OA21076A - Thread clearance. - Google Patents
Thread clearance. Download PDFInfo
- Publication number
- OA21076A OA21076A OA1202200518 OA21076A OA 21076 A OA21076 A OA 21076A OA 1202200518 OA1202200518 OA 1202200518 OA 21076 A OA21076 A OA 21076A
- Authority
- OA
- OAPI
- Prior art keywords
- thread
- female portion
- length
- female
- mounting sleeve
- Prior art date
Links
- 238000005553 drilling Methods 0.000 claims abstract description 17
- 239000011435 rock Substances 0.000 description 6
- 230000007423 decrease Effects 0.000 description 4
- 238000005452 bending Methods 0.000 description 3
- 238000005259 measurement Methods 0.000 description 2
- 230000003247 decreasing effect Effects 0.000 description 1
- 239000011796 hollow space material Substances 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 238000009527 percussion Methods 0.000 description 1
- 230000035939 shock Effects 0.000 description 1
Abstract
A female portion to form part of a thread joint for a percussive drilling tool comprising a mounting sleeve having an axial end, wherein the mounting sleeve surrounds an internal cavity having an axial inner wall at the opposing end of the mounting sleeve compared to the axial end; wherein the mounting sleeve has at least one substantially cylindrical internally threaded section having a length Li, a thread entrance towards the axial end and a thread exit towards the axial inner wall; a thread clearance section positioned between the axial inner wall and the thread exit having a length L2 and a diameter D1; a guiding section positioned between the thread entrance and the axial end of the sleeve having a length, L3; characterized in that: 0 mm < L3-L2 < 12 mm.
Description
Thread clearance
Technical field
The present invention relates to a female portion to form part of a thread joint for a percussive drilling tool, especially for, although not exclusively for drill bits and drill rods.
Background
Percussion drilling îs used to create a long borehole via a plurality of elongate drill string rods coupled together end-to-end by interconnected male and female threads. Alternatively, a drill bit may be connected to a single rod. The well-established technique breaks rock by hammering impacts transferred from the rock drill bit to the rock at the bottom of the borehole. The rock drill bit is mounted at one end of the drill string via a male thread on the endmost drill string rod to a female thread on the drill bit. Typically, the energy required to break the rock is generated by a hydraulicaîly driven piston that contacts the end of the drill string (via a shank adaptor) to create a stress (or shock) wave that propagates through the drill string to a drill bit. Conventional threaded joints are described in US 4,332,502; US 4,398,756; US 4,687,368 and DE 2800887.
Threaded joints in the percussive drilling tool, such as those between drill string rods and between the endmost drill string rod and the drill bit are subjected to bending forces during drilling from the stress waves that propagate the drill string. These bending moments fatigue the threaded joints and lead to breakage within the threaded portion of the joint.
Eventually the stress will cause the threaded joint to get worn out and eventualîy fail.
Therefore, it is désirable to reduce the stress in the threaded joint to improve the performance of the percussive drilling tool and reduce the risk of the failure in the threaded joint. One solution to reducing stresses in the threaded joint is to increase the diameter of the male thread, however the problem with this is that it weakens the female part of the threaded joint meaning it is more likely to break. Consequently, the problem to be solved is how to decrease stress in the threaded joint to therefore increase their lifetime.
Summary
It îs an objective of this invention to provide a novel and improved design for threaded joints for percussive drilling tools. The objective is achieved by providing a female portion to form part of a thread joint for a percussive drilling tool comprising: a mounting sleeve having an axial end, wherein the mounting sleeve surrounds an internai cavity having S an axial inner wall at the opposing end of the mounting sleeve compared to the axial end; wherein the mounting sleeve has at least one substantially cylindrical internally threaded section having a length Li, a thread entrance towards the axial end and a thread exit towards the axial inner wall; a thread clearance section positioned between the axial inner wall and the thread exit having a length L2 and a diameter Di; a guiding section positioned between the thread entrance and the axial end of the sleeve having a length, L3;
characterized in that: 0 mm < L3-L2 < 12 mm. More preferably, 5 mm < L3-L2 <11.5 mm, even more preferably 7 mm< L3-L2 <11.1 mm.
Advantageously, this reduces the stress in the female portion ofthe threaded joint, meaning the risk of breakages in the female portion is decreased. Furthermore, if the stress 15 in the female portion is increased then the diameter ofthe male threaded part can be increased which improves the performance of the percussive drilling tool.
Preferably, Li is between 25-56 mm, more preferably between 30-45 mm. Preferably, the total length ofthe female thread (Ll + L2 + L3) is between 70 to 86 mm. Advantageously, this is the most optimal length of threaded section for increased performance.
Preferably, Lz/Li > 0.01X Di. Advantageously, by increasing the ratio ofthe length of the thread clearance area compared to the length of the threaded section means that the stress in thread clearance area decreases.
Preferably, L2 / Li > 26%, more preferably L2 / Lj > 32%. Advantageously, increasing 25 the ratio of the length of the thread clearance area compared to the length of the threaded section means that the stress in thread clearance area decreases.
Preferably, L: / Li <65%, more preferably <50%. Advantageously, this provides sufficient length in the threaded section to achieve a secure threaded connection.
Preferably, L2 / Di > 30%, more preferably Li/ Di > 38%. Advantageously, increasing the ratio of the length of the thread clearance area compared to the diameter of the threaded section means that the stress in thread clearance area decreases. Therefore, the diameter of the thread clearance and female thread can be increased and consequently so 5 can the diameter of the male part, which leads to increased performance of the male part and less risk of skirt failures in the female part.
Preferably, L2/ Di< 65%, more preferably < 50%. Advantageously, this enables a secure threaded connection.
In one embodiment, the female portion is a drill bit. In an alternative embodiment, 10 the female portion is a female end of a drill string rod.
Brief description of the drawing
A spécifie implémentation of the present invention will now be described, by way of example only, and with reference to the accompanying drawings:
Figure 1; Perspective view of a percussive drilling tool having one male and one female end.
Figure 2: Perspective view of a drill rod having two male ends.
Figure 3: Cross section of the female end of a drill rod.
Figure 4: Cross section of a drill bit.
Figure 5: Cross section of an internai profile of the cavity of the female portion to form part of a thread joint for a percussive drilling tool.
Oetailed description
Figure 1 shows a percussive drilling tool 2 whereby a drill rod 4 is threadedly coupled to a drill bit 6 of conventional design. The percussive drilling tool 2 is especially used for top hammer drilling. Shockwaves generated by a surface piston (not shown) are translated through the mated surfaces from the drill rod 4 to the drill bit 6. The drill rod 4 comprises an 25 axially extending main length section 8 that is terminated at one end by a male end 10 and at a second opposite end by a female end 12 having a longitudinal axis 14. The drill rod 4 is capable of being coupled end-to-end with other further drill rods to form a drill string (not shown) via another thread joint. Figure 2 shows that alternatively the drill bit 6 may be connected to a single drill rod 4 having two male ends 10.
Figure 3 shows a cross section of the female end 12 of the drill rod 4 having a mounting sleeve 18 and an internai cavity 20, which is a hollow space, for receiving the male 5 end 10 of the drill rod.
Figure 4 shows a cross section ofthe drill bit 6 comprising an axially forwardmost drill head 16 of convention design for example comprising a rock crushing means, most typically this is a plurality of wear résistant cutting buttons projecting axially forward from the drill head (not shown); a mounting sleeve 18 that comprises an axially extending internai 10 cavity 20 for receiving the male end 10 of the drill rod 4.
The present invention relates to a spécial design for a female portion 22 that forms part of a thread joint for a percussive drilling tool 2. The female portion 22 could be either the female end 12 on the drill rod 4 or the drill bit 6.
Figure 5 shows a cross section of an internai profile of the cavity 20 of the female 15 portion 22, in other words figure 5 is an enlargement ofthe interior of figure 3 or figure 4.
The cavity 20 has an axial inner wall 24 for abutment with a male end 10 of a drill rod 4. Further, the cavity 20 has at least one substantially cylindrical internally threaded section 26 having a thread entrance 28 at the axially opposite end compared to the axial inner wall 24 and a thread exit 30 nearer to the axial inner wall 24. The threaded section 26 has a length, 20 Li, which is defined as the length between the thread entrance 28 and the thread exit 30.
The cavity 20 of the female portion 22 also has a thread clearance section 32 positioned between the axial inner wall 24 and the threaded section 26. The thread clearance section 32 is cîrcumferential concave recess. The thread clearance section 32 has a length, 12, which is defined as the length between the thread exit 30 and the axial inner wall 24. The thread 25 clearance section has a diameter, Di. There is a guiding section 50 on the opposing end of the threaded section 26 compared to the thread clearance section 32 for guiding the male end 10 of the rod 4 into the correct position. The guiding section 50 has a length, L3, which is defined as the length between the thread entrance 28 and an axial end 52 of the sleeve 18. The guiding section 50 can either be a constant diameter across the whole of the guiding 30 section 50 or it could optionally be stepped so that it has at least two different diameters.
Compared to conventional designs the ratio Li compared to Li and / or L3 has been increased.
L3 - L2 for female portions 22 according to the present invention is <12 mm, more preferably <11.5 mm, even more preferably <11 mm. I3 - Li for female portions 22 according to the present invention is >0 mm, more preferably >5 mm, even more preferably >7 mm. In one embodiment Li is between 25-56 mm, more preferably between 30-45 mm.
In one embodiment L2/Ll>0.01x Di.
In one embodiment Li / Li > 26%, more preferably >32%.
In one embodiment L2 / Li <65%, more preferably <50%.
In one embodiment L2 / Di > 30%, more preferably >38%.
In one embodiment L2 / Di < 65%, more preferably <50%.
Preferably, the female portion 22 is used for forming a thread joint 34 for a percussive drilling tool 2 wherein there is a bottom contact, as opposed to a shoulder contact, between female portion 22 and the male end 10 of the adjoining rod. In other words, there is contact between the axial inner wall 24 on the female portion and the male end 10 of the adjoining rod 4.
Software simulation programming with bending force added to the female portion 22 of inventive and non-inventive female portions was performed. Table 1 shows a summary of stress measurements for prior art and inventive female portions 22, it can clearly be seen that the stress in the région of the thread clearance is lower for the inventive samples.
Example | Di (mm) | L3-L2(mm) | Stress (MPa) in the région ofthe thread clearance on the female portion of a threaded joint. |
1 (prior art) | 33.1 | 12.7 | 305 |
2 (invention) | 33.1 | 11.0 | 290 |
3 (prior art) | 36.5 | 14.3 | 300 |
4 (invention) | 36.5 | 10.5 | 275 |
Table 1: Summary of stress measurements
Claims (11)
1. A female portion (22) to form part of a thread joint (34) for a percussive drilling tool (2) comprising:
a mounting sleeve (18) having an axial end (52), wherein the mounting sleeve (18) surrounds an internai cavity (20) having an axial inner wall (24) at the opposing end of the mounting sleeve (18) compared to the axial end (52);
wherein the mounting sleeve (18) has at least one substantially cylindrical internaily threaded section (26) having a length Li, a thread entrance (28) towards the axial end (52) and a thread exit (30) towards the axial inner wall (24);
a thread clearance section (32) positioned between the axial inner wall (24) and the thread exit (30) having a length Lz and a diameter Di;
a guiding section (50) positioned between the thread entrance (28) and the axial end (52) of the sleeve (18) having a length, L3;
characterized in that:
0 mm < L3-L2 < 12 mm.
2. The female portion (22) according to claim 1, wherein Li is between 25-56 mm.
3. The female portion (22) according to claim 1 or claim 2, wherein Lz/Li>0.01x Di.
4. The female portion (22) according to any of the previous claims, wherein L2 / Li > 26%.
5. The female portion (22) according to any of the previous claims, wherein L2 / Li <65%.
6. The female portion (22) according to any of the previous claims, wherein L2 / Di > 30%.
7. The female portion (22) according to any ofthe previous claims, wherein Lz / Di < 65%.
8. The female portion (22) according to any ofthe previous claims wherein the female portion (22) is part of a drill bit (6).
9. The female portion (22) according to any of the previous claims wherein the female portion (22) is a female end (12) of a drill string rod (4).
10. A drill string rod comprising a female portion (22) according to any of claims 1-7.
11. A drill bit comprising a female portion (22) according to any of claims 1-7.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP20183128.6 | 2020-06-30 |
Publications (1)
Publication Number | Publication Date |
---|---|
OA21076A true OA21076A (en) | 2023-10-09 |
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