DE202011110069U1 - Hand tool - Google Patents

Abstract

Hand tool with at least one sensor (10) for detecting at least one acceleration and at least one evaluation and / or control unit (12), characterized by at least one sensor (14) which is at least substantially provided to detect a spatial orientation wherein at least one of the sensors (10, 14) is at least substantially formed by a MEMS (16).

Description

State of the art

Hand tool machines with at least one sensor for detecting acceleration and at least one evaluation and / or control unit are already known.

Disclosure of the invention

The invention is based on a handheld power tool with at least one sensor for detecting at least one acceleration and with at least one evaluation and / or control unit.

It is proposed that the handheld power tool has at least one sensor which is at least substantially intended to detect a spatial orientation, wherein at least one of the sensors is at least substantially formed by a MEMS.

In this context, a "sensor" is to be understood as meaning, in particular, an element which is provided, in particular, for converting at least one measured variable, preferably at least one physical measured variable, into a signal which is preferably formed by an electrical voltage. By "provided" is intended to be understood in particular specially programmed, designed, configured and / or equipped. Preferably, the sensor is provided to detect in particular a distance, an acceleration and / or a speed. In a particularly preferred embodiment, the sensor is provided to detect at least one angular acceleration of the power tool, in particular about a rotation axis of an insertion tool of the power tool.

Alternatively or additionally, the sensor may be provided to detect an angle, in particular exceeded by the power tool, in particular about the axis of rotation of the tool insert of the power tool.

The abbreviation "MEMS" should in this context mean in particular "MicroElectroMechanicalSystem" or "micro-electro-mechanical system". In this context, a "MEMS" is to be understood as meaning, in particular, a sensor which is intended to be able to carry out measuring applications in the areas of acceleration, inclination, shock, vibration and / or pressure and whose largest dimension is in particular less than 20 mm, preferably less than 10 mm and more preferably less than 5 mm. In a particularly preferred embodiment, the largest dimension of the MEMS is less than 3 mm. The MEMS may preferably be formed or produced from at least 50%, in particular at least 70%, preferably at least 80% and particularly preferably at least 90%, of silicon. As a result, an advantageously kleinbauender, compact and inexpensive sensor and a preferably high measuring speed can be achieved.

In this context, an "evaluation and / or control unit" should be understood as meaning, in particular, a unit which is provided to detect the signal generated in particular by the at least one sensor, to at least partially filter out interfering influences, to compare them with a reference variable, to evaluate them and In particular, depending on the evaluation of the incoming signal, at least one further signal, preferably formed by an electrical voltage, is generated and output. In a particularly preferred embodiment, the at least one output signal of the evaluation and / or control unit effects at least one reaction. The at least one reaction can be formed by an output of a particularly audible, optical and / or haptic signal perceivable by a user of the handheld power tool. The signal is intended, in particular, to cause an adaptation of the measured variable to be measured by the sensor to a predetermined reference value, preferably by a user and / or automatically by a further unit of the handheld power tool. Alternatively or additionally, the at least one reaction can be formed by a control signal which can be forwarded to a unit, such as in particular a drive and / or brake unit, and which preferably shuts down the drive unit of the handheld power tool and / or actively brakes the drive unit and / or the insert tool, in particular by means of the brake unit, can cause. There are also other, a professional appear reasonable sense conceivable reactions. In this context, a "spatial orientation" should be understood to mean, in particular, an orientation of the handheld power tool, in particular an axis and / or plane of the handheld power tool, in a two-dimensional plane, preferably in a three-dimensional space.

The hand tool can be formed by a drill or impact drill, a chisel or hammer drill or a cordless screwdriver. It is also conceivable to form the hand tool according to the invention as a circular saw. There are also other embodiments of the hand-held power tool which appear meaningful to a person skilled in the art, in particular as Hand tool with rotating driven tools, conceivable. In particular, the at least one sensor, which is at least substantially intended to detect a spatial orientation, can also advantageously be combined with further, in particular as a jigsaw, router, angle grinder, oscillating tool or other, which appears appropriate to a skilled hand power tools.

By virtue of the embodiment according to the invention, an advantageously high level of safety can be achieved for a user of the handheld power tool, in particular in the case of an uncontrolled locking case of the handheld power tool. In addition, an advantageous high ease of use and a preferably precise work result can be achieved.

It is also conceivable that the sensors are formed at least substantially in one piece and form a sensor unit. By "at least substantially" is to be understood in particular that a deviation from a predetermined value in particular less than 25%, preferably less than 10% and more preferably less than 5% of the predetermined value deviates. By "one-piece" in particular is at least materially connected, for example, by a welding process, an adhesive process, an injection process and / or another, the skilled person appear useful process, and / or advantageously formed in one piece, such as by a production of a cast and / or by a production in a single or multi-component injection molding process and advantageously from a single blank. Preferably, the sensors have at least one, preferably at least two, and more preferably at least three common components, such as a housing, a circuit board or other components that appear meaningful to a person skilled in the art. In a particularly preferred embodiment, the functions of the sensors are contained in a single sensor.

As a result, an advantageously compact and space-saving design of the sensor unit can be achieved.

It is also proposed that the handheld power tool comprises at least one output unit. In this context, an "output unit" is to be understood as meaning, in particular, a unit which is provided to generate, in particular as a function of the at least one outgoing signal of the evaluation and / or control unit, a signal perceptible to an operator of the handheld power tool.

As a result, advantageous informing of a user of the handheld power tool can be achieved via a state of the handheld power tool during operation of the handheld power tool.

It is also conceivable that the output unit comprises at least one optical, acoustic and / or haptic output element. As a result, a particularly preferred and clearly perceptible signal for informing a user about a state of the power tool, in particular during operation, can be ensured.

Furthermore, it is proposed that the handheld power tool comprises at least one damping unit which is at least substantially provided for damping at least one of the two sensors. By "damping" in this context, in particular a reduction of vibrations and / or shocks that may arise in an operating state of the power tool, in particular at least 25%, preferably at least 50%, preferably at least 70% and more preferably at least 80th % be understood. In a particularly preferred embodiment, vibrations and / or shocks which may arise in an operating state of the handheld power tool, at least substantially completely reduced. The damping unit may preferably comprise at least one damping element formed by a viscous mass. Alternatively or additionally, the damping unit may comprise at least one damping element formed by a spring-damper system.

As a result, a preferably long service life of the sensors and an advantageously precise measurement result can be achieved.

Furthermore, it is proposed that the evaluation and / or control unit comprises at least one memory element which is provided at least essentially for storing at least one spatial orientation. A "memory element" is to be understood in particular an element which is intended to store at least one piece of information, advantageously independent of a power supply. Advantageously, the memory element stores a spatial orientation of the power tool as a reference value. The storage can preferably be carried out at the beginning of a machining operation or operating state with an activation of the power tool or manually set. It is also conceivable to provide a switching element which is provided, upon actuation by a user, the current spatial orientation of To store hand tool as a reference value. Alternatively or additionally, the desired spatial orientation may be selected by an operator from a selection of pre-set spatial orientations. The selection of preset spatial orientations comprises in particular a horizontal and a vertical spatial orientation of the axis of rotation.

As a result, an advantageously high degree of flexibility and a preferably high level of operating convenience for a user of the handheld power tool can be achieved in an advantageously simple manner.

drawing

Further advantages emerge from the following description of the drawing. In the drawing, an embodiment of the invention is shown. The drawing, 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 hand tool according to the invention in a perspective side view,

2 the hand tool in a top view and

3 a flow chart of the hand tool of the invention in a schematic representation.

Description of the embodiment

1 shows a hand tool machine by a percussion drill 34 is formed. The hand tool has a tool holder 36 in which is an insert tool formed by a drill 38 is held. At one of the tool holder 36 turned away end, the power tool has a handle 40 on. The handle 40 has a switching element 42 by means of which an operator drives a unit 44 activate the power tool. The drive unit 44 is formed by an electric motor.

Inside a housing 46 the hand tool is a sensor unit 18 arranged. The sensor unit 18 gives a signal in an operating state 48 to an evaluation and / or control unit 12 further. The evaluation and / or control unit 12 is inside the case 46 arranged the hand tool. The evaluation and / or control unit 12 is intended to receive incoming signals 48 from the sensor unit 18 to filter, evaluate and send to an output unit 20 as corresponding converted signals 50 . 52 pass.

The sensor unit 18 includes a sensor 10 , which is intended to detect an acceleration and an angular position of the power tool. The sensor 10 is intended to provide angular acceleration about an axis 54 capture. The axis 54 runs parallel to a rotation axis 56 in the tool holder 36 held insert tool 38 , Can a user of the power tool this in blocking the insert tool 38 no longer hold, the power tool leads an accelerated rotational movement about the axis of rotation 56 by. This acceleration and the angular position of the power tool around the axis of rotation 56 be from the sensor 10 recorded and to the evaluation and / or control unit 12 passed. If the acceleration and / or the angular position exceed a maximum permissible value, this is done via the evaluation and / or control unit 12 a shutdown of the drive unit 44 and an activation of a brake unit 58 to an active braking of the drive unit 44 causes. Basically, also on the brake unit 58 be waived.

The sensor unit 18 includes a sensor 14 , which is intended to detect a spatial orientation of the power tool. The detected in an operating state of the power tool spatial orientation of the power tool is sent to the evaluation and / or control unit 12 forwarded. There, the detected spatial orientation of the power tool is compared with a predetermined value, which is formed by a desired spatial orientation. The evaluation and / or control unit 12 includes a memory element 32 which stores a spatial orientation of the power tool at a start of operation of the power tool as a desired spatial orientation. Dips in an operating state of the power tool, the detected spatial orientation of the power tool from a desired spatial orientation, the signals 52 from the evaluation and / or control unit 12 to the output unit 20 passed, causing the output unit 20 is at least partially activated.

The output unit 20 is intended to inform the operator via an audible, visual and haptic signal about a state of the power tool. For this purpose, the output unit comprises 20 next to the brake unit 58 a first optical output element 22 , The first optical output element 22 is designed as an LCD display. The first optical output element 22 is on a side surface of the housing 46 arranged. The first optical output element 22 is intended to inform a user of the power tool, in particular by means of pictograms on the detected spatial orientation of the power tool relative to the desired spatial orientation.

Furthermore, the output unit comprises 20 a second optical output element formed by LEDs 24 ( 2 ). The second optical output element 24 is at a top of the housing 46 arranged the hand tool. The LEDs of the second optical output element 24 are arranged so that they form a cross.

Lighting up the individual LEDs indicates to an operator both direction and magnitude of deviation of the detected spatial orientation of the handheld power tool from the desired spatial orientation.

The output unit 20 also includes an acoustic output element 26 , The acoustic output element 26 is formed by a speaker, which is in the case 46 the hand tool is fitted. In addition, the output unit includes 20 a haptic output element 28 , The haptic output element 28 is intended to automatically reduce a speed in an operating state of the power tool to make a user aware of a deviation of the detected spatial orientation of the power tool of the desired spatial orientation.

The sensors 10 . 14 are integrally formed and form the sensor unit 18 , The sensor 10 and the sensor 14 are from a MEMS 16 (micro-electro-mechanical system) formed. The MEMS 16 is formed to a large extent of silicon. The sensor unit 18 is mounted so that a transmission of vibrations that arise in an operating state of the power tool, on the MEMS 16 reduced or at least partially prevented. For this purpose, a damping unit 30 intended. The damping unit 30 comprises a viscous mass in which at least the MEMS 16 is floating.

Claims (11)

Hand tool with at least one sensor ( 10 ) for detecting at least one acceleration and with at least one evaluation and / or control unit ( 12 ), characterized by at least one sensor ( 14 ), which is at least substantially intended to detect a spatial orientation, wherein at least one of the sensors ( 10 . 14 ) at least substantially from a MEMS ( 16 ) is formed. Hand tool according to claim 1, characterized in that at least one damping unit ( 30 ), which at least substantially to an attenuation of at least one of the sensors ( 10 . 14 ) is provided, wherein in particular a reduction of vibrations and / or shocks, which may arise in an operating state of the power tool, by at least 25%, preferably by at least 50%, preferably by at least 70% and more preferably by at least 80%. Hand tool according to claim 2, characterized in that the damping unit ( 30 ) comprises at least one of a viscous mass formed damping element and / or at least one of a spring-damper system formed damping element. Hand tool according to claim 1, characterized in that the sensors ( 10 . 14 ) are formed at least substantially in one piece and a sensor unit ( 18 ) form. Hand tool according to one of the preceding claims, characterized in that the evaluation and / or control unit ( 12 ) at least one memory element ( 32 ), which is provided at least substantially for storing at least one spatial orientation. Hand tool according to one of the preceding claims, characterized by a maximum dimension of the MEMS largest dimension less than 20 mm, in particular less than 10 mm, preferably less than 5 mm, more preferably less than 3 mm measures. Hand tool according to one of the preceding claims, characterized in that the MEMS to be at least 50%, in particular at least 70%, preferably at least 80% and more preferably at least 90% of silicon formed or manufactured. Hand tool according to one of the preceding claims, characterized in that the evaluation and / or control unit ( 12 ) is provided, the signal generated in particular by the at least one sensor ( 48 ) to detect disturbing influences at least partially, to compare with a reference variable, evaluate and / or in particular depending on the evaluation of the incoming signal ( 48 ) at least one further signal, preferably formed by an electrical voltage ( 50 . 52 ) to generate and output. Hand tool according to claim 8, characterized in that the at least one output signal ( 50 ) of the evaluation and / or control unit ( 12 ) causes at least one reaction, wherein the at least one reaction is formed by a control signal to a unit, such as in particular a drive and / or brake unit ( 44 . 58 ), and preferably a shutdown of a drive unit ( 44 ) of the power tool and / or active braking of the drive unit ( 44 ) and / or an insertion tool ( 38 ), in particular by means of the brake unit ( 58 ). Powered hand tool according to claim 8 or 9, characterized in that at least one output unit ( 20 ) is provided, which at least one optical, acoustic and / or haptic output element ( 22 . 24 . 26 . 28 ) and in such a way to the at least one output signal ( 52 ) of the evaluation and / or control unit ( 12 ) is reacted, that at least one output of a particular acoustic, optical and / or haptic and perceptible by a user of the power tool signal is formed, the signal ( 52 ) is further provided for an adaptation of the sensor ( 10 . 14 ) to be measured to a predetermined reference value, preferably by the user and / or automatically by another unit of the power tool to cause. Powered hand tool according to claim 9 and 10, characterized in that the hand tool is formed by a drill or impact drill, a chisel or hammer drill or a cordless screwdriver.

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