SU1073433A1 - Tool for drilling with sampling - Google Patents

Abstract

DRILLING FOR SAMPLING SAMPLES, containing rock-breaking tools and a body made in the form of a pipe with slurry XM measures on it consisting of separate sections, so that, in order to increase the productivity of the drill for drilling and accuracy of hitting The slurry sample to the geological section with simultaneous sampling of core samples, the body is made in the form of a core-receiving chamber and is equipped with a piston placed in the latter with the possibility of moving along the housing axis; the slurry chambers are rigidly closed Lena on the housing and connected to a row s inter- tubes with inverse stem (A pans and core lifter chamber is connected with the slurry chambers spiral channels with inlet valves, interacting with the punch.

Description

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ooo oo The invention relates to the drilling of wells, namely to devices for drilling with core sampling and sludge samples. A known slurry sampling projectile, comprising a housing, an instrument, a drill pipe, and a sludge pipe, in which the slurry sample is tied to this section, is fed at a certain interval of the cavity a portion of marking material into the flushing fluid. However, when the projectile rises to the surface Marking material, resulting in reduced testing accuracy. A known projectile for sampling core samples containing a column pipe with petals of plastic material 23 fixed at regular intervals therein. However, this device does not provide for the collection of slurry samples for the excavation of rocks. Also known is a drill for sampling, containing a rock destructive tool and a body made in the form of a pipe with slurry chambers located on it, which constitute from a separate section. 3. The disadvantage of the projectile is the difficulty in controlling the operation of the slurry chambers and the possibility of taking only slurry samples, which leads to additional costs of material resources and time for core sampling. 1T, the spruce of the invention is an increase in the productivity of the drill projectile and the accuracy of the attachment of the slurry sample to the geological section, while simultaneously sampling core samples. The goal is achieved by the fact that in a drill with a sampling device containing a rock-destroying tool and a body made in the form of a pipe with sludge chambers arranged on it consisting of separate sections, the body is made in the form of a core-receiving chamber and is equipped with a piston located in the latter is movable along the axis of the housing, the slurry cells are fixed to the housing and interconnected by pipes with non-return valves, and core receiver, the camera is connected to the slurry chambers of the spiral channels and inlet valves that interact with the core. The drawing shows the drilling rig design with sampling. The device consists of identical sections, each of which contains a core receiver part 1 and a sludge chamber 2, a piston 3, a shut-off valve 4, a spiral chamber 5 with inlet b and outlet 7 windows, a tube 8 with a check valve 9, and a drill bit is attached to the lower section 10, to the top, a device for creating a reverse circulation of the washing liquid 11. The device operates as follows. The flow of drilling fluid. Enriched in sludge through the channel core part 1 reaches the inlet window 6 and through the spiral chamber 5 and the window 7 enters the sludge chamber 2, where the sludge as a result of a complex interaction of gravitational and centrifugal forces intensively settles as well. The nominal liquid enters the discharge tube 8 through the valve 9 into the slurry chamber 2 following the section, and from the last slurry chamber 2 the liquid flows through the tube 8 and the valve 9 into the suction cavity of the device for generating reverse circulation. When the core reaches the valve 4, the valve closes the inlet b of the section operating in the cleaning mode, the pressure of the washing liquid increases and the piston 3 begins to move along the core receiving channel until the liquid enters the entrance window of the preceding section. Then the cycle repeats. A drill for removal with sampling works with any device that creates a reverse circulation of flushing liquid. The use of projectile will allow an increase in drilling performance and increase the reliability of the structure due to the complete interchangeability of parts and components of the section, which will reduce downtime for the repair of equipment.

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Claims (1)

A DRILLING TOOL WITH SAMPLING, containing a rock cutting tool and a body made in the form of a pipe with slurry chambers located on it, consisting of separate sections, characterized in that, in order to increase the productivity of the drill for drilling and the accuracy of binding the slurry sample to the geological section during simultaneous core sampling, the casing is made in the form of a core receiving chamber and is equipped with a piston located in the latter with the possibility of movement along the casing axis, slurry chambers are rigidly fixed to the core pus and are interconnected by pipes with check valves, and the core receiving chamber is connected to the slurry chambers by spiral channels with inlet valves interacting with the core. <1 CO СО СО>