RU2009121161A - METHOD FOR SHOCK SOUND SOUNDING AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Abstract

 1. The method of shock sounding of soils, including immersion of a single-link probe from the bottom of the well by striking with a shock mechanism on the head of the probe, placed in the cavity of the guide in the form of a screw column of pipe links equipped with a drill bit at the lower end, through which a central hole is previously passed the lower end of the probe with a headgear and equip it with a conical leading working tip, and the percussion mechanism interacts via a cable with the winch of the drilling rig, and after immersion of the probe link, the percussion mechanism is removed with the help of a cable and a drilling rig winch on the surface, the screw pipe string is extended with one link equal to the length of the probe length to be immersed, and then the auger string is reloaded by rotating it using the drilling rig rotator, the percussion mechanism is lowered onto the cable into the cavity of the column and repeat the process of deepening the probe to a given sounding depth, and the sounding results are recorded using measuring instruments with their subsequent interpretation according to the known method after removing the device from the ground, characterized in that a standard hammer is used as a percussion mechanism, which is connected by a cable to a drill of a drilling rig and a pneumatic pressure hose with a pneumatic compressor on a day surface, and the speed of immersion of the probe for each deposit is measured by fixing it to a fixed on a fixed benchmark automatic recorder of the speed of movement of a hammer which is periodically fixed on a cable before each sounding of an inventory line with marking

Claims (4)

1. The method of shock sounding of soils, including immersion of a single-link probe from the bottom of the well by striking with a shock mechanism on the head of the probe, placed in the cavity of the guide in the form of a screw column of pipe links equipped with a drill bit at the lower end, through which a central hole is previously passed the lower end of the probe with a headgear and equip it with a conical leading working tip, and the percussion mechanism interacts via a cable with the winch of the drilling rig, and after immersion of the probe link, the percussion mechanism is removed with the help of a cable and a drilling rig winch on the surface, the screw pipe string is extended with one link equal to the length of the probe length to be immersed, and then the auger string is reloaded by rotating it using the drilling rig rotator, the percussion mechanism is lowered onto the cable into the cavity of the column and repeat the process of deepening the probe to a given sounding depth, and the sounding results are recorded using measuring instruments with their subsequent interpretation according to the known method after removing the device from the ground, characterized in that a standard hammer is used as a percussion mechanism, which is connected by a cable to a drill of a drilling rig and a pneumatic pressure hose with a pneumatic compressor on a day surface, and the speed of immersion of the probe for each deposit is measured by fixing it to a fixed on a fixed benchmark automatic recorder of the speed of movement of a hammer which is periodically fixed on a cable before each sounding of an inventory line with marking the value of the collateral, equipped at the upper end with a limit switch to turn off the pneumatic compressor when the switch contacts the upper end of the column, while the lower end of the line is mounted on the hammer cable at the cut-off level of the upper end of the screw column, and the information from the line dive speed recorder is read and processed according to a known method using a computer according to a specially developed program, either during sounding, or upon completion, taking into account the energy parameters of the hammer, ters of the equipment, also in the light of this type of parallel test soil standard method using standard equipment. 2. The method according to claim 1, characterized in that, when immersing a single-link probe, a casing string equipped at the lower end with a leading conical tip with a central hole for passing the probe link through it is used as a guide, and the casing string is reloaded by impacts its upper end with a hammer after it is removed from the pipe string using an inventory potholder previously fixed to the upper end of the pipe string, and removing the casing string pipes from the ground, mainly during their “grabbing”, is carried out by changing the direction of impacts with a reversible pneumatic hammer upwards using an additional headgear fixed to the upper end of the casing and having a lug in the upper part with an opening for fastening it with an inventory finger to the fork fixed to the lower end of the reversible hammer, held on the winch cable, and after the column is “disengaged” from the “tack”, the column is removed from the ground using a winch and hydraulic iki drilling machine alternately disconnecting one link column, followed by repeating all the operations until complete extraction of the ground device. 3. A device for shock sensing of soils that implements the method according to claim 1, comprising a single-link probe equipped with a cap and a leading conical working tip, as well as a percussion mechanism placed with the possibility of axial movement in the cavity of the guide, made in the form of a screw column of pipes equipped on the bottom the end of the drill bit having a Central hole with a center link rod passed through it, measuring instruments and auxiliary ground equipment, and shock the mechanism interacts by means of a cable with a drill of a drilling rig, and the screw string of pipes when reloading and when removing with a rotator of a drilling rig, characterized in that the percussion mechanism is made in the form of a standard hammer, connected by a cable to a winch of a drilling rig, and also with a pneumatic pressure hose with a pneumatic compressor on the day surface, while the measuring devices are made in the form of an inventory (removable) ruler with a mark of the lengths of the accepted deposit dips of the probe, periodically which is fastened before sounding on the cable with the lower end at the level of the upper end of the screw string of pipes and the automatic recorder of the speed of immersion of the ruler, fixed on a fixed bench with the possibility of connecting it both during sounding and after it is completed to the computer, while the shock surface of the headgear is paired with the impact surface of the hammer, and the probe head and hammer on their side surface are equipped with rollers rolling around the inner surface of the pipe string . 4. The device according to claim 3, characterized in that the guide of the single-link probe is made in the form of a casing string with a leading conical tip fixed to its lower end having a central hole and equipped with a wiper for passing through the probe centering rod, and the wiper is made in the form a conical collet with a set of spring plates placed with a gap one relative to another on its conical surface and with an external thread on its cylindrical surface to connect the collet with a reciprocal a threaded hole formed in the conical tip of the pipe string, wherein a stuffing box is placed in the cavity formed between the collet and the probe rod, while the device is additionally equipped with an inventory cap attached to the upper end of the casing string to replenish the pipe string using an air hammer after the end of the next probe cycle , and is also additionally equipped with a replaceable headpiece in the form of a milled threaded tip equipped with a vertical earhook with a hole for connecting it by means of an inventory finger with a removable fork, fixed to the lower end of the reversible hammer to extract the pipe string from the ground to “break” it while “grabbing” it, followed by hydraulics and a drill rig winch.