3D-Delta Type 2 (P_3C2)

The 3D-Delta Type 2(P_3C2) essentially corresponds to the 3D-Delta Type 1 (P_3C), but no ball joints are required. Instead, the offset of cardan joints can be parameterized.

3D-Delta Type 2 (P_3C2) 1:

Kinematics parameters

Parameter

Description

Type

Unit

Inner arm length

Length between the pivot points of the inner arm; this is the arm that is directly linked with the motor.

LREAL

mm

Outer arm length

Length between pivot points of the outer arm

LREAL

mm

Displacement

Length between the center of the base plate and the virtual rotation axes of the inner arm

LREAL

mm

TCP displacement

Length between the center of the gripper plate and the virtual rotation axes of the outer arm

LREAL

mm

Upper cardan length

If a cardan joint is used at the upper arm suspension points, this parameter can be used to specify the offset of the two joints within the cardan joint.

When using a ball joint, enter length 0.

LREAL

mm

Lower cardan length

If a cardan joint is used at the lower arm suspension points, this parameter can be used to specify the offset of the two joints within the cardan joint.

When using a ball joint, enter length 0.

LREAL

mm

Parameters for the Dynamic Model

Parameter

Description

Type

Unit

Inner arm mass

Total mass of the inner arm

LREAL

kg

Inner arm moment of inertia

Moment of inertia of the inner arm in relation to pivot point P1, which is linked with the motor

LREAL

kg mm^2

Outer arm mass

Mass of the outer arm. If two bars are used, the total mass is required. The mass of the joint can optionally be described as a separate parameter.

LREAL

kg

Link mass

Mass of the joint linking the inner and outer arm. Can be used if the mass of the joint is not already included in the outer and inner arms.
The mass of the joint linking the gripper plate with the outer arm is not specified here. It can be added to TcpMass.

LREAL

kg

TCP mass

Mass of the TCP, including gripper plate and gripper. The payload is usually described with a separate parameter.

LREAL

kg

Center stick mass

Total mass of the center stick

LREAL

kg

Center stick: moment of inertia

Moment of inertia of the center stick in relation to the center of gravity (P2)

LREAL

kg mm^2

Center stick: center of mass displacement

Length between the gripper plate and the center of gravity of the bar

LREAL

mm

First drive torque OID

Object ID of the first drive torque (see here)
If the motors and gear units of all motors behave in a similar way, all drive torques can be represented via an OID. All three parameters refer to the same object ID.

OTCID

 

Second drive torque OID

Object ID of the second drive torque

OTCID

 

Third drive torqueOID

Object ID of the third drive torque

OTCID

 

General Parameters for the Kinematics

General parameters that apply to any kinematics are described in the following sections:

For all kinematics with tool also applies:

Prerequisites

 

Target platform

TwinCAT function

 

PC or CX (x86 or x64)

TF5112 TC3 Kinematic Transformation (Level 3)