DE102019116291A1 - Handheld screwdriver and method for setting a parameter of a handheld screwdriver - Google Patents

Abstract

In summary, a hand-held screwdriver (1) is proposed, on which a sensor (4) is provided, with which information (5) presented on an inserted output insert (3) can be read, the sensor (4) being coupled to an adjustment unit (6) with which a parameter of the hand-held screwdriver (1) can be set electronically on the basis of the information (5) read out (cf. FIG. 1).

Description

The invention relates to a handheld screwdriver with a receptacle for an output insert, a parameter of the handheld screwdriver being electronically adjustable. The receptacle is used in particular to receive and hold the output insert. The invention further relates to a method for setting a parameter of a hand screwdriver. Manual screwdrivers described at the outset are already known from practice, for example, as electrically driven screwdrivers. For example, it is known that a screwdriver has a torque limitation, a threshold value of a torque being electronically adjustable.

The invention is based on the object of improving the performance characteristics of a hand-held screwdriver.

To achieve this object, the invention provides the features of claim 1. In particular, according to the invention, in a hand-held screwdriver of the type described at the outset, it is proposed that a solution be provided on the hand-held screwdriver that can be used to read out information presented on an inserted drive insert, the sensor being coupled to an adjustment unit with which the parameter can be set electronically based on the information read out.

The handheld screwdriver can be, for example, a screwdriver. The handheld screwdriver can be any other handheld device with which an output insert can be set in a rotational movement. The output insert can have a machining tip and / or a receptacle for a machining part.

The handheld screwdriver can be electrically driven. The handheld device can additionally or alternatively be driven manually.

The output insert can be, for example, a blade, a bit, a nut or another output insert, with which a workpiece or construction element can be machined or moved. The output insert can be designed, for example, as a screwdriver blade.

Exactly one sensor or more than one sensor can be present on the hand-held screwdriver mentioned above.

Exactly one parameter or more than one parameter can also be adjustable. The electronically adjustable parameter of the hand-held screwdriver can be a threshold value, for example. This can be, for example, a threshold value for a torque. If the threshold value is exceeded, for example, a torque limitation can be triggered or a warning signal can be issued. The parameter can also be, for example, a speed, a direction of rotation, an activation or deactivation of an impact screw function or another parameter of the hand-held screwdriver.

The technical solution according to the invention has the advantage that the user of the handheld screwdriver can easily select a suitable output insert for the desired application and the handheld screwdriver then automatically sets a suitable parameter of the handheld screwdriver. Further intervention by the user to set a suitable parameter is not necessary. The user often does not know the specific value of the parameter. For the application of the handheld screwdriver, it can be much easier to keep certain output inserts available for certain applications. This can be particularly advantageous in the area of filigree screw connections, particularly in safety-critical areas such as, for example, electrical or electronic screw connections. In these areas, very small tightening torques can often lead to deformation or damage to the screw connection. This can be prevented by the proposed technical solution by the user selecting an output insert that is suitable for the specific application, since the hand-held screwdriver then automatically sets a threshold value for a torque, for example, when or after inserting the output insert.

In an advantageous embodiment of the hand-held screwdriver, it can be provided that the sensor is arranged in a fixed manner. The sensor can in particular be arranged so as to be stationary with respect to a housing, a cover and / or a handle of the hand-held screwdriver. This can have the advantage that the sensor is not disturbed by mechanical movements during a measurement and that information read out by the sensor can be easily and reliably transferred to the setting unit.

It can be advantageous if the information to be read out is presented rotationally symmetrically on the output insert. This makes it possible to read out the information while the work is rotating.

In a further advantageous embodiment of the hand screwdriver, it can be provided that that the sensor is formed in the receptacle. Since the receptacle also forms a holder for the output insert, the receptacle rotates together with the output insert. A sensor, which is formed in the receptacle, therefore rotates together with the output insert. This has the advantage that there are no relative movements between the sensor and the output insert. In this way, for example, sliding contacts can be avoided, so that wear is reduced. The information recorded by the sensor can then preferably be transmitted to the setting unit without contact.

The sensor can be designed as a mechanical sensor. In particular, the sensor can comprise a switching element. The switching element preferably has a spring element which holds a movable part of the switching element at a rest position. The mechanical sensor can be arranged on the hand-held screwdriver in such a way that the movable part is in contact laterally or proximally with the driven insert used. The position of the movable part of the mechanical sensor can be determined by an appropriate configuration of the output insert. For example, a groove can be formed on the output insert, in which the movable part engages. In the case of another output insert, the output insert can be designed without relief at the same location, so that the movable part assumes a different position. In this way, the mechanical sensor can be used to read out information presented on the output insert used, which information can differ in the case of different output inserts.

The mechanical sensor can also be designed in such a way that it can recognize a plurality of different gradations on the output insert. For this purpose, it can in particular be provided that a plurality of different positions of a movable part of the mechanical sensor deliver a different signal in each case.

Alternatively or additionally, the sensor can be designed as an electrical sensor. In particular, the sensor can form one or more sliding contacts with the output insert. A plurality of sliding contacts can be useful to increase the amount of information that can be coded.

The sensor can also be designed as a magnetic sensor. For example, the sensor can form a Hall sensor. With such a Hall sensor, for example, different magnetic poles and / or field strengths and / or ferromagnetic components can be detected in the output insert used. These magnetic poles or field strengths form information presented by the output insert which can be read out by means of the magnetic sensor.

Alternatively or additionally, the sensor can be designed to carry out a resistance surface measurement on the output insert used. The information can be provided by the output insert, for example, by forming it from one or different conductive materials and / or by coating it with one or more corresponding coatings.

The sensor can also be designed as an optical sensor. The optical sensor can in particular be designed to detect electromagnetic radiation in the visible, ultraviolet and / or infrared range. The optical sensor is preferably designed as a color sensor which can detect and recognize different colors. As an alternative or in addition, the optical sensor can preferably be set up to recognize a pattern or patterns that differ from one another, such as, for example, a checkered, dotted or dashed pattern that differs from one another. As an alternative or in addition, the optical sensor can preferably be set up to recognize a geometric shape. Colors and / or patterns and / or geometrical shapes can be applied to the output insert, for example as a correspondingly designed coating such as a plastic ring, several plastic rings, the colors of which can differ from one another, or a relief. The coating provides information that can then be detected and recognized by the optical sensor. A color sensor with color codes on the output insert has the particular advantage that a high degree of tolerance to contamination can be achieved. It has been found that contrasts or color choices can be selected such that, for example, a dirty white area is also recognized as a white area. Arranging the sensor in the housing in combination with a light source can be particularly advantageous here.

The sensor can also be designed as a contrast sensor with which, for example, different bar, bar and / or QR codes, which can be applied to the output insert, can be detected.

The sensor can also be designed as a reading counter for an RFID chip or near-field chip attached to the output insert used.

In a further advantageous embodiment of the hand screwdriver device, it can be provided that the sensor in a housing of the Hand screwdriver is arranged and that a light source is formed in the housing. Preferably, the light source can be used to illuminate an optically perceptible presentation of the information on the output insert used. For example, the output insert can have a color coding, which can be detected by an optical sensor when illuminated with the light source. An optically perceptible presentation of the information can be characterized in that the presentation of the information can be perceived with an optical sensor. In this case, the optical sensor can be designed as already described above.

In a further advantageous embodiment of the hand-held screwdriver, provision can be made for a means to determine or measure a state parameter of the hand-held screwdriver. For example, the state parameter can be a rotational speed of the receptacle or a torque that can be transmitted or transmitted from the receptacle to the output insert. The aforementioned means can therefore in particular be a tachometer or a torque meter.

Provision can also be made for a means to output a signal. In particular, a means for outputting an optical signal, such as a light source, and / or a means for outputting an acoustic signal, such as a loudspeaker, can be formed.

Furthermore, it can be provided that the hand-held screwdriver device is set up to output a signal, such as, for example, the signal already mentioned, when a condition that depends on the state parameter and the parameter is met. The condition can be formed, for example, by the state parameter exceeding the parameter. The signal can serve, for example, as a warning signal or as a safety signal, which triggers a technical safety function on the hand-held screwdriver. For example, the signal can trigger a torque limit or a speed limit. The parameter can in particular be a threshold value.

It can further be provided that the hand-held screwdriver has a data interface with which imported data can be transmitted to the setting unit and that the setting unit is set up to change the conversion of the information read into a setting of the parameter depending on the data. In this way, the technical effect of an output insert can be changed without the output insert having to be changed. For example, a different torque can be assigned to an output insert.

According to the invention, the features of the secondary claim directed to a method for setting a parameter of a hand-held screwdriver device are provided in order to achieve the stated tasks. In particular, in order to achieve the stated object, it is proposed according to the invention in a method of the type described at the outset that information presented on an output insert inserted into a receptacle of the hand-held screwdriver device is read out and that the parameter is set electronically on the basis of the information read out. The readout can be carried out in particular by means of a sensor, which can preferably be designed as described above. The hand-held screwdriver is preferably designed according to the invention, in particular as described above and / or according to one of the protection claims directed to a hand-held screwdriver. Such a method enables a user to set functions of the hand-held screwdriver using an output insert. This is particularly simple and can increase safety when using the handheld screwdriver.

In one embodiment of the method, it can be provided that a state parameter of the hand-held screwdriver is determined or measured, and that a signal is output when a condition that depends on the state parameter and the parameter is met. Corresponding measuring means can be designed for this, as already described above. The parameter can be, for example, a threshold value, the signal of which is output when the status parameter is exceeded. The signal can trigger a technical function of the hand-held screwdriver, for example. For example, a torque limit or a speed limit can be triggered.

In a further advantageous embodiment of the method, it can be provided that data is imported onto the hand-held screwdriver and that, depending on the data, a conversion of the information read out into a setting of the parameter is changed. For example, the data can be transferred from a smartphone, an app or a computer to the handheld screwdriver. In this way, for example, a different setting of the hand-held screwdriver device can be assigned to certain information. In this way, special instructions can also be programmed directly into the handheld screwdriver.

The invention will now be described in more detail using a few exemplary embodiments, but is not restricted to these few exemplary embodiments. Further variants of the invention and exemplary embodiments result from a combination the features of individual or more claims for protection among one another and / or with individual or more features of the exemplary embodiments and / or the previously described devices and methods according to the invention.

• 1 ein Ausführungsbeispiel eines erfindungsgemäßen Handschraubgeräts mit einem als Farbsensor ausgebildeten Sensor,
• 2 ein weiteres Ausführungsbeispiel eines erfindungsgemäßen Handschraubgeräts mit einem Farbsensor,
• 3 ein weiteres Ausführungsbeispiel eines erfindungsgemäßen Handschraubgeräts mit einem Farbsensor,
• 4 ein weiteres Ausführungsbeispiel eines erfindungsgemäßen Handschraubgeräts mit einem als mechanischen Sensor ausgebildeten Sensor,
• 5 zwei Schaltzustände des in 4 gezeigten Sensors,
• 6a und 6b ein weiteres Ausführungsbeispiel eines erfindungsgemäßen Handschraubgeräts mit einem in der Aufnahme für den Abtriebseinsatz ausgebildeten Sensor,
• 7 ein weiteres Ausführungsbeispiel eines erfindungsgemäßen Handschraubgeräts mit einem einen Schleifkontakt aufweisenden Sensor,
• 8 ein weiteres Ausführungsbeispiel eines erfindungsgemäßen Handschraubgeräts mit einem als Hall-Sensor ausgebildeten Sensor,
• 9a bis 9h verschieden ausgebildete Abtriebseinsätze für ein erfindungsgemäß ausgebildetes Handschraubgerät.

It shows:

• 1 1 an embodiment of a hand-held screwdriver according to the invention with a sensor designed as a color sensor,
• 2nd another embodiment of a hand screwdriver according to the invention with a color sensor,
• 3rd another embodiment of a hand screwdriver according to the invention with a color sensor,
• 4th 1 another embodiment of a hand-held screwdriver according to the invention with a sensor designed as a mechanical sensor,
• 5 two switching states of the in 4th shown sensor,
• 6a and 6b 1 a further exemplary embodiment of a hand-held screwdriver according to the invention with a sensor formed in the receptacle for the output insert,
• 7 1 another embodiment of a hand-held screwdriver according to the invention with a sensor having a sliding contact,
• 8th 1 a further exemplary embodiment of a hand-held screwdriver according to the invention with a sensor designed as a Hall sensor,
• 9a to 9h differently designed output inserts for a hand-held screwdriver designed according to the invention.

In the following description of various exemplary embodiments of the invention, elements that have the same function receive the same reference numbers even with a different design or shape.

The 1 to 4th and 6a to 8th show different configurations of hand screwdriver devices according to the invention 1 . For handheld screwdrivers 1 each is an electrically driven screwdriver. The handheld screwdriver 1 has a housing 7 which the handle 8th who have favourited Insulation Sleeve 21 and the cover 19th includes. In the case 7 are several components of the handheld screwdriver 1 arranged. At the proximal end of the hand-held screwdriver, which is not explicitly shown 1 an energy store, which can be a battery or an accumulator, for example, can be used. With the energy storage is the motor 11 can be powered with a gearbox 20th the recording 2nd , which also forms an output shaft, can set in a rotary motion. In the recording 2nd is an output insert 3rd used which in the recording 2nd with the help of the locking elements 13 is held. The recording 2nd has a non-circular, preferably hexagonal, cross section on the inside, which corresponds to the cross section of the output insert 3rd is adjusted. The output application 3rd is therefore non-rotatable with the recording 2nd connected. At the distal end of the output insert 3rd is a tool tip 12th educated. With the tool tip 12th can be tightened a screw in the embodiments shown here. The recording 2nd is about a camp 14 rotatable in the handle 8th stored.

In 9a to 9h are different output uses 3rd shown, which in the hand-held screwdrivers shown in the remaining drawings 1 can be used. Depending on the design of the handheld screwdriver 1 fulfills the handheld screwdriver 1 its function according to the invention only with certain 9 shown output inserts 3rd , as will be explained in more detail below.

In the in 1 to 3rd The exemplary embodiments shown are in the housing 7 and specifically on the inside of the cover 19th each a sensor designed as a color sensor 4th arranged. In the case 7 and specifically within the coverage 19th is also a light source designed as an LED 9 arranged which the interior of the cover 19th illuminates and in particular a section of the output insert 3rd which section is located at an opening of the illuminated interior.

In this section of the output application 3rd becomes an information 5 presented. In 1 will this information 5 presented as a color code. For this is in the illuminated section of the output insert 3rd the output use 3rd with a coating 17th coated, which has a certain color. Is in 1 the coating 17th given by a detachable or non-detachable color ring. Different output uses 3rd can be provided with different colored coatings 17th . A light source emitting in the ultraviolet range is also possible 9 , the coating 17th of the output use 3rd when illuminated by ultraviolet light also emits a light that has a wavelength in the visible or in the ultraviolet range.

With that as an optical sensor 4th trained sensor 4th is that from the coating 17th on the output insert 3rd light emitted by their illumination can be detected, so that the information provided by the color coding 5 by means of the sensor 4th is readable. In 2nd is instead of the coating 17th on the output insert 3rd a notch 16 intended. With the light source switched on 9 will be from the sensor 4th recorded optical spectrum changed, so that with the as an optical sensor 4th trained sensor 4th also in 2nd by the notch 16 presented information 5 is readable. The in 2nd shown output use 3rd who also in 9g is shown on both sides of the notch 16 also be coated with a coating 17th which has the same or different colors. In this case, the sensor 4th only the color information of the two coating sections can be read out. In 3rd is instead of the single color coating 17th according to 1 the coating 17th in several sections 29 divided, with each section 29 may have a different color. In the in 3rd Embodiment shown are this section 29 separated from each other. Alternatively, these sections 29 also directly adjoin each other. Embodiments with only two sections are also possible 29 or any number of sections 29 .

Compatible with the in 1 to 3rd hand-held screwdrivers shown 1 are especially those in 9b , 9c , 9d and 9g output inserts shown 3rd .

4th shows an inventive hand screwdriver 1 where the sensor 4th as a mechanical sensor 4th is trained. The sensor 4th is in two different switching positions 5 presented in more detail. The sensor 4th has a switching element 15 on which is a moving part 24th has that in a housing part 25th can be pressed in from a rest position. The sensor 4th is arranged so that the switching element 15 the output use 3rd touched laterally. Is at the point of contact on the output insert 3rd a groove-shaped notch 16 trained, so is the switching element 15 in its rest position, which in 5 is shown on the right and with the sign " 1 "Is designated. However, there is no notch at the point of contact 16 , so the moving part 24th of the switching element 15 in the housing part 25th pushed in so that the switching element 15 the condition " 0 “Assumes as in 5 shown on the left. On the output insert 3rd is therefore due to the presence of a notch 16 or the absence of a notch 16 an information 5 presented which with the sensor 4th is readable.

Compatible with the in 4th shown handheld screwdriver 1 are basically all in 9 output inserts shown 3rd , especially the one in 9g shown output use 3rd . One to the in 9g alternative output use shown 3rd could instead of the notch 16 in particular be trained.

In 6a and in 6b is a sensor 4th as in 5 shown within the recording 2nd trained in one on the axis of rotation 26 trained recess 27 the recording 2nd . Becomes an output insert 3rd as in 6a used, which ends flat and therefore not in the recess 27 intervenes, so is the sensor 4th in the state "I". In contrast, is an output application 3rd in the recording 2nd used, the central, for example, a cone-shaped projection at its proximal end 28 has trained who in the recess 27 the recording 2nd engages, so the moving part 24th of the switching element 15 pushed in so that the sensor 4th assumes the state "zero". Through the middle of the proximal end of the output insert 3rd arranged projection 28 or its absence therefore becomes information 5 presented by the sensor 4th is readable.

Compatible with the in 6a and 6b shown handheld screwdriver 1 are basically all in 9 output inserts shown 3rd , especially the two in 9g and 9h output inserts shown 3rd .

In 7 is an electromechanical sensor 4th trained sensor 4th on the handheld screwdriver 1 educated. The sensor 4th has a housing with two extensions 22 on that in corresponding notches 16 an output insert 3rd can intervene. The sensor 4th has a spring element 23 on which the extensions 22 in the direction of the output insert 3rd presses. The notches 16 can be made conductive, so that the sensor 4th forms a sliding contact. The sensor 4th can also have more than two extensions 22 have, so that different codings are possible with the output insert 3rd . For example, in 9a shown embodiment, which is compatible with two sliding contacts, for the in 7 Handheld screwdriver shown 1 be used. The one from the output insert 3rd presented information 5 is therefore due to the presence or absence of one or more sliding contacts for reading by a sensor 4th presented.

In 8th is the sensor 4th as a magnetic sensor 4th educated. Specifically, it is the sensor 4th in the in 8th illustrated embodiment around a Hall sensor. For information 5 To be able to read out is the output use 3rd in 8th coated so that the coating has different magnetic polarities. Information is provided by the type and number of magnetic field polarities 5 through the output insert 3rd presented using the sensor 4th is readable.

Compatible with the in 7 shown handheld screwdriver 1 in principle, each one has no, one or more magnetic field polarities Output insert 3rd . For example, the in 7 shown output use 3rd or the in 9b shown output use 3rd be used.

In the in 1 to 8th hand-held screwdrivers shown 1 is the sensor used in each case 4th each to an adjustment unit 6 coupled to the appropriate place in the housing 7 of the handheld screwdriver 1 is arranged. For example, the setting unit 6 be arranged on a circuit board that is not explicitly shown. With the adjustment unit 6 is a parameter of the handheld screwdriver 1 based on the information read out 5 adjustable. Specifically, the handheld screwdriver can do this 1 have a torque limit. The parameter which with the setting unit 6 torque can be adjustable. The on the output insert 3rd presented information 5 can be converted into a torque by specifying a changeable conversion value. Is on the handheld screwdriver 1 If a torque measuring unit is also provided, the converted torque value can be compared with the measured torque value. If the measured torque value exceeds the set torque value, a signal can be generated which is then sent to the torque limiting unit. The torque limiting unit then ensures that this is from the engine 11 on the recording 2nd transmitted torque does not exceed the set torque value.

In 9 are different output uses 3rd shown, which with different handheld screwdrivers 1 can be combined. In the in 9a output use shown 3rd are two pairs of notches 16 formed, which are each conductive and can therefore form sliding contacts with a corresponding sensor 4th . The information 5 which with the in 9a output use shown 3rd is presented by the number of existing and non-existing pairs of conductive notches 16 mediated.

In 9b to 9e becomes an information 5 through a coating 17th presented. The output inserts 3rd in 9b , 9c and 9d exhibit as coating 17th each have a color ring which has a specific color, which is by means of a color sensor or optical sensor 4th can be detected under lighting. The coating 17th of the output use 3rd according to 9b furthermore has a predetermined pattern of magnetic field polarities, which by means of a magnetic sensor 4th are detectable. The coating 17th of the output use 3rd according to 9c has a predetermined conductivity, which is by means of a sensor 4th with which a resistance surface measurement can be carried out as information 5 is detectable.

The in 9d shown output use 3rd has a coating 17th with a bar code. This bar code can be information 5 wear that with a sensor designed as a bar code reader 4th is readable. Furthermore, in 9d shown output use 3rd a notch 16 on what an information 5 presents that with a sensor 4th which is a switching element 15 has readable.

The in 9d shown output use 3rd is equipped with an RFID chip that provides information 5 presents that with a sensor 4th , which has a suitable reading device, can be read out.

The in 9g shown output use 3rd has a circumferential notch 16 that serves as an information carrier and so information 5 offers. This information 5 is for example with the in 5 shown sensor 4th readable, cf. also 4th . Also the proximally flat axial end 30th of the output use 3rd can serve as an information carrier so that the information presented 5 by means of the 6a shown sensor 4th is readable.

The in 9h shown output use 3rd points to its proximal end 30th a head start 28 that serves as an information carrier. With it becomes information 5 presented, which with the in 5 shown sensor 4th can be read out, cf. 6b .

In summary, a handheld screwdriver 1 proposed on which a sensor 4th is present with which one is used on an output insert 3rd presented information 5 can be read out, the sensor 4th to an adjustment unit 6 is coupled with which a parameter of the handheld screwdriver 1 electronically based on the information read out 5 is adjustable.

Reference list

1

Handheld screwdriver

2nd

admission

3rd

Output insert

4th

sensor

5

information

6

Adjustment unit

7

casing

8th

Handle

9

Light source

10th

Means for determining or measuring a state parameter

11

engine

12th

Tool tip

13

Locking element

14

camp

15

Switching element

16

notch

17th

Coating

18th

RFID chip

19th

cover

20th

transmission

21

Insulation sleeve

22

Continuation

23

Spring element

24th

a moving part of 15

25th

Housing part

26

Axis of rotation

27

Recess of 2nd

28

head Start

29

section

30th

graduation

Claims (10)

Manual screwdriver (1) with a receptacle (2) for an output insert (3), wherein a parameter of the manual screwdriver (1) is electronically adjustable, characterized in that a sensor (4) is present on the manual screwdriver (1) with which a Information (5) presented on an inserted drive insert (3) can be read out, the sensor (4) being coupled to an adjustment unit (6) with which the parameter can be set electronically on the basis of the information (5) read out. Hand-held screwdriver (1) according to the preceding claim, characterized in that the sensor (4) is arranged in a fixed manner, in particular with the information (5) to be read out being presented on the output insert (3) in a rotationally symmetrical manner. Hand screwdriver (1) according to one of the preceding claims, characterized in that the sensor (4) is formed in the receptacle (2). Manual screwdriver (1) according to one of the preceding claims, characterized in that the sensor (4) is a mechanical and / or electrical and / or magnetic and / or optical sensor (4) and / or a resistance sensor and / or a contrast sensor and / or is a reading counterpart for an RFID chip. Manual screwdriver device (1) according to one of the preceding claims, characterized in that the sensor (4) is arranged in a housing (7) of the manual screwdriver device (1) and in that a light source (9) is formed in the housing (7) with which an optically perceptible presentation of the information (5) on the output insert (3) used can be illuminated. Handheld screwdriver (1) according to one of the preceding claims, characterized in that a means (10) for determining or measuring a state parameter of the handheld screwdriver (1) and a means for outputting a signal are formed and that the handheld screwdriver (1) is set up in Fulfill a condition that depends on the state parameter and the parameter to output the signal. Manual screwdriver (1) according to one of the preceding claims, characterized in that the manual screwdriver (1) has a data interface with which imported data can be transmitted to the setting unit (6) and that the setting unit (6) is set up as a function of the data to change an implementation of the read information (5) into a setting of the parameter. Method for setting a parameter of a hand-held screwdriver (1), which is designed in particular according to one of the preceding claims, characterized in that information (5) presented on an output insert (3) inserted in a receptacle (2) of the hand-held screwdriver (1) is read out and that the parameter is set electronically on the basis of the information (5) read out. Method according to the preceding claim, characterized in that a state parameter of the hand-held screwdriver (1) is determined or measured and that a signal is output when a condition which depends on the state parameter and the parameter is met. Method according to one of the preceding claims, characterized in that data are loaded onto the hand-held screwdriver (1) and that, depending on the data, a conversion of the information read out (5) into a setting of the parameter is changed, in particular with the data from a smartphone , an app or a computer can be transferred to the handheld screwdriver (1).

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