KR20130067102A - Apparatus for lateral loading test of pile group and lateral loading testing method using the same - Google Patents

Abstract

PURPOSE: A horizontal load test of a pile group and a horizontal load test method using the same are provided to perform horizontal loading tests of a fixed-end pile group and a free-end pile group simultaneously. CONSTITUTION: A horizontal load test of a pile group comprises a fixed-end pile group unit(200), a free-end pile group unit(300), and a horizontal power applying unit(400). The lower part of the fixed-end pile group unit is formed into a fixed-end The upper parts of a plurality of first piles(210), which lower parts are installed in the ground surface, are formed into fixed-ends, thereby forming a fixed-end pile group. The fixed-end pile group unit is constituted for measuring horizontal resistance properties of the fixed-end pile group. The upper parts of a plurality of second piles(310), which lower parts are installed in the ground surface, are formed into free-ends, thereby forming a free-end pile group. The free-end pile group unit is constituted for measuring horizontal resistance properties of the fixed-end pile group. The horizontal power applying unit is installed between the fixed-end pile group unit and the free-end pile group unit for applying horizontal power to the same simultaneously.

Description

Horizontal load test device for pile group and horizontal load test method using same {APPARATUS FOR LATERAL LOADING TEST OF PILE GROUP AND LATERAL LOADING TESTING METHOD USING THE SAME}

The present invention relates to a horizontal load test apparatus capable of performing a horizontal load test of a pile group consisting of a plurality of piles installed on the ground, and a horizontal load test method using the same. More specifically, a fixed end pile group and a free end pile group The horizontal load test apparatus and the horizontal load test method using the same can be carried out simultaneously.

The horizontal load test of the pile is a test to measure the horizontal resistance characteristics of the pile by applying a horizontal force to the pile installed on the ground and measuring the horizontal displacement of the pile or the slope of the pile relative to the applied horizontal force.

One conventional horizontal load test is the horizontal load test, which measures the horizontal resistance characteristics of a single pile. However, the horizontal load test on a single pile has a problem that the upper portion of the pile is limited to the free end. Therefore, there is a problem in that the horizontal resistance characteristic when the upper end of the pile is a fixed end cannot be measured. In addition, there is a problem in that the horizontal resistance test of a single pile does not know the horizontal resistance characteristics of a pile group composed of a plurality of piles installed on the ground.

In addition, in the conventional horizontal load test on the free end pile group reduced than the actual file group, it is possible to measure the horizontal resistance characteristics of the entire free end pile group, but the actual horizontal resistance characteristic of each pile forming the free end pile group There is a problem that can not be measured.

In addition, in the conventional horizontal load test, there is a problem that the lower part is to be tested by another test apparatus according to the condition of the upper part of the pile group installed on the ground, that is, the upper part of the pile group is a free end or a fixed end. Therefore, there is a problem that it is not easy to measure the horizontal resistance characteristics of the pile. In addition, in the conventional horizontal load test, there is a problem in that the horizontal load test is expensive because a large reaction force wall must be installed to apply the horizontal force to the pile.

The present invention is realized by recognizing at least any one of the above-mentioned conventional needs or problems.

One aspect of the present invention is to perform a horizontal load test of the fixed end pile group and the free end pile group at the same time.

Another aspect of the object of the present invention is to be able to measure the horizontal resistance characteristics of each of the plurality of piles forming the free end pile group.

Another aspect of the object of the present invention is to make it easy to measure the horizontal resistance characteristics of the pile.

Another aspect of the object of the present invention is to measure the horizontal resistance characteristics of the pile without the installation of a large reaction force wall to make the horizontal resistance characteristics of the pile at a lower cost.

The horizontal load test apparatus of the pile group and the horizontal load test method using the same according to an embodiment for realizing at least one of the above problems may include the following features.

The present invention is basically based on a configuration configured to simultaneously perform horizontal load tests of a fixed end file group and a free end file group.

In the horizontal load test apparatus of the pile group according to an embodiment of the present invention, the upper portion of the plurality of first piles installed on the ground has a fixed end to form a fixed end pile group, and measure the horizontal resistance characteristics of the fixed end pile group. A fixed-end filegroup unit configured to be capable of doing so; A free end pile group configured to measure a horizontal resistance characteristic of the free end pile group by forming a free end pile group having an upper end of a plurality of second piles provided on the ground; And a horizontal force applying unit installed between the fixed end file group unit and the free end file group unit to simultaneously apply horizontal force to the fixed end file group unit and the free end file group unit. As shown in FIG.

In this case, the fixed-end file group unit includes a plurality of first files; A concrete portion to which upper portions of the plurality of first piles are fixed ends and horizontal forces are applied by the horizontal force applying unit; At least one displacement sensor provided in the concrete unit to measure the displacement with respect to the applied horizontal force; . ≪ / RTI >

In addition, the concrete portion may be spaced apart from the ground by a predetermined interval.

The free end pile group unit may be configured to measure horizontal resistance characteristics of each of the plurality of second piles.

The free file group unit may include a plurality of second files; And a measuring unit configured to transmit the applied horizontal force to the plurality of second piles and to measure horizontal resistance characteristics of each of the free end pile group and the plurality of second piles. . ≪ / RTI >

The measuring unit may include a frame unit which is installed to be movable on the ground and is applied with a horizontal force by a horizontal force applying unit; A plurality of horizontal force transmission units provided in the frame unit such that horizontal forces applied to the frame unit are transmitted to each of the plurality of second piles; At least one displacement sensor provided in each of the frame portion and the plurality of second piles to measure the displacement with respect to the applied horizontal force; . ≪ / RTI >

The frame part may further include: a first member to which a horizontal force is applied; A plurality of second members movably installed on the ground and connected to the first member; And a plurality of connection members connecting between the second members. . ≪ / RTI >

And, the horizontal force transmission unit load cell is installed in the frame portion; And a wire wound around the second file and connected to the load cell. . ≪ / RTI >

In addition, the load cell may be a rotary load cell.

The measuring unit included in the fixed end file group unit or the free end file group unit is inserted into the inclinometer inlet provided in the first file or the second file to measure the inclination of the first file or the second file with respect to the applied horizontal force. Tilt sensor; As shown in FIG.

In addition, the horizontal force applying unit may include a hydraulic load cell.

Horizontal load test method according to an embodiment of the present invention comprises a single pile measuring step of measuring the horizontal resistance characteristics for a single pile; A pile group measuring step of measuring horizontal resistance characteristics of the fixed end pile group and the free end pile group using the horizontal load test apparatus of the pile group described above; And an extreme measurement step of measuring an extreme horizontal resistance characteristic of the fixed end pile group. As shown in FIG.

In the file group measuring step, the horizontal resistance characteristics of each of the plurality of second piles forming the free end pile group may be measured.

As described above, according to the exemplary embodiment of the present invention, the horizontal load test of the fixed end file group and the free end file group can be simultaneously performed with one device.

Further, according to the embodiment of the present invention, the horizontal resistance characteristics of each of the plurality of piles forming the free end pile group can be measured.

In addition, according to an embodiment of the present invention, it is possible to easily measure the horizontal resistance characteristics of the pile.

Further, according to the embodiment of the present invention, the horizontal resistance characteristics of the pile can be measured without the installation of a large reaction force wall, so that the horizontal resistance characteristics of the pile can be measured at a lower cost.

1 is a plan view of one embodiment of a horizontal load test apparatus of the pile group according to the present invention.
Figure 2 is a front view of an embodiment of a horizontal load test apparatus of the pile group according to the present invention.
Figure 3 is a view showing a single pile measurement step of one embodiment of a horizontal load test method according to the present invention.
Figure 4 is a view showing a file group measurement step of one embodiment of a horizontal load test method according to the present invention.
5 is a view showing the limit measurement step of one embodiment of the horizontal load test method according to the present invention.
6 is a horizontal displacement of the front second file, the middle second file, and the back second file, respectively, of the free end pile group to the applied horizontal force, measured by one embodiment of the horizontal load test apparatus according to the present invention. It is a graph shown.
7 is a front end file group, a single file, a front second file, a middle second file, and a bag for the applied horizontal force measured by one embodiment of the horizontal load test method according to the present invention; A graph showing the horizontal displacements of the second file, respectively.
8 is a graph illustrating the horizontal displacement of the fixed end group file, the free end group file, and the single file with respect to the applied horizontal force, respectively, measured by one embodiment of the horizontal load test method according to the present invention.

In order to help the understanding of the features of the present invention as described above, it will be described in more detail with respect to the horizontal load test device of the pile group and the horizontal load test method using the same according to the embodiment of the present invention.

Hereinafter, exemplary embodiments will be described based on embodiments best suited for understanding the technical characteristics of the present invention, and the technical features of the present invention are not limited by the illustrated embodiments, It is to be understood that the present invention may be implemented as illustrated embodiments. Accordingly, the present invention may be modified in various ways within the technical scope of the present invention through the embodiments described below, and such modified embodiments fall within the technical scope of the present invention. In order to facilitate understanding of the embodiments to be described below, in the reference numerals shown in the accompanying drawings, among the constituent elements which perform the same function in each embodiment, the related constituent elements are indicated by the same or an extension line number.

Embodiments related to the present invention are basically based on being configured to simultaneously perform a horizontal load test of the fixed end file group and the free end file group.

1 and 2, the horizontal load test apparatus 100 of the pile group according to the present invention includes a fixed end pile group unit 200, a free end pile group unit 300, and a horizontal force applying unit ( 400).

1 and 2, the fixed end pile group unit 200 forms a fixed end pile group by forming an upper end of a plurality of first piles 210 installed at a lower surface of the ground G as shown in FIGS. 1 and 2. can do. In addition, the fixed end pile group unit 200 may be configured to measure the horizontal resistance characteristics of the fixed end pile group as shown in FIGS.

As a result, when the horizontal force is applied to the fixed end pile group 200 by the horizontal force applying unit 400 as shown in FIG. 4, the horizontal resistance characteristics of the fixed end pile group, for example, shown in FIGS. 7 and 8. As described above, the horizontal displacement of the fixed end pile group with respect to the applied horizontal force can be measured.

To this end, as shown in the embodiment shown in Figures 1 and 2, the fixed end pile group 200 is a plurality of the first pile 210, the concrete portion 220 and at least one displacement sensor 230 described above. It may include.

As shown in FIG. 2, the plurality of first piles 210 may be installed at the lower portion of the ground surface G, respectively. A lower portion of the first pile 210 may be installed on the ground G, for example, at a depth of 15 m or more. The plurality of first files 210 are the front first file 210, the middle first file 210 and the back first file in order from the horizontal force applying unit 400 as in the embodiment shown in FIGS. 1 and 2. All 210 may be three. However, the number of the first files 210 is not limited to this, and any number may be any number of two or more.

The concrete unit 220 may be such that the upper portion of the plurality of first piles 210 is a fixed end, as shown in the embodiment shown in FIGS. In addition, the concrete unit 220 may be applied to the horizontal force by the horizontal force applying unit 400.

To this end, the concrete unit 220 is made of a rectangular parallelepiped form (not shown), and then poured concrete to the plurality of first piles 210 respectively installed on the ground (G) as shown in the illustrated embodiment It is possible to make the upper portion of the fixed end. As a result, a fixed end pile group can be formed. In addition, one surface of the concrete portion 220 having a rectangular parallelepiped shape may contact or be connected to the horizontal force applying unit 400 as shown in the illustrated embodiment. Accordingly, as shown in FIG. 4, the horizontal force may be applied to the concrete portion 220 by the horizontal force applying unit 400.

As shown in FIGS. 1 and 2, the concrete part 220 may be spaced apart from the ground G by a predetermined distance. Accordingly, when the horizontal force is applied to the concrete unit 220 by the horizontal force applying unit 400 as shown in FIG. 4, the concrete unit 220 may not be rubbed with the ground (G). Therefore, the horizontal force applied to the concrete unit 220 by the horizontal force applying unit 400 is not attenuated by the friction between the concrete unit 220 and the ground (G). Therefore, the horizontal resistance characteristic measurement of the fixed end pile group can be made more reliably.

One or more displacement sensors 230 may be provided in the concrete unit 220 as shown in FIGS. 1 and 2. 7 and 8, the displacement of the fixed end pile group formed by the plurality of first piles 210 according to the applied horizontal force, in the illustrated embodiment. The horizontal displacement can be measured.

The displacement sensor 230 may be, for example, a linear variable differential transformer (LVDT). In addition, the displacement sensor 230, which is an LVDT, may be connected to a reference member (not shown). However, the displacement sensor 230 is not limited thereto, and any displacement may be used as long as it can measure the displacement of the fixed end pile group according to the horizontal force applied by the horizontal force applying unit 400.

Meanwhile, as shown in FIGS. 1 and 2, the fixed end pile group unit 200 may further include an inclination sensor 240. The inclination sensor 240 may be injected into the inclinometer inlet 211 provided in the first pile 210 as shown in the illustrated embodiment. As described above, the inclination of the first pile 210 with respect to the horizontal force applied to the concrete part 220 by the horizontal force applying unit 400 may be measured by the inclination sensor 240.

In addition, in addition to the displacement sensor 230 and the inclination sensor 240 described above, the fixed end pile group 200 may measure the horizontal resistance characteristics of the fixed end pile group according to the horizontal force applied by the horizontal force applying unit 400. Any sensor may be included as long as the sensor can be used.

1 and 2, the free end pile group unit 300 forms a free end group pile by forming an upper end of the plurality of second piles 310 installed on the ground surface G as a free end, as shown in FIGS. 1 and 2. can do. In addition, the free end pile group unit 300 may be configured to measure the horizontal resistance characteristics of the free end pile group, as shown in FIGS.

As a result, when the horizontal force is applied to the free end pile group 300 by the horizontal force applying unit 400 as shown in FIG. 4, the horizontal resistance characteristics of the free end pile group, for example, shown in FIGS. 6 to 8. As can be seen, the horizontal displacement of the free end pile group with respect to the applied horizontal force can be measured.

Meanwhile, the free end pile group unit 300 may be configured to measure not only the horizontal resistance characteristics of the free end pile group, but also the horizontal resistance characteristics of each of the plurality of second piles 310.

1 and 2, the free end file group unit 300 may include a plurality of second files 310 and a measurement unit 320.

As described above, the plurality of second piles 310 may be installed at a lower portion of the ground (G). The lower portion of the second pile 310 may also be installed on the ground surface G, for example, at a depth of 15 m or more like the first pile 210. The plurality of second files 310 are the front second file 310, the middle second file 310, and the back second file in order from the horizontal force applying unit 400 as in the embodiment shown in FIGS. 1 and 2. 310 may be all three. However, the number of the second files 310 is not limited to this, and any number can be any number of two or more.

The measuring unit 320 may be configured to transmit the horizontal force applied by the horizontal force applying unit 400 to the plurality of second piles 310. The horizontal resistance characteristics of each of the free end pile group and the plurality of second piles 310 may be measured. To this end, the measurement unit 320 may include a frame unit 321, a plurality of horizontal force transmission unit 322, and one or more displacement sensors 323, as shown in the embodiment shown in Figs.

The frame part 321 may be installed to be movable on the ground (G). In addition, the horizontal force may be applied by the horizontal force applying unit 400. To this end, the frame part 321 may include a first member 321a, a plurality of second members 321b, and a connection member 321c, as shown in FIGS. 1 and 2.

The horizontal force may be applied to the first member 321a by the horizontal force applying unit 400. To this end, the first member 321a may be in contact with or connected to the horizontal force applying unit 400 as shown in FIGS. 1 and 2.

The plurality of second members 321b may be installed to be movable on the ground (G). To this end, one or more wheels are provided below the second member 321b as shown in FIG. 2, and a rail on which the wheels provided on the second member 321b are located is provided on the ground (G). Can be. However, the configuration in which the plurality of second members 321b are movably installed on the ground surface G is not limited thereto, and it is well known as long as the configuration in which the plurality of second members 321b are movably installed on the ground surface G is known. Any configuration of is possible.

On the other hand, as shown in the embodiment shown in Figure 1 to guide the movement of the second member (321b) a plurality of guide members with a wheel may be in contact with the side of the second member (321b). Accordingly, the second member 321b may move in a straight line without moving inclinedly. The horizontal resistance characteristics of the free end pile group and the horizontal resistance characteristics of each of the second piles 310 forming the free end pile group can be reliably measured.

In addition, the plurality of second members 321b may be connected to the first member 321a. As shown in the illustrated embodiment, two second members 321b may be connected to both ends of the first member 321a by a coupling member such as welding or bolt. However, the number of the second member 321b connected to the first member 321a or the configuration in which the second member 321b is connected to the first member 321a is not limited to the above, and any number may be any number. As long as the second member 321b is connected to the first member 321a, any known configuration may be used.

The plurality of connection members 321c may connect between the second members 321b as shown in FIG. 1. The plurality of connection members 321c may be connected between the second members 321b by a coupling member such as welding or bolts, for example. In addition, the number of the plurality of connecting members 321c may be three corresponding to the number of the second piles 310 as shown in FIG. 1.

However, the configuration in which the plurality of connecting members 321c connects between the second members 321b or the number of the plurality of connecting members 321c is not limited to the above description, and the plurality of connecting members 321c is the second member. Any configuration known in the art can be used as long as the configuration connects 321b, and any number can be any number as long as it corresponds to the number of the second files 310.

As illustrated in FIG. 4, the plurality of horizontal force transmitting units 322 may be configured such that horizontal forces applied to the frame unit 321 by the horizontal force applying unit 400 are transmitted to each of the plurality of second piles 310. In the illustrated embodiment, the coupling member 321c of the frame unit 321 may be installed.

As shown in FIGS. 1 and 2, the number of horizontal force transmitting units 322 may be three corresponding to the number of second piles 310. However, the number of the horizontal force transmitting unit 322 is not limited to the illustrated embodiment, and any number can be any number as long as it corresponds to the number of the second piles 310.

The horizontal force transmitting unit 322 may include a load cell 322a and a wire 322b as in the embodiment shown in FIGS. 1 and 2.

The load cell 322a may be installed at the frame part 321, and the connection member 321c of the frame part 321 in the embodiment shown in FIGS. 1 and 2. The load cell 322a may be a rotary load cell. As such, when the load cell 322a is a rotary load cell, the tension of the wire 322b to be described later, which winds the second pile 310, may be adjusted. Accordingly, the tensions of the wires 322b wound on the plurality of second piles 310 can be equalized. Accordingly, the horizontal resistance characteristics of the free end pile group and the horizontal resistance characteristics of each of the second piles 310 forming the free end pile group can be reliably measured.

As shown in FIG. 1, the wire 322b may wind the second pile 310. The wire 322b may be connected to the load cell 322a by, for example, a ring or the like as shown in the illustrated embodiment.

Therefore, as shown in FIG. 4, when the horizontal force is applied to the frame part 321 by the horizontal force applying unit 400, the horizontal force is transmitted to the second pile 310 through the load cell 322a and the wire 322b. Can be. In addition, the horizontal force transmitted to the second pile 310 by the load cell 322a may be measured. Thereby, the horizontal force transmitted to each of the second piles 310 by each load cell 322a can be measured.

One or more displacement sensors 323 may be provided in each of the frame part 321 and the plurality of second piles 310 as shown in FIGS. 1 and 2. 6 to 8 by the one or more displacement sensors 323, the displacement of the free end pile group with respect to the horizontal force applied by the horizontal force applying unit 400 and each of the second pile 310 Displacement, in the illustrated embodiment, the horizontal displacement can be measured. That is, the displacement sensor 323 of the frame part 321 may measure the displacement of the free end pile group, and the displacement sensor 323 of each of the plurality of second piles 310 may include a plurality of second files. The displacement of each of the piles 310 can be measured.

The displacement sensor 323 may also be, for example, a linear variable differential transformer (LVDT). In addition, the displacement sensor 323, which is an LVDT, may be connected to a reference member (not shown). However, the displacement sensor 323 is not limited to this, and any one known as long as it can measure the horizontal displacement of the free end pile group and the displacement of each second pile 310 according to the applied horizontal force.

On the other hand, as in the embodiment shown in Figures 1 and 2, the measurement unit 320 may further include a tilt sensor 324. The inclination sensor 324 may be injected into the inclinometer inlet 311 provided in the second pile 310 as shown in the illustrated embodiment. As described above, the inclination of the second pile 310 with respect to the horizontal force applied to the frame unit 321 by the horizontal force applying unit 400 may be measured by the inclination sensor 324.

In addition, the measurement unit 320 measures the horizontal resistance characteristics of the free end pile group and the horizontal resistance characteristics of each second pile 310 in addition to the displacement sensor 323 and the tilt sensor 324 described above. Any sensor can be included.

The horizontal force applying unit 400 may be installed between the fixed end pile group unit 200 and the free end pile group unit 300 as shown in FIGS. 1 and 2. As shown in FIG. 4, the horizontal force may be applied to the fixed end file group unit 200 and the free end file group unit 300 at the same time.

As shown in FIG. 4, when the horizontal force is applied to the fixed end file group unit 200 and the free end file group unit 300 by the horizontal force applying unit 400, the free end file group unit 300 is fixed end file. It acts as a reaction wall against the group unit 200, the fixed end pile group unit 200 serves as a reaction wall against the free end pile group unit (300). Therefore, as shown in FIG. 4, the horizontal force applying unit 400 may simultaneously apply the same horizontal force to the fixed end pile group unit 200 and the free end pile group unit 300. In addition, the horizontal resistance characteristics of the pile can be measured without the installation of a large reaction force wall, so that the horizontal resistance characteristics of the pile can be measured at a lower cost.

The horizontal force applying unit 400 may include a hydraulic load cell. As described above, when the hydraulic load cell is included in the horizontal force applying unit 400, as described above, the horizontal force applied to the fixed end pile group unit 200 and the free end pile group unit 300 may be measured simultaneously. .

With this configuration, when the horizontal load test apparatus 100 of the group file according to the present invention is used, the horizontal load test of the fixed end file group and the free end file group can be simultaneously performed with one device, and the free end file The horizontal resistance characteristics of each of the plurality of piles forming the group can also be measured, and the horizontal resistance characteristics of the pile can be easily measured.

The horizontal load test method according to the present invention may include a single pile measuring step (S100), a pile group measuring step (S200), and an extreme measuring step (S300) as shown in FIGS.

In the single pile measurement step S100, as shown in FIG. 3, the horizontal resistance characteristic of the single pile P may be measured.

To this end, as shown in (a) of FIG. 3, a single pile P installed at the lower portion of the ground G, a reaction force wall W provided at the lower portion of the ground G, and a single pile P are provided. Horizontal force applying unit (F) installed between the reaction force wall (W) to apply a horizontal force to a single pile (P), displacement sensor provided in the pile (P) to measure the displacement of the pile (P) relative to the applied horizontal force (S1) can be used.

In addition, as shown in (b) of FIG. 3, a lower force is installed between a pair of piles P and a pair of piles P installed on the ground G to apply a horizontal force to the pile P. The displacement unit S1 provided in the pair of piles P may be used to measure the displacement of the pile P with respect to the applying unit F and the applied horizontal force.

Then, as shown in (a) and (b) of FIG. 3, the inclination sensor S2 input to the inclinometer inlet I provided in the pile P to measure the inclination of the pile P with respect to the applied horizontal force. ) Can also be used.

With this arrangement, as shown in Fig. 3, by the horizontal force applying unit F, as shown in Fig. 3 (a), a single pile P or as shown in Fig. 3 (b) When the horizontal force is applied to the pair of piles P, the displacement of the pile P relative to the applied horizontal force, as shown in Figs. 7 and 8, in the illustrated embodiment, the horizontal displacement is measured by the displacement sensor S1. can do.

In addition, the inclination of the pile P with respect to the applied horizontal force may be measured by the inclination sensor S2. Thereby, the horizontal resistance characteristic with respect to the single pile P can be measured.

In the file group measurement step (S200), as shown in FIG. 4, the fixed end pile as shown in FIGS. 6 to 8 using the horizontal load test apparatus 100 shown in FIGS. 1 and 2 and described above. The horizontal resistance characteristics of the group and the free end pile group can be measured. In addition, in the file group measuring step S200, horizontal resistance characteristics of each of the plurality of second piles 310 forming the free end pile group may be measured. Since it has been described above, a detailed description thereof will be omitted.

In the limit measurement step (S300) it is possible to measure the extreme horizontal resistance characteristics of the fixed end pile group.

To this end, as shown in the left side of FIG. 5, the lower portion of the plurality of piles P installed on the ground G and the upper portion of the plurality of piles P are configured to form a first fixed end pile group. The concrete part C, a displacement sensor S1 installed in the concrete part C may be used to measure the displacement with respect to the applied horizontal force.

And, as shown in the right side of Figure 5, a plurality of piles (P), the upper portion of the plurality of piles (P) can be used as a concrete portion (C) to form a second fixed end pile group. .

In addition, it is installed between the first fixed end pile group and the second fixed end pile group to simultaneously apply horizontal force to the concrete portion (C) of the first fixed end pile group and the concrete portion (C) of the second fixed end pile group The horizontal force applying unit F can be used.

In addition, the inclination sensor S2 input to the inclinometer inlet I provided in the pile P may be used to measure the inclination of the pile P with respect to the applied horizontal force.

In the limit measurement step S300, as shown in FIG. 5, the lower portion of the concrete part C of the second fixed end pile group may be installed at a predetermined depth on the ground surface G. FIG. Accordingly, the second fixing end pile group may serve as a reaction wall. In addition, passive earth pressure may be applied to the opposite surface of one surface to which the horizontal force of the concrete portion C of the second fixed end pile group is applied as shown.

On the other hand, such a configuration in the horizontal load test apparatus 100 of the file group of the embodiment shown in Figure 1 and Figure 2 leaving the plurality of second file 310 in the free end file group unit 300, the measurement unit 320 After dismantling), it may be made by forming a concrete portion (C) so that the upper portion of the plurality of second pile 310 is a fixed end.

With this configuration, the horizontal force is applied to the concrete portion C of the first fixed end pile group and the concrete portion C of the second fixed end pile group by the horizontal force applying unit F. Then, the applied horizontal force is increased to a degree adjacent to the horizontal force such that displacement, even in the illustrated embodiment, occurs when the horizontal force is not increased. Then, the displacement is measured by the displacement sensor (S1). Accordingly, as shown in FIGS. 7 and 8, the extreme horizontal resistance characteristics of the fixed end pile group can be measured.

As described above, when the horizontal load test apparatus and the horizontal load test method using the same according to the present invention are used, the horizontal load test of the fixed end file group and the free end file group can be simultaneously performed with one device. However, it is possible to measure the horizontal resistance characteristics of each of a plurality of piles constituting the pile group, to easily measure the horizontal resistance characteristics of the pile, and to measure the horizontal resistance characteristics of the pile without installing a large reaction wall. At low cost, the horizontal resistance characteristics of the pile can be measured.

The horizontal load test apparatus and the horizontal load test method using the same of the file group described above is not limited to the configuration of the above-described embodiment, the embodiments are all of the embodiments so that various modifications can be made Or some may be selectively combined.

100: horizontal load test device 200: fixed end pile group
210: first pile 211, I: inclinometer inlet
220: concrete part 230,323, S1: displacement sensor
240,324, S2: Inclination sensor 300: Free end pile group
310: second file 320: measurement unit
321: frame portion 321a: first member
321b: second member 321c: connecting member
322: horizontal force transmission unit 322a: load cell
322b: Wire 400, F: Horizontal force applying unit
G: Ground W: Reaction Wall
P: file

Claims (13)

The upper end of the plurality of first piles 210 installed in the ground (G) is formed of a fixed end to form a fixed end pile group and configured to measure the horizontal resistance characteristics of the fixed end pile group ( 200);
The upper end of the plurality of second pile 310 provided on the ground (G) is formed of a free end to form a free end pile group and configured to measure the horizontal resistance characteristics of the free end pile group ( 300); And
Horizontal force applied between the fixed end file group unit 200 and the free end file group unit 300 to simultaneously apply horizontal force to the fixed end file group unit 200 and the free end file group unit 300. Unit 400;
Horizontal load test device of the file group configured to include. The method of claim 1, wherein the fixed end file group unit 200
The plurality of first files 210;
A concrete part 220 such that upper portions of the plurality of first piles 210 are fixed ends and horizontal forces are applied by the horizontal force applying unit 400; And
At least one displacement sensor 230 provided in the concrete part 220 to measure displacement with respect to the applied horizontal force;
Horizontal load test device of the file group comprising a. The horizontal load test apparatus of the pile group according to claim 2, wherein the concrete part (220) is spaced apart from the ground (G) by a predetermined interval. The pile group horizontal load test apparatus of claim 1, wherein the free end pile group unit (300) is configured to measure horizontal resistance characteristics of each of the plurality of second piles (310). The method of claim 1, wherein the free end file group unit 300
The plurality of second files 310; And
A measuring unit 320 configured to transmit an applied horizontal force to the plurality of second piles 310 and to measure horizontal resistance characteristics of each of the free end pile group and the plurality of second piles 310;
Horizontal load test device of the file group comprising a. The method of claim 5, wherein the measuring unit 320
A frame part 321 installed to be movable on the ground (G) and to which a horizontal force is applied by the horizontal force applying unit 400;
A plurality of horizontal force transmission units 322 installed in the frame unit 321 so that horizontal forces applied to the frame unit 321 are transmitted to each of the plurality of second piles 310; And
At least one displacement sensor 323 provided in each of the frame part 321 and the plurality of second piles 310 so as to measure a displacement with respect to an applied horizontal force;
Horizontal load test device of the file group comprising a. The method of claim 6, wherein the frame portion 321 is
A first member 321a to which a horizontal force is applied;
A plurality of second members 321b movably installed on the ground G and connected to the first member 321a; And
A plurality of connection members 321c connecting between the second members 321b;
Horizontal load test device of the file group comprising a. The method of claim 6, wherein the horizontal force transmission unit 322
A load cell 322a installed in the frame part 321; And
A wire 322b wound around the second pile 310 and connected to the load cell 322a;
Horizontal load test device of the file group comprising a. 9. The horizontal load test apparatus of claim 8, wherein the load cell (322a) is a rotary load cell. The method of claim 2 or 6, wherein the measurement unit 320 included in the fixed end file group unit 200 or the free end file group unit 300 is the first pile 210 for the applied horizontal force Or inclination sensors 240 and 324 which are input to inclinometer inlets 211 and 311 provided in the first pile 210 or the second pile 310 to measure the inclination of the second pile 310; Horizontal load test device of the file group, characterized in that it further comprises. The horizontal load test apparatus of the pile group according to claim 1, wherein the horizontal force applying unit (400) includes a hydraulic load cell. Single file measuring step (S100) for measuring the horizontal resistance characteristics for a single file (210);
A pile group measuring step (S200) of measuring horizontal resistance characteristics of the fixed end pile group and the free end pile group using the horizontal load test apparatus 100 of any one of claims 1 to 11; And
An ultimate measurement step (S300) of measuring an extreme horizontal resistance characteristic of the fixed end pile group;
Horizontal load test method comprising a. The horizontal load test method of claim 12, wherein in the file group measuring step (S200), horizontal resistance characteristics of each of the plurality of second piles 310 forming the free end pile group are also measured.

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