Difference between revisions of "Work Space Limits"

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In order to examine if a certain point is inside the allowed working area, the [[MC-Basic:robot.SETPOINT|robot.SetPoint]] should be transformed into each frame, and then it should be checked that the transformed point is inside the limits of the frame.
 
In order to examine if a certain point is inside the allowed working area, the [[MC-Basic:robot.SETPOINT|robot.SetPoint]] should be transformed into each frame, and then it should be checked that the transformed point is inside the limits of the frame.
  
The transformations for each frame calculate by the next table: <br>  
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The transformations for each frame is calculated as follows: <br>  
  
 
{| border="1" cellpadding="2" cellspacing="0"
 
{| border="1" cellpadding="2" cellspacing="0"
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{{Note|In case that the movement command isn't valid in any parameter, the program will stop checking, and raise an '''Error Message'''}}
 
{{Note|In case that the movement command isn't valid in any parameter, the program will stop checking, and raise an '''Error Message'''}}
 
  
 
==Examples==
 
==Examples==

Revision as of 08:47, 21 August 2017

Description

Each robot work's environment contains several frames, which has different definitions and limitations. The purpose of the Work Space Limits commands is to define each frame limitations, and combine them under all of the constraints.

Definitions

The frames are defined as:

  • World - universal frame
  • Base - #{X,Y,Z,y,p,r}
  • Tool - #{X,Y,Z,y,p,r}
  • MachineTable - #{X,Y,Z,y,p,r}
  • WorkPiece - #{X,Y,Z,y,p,r}

Where # represents Cartesian point coordinate.


The robot SetPoint parameter defined as the edge point of the robot's tool. When all frames are set to #{0,0,0,0,0,0}, the robot.SetPoint command will show: SetPoint = Pb, where Pb is the vector to the robot edge relative to it's base (NOT the tool edge).

In general, the robot.SetPoint parameter is calculated as follows:
SetPoint = WorkPiece-1:MachineTable-1:Base:Pb:Tool
The relations between the frames and the Pb vector are shown here:
ws 1.png ws 2.png

Work Space Limits definition

Each frame has its own limitations. In order to define them, one should use <Frame>.command, for example:

Base.Xmax = 150
?MachineTable.Zmin
Tool.Zmax = 1230


NOTE-Info.svgNOTE
If these parameters are referred to without a frame, the parameters are set for the WORLD frame

When a move command is issued, an examination is made to check if the point doesn’t exceed the defined limits.
For Moves and Circle commands, the examination checks that the entire path doesn’t exceed the defined limits. For a Move command, only the final point is examined.

For example:


ws 3.png


Another example:


ws 4.png

Limits Examination

In order to examine if a certain point is inside the allowed working area, the robot.SetPoint should be transformed into each frame, and then it should be checked that the transformed point is inside the limits of the frame.

The transformations for each frame is calculated as follows:

Frame Formula
WorkPiece CheckPoint = SetPoint = WorkPiece-1:MachineTable-1:Base:Pb:Tool


MachineTable CheckPoint = WorkPiece:SetPoint = MachineTable-1:Base:Pb:Tool


World CheckPoint = MachineTable:WorkPiece:SetPoint = Base:Pb:Tool


Base CheckPoint = Base-1:MachineTable:WorkPiece:SetPoint = Pb:Tool


Tool CheckPoint = Tool-1:Pb,0-1:Base-1:MachineTable:WorkPiece:SetPoint=Tool-1:Pb,0-1:Pb:Tool


NOTE-Info.svgNOTE
For the Tool frame, the absolute limits are defined relative to Pb at the time that the Tool frame limits were defined. This position is defined as Pb,0 .


The check protocol start with World frame Base frame MachineTable frame WorkPiece frame Tool frame,
When each frame coordinates checked from Xmax Xmin Ymax Ymin Zmax Zmin

NOTE-Info.svgNOTE
In case that the movement command isn't valid in any parameter, the program will stop checking, and raise an Error Message

Examples

6 Degree Of Freedom (DOF) Robot

Frame Value Xmin, Xmax Ymin, Ymax Zmin, Zmax
WorkPiece #{20,70,150,0,90,-90} -200, 200 -200, 200 -200, 200
MachineTable #{400,100,0,0,0,0} 0, 400 0, 400 0, 800
Base #{300,200,1000,0,180,180} -1000, 1000 -1000, 1000 0, 1000
Tool #{50,0,0,90, 45, 0} -200, 200 -200, 200 -200, 200
World None -1500, 1500 -1500, 1500 0, 2000


Assume that the desired SetPoint is: #{100,100,0,0,0,0} and that Pb,0 is: #{100,100,900,-45,90,0} - Is it in the work area of the limits?


Frame Formula In Limits?
WorkPiece CheckPoint = SetPoint = : #{100,100,0,0,0,0} Yes


MachineTable CheckPoint = WorkPiece:SetPoint = #{20,-30,50,0,90,-90} No - Ymin
Base CheckPoint = Base-1:MachineTable:WorkPiece:SetPoint = #{120,130,950,0,90,90} Yes


Tool CheckPoint = Tool-1:Pb,0-1:Base-1:MachineTable:WorkPiece:SetPoint = #{30,100,20,0,0,0} Yes


World CheckPoint = MachineTable:WorkPiece:SetPoint = #{420,70,50,0,90,-90} Yes


4 Degree Of Freedom (DOF) Robot

Frame Value Xmin, Xmax Ymin, Ymax Zmin, Zmax
WorkPiece #{100, 50, 0, 0} -100, 250 -300, 30 -200, 200
MachineTable #{320, 120, 350, 0} 0, 700 0, 500 0, 500
Base #{0, 0, 0, 0} -1000, 1000 -1000, 1000 0, 1000
Tool #{0, 20, 40, 25} -30, 20 -30, 20 -30, 20
World None -1500, 1500 -1500, 1500 0, 2000


Assume that the desired SetPoint is: #{380 , -150 , -310 , 25} and that Pb,0 is: #{780, -50, 0, 0} - Is it in the work area of the limits?


Frame Formula In Limits?
WorkPiece CheckPoint = SetPoint = : #{380 , -150 , -310 , 25} No - Xmax and Zmin


MachineTable CheckPoint = WorkPiece:SetPoint = #{480 , -100 , -310 , 25} No - Ymin and Zmin
Base CheckPoint = Base-1:MachineTable:WorkPiece:SetPoint = #{800, 20, 40, 0} Yes


Tool CheckPoint = Tool-1:Pb,0-1:Base-1:MachineTable:WorkPiece:SetPoint = #{111.762 , 3.05356 , 0 , 0} No - Xmax


World CheckPoint = MachineTable:WorkPiece:SetPoint = #{800, 20, 40, 0} Yes

See Also