Intelitek SCORBOT-ER 9 User Manual Download | Manualshive

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*** OUT OF RANGE axis

n

An attempt was made to record a position (HERE, HEREC, etc. ) while the
robot arm was out of its working envelope.

Manually move the arm to a location within its working envelope. Then
repeat the command.

*** THERMIC OVERLOAD axis

n

Through a software simulation of motor temperature, the system has detected
a dangerous condition for that motor. The system aborted all movements of
that axis group, and disabled all axes of that group. The user routine CRASH,
if it exists, has been executed. Possible causes:

(1) The arm attempted to reach a position, which could not be reached due to
an obstacle (for example, a position defined as being above a table, but
actually slightly below the table’s surface). The impact protection is not
activated because the obstacle is close to the target position. However,
integral feedback will increase the motor current and the motor will overheat,
subsequently causing the Thermic Protection to be activated.

(2) An axis driver is faulty or its fuse has blown.

(3) The robot arm is near to the target position, but does not succeed in
reaching it, due to a driver fault. The software will then detect an abnormal
situation.

(4) The Thermic Protection parameters are improperly set, or have been
corrupted by improper loading of parameters.

Check the positions, the axis driver card and parameters. Reenable servo
control of the motors ( CON ).

*** TOO LARGE SPEED axis

n.

Possible causes:

(1) The controller has detected a movement which is too fast; that is, the
required displacement of the encoder, as calculated from the speed limit
parameter, PAR 180+axis, is too great.

(2) Since the trajectory is not calculated prior to a linear or circular
movement, the linear or circular movement may cause one of the joints to
move too fast.

Lower the value of speed for that movement.

SCORBOT-ER IX

9 - 8

User’s Manual

9603

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Summary of Contents for SCORBOT-ER 9

Page 1: ...SCORBOT ER 9 User Manual Catalog 100066 Rev B...

Page 2: ......

Page 3: ...and or the information contained in this publication Intelitek bears no responsibility for errors that may appear in this publication and retains the right to make changes to the software hardware and...

Page 4: ......

Page 5: ...Setup 4 1 Robot Setup 4 1 SCORBOT ER IX Installation 4 3 Controller Installation 4 3 Robot Installation 4 3 Homing the Robot 4 4 Gripper Installation 4 5 Pneumatic Gripper 4 5 DC Servo Gripper 4 7 Act...

Page 6: ...Travel Limit Switches 7 4 Hard Stops 7 5 Home Switches 7 6 CHAPTER 8 Wiring Robot Power Cable and Connector 8 2 Encoder Cable and Connector 8 3 CHAPTER 9 Maintenance Daily Operation 9 1 Periodic Insp...

Page 7: ...t the robot during shipment a metal plate holds the gripper mounting flange to the robot base The plate is fixed to the flange with three bolts and to the base with two bolts Use a 3mm hex socket wren...

Page 8: ...3 M8 washers 3 M8 nuts Gripper 2 options Pneumatic Gripper includes pneumatic solenoid valve Hardware for mounting gripper 6 4Mx8 screws Electric DC Servo Gripper with encoder includes Hardware for m...

Page 9: ...oam spool The robot should be repacked in its original packaging for transport If the original carton is not available wrap the robot in plastic or heavy paper Put the wrapped robot in a strong cardbo...

Page 10: ...This page intentionally left blank SCORBOT ER IX 1 4 User s Manual 9603...

Page 11: ...d 270 79 sec 112 sec 145 68 sec 99 sec 210 76 sec 112 sec 196 87 sec 133 sec 737 166 sec Maximum Operating Radius 691mm 27 2 without gripper End Effector options Pneumatic Gripper Electric DC Servo Gr...

Page 12: ...al arm Each joint is driven by a permanent magnet DC motor via a Harmonic Drive gear transmission and timing belt The movements of the joints are described in the following table Axis No Joint Name Mo...

Page 13: ...the dimensions and reach of the SCORBOT ER IX while Figure 2 4 gives a top view of the robot s work envelope The base of the robot is normally fixed to a stationary work surface It may however be atta...

Page 14: ...Figure 2 4 Operating Range Top View SCORBOT ER IX 2 4 User s Manual 9603...

Page 15: ...r cable are properly connected to the controller before it is turned on 4 Make sure the robot arm has ample space in which to operate freely 5 Make sure a guardrail or rope has been set up around the...

Page 16: ...e or flammable gas is present Where the power line contains voltage spikes or near any equipment which generates large electrical noises 3 Do not abuse the robot arm Do not operate the robot arm if th...

Page 17: ...the ACL Controller B User s Manual Robot Setup Refer to Figures 4 1 4 2 and 4 3 1 Set up the SCORBOT ER IX on a sturdy surface with at least one meter of free space all around the robot 2 Note that t...

Page 18: ...and or cannot become caught under a corner of the robot s platform or work surface during all movements of the base axis Make sure the robot is mounted on a surface large enough to provide support fo...

Page 19: ...Manual Robot Installation Before you begin make sure the controller POWER switch is turned off The robot cable has a number of connectors Connect them to the controller according to following three st...

Page 20: ...tte or directory activate the ATS software Type ats Enter If the controller is connected to computer port COM2 type ats c2 3 When the ATS screen and prompt appear you may proceed 4 Give the ACL comman...

Page 21: ...ouble hose from the gripper to the quick coupling on the robot s forearm as indicated in Figure 4 7 3 Refer to Figure 4 8 Connect the two transparent 1 4 O D hoses from the robot cable to the CYL port...

Page 22: ...he controller or any other metalic surface by means of the valve s magnetic base Figure 4 8 Pneumatic Solenoid Valve Figure 4 9 Valve Controller Connections Figure 4 7 Gripper Connectors SCORBOT ER IX...

Page 23: ...y execute the robot HOME command Stay close to the teach pendant or controller If the gripper cable becomes entangled or excessively stretched during the homing abort the procedure immediately 5 The g...

Page 24: ...the ACL Controller B User s Manual 3 Open and close it in order to verify that it is functioning The following commands work for both the electric and the pneumatic gripper PC Type open Enter The gri...

Page 25: ...nal or PC by means of an RS232 communication channel ACL features include the following Direct user control of robotic axes User programming of robotic system Input output data control Simultaneous an...

Page 26: ...f line is described fully in the ACLoff line User s Manual SCORBASE Software SCORBASE Level 5 is a robot control software package which is supplied on diskette with the controller Its menu driven stru...

Page 27: ...e system for axes 1 through 4 of the SCORBOT ER IX The roll axis axis 5 transmission does not contain the pulleys and timing belt only a Harmonic Drive is used Note that the illustrations of component...

Page 28: ...bot motor must allow fine speed regulation so that the robot will accelerate and decelerate as required by the application The robot motor must supply large torques throughout its speed range and also...

Page 29: ...magnetic field The stator may be a permanent magnet or an electromagnet consisting of a coil wound around thin iron plates Rotor This is the component which rotates within the magnetic field The exter...

Page 30: ...e to move at extremely high rates of revolution to move loads with high torques and with encoder attached to achieve a very high resolution Motor Specifications Motor Axes 1 2 3 Motor Axes 4 5 Peak Ra...

Page 31: ...h The external gear teeth on the flexspline are almost the same size as the internal gear teeth on the circular spline except there are two more teeth on the circular spline and the teeth only mesh wh...

Page 32: ...of the input shaft the output shaft rotates by 2 Nf of a revolution that is two teeth out of Nf teeth Hence HD gear ratio 1 2 Nf Nf 2 The Harmonic Drive gear ratios for each of the SCORBOT ER IX axes...

Page 33: ...dii ratio Pulley B Pulley A NHD is the Harmonic drive ratio as described above NAXIS is the overall gear ratio of the axis SCORBOT ER IX Gear Ratios NT NHD NAXIS Axis 1 1 33 1 161 1 214 13 1 Axis 2 1...

Page 34: ...This page intentionally left blank SCORBOT ER IX 6 8 User s Manual 9603...

Page 35: ...s the axis The encoder translates the rotary motion of the motor shaft into a digital signal understood by the controller Figure 7 1 shows the encoder mounted on a SCORBOT ER IX motor The encoder used...

Page 36: ...le others do not The photodiode outputs are then fed through the signal processing circuitry resulting in the signals A A B B I and I as shown in Figure 7 3 Comparators receive these signals and produ...

Page 37: ...en the encoder resolution is divided by the overall gear ratio of the axis the resolution of the joint is obtained Since the encoder is mounted on the motor shaft and turns along with it the resolutio...

Page 38: ...avel limit switches it can rotate endlessly When a gripper is attached to axis 5 its movements are controlled and limited by means of software only encoder The limit switches are mounted on a disk whi...

Page 39: ...the impact condition As long as the axis has not reached one of its limits the relay contact remains closed and the diode has no effect on the circuit as shown in Figure 7 7B Current can flow in eithe...

Page 40: ...one at a time Each axis is moved until the flag cuts the beam of light When that occurs the optical detector on each joint sends a specific signal to the controller Once the home switch location has...

Page 41: ...transfers power to the motors to which it is directly connected and receives signals from the corresponding limit and home switches When a limit switch is triggered the PCB automatically cuts off powe...

Page 42: ...bot Power Cable Wiring and Connector Pin ID Pin Description Robot Side J1 Beldan Color Pin Description Controller Side P1 A Motor 1 black M0_A M Motor 1 red M0_B C Motor 2 brown M1_A L Motor 2 orange...

Page 43: ...escription Controller Side J2 1 5V 1 red 5V 8 COMMON yellow COMMON 0 5 CHA1 EncoderPulseA green CHA 0 6 CHB1 EncoderPulseB white CHB 0 7 CHC1 EncoderIndexPulse black CHC 0 31 MSWITCH Home Switch blue...

Page 44: ...exPulse black CHC 3 34 MSWITCH Home Switch blue MSWITCH 2 5V 5 red 5V 24 COMMON yellow COMMON 4 21 CHA5 EncoderPulseA green CHA 4 22 CHB5 EncoderPulseB white CHB 4 23 CHC5 EncoderIndexPulse black CHC...

Page 45: ...nnected The air supply for a pneumatic gripper is functioning properly Any peripheral devices or accesssories which will be used such as the teach pendant or a remote emergency button are properly con...

Page 46: ...one from a functioning system In general when trying to determine the source of a malfunction first check the power source and external hardware such as controller switches LEDs and cable connections...

Page 47: ...rd in use should be lit indicating that power is being supplied to the axis driver If one of the LEDs is not lit remove the fuse for the corresponding axis and examine it To remove the fuse press it i...

Page 48: ...on in the opposite direction If this does not occur there is a problem in the encoder or its circuitry If the encoder readings do not change check whether the encoder connector is properly connected t...

Page 49: ...mand COFF to disable servo control and then physically move the axis to another position Then return to the starting position marked by the line you drew Check the encoder reading for the axis again I...

Page 50: ...be executed because servo control of the arm has been disabled COFF 2 A previous movement of the arm resulted in an Impact or Trajectory error thereby activating COFF and disabling the arm Check the m...

Page 51: ...ition has changed due to a mechanical fault on the axis or a maintenance procedure such as replacement of the motor motor belt encoder or gear Enter the command ZSET Then retry homing 2 Index pulse fa...

Page 52: ...gral feedback will increase the motor current and the motor will overheat subsequently causing the Thermic Protection to be activated 2 An axis driver is faulty or its fuse has blown 3 The robot arm i...

Page 53: ...OVES and SPLINE Since the trajectory is not computed prior to motion the movement may exceed the limits of the working envelope Modify the coordinate values of the positions which define the trajector...

Page 54: ......

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