WO2018137825A1 - Drilling machine and use of a drilling machine - Google Patents

Abstract

The invention relates to a drilling machine having a spindle (18) which is configured to drive an attached or attachable drilling tool (20) in rotation and to which rotary driving means for driving in rotation and adjustment drive means for axially adjusting the spindle are jointly assigned such that, during driving in rotation for drilling operation, an axial adjustment of the spindle for feeding operation can take place, wherein the rotary driving means have a rotary drive wheel (48) connected to the spindle for conjoint rotation and the adjustment drive means have an adjusting nut (60) that cooperates in the manner of a slide with a threaded portion of the spindle, and transmission means (30) for cooperating with the rotary drive wheel and the adjusting nut as a transmission module are integrated and configured to be driven by a drive motor (16), wherein the drive motor is a single electric motor that is connected to the transmission means for driving the rotary drive wheel and the adjusting nut is provided adjacent to said transmission means in a drilling machine housing (10) configured in particular to be handled manually, wherein the transmission means (30), the rotary drive wheel (48) and the adjusting nut (60) are configured such that a respective speed of rotation of the rotary drive wheel and of the adjusting nut, said speed of rotation acting on the spindle during drilling and feeding operation of the latter, is different.

Description

 Drilling machine and use of a drill

The present invention relates to a drilling machine according to the preamble of patent claim 1, as it is known for example from EP2 754 531 B1. Furthermore, the present invention relates to a use of such a drill.

Generic drills, in particular designed as hand drills with appropriately designed for manual handling handles or housing lugs, with a rotatable driving a ansitzenden or attachable and replaceable drilling tool formed spindle are well known in the art. There are various designs from private to industrial use.

In particular, used in industrial production drills, in addition to the motor spindle drive, often require another functionality, namely the generation of an axial feed for the (drilling) spindle, in addition to their rotary drive: Often make special requirements, such as in industrial assembly and production environments, a controlled, adapted to the properties of a material to be drilled and a drive power for the spindle rotation adapted (and suitably configurable or feed) necessary feed, which only by manual operation, even an experienced operator, not sufficiently repeatable guaranteed is.

Accordingly, it is known from the prior art, with different, parallel to each other existing approaches, in addition to the rotary spindle drive to provide (axially a spindle feed or a spindle movement causing) adjusting drive to the spindle. This comes next to separate drive solutions for the rotational drive on the one hand and for the axial adjustment on the other hand, in particular integrated solutions into consideration, which, by means of an integrated and common transmission functionality (gear means) on the spindle both operating functionalities (rotary drive for drilling on the one hand, feed on the other hand).

For example, EP 2 754 531 B1, which is cited as a technologically sophisticated solution, discloses such an integrated gear arrangement which brings both the rotational moment of a main drive and a feed or axial adjusting moment of an adjusting drive to the drill spindle and In the context of this integrated transmission arrangement, ensures a suitable decoupling, since this known and technologically sophisticated solution works by means of two motors. A first motor accordingly takes over the rotation moment, a second motor the feed and adjustment torque, with the advantageous consequence that, independently of each other, both the spindle rotation (such as a suitable drilling speed) can be established by the first motor while a Feed rate is made possible by suitable (and also changeable) control of the second motor, said feed adjustment can be done in particular in a current drilling operation or, situationally, in a sequential drilling of different materials, which then allow a correspondingly adapted feed rate. For this purpose, then, this mentioned (usually electronic) control can also be suitably configured or selected in order to make the use of this technology more flexible and optimized in (industrial) everyday life.

However, the solution known from EP 2 754 531 B1 is structurally complex and, in addition to the pair of (electric) motors to be suitably selected and set up, requires in particular also a complex xe, the decoupling of the two engines ensuring gear configuration, so that, necessarily, requires a corresponding drill high production costs and, accordingly, only certain (correspondingly high-priced) user target groups is accessible. However, because many industrial production operations, and in particular continuous, sequential drilling in large numbers (such as in an aircraft manufacturing context) are highly standardized and often do not require the flexibility and situational configurability enabled by the prior art (i.e. If the same materials or composite materials are always to be drilled regularly), there is a need for simpler, more cost-effective (and also structurally simplified and correspondingly less susceptible to failure) solutions, which nevertheless permit optimum drilling and handling operation, in particular in an industrial application context ,

Accordingly, it is an object of the present invention to improve a drilling machine according to the preamble of the main claim in terms of constructive simplicity, while additionally improving the operating properties in terms of wear and failure safety and nevertheless to provide a drill which reliably and predeterminably rotatory driving a spindle (with corresponding ansitzendem or attachable drilling tool) allows, in this drilling operation, this spindle additionally undergoes an axial adjustment (in the sense of a continuous feed).

The object is achieved by the drill with the features of the main claim; advantageous developments of the invention are described in the subclaims. Additional protection within the scope of the invention is claimed for the use of such a drilling machine, preferably configured as a hand drill or manually operated drill. Habitable drilling machine, which is used for the production of holes, especially mating holes for aircraft use, which are to be driven in the context of this inventive use drilling tools, which drill holes in the diameter range between 10 and 30 mm, preferably between 12 and 25 mm, realize and the target These holes may be suitable metal or composite material.

In accordance with the invention advantageously both the rotational driving of the spindle for the drilling operation, as well as the axial adjustment of the spindle for the feed operation by the individual and jointly provided electric motor of the drill, which is provided in a drill housing and acts on the transmission means that this then act on the spindle by means of the adjusting nut for the feed operation and at the same time by means of the rotary drive wheel for the rotary drive in the drilling operation. The transmission means are in cooperation with the rotary drive and the adjusting nut designed or constructed so that in the (common) drilling and Voschubbetrieb the spindle from the rotary drive on the one hand and the adjusting nut on the other hand acting rotation speeds are different; this then leads to the spindle also moving axially during the rotary drive.

Not only is an electric motor for such functionality an ideal source of power and over other engines, such as pneumatic actuators to prefer, as over a comparatively large speed range, a high torque can be generated and the electric motor with common technology reliably and reliably controlled (and In particular, then in a company a speed change allows). Also in the present field of drills usable powerful electric motors are inexpensive in the Production and reliable and reliable, even in industrial continuous operation.

A particularly advantageous and preferred development of the invention provides that the spindle are associated with return means which, usually after the completion of a drilling operation, reverse the spindle feed and, to enable a further drilling operation, move the spindle back to an original position. This is the invention further educated realized that the further development of the return means decouple the adjusting nut from the electric motor and then, when driving the electric motor, the correspondingly driven Drehantriebsrad quickly and efficiently causes the pushing back (re-dividing). Particularly effective and fast this Rücksteilen (pushing back), if, as further training provided, the return means have means for rotatably setting the adjusting nut, in other words, the adjustment nut (is fixed relative to the surrounding drill housing) and so far then the torque input by the rotary drive wheel can cause the pushing back in the shortest possible time. Here i.ü. This is also a significant advantage compared to the generic two-engine solution according to EP 2 754 531 B1: Here, both motors remain connected or coupled to the spindle during a reverse thrust operation, so that in the case of the generic technology (then when both motors are actuated) in the reverse direction of rotation) the re-pushing again takes place only on the basis of the difference in the peripheral speed of the rotary drive wheel and adjusting nut, in other words, significantly slower and thus with significantly higher retraction time than in the present invention. In the constructional-mechanical implementation, such a functionality can be implemented particularly advantageously and elegantly in that First, the spindle-side rotary drive wheel is assigned a Drehant ebsritzel, while the spindle-side adjusting nut is associated with a corresponding meshing adjustment pinion meshing. By means of these gear pairs, the transmission ratio decisive for determining the feed speed can then be established in a particularly simple manner since, according to the invention, the rotational speeds of the rotary drive wheel on the one hand and the adjusting nut on the other hand must be different for effective axial movement of the spindle in the adjustment mode. This difference in turn, which determines the adjustment speed, is influenced by the transmission ratio of the described gear pairs, so that in particular also for a respective (pre-) configuration by appropriate selection of suitable sprockets, the feed behavior (which then according to the selected sprockets and thus realized gear ratios constant is) can be preset in a drilling machine or equipment.

Constructively, it is in this case again particularly preferred to provide the Drehant ebsritzel and the adjusting pinion coaxially rotatable on a common shaft, said shaft is aligned and stored in a particularly advantageous manner parallel to the spindle. Not only does this simplify the described production of the gear ratios, it also creates the opportunity to make a translation change by simply exchanging them. In the context of the preferred embodiments, the Drehanthebsritzel is driven by the electric motor, in particular the installation conditions in a hand drill housing show it to be advantageous that the electric motor or its output shaft in a (more preferably right) angle to Spindeierstreckung are, so that the electric motor then suitable in a (eg suitable for the realization of a housing handle) housing approach can be added. to mechanical coupling of the electric motor, it is then in turn advantageous to design a pinion provided on the output side of the electric motor and the rotary drive pinion (each) with bevel gears, so that in this respect the advantageous rechtwinkl ig speed is guaranteed in the torque transmission. In contrast, it is advantageous for further development, the adjusting pinion on the (common) shaft to provide axially movable, said axial movement can be done suitably in the form of (such as pneumatic, electromagnetic or electromotive) adjusting means. Here it is structurally particularly preferred, the adjusting pinion (rotatable) on a hollow shaft or the like. Provide assembly, which is then rotatably mounted on the common shaft and possibly by spring means or the like. Power storage is biased in the coupling position, in which then for the drilling and feed operation both pinion (rotary drive pinion and adjusting pinion) with the respective partners rotary drive wheel or adjusting nut can cooperate. This constructive realization also permits in a particularly simple manner the above-discussed solution principle of a rotational fixing of the adjusting nut in the context of the retracting means which further develops according to the invention, namely in that by the axial movement of the adjusting pinion into the disengaging position this in the manner of a pawl, a rotationally fixed receptacle od .dgl. not only is decoupled from the rotary drive pinion (that is no longer acted upon by this rotational drive energy), but also rotatably relative to the drill housing (locked) is. A further significant advantage of the (common) electric motor according to the invention lies in the possibility provided for further development of assigning electrical detection means to this electric motor which can detect a current electrical operating parameter of the drill or the electric motor (or in particular also detect a change in this electrical operating parameter). It is particularly preferred in this context, by means of the further forming detection means to detect a currently recorded motor current (eg armature current) of the electric motor and determine the change; For example, a (sudden) drop of such a motor current would be an indication that in a drilling and feed operation the drilling tool has penetrated the workpiece to be drilled (since, accordingly, the opposing force offered by the workpiece decreases significantly). This parameter, which is simply to be detected in the control circuit of the electric motor, now makes it possible to easily adapt the operating modes of the drilling machine by means of the operating mode means advantageously downstream of the detection means, such that the backward movement is initiated in response to the detected (armature) current drop, additionally or alternatively a lubricant supply or Schmiermittelbeaufschlagung the drilling tool is disabled - not only this is no longer required after successful drilling of the work piece concerned and saves according to lubricant, is also, especially in factories with a variety of parallel operated drills, an impairment of adjacent operating operators by ( unnecessary) lubricant leakage reduced. Another exemplary advantage of this embodied in the form of the detection means and Bohrmodusmittel development of the invention is about the possibility to provide an adaptation to changed operating conditions within a drilling operation. By way of example, reference may be made, for example, to drilling tools which, in addition to an actual (spiral) drill for producing a borehole in a rearward shaft region, additionally have a countersunk section widened in diameter. In the drilling and feed operation, the operator would then first introduce the bore into the relevant workpiece with the drilling section, the motor current or its drop would indicate the complete piercing, whereupon then, for a lowering of the borehole by means of the countersink section on the drilling tool ( usually with the requirement significantly reduced spindle rotational speed), a corresponding control can be carried out by the engine electronics connected upstream of the electric motor. This, in turn, can be completely automated and can be preconfigured accordingly, without having to make special demands on the operator handling the drill with this functionality, for example.

Thus, it is also particularly preferred according to the invention to provide the detection means with evaluation means which, for example, are assigned to the control electronics and provided with additional signal transmission or electronic communication means, such as a web server functionality, which enables the use of the electric motor according to the invention Use parameter acquisition for quality assurance and evaluation purposes. For example, it has proved to be preferable according to the invention to evaluate the magnitude and course of the motor current over a drilling cycle in order to be able to draw conclusions about a bore quality and / or a tool wear. For example, as part of a variable-speed motor control, wear on the drilling tool would be reflected in a higher armature current, so that corresponding data can then be recorded and evaluated for these quality assurance and maintenance aspects.

While the present invention is particularly preferred for making wells in an aircraft assembly context, not least because of the advantages set forth in practical operation and in an industrial manufacturing environment, the present invention is not limited to this use. Rather, the present invention is advantageous for any (preferably manually manageable) drill, which constructive simplicity with reliable and a long service life enabling operating characteristics in the combined drilling and feed operation of a drill spindle to realize.

Further advantages, features and details of the invention will become apparent from the following description of preferred embodiments and from the drawings; these show in:

1 shows a perspective view of the drilling machine according to the invention according to a first embodiment;

2 shows a longitudinal sectional view through the drill of FIG.

 1 ;

3 shows a detailed view from the perspective of FIG. 1 of the spindle, the associated gear means and the electric motor;

4 shows a detailed view of the transmission means of the first exemplary embodiment, insofar as a side view of the representation of FIG. 3;

5 shows a longitudinal sectional view through the arrangement of FIG. 3 and

6 is a detail view in the form of an enlarged detail of the transmission means including rotary drive wheel and adjusting nut in the view of FIG .. 5

1 and 2 show views of the drill according to the invention with a drill housing 10, which offers a pistol-like handle portion 12 and an additional, parallel thereto receiving portion 14 for an electric motor 16. In the present Embodiment is an electronically commutated electric motor of an electrical power consumption of 700W, which has a drill spindle 18 with one ansitzendem drilling tool 20 for introducing holes of a diameter of about 3 mm to 13 mm in aircraft aluminum material.

The handle portion 12 of the housing is designed to receive a schematically illustrated, held on a printed circuit board 22 control electronics, which in turn is connected via electrical or electronic interfaces 24 for external Steckerkontaktierung. With fingers of an operator in the grip state operable switches 26, 28 enable the activation or deactivation of the drill in respective operating conditions, such as in the drilling operation. Between the electric motor 16 and the spindle 18, a transmission (gear means) 30 is provided which - to describe in detail below - a motor output torque both in a provided for a drilling operation of the spindle 18 and the drilling tool 20 rotational movement, as well as, for an adjustment operation, the spindle 18 operates in an axially along the spindle longitudinal axis extending spindle adjustment.

The views of Fig. 1, Fig. 2 also illustrate how the spindle is covered by shell-like housing portions 32 in the upper region; In addition, a (with negative pressure effective) suction port with corresponding flange portion 34 can be seen, which, opened via a suction channel 36 to a drill-side housing inner region, there sucks chips in the drilling operation for external treatment through the outlet 34. The housing has an end section 38 at the end which engages on the drill bit 20 at the engagement end, which for placement on a workpiece to be drilled with the device shown is trained. Inn turning and feeding operation is then, in the manner to be explained in detail below, the spindle placed in a rotary drilling movement and in addition, according to a planned drilling progress, the spindle (in the plane of FIG. 2 to the right) adjusted.

On the basis of the isolated component representations or detailed views of FIGS. 3 to 6, the constructive details of the gear means 30 will be explained below, which enable the combined drilling and feed drive of the spindle 18 on the basis of the motor drive of the motor 16. 3 shows, in perspective view, how a driven-side pinion 40 of the electric motor 16 meshes with an equally conical outer toothing of a rotary drive pinion 44 via a bevel gear 42 to form a 90 ° angle, which in turn via its spur toothing 46, with a rotary drive 48 meshes. This, in turn, as illustrated in detail in the detail sectional view of FIG. 6 rotatably connected to the (an external thread bearing) spindle 18, so that on the chain of effects (motor 16 - output 40 - bevel gear 42 - rotary drive pinion 44, 46 - rotary drive 48th ), the spindle 18 in a drilling with the end (releasably) ansitzenden drilling tool 20 enabling rotational movement can be driven. This drilling tool 20, as can be seen in particular the perspective view of FIG. 3, in the illustrated embodiment at the end a cylindrical spiral drill section 50, which merges into a widening in diameter and suitable for a lowering lowering section 52 so that with this Tool both a (through) hole is drilled, and then the hole edge can be lowered by means of the lowering portion 52. At a coupling portion 54 (Figure 5) of the spindle 18, the tool 20 is detachably and removably attached to the spindle. In addition to the described mechanism of action for generating a drilling rotational movement of the spindle 18, the gear 30 shown is additionally designed to simultaneously perform a (the drilling tool 20 in the drilling direction advancing) feed movement. This takes place in turn, starting from the assemblies 40, 42 and 44 via a (for example by means of axially releasable cam connection 54, Fig. 4, with skew or slated plane) enabled coupling of the rotational torque of the rotary drive pinion 44 on a coaxial with it on a shaft 56 rotatable stored Verstellritzel 58, which, in the coupled state about the Fig. 3 to 6, in synchronism with the rotary drive pinion 44 on the shaft 56 rotates. The pinion 58 meshes with an adjusting nut 60, which is screwed onto the external thread of the spindle 18, so that an output torque of the electric motor 16 via the chain of action 40 - 42 - 44 - 58 - 60 is brought to the spindle and by the action of the mother 60th causes an axial feed of the same. The representations (in particular the detail view of FIG. 4) show that the pairing of rotary drive pinion 46 and rotary drive wheel 48 on the one hand and from adjustment pinion 58 and adjusting nut 60 on the other hand form mutually different gear ratios (as shown in the side view of FIG. 4, that the rotary drive 48 has a slightly larger outer diameter than the immediately adjacent adjusting nut 60), so that by this translation difference, in addition to the rotary drive of the drill spindle for the purpose of drilling with the drilling tool 20, also the adjusting movement can take place (at the same Translation ratios of these pairs, the spindle would be stopped in the axial direction, so it would take no feed). Accordingly, the design shown opens up the possibility of defining the feed rate (speed of the axial adjustment movement) relative to the rotational speed by configuring the gear ratio of the meshing pinion pairs, so that this ratio is always constant for a certain type of drill, by suitable means Selection of pinions and the thus allowed varying the gear ratio, a pre-configuration and adaptation is enabled.

In the form of the stop nut 63 shown schematically on the circumference of the spindle 18 is a maximum Verstellhub (or about a Senkpunkt) determinable or fixable. More precisely, by abutment of this stop nut 63 at the bearing area of the rotary drive wheel, a load increase, which causes the adjusting pinion 58 (along an inclined plane of the cam 54) in a (in the plane of FIG. 4 right) released neutral position slides , This state is - not shown in detail - detected and transferred to a subsequently to be described in detail operation of a pneumatic cylinder 64, whereby the rotational fixation of Verstellritzels 58 takes place. In particular, the sectional or detailed views of Fig. 4 to 6 show the additional realized within the scope of the invention possibility to set the Verstellritzel 58 by axial displacement on the axis 56 and to prevent rotation, so that the thus meshing adjusting nut 60 equally rotatably is fixed. In this mode of operation, electromotive driving of the rotary drive wheel 48 in the direction of rotation opposite to the drilling direction would then permit rapid re-adjustment or return of an advanced spindle 18 (such as a completed drilling operation) to a retracted home position.

For this purpose, a suitably in the axial direction (in the plane of Fig. 4 to the right) pneumatically actuated cylinder 64 engages on a rotatably mounted on the shaft 56 hollow shaft 66 inside the pinion 58 and pulls this in the plane to the right to a axially projecting tooth portion 68 of Verstellritzels 58 engages in the manner of a pawl in a locking profile 76 of a fixed receptacle, wherein this caused by the action of the pneumatic cylinder 64 decoupling the pinion 58 from the rotary drive pinion 44, against the restoring force of a compression spring 72, the rotational setting of the adjusting nut 60 on the chain of action 76 - 68 - 58 - 60 allows. Although this Axialver- position of Verstellritzels 58 in the illustrated embodiment is pneumatic (and a corresponding pneumatic supply is integrated into the housing of the drill), it is also possible to use other Verstellprinzipien, such as an electromotive or electromagnetic adjustment.

By means of a seated on the spindle spring assembly 62, a shutdown of the reset operation is realized in the illustrated embodiment. For this purpose, a sensor (not shown) connected to a bearing section 65 (axially in FIG. 4 on the right of the springs 62) engages an engagement of the springs 62 and then deactivates the pneumatics driving the pneumatic cylinder 64. While the compression spring 72 then returns the pinion 58 to the engagement position on the pinion 44, the electric motor 16 is shut down in response to pneumatic detection by means of a pneumatic switch 67, the change of state of which (not shown) Engine control is evaluated and deactivated according to the drive motor.

In the figures, not shown is a the electric motor 16 upstream control electronics, which in addition to a signal application of the electric motor in particular also enables the detection of a (current) recorded by the motor 16 armature current. In this regard, the embodiment then provides for activating appropriate operating mode changes of the drilling machine in response to a change in the armature current (eg, in a completed wellbore), such as a speed reduction of the electric motor 16, to be subsequently lowered by means of the sinker. section 52 to perform a Senkbetheb the borehole, additionally or alternatively the possibility opening, in response to such a parameter change (ie, for example, the drop of the armature current) already activate the above-discussed reset mode by loosening the pinion 58 from the pinion 44 and the following Rotary anchoring of the pinion 58, the adjusting nut 60 is blocked and a subsequent switching of the electric motor together with driving the spindle 48 via the drive wheel then the (fast) feedback can allow.

The present invention is not limited to the embodiment shown, but both the constructive-mechanical, as well as the functional design of the drilling machine shown is purely exemplary and can be adapted almost arbitrarily to a variety of requirements of a deployment environment.

Claims

claims Drilling machine having a spindle (18) designed to rotatably drive a seated or attachable drilling tool (20),  the rotational drive means for the rotational driving and Verstellantriebsnnittel for axial adjustment of the spindle are so assigned together, that during the rotational drive for a drilling operation can be carried out an axial adjustment of the spindle for a feed operation,  wherein the rotary drive means rotatably connected to the spindle rotary drive wheel (48) and the Verstellantriebsnnittel a slide-like with a threaded portion of the spindle cooperating adjusting nut (60)  and gear means (30) for cooperation with the rotary drive wheel and the adjusting nut integrated as a transmission module and for driving by a drive motor (16) are formed, characterized in that  the drive motor as a single, for driving the rotary drive wheel and the adjusting nut connected to the gear means and adjacent thereto in a trained especially for manual handling drill housing (10) provided electric motor, wherein the transmission means (30), the Drehantriebsrad (48) and the adjusting nut (60) are formed so that in the drilling and the feed operation of the spindle acting on these respective rotational speed of the rotary drive wheel and the adjusting nut is different. A drilling machine according to claim 1, characterized by return means (64, 70, 72) for an axial adjustment of the spindle (18) in an adjustment against the adjustment of the feed operation, wherein the return means (64) for decoupling the adjusting nut (60) from the electric motor (16). Drilling machine according to claim 2, characterized in that the return means comprise means for rotationally fixing (68, 70) of the adjusting nut. Drilling machine according to one of claims 1 to 3, characterized in that the rotary drive wheel (48) for meshing cooperation with a driven by the electric motor rotary drive pinion (44) of the transmission means and / or the adjusting nut (60) for meshing interaction with a driven by the electric motor adjusting pinion (58) of the transmission means is / are formed. A drilling machine according to claim 4, characterized in that the rotary drive pinion and the adjusting pinion coaxially on a common shaft (56) are rotatably provided, which is preferably aligned parallel to the spindle (18) and stored. Drill according to claim 5, characterized in that the rotary drive pinion is formed drivable by the electric motor and the adjusting pinion is provided axially movable on the common shaft by the action of adjusting means that the adjusting pinion rotatably connected in a Einkopplungsposition with the rotary drive pinion and in one Disengagement position of a rotary drive movement of the rotary drive pinion decoupled and preferably rotationally fixed in the decoupling position. A drilling machine according to claim 6, characterized in that the adjusting means (64) effecting the axial movement of the adjusting pinion act pneumatically, electromagnetically and / or electromotively. Drilling machine according to one of claims 1 to 7, characterized by the electric motor associated detection means for detecting a current electrical operating parameter and / or a change in this electrical operating parameter of the drill and / or the electric motor, in particular a recorded by the electric motor current and / or an applied operating voltage and / or a current engine speed, and drilling mode means connected downstream of the detection means for influencing an operating mode of the drilling machine in response to an output signal of the detection means. Drilling machine according to claim 8, characterized in that the Bohrmodusungsmittel are adapted for setting and / or changing a spindle rotational speed of the spindle in the drilling operation and / or for activating or deactivating of the drill associated lubricant conveying means. Drilling machine according to claim 8 or 9, characterized by evaluation means associated with the detection means, which detected by the detection means operating parameters or operating parameter changes on operational and / or boring Qua evaluate relevant signal waveforms, in particular signal curves used as wear indicators of a drilling tool. Use of the drilling machine according to one of claims 1 to 10 for producing bores, in particular fitting bores, for aircraft and / or for driving drilling tools for realizing bores in the diameter range between 2 mm and 15 mm, preferably between 3 mm and 13 mm, in one Metal and / or composite material.