Gripper control

Before using Python to control the gripper, you need to install and connect the gripper on the robot arm. Different grippers are compatible with different robots (for specific adaptation information, please refer to 2.8 Product accessories.

Note:

MyCobot 280 adaptive gripper inserts the gripper into the pins on the Atom, see the following figure:

The electric gripper is inserted into the interface on the top, see the following figure:

myCobot 280-m5 does not have an electric gripper, only myCobot 320-m5 has an electric gripper

myCobot

Gripper control

is_gripper_moving()

  • Function: Determine whether the gripper is running
  • Return value:
  • 0: Indicates that the gripper of the robot arm is not running
  • 1: Indicates that the gripper of the robot arm is running
  • -1: Indicates an error

set_gripper_value(value, speed, gripper_type=None)

  • Function: Let the gripper rotate to the specified position at the specified speed
  • Parameter description:
  • value: indicates the position the gripper is going to reach, with a range of 0~256
  • speed: indicates the speed of rotation, with a range of 0~100
  • gripper_type: gripper type, the default is adaptive gripper
  • 1: adaptive gripper
  • 3: parallel gripper
  • 4: flexible gripper
  • Return value: None

get_gripper_value(gripper_type=None)

  • Function: Get the current position data information of the gripper
  • Parameter description:
  • gripper_type: gripper type, the default is adaptive gripper
  • 1: adaptive gripper
  • 3: parallel gripper
  • 4: flexible gripper
  • Return value: Gripper data information

set_gripper_state(flag, speed, _type=None)

  • Function: Let the gripper enter the specified state at the specified speed
  • Parameter description:
  • flag: 1 indicates the gripper is closed, 0 indicates the gripper is open.
  • speed: indicates how fast the specified state is reached, the value range is 0~100
  • _type: Gripper type, the default is adaptive gripper
  • 1: Adaptive gripper
  • 2: Five-finger dexterous hand
  • 3: Parallel gripper
  • 4: Flexible gripper
  • Return value: None

set_eletric_gripper(status)

  • Function: Set the gripper mode (only works on 350)
  • Parameter description: status: 1 indicates the gripper is closed, 0 indicates the gripper is open.
  • Return value: None

set_gripper_mode(status)

  • Function: Set gripper mode

  • Parameter description: status: 1 transparent mode, 0 I/O mode

  • Return value: None

get_gripper_mode()

  • Function: Get gripper status

  • Return value: status(int): 0 - transparent mode 1 - I/O mode

set_HTS_gripper_torque(torque)

  • Function: Set adaptive gripper torque

  • Parameter description:

  • torque: 150 ~ 900

  • Return value: 0 - Setting failed; 1 - Setting successful

get_HTS_gripper_torque()

  • Function: Get adaptive gripper torque

  • Return value: 150 ~ 900

get_gripper_protect_current()

  • Function: Get the gripper protection current
  • Return value: 1 ~ 500

init_gripper()

  • Function: Initialize the gripper
  • Return value: 0 - Initialization failed; 1 - Initialization successful

set_gripper_protect_current(current)

  • Function: Set the gripper protection current
  • Parameter description:
  • current: 1 ~ 500
  • Return value: 0 - Initialization failed; 1 - Initialization successful

Example

from pymycobot.mycobot import MyCobot
from pymycobot import PI_PORT, PI_BAUD #When using the Raspberry Pi version of mycobot, you can reference these two variables to initialize MyCobot
import time
#Enter the above code to import the packages required for the project

def gripper_test(mc):
print("Start check IO part of api\n")
# Check if the gripper is moving
flag = mc.is_gripper_moving()
print("Is gripper moving: {}".format(flag))
time.sleep(1)
# Set the current position to (2048).
# Use it when you are sure you need it.
# Gripper has been initialized for a long time. Generally, there
# is no need to change the method.
# mc.set_gripper_ini()
# Set joint point 1 and let it rotate to the position 2048
mc.set_encoder(1, 2048)
time.sleep(2)
# Set six joint positions and let the robot arm rotate to this position at a speed of 20
mc.set_encoders([1024, 1024, 1024, 1024, 1024, 1024], 20)
time.sleep(3)

# Let the gripper reach the 100 state at a speed of 70
mc.set_gripper_value(100, 70)
time.sleep(3)
# Let the gripper reach the 0 state at a speed of 70
mc.set_gripper_value(0, 70)
time.sleep(3)

# Set the state of the gripper to open the claw quickly at a speed of 70
mc.set_gripper_state(0, 70)
time.sleep(3)

# Set the state of the gripper to close the claw quickly at a speed of 70
mc.set_gripper_state(1, 70)
time.sleep(3)

# Get the value of the gripper
print("")
print(mc.get_gripper_value())

if __name__ == "__main__":
# MyCobot class initialization requires two parameters:
# The first is a serial string, such as:
# linux: "/dev/ttyAMA0"
# windows: "COM3"
# The second is the baud rate:
# M5 version: 115200
#
# Example:
# mycobot-M5:
# linux:
# mc = MyCobot("/dev/ttyAMA0", 1000000)
# windows:
# mc = MyCobot("COM3", 115200)
# mycobot-raspi:
# mc = MyCobot(PI_PORT, PI_BAUD)
#
# Initialize a MyCobot object
# Below is the object code for the Raspberry Pi version
mc = MyCobot(PI_PORT, PI_BAUD)
# Move it to zero
mc.set_encoders([2048, 2048, 2048, 2048, 2048, 2048], 20)
time.sleep(3) gripper_test(mc)

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