FI69183C - BORRBETT - Google Patents

Description

____— I ,, ANNOUNCEMENT, _. _ _ «Tilli B ^ 11 UTLÄGGNINGSSKRIFT 69183 C (45) Fire · ^ L '^ ^ ^ (51) Kv.lk. * / Lnt.CI.' E 21 B 10/60 FINLAND— FI NLAND (21) Patent application - Patentansöknlng 790023 (22) HakemispiivS - Ansöknlngsdag 04.01. 79 (F ») (23) AlkupSivi - Glltlghetsdag 04.01.79 (41) Has become public - Blivlt offentlig 07 * 07.79

National Board of Patents and Registration Date of publication and publication of the hearing—? g gg g c

Patent- och registerstyrelsen '' Ansökan utlagd och utl.skrlften publlcerad · * '(32) (33) (31) Pyydetty etuoikeus - Begird prlorltet 06.01.78

Republic of South Africa-South Africa (ZA) 78/0091 (71) Boart International Limited, 6th Floor Unitas, 42 Marshall Street, Johannesburg, Transvaa1, Republic of South Africa-Republic of South Africa (ZA) (72) James Oliver McEnery, Ennis, Co. Clare, Frank William Morton, Shannon,

C/o. Clare, John Joseph O'Dea, Clareview, Limerick, I rianti-Ireland (IE) (74) Oy Jalo Ant-Wuorinen Ab (54) Drill bit - Borrbett This invention relates to borehole drilling and provides improvements in the supply of rinsing medium in the vicinity of the drill bit to facilitate rock crumbs. removal from the borehole.

This medium is normally air, but may be an air-liquid mixture or, in a purely hydraulic drill, only liquid.

In a borehole drill, the hammer action acts directly on the drill bit at the bottom of the borehole, and these forces acting on the tip are immediate and large. For this reason, it is necessary to use a remarkably strong tip. The rinsing medium is often fed to the tip primarily through an axial hole that passes through the tip shank to its end surface which acts at the bottom of the borehole, and in some cases through a plurality of grooves extending substantially longitudinally along the tip shank and terminating at the end surface.

U.S. Pat. No. 3,269,470 discloses such a structure in which the actual flushing agent flow is passed through the drill bit to the end surface, but in which there are further fluid flow channels running on the surface of the drill. The channels running on the surface are divided in the longitudinal direction of the tip into two, in the circumferential direction of the tip, into a series of channel-shifted channels, the main purpose of which is to cause the drill bit to rotate. The medium flowing in these channels naturally also has its own effect in rinsing off the crushed stone. However, the flushing effect is of secondary importance and not optimal in the structure shown, because the entire flow is directed substantially to the area of the drill bit.

It is also known (from DE patent 1 238 864) to use two flushing holes in the tip, which lead from the channels in the drill body to the upper part of the head and pass through the head. These holes are located opposite each other. However, it is not desirable for the strength of the drill bit to be impaired due to multiple internal cavities, which is why a tip with two or more substantially longitudinal holes is not as strong as would be desirable.

However, two holes are considered suitable when the tip is of the blade type and two holes are used in the end face of the tip due to the symmetry of the blade system. Not only is this system structurally relatively weak, it also results in the formation of unwanted turbulence and creates closed atmospheres at the tip end, which in turn results in premature tip wear.

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In another system (U.S. Patent No. 3,225,841), a central bore is used at the tip, terminating in an opening in the center of the end face. It also has a plurality of downwardly sloping channels extending from the central groove to the sides of the tip, where the channels terminate in grooves that direct the flushing air downward to flush the end surface of the tip. This system is structurally weak due to the plurality of internal cavities at the tip, and in this case, too, the end face exhibits considerable turbulence at the points where the flushing currents meet, resulting in premature wear.

In out-of-the-hole drilling, it is common to use a longitudinal channel flushing medium along the drill shank that extends from the drill body to its tip. In such drills, the tip end is generally significantly larger in diameter compared to the diameter of the rear arm than used in hole drills, where reducing the cross-sectional area of the device directly behind the tip end is relatively small because the housing of the hammer mechanism is immediately above the tip.

In drilling, the consequence of the above-mentioned reduction in cross-section is that the rinsing medium tends to diffuse into the hole space immediately behind the head, which slows down the overall flow. This fact has an unfavorable effect on the rinsing, since it must be possible to maintain the speed of the rinsing medium in order for the rinsing function of the medium to be satisfactory.

To overcome this problem, it is known in the drilling technique (e.g. from GB 1 071 418) to use a longitudinal center bore through the drill bit extending to the center of the end face, as well as a number of 69183 other bores extending from the longitudinal center bore through the tip side wall, some of which are towards and a few away from this end face. This system distributes the flushing medium flow and creates a venturi effect with a high pressure area on the end face itself. The crumb coming from the end face is absorbed from this area into the low pressure area, which is located higher in the borehole, where it enters a fast flowing flushing medium stream and moves upwards in the hole. Similar structures based on the venturi effect are also described in Swedish Patent Publication 311,618 and U.S. Patent No. 3,229,974.

In such Pori, these multiple bores naturally reduce the strength of the tip, and such tips cannot be used in the hole drilling technique. In addition, the properties of the flushing media available for flushing are completely different compared to the borehole drilling technique. A less significant difference in the relative areas of the head and the back of the head also reduces the theoretical desirability of the venturi effect.

It is an object of the present invention to provide a hole drilling device which improves the control of the rinsing effect of the rinsing medium, whereby drilling becomes more efficient than in known systems and tip wear is reduced.

The present invention provides a hole drilling apparatus comprising a drill bit having a shank surrounded by a drill housing, a tip formed integrally with the shank and projecting outside the drill housing, and a shoulder between the tip and the shank, a first cavity formed in the drill bit and extending to the tip work surface for conveying the rinsing agent from the inside of the drill to the outside thereof, and at least one other cavity for conveying the rinsing agent! 69183 5 si from the inside of the drill to the shoulder area. The hole drilling device is characterized / that said second cavity passes in the region of the drill bit separately from said first cavity and is formed as one or more grooves bordering the surface of the drill bit, the groove or grooves having an end stop surface deflecting upward and outgoing flux.

The present invention is particularly, but not exclusively, suitable for pin-drill bits, where the pins allow for a freer flow of medium at the tip end face than occurs in blade-type tips.

The flow of the rinsing medium to the end surface of the tip is preferably smaller than the flow upwards in the hole.

The invention is explained by means of the accompanying drawing, in which

Figure 1 shows a simplified longitudinal section of the lower part of a hole drill provided with a drill bit according to the invention;

Figure 2 is a bottom view of the tip of Figure 1;

Figure 3 is a view corresponding to Figure 1 of another embodiment of the present invention;

Figure 4 is a tip of Figure 3 corresponding to Figure 2; and

Figure 5 is a half section of the tip of Figures 4 and 5 with a longitudinal flushing groove.

The hole drill shown in Fig. 1 comprises a housing 10, to the lower end of which a drill bit according to the invention is attached, which is only partially shown. The drill bit 12 consists of a shank 6 691 83 14 and an end 16. The upper end of the shank is conventional in the way it is supported in the housing 10. The outer surface 18 of the tip has a number of pins attached to the countersunk holes 20, which are, however, omitted from the figure for clarity. Devices for generating impact force on the tip and rotating the drill are conventional.

The shaft 14 has an internal bore 22 which begins axially at the upper end of the tip near the end 16 with an inclined bore 24 having an orifice 26 in the end face 18.

The drill housing 10 has an internal longitudinal groove 28 which extends the entire length of the shank 14 and through which purge air is conducted. It terminates at the end of the housing 10, where the purge air is directed into a groove or channel 30 formed as a material of the tip 12 on the surface where the tip meets the lower edge of the housing 10 and is shaped so that it leads out of the groove 28 outwards into the borehole and upwards in the hole back up. The groove 30 shown, which is at right angles to the vertical axis of the drill, is suitable for this purpose. The ducts 22, 24, 28 and 30 are dimensioned with respect to the air supply so that slightly less than half of the air volume, preferably about 25%, enters the tip end surface through the bores 22, 24, while the rest passes directly through the duct 28 and extends into the bore along up. As a result, a low pressure area is formed in the borehole at the height of the groove 30 and then air and crushed stone are absorbed from the bottom up into this zone and thus become blown out of the borehole. It reduces swirling and provides a smoother and more manageable airflow across the tip. Crumb removal in the tip end area is thus more efficient.

The device of Figures 3-5 has a drill housing 110 provided with a drill bit 112 comprising a shank 114 and a head 7 691 83 116. The surface 118 of the head 116 has pins (not shown) attached to the holes 120.

The other side of the drill housing 110 has a groove 122, the lower end of which coincides with a bore 124 formed obliquely to the end of the drill bit and terminates in an orifice 126 in the surface 118. The drill bit shank has no axial bore, but a longitudinal groove 128 in its housing 110 at the wall 110 forming a passage having a cross-sectional area approximately equal to that of the bore 124. The purge air inside the drill is thus passed through a passage defined by the grooves 122, 128 to the bore 124 and finally exits through the borehole orifice 126 where it has a purge effect.

As best seen in Figures 4 and 5, the shank 114 of the tip 112 is provided with an additional groove 130 offset 90 ° about the shaft axis from the bore 124, which groove extends the entire length of the shank and joins the guide groove 132 formed at the tip end. to a suitably shaped groove (not shown) so as to create an additional channel along the shaft for air which protrudes out of the drill through the guide groove 132 and flows up through the borehole while developing a low pressure area below to force the air and rock upwards.

The combined effect of the air flow directed to the bottom of the hole and the air flow directed upward from the bottom of the groove 132 is much similar to that shown in connection with Figures 1 and 2.

It should be noted that in both of the above embodiments, the flushing cavity extending to the surface of the drill bit is completely independent of the cavity space supplying the flushing air outside the tip above the end surface. This 69183 system, of course, requires that the air supply to the drill above the tip be divided into two streams.

Among the variations (not shown) within the scope of the present invention is also one in which the supply of air to the tip surface is provided by a groove in the outer surface of the tip instead of drilling, which groove follows the general outer line of the tip and terminates outside the center of the end surface. The second cavity may in this case be a bore at the tip, but is preferably a second groove in the shaft, preferably associated with a second groove in the housing and terminating in a transverse extension, such as the grooves 30 or 132 shown.

In another variation, instead of a single cavity, there are multiple cavities that supply flushing fluid from the interior of the drill to points on the periphery of the tip above the end surface where it pivots upward in the borehole and develops a low pressure area that absorbs grit upward.

Preliminary tests with the drills according to the invention under practical operating conditions have shown that the corrosion and wear of the tip are substantially reduced, and in some cases increasing the service life of the tip by more than 20% compared to known tips.

It is obvious that the main advantage of the present invention is that it improves the control of the rinsing effect on the tip end surface by reducing or eliminating turbulence and transported atmospheres, and the venturi effect presented above is another advantage.

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Claims (11)

69183 A hole drilling apparatus comprising a drill bit having a shank (14; 114) surrounded by a drill housing (10; 110), a tip (16; 116) formed integrally with the shank and projecting outside the drill housing, and a shoulder between the tip and the shank, a first cavity (22,24; 122, 128,124) formed in the drill bit and extending to the working surface (18; 118) of the tip (16: 116) for conveying rinse aid from the inside of the drill to the outside, and at least one second cavity (28) , 30; 130,132) for conveying the rinsing agent from the inside of the drill to the shoulder region, characterized in that said second cavity (28, 30; 130, 132) extends in the region of the drill bit separately from said first cavity (22, 24; 122, 128, 124) and that it is formed as one or more grooves (28,30; 130,132) adjoining the surface of the drill bit, the groove or grooves having an end abutment surface which deflects the flushing agent flow into and out of the groove upwards. Drilling rig according to Claim 1, characterized in that the second cavity spaces (130, 132) or parts thereof (30) are grooves made in the surface of the drill bit. Drilling rig according to claim 1, characterized in that the second cavity spaces (28) are grooves made in the inner surface of the drill housing (10) where they run along the drill shank (14). Drilling rig according to one of the preceding claims, characterized in that the end abutment surface of the groove or grooves (30; 132) forms an angle of less than 90 ° with the axis of the shaft (14; 114) above the groove or grooves (30-132) at the groove exit point. Drilling rig according to one of the preceding claims, characterized in that it has a plurality of grooves (30; 132) terminating above the work surface (18; 118). 10,691 83 Drilling rig according to one of the preceding claims, characterized in that the first cavity space (122, 128, 124) is formed as a groove (128) in the outer surface of the drill bit where it runs along the drill bit arm (114). Drilling rig according to one of the preceding claims, characterized in that the first cavity (22, 24; 122, 128, 124) comprises a bore (24; 124) which passes through at least a part of the drill bit and is the only flushing agent bore in the drill bit. Drilling rig according to one of the preceding claims, characterized in that the drill bit is a stud bit. Drilling rig according to one of the preceding claims, characterized in that the first cavity space (22, 24; 122, 128, 124) is adapted to convey about half or less of the rinsing agent to the work surface (18; 118). A drilling rig according to claim 9, characterized in that the first cavity space (22,24 to 122,128,124) is adapted to convey about 25% of the rinsing agent to the work surface. 11 11 69183