DE102008006982A1 - Robot and method for parameterizing a robot model - Google Patents

Abstract

The invention relates to a robot and a method for parameterizing a robot model (20). A tool (21-24, 51-54) is attached to a fixture (18) of the robot. The tool (21-24, 51-54) has a transponder (25-28, 55-58) stored in the first data 31-34, 61-64 associated with the tool (21-24, 51-54) are. The first data (31-34, 61-64) of the robot-mounted tool (21-24, 51-54) is read out by a reader (19) and becomes the read-out first data (31-34, 61-64) in particular automatically parameterizes a robot model (20) describing the robot, so that the parameterized robot model is automatically adapted to the tool (21-24, 51-54) fastened to the fastening device (18).

Description

The The invention relates to a robot and a method for parameterization a robot model.

robot are working machines for automatic handling and / or Machining of objects can be equipped with tools and in several axes of motion, for example with regard to orientation, Position and workflow are programmable. Robots usually have programmable controllers (control devices) which during the Operating the motion sequences of the robot.

For a satisfied The robotic control or regulation of the robot is demonstrated by these robotic models on. The general spatial Movements of the robot are using a kinematic robot model modeled, which essentially describes the geometry of the robot. For one improved dynamic control or regulation can also increase the dynamics considered by the robot be, z. B. by a system of motion differential equations of the robot in the form of Newton-Euler equations for holonomic Systems is modeled.

robot are usually provided with tools whose parameters, eg. B. their masses or moments of inertia, in the control device for a Parameterization of the robot model can be entered.

task The invention is a simplified method for parameterizing of a robot model.

A Another object of the invention is to provide a robot whose Robot model is easier to parameterize.

• – Befestigen eines Werkzeugs an einer Befestigungsvorrichtung eines Roboters, wobei das Werkzeug wenigstens einen Transponder aufweist, in dem dem Werkzeug zugeordnete erste Daten gespeichert sind,
• – Auslesen der ersten Daten des am Roboter befestigten Werkzeugs mittels eines Lesegerätes und
• – aufgrund der ausgelesenen ersten Daten, insbesondere automatisches Parametrisieren eines den Roboter beschreibenden Robotermodells, so dass das parametrierte Robotermodell automatisch an das an der Befestigungsvorrichtung befestigte Werkzeug angepasst ist.

The object of the invention is achieved by a method for parameterizing a robot model, comprising the following method steps:

• Attaching a tool to a fastening device of a robot, wherein the tool has at least one transponder in which first data associated with the tool are stored,
• - Reading the first data of the tool attached to the robot by means of a reader and
• - Based on the read first data, in particular automatic parameterization of a robotic robot model descriptive, so that the parameterized robot model is automatically adapted to the tool attached to the fastening device.

• – einen Roboterarm mit mehreren bewegbaren Achsen und einer Befestigungsvorrichtung, an der ein wenigstens einen Transponder aufweisendes Werkzeug befestigbar ist,
• – ein Lesegerät, das eingerichtet ist, in dem Transponder gespeicherte und dem an der Befestigungsvorrichtung befestigten Werkzeug zugeordnete erste Daten auszulesen, und
• – eine Steuervorrichtung, in der ein Robotermodell des Roboters gespeichert ist und die eingerichtet ist, aufgrund des Robotermodells die Achsen des Roboterarms mittels Antrieben zu bewegen, wobei die Steuervorrichtung ferner eingerichtet ist, aufgrund der ausgelesenen ersten Daten automatisch das Robotermodell zu parametrieren, so dass das parametrierte Robotermodell insbesondere automatisch an das an der Befestigungsvorrichtung befestigte Werkzeug angepasst ist.

The object of the invention is also achieved by a robot, comprising:

• A robot arm with a plurality of movable axes and a fastening device to which a tool having at least one transponder can be fastened,
• A reader adapted to read out first data stored in the transponder and associated with the tool attached to the fixing device, and
• A control device in which a robot model of the robot is stored and which is set up to move the axes of the robot arm by means of drives based on the robot model, wherein the control device is further configured to automatically parameterize the robot model on the basis of the read-out first data, so that the parameterized robot model is adapted in particular automatically to the tool attached to the fastening device.

As already mentioned in the introduction, needed a robot a robotic model to be satisfactorily controlled or to be able to be regulated. The robot model is z. In the control device of the robot saved. Furthermore, a robot usually comes with a Tool provided on the fastening device, which is usually a flange of the robot is attached. Because different Tools z. B. in their masses, moments of inertia or expansions differ, the robot model must correspond to the currently used Tool can be parameterized.

It is according to the invention now intended to provide the tool with a transponder, in the first data is stored, which in turn is the relevant one Tool are assigned. A transponder is a device, due to a z. B. originating from a reader received wirelessly Signal automatically generates another signal and wirelessly the reader sends. Transponders use the so-called RFID (Radio Frequency Identification) technology and are also referred to as RFID tags. Transponders can be active and passive transponder. Active transponders have one own active energy source, z. B. a battery or a battery, on. By contrast, passive transponders do not include an active energy source and are accompanied by the electromagnetic field of the reader supplied electrical energy by z. B. a capacitor of the transponder the electromagnetic field of the reader is loaded.

The first data are assigned to the tool on which the transponder is arranged. The transponder can z. B. outside of the tool or even within the tool be. The first data are assigned to the tool, so that, based on the first data read with the reading device, according to the invention, the robot model is automatically parameterized according to the tool attached to the robot. The first data could be z. B. be read cyclically.

The first data can according to one embodiment the method according to the invention or the robot according to the invention for the Parameterizing the robot model with the tool necessary parameters of the tool. These parameters are z. B. an indication of the Mass, over the cash center, about the inertia or over the spatial Extension of the tool. Based on the read out first data is it then directly possible the robot model automatically according to the tool used to parameterize.

To a variant of the method according to the invention or of the robot according to the invention at least partially the first data stored in the transponder overwritten by updated first data after reading the first data. This can be z. B. then useful be when the current operating time of the tool is documented shall be. In particular when using the robot according to the invention in the medical environment, so if the tool is a of the It can do it, if the robot is a moving medical instrument be useful, for example, an indication of the number of sterilizations of the tool (medical instrument) or a sterilization bit save with the first data. Overwriting can also be cyclic carried out become. The over write can be automatic or after a previous manual release carried out become.

Point the first data, however, no or no complete information about the required Parameter on, then it may according to another embodiment the method according to the invention or the robot according to the invention be provided, a database based on the read out first data to contact, the database having a plurality of second data which is associated with a plurality of tools, and the second data for the parameterization of the robot model with the relevant tool have necessary parameters of the relevant tool, and the Parameterize the robot model by means of the relevant second data, so that the parameterized robot model automatically to the s.der Fastening device attached tool is adjusted. Database can z. B. be deposited in the control computer of the robot according to the invention. Consequently the first data needs only an indication of the tool used, z. As its serial number, to automatically the robot model to parameterize.

The second data can also at least partially overwritten by updated second data become. This can be done automatically, also cyclically. Overwriting can be automatic or after a previous manual release carried out become.

The reader can z. B. directly on the robot according to the invention, in particular its robot arm can be arranged.

Of the Robot according to the invention may be input means for initiating the reading of the first data after attaching the tool to the fixture exhibit. The robot according to the invention may also have input means for manually confirming that due the read out first data, the robot model describing the robot is parameterized.

RFID systems As a rule, they have a relatively short range. Is this reader according to a Variant of the robot according to the invention arranged on the robot that regardless of the position of the robot arm the reader can read the transponder of the tool attached to the robot, then there are requirements for a reliable one Reading the first data given. The reader can for this case z. B. in the Near or be arranged on the fastening device. By the relative short range of the reader for example, a few centimeters can be when attaching the Tool automatically started the parameterization of the robot model as soon as the tool comes in the area of the reader and the reader receives the first data from the transponder.

Of the Robot according to the invention can z. B. in the medical field, for example in surgical Intervention, be used. For a relatively high flexibility can the robot according to the invention be equipped with different tools. The relative high safety requirements in particular to a surgical Robots are putting the review of Mounting the correct tool to the fixture, z. B. flange, ahead.

Becomes the robot according to the invention used in the medical environment, then care should be taken that the transponder is arranged on the tool such that it a sterilization of the tool survives harmless.

Due to the method according to the invention or of the robot according to the invention, the Adaptation of the robot model to the assembled tool without user input. Optionally, a confirmation / supplement of the parameters read out by an operator. In order to overcome the sterile barrier between the robot and the tool in the case of medical use, the RFID technology is used according to the invention for communication. The adjustment process can, for. B. also have a check of the assembled tool (correct tool, tool sterilized, predetermined service life of the tool not exceeded).

The Adaptation (parameterization) of the robot model, for example, applies the consideration tool properties center of gravity and mass for gravity compensation, the kinematics of the robot or the mechanical inertia of the robot System.

Furthermore the flow of information can also be in the opposite direction, So from the robot to the tool, done. This is what it is for example possible, the previous period of use, the operator or occurring process parameters (eg. B. max. forces) to deposit on the transponder.

embodiments The invention is exemplified in the accompanying schematic drawings shown. Show it:

1 a robot,

2 several tools that can be attached to the robot,

3 a flowchart illustrating a parameterization of a robot model of the robot,

4 other tools that can be attached to the robot, and

5 Another flowchart illustrating a parameterization of the robot model of the robot.

The 1 shows a robot with a robot arm M, which is mounted on a base S in the case of the present embodiment. The robot arm M essentially represents the movable part of the robot and comprises several axes 1 - 6 , several levers 7 - 10 and a flange 18 in which in the 2 shown tools 21 - 24 are fastened. The tools 21 - 24 may, as provided in the case of the present embodiment, medical instruments, in particular surgical instruments.

Each of the axes 1 - 6 is powered by a drive such as an electric drive 11 - 16 moves, in a manner not shown with a control computer 17 of the robot are electrically connected, so that the control computer 17 or one on the control computer 17 running computer program the electric drives 11 - 16 can control such that the position and orientation of the flange 18 of the robot can be essentially freely aligned in space. The electric drives 11 - 16 of the robot include z. B. in each case an electric motor and optionally a motor controlling power electronics.

Thus the control computer 17 The robot can satisfactorily control or regulate is in the case of the present embodiment in the control computer 17 a well-known robot model 20 saved by the robot. Is on the flange 18 one of the tools 21 - 24 attached, then it is appropriate to the robot model 20 by means of the flange 18 parameterize the assigned tool. Parameterization as such is in principle well known and is usually performed manually.

In the case of the present embodiment, however, this parameterization is not carried out manually but, as described below, automatically. Individual steps of the parameterization are in one in the 3 summarized flowchart summarized.

For parameterizing the robot model 20 is at each of the tools 21 - 24 in each case at least one RFID transponder 25 - 28 arranged, which are in the case of the present embodiment, passive transponder. Transponders are known in principle to the expert, which is why the transponder 25 - 28 are not shown in detail and their functionality will not be explained further.

In the case of the present embodiment is in each of the transponder 25 - 28 a parameter data set 31 - 34 saved. The parameter data set 31 includes parameters of the tool 21 that are intended for the robot model 20 to parameterize when the tool 21 on the flange 18 is attached. The parameter data set 32 includes parameters of the tool 22 that are intended for the robot model 20 to parameterize when the tool 22 on the flange 18 is attached. The parameter data set 33 includes parameters of the tool 23 that are intended for the robot model 20 to parameterize when the tool 23 on the flange 18 is attached. The parameter data set 34 includes parameters of the tool 24 that are intended for the robot model 20 to parameterize when the tool 24 on the flange 18 is attached.

Furthermore, in the case of the present embodiment, the flange 18 of the robot a reader 19 attached, in a manner not shown with the control computer 17 connected is.

Will be one of the tools 21 - 24 on the flange 18 of the robot, then send the reader after finishing attaching 19 a signal coming from the transponder of the flange 18 attached tool is received. In the in the 1 illustrated embodiment, the tool 21 on the flange 18 attached, whereupon the transponder 25 of the tool 21 that from the reader 19 received signal and then automatically generates a response signal and this to the reader 19 sends. The response signal has the parameter data set 31 of the tool 21 on. The reader 19 receives the response signal from the transponder 25 and transmits this to the control computer 17 , Step S1 of the in 3 shown flow chart.

Due to the forwarded response signal receives the control computer 17 the parameter data set 31 currently on the flange 18 attached tool 21 , Based on the parameter data set 31 the control computer then automatically sets parameters 17 the robot model 20 with the parameters of the parameter data set 31 Step S2 of the flowchart of FIG 3 , So that's the robot model 20 with the parameters of the currently on the flange 18 attached tool 21 parameterized.

In the case of the present embodiment, the parameter data sets 31 - 34 also an indication of the current operating time of the tools 21 - 24 on. This information is also in the control computer 17 saved. Will be the current tool, here the tool 21 again from the flange 18 removes, automatically sends the reader 19 a signal to the transponder 25 , This signal includes an indication of the current operating time of the tool 21 , where this indication in the transponder 25 stored, the parameter data set 31 is updated, step S3 of the flowchart of 3 ,

In the parameter records 31 - 34 may also include an indication of whether the relevant tool 21 - 24 was sterilized. This information can z. B. by means of a sterilization bits on the reader 19 to the control computer 17 be transmitted. This can then inform an operator about the sterilization of the tool done.

Will another tool on the flange 18 attached, then reads the reader 19 again the transponder of this tool off, leaving the controller 17 the relevant parameters of this tool gets to the robot model 20 to be parameterized again.

The 4 and 5 illustrate another embodiment. The 4 shows more tools 51 - 54 on the flange 18 of the robot can be attached. Each of the tools 51 - 54 is also with an RFID transponder 55 - 58 provided, which are in the case of the present embodiment, passive transponder.

In the case of the present embodiment is in each of the transponder 55 - 58 the serial number 61 - 64 of the relevant tool 51 - 54 stored, in general, an indication that identifies the type of relevant tool 51 - 54 suitable is. In the case of the present embodiment is thus in the tool 51 arranged transponder 55 the serial number 61 of the tool 51 in the tool 52 arranged transponder 56 the serial number 62 of the tool 52 in the tool 53 arranged transponder 57 the serial number 63 of the tool 53 and in the tool 54 arranged transponder 58 the serial number 64 of the tool 54 saved.

Will be one of the tools 51 - 54 on the flange 18 of the robot, then send the reader after finishing attaching 19 a signal coming from the transponder of the flange 18 attached tool is received. If z. B. the tool 51 on the flange 18 attached, then the transponder receives 55 of the tool 51 that from the reader 19 sent signal and automatically generates a response signal, which he sent to the reader 19 sends. The response signal has the serial number 61 of the tool 51 on. The reader 19 receives the response signal from the transponder 55 and transmits this to the control computer 17 , Step A of the in the 5 shown flow chart.

In the case of the present embodiment is on the control computer 17 a database 40 stored for parameterizing the robot model 20 provided parameter data records 41 - 44 having. The parameter data set 41 includes parameters of the tool 51 that are intended for the robot model 20 to parameterize when the tool 51 on the flange 18 is attached. The parameter data set 42 includes parameters of the tool 52 that are intended for the robot model 20 to parameterize when the tool 52 on the flange 18 is attached. The parameter data set 43 includes parameters of the tool 53 that are intended for the robot model 20 to parameterize when the tool 53 on the flange 18 is attached. The parameter data set 44 includes parameters of the tool 54 that are intended for the robot model 20 to parameterize when the tool 54 on the flange 18 is attached.

Due to the forwarded response signal receives the control computer 17 the serial number 61 currently on the flange 18 attached tool 51 , Furthermore, the control computer 17 set up, due to the serial number 61 currently on the flange 18 attached tool 51 the tool 51 assigned parameter data set 41 from the database 40 to retrieve step B of the flowchart of FIG 5 ,

Due to the retrieved parameter data set 41 the control computer then automatically sets parameters 17 the robot model 20 with the parameters of the parameter data set 41 Step C of the flowchart of FIG 3 , So that's the robot model 20 with the parameters of the currently on the flange 18 attached tool 51 parameterized.

Will another tool on the flange 18 attached, then reads the reader 19 again the transponder of this tool off, leaving the controller 17 the relevant parameters from the database 40 retrieves the robotic model 20 to be parameterized again.

Claims (14)

Method for parameterizing a robot model, comprising the following method steps: - fastening a tool ( 21 - 24 . 51 - 54 ) on a fastening device ( 18 ) of a robot, wherein the tool ( 21 - 24 . 51 - 54 ) at least one transponder ( 25 - 28 . 55 - 58 ), in which the tool ( 21 - 24 . 51 - 54 ) associated first data ( 31 - 34 . 61 - 64 ), - reading the first data ( 31 - 34 . 61 - 64 ) of the tool attached to the robot ( 21 - 24 . 51 - 54 ) by means of a reading device ( 19 ) and - based on the read out first data ( 31 - 34 . 61 - 64 ), in particular automatic parameterization of a robot model describing the robot ( 20 ), so that the parameterized robot model automatically to the on the fastening device ( 18 ) attached tool ( 21 - 24 . 51 - 54 ) is adjusted. The method of claim 1, further comprising: - contacting a database ( 40 ) based on the read-out first data ( 61 - 64 ), whereby the database ( 40 ) a plurality of second data ( 41 - 44 ) having a plurality of tools ( 51 - 54 ) and the second data ( 41 - 44 ) for the parameterization of the robot model ( 20 ) with the relevant tool ( 51 - 54 ) necessary parameters of the relevant tool ( 51 - 54 ), and - automatic parameterization of the robot model ( 20 ) by means of the relevant second data ( 41 - 44 ), so that the parameterized robot model automatically to the on the fastening device ( 18 ) attached tool ( 51 - 54 ) is adjusted. Method according to claim 2, additionally comprising at least partial overwriting of the data in the database ( 40 stored second data ( 41 - 44 ) by updated second data. Method according to one of Claims 1 to 3, in which the first data ( 31 - 34 ) for the parameterization of the robot model ( 20 ) with the tool ( 21 - 24 ) necessary parameters of the tool ( 21 - 24 ) exhibit. Method according to claim 4, additionally comprising at least partial overwriting of the data in the transponder ( 25 - 28 stored first data ( 31 - 34 ) by updating the first data, preferably after reading the first data ( 31 - 34 ). Method according to one of claims 1 to 5, in which - the fastening device is a flange ( 18 ) of the robot is, - the tool ( 21 - 24 . 51 - 54 ) is a medical instrument automatically movable by the robot, - the reading device ( 19 ) is arranged on the robot, - the reader ( 19 ) in the vicinity or on the fastening device ( 18 ) is arranged and / or - the transponder ( 25 - 28 . 55 - 58 ) is a passive transponder. Method according to one of claims 1 to 6, additionally comprising: - manually initiating the reading out of the first data ( 31 - 34 . 61 - 64 ) after attaching the tool ( 21 - 24 . 51 - 54 ) on the fastening device ( 18 ), and / or - on the basis of the read-out first data ( 31 - 34 . 61 - 64 ) and, on the basis of a manual confirmation, parameterization of the robot model describing the robot ( 20 ), so that the parameterized robot model automatically to the on the fastening device ( 18 ) attached tool ( 21 - 24 . 51 - 54 ) is adjusted. Robot, comprising: - a robot arm (M) with several movable axes ( 1 - 6 ) and a fastening device ( 18 ), on which a transponder ( 25 - 28 . 55 - 58 ) tool ( 21 - 24 . 51 - 54 ), - a reader ( 19 ) set up in the transponder ( 25 - 28 . 55 - 58 ) and at the fastening device ( 18 ) attached tool ( 21 - 24 . 51 - 54 ) associated first data ( 31 - 34 . 61 - 64 ), and - a control device ( 17 ), in which a robot model ( 20 ) of the robot and that is set up, due to the robot model ( 20 ) the axes ( 1 - 6 ) of the robot arm (M) by means of drives ( 11 - 16 ), the control device ( 17 ) is further set up on the basis of the read-out first data ( 31 - 34 . 61 - 64 ) especially automatically the robot model ( 20 ), so that the parameterized robot model automatically adjusts to the 18 ) attached tool ( 21 - 24 . 51 - 54 ) is adjusted. Robot according to claim 8, additionally comprising a database ( 40 ) in which a plurality of second data ( 41 - 44 ) stored in a plurality of tools ( 51 - 54 ) and the second data ( 41 - 44 ) for the parameterization of the robot model ( 20 ) with the relevant tool ( 51 - 54 ) necessary parameters of the relevant tool ( 51 - 54 ), wherein the control device ( 17 ) is further set up on the basis of the read-out first data ( 61 - 64 ) automatically the database ( 40 ) to obtain the relevant second data ( 41 - 44 ), so that the parameterized robot model automatically to the on the fastening device ( 18 ) attached tool ( 51 - 54 ) is adjusted. A robot according to claim 9 arranged to store the second data ( 41 - 44 ) at least partially with updated second data. Robot according to claim 8 or 9, in which the first data ( 31 - 34 ) for the parameterization of the robot model ( 20 ) with the at the fastening device ( 18 ) attached tool ( 21 - 24 ) necessary parameters of the tool ( 21 - 24 ) exhibit. Robot according to claim 11, the reading device ( 19 ) after reading the first data ( 31 - 34 ) these in the transponder ( 25 - 28 ) at least partially overwrite with updated first data. Robot according to one of claims 8 to 12, additionally comprising - input means for initiating the reading out of the first data ( 31 - 34 . 61 - 64 ) after attaching the tool ( 21 - 24 . 51 - 54 ) on the fastening device ( 18 ), and / or - input means for manually confirming that, on the basis of the read-out first data ( 31 - 34 . 61 - 64 ) the robotic model describing the robot ( 20 ) is parameterized. Robot according to one of claims 8 to 13, in which - the fixing device is a flange ( 18 ) of the robot is, - the tool ( 21 - 24 . 51 - 54 ) is a medical instrument movable by the robot, - the reading device ( 19 ) is arranged on the robot, - the reader ( 19 ) on the robot arm (M) in particular in the vicinity or on the fastening device ( 18 ) is arranged and / or - the transponder ( 25 - 28 . 55 - 58 ) is a passive transponder.