JPH0610582A - Drill bit - Google Patents

Abstract

PURPOSE: To allow easy replacement of drill bits by providing a plurality of recesses acting as a stopper as well at the tip end of a drill head, in which a cutting bit comprising a chip of a hard metal, etc., is detachably attached to be shrinkable in diameter. CONSTITUTION: A cutting bit 7 comprising a chip 3 of a hard metal, etc., is installed with an eccentric axis, for free rotation, in a plurality of recesses 6 provided at the tip end of a drill head 1 which bores a rock, etc., and at boring, the bit 7 is protruded above the head 1 for cutting. The recess 6 is so formed that a side wall also acts as a stopper at rotation of the bit 7, with the head 1 and bit 7 detachably attached using a spring ring. Further, the recess 6 is provided with an opening 13 for jetting a rinsing agent to remove chips while to cool the drill. At taking out, the bit 7 is housed in the recess 6. Thus, replacement of the bits 7 is quickly and easily performed.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention comprises a head having a hard metal pin or the like mounted thereon and a shaft having means for supporting the head and providing a non-rotatable connection to a driven inner drill rod. And a drill bit for capping drilling, which further comprises at least one cleaning agent conduit.

[0002]

BACKGROUND OF THE INVENTION For a great variety of reasons, there is an ever-increasing trend and demand for changing cables from open to secret methods for the installation of cables, conduits and others, which is a fact. Increasingly demanding new and productive drilling methods and the use of tools. In this regard, conventional hammers, originally designed for use in quarries, have become increasingly important due to their outstanding performance and their ability to be used in extreme rock conditions.

The prior art uses two different methods in capping drilling. On the one hand, a drilling rig for capping drilling consists of an outer drill rod in which the drilling material is flushed with water and which carries an annular drill bit and an inner drill which extends into the outer drill rod and carries a central solid drill bit. A rod, a first rotary drive for rotating the inner drill rod, and a second rotary drive for rotating the outer drill rod, wherein these two rods are attached to the driven advance device. It is known (German Patent 2924393). On the other hand, it is known to use eccentric drilling rigs.
A known eccentric drilling device is disclosed in DE 3024102, in which an eccentric drill bit is eccentrically clamped and fixed to the end of an outer drill rod to obtain a drilling diameter larger than the outer diameter of the outer drill rod. I am trying. After the clamping lock is released, the eccentric drill bit can be withdrawn with the inner drill rod through the outer drill rod.

In either case, in capping drilling a drill hole is created whose diameter is larger than the outer diameter of the rod to be introduced. Conveniently this takes the form of the outer drill rod of the particular drilling rig, in the case of the first other drilling device mentioned above, at least in the drilling of blind holes, the annular drill bit carried by the outer drill is eliminated. In any case, the distance between the outer drill rod and the actual drill head should always be relatively small so as to prevent premature depression of the borehole wall. A suitable flushing agent, such as air or a water-oil emulsion, is flushed at the deepest part of the drill hole, preferably through an inner drill rod, to remove drilling material. This drilling sludge, consisting of the drilling material and the flushing agent, is flushed out of the drill hole via the annular space between the inner and outer drill rods.

[0005] The two different devices for capping drilling described in the above details have certain disadvantages in that, for example, the concentric arrangement of a rigid drill bit of an annular shape does not necessarily lead to very high wear, especially on an annular drill bit. Has the drawback that In addition, frequently consumed annular drill bits are more expensive to manufacture, because extremely hard materials must be used and cannot be replaced during the drilling operation. If an eccentric drill bit is used, it deviates relatively far from directional accuracy and only very poor cutting performance is obtained.

[0006]

SUMMARY OF THE INVENTION It is therefore an object of the present invention to construct a drill bit such that the drill bit can be repeatedly removed from the drill hole, and more particularly for replacement, while still achieving a majority of overlap. And to develop further.

[0007]

SUMMARY OF THE INVENTION According to the invention, the above object is based on the invention that the head has a plurality of recesses distributed over its periphery, in which a rotatable bit is located.
Characterized by being located within the range of the diameter of the drill bit when rotated inward and protruding by a predetermined amount beyond the diameter of the drill bit when rotated outward. Achieved by composition. According to the invention, the annular space required around the actual drill bit for the rod can also be drilled with the drill bit turned outwards. Nevertheless, by virtue of this pivotability, the entire drill bit with the drill bit pivoted inwards also
It can be pulled out of the borehole through the outer drill rod.

The present invention also has the economic advantage that, unlike non-replaceable annular drill bits, individual rotatable bits can be replaced quickly and easily. Proper selection of materials can achieve significant savings due to possible reductions in service life.

As already mentioned, the recesses for the rotatable bit are distributed symmetrically over the circumference of the head. Advantageously, each drill bit has an eccentrically arranged shaft, in the recess of which the drill bit has a number of receiving holes for receiving the shafts of the individual rotatable bits. More preferably, at least one of the receiving hole and the pivotable bit has means for interconnecting them. This is important because the drill bit must be returned to its original position from the drill hole so that the pivotable bit is located in the drill bit. It has been found to be particularly advantageous if an annular groove is formed in each receiving hole of the drill bit and the shaft of each rotatable bit has an enlarged portion which corresponds to this groove. Particularly convenient from a manufacturing standpoint, this enlarged portion is in the form of a spring ring arranged in a groove formed in the shaft.

In order to be able to define a precisely predetermined drilling diameter, the drill bit is advantageously provided in its recess with means for limiting the pivotable bit which is pivoted outwards. Have. According to another characteristic of the invention, the side wall defining the recess is a means provided for limiting the pivotable bit which is pivoted towards this outside. In this way, a reliable stop is obtained for the pivotable bit which is pivoted outwards towards the operating position without additional structural expense.

According to another characteristic of the invention, the flushing agent conduit of the shaft of the drill bit branches off towards the individual recesses for the pivotable bit. It has been found that the swivel bit does not need to be provided with flushing agent conduits if the flushing agent conduits terminate in individual recesses. Advantageously, the openings of the flushing agent conduits in the recesses are arranged such that they are covered by a pivotable bit which is pivoted inward. Conveniently, according to another feature of the invention, each recess has two flush holes which end with a central flush conduit arranged on the shaft and whose opening is outward, i.e. each pivot. It is facing the direction of rotation of the adjustable bit. This feature of the invention not only achieves sufficient drilling tool cooling and flushing of the excavation, but also that the flushing agent pressure is primarily due to the friction of the pivoting bit's cutting accessory against the deepest part of the drill hole. The engagement enhances the outward rotation that occurs during excavation. In addition, the recessed part is always kept free of excavation sludge, etc., so that the rotatable bit can be securely inserted into the recess by slightly rotating the inner drill rod in the opposite direction from the excavating direction. It can be rotated to.

[0012] Further advantageously, according to another feature of the invention, the cutting surface of each rotatable bit is chamfered at the portion of maximum drilling diameter so that the rotatable bit faces outwards,
That is, it is pivoted to the edge of the "enlarged" excavation diameter. This structure has a favorable effect on the distribution of stress in the borehole wall, which also prevents undesired depressions in the borehole wall.

[0013]

Embodiments of the present invention will be described in more detail below with reference to the drawings.

The drawing shows a drill bit for capping drilling, which mainly consists of a head 1 and a shaft 2. The head 1 of the drill bit according to the invention is fitted with a pin 3 of hard metal, as is known. The shaft 2 is non-rotatably connected to a driven inner drill rod (not shown), so that a recess 4 (FIG. 3) is provided.

A flushing agent conduit 5 extends through the shaft 2 and the head 1 inside the drill bit of the present invention,
This conduit 5 is supplied with a flushing agent for flushing the drilling material from a flushing agent conduit which extends into the inner drill rod.

According to the invention, the head 1 has a number of recesses 6 which are symmetrically distributed over its periphery. In the preferred embodiment shown, three recesses 6 are provided in which a rotatable bit 7 is located within the diameter of the drill bit when rotated inwards It is arranged so as to protrude by a predetermined amount over the diameter of the drill bit when it is turned toward. FIG. 1 shows all three bits rotated outward, but in order to make them clearer, FIG. 2 shows one of the three rotatable bits 7 is recessed. 6 is shown in a position pivoted inward into 6. The embodiment shown is a small structure of the drill bit according to the invention, the diameter of the drill head is 88 mm, but with the rotatable bit 7 rotated outwards,
The drilling action takes place with a "widened" drilling diameter of mm. As can be readily seen, the larger structure can accordingly have a greater number of pivotable bits 7.

According to a further feature of the invention, each pivotable bit is fitted with an eccentrically arranged shaft 8 and the drill bit is seen more clearly in FIGS. A number of receiving holes 9 for receiving the shafts 8 of the individual rotatable bits 7 as
have.

In order to rigidly connect the head 1 of the drill bit to the individual rotatable bits 7, the receiving hole and the rotatable bit 7 have means for interconnecting them. In the embodiment shown, an annular groove 1 is provided in each receiving hole 9 of the drill bit.
0, while the shaft 8 of each rotatable bit 7 has an enlarged portion that engages with this groove 10. Conveniently, the enlarged portion is in the form of a spring ring 11 arranged in a groove 10 'formed in the shaft 8. In order to ensure a well-defined outward rotation of the individual rotatable bit 7, the recess 6
The side wall 12 defining the partition acts as a means of limiting the pivotable bit 7 which is pivoted outward, as can be seen particularly clearly from FIGS. In the embodiment shown, hard metal pins 3 are distributed symmetrically over the head 1 and the three rotatable bits 7. However, hard metal pin 3
It is also advantageous to arrange symmetrically, especially on the rotatable bit. Particularly conveniently, the rotatable bit 7 is swiveled outward at the maximum excavation diameter and each swivel bit 7 is provided with a chamfered cutting surface 14 as shown in FIG.

Finally, the drawing shows the opening 1 of the flushing agent conduit 5.
3 is a rotatable bit 7 whose openings are rotated inward.
It is shown that it is arranged in the recess 6 so as to be covered by. More specifically, FIG. 4 shows that each recess 6 has two flush holes 5A and 5B, which holes 5A and 5B end at the central flush conduit 5 of the shaft 2 and its opening 13.
Are oriented outward, that is, in the direction of rotation of each rotatable bit 7. For this purpose, in the shaft 2 of the drill bit a flushing agent conduit 5 branches off towards the individual recesses 6 for the pivotable bit 7, as can be clearly seen from FIG.

[Brief description of drawings]

FIG. 1 is a perspective view of a drill bit of the present invention having three pivotable bits that are pivoted outward.

2 is a plan view of the drill bit of FIG. 1 with one of the three rotatable bits rotated inwardly; FIG.

FIG. 3 is a longitudinal sectional view of the drill bit of the present invention having no rotatable bit, taken along line III-III in FIG.

4 is a cross-sectional view of the drill bit of the present invention taken along line IV-IV in FIG.

FIG. 5 is a vertical cross-sectional view of one of the rotatable bits associated with the drill bit of the present invention.

[Explanation of symbols]

 1 ... Head 2 ... Shaft 3 ... Hard metal pin 4 ... Recess 5 ... Rinse agent conduit 6 ... Recess 7 ... Rotatable bit 8 ... Shaft 9 ... Receiving hole 10 ... Groove 11 ... Spring ring 12 ... Side wall 13 ... Opening 14 ... Cutting surface

Claims (11)

[Claims] 1. A head having a hard metal pin or its equivalent attached thereto and a shaft for supporting the head,
A drill bit for capping drilling, wherein said shaft has means for non-rotatably connecting to a driven inner drill rod and further has at least one flushing agent conduit, said head (1) extending over its periphery. A rotatable bit (7) having a plurality of distributed recesses (6) is located within the diameter of the drill bit when it is rotated inward and is rotated outward. A drill bit, characterized in that it is arranged in the recess (6) so as to project by a predetermined size exceeding the diameter of the drill bit in the state. 2. Each of the drill bits (1) has an eccentrically arranged shaft (8), in the portion of the recess (6) the drill bits being the shaft (8) of the individual rotatable bit (7). Drill bit according to claim 1, characterized in that it has a number of receiving holes (9) for receiving (1). 3. Means (10, 10) for interconnecting at least one of the receiving hole (9) and the rotatable bit (7).
11) The drill bit according to claim 1 or 2, characterized in that 4. An annular groove (10) is formed in each receiving hole (9) of the drill bit, and the shaft (8) of each rotatable bit (7) has an enlarged portion that matches the groove (10). The drill bit according to claim 2 or 3, wherein 5. Drill bit according to claim 4, characterized in that the enlarged portion is in the form of a spring ring (11) arranged in a groove (10 ') formed in the shaft (8). 6. A drill bit is provided in the recess (6),
Drill bit according to one of claims 1 to 5, characterized in that it comprises means for limiting the pivotable bit (7) pivoted outwards. 7. The side wall (12) defining the recess (6) comprises:
7. Drill bit according to claim 6, characterized in that it is a means provided to limit a pivotable bit (7) pivoted outwards. 8. The flushing agent conduit (5) of the shaft (2) of the drill bit branches off towards the individual recesses (6) for the rotatable bit (7). A drill bit according to any one of items 1 to 7. 9. A rotatable bit (7) in which the opening (13) of the flushing agent conduit (5) of the recess (6) is pivoted inward.
9. The drill bit according to claim 8, wherein the drill bit is covered with. 10. Each recess (6) ends with a central flushing agent conduit (5) provided in the shaft (2) and its opening (13) is outward, ie each pivotable bit (7).
2 flush holes (5A, 5A)
Drill bit according to claim 8 or 9, characterized in that it comprises B). 11. Each rotatable bit (7) has a chamfered cutting surface (14) at the portion of maximum drilling diameter where the rotatable bit (7) is pivoted outward. Drill bit according to one of the claims 1 to 10, characterized in that