SE1050155A1 - Method and apparatus for sampling bedrock - Google Patents

Abstract

This invention relates to a method of sampling bedrock 1 comprising transport drilling A performed using a drill string 2 and a first drilling device 3 to reach an area X inside the rock 1 and sampling drilling B performed using the same drill string 2 and a second drilling device 4 for obtaining a sample of the rock 1 in this area X. The invention also relates to a device intended for use in sampling of bedrock 1. (See Fig. 1.)

Description

P 20904988ENO0 2 Fig. 3 shows a drill string, a first drilling device and an adapter.

Fig. 4 shows a hammer drill.

Fig. 5 shows a drill string and a second drilling device.

Fig. 6 shows a drill string.

Fig. 7 shows a core drill seen from the mouth.

Detailed description of exemplary embodiments A method according to this invention for sampling of bedrock 1, for mapping the bedrock, comprises transport bore A and sampling bore B.

First, a transport into the rock 1 is performed by a drilling procedure to an interesting area X where the actual sampling is to take place. The transport drilling A is performed by using a drill string 2 and a first drilling device 3 which is used to drill a hole 4, once, an inlet, in the rock 1 which makes it possible to reach this interesting specific area inside the rock 1. The transport bore A should result in a hole 4 through which a sampling device, a second drilling device 5, can be transported into the rock 1 so that a sample 1a of the rock 1 can be taken out. The transport drilling A can take place several hundred meters before reaching the interesting specific area X. The transport drilling A can take place much faster than the sampling B because one is not interested in the soil moraine and / or rock that is passed during the transport drilling nor in the rock material. which is discharged at the transport bore.

Then the sampling is done which is also performed by a drilling procedure.

The sampling bore B is performed using the same drill string 2 as that used in the transport drilling and a second drilling device 5, a sampling device, which is passed through the already drilled hole 4, the aisle, to obtain the sample 1a of the rock 1 in this interesting specific area X.

First drilling a transport blanket and then doing the actual sampling makes the whole sampling work much faster. However, it is important to keep in mind that the drilling of the hole 4 should take place in such a way that the hole 4 obtains substantially the same diameter both during the transport drilling and during the sampling drilling, along the entire length of the hole. The same diameter of the hole 4 all the way into, and out of, the rock makes it possible to take the obtained sample 1a of the rock from the rock.

W: \ Other_Casedocuments \ Patent \ P409- \ P40904988SEOO \ P40904988SE00 grundh t PRV.d0c 10 15 20 25 30 35 P40904988SEOO 3 The transport drilling A is performed by drilling in the rock 1 combined with the creation of blows to the rock. Drilling combined with the creation of blows results in larger parts of the rock being able to be released and removed, which further speeds up and shortens the working time of the transport bore A.

The first drilling device 3 comprises a hammer drill 3.1. The hammer drill 3.1 comprises a drill bit 3.2. In the front part of the drill bit 3.2, in the drill head 3.3, a number of material additions in the form of pins 3.4 of, for example, cemented carbide are inserted to provide a hard working surface so that it is possible to drill in rock. The drill bit 3.2 further comprises a shaft 3.5 emanating from the drill head 3.3 which is substantially narrower in diameter than the head and provided with longitudinal splines 3.6. The drill bit 3.2 has a rear slightly thickened end part 3.7 with a flat stop 3.8 against which a percussion piston 3.9 included in the hammer drill 3.1 is arranged to strike.

The drill bit 3.2 of the drill hammer, the drill head 3.3, each pin 3.4, can be reinforced with diamonds, industrial diamonds, to increase the wear resistance of the drill bit. With diamond-reinforced drill pins 3.4, it is possible to obtain a diameter of the borehole 4 which is relatively constant along the entire length of the borehole.

The method also comprises placing and using a damping device 6, a damping adapter, between the drill string 2 and the first drilling device 3 to prevent vibration scattering from the first drilling device 3 to the drill string 2. The damping device 6 may comprise damping materials or damping structures which prevent that vibrations in the first drilling device propagate.

The transport bore A is operated by means of liquid. The method also comprises conducting / transporting liquid through the first drilling device 3 up to the front part of the first drilling device, the drilling head 3.3, directed towards the rock for flushing out cuttings, the rock material which has come loose during drilling and striking. The first drilling device, the hammer drill 3.1, the drill bit 3.3, comprises at least one longitudinal channel 3.10 for conducting liquid through the drill bit and through openings 3.11 in the front part of the drill bit.

The fact that the transport bore, the first drilling device 3, is driven by liquid, pressurized liquid, means that liquid is drawn to the first drilling device 3, whereby the liquid can also be used to flush clean in the hole 4, to flush away the drill cuttings. Removing the drill cuttings in front of the rock surface that is being processed facilitates and speeds up drilling as removed rock does not have to remain and risks being in the way and being machined further and completely unnecessarily.

Liquid supply also cools the area being machined by the first drilling device.

The liquid is usually water, sometimes water with the addition of bentonite.

W: \ Other_Casedocuments \ Patent \ P409- \ P4D904988SEOO \ P40904988SEOO basic PRV.doc 10 15 20 25 30 35 P40904988SE00 The sampling bore B comprises drilling around a piece of the rock so that a sample from the rock 1a, a sample core, can be released and taken out. from the rock 1. This type of sampling bore B is called core drilling. Core drilling is also sometimes called diamond drilling.

At the sampling bore B, the core bore, a cylindrical drill core is thus cut out of the rock, the bedrock. The second drilling device 5 comprises a core drill 5.1 which enables this work of releasing a sample core. A core drill is called a diamond drill in cases where the core drill comprises a rotating drill bit 5.2 which is provided with diamonds, industrial diamonds, to increase the wear resistance of the drill bit. The core drill 5.1 comprises a rotating drill bit 5.2 which comprises a hollow inner elongate space 5.3. The core drill 5.1 drills in the bedrock 1 around and along the desired sample 1a, the drill core.

The second drilling device 5, the sampling device, the core drill 5.1, the drill bit 5.2, should be selected with a size, diameter, which makes it possible to insert it into the transport drilling hole 4 and which also results in a sample, a sample core 1a, with a size, diameter, which makes it possible to take out the sample core 1a via this hole.

The method also comprises the use of a drill string 2 comprising protruding elements / guides 7 which guide the drill string 2 in relation to the hole 4, to the wall of the hole for preventing oscillations, heeling, shaking, wobbles, of the drill string 2.

A device according to this invention intended for use in sampling of bedrock comprises a drill string 2, a first drilling device 3 and a second drilling device 5.

The drill string 2 is one and the same and is used in transport drilling A to reach an interesting area X inside the rock 1 and in sampling bore B to obtain a sample 1a of the rock 1 in this area X.

The first drilling device 3 is intended to be used in the transport bore A and the second drilling device 5 is intended to be used in the sampling bore B.

The first drilling device 3 comprises parts which process the rock 1 by drilling and punching. The first drilling device 3 comprises a hammer drill 3.1. The hammer drill comprises a drill bit 3.2. In the front part of the drill bit, the so-called the drill head 3.3, a number of pins 3.4 of, for example, cemented carbide are inserted to be able to drill in rock. The drill bit 3.3 further comprises a shaft 3.5 emanating from the drill head 3.3 which is substantially narrower in diameter than W: \ Other_Casedocuments \ Patent \ P409- \ P40904988SEO0 \ P40904988SEO0 fundamentally t The drill bit 3.3 has a rear slightly thickened end part 3.7 with a flat stop 3.8 against which a percussion piston 3.9 included in the hammer drill is arranged to strike.

The device also comprises a damping adapter 6 which is arranged between the drill string 2 and the first drilling device 3 for preventing vibration spreading from the first drilling device 3 to the drill rod 2.

The first drilling device 3 is liquid driven.

The device comprises parts 8 which enable conducting / transport of liquid through the first drilling device 3 to the front part of the first drilling device, the drill bit 3.3, directed towards the rock where the liquid is used for transporting drill cuttings out of the borehole 4 back along the first drilling device. the area where drilling takes place.

The first drilling device 3 comprises a drill bit 3.3 which in turn comprises a longitudinal flushing channel 3.10 for conducting flushing liquid through the first drilling device, through the drill bit, up to openings 3.11 in the front part of the drill bit facing the rock.

The second drilling device 5 comprises parts which enable the release and taking of a sample from the rock. The second drilling device 5 comprises a core drill 5.1, a diamond drill.

The second drilling device 5, the sampling device, the core drill 5.1, should be selected with a size, diameter, which makes it possible to insert it into the transport drilling hole 4 and which also results in a sample 1a, a sample core, with a size, diameter, which makes it possible to take the sample 1a, the sample core, through this hole 4.

The drill string 2 comprises protruding elements 7, guides which, when using the device, abut against the surrounding rock wall for preventing oscillations, heeling, shaking, wobbles, of the drill string 2.

W: \ Other_Casedocuments \ Patent \ P409- \ P409049888E00 \ P40904988SE00 grundh t PRV.doc

Claims (1)

1. 0 15 20 25 30 35 P40904988SE00 6 Patent claims. Method for sampling of bedrock (1) comprising transport drilling (A) performed using a drill string (2) and a first drilling device (3) to reach an area (X) inside the rock (1) and sampling drilling (B) as is performed by using the same drill string (2) and a second drilling device (4) to obtain a sample of the rock (1) in this area (X). . Method according to claim 1, wherein the transport drilling (A) is performed by drilling in the rock (1) combined with the creation of blows to the rock. . Method according to claim 1 or 2, wherein the first drilling device (3) comprises a hammer drill (3.1). . Method according to any one of claims 1-3, comprising placing a damping adapter (6) between the drill string (2) and the first drilling device (3) for preventing vibration spreading from the first drilling device (3) to the drilling string (2). . Method according to any one of claims 1-4, comprising driving the transport bore (A) by means of liquid. Method according to one of Claims 1 to 5, comprising conducting / transporting liquid through the first drilling device (3) to the front part of the first drilling device directed towards the rock for flushing out drill cuttings and cooling. . Method according to any one of claims 1-6, wherein the sampling bore (A) comprises drilling around a piece of the rock so that a released sample (1a), a sample core, is obtained which can be taken out of the rock (1). Method according to any one of claims 1-7, wherein the second drilling device (5) comprises a core drill (5,1). . Method according to any one of claims 1-8, comprising the use of a drill string (2) comprising protruding elements / guides (7) for preventing oscillations, heeling, shaking, wobbles, of the drill string (2). W: \ Other_Casedocuments \ Palent \ P409- \ P40904988SE00 \ P40904988SE00 grundh t PRV.doc 10 15 20 25 30 35 P40904988SEO0 10. 11. 12. 13. 14. 15. 16. 17. 18. 7. Device intended for use in sampling of bedrock (1) comprising a drill string (2) used for transport drilling (A) to reach an area (X) inside the rock (1) and sampling bore (B) for obtaining a sample (1a) of the rock (1) in this area (X), the transport bore (A) and a second drilling device (5) intended for use with a first drilling device (3) intended for use with the sampling bore (B). Device according to claim 10, wherein the first drilling device (3) comprises parts which process the rock (1) by drilling and striking. Device according to claim 10 or 11, wherein the first drilling device (3) comprises a hammer drill (3.1). Device according to any one of claims 10-12, comprising a damping device (6) arranged between the drill string (2) and the first drilling device (3) for preventing vibration spreading from the first drilling device (3) to the drill rod (2). Device according to any one of claims 10-12, wherein the first drilling device (3) is liquid-powered. Device according to one of Claims 10 to 14, comprising parts (3.10, 3.11) which enable the conduction / transport of liquid through the first drilling device (3) to the front part of the first drilling device directed towards the rock for removal of drill cuttings and cooling. Device according to one of Claims 10 to 15, in which the second drilling device (5) comprises parts which enable a sample to be released and taken out of the rock (1). Device according to any one of claims 10-16, wherein the second drilling device (5) comprises a core drill (5,1). Device according to one of Claims 10 to 17, in which the drill string (2) comprises projecting elements (7), guides which, when using the device, abut against the surrounding rock wall to prevent oscillations, heeling, shaking, wobbles, of the drill string (2). W: \ Other_Cased0cumentS \ Patent \ P409- \ P40904988SEOO \ P40904988SEÛO grundh t PRV.d0c