraulic pressure supplied from the hydraulic line can be lowered, the piston receiving portion is formed so that the piston can be built therein;
A pile tip loading test apparatus using a double-acting hydraulic jack with a reaction force spring, characterized in that the hydraulic line is formed through the piston receiving portion.
The method of claim 2,
The cylinder is 250mm in length and ø245mm in the test under 400t load, 240mm in length and ø380mm in the test under 800t load, and 242mm in length and ø423mm in the test by applying 1000t load. Pile tip loading test device using a double-acting hydraulic jack built-in reaction force spring, characterized in that formed.
The method of claim 1,
The piston has a spring receiving portion is formed so that the reaction force spring is installed;
A lower O-ring accommodating portion configured to accommodate a lower O-ring for preventing foreign matter from penetrating into the spring accommodating portion during concrete pouring and testing;
A pile tip loading test apparatus using a double-acting hydraulic jack with a reaction force spring, characterized in that the upper O-ring receiving portion is formed so that the upper O-ring is accommodated so that the hydraulic pressure lowering the piston in the upper outer circumference is maintained. The method of claim 4, wherein
The piston has a length of ø185mm at a length of 200mm when tested with a load of 400t, a volume of ø270mm with a length of 195mm when tested with a load of 800t, and a volume of ø300mm with a length of 195mm at a load of 1000t. Pile tip loading test device using a double-acting hydraulic jack built-in reaction force spring, characterized in that formed.
The method of claim 1,
The reaction spring is installed in the spring receiving portion of the piston to restore the piston to its original position by raising the piston upward, the outer diameter 70mm, length 100mm, reaction force is characterized in that the reaction force is formed of 780 ~ 866kg Pile tip loading test device using double acting hydraulic jack.
The method of claim 1,
The steel plate is bolted to the lower end of the cylinder is a pile tip loading test device using a double-acting hydraulic jack with a reaction force spring, characterized in that downwardly downward by the piston to lower the lower steel plate. The method of claim 1,
The lower steel plate is installed in the lower steel plate, the pile is mounted on the pile down by the piston and at the same time press the lower portion of the pile to break the lower portion of the pile using a double-acting hydraulic jack with a built-in reaction force springs. Tip load tester.
The method of claim 1,
The hydraulic line is a front end of the pile using a double-acting hydraulic jack with a reaction force spring, characterized in that the supply line for supplying the hydraulic pressure into the cylinder and the discharge line for supplying the hydraulic pressure is discharged when the piston is restored by the reaction force spring Load test device.

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