KR100834993B1 - Measuring device for ground of velocity - Google Patents

Abstract

A device for measuring velocity of shear wave is provided to measuring velocity of shear wave in a direction vertical to the ground without punching. A device for measuring velocity of shear wave includes a rod(102), first and second bender element supporting bars(104,106), an air compressor(110), an AC signal generator(112), a transmitter(114), a receiver(116), and an oscilloscope(118). The rod is inserted into the ground by an intended depth. The first and second bender element supporting bars are formed like an empty antenna and inserted in the rod. The air compressor applies compressed air into the first and second bender element supporting bars through a hose(108). The AC signal generator transmits AC signal to the first and second bender element supporting bars. The transmitter is installed on the upper exterior of the first bender element supporting bar and receives the AC signal to transmit shear wave to the ground. The receiver is installed on the upper exterior of the second bender element supporting bar and receives the shear wave to generate vibration. The oscilloscope reads the vibration.

Description

Measuring device for ground wave velocity

1a to 1f is a view showing a state of use of the vendor element applied to the present invention,

2 is a view showing a serial / parallel connection relationship of the bender element applied to the present invention,

3 is a view showing a shear wave velocity measuring apparatus of the field ground according to the present invention,

4 is a view showing a general drilling rig applied to the present invention.

<Description of Symbols for Main Parts of Drawings>

100: drilling equipment 102: rod

104: the first vendor element support 106: the second vendor element support

108: hose 110: air compressor

112: AC signal generator 114: transmitter

116: receiver 118: oscilloscope

The present invention relates to a shear wave velocity measuring device of the field ground, more specifically, shear wave velocity measuring device of the field ground to be able to easily inject into the ground through the drilling equipment to easily measure the longitudinal shear wave of the field ground It is about.

Commonly used borehole exploration methods include downhole and crosshole techniques.

The downhole technique is a technique for receiving a shear wave transmitted from the ground by injecting a shear wave receiver into a borehole after drilling to a desired depth. There is an uphole technique similar to the downhole technique, which generates shear waves in the borehole and receives them from the ground.

In addition, the crosshole technique installs bender elements on two rods at intervals of about 20 cm, using one rod as an oscillator and one rod as a receiver.

The rod was introduced into the mud flat site by the attraction force, and the shear wave velocity for each depth of the ground was measured to show its columnarity.

However, the downhole technique can measure the shear wave velocity close to the vertical as the depth increases, but it is impossible to measure the local shear wave velocity at the desired depth, and it is inconvenient to make perforation necessary to measure the shear wave velocity. There was this.

In addition, the crosshole technique did not measure precisely due to damage of the bender element during penetration, and two drilling processes were required to measure the shear wave using the crosshole type arrangement, and the transverse shear wave velocity of the ground was measured. There was only a possible problem. In the case of real ground, it is important to understand the ground behavior with respect to the vertical load, so the cross-hole shear measurement results are far from the actual site ground behavior.

The shear wave velocity measuring device of the new site ground, which secures the above-mentioned problems, that is, the device does not need to be bored in the ground, and is designed to measure the local shear wave velocity of the ground by injecting only one rod.

However, in the penetration process, the bender element is exposed to the ground and is likely to be damaged, and the bender element is disposed in the horizontal direction, thereby making it impossible to measure the vertical shear wave velocity.

Therefore, the present invention has been proposed to solve the above problems according to the prior art, the object of the present invention is to be able to easily penetrate into the ground through the drilling equipment to easily measure the shear wave in the longitudinal direction of the site ground It is to provide a shear wave velocity measuring device of a site ground.

Features of the shear wave velocity measuring device of the field ground according to the present invention for achieving the above object,

A rod 102 that is inserted by the drilling rig 100 to a depth desired by the user;

A first vendor element support 104 which is manufactured in the form of a hollow antenna and is infiltrated into the ground by compressed air and infiltrated into the upper portion of the rod 102;

A second vendor element support 106 which is manufactured in the form of a hollow antenna and is infiltrated into the ground by compressed air and infiltrated into the lower portion of the rod 102;

An air compressor (110) for applying the compressed air through the hose (108) to the first vendor element support (104) and the second vendor element support (106) when the rod (102) is introduced to a desired depth;

An alternating current signal generator (112) for transmitting an alternating current signal to the inserted first vendor element support (104);

A transmitter 114 installed at one side of an upper outer surface of the first vendor element support 104 to receive an AC signal transmitted from the AC signal generator 112 and to transmit a shear wave to the ground;

A receiver 116 installed on one side of an upper outer surface of the second vendor element support 106 to receive a shear wave transmitted from the transmitter 114 of the first vendor element support 104 to cause vibration;

It is composed of an oscilloscope 118 for reading the vibration caused by the receiver 116.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the shear wave velocity measuring apparatus of the field ground according to the present invention.

1A to 1F are diagrams illustrating a state of use of a vendor element applied to the present invention.

As shown in Figs. 1A to 1F, a bender element made of piezoceramic is used to measure the shear wave velocity required for the calculation of the maximum shear modulus, and the piezoceramic causes deformation when the electric field is applied and vice versa ) Is a material that generates electric charge and is a material that enables conversion between mechanical energy and electrical energy.

Here, the bender element 10 is bonded to the two piezoceramic 12 (14) to the metal plate 16 (shim) therein, showing the principle of the bender element and the deformation of the bender element when the voltage is applied will be.

When a voltage is applied, the opposite ceramic plate contracts while the one ceramic plate is stretched, thereby causing bending deformation. Eventually, an alternating voltage causes the bender element to vibrate in the form of a cantilever deformation. On the contrary, when a bending deformation occurs in the bender element from the outside, deformation occurs in the compression and extension directions of each piezoceramic plate, and electric charges are generated inside the bender element. In other words, the vibration is converted into a voltage to enable reception.

Therefore, it is possible to generate and receive vibrations simply by using a vendor element on the same principle.

As shown in FIG. 2, the bender element 10 has a series / parallel according to a bonding method or a terminal connection method between the piezoceramic 12 and 14 and the metal plate 16. .

Here, the series connection is the simplest connection, by connecting a metal plate (shim) between the two ceramic plates, then connecting a thin coaxial cable (coaxial cable) by soldering each of the cables to the outside of each ceramic plate. In addition, in the parallel connection, since each ceramic plate moves independently when a voltage is applied, the bonding of the metal plate and the ceramic plate is bonded with a conductive epoxy. At this time, attention should be paid to the short circuit between the two ceramic plates.

And, in order to obtain the same amount of displacement, the parallel connection requires less voltage than the serial connection. That is, since the parallel connection generates more displacement when the same voltage is applied, it is commonly used as a shear wave source. Because of the piezoelectric nature, high voltages occur at small displacements, so they are used as receivers for signals generated from the transmitter and passed through the sample.

3 is a view showing a shear wave velocity measuring device of the site ground according to the present invention, Figure 4 is a view showing a general drilling equipment applied to the present invention.

As shown in Figures 3 to 4, the shear wave velocity measuring apparatus of the field ground according to the present invention includes a rod (102) is inserted into the depth desired by the drilling equipment 100; A first vendor element support 104 which is manufactured in the form of a hollow antenna and is infiltrated into the ground by compressed air and infiltrated into the upper portion of the rod 102; A second vendor element support 106 which is manufactured in the form of a hollow antenna and is infiltrated into the ground by compressed air and infiltrated into the lower portion of the rod 102; An air compressor (110) for applying the compressed air through the hose (108) to the first vendor element support (104) and the second vendor element support (106) when the rod (102) is introduced to a desired depth; An AC signal generator (112) for transmitting an AC signal to the first vendor element support (104); A transmitter 114 installed at one side of an upper outer surface of the first vendor element support 104 to receive an AC signal transmitted from the AC signal generator 112 and to transmit a shear wave to the ground; A receiver 116 installed on one side of an upper outer surface of the second vendor element support 106 to receive a shear wave transmitted from the transmitter 114 of the first vendor element support 104 to cause vibration; It is composed of an oscilloscope 118 for reading the vibration caused by the receiver 116.

Referring to the operation of the shear wave velocity measurement apparatus of the field ground according to the present invention configured as described above are as follows.

First, when the rod 102 is introduced through the drilling rig 100 to a desired depth, the air compressed through the air compressor 110 is first and second vendor element supports 104 through the hose 108. 106).

Here, the first and second vendor element supports 104 and 106 are manufactured in the form of a hollow antenna and are infiltrated into the ground by compressed air and are respectively intruded into the upper and lower portions of the rod 102. In addition, a transmitter 114 is installed on one side of the upper outer surface of the first vendor element support 104 and receives an AC signal transmitted from the AC signal generator 112 and transmits a shear wave to the ground. The receiver 116 is installed on one side of the upper outer surface of the bender element support 106 to receive the shear wave transmitted from the transmitter 114 of the first bender element support 104 to cause vibration.

In addition, the AC signal generator 112 transmits an AC signal to the transmitting unit 114 installed on the first vendor element support 104. At this time, the AC signal output through the AC signal generator 112 is directly input to the oscilloscope 118.

In addition, the transmitting unit 114 installed on the upper portion of the first vendor element support 104 generates a shear wave when an AC signal is applied.

In addition, the receiver 116 installed below the second vendor element support 106 receives the shear wave generated from the transmitter 114 and causes vibration. At this time, the oscilloscope 118 reads an output signal generated through vibration.

)를 구한다.Here, the shear wave velocity (

)

이다.remind

to be.

은 발신측과 수신측 사이의 거리이며,

는 입력신호와 출력신호 사이의 시간차이다.here,

Is the distance between the sending side and the receiving side,

Is the time difference between the input signal and the output signal.

As described above, the present invention has the effect of measuring the local vertical shear wave velocity of any depth and eliminating the need for perforation.

In addition, the present invention can measure the shear wave velocity of the ground by injecting only one rod in the same manner as the cone penetration experiment (CPT) using a general drilling equipment, the local longitudinal shear wave velocity measurement of the desired depth This has a possible effect.

Claims (1)

A rod 102 that is inserted by the drilling rig 100 to a depth desired by the user; A first vendor element support 104 which is manufactured in the form of a hollow antenna and is infiltrated into the ground by compressed air and infiltrated into the upper portion of the rod 102; A second vendor element support 106 which is manufactured in the form of a hollow antenna and is infiltrated into the ground by compressed air and infiltrated into the lower portion of the rod 102; An air compressor (110) for applying the compressed air through the hose (108) to the first vendor element support (104) and the second vendor element support (106) when the rod (102) is introduced to a desired depth; An alternating current signal generator (112) for transmitting an alternating current signal to the inserted first vendor element support (104); A transmitter 114 installed at one side of an upper outer surface of the first vendor element support 104 to receive an AC signal transmitted from the AC signal generator 112 and to transmit a shear wave to the ground; A receiver 116 installed on one side of an upper outer surface of the second vendor element support 106 to receive a shear wave transmitted from the transmitter 114 of the first vendor element support 104 to cause vibration; Shear wave velocity measuring device of the site ground, characterized in that consisting of an oscilloscope (118) for reading the vibration induced from the receiving unit (116).

Images