DE20017358U1 - Rotary drill pipe - Google Patents

Description

Rotary drilling rigs

The invention relates to a rotary drilling rod according to the features in the preamble of claim 1.

From DE-PS 1 236 443 a rotary drilling rod made of longitudinally channeled, detachably joinable drilling rods with circumferential spirals is known. Each drilling rod of this rotary drilling rod has a polygonal pin at one end with a snap pin that can be moved transversely against the restoring force of a spring and at the other end a polygonal holder adapted to the polygonal pin with an opening in the wall of the drilling rod.

When two boring bars are put together, the polygonal pin on one boring bar is inserted into the polygonal holder on the other boring bar until the snap pin, which was initially pressed into the polygonal pin against the restoring force of the spring, is displaced radially outwards again in the area of the opening by the spring force. The two boring bars are then locked together.

Telephone (0234) 51957/58/59 ■ Fax (0234) 51 05 12 ■ e-mail: bochumpatent@t-online.de

Commerzbank AG Bochuän* "KoIiWNr. 3.884,7.92^BLo 4304&THgr;0 36)·· · Aostbaak Essen, Kpnt<j-Nr,7447-431 (BLZ 36010043) jj I** .* : ;L{STJldNr.?DE _# >241464*ii.. _> *..* II &Iacgr;

The transmission of the drilling parameters - torque, pressure and tensile force of the drive machine - takes place via the connections of the drill rods to the cutting tool, where the conversion into drilling work takes place. In this context, the torque is transmitted via the polygonal pins and polygonal holders. The pressure force is transmitted via the circular end faces at the ends of the drill rods. The tensile force is transmitted when the drill rods are withdrawn from a borehole via the snap pins in the openings that are formed in the walls of the drill rods in the area of the polygonal holders.

In practical use of a rotary drill rod, when the drill rods are rotated back, particularly in non-linear bores, there are often minimal relative movements between the snap pins and the contact surfaces in the openings of the polygonal holders. As the drill rods continue to rotate, these relative movements lead to a gradual displacement of the snap pins into the polygonal pins against the restoring force of the springs, until the snap pins leave the openings. When the drill rods are returned, the drill rods separate, with the result that some of the drill rods remain in the borehole.

Based on the prior art, the invention is based on the object of creating a rotary drill rod in which the connection of the drill rods is secured even during rotating retraction of the drill rods.

According to the invention, this problem is solved by the characterizing features of claim 1.

Due to the groove at the radially outer end of a snap pin and the wall thickness of a drill rod in the area of the opening, which is adapted to the width of this groove, the rotating retraction of the drill

&bull; · &diams;

rods to a positive engagement of the reduced-thickness walls in the grooves, so that no relative movements can occur between the snap pins and the contact surfaces of the openings. The snap pins cannot slide out of the openings against the restoring forces of the springs. The connections between the drill rods are maintained. Drill rods are not lost.

In a preferred embodiment, according to claim 2, the drill rod is flattened on the circumference in the area of the opening and this flattening adjusts the wall thickness to the width of the groove in the snap pin. This flattening can be about half the original wall thickness, so that the generally rounded free face of the snap pin does not protrude at all or only insignificantly beyond the circumference of the drill rods when two drill rods are coupled.

The invention is explained in more detail below using an embodiment illustrated in the drawings.

Figure 1 in side view, partly in section, a drill rod for

a rotary drill rod;

Figure 2 shows an enlarged vertical section of the

Coupling area of two joined boring bars (without helix);

Figure 3 shows an enlarged view of section III of Figure 1 and

Figure 4 is a plan view of the representation of Figure 3 in the direction of the

Arrow IV.

In Figure 1, 1 denotes a drill rod of a rotary drilling rod (not shown in detail) for drilling in mining, tunnel construction, etc. The drill rod 1 consists of a tubular length section 2, a polygonal pin 3 at one end, a

Multi-edge holder 4 at the other end and a circumferential helix 5. The entire drill rod 1 is longitudinally channeled.

The polygonal pin 3 is fixed in the longitudinal section 2. The polygonal holder 4 is located in an attachment piece 6, which is attached to the front of the longitudinal section 2. The helix 5 extends between the circular end faces 7, 8 of the boring bar 1.

As can be seen in more detail in Figures 1 and 2, a snap pin 9 is mounted in the polygonal pin 3 so that it can move transversely against the restoring force of a spring 10 designed as a helical compression spring. The snap pin 9 is guided with a cylindrical longitudinal section 11 in a transverse bore 12 in the wall 19 of the polygonal pin 3. A stop plate 13 in the interior 14 of the polygonal pin 3, the diameter of which is larger than the cylindrical longitudinal section 11, prevents the snap pin 9 from protruding radially outwards. At the other end, the snap pin 9 has a circumferential groove 15. The head 16 of the snap pin 9 is rounded.

The spring 10 is supported on the one hand on the stop plate 13 of the snap pin 9 and on the other hand on a disk 17 which is fixed in a stepped bore 18 which is formed in the wall 19 on the side of the polygonal pin 3 diametrically opposite the snap pin 9. The smallest diameter of the stepped bore 18 is so large that the stop plate 13 can be guided through.

From Figures 1 to 4 it can be seen that an opening 21 with an oval cross-section is formed in the wall 20 of the extension piece 6 of the polygonal holder 4. Viewed in the longitudinal direction of the drill rod 1, the opening width of the opening 21 corresponds approximately to the diameter of the rounded head 16 of the snap pin 9.

Furthermore, it can be seen from Figures 1 to 4 that the wall thickness WD of the extension piece 6 in the area of the opening 21 is reduced by approximately half

is reduced. The wall thickness WD1 here corresponds to the width B of the groove 15 on the snap pin 9. The reduced wall thickness WD1 is produced by a circumferential flattening 22.

The transmission of the rotational force from a drive machine at one end of the rotary drill rod to a cutting tool at the other end is effected via the polygonal pins 3 and the polygonal receptacles 4 of the drill rods 1.

The pressure force is transmitted via the annular end faces 7, 8.

The tensile force transmission (arrows PF and PF1 in Figure 2) is effected with the snap pins 9 and the openings 21, whereby it can be seen in particular from Figure 2 that the area 23 of the wall 20 of the extension piece 6, which has been reduced in wall thickness WD1 by the flattening 22, now engages in the groove 15 of the snap pin 9 when subjected to tension. This has the consequence that even when the drill rods 1 are retracted in a rotating manner, no snap pin 9 can move into a polygonal pin 3, so that the connection between two consecutive drill rods 1 is also maintained during retraction.

Reference symbol list

1 - Drill rod

2 - Length section &ngr;.

3 - polygonal tenon &ngr;.

4 - Multi-edge holder in

5 - Helix on 1

6 - Attachment with

7 - Frontal area v.

8 - Frontal area v.

9 - Snap pin

10- Spring

11- cylindrical length section v.

12- Cross hole in

13- Stop plate v.

14- Interior v. 3

15- Groove on 9

16- Head of 9

17- Disc

18- step bore

19- Wall of 3

20- Wall of 6

21 - Breakthrough

22 - Flattening

23 - Area of

B - Width of 15 PF- Arrow
PF1 - Arrow

Claims (2)

1. Rotary drilling rod made of longitudinally channeled, detachably joinable drilling rods ( 1 ) with circumferential spirals ( 5 ), each drilling rod ( 1 ) having at one end a polygonal pin ( 3 ) with a snap pin ( 9 ) that can be displaced transversely therein against the restoring force of a spring ( 10 ) and at the other end a polygonal receptacle ( 4 ) adapted to the polygonal pin ( 3 ) with an opening ( 21 ) in the wall ( 20 ) of the drilling rod ( 1 ), characterized in that the snap pin ( 9 ) is provided with a circumferential groove ( 15 ) at the radially outer end and the wall thickness (WD1) in the region ( 23 ) of the opening ( 21 ) is matched to the width (B) of the groove ( 15 ) on the snap pin ( 9 ). 2. Rotary drilling rod according to protection claim 1, characterized in that the drilling rod ( 1 ) is provided with a circumferential flattening ( 22 ) in the region ( 23 ) of the opening ( 21 ).