DE19541163A1 - Drilling tool, in particular for processing stone - Google Patents

Description

The invention relates to a drilling tool, in particular for a rotational impact for processing rock or the like according to the preamble of claim 1.

State of the art

Depending on the type of rock, Hole size so-called breakthrough drill with one type Cross head, as used for example in the U.S. Patent 4,262,762 or U.S. Patent 3,492,101 is shown. For Larger borehole diameters are so-called drill bits used, the cup-shaped housing with the front Tungsten carbide cutting inserts are assembled and the centric have an additional center drill. Even such Drill bits can be subjected to striking stress Be subjected to stone processing. To do this for example, to DE-U 85 21 577. Finally are common rock drills for the impact of Rock has become known as a one-piece (DE 43 14 868 A1) or an exchangeable conveying helix (DE 23 48 847).  

There is a rock drill with impact stress basically the problem that the drill head and especially the carbide cutting inserts of a high are subjected to mechanical and thermal stress. Furthermore, the tools must be in the drill head area as well as in the area of their spiral shaft and their Clamping to the hammer drill on the respective Conditions to be adjusted. This often leads to the fact that the drill head with the adjoining drill shank, the with or without conveying helix or with interchangeable Conveyor spiral can be equipped in two parts is. In all of the known rock drills mentioned above this exchange usually takes place through a Threaded connection between drill head and drill shank, where the threaded pin or threaded bolt with its external thread usually on the drill shank and the associated Threaded hole or nut with its internal thread in the Drill head are arranged. However, they are also executions became known in which the threaded pin on the drill head and the threaded hole on the associated threaded shaft are positioned. From DE 25 43 578 is a Breakthrough drill became known, the connection between Drill head and drill shank via a mere cone connection he follows.

The type of connection thread must be optimized depending on the application. Common thread types such as metric thread, trapezoidal thread, saw thread or even round thread are suitable for this. Each thread type has its specific properties and advantages. Round threads are used in particular where there is a high risk of contamination and damage. This can certainly be the case in the rough everyday operation of such drilling tools. According to the figure 3 of the above-mentioned US Pat. No. 4,262,762, a conventional round thread is also used in such a drilling tool.

These generally have advantages with regard to one Insensitivity to dirt and corrosion. Despite these conditions, they have to be easy to open and close be close.

Object and advantages of the invention

The invention is based on the object Rock drilling tool for a particularly striking Propose stress, its threaded connection especially between the drill head and the drill shank the prior art has been optimized so that considerable Advantages are achieved.

The object of the invention is characterized by the features of Claim 1 solved.

In the subclaims are advantageous and expedient Developments of the drilling tool according to the invention specified.

The invention is based on the main idea that Use of a modified round thread and thus one Special thread is generally advantageous to the occurring Soiling, corrosion or the like to be able to handle. A disadvantage of one species Round thread connections are, however, generally hereby associated transmission losses. These losses are all the more higher, the higher the impact energy to be transmitted Realizes frictional heat and sound energy. The frictional heat arises particularly in those contact sections that have a steep slope angle. This means that a high efficiency of the transmission of the impact energy the smallest possible pitch angle, i.e. one is as flat as possible. Losses through occurring sound energy are caused by excessive play and  the associated impact of the parts on each other evoked.

The use of a conventional round thread has the Advantage of being insensitive to dirt and there is corrosion. However, it has the disadvantage that the superimposed surface sections due to the constant curvature of the flank sections of the round thread are extremely low compared to a trapezoidal Threads with high surface areas on top of each other.

In particular, the surface sections with steepening Thread pitch in the round thread and the associated To eliminate the clamp connection, the invention provides that a modified round thread or a Special thread is used, in which in the area of Wave crests and / or the wave troughs of such a thread axially parallel threaded sections are provided, through which a round thread in these sections straightened axially parallel becomes. Axially parallel sections cannot namely axial Take up forces so that it is not in these thread areas to a deadlock and thus to an excessive Wear with appropriate heating of this Thread sections comes. The coordinated Thread sections of the external thread of the threaded pin and Internal threads of the threaded bore are designed such that they face each other on the side facing away from the direction of the force Thread groove over a high area similar to a trapezoidal thread and one form a continuous curve while the wave crests and troughs in particular for correct axial Leadership and not for axial power transmission due to their respective lateral flattening can be used. In the area the side of the thread direction facing the force groove can rather a game between the respective Thread pairing may be provided. This results in an optimal one  Relationship between power transmission and durability of the Systems.

The formation of the Threaded connection in that in particular the Belly of the threaded pin an axially parallel Has threaded section, as well as the alternative or additional axially parallel section in the trough of the Threaded pin covers a length range that is about 1/5 to 1/4 of the pitch of the thread. The associated Internal thread in the threaded hole is a mirror image formed, that is, the radially outer axially parallel section on the shaft crest of the threaded pin corresponds to an associated radially outer one axially parallel section in the trough of the internal thread.

The formation of the drilling tool according to the invention in that the Drill head an attached threaded pin with an external thread and the adjoining drill shank one has associated hole with internal thread. Such Arrangement has the advantage that the drill head does not go through an additional hole for receiving an internal thread is weakened, so that, for example, in the training of Invention as a core bit this area excellent for Inclusion of an inner hole for a center drill can be used.

It is also advantageous that the connection between A corresponding drill head and drill shank modified round thread according to the invention additionally high level of power transmission of the striking energy receives an all-round waistband. The between hole for that Internal thread and the outer diameter of the shaft part arranged circumferential collar with its circular surface supports large area on an opposite corresponding  Collar at the drill head to the axial impact energy in the high Transfer dimensions from the drill shank to the drill head. In in this case, the modified round thread is from a Energy transfer relieves and also serves to a large extent for axial guidance between the drill shank and drill head.

Further details of the invention are also from the Drawings can be removed, to which expressly hereby is referred. The following description will these drawings with further details and Advantages of the invention explained in more detail.

Show it

Fig. 1a, 1b an embodiment of a threaded connection between a drill shank ( Fig. 1a) and a drill head ( Fig. 1b) and

Fig. 2 is an enlarged view of the assembled thread sections over about a thread.

Description of the embodiment

In FIG. 1, a two-part drilling tool 1 is shown, for example, with a drill head 2 in Fig. 1b, as well as, for example, a drill shank 3 in Fig. 1a. The drill head 2 can comprise any other type of drill head and in particular a drill head as described in all of the prior art documents mentioned at the beginning. FIG. 1b indicated, for example, to the use of a drill bit down as a drill head.

Likewise, the drill shaft 3 can also comprise any boring bar or the like with or without an integrated conveying helix, wherein a separate attachable conveying helix could also be used, for example, with a cross boring head.

In the exemplary embodiment according to FIG. 1 b, the drill head 2 has a cup-shaped drill bit 4 , the drill bit shaft 5 of which is designed as a threaded pin or threaded bolt 6 . Likewise, the drill shaft 3 has an internal thread 7 which is designed as a threaded nut 7 and which interacts with the threaded pin 6 .

The threaded pin 6 and the threaded nut 7 have a modified round thread 8 , 8 '- hereinafter also referred to as "round thread" - with a thread pitch h and a thread depth t1. In Fig. 1a, an outer diameter D _{A of} the drill shaft 3 , a nominal diameter D _N and a core diameter D _{K of} the internal thread 7 is shown, the groove depth being t 1 = D _N - D _K. Likewise, an outer diameter d _{A of} the drill bit 4 , a nominal diameter d _N and a core diameter d _K for the threaded pin 6 are indicated in FIG. 1b, the groove depth t2 = d _N - d _K.

FIG. 1a also shows the borehole depth L1 and an axial inlet section L2.

Fig. 1b shows an entire pin length l1, a thread length l2 and a thread run-out length l3.

The round thread 7 shown in FIG. 1a has a radius of curvature R1. Furthermore, the lower inlet angle α1 for the round thread and the upper cone angle α2 for the cone tip are shown.

FIG. 1b shows the transition radius R2 to the encircling collar 9 between the drill bit and threaded stem 6. 4 The end thread runout of the threaded pin 6 has a pitch angle α3.

The collar 10 corresponding to the collar 9 of the drill head 2 on the end face of the drill shaft 3 has corresponding dimensions.

For a selected embodiment, those are above specified sizes compiled as an example.

The peculiarity of the modified round thread of the threaded pin 6 and / or the threaded nut 7 is that axially parallel sections are provided in the wave crests and / or in the troughs of the round thread as shown in FIGS. 1 and 2. For example, the threaded pin 6 has on its round thread 8 radially outer wave crests 11 and radially inner wave troughs 12 . Similarly, the internal thread 8 'of the threaded nut 7 radially inwardly projecting wave crests 11 ' and radially outwardly pointing wave troughs 12 '. In the exemplary embodiment according to FIG. 1b, the wave crests 11 each have axially parallel linear sections, that is to say the radially outer region of the round thread 8 of the threaded pin 6 is flattened and arranged parallel to the longitudinal axis of symmetry 13 . This axially parallel section is designated in FIG. 1b, FIG. 2 with reference number 14 with a width s1. In Fig. 1a, the radially inward wave crest 11 'of the round thread 8 ' there also has an axially parallel section 15 with the width s2. The shaft crest 11 of the round thread 8 of the threaded pin 6 thus acts together with its axially parallel section 14 with a corresponding axially parallel section 15 'in the trough 12 ' of the round thread 8 'of the threaded nut 7 , whereby in the remaining area of the thread, for example, a continuous curve such as one usual round thread may be present. Furthermore, however, an axially parallel section 15 of the radially inward-pointing crest 11 'of the threaded nut 7 can interact with a corresponding axially parallel section 14 ' in the trough 12 of the threaded pin 6 . Seen over the axial length, axially parallel sections 14 , 14 'of the crest 11 and the trough 12 of the threaded pin 6 or axially parallel sections 15 , 15 ' of the crest 11 'or the trough 12 ' of the threaded nut 7 respectively follow. Between these axially parallel sections 14 , 14 ', 15 , 15 ' there are continuous curves of the respective modified round thread 8 , 8 'whereby cavities 16 , 17 may also be formed. No forces can be transmitted in the axially parallel areas via an axial section s1, s2. This leads to a very significant reduction in the surface pressure of the threaded connection.

As can be seen in particular from FIG. 2 with the details described above, the threaded nut 7 lies with its round thread 8 ', in particular on the curve region 18 ' remote from the force P 'over an axial height region s3 closely and positively on the almost identical curve section 18 of the threaded pin 6 at. In this area 18 , 18 'with a continuous curve, the force transmission takes place with the impact stress.

The lying below the axially parallel section 14 curve region 19 of the threaded pin 6 and the associated curve section 19 'of the threaded nut 7 may have a cavity 20 or gap 20 , that is, no force transmission takes place in this area. The same applies to the curve area above the axially parallel section 15 of the threaded nut 7 .

The power transmission and, in particular, optimal guidance between the drill head 2 and drill shank 3 therefore takes place via the round thread 8 , 8 ', each with axially parallel surface sections 14 , 14 ', 15 , 15 'on the respective wave crests 11 , 11 ' or the wave troughs 12 , 12 ' , or over the rest of the curve 18 , 18 'and 19 , 19 ' of the modified round thread, which is continuous or continuous.

The essential part of the power transmission of the force P from the drill shank 3 to the drill head 2 takes place via the two stop collars 9 , 10 which, when the round threads 8 , 8 'are joined together, lie positively and non-positively on one another. This power transmission is shown in Fig. 1a, 1b with P1, P2.

The above consideration can also be carried out by corresponding axially parallel sections in only the respective wave crests 11 , 11 'or the respective wave troughs 12 , 12 ' of the two round threads 8 , 8 '. This is to be applied accordingly.

In a preferred exemplary embodiment, the length L1 has a dimension which corresponds approximately to 1 to 1.3 times the outer diameter d _{A of} the drill bit 4 . The difference between the nominal diameter d _{N and} the core diameter d _{K of} the threaded pin 6 corresponds to approximately 10% of the core diameter.

The inlet zone or the inlet section 21 has a length L2 which corresponds to approximately 30% of the length L1. As a result of this measure, the area in which the radius R2 lies at the transition from the threaded pin 6 to the drill bit 4 is not unnecessarily braced when the threads are joined.

In addition to the axially parallel sections 14 , 15 in their respective specified areas, the two round threads 8 , 8 'are designed in accordance with conventional round threads, the flank radius R1, r1 in the respective thread being approximately 0.1 to 0.15 times the respective nominal diameter D _N or d _N corresponds. The respective cylindrical section 14 , 15 on the wave crests 11 , 11 'has an axial length s1, s2, which corresponds to 0.1 to 0.4 times the pitch h.

As a result, apart from the axially parallel sections the round thread is shaped as a continuous curve.

In the embodiment of the round thread according to the invention, that flank area of the round thread with steep surface sections is relieved of momentum forces of the hammer due to the axially parallel surface sections, so that the shock wave mainly runs over the cross-sectional area 22 laterally of the round thread 8 'in the threaded nut 7 and over the contact surfaces 9 , 10 is transferred to the drill head. This results in few friction losses in the thread and thus a noticeably lower heat development and a longer service life of the connection. The measures according to the invention achieve a 25% improvement in power transmission compared to comparable tool interfaces, also with a round thread. However, the use of this type enables a good fit of both joining partners. No sharp-edged transitions are created, which entail an increased risk of breakage. Furthermore, the external thread on the tool side, that is, in the area of the drill head, saves installation space that enables strength reserves in this area. After all, the entire connection is insensitive to dirt and corrosion. For an exemplary embodiment, the following dimensions are given below for a drill bit.

1st shaft part:
L1 = 38 mm
L2 = 10 mm
d _A = 32 mm
D _N = 22.1 mm
D _K = 20 mm
α1 = 30 °
α2 = 27 °
R1 = 2.5 mm
t1 = 0.4 mm.

2.Thread 6 :
l1 = 30 mm
l2 = 27 mm
d _N = 22 mm
d _K = 20 mm
t2 = 0.4 mm.

The invention is not based on that shown and described Embodiment limited. Rather, it includes everyone professional training within the scope of Property rights claims.

In particular, the axially parallel sections 14 , 15 are carried out directly next to one another, that is, the axially parallel section 14 on the wave crest 11 interacts with an axially parallel section 15 ′ arranged in the trough 12 in FIG. 1 a, with approximately the same outer radius, as is dash-dotted in FIG is indicated. In this way an optimal axially parallel guidance of the threaded parts to one another is achieved. The same applies to corresponding axially parallel sections 14 'in the troughs 12 of the threaded pin 6th Alternatively, such arrangements can only be arranged on the shaft crests 11 and / or only in the shaft troughs 12 of the threaded pin 6 , with associated sections in the threaded nut 7 .

Claims (6)

1. Drilling tool, in particular for a rotational impact for processing rock or the like, the tool being constructed in several parts and the parts being connectable to one another via a thread ( 8 , 8 '), characterized in that the thread connection as a modified round thread or as a special thread ( 8 , 8 ') is formed, and to avoid high wedge forces on the external thread of a threaded pin ( 6 ) and / or on the internal thread of a threaded nut ( 7 ) axially parallel threaded sections ( 14 , 14 '; 15 , 15 ') on the respective shaft crest ( 11 , 11 ') And / or in the respective trough ( 12 , 12 ') are provided and that the area ( 18 , 18 ') between the threaded sections ( 14 , 14 '; 15 , 15 ') is formed by a continuous curve. 2. Drilling tool according to claim 1, characterized in that at least the shaft crest ( 11 , 11 ') of the threaded pin ( 6 ) has an axially parallel threaded portion ( 14 ) with a curved portion ( 12 , 12 ') of the associated threaded partner ( 7 ) or cooperates with a corresponding axially parallel section ( 15 ') of the threaded partner to form an axial guide. 3. Drilling tool according to claim 1, characterized in that the drill head ( 2 ) is designed as a drill bit equipped with cutting elements, as a breakthrough drill with a cross drill head or as a conventional rock drill and is provided with a threaded pin ( 6 ) with an external thread ( 8 ) and that the associated drill tool shaft ( 3 ) has an adapted internal thread ( 8 '). 4. Drilling tool according to claim 3, characterized in that the drill shank ( 3 ) of the drilling tool with an internal thread ( 8 ') has a circumferential cross-sectional area ( 22 ) with a front collar ( 10 ), which is for transmission when the threaded connection ( 8 , 8 ') is clamped the impact forces (P) are positively and non-positively applied to a circumferential impact collar ( 9 ) on the drill head ( 2 ). 5. Drilling tool according to one of the preceding claims, characterized in that the axially parallel section ( 14 , 14 ') on the external thread ( 8 ) of the threaded pin ( 6 ) and / or the axially parallel section ( 15 , 15 ') on the internal thread ( 8 ') the threaded nut ( 7 ) has an axial length s1≈s2 of 1/5 to 1/4 h, with h = pitch or pitch of the round thread. 6. Drilling tool according to one of the preceding claims, characterized in that the thread depth t1≈t2 of the round thread ( 8 , 8 ') is approximately 1/6 to 1/7 of the pitch h.