DE2059232B1 - Rock drill - Google Patents

Description

In this case, those formed between the side flanks and the base of a worm thread are located Angle in the ratio of complementary angles to each other.

In Fig. 2 shows a cross section through a turn of the screw conveyor, the following dimensions being selected in a preferred embodiment of the invention, based on the overall diameter D of the drill shank; the depth T of the worm thread is about 0.2 to 0.3 D. With small drills this value is at the lower limit, with larger ones at the upper limit. The thickness S of a screw turn on the outer circumference is preferably about 0.07 to 0.2 D. The angle χ is preferably 4 to 7 ° and the angle β is preferably 15 to 20 °.

1 sheet of drawings

Claims (4)

side flanks converging at an angle to a large extent. Although this proposal enables a very high delivery rate; however, the 1. Rock drill for rotary percussion drill- the disadvantage taken into account that the auger nails with a full shaft designed as a single or double-thread conveyor windings in the vicinity of the transition area to the worm, in which the drill core is at its weakest, where the base of each worm thread, based on the load-bearing capacity of the windings and the gate, any axial section through the drill bit, sion load-bearing capacity of the drill bit, runs parallel to the drill bit axis and the side of the base surface is the same are aligned, formed asymmetrically. The drill dust is characterized by the fact that the lateral flank is slightly undercut opposite the lateral surface of the lent flank (3, 4) of the worm thread (a; b) and is inclined towards the base surface (2) and rounded off the drill core. The other side flank, the flank (3) facing the drill tip, each 15 is designed as a curve spanning the entire worm thread to the drill core worm thread (a; b) with the base (2) so that it includes an acute angle (γ) . Base area of the worm gear essentially 2. Rock drill according to claim 1, characterized in that a cone narrowing towards the drill tip is characterized in that the jacket surface between the drill bit. This known rock drill has a pointed side flank (3) facing each screw, although a good load-bearing capacity of its screw thread (a; b) and one turns that are perpendicular to the drill axis is sufficient; the space for the uptake of the drilling plane formed angle (α) is smaller than Mehls but is relatively small due to the curve-like formers with such a plane and that of the drill earthing of a side flank, where- | pointed side flank facing away (4) formed by the conveying capacity for the drilling dust angle (/ J). 25 reduced. 3. Rock drill according to claim 2, characterized in that the invention is based on the object, characterized in that the smaller angle (α) approximately rock drill of the type mentioned above to sheep-4 to 7 °, the larger angle (ß) about 15 to 20 ° fen, which has the advantages of a good delivery rate and amounts. a good load-bearing capacity of its auger 4. Rock drill according to one of claims 1 30 gene combined. to 3, characterized in that the lateral The invention solves this problem in that Flanks (3, 4) towards the base (2) opposite the lateral flanks of the worm thread are rounded. the base are inclined and that of the drill acute facing flank of each worm thread with 35 of the base includes an acute angle. This training represents an almost ideal compromise compared to the prior art. The parallelism of the base of the worm gear to the drill axis creates the conveying space The invention relates to a rock drill for 40 compared to the known rock drill enlarged; Rotary percussion drilling machines with a single or inclined formation of the side flanks is a double-flighted screw conveyor designed as a solid- the drill dust better in the area of the worm thread, in which the base of each worm is held, than in the known rotary and thrust thread, based on one any axial section drill is the case; Due to the approximately parallel running Λ through the drill, parallel to the drill axis 45 fend the side flanks of the worm threads, the ™ and the lateral flanks of the worm thread root cross-section of the worm threads are enlarged compared to the base area and thus their load-bearing capacity compared to the. older proposal, increased. To be used as a rotary and impact drill in the drawing, an embodiment of the the drill of the type mentioned form the 50 invention shown. It shows lateral flanks of the worm thread to its F i g. 1 a shank portion of the rock drill Base vertical surfaces. Through this out in the view, with the upper half in section formation of the worm thread can be shown in the drill dust, be ejected from this unhindered; 2 shows a section according to FIG. 1 in then settles between the drill and the borehole from 55 onwards. and in this way increases the circumferential friction of the In Fig. 1, the drill shaft is a two-start Drill. Conveyor screw shown. The two gears are To increase the conveying capacity of a rock - designated with α and b . The drill core 1 drill has already been proposed that the base surface 2 of the worm threads bordering both sides is essentially symmetrical to one another and is shown in section as a parallel to the drill longitudinal axis; formed flanks of the worm thread with which the base surface has a cylindrical shape. The outer surface of the side is at an acute angle, 3 and 4 of the worm threads are oppositely closed and inclined in a manner known per se towards the drill core, namely rounded off. The fact that in this case, with a proposal perpendicular to the drill axis, both flanks are undercut a pointed surface pointing to the drill tip with a suggestion perpendicular to the drill axis, the space for the angle α or β is included. The embodiment of drilling dust has an optimal size, and an outward of the rock drill according to the invention can be thrown out so that the drilling dust is selected because of the outward direction that the angles α and β are equal.