Locator Tutorial: Setting up Locator to work with UR robots

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Users are strongly recommended to read Locator Tutorial: Introduction prior to installation of specific robot interface

1. Prerequisites

Prior to setup, please ensure that your UR controller meets the following criteria:

- CB3.1 or E-series Controller

- System version 3.2 and higher

Click Menu -> About to verify your controller System Version (see figure below):


Locator Setting Up Guide About 2.png

2. UR Controller Setup

2.1 Set IP Address of Ethernet Port

The first step of the process is to configure the IP address of the Robot Controller.

Using the Teach Pendant, press Menu -> System -> Network:


Locator Setting Up Guide IP Config 2.png


Amend the IP Address and Subnet Mask to match the network configuration of the Vision Controller running Locator and click Apply:


Locator Setting Up Guide IP Config 4.png


3. Locator UR Cap Setup

The Locator UR Interface is available as an URCap and three basic program templates. All of these files need to be copied to the Robot Controller.

As the first step, URCap needs to be installed. Extract the Locator URCap archive (.zip file) to the USB stick and plug it into the Teach Pendant.

Press Menu -> System -> URCaps:


Locator Setting Up Guide IP URCap Install 5.png


Select the Locator URCap file and click Open:


Locator Setting Up Guide IP URCap Install 3.png


Locator URCap should appear in the list of active URCaps. As usual, the restart is needed in order to enable proper functionality of newly installed URCap.


Locator Setting Up Guide IP URCap Install 4.png


As the next step copy all three program templates from USB Stick to the Robot Controller as shown below:


Locator Setting Up Guide Programs.png

4. Calibration

Robot Camera Calibration is a crucial step in Locator configuration. Accurate calibration guarantees that object positions will be calculated directly in Robot Base coordinates.

Photoneo Robot Camera Calibration for URCap is configured to search for the sphere object, which radius is known. Usually, Ping-Pong or Snooker ball is used for this purpose and it should be part of the Locator package. Sphere object can be attached to the gripper using peg, suction cup two-finger gripper or another method. The pose of the ping pong ball is not important (doesn't need to be in axis) the only condition is that is should be mounted firmly so it does not move during transitions between waypoints and it is visible from the scanner in each waypoint.

URCap provides a direct interface to Photoneo Robot Camera Calibration Utility, so it is not necessary to input flange pose manually for each waypoint. Instead, these values are automatically transferred from robot to the Robot Camera Calibration Tool, so it is possible to perform complete calibration directly from the Teach Pendant.

4.1 Robot - Camera Calibration

Mount the Scanner firmly, ensure that the scene is properly captured from the final scanner position and open the Calibration tab on the Installation page:


Setting Up Guide Locator UR Calibration Step 0.png


As the first step set the IP address of Vision Controller and press the Connect button to establish a connection to the Calibration Tool:


Setting Up Guide Locator UR Calibration Step 1 up.png


Photoneo calibration procedure requires a sphere object to be attached to the gripper. Usually ping-pong ball or snooker ball is used for this purpose. The absolute position of the sphere on the gripper is not important (it doesn't have to be in axis) the only condition is that is has to be mounted on the link attached to the flange and it should be visible by the scanner

As the second step of the calibration insert and set Sphere radius (Standard Ping Pong Ball = 20mm, Snooker Ball = 26.25mm):


Setting Up Guide Locator UR Calibration Step 2.png


The third step requires Scanner ID to be set. Both old & new notations are supported. (Old notation example: 1703001 / New notation example: 2018-03-001-LC3)


Setting Up Guide Locator UR Calibration Step 3.png



Setting Up Guide Locator UR Calibration Step 4.png


Setting Up Guide Locator UR Calibration Step 5.png


4.2 Tool Calibration

The misplacement vector calculated during the robot camera calibration process determines the center of the calibration ball with respect to the Tool Frame selected during calibration. This is a convenient method for validating the calibration, but in practice the real gripping point is usually different from the center point of the calibration ball. In order to ensure successful picking, the robot tool should also be calibrated. The most commonly used method of achieving this, is to use the built-in FANUC calibration tools. The following section demonstrates tool calibration using the Three Point method.

Select Menu -> Setup -> Frames and select the tool frame you want to use within your program.


Locator Setting Up Guide TCP Config.png


Locator Setting Up Guide TCP Config 2.png


5. Runtime

5.1 Reteach Application poses

Once the Robot-Camera and Tool calibration processes have been completed, you can proceed to re-teaching the application poses. Prior to starting this process, please ensure that you have selected the correct User and Tool Frame.

Go through the LOC_SINGLE or LOC_MULTIPLE programs and reteach all J P[X] poses using the standard procedure as shown in the figure below:


Locator Setting Up Guide Teach Home Pose.png

5.2 Run Locator

You are now ready to run the program. Switch to T1 mode and select 10% speed; this option is recommended for safety reasons.

Ensure that you are ready to stop the motion execution immediately if something goes wrong.

Select the LOC_SINGLE/LOC_MULTIPLE program or another program which you have prepared your own.


[[File: ]]

If everything is working correctly, you should that the scan has been triggered, the result from Locator has been transmitted to the Robot Controller and the robot is approaching the object.


Locator Setting Up Guide SingleResultMode.png