FI75027C - ANORDNING FOER FULLHAOLSBORRNING. - Google Patents

Abstract

The invention is a device for drilling holes over the entire bottom surface of the drill hole. The device consists partly of a drill shaft (2) fixed drill crown (1) with a canal (15) for irrigation to the bottom of the drill hole, and partly of a forming device (3) mounted above the drill crown (1) for formation of the hole wall, which is intended to delimit a column between the drill hole wall and drill shaft (2) wall. The drill shaft's (2) inner cavity above the drill crown (1) houses a holder (5) filled with damming material, which is intended to supply damming material to the drill crown (1). This (1) is equipped with an axial opening (8), the diameter of which is greater than the inner diameter of the holder (5) and proportioned to receive the bottom end of the holder (5).<IMAGE>

Description

1 75027

This invention relates to borehole drilling devices, and more particularly to devices that can drill 5 full boreholes without taking drilling samples.

In addition to being widely used in drilling for oil, gas and water sources, full borehole drilling is also used for drilling structural holes and test holes in gas and oil-fired areas, for detailed surface ore deposits with well-known deposits and relatively simple deposits. in mapping, drilling ore prospecting and exploration holes in rocks in surface layers, exploring layers extending to the pre-chamber continental shelf, and drilling hydrogeological, seismic, and blasting holes.

In full-hole drilling, two-, three- and four-roller tips are mostly used. When operating under optimal conditions, these blades achieve very high drilling speeds of 20.

Full hole, as well as other drilling methods, often have difficulties due to the instability of the stones forming the walls of the hole, the flooding of water and, in particular, the absorption of the drilling fluid into the intricate and porous rocks and the highly permeable rocks. These difficulties interfere with normal drilling conditions, substantially reduce the drilling speed, and often cause an interruption in drilling for as long as the cause of the difficulty is found. This results in lower production capacity 30 as well as a significant increase in hole costs, so that some of the main problems with drilling are finding methods to overcome these difficulties.

Although in most cases drilling will have to be interrupted for the duration of the defect, methods are known that can be used during the drilling of the hole. In these 2,75027 n ________ methods, a support is added to the drilling fluids as gelatinous polymer clumps filled with a finely divided material or, if necessary, by adding a granular mineral. However, when such a method is used, Liu-5 lubricates the support fluid and circulates with it and adheres to the surfaces of the pump, supply lines, jacket pipes and hole walls even where it is not needed, without the walls receiving non-metallic reinforcement.

The construction of drilling means 10 using such a method is conventional and comprises a blade with a channel for supplying drilling fluid to the bottom of the hole and attached to the pipe jacket and a hole wall former above the blade which closes the space between the pipe jacket and the hole walls.

15 This arrangement does not make it possible to eliminate interference or support without casing the walls of the hole without interrupting the drilling process.

This is because the support material is fed to its applications in the wall of the hole in a liquid form with a concentration of al-20, since it must be diluted in order to be pumped through the entire pipe jacket. This also forces the use of support materials with a long curing time, which in turn causes the support material to not achieve sufficient strength in the main base area.

25 A further significant disadvantage is that the feeding of an ineffective filler to the hole removes the drilled stone from the hole, which is physically and chemically affinity with the stones forming the walls of the hole because it has been obtained by crushing them.

U.S. Patent No. 4,191,254 discloses an apparatus for eliminating problems associated with hole drilling and a method for accomplishing this. The device has a container made of flexible material, which is divided into parts containing the support material or its components. When problems occur, the tank is lowered along the passage inside the jacket into the 3 75027 blade so as to interrupt the flow of drilling fluid forming hydrostatic pressure inside the jacket from the pipe jacket. The container is compressed, the flexible partition is broken and the components of the mixture together with the body of the container 5 are pushed out into the hole shaft, closing the problematic area.

This device is intended to eliminate problems using liquid carriers and cannot be used to feed dry, powdery, granular and other loose materials. The device also does not make it possible to ensure that a perforated shaft is formed during blocking.

The object of the invention is to provide a device for full-hole drilling, by means of which the walls of the hole can be continuously strengthened and interference eliminated without interrupting the drilling.

The present invention is based on a device for full hole drilling comprising a blade having a channel for supplying drilling fluid to the bottom of a hole attached to a pipe jacket and a hole wall former above the blade which closes the space between the pipe jacket and the hole walls. characterized in that immediately above the blade there is a support-containing container inside the tubular jacket adapted to allow drilling fluid into the space between the walls of the support-containing container 25 and the tubular jacket and to supply the support to the blade by the displacement agent, and the axle has an axial bore larger than to which the lower part of the tank fits so that the support material can reach the bottom of the hole from the drill bit.

The tank is preferably removable and can be replaced without lifting the pipe jacket to the ground.

In order to use the stone drilled by the blade as a filler, the container can be filled with a support comprising a granular binder.

4 75027 The container may comprise a cylindrical tube with a removable stopper at the lower end and a mandrel at the upper end suitable for pressing the support material from the container.

The upper end of the tank may have a nipple associated with the let-5 moon for handling the tank and for feeding the displacement agent into the tank.

The device for full hole drilling described above guarantees continuous drilling of the hole, reliable interference removal and non-metallic support of the hole walls.

The invention will now be described with reference to a specific embodiment shown in the accompanying drawings, in which Figure 1 is a longitudinal section of a device according to the invention for full hole drilling (in the transport position), Figure 2 is section II-II of Figure 1, Figure 3 shows an embodiment with separate feed displaced .

The device for full-hole drilling represents a modification of conventional drilling equipment and does not require substantial modifications, so that in particular the blade may comprise any rock-crushing tool used in impact drilling.

The device for full-hole drilling comprises a rock oil drill 1 attached to a jacket pipe 2 (Fig. 1), 25 with a wall former 3 in between.

The wall former 3 may comprise any structural part which closes the space between the walls of the hole and the jacket pipe 2, such as a drill 4, the direction of rise of which is opposite to the direction of rotation of the pipe jacket.

30 Inside the jacket tube 2 there is a cylindrical container 5 with a support material 6.

The container 5 may comprise a cylindrical tube closed at the upper and lower ends, a cylindrical, closed dome made of plastic or a rod made of compressed support material, the surface of which is coated with a waterproof layer. The container may be structurally consistent with the blade or, preferably, it may be removed for replacement without the blade being pulled from the borehole.

The support material 6 may comprise a fast-curing mixture such as a gypsum or cement mixture, a pasty mixture of different polymers 5 with hardeners, cement, polymers, clay and the like powdered substances which are usually used as binders.

The plug 7 (replacement plug) closes the lower part of the container 5, which cooperates with the central hole 8 of the blade 1, and the upper part of the container 10 is closed by a spindle 9 with an inlet 10 and an outlet 11, and the container 5 has an opening 12 5 and the inner walls of the tubular jacket 2, the tubular jacket 2 having guides 13 centering the container 5. The upper guide may comprise a continuous ring 14 having a central opening 15 having the same diameter as the outer diameter of the container 5 and other guides comprising different projections. The body of the blade 1 has a channel 15 through which the drilling fluid enters the bottom of the hole when the container 5 closes the hole 8 of the blade 1. At the top of the container 5 there is a seat 16 into which the end of the lifting device 17 fits.

To force the material 6 from the container 5, a ball 8 is lowered into the pipe jacket 2 to close the opening 10 of the mandrel 9.

In another embodiment, shown in Figure 3, the mandrel 9 comprises a cylindrical piston plug and a device for attaching and sealing the end 20 of the cable hose 21, the cable hose of which serves to treat the container 5 and to supply the displacement fluid.

The structural arrangement described above does not exhaustively discuss all possible modifications of the device according to the invention. In practice, the device may comprise a conventional pipe jacket, so that the container 5 containing the support material can be replaced only after the entire pipe jacket has been lifted to the ground.

However, these modifications do not affect the structural features of the device according to the invention and are mainly related to the operating methods of the device as well as to minor structural changes in the secondary components.

6 75027

The device for drilling a full hole works as follows.

Under normal drilling conditions, the drilling fluid comes from the openings 10, 11 of the mandrel 9 and the opening 12 of the tank 5 and 5 through the space between the tank 5 and the pipe jacket 2 and the channel 15 to the blade and the bottom of the drilling hole.

If difficulties occur, such as water absorption and loss of drilling fluid, a steel ball 18 is lowered into the pipe jacket, which falls at the end of the mandrel 9 and closes the opening 10 9, so that the drilling fluid does not enter the interior of the pipe jacket 2. The pressure of the drilling fluid inside the pipe jacket suddenly rises above the mandrel 9 so that the pins holding the mandrel 9 break and the mandrel 9 presses down through the support 6 and opens the plug 7, allowing the support 6 to enter the blade 1. After the mandrel 9 presses the plug 7 and part of the support 6, it continues downwards along the tank 5 and opens the opening 12 in the wall 5 of the tank 5 so that the drilling fluid normally enters the blade 1. The support 6 crushed and ground by the rollers of the blade 1 mixes with the drill-20 rock and the drilling fluid 3 4 the rise centers its support on the lower part of the hole near the bottom of the hole, from where it throws against the walls of the hole. Centrifugal force and the pressure of the drilling rigs squeeze too much water out of the pulp. The thick and tough support mass 6, in which the crushed stone has been mixed, presses into the openings and joints of the stones forming the walls of the hole, condenses and begins to harden.

The slider 22 slides along the support 6 and calibrates the hole gap so that the mass continues to compact and remove excess water.

When all the support material 6 has been used, the lifting device 17 is lowered on the rope, the end of which grips the seat 16, after which the container 5 is lifted out and replaced with a new one.

The clogging process is repeated as needed until the problem is completely eliminated.

In another preferred embodiment of the device shown in Figure 3, there is a device 19 which communicates with and closes the end 20 of the cable hose 21, whereby the support 6 is pressed down by a displacement agent (liquid or gas), and the cable hose is also used for raising and lowering the tank 5.

It is clear that changing the container 5 immediately in the vicinity of the bottom of the hole, as explained above, is only possible by means of the structure and dimensions of the drill 1.

Therefore, such an exchange is preferably used when drilling large holes larger than 112 mm. When drilling smaller holes, it is preferable to change the tanks 5 on the ground, and if possible at the same time as the blade tip is changed, so that the tank 5 can be selected so large that it has sufficient support 6 until the next blade change. This reduces the waste of time when raising and lowering.

If the device according to the invention is used for non-metallic support of the hole walls by providing the entire surface of the hole with a waterproof layer, the support material 6 is continuously pushed out during drilling. When the support material runs out, drilling 20 is stopped, the tank 5 is changed and drilling is continued to the desired depth.

The drilled rock material is effectively mixed with the support material, where it acts as a passive component, and because it has an affinity with the stones 25 forming the hole walls, it improves the tightness of the system and reduces the need for a support material to be fed to the bottom of the hole.

It should be emphasized that since a portion of the crushed stone is mixed with the binder as a binder and is a filler filler, the support 6 is saved and the wall density and strength increase because the filler and the wall-forming aggregate are similar in composition and have better adhesion between them.

The invention can be used to eliminate disturbances in full borehole drilling by non-metallically supporting borehole walls during drilling, making wells or chambers, enlarging and repairing previously drilled holes, drilling through unstable sections in uncemented sandy soil, swellable and wet.

Il

Claims (5)

75027 A device for full hole drilling, the device comprising a blade (1) having a channel (15) for supplying drilling fluid to the bottom of the hole and fixed to the pipe jacket (2) and a wall former (3) forming a hole above the blade, which closes the space between the pipe jacket (2) and the walls of the hole, characterized in that immediately above the blade (1) there is a container (5) containing a support material inside the pipe jacket (2), adapted to allow drilling fluid to pass through the walls of the container (5); in the space between the tubular jacket (2) and to supply support to the blade (1) by the displacement agent, and that the blade has an axial bore diameter and (8) larger than the inner diameter of the container (5) and the lower part of the container (5) fits so that the support material can reach the bottom of the hole from the bore. Device according to Claim 1, characterized in that the container (5) is removable and can be replaced without lifting the pipe jacket (2) to the ground. Device according to Claim 1 or 2, characterized in that the container (5) is filled with a support material comprising a granular binder. Device according to claim 2, characterized in that the container (5) comprises a cylindrical tube with a removable plug (7) at the lower end and a spindle (9) at the upper end suitable for pressing the support material (6) from the container (5). . Device according to Claim 4, characterized in that the upper end of the container (5) has a nipple 30 (19) which is connected to a hose (21) for handling the container (5) and for feeding the displacement agent to the container (5).