Predefined Pallet Pattern

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Function

Select a common pallet pattern for palletizing. Predefined Pallet Pattern is used to predefine a fixed pallet pattern. The software will generate the corresponding pallet pattern according to your selection, and you do not need to edit the pallet pattern yourself.

Usage Scenario

This Step applies to scenarios where a fixed pallet pattern should be specified.

Parameter Description

General Parameters of Move-Type Steps

Send Waypoint

Selected by default to send waypoint poses to the receiver, such as the robot. When this option is unselected, the waypoint will not be sent. However, the waypoint will remain in the planned path.

Try Continuously Running through Succeeding Non-Moves

Unselected by default. When non-move Steps, such as Vision Look, Set DO, Check DI, etc., are connected between move-type Steps, the robot’s path planning will be interrupted, and the actual robot will take a short pause, reducing the smoothness of running. When this option is selected, the project will continue to run without waiting for the current move-type Step to complete execution, and therefore the robot can move in a smooth way without pauses. However, enabling this option may cause the execution of the Step to end prematurely.

Why will this option cause the execution of the Step to end prematurely?

Mech-Viz will send multiple poses simultaneously to the robot when the project is running. When the currently returned JPs of the robot correspond to the last pose sent by Mech-Viz, Mech-Viz will assume that the robot has moved to the last position. For example, there are 10 move-type Steps in a path, and the pose of the 5th move-type Step is the same as that of the last move-type Step. When the robot moves at low speed, it sends JPs to Mech-Viz when it moves to the 5th move-type Step, Mech-Viz may mistakenly determine that the robot has finished the move-type Steps and prematurely ends the Steps since the poses of the 5th move-type Step and the last move-type Step are the same in the path.

Do Not Check Collision with Placed Workobject

Unselected by default, namely that the collision with the already placed objects will not be detected. When this option is selected, the collisions between the robot, end tool, and placed objects will be detected.

In palletizing scenarios, the two possible cases of error are as follows:

  1. In palletizing scenarios, when the robot is placing a carton, the carton to place may come into light contact with the placed cartons while no deformation will be caused. After Mech-Viz detects this collision in simulation, it will plan other positions for placing the carton, and therefore a full stack cannot be formed.

  2. Usually, the TCP of a suction cup is inside the suction cup model instead of on the surface of it. Under this circumstance, the suction cup may be embedded in the model of the carton to be picked in the simulation of picking, while Mech-Viz does not detect the collision between the end tool and the object to be picked. After the robot places the object and the carton model turns into an object model in the scene, a collision between the suction cup and the carton will be detected and the palletizing cannot be completed.

When this option is selected, no collision between the robot, end tool, and the placed object will be detected, and the above two cases of errors can be avoided.

Point Cloud Collision Detection Mode

Select the proper mode according to the requirement of the on-site situation. Usually, the default setting Auto can be used. Do not check collision mode can be used in move-type Steps before the robot picks the object, and Check collision mode can be used after the robot picks the object.

Auto

Default setting. Collision with point cloud is checked only for the “Vision Move” Step and the “Relative Move” Step that depends on the “Vision Move” Step, but not for all move-type Steps.

Do not check collision

Point cloud collisions for all move-type Steps will not be detected.

Check collision

Point cloud collisions for all move-type Steps will be detected.

When Collisions  Collision detection configuration  Detect collision between point cloud and others is switched on, Mech-Viz will detect collisions between the robot model, end tool model, and point cloud when planning the path. Normally, Mech-Viz detects whether the robot collides with other objects during picking and placing. When there are point cloud outliers, non-exiting collisions will be detected, which leads to errors in path planning.

Ignore Workobject Symmetry

This parameter will only take effect when Waypoint type of the Step is set to Workobject pose.

None

Default setting, i.e., do not disable symmetry on any axis.

Around workobject frame Z axis

Only disable symmetry on Z-axis of the workobject reference frame.

Around workobject frame X&Y axis

Disable symmetry on X-axis and Y-axis of the workobject reference frame.

Around all axes

Disable symmetry on all axes.

Once the object symmetry is disabled, the robot will place the objects strictly according to the workobject poses.

In some special cases, objects are not pickable due to their peculiar poses. Setting Rotational symmetry under Workobjects  Workobject Configuration in Resources may solve this problem. Candidate poses of the recognized workpiece will be calculated according to the set rotational symmetry angle. When Mech-Viz plans to pick workpieces, if the default pose is not feasible for picking, the candidate poses will be tried. As the candidate poses calculated based on the settings of Rotational symmetry are different from the original poses output from Mech-Vision, the consistency of the objects’ place poses cannot be guaranteed.

Index

Starting Index

Description

The index of the box to be placed.

Value

Integers, and the default value is 0.

Usage

When there is not any box on the pallet, the value is 0.

If the palletizing process pauses and then continues, and N boxes have been palletized, the value should be set to N. Then the software will start with the N+1 box for palletizing.

Current Index

Description

Used to indicate the position of the current box. When the value is N, the box that is palletized in the *(N+1)*th attempt will be displayed.

Value

Integers that will be read automatically. It will be updated according to the external command if there is one.

Basic Pallet Settings

Hide Trajectory

Unselected by default, and the path along which the box is placed on the pallet will be displayed. Select to hide the path of the boxes.

Moves Count

Display the number of objects that can be placed on the pallet. Cannot be modified.

Motion Control

Auto Middle Point Force MoveJ

Selected by default, i.e., the robot moves in joint motion type before palletizing.

Entry Force MoveJ/Adjust Force MoveJ/Place Force MoveJ

Unselected by default, i.e., the robot does not need to move in joint motion type when it approaches the pallet, adjusts the pose, and places the box.

When the workspace on site is limited and the palletizing should be performed in linear motion, select the parameter. A limited workspace may lead to singularities. In this case, you can set the robot motion in any process (Entry, Adjust, Place) to joint motion.

Acc&Vel Scale Ratio

Value

0–100%, the default value is 100%.

Usage Scenario

This parameter can be configured when the robot’s speed differs between approaching the stack and actually placing the boxes.

Description

The acceleration and speed when the robot places the boxes, which is calculated by Acceleration & Velocity × Acceleration & Velocity Scale Ratio.

The process of the robot entering the stack area can be divided into 3 segments:

Segment 1: indicated by purple arrows—approaching the stack
Segment 2: indicated by pink arrows—placing the box
Segment 3: indicated by green arrows—placing the box

The acceleration and velocity when the robot approaches the stack (indicated by purple arrows) are specified in “Basic move settings”, and the acceleration/velocity for the last two segments are Acceleration & Velocity × Acceleration & Velocity Scale Ratio.

acceleration scale

Entry Adjust

The three parameters together determines the path along which the robot enters the stack area. Adjust the entry path to make the held box approaches the palletized boxes at a specified angle, and then the held box will be placed vertically. If the box is directly placed on the stack in a vertical path, collisions may occur between the robot, held box, and the palletized boxes due to accuracy and other factors.

This parameter group determines three positions, as indicated by the red points in the figure, where the box will be moved to when it is placed on the stack. The figure below demonstrates the positions where the box will be moved (in the front view).

entry and adjust

Vertical Adjust Length Ratio

Description

This parameter affects the “Adjust” position in the figure above. Vertical Adjust Length Ratio = Vertical Adjust Length / Height of the Box

Value range

0–1

Recommended value

0.5

Vertical Margin

Description

This parameter affects the “Entry” position in the figure above. The vertical margin is marked in the figure above.

Value range

0–∞; unit: mm. This parameter is used to control the distance above the boxes when the robot approaches the stack. The value should be adjusted according to the on-site situation.

Entry Angle Z

Description

This parameter determines the angle (°) between the path from the “Entry” point to the “Adjust” point and the vertical direction, indicated by α in the figure above.

Value range

-80°–80°

Recommended value

30°–45°

Auto Middle Point

X/Y

Set the position of the auto middle point (indicated by the pink sphere) in the robot reference frame. Based on this point, center coordinates of stacks with different heights will be calculated.

Min Z

When the robot enters the stack area (the path is indicated by the purple arrows), the minimum absolute distance in the Z-direction, i.e., the difference between the Z-direction height and the height of the current layer, as shown in the figure below.

mini height z

Is Middle Point Traj Vertical

Unselected by default, i.e., the robot will approach the stack from the auto middle point.

enter center point

Once this option is selected, the robot will approach the stack from directly above each placing position.

enter vertical

Extended Distance For Entry

For some circumstances, the vacuum gripper is too large, and it may collide with the palletized boxes when approaching the stack. The Extended Distance For Entry can be set to avoid collisions in the approaching process and ensure safety.

Auto Middle Point is introduced as a direction reference when the robot approaches the stack, and the point is not an actual waypoint where the robot will move. The auto middle point should be as far away from the pallet as possible. If the auto middle point is too close to the pallet, collisions may occur when palletizing.

Adjust Pallet via Vision

Adjust the position of the pallet dynamically via the “Vision Look” Step.

Need Adjust Pallet Pose

Unselected by default. Select to adjust the pallet position dynamically. When the workflow executes to this Step, the “Vision Look” Step will be used to recognize the position of the pallet.

Vision Name

Enter the name of the Mech-Vision project in which the “Vision Look” Step will be used to recognize the pallet position. When the workflow executes to this Step, the “Vision Look” Step in the Mech-Vision project will be used.

pallet adjust 2
The parameters can also be adjusted by the Adapter program.

Pallet Size

  • Pallet X Len: Set the pallet edge length (mm) along the X-direction. The pallet pattern will change with the pallet size in real-time.

  • Pallet Y Len: Set the pallet edge length (mm) along the Y-direction. The pallet pattern will change with the pallet size in real-time.

For Depalletization

As Vision Service

Unselected by default. Then this Step will not be used as the vision service.

Select to provide vision service to “Vision Look” and generate the custom pallet pattern. Therefore, even when Mech-Vision does not provide the vision result, Mech-Viz can still simulate the depalletizing.

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