DE102012200819A1 - Method with a hand tool and a mobile computer - Google Patents

Abstract

The invention proposes a method with a handheld power tool (10) and a mobile computer (12), wherein the handheld power tool (10) transmits hand tooling information to the mobile computer (12) in one operation and the mobile computer (12) transmits the hand tool information during the operation at least processed.

Description

State of the art

It is in DE 10 2009 029 537 A1 A method has already been proposed with a hand tool and a documentation system, wherein a communication device of the hand tool communicates a parameter wirelessly to the documentation system for quality assurance.

Disclosure of the invention

A method is proposed with a handheld power tool and a mobile computer, wherein the handheld power tool transmits a hand tool information to the mobile computer during a work process and the mobile computer at least processes the hand tool information during the work process. In particular, should under a "hand tool" a, the expert appears reasonable sense portable tool, but advantageously a drill, a hammer, a hammer, a saw, a planer, a screwdriver, a milling cutter, a grinder, an angle grinder, a gardening tool and / or a multifunctional tool. The handheld power tool preferably has an electric drive unit. A "mobile computer" is to be understood in particular as a computer which is intended to be carried by an operator during operation. Preferably, the mobile computer comprises a battery for power supply in a mobile operation. Advantageously, the mobile computer for operation on a construction site is specially protected against environmental influences. The handheld power tool preferably has a communication interface which transmits the hand tool information to a communication interface of the mobile computer. Preferably, the mobile computer is designed as a mobile phone. A "mobile telephone" is to be understood, in particular, as a mobile computer which is intended to be held in a telephone conversation in the vicinity of a head of an operator. Preferably, the mobile computer is designed as a smartphone. A "working process" is to be understood to mean a process that appears appropriate to a person skilled in the art, at the end of which there is a result of work, but preferably drilling, chiselling, sawing, planing, screwing, milling, grinding, cutting and cutting / or a cutting. Preferably, the operation also includes an alignment of the power tool for the operation. In particular, a "communication interface" should be understood as an interface which is intended to send and receive data. The communication interface is as an interface that seems appropriate to the person skilled in the art, but preferably as a USB interface, as a LAN interface, as a W-LAN interface, as a Zigbee interface, as a mobile radio interface, for example UMTS, GPRS or LTE, and / or advantageously designed as a Bluetooth interface. By "hand tool information" is meant, in particular, information about a parameter of the handheld power tool, which changes in at least one operation. The hand tool information preferably describes a parameter that appears appropriate to the person skilled in the art, but advantageously a tendency, a torque, an energy consumption, a temperature, a battery voltage and / or a battery charge state. In particular, the term "transferred" should be understood to mean that the handheld power tool emits a signal with the hand tool information and the mobile computer receives the signal. Advantageously, the mobile computer has an application that at least processes the hand tool information during the work process. An "application" is to be understood as meaning, in particular, a computer program which can be executed on a mobile computer which appears expedient to the person skilled in the art. In particular, the phrase "during the work process" should be understood to mean that the mobile computer at least partially processes the hand tool information transmitted during the work process before the end of the work process. Preferably, the mobile computer processes the process-dependent information during the work process. By "at least process" should be understood in particular that the mobile computer performs at least one pending from the hand tool information calculation during the work process. By the method according to the invention structurally simple operation can be protected. In this case, an output unit, in particular a display with a size which is customary for one of the mobile computers, can advantageously be dispensed with on the handheld power tool.

In a further embodiment, it is proposed that the mobile computer outputs an information dependent on the hand tool information to an operator, whereby the information is advantageously made available to the operator during the work process. In particular, the phrase "information dependent on the hand tool information" should be understood to mean that the mobile computer prepares the hand tool information for a piece of information which appears meaningful to the person skilled in the art and understandable to the operator. For example, the mobile computer could convert binary transmitted information, particularly a battery charge state, into a decimal number understandable to the operator. Under "spend on an operator" should be understood in particular the mobile computer communicates the information to the operator visually, acoustically and / or tactually.

Furthermore, it is proposed that the mobile computer output a dependent on the hand tool information information in real time to the operator, whereby the operator can be supported in the operation particularly advantageous. In particular, the term "in real time" should be understood that the mobile computer, the information dependent on the hand tool information within 1 second, advantageously within 0.5 seconds, particularly advantageously within 0.2 seconds, after detecting the information through spends the hand tool.

Furthermore, it is proposed that the mobile computer output at least inclination information of an inclination sensor of the handheld power tool, whereby the operator can be advantageously assisted in aligning the power tool. An "inclination information" should in particular be understood to mean information indicating at least one orientation of the handheld power tool relative to a gravitational force. In particular, an "inclination sensor" is to be understood by a person skilled in the art as meaningful sensor, but advantageously an acceleration sensor having three mutually perpendicular measuring directions.

In addition, it is proposed that the mobile computer calculate a battery consumption of the power tool, whereby the operator can use this information to plan his work advantageous. A "battery consumption of the power tool" is to be understood in particular information that describes how much a hand tool battery of the power tool is unloaded during a work and / or in a period of time. In particular, the term "calculate" should be understood to mean that the mobile computer calculates the battery consumption of at least one hand tool information. Preferably, the mobile computer calculates an average battery consumption of a work process. Preferably, the mobile computer is intended to recognize when multiple similar operations are performed sequentially.

Furthermore, it is proposed that the mobile computer transmits at least one configuration information to the handheld power tool. In particular, a "configuration information" should be understood to mean information from which the handheld power tool performs a work process. Preferably, the configuration information is configured as a configuration information that appears expedient to the person skilled in the art, but preferably as a maximum torque and / or as a particular maximum rotational speed.

In an advantageous embodiment of the invention, a central database is proposed, to which the mobile computer transmits at least one of the hand tool information dependent information, whereby a development of future hand tool machines can be advantageously adapted to real work and advantageous information about an energy requirement of a work can be collected. A "central database" is to be understood, in particular, as a database which receives at least one hand tool information when several handheld power tools are being operated. Preferably, the central database comprises a server connected to the Internet.

Furthermore, it is proposed that the mobile computer stores hand tool information of several work processes, whereby work processes can advantageously be documented.

In addition, it is proposed that at least one communication interface of the handheld power tool wirelessly transmits the hand tool information, whereby a particularly comfortable working is possible. The term "wirelessly transmitted" should in particular be understood to mean that the communication interface transmits the parameter via an advantageously disembodied information carrier, for example via sound, light and / or preferably radio waves. Preferably, the data transmission means transmits the signal in particular over a distance of more than 25 cm through at least one isolator.

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.

Description of the embodiment

The figure shows a system 22 with a hand tool 10 , a mobile computer 12 and a central database 18 , The hand tool machine 10 is designed as a hammer drill. The hand tool machine 10 includes a tilt sensor 16 , a means of communication 20 , a computing unit 24 , a tool food 26 , a drive unit 28 , a hand tool battery 30 and a hand tool housing 32 , Of the Hand Tools Battery 30 is separable with the hand tool housing 32 connected. The hand tool housing 32 is designed pistol-shaped. The drive unit 28 drives the tool chuck at least during one operation 26 at. The tool chuck 26 attached a not shown here detail insert tool. The means of communication 20 the hand tool machine 10 is designed as a Bluetooth interface.

The mobile computer 12 is designed as a smartphone. The mobile computer 12 includes a first communication means 34 , a second means of communication 36 , a computing unit 38 and an input and output device. The input and output device comprises a loudspeaker 40 , a touch-sensitive screen 42 and a vibration generator 44 , The first means of communication 34 of the mobile computer 12 is designed as a Bluetooth interface. The second means of communication 36 of the mobile computer 12 is designed as a UMTS interface.

The hand tool machine 10 transfers hand tool information to the mobile computer during a work process 12 , The hand tool information includes tilt information 14 , a battery state of charge of the hand tool battery 30 , a voltage of the hand tool battery 30 , a course of a torque in the operation, a course of a rotational speed in the operation, a temperature of the drive unit 28 and a temperature of the hand tool battery 30 , The arithmetic unit 24 Collects the hand tool information and sends it via the means of communication 20 the hand tool machine 10 to the first means of communication 34 of the mobile computer 12 , The mobile computer 12 Processes the hand tool information at least partially during the work process.

The mobile computer 12 outputs information dependent on the hand tool information in real time to the operator. The mobile computer 12 gives in real time in at least one operating state during the work process acoustically and / or optically at least one tilt information 14 of the tilt sensor 16 the hand tool machine 10 out. Furthermore, there is the mobile computer 12 in real time in at least one operating state during the work process acoustically and / or optically at least one of a torque of the power tool 10 dependent characteristic, in particular acoustically and / or optically.

Furthermore, the mobile computer calculates 12 in at least one operating state for how many operations that resemble a last performed operation, the battery charge is sufficient. The mobile computer calculates this 12 a battery consumption of the power tool 10 , The mobile computer 12 outputs this number to the operator. In addition, the mobile computer gives 12 a tension of the hand tool battery 30 and a calculated maximum capacity of the hand tool battery 30 out. Furthermore, the mobile computer stores 12 Standard operations and calculates in at least one operating state how many standard operations are possible with the current battery state of charge. For example, screwing a 4 × 40 screw into oak wood and drilling a 10 mm hole into a 2 mm steel plate could be stored as a standard operation. In particular, the mobile computer stores 12 a large number of standard operations. Alternatively or additionally, the mobile computer could 12 Standard operations from the central database 18 recall.

Further, the mobile computer gives 12 a maximum torque in at least one operating state of a previous operation from. In addition, the mobile computer generates 12 in one operation a tone whose frequency is dependent on a current torque. Furthermore, the mobile computer stores 12 in at least one operating state, the course of the torque and the speed during the operation. The mobile computer 12 stores hand tool information of several operations. Furthermore, the mobile computer gives 12 in at least one operating state, a temperature of the drive unit 28 and the hand tool battery 30 out. The mobile computer 12 emits a warning sound when a temperature of the drive unit 28 and / or the hand tool battery 30 exceeds a warning threshold.

The mobile computer 12 has an input function, by means of which the operator in at least one operating state configuration information for the configuration of the power tool 10 enters. By means of the input function, the operator can set a maximum torque, a maximum rotational speed, a nominal inclination angle and / or a working mode, that is to say a drilling, screwing, impact drilling and / or a bit mode. Furthermore, the operator can configure what information is present in the operation of the mobile computer 12 displayed, saved and / or to the central database 18 to be transferred. The mobile computer 12 transmits configuration information at least partially to the power tool 10 , The hand tool machine 10 Sets the maximum torque, the maximum speed and / or the working mode. Furthermore, the hand tool machine begins 10 to drive the insert tool in an operating state when the operator of the power tool 10 holds in the nominal tilt angle.

The mobile computer 12 transfers at least one information dependent on the hand tool information, in particular with a time stamp, to the central database 18 , The mobile computer 12 transmits the course of the torque and the speed during the operation, the temperature of the drive unit 28 and the battery charge level to the central database 18 , Preferably, the central database calculates 18 based on the dependent of the hand tool information information energy consumption of standard operations. The central database 18 stores the information dependent on the hand tool information and evaluates it statistically. A manufacturer of the hand tool 10 Uses the information for the further development of hand tool machines.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102009029537 A1 [0001]

Claims (12)

Method with a hand tool ( 10 ) and a mobile computer ( 12 ), wherein the hand tool ( 10 ) in one operation a hand tool information to the mobile computer ( 12 ) and the mobile computer ( 12 ) at least processes the hand tool information during the work process. Method according to claim 1, characterized in that the mobile computer ( 12 ) outputs an information dependent on the hand tool information to an operator. Method according to claim 2, characterized in that the mobile computer ( 12 ) outputs information dependent on the hand tool information in real time to the operator. Method according to one of the preceding claims, characterized in that the mobile computer ( 12 ) at least one tilt information ( 14 ) of a tilt sensor ( 16 ) of the portable power tool ( 10 ). Method according to one of the preceding claims, characterized in that the mobile computer ( 12 ) a battery consumption of the power tool ( 10 ) calculated. Method according to one of the preceding claims, characterized in that the mobile computer ( 12 ) at least one configuration information to the hand tool ( 10 ) transmits. Method according to one of the preceding claims, characterized by a central database ( 18 ) to which the mobile computer ( 12 ) transmits at least one information dependent on the hand tool information. Method according to one of the preceding claims, characterized in that the mobile computer ( 12 ) Stores hand tool information of several operations. Method according to one of the preceding claims, characterized in that at least one communication means ( 20 ) of the portable power tool ( 10 ) transmits the hand tool information wirelessly. System for carrying out a method according to one of Claims 1 to 9. Hand tool for carrying out a method according to one of claims 1 to 9. Computer for carrying out a method according to one of claims 1 to 9.

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