DE102009026492A1 - hand tool - Google Patents

Abstract

The invention is based on a hand tool, in particular a hand measuring tool, with a computing unit (12a, 12b), an output unit (14a, 14b) and a tool action means (16a, 16b, 18a), which is provided for performing a main operating process. It is proposed that the computing unit (12a, 12b) have at least one routine (20a, 20b) which accesses at least one piece of information from the tool action means (16a, 16b, 18a) at least when user information is input.

Description

State of the art

The invention is based on a hand tool according to the preamble of claim 1.

A hand tool, in particular a hand-held measuring tool, has already been proposed with a computer unit, an output unit and a tool action means provided for carrying out a main operating procedure.

Disclosure of the invention

The invention is based on a hand tool, in particular a hand-held measuring tool, with a computing unit, an output unit and a tool action means, which is provided for carrying out a main operating operation.

It is proposed that the arithmetic unit has at least one routine which, at least in the case of a user information input, accesses at least one item of information of the tool action means. A "hand tool" is to be understood in particular as meaning a hand-held measuring tool, a construction laser, a hand-held power tool such as a drill, a rotary hammer, a saw, a planer, a screwdriver, a milling cutter, a grinder and / or another hand tool that appears appropriate to a person skilled in the art , The respective main operations of these hand tools are known to those skilled in the art. A "hand-held measuring tool" is to be understood, in particular, as meaning a hand tool whose main operating procedure is to determine and / or determine a measurement result. The hand-held measuring tool is advantageously designed as a locating device, as a distance measuring device, as a tilt measuring device, as an angle measuring device and / or as another hand-held measuring tool that appears meaningful to a person skilled in the art. A "main operating process" should or should be understood in particular as a central process or central processes and / or a most important process or most important processes of the hand tool. In particular, the main operation determines a principle of the hand tool. Advantageously, the user information input and the main operation are two operations that take place at different times and / or periods. That is, they do not take place at the same time. In particular, the user information input occurs before or before each main operation. Particularly advantageously, the main operating process is designed as a measuring process and / or as a processing operation. A "tool action means" is to be understood in particular as a means which is provided directly or directly for carrying out the main operating procedure. For example, the tool action means in the hand-held measuring tool is a measuring sensor unit and / or in the case of a construction laser a laser unit and / or laser optics, or their actuators and / or in the case of a hand-held power tool the drive train. An "information of the tool action means" is to be understood in particular an information that is directly and / or mechanically changeable by a user. In this context, "information" should be understood to mean, in particular, an alignment or arrangement of the tool action means with respect to another part of the hand tool or another object, a measurement result of the tool action means and / or another information that appears expedient to the person skilled in the art. In particular, the term "computing unit" is to be understood as meaning a microcontroller having at least one processor, a memory unit and an operating program stored in the memory unit and / or at least one routine stored in the memory unit. The term "routine" should be understood in particular a program part which is intended to be executed by the processor. An "output unit" is to be understood in particular as meaning a unit and / or a device that provides at least one piece of information, in particular at least one input information, in such a way that a user can interpret and / or understand it. An "input information" should be understood to mean, in particular, a possible input information, a character of a character set, a routine selection of a routine of the arithmetic unit and / or another input information that appears appropriate to the person skilled in the art. By "provided" is to be understood in particular specially equipped, designed and / or programmed. In a "user information input", a user informs the arithmetic unit of at least one input information or a user selects an input information.

The inventive design of the hand tool can advantageously be dispensed with a complex and separately executed input means, which is provided for user information input, for example, a keyboard and / or a numeric keypad. As a result, advantageous space, components and design effort can be saved, resulting in low cost and still allows a particularly comfortable and fast user information input.

In an advantageous embodiment of the invention it is proposed that the tool action means comprise a sensor unit which is provided for carrying out a measuring operation. In this case, the measuring process is advantageously the main operating process of the hand tool. Particularly advantageous is the tool tool as the Sensor unit formed. Alternatively and / or additionally, the measuring process is a process in which the sensor unit measures the information of the tool action means. In this case, the measuring operation is an operation independent of the main operation of the hand tool. A "sensor unit" is to be understood in particular as a device having at least one sensor. Preferably, the sensor is provided at least for measuring the information of the tool action means. A "measurement process" is to be understood as meaning, in particular, a process whose goal is at least one generation of at least one measurement result. A "measurement result" is to be understood in particular as meaning a measured value of a physical quantity. Advantageously, this physical quantity is designed as a path length. Advantageously, a change of the information and a change of a current input information are linear to each other. By means of the sensor unit, the information that is used for the user information input can be structurally determined.

In a further embodiment, it is proposed that the routine be provided for a user identification. In a "user identification" in particular it is determined whether a user is authorized to use the hand tool. Advantageously, the information which the arithmetic unit makes use of is at least prior to a successful user identification by the user of a measurement result and / or a measured physical variable directly unzuordenbar or not assignable. By user identification by means of the routine, it may be possible to advantageously prevent the hand tool from being used by an unauthorized user.

Furthermore, it is proposed that the arithmetic unit be provided to prevent the execution of the main operating procedure of the tool action means in the event of a missing and / or unsuccessful user identification. In the case of an "unsuccessful user identification", the routine has detected in particular an unauthorized user and / or a user with a lack of authorization to use the hand tool. Advantageously, the user identification is done by a password input. Due to the fact that the arithmetic unit prevents execution of the main operating procedure of the tool action means, it is advantageously possible to achieve a low material value for an unauthorized user and / or a user with a lack of authorization and thus achieve a low theft risk of the hand tool.

It is also proposed that the information of the tool action means is dependent on at least one path length. The term "path length" is to be understood in particular a length of a route. In this case, "a length of a route" is to be understood in particular to mean a route that travels the hand tool relative to an object or to a test object and / or a part of the hand tool relative to another part of the hand tool. For example, the path may in particular be a circular path which covers a point on a measuring wheel and / or on a rotating laser head with respect to an axis of the measuring wheel and / or the rotating laser head, in particular if the measuring wheel and / or the rotating laser head are manually rotated by a user. By a dependence of the information on the path length, a particularly comfortable user information input for the user can be achieved.

Furthermore, it is proposed that the sensor unit has at least one touch-transmitted sensor. A "touch-transmitted sensor" is to be understood, in particular, as a tactile sensor which receives and / or determines the information of the tool-action means by means of a mechanically transmitted variable. For example, a transmission of the path in a rotational movement takes place mechanically. In particular, there is a mechanical contact between the sensor and a measurement object. Preferably, a determination or a recording of the information takes place without contact within the sensor. The sensor is advantageously designed as a measuring wheel with a light barrier, with a Hall sensor and magnet, with an angle meter, with a rotation angle sensor, with a motor acting as a generator and / or as another contact-mediated sensor that appears appropriate to the person skilled in the art. A touch-sensitive sensor is particularly inexpensive and advantageous to constructively easy to integrate into the device. Alternatively and / or additionally, the sensor may also be designed as a non-contact sensor. A "non-contact sensor" should in particular be understood to mean a sensor which receives and / or determines the information of the tool action means without contact. Advantageously, the non-contact sensor is free of moving parts during a measurement. Preferably, the non-contact sensor is a one-dimensional or multi-dimensional acceleration sensor, an inclinometer, a camera, a photosensitive array, a laser sensor, an ultrasonic sensor, a radar sensor such as Doppler locating, a resistive sensor, a capacitive sensor, and the like or as another, the skilled person appears reasonable sense sensor. In a multi-dimensional acceleration sensor, a two- or three-dimensional path is assigned to input information. For example, the user may freely release the hand tool in space in the form of a character, for example in the form of a number and / or a letter, move. A non-contact sensor is particularly reliable, durable and can be used to advantage for measurements over long distances and in inaccessible places.

In addition, it is proposed that the routine is intended to evaluate a rate of change in a user information input. Preferably, the routine evaluates at least one rate of change of the information or the path length in a user information input. A "rate of change" is understood in particular to mean a value which can be assigned to a variable of a change in the information or the path length per unit of time. In the case of a user information input, a change of a current input information, for example a marking of an input information, is preferably disproportionate to the rate of change, for example a path length. That is, the rate of change of a current input information and a change in the information of the tool action means are non-linear with each other. Under "evaluate" should be understood in particular also considered. By evaluating the rate of change, a particularly convenient and fast user information input can be achieved.

In an advantageous embodiment of the invention, it is proposed that the routine has at least one confirmation routine which is provided for a confirmation of at least one input information by a user. In particular, an "acceptance" is to be understood as acceptance or selection of the input information by the user. By confirming the input information, it is particularly easy to select a specific input information from a set of possible input information.

In a further embodiment, it is proposed that the routine has at least one confirmation routine which is provided for an automatic confirmation of at least one input information item. An "automatic confirmation" is to be understood in particular as meaning that the confirmation routine recognizes acceptance of the input information by the user, in particular with regard to his behavior. The behavior is advantageous in this case a certain movement, which has a certain change in the path length result, such as a particularly fast or slow or no change. Advantageously, a confirmed input information is readable, as a character, temporarily readable or unreadable, for example, always issued as a symbol like a star. Through the automatic confirmation, an input can be achieved only by an evaluation of the information of the tool action means and so the cost and a design effort for an input means can be saved.

Furthermore, at least one input means is proposed whose status evaluates the routine in the user information input. In this context, a "status" should be understood as meaning, in particular, a state of the input means to which the information that the user has actuated the input means is assigned. By the input means a particularly fast and simple user information input can be achieved.

Furthermore, it is proposed that the routine has at least one correction routine which is provided for the correction of at least one input information. In particular, the correction routine is provided for correcting at least one confirmed input information. The term "for correction" is to be understood in particular as meaning that the routine is intended to reverse the confirmation of the input information by the user. At least one confirmation can be undone by the correction routine. A user then does not have to re-enter all the input information already entered in the event of an inadvertent and / or incorrect confirmation and can thus save time.

In addition, it is proposed that the output unit is intended to output at least one input information. Advantageously, the output unit is provided to output at least one possible input information. The term "spend" should be understood to be understandable and / or interpretable, in particular for a user. The output unit is preferably designed as a display with a dot matrix or a segment matrix, as a plurality of light sources, for example LEDs, as a liquid crystal display (LCD), as an OLED display, as a loudspeaker and / or as an image projector. By outputting the input information, the user can advantageously be shown and / or mediated with a plurality of possible input information and / or confirmed input information.

In an advantageous embodiment of the invention, it is proposed that the output unit is provided to visually represent at least one input information. By "optically" is intended to be understood in particular also by means of light in a visible wavelength range. An optical representation, the user can read and / or capture particularly comfortable and fast.

Furthermore, it is proposed that the output unit is provided, at least to output an input information acoustically. Under "output acoustically" is to be understood in particular by sound waves spend. By means of an acoustic output, the input information can be output particularly inexpensively for hand tools without a display.

It is further proposed that the output unit is intended to project at least one input information onto a surface. By "projecting onto a surface" is meant, in particular, that the output unit illuminates a surface in such a way that at least the input information is or becomes visible on the surface. By projecting the input information onto a surface, a particularly large-scale representation of the input information can be achieved.

drawing

Further advantages emerge from the following description of the drawing. In the drawings, two embodiments of the invention are shown. The drawings, the description and the claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into meaningful further combinations.

Show it:

1 a first embodiment of a hand tool according to the invention, with a computing unit, a touch-mediated sensor and an output unit in a perspective view,

2 a schematic view of the arithmetic unit 1 .

3 an optical output of the output unit 1 and

4 a further embodiment of the hand tool with a non-contact sensor.

Description of the embodiments

1 shows a hand tool 10a , which is designed as a hand-held measuring tool or as a hand-held tool, in a perspective view. The hand tool 10a has an arithmetic unit 12a , an output unit 14a , a first tool action means 16a , a second tool action means 18a , three input means 36a . 38a . 40a , a housing 48a and a handle means 50a on. The first tool action agent 16a and the second tool action means 18a are for performing a main operation of the hand tool 10a intended. In a main operation of the hand tool 10a lead the two tool action means 16a . 18a together a two-dimensional measurement process.

The first tool action agent 16a is as a first sensor unit 22a educated. The first sensor unit 22a is intended for performing a measuring operation. For this purpose, the first sensor unit 22a four touch-sensitive sensors 30a on. The sensors 30a each have a measuring wheel 52a and a not-shown Segmentrad on. The measuring wheels 52a and the segment gears are rotatably connected to each other and rotatable in the housing 48a stored. Furthermore, the sensors have 30a in each case a light barrier, not shown. Each of the light barriers is arranged in a region of a segment wheel. The photoelectric sensors each determine axis rotations of the measuring wheels during a measuring operation 52a or the segment wheels.

During a measuring operation, the measuring wheels touch 52a the area 46a a measurement object 54a , The sensors 30a or the measuring wheels 52a are on one edge 56a a top 58a and on one edge 56a one of the top 58a opposite bottom 60a of the hand tool 10a arranged. By an arrangement at the edges 56a extends an area of the measuring wheels 52a about one at the top 58a and the bottom 60a adjacent back 62 of the hand tool 10a out in the direction of the plane 46a of the measurement object 54a , Here is the measurement object 54a formed as a wall. Thus, the area transmits 46a a movement of the hand tool 10a on the measuring wheels 52a , The path length 26a runs parallel to a surface 46a of the measurement object 54a , At an interface, not shown, the first tool action means 16a or the first sensor unit 22a the information, that is the information about the axis rotation determined by the photocells, from. Thus, the information of the first tool action means 16a from a path 26a dependent on the hand tool 10a relative to a measurement object 54a travels.

On the back side 62 of the hand tool 10a is the second tool action 18a arranged. The backside 62 is a side of the hand tool 10a that a display 64a the output unit 14a and the handle means 50a turned away. The second tool action 18a is as a second, non-contact sensor unit 24a educated. This second sensor unit 24a has a location sensor, not shown. During a regular measurement operation, this position sensor detects the measurement object 54a and others in the measurement object 54a arranged measuring objects 66a , This detection takes place by means of a high-frequency capacitive measurement. In this case, the second sensor unit determines 24a a path 28a and gives these as information of the second tool action means 18a out. The second sensor unit 24a acts in a direction perpendicular to the back 62 of the hand tool 10a in one of a front 68a opposite direction.

During measuring operation, a user not shown moves the hand tool 10a along the surface 46a of the measurement object 54a , During this time, an operating program, not shown in more detail, combines the processing unit 12a the information of the two tool actions 16a . 18a or the two sensor units 22a . 24a , This combination results in a two-dimensional image of the measurement object 54a and the measurement objects arranged therein 66a , The user can make decisions about a machining of the measurement object based on this measurement 54a cases.

The three input means 36a . 38a . 40a are like the output unit 14a on the front side 68a of the hand tool 10a appropriate. They are between the display 64a the output unit 14a and the handle means 50a arranged in a row. The three input means 36a . 38a . 40a are designed as input keys.

The output unit 14a shows the display 64a , a speaker 70a and an image projector 72a on. These give multiple input information in the user information input 34a . 44a out. In doing so, put the display 64a and the image projector 72a the input information 34a . 44a as in 3 shown in more detail visually. The display 64a has a dot matrix. The speaker 70a audibly outputs possible input information in the user information input. The image projector 72a projects the input information 34a . 44a on a surface, here on the surface 46a of the measurement object 54a laterally next to the hand tool 10a , The speaker 70a and the display 64a are on the first tool action 16a or the first sensor unit 22a facing away from the front 68a of the hand tool 10a arranged. The image projector 72a is on one side of the hand tool 10a arranged the back 62 and the front 68a combines. In this embodiment, the image projector 72a an LCD projector not shown with an LED light source on.

Between the first tool action 16a and the output unit 14a , inside the case 48a of the hand tool 10a is the arithmetic unit 12a arranged. This is indicated by the hand tool 10a a circuit board 74a on. On the board 74a is the arithmetic unit 12a appropriate. Further, on the board 74a further, not shown in detail, to those skilled appear reasonable components, such as components of a power supply arranged. The arithmetic unit 12a is designed as a microcontroller.

As 2 indicates, points the arithmetic unit 12a a processor 76a , a storage unit 78a that in the storage unit 78a stored operating program 80a and a plurality of routines stored in the storage unit 20a . 32a . 42a on. A routine 20a accesses the information of the first tool action means in the user information input 16a back. This routine 20a is intended for user identification. Furthermore, the arithmetic unit 12a three interfaces 82a . 84a . 86a on. By means of the interfaces 82a . 84a . 86a communicates the arithmetic unit 12a with the first tool action 16a , with the second tool action means 18a , with the output unit 14a and with the input means 36a . 38a . 40a ,

In a user identification, the user gives a password 88a ( 3 ) in the hand tool 10a one. The password 88a is designed as a four-digit PIN and in 3 partly confirmed or entered. Missing or not entered elements of the password 88a are shown as underscores. The arithmetic unit 12a prevents the execution of the main operation of the tool action means in case of missing and unsuccessful user identification 16a . 18a , That is, the arithmetic unit 12a does not give a measurement result of the first tool action means 16a , nor a measurement result of the second tool action means 18a out. Only after a successful user identification gives the arithmetic unit 12a by means of the output unit 14a a quantitative measurement result, that is a measurement result of the path length 28a along the path 26a , out.

3 shows an optical output 90a the output unit 14a during the user identification, as the display 64a and the image projector 72a output. The edition 90a shows a current input information 34a , confirmed input information 44a , three virtual buttons 92a . 94a . 96a and other symbols 98a at. The current input information 34a is as a sign 100a a character set 102 of the password 88a or as an input information 34a formed the possible input information. The current input information 34a is marked by a marker. The marking is designed as a hatching. Which of the signs 100a of the character stock 102 or which of the virtual buttons 92a . 94a . 96a as input information 34a is an information of the first tool action means 16a dependent.

The routine 20a referring to the information of the tool action 16a falls back, adds value a user information input next to the path length 26a also change speeds of the path length 26a out. Depending on the rate of change, the marking jumps according to a different path length 26a to another character 100a of the character stock 102 further. At a large rate of change of the path length 26a the marking jumps after a smaller change of the path length 26a further. The path length 26a For example, the user changes by using the hand tool 10a and / or if possible the measurement objects 54a emotional. For example, walls, a user's hand or other objects that appear useful to the person skilled in the art may serve as possible measurement objects. Alternatively, the user may also select by an operation of the two external input means 36a . 40a move.

During a user information entry, the user moves the hand tool, as when measuring 10a parallel to the surface 46a of the measurement object 54a , on the surface 46a along. In doing so, the first tool action means determines 16a with the touch-transmitted sensors 30a the path length 26a , Alternatively, the user can use one of the measuring wheels 52a rotate. The user selects a character 100a of the character stock 102 by changing the path length 26a out by the hand tool 10a until the marker marks the desired character. Then, the user confirms the input information 34a with an input means 38a the input means 36a . 38a . 40a , The routine 20a , which relies on the information, or the arithmetic unit 12a evaluates a status of this input means in the user information input 38a out. It recognizes that the input means 38a has been pressed and calls a confirmation routine 32a the routine 20a on. The confirmation routine 32a confirms the input information 34a the user. Alternatively, the user may request automatic confirmation of the input information 34a wait for the confirmation routine 32a after a period in which always the same sign 100a of the character stock 102 is selected automatically.

If the user accidentally has an unwanted character 100a of the character stock 102 or an unwanted input information 44a confirmed, he leads by means of another, not shown input means or by means of a virtual key 92a a correction routine 42a the routine 20a out. The virtual button 92a also provides a possible input information 34a dar. The correction routine 42a is for correcting a confirmed input information 44a intended. By means of another virtual button 94a the user can enter all already confirmed input information 44a delete all at once.

By means of in the 3 right-side virtual key 96a or by means of the input means 38a with which the user enters the input information 34a confirmed, the user or the routine ends 20a the user information input when the correct password has been entered. Subsequently, the hand tool 10a for the main operation, that is to be measured by the user.

In the 4 a further embodiment of the invention is shown. To distinguish the embodiments, the letter a in the reference numerals of the embodiment in the 1 . 2 and 3 by the letter b in the reference numerals of the embodiment in the 4 replaced. The following descriptions are essentially limited to the differences between the embodiments, with respect to the same components, features and functions can be made to the description of the other embodiment.

In the case of the reference numerals, which are exclusively in 2 and 3 shown and labeled with the letter a, in the embodiment in the 4 on the 2 and 3 directed. The components, features and functions described herein are descriptive of the same for both embodiments.

4 shows a hand tool 10b , which is designed as a hand-held distance measuring device. The hand tool 10b has an arithmetic unit 12b , an output unit 14b and a tool action agent 16b on. The arithmetic unit 12b has a routine 20b (corresponding 20a in 2 ), which in case of a user information input to an information of the tool action means 16b recourse. The tool action agent 16b has a sensor unit 22b on. The output unit 14b has a display 64b and an image projector 72b on. the display 64b is at a front 68b of the hand tool 10b arranged. the display 64b provides input information 34b . 44b (corresponding 34a . 44a in 3 ) optically, as described in the first embodiment, dar. The image projector 72b is at a top 58b of the hand tool 10b arranged at right angles to the front 68b is aligned.

The sensor unit 22b has a non-contact sensor 104 b and a laser light source 106b on. The sensor 104 b and the laser light source 106b are like the image projector 72b , on the top 58b of the hand tool 10b arranged. The image projector 72b and the sensor 104 b act in a same direction, namely parallel to one of the sensor unit 22b to be measured path length 26b or perpendicular to the top 58a of the hand tool 10b , The sensor 104 b determined based on one of the laser light source 106b emitted light a stretch of path 26b between a surface 46b a measurement object 54b and the hand tool 10b , The path length 26b is the information of the tool tool 16b to which the routine 20b recourse. Upon user information entry, the sensor continually measures the path length 26b ,

The hand tool 10b has a single input means 38b , with a single binary status. The input device 38b is at the front 68b in one of the top 58b remote area next to the display 64b arranged. The input device 38b calls a confirmation routine 32b (corresponding 32a in 2 ) of the routine 20b on. A correction routine 42b (corresponding 42a in 2 ) is called as described in the first embodiment, by means of a virtual key.

The user information input by means of a non-contact sensor unit 22b as they are in the in 4 is described embodiment, is so well with the hand tool 10a possible in the in the 1 . 2 and 3 embodiment shown is described. This is where the routine comes in 20a in a user information input to an information of the tool action means 18a acting as a non-contact sensor unit 24a is formed, back. An evaluation by the non-contact sensor unit 24a measured path length 28a takes place as in the embodiment in 4 for the path 26b described. In addition, for example, a user of a successful user identification by means of a menu, not shown, select whether a subsequent user information input from the information of the first tool action means 16a , from the information of the second tool action means 18a or the information of both tool actions 16a . 18a is dependent.

Claims (15)

Hand tool, in particular hand-held measuring tool, with a computing unit ( 12a . 12b ), an output unit ( 14a . 14b ) and a tool action agent ( 16a . 16b . 18a ) provided for carrying out a main operation, characterized in that the arithmetic unit ( 12a . 12b ) at least one routine ( 20a . 20b ), at least one user information input to at least one information of the tool action means ( 16a . 16b . 18a ). Hand tool according to claim 1, characterized in that the tool action means ( 16a . 16b . 18a ) a sensor unit ( 22a . 22b . 24a ) provided for performing a measuring operation. Hand tool according to claim 1 or 2, characterized in that the routine ( 20a . 20b ) is provided for a user identification. Hand tool according to claim 3, characterized in that the arithmetic unit ( 12a . 12b ) is provided, in the event of a missing and / or unsuccessful user identification, the execution of the main operating procedure of the tool action means ( 16a . 16b . 18a ) to prevent. Hand tool according to one of the preceding claims, characterized in that the information of the tool action means ( 16a . 16b . 18a ) at least one path length ( 26a . 26b . 28a ) is dependent. Hand tool according to at least claim 2, characterized in that the sensor unit ( 22a ) at least one touch-transmitted sensor ( 30a ) having. Hand tool according to one of the preceding claims, characterized in that the routine ( 20a . 20b ) is provided to evaluate a rate of change in a user information input. Hand tool according to one of the preceding claims, characterized in that the routine ( 20a . 20b ) at least one confirmation routine ( 32a . 32b ) for confirming at least one input information ( 34a . 34b ) is provided by a user. Hand tool according to one of the preceding claims, characterized in that the routine ( 20a . 20b ) at least one confirmation routine ( 32a . 32b ), which leads to an automatic confirmation of at least one input information ( 34a . 34b ) is provided. Hand tool according to one of the preceding claims, characterized by at least one input means ( 36a . 38a . 38b . 40a ) whose status is the routine ( 20a . 20b ) evaluates at the user information input. Hand tool according to one of the preceding claims, characterized in that the routine ( 20a . 20b ) at least one correction routine ( 42a . 42b ) for correcting at least one input information ( 44a . 44b ) is provided. Hand tool according to one of the preceding claims, characterized in that the output unit ( 14a . 14b ) is intended to at least one input information ( 34a . 34b . 44a . 44b ). Hand tool according to one of the preceding claims, characterized in that the output unit ( 14a . 14b ) is provided, at least one input information ( 34a . 34b . 44a . 44b ) visually represent. Hand tool according to one of the preceding claims, characterized in that the output unit ( 14a . 14b ) is provided, at least one input information ( 34a . 34b . 44a . 44b ) acoustically. Hand tool according to one of the preceding claims, characterized in that the output unit ( 14a . 14b ) is provided, at least one input information ( 34a . 34b . 44a . 44b ) on a surface ( 46a . 46b ) to project.

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