Method and apparatus for thin-walled tube sampling of soils
First Claim
1. An earth sampling apparatus which comprises:
- a drilling apparatus having rotary power means;
an auger section including a hollow tube with a helical flight secured thereto;
a hollow-centered drive shaft connected to said drilling apparatus;
a hollow-centered coupling connecting the drive shaft to the auger section;
a sampling device including a locking element bearingly connected to a thin-walled sampling tube in such a manner that as the locking element is rotated, the thin-walled sampling tube remains stationary;
reelable cable means connected between the drilling apparatus and the locking element of said sampling device and operable to move the sampling device through said hollow tube; and
a latching mechanism on said locking element and hollow tube for rigidly securing the locking element of said sampling device to the hollow tube whereby downwardly-advancing rotation of said hollow tube produces downwardly-advancing motion of said thin-walled sampling tube.
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Accused Products
Abstract
An open-spindle earth sampling apparatus for taking and retrieving core samples of coil comprising a drilling apparatus having rotary power means, a hollow auger section, a hollow-centered drive shaft connected to the drilling apparatus, a gimbal ring auger coupling and a sampling device suspended into the hollow auger section by means of a reelable hoist cable. The hoist cable is attached between the drilling apparatus and the sampling device and the gimbal ring auger coupling bearingly connects the hollow auger section to the drive shaft. The sampling device includes a rotatable locking portion and a pivotally-stationary, thin-walled sampling tube which is bearingly connected to the rotatable locking portion. The rotatable locking portion is rigidly secured to the hollow auger by a pair of expandable latches such that the thin-walled sampling tube projects from the end of the hollow auger. As the hollow-centered drive shaft rotates about its axis, the hollow auger section rotates about its axis imparting a downwardly advancing motion to the thin-walled sampling tube. Concurrent with this advancing motion a hydraulic feed system, connected to the rotary power means, exerts a downward force on the thin-walled sampling tube which penetrates the soil at the bottom of the drilled hole with a rapid and continuous motion and a core sample is thus obtained within the sampling tube. Once the core sample is taken, the latches are released and the sampling mechanism is drawn out of the hollow auger section by means of the reelable hoist cable.
28 Citations
7 Claims
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1. An earth sampling apparatus which comprises:
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a drilling apparatus having rotary power means; an auger section including a hollow tube with a helical flight secured thereto; a hollow-centered drive shaft connected to said drilling apparatus; a hollow-centered coupling connecting the drive shaft to the auger section; a sampling device including a locking element bearingly connected to a thin-walled sampling tube in such a manner that as the locking element is rotated, the thin-walled sampling tube remains stationary; reelable cable means connected between the drilling apparatus and the locking element of said sampling device and operable to move the sampling device through said hollow tube; and a latching mechanism on said locking element and hollow tube for rigidly securing the locking element of said sampling device to the hollow tube whereby downwardly-advancing rotation of said hollow tube produces downwardly-advancing motion of said thin-walled sampling tube. - View Dependent Claims (2, 3)
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4. A method of core sampling comprising the steps of:
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positioning a drilling apparatus having a rotary power means and a hollow driver connected thereto at a drilling site; connecting a hollow-stem auger to the hollow driver by means of a hollow-centered coupling; attaching a pilot bit plug to said hollow-stem auger; operating said drilling apparatus and power means to rotate and advance said hollow-stem auger and cause said auger to drill a hole into the earth to a desired sampling depth; - View Dependent Claims (6)
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5. removing said pilot bit plug from the hollow-stem auger;
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inserting a sampling device through the hollow driver, hollow-centered coupling and auger to the bottom of the hole by means of a reelable cable; locking the sampling device into the auger so that the sampling device extends beyond the lower end of said auger; rotating the auger around the sampling device while moving the auger and sampling device downwardly to take a sample; and retrieving said sampling device with the soil sample therein from the bottom of the hole by means of said reelable cable. - View Dependent Claims (7)
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Specification