“Revolutionary Steel Tube Packaging Solution: Optimized Pipe Packing Machine for Efficient Orbital Stretch Wrapping”


Title: Orbital Stretch Wrapper and Pipe Packing Machine for Steel Tube | Tube Bundle Wrapping and Packaging

Description:
Introduction:
Welcome to our video showcasing the Orbital Stretch Wrapper and Pipe Packing Machine for Steel Tube, designed to revolutionize tube bundle wrapping and packaging. In this video, we will provide a comprehensive overview of these innovative machines, highlighting their key features, benefits, and operation steps.

Video Content:
Our Orbital Stretch Wrapper and Pipe Packing Machine are state-of-the-art solutions for efficiently and securely wrapping and packaging steel tubes. With advanced technology and robust construction, these machines ensure optimal protection and stability during transportation and storage.

Key Features:
– Advanced Stretch Wrapping: Our orbital stretch wrapper utilizes a specialized stretch film that securely wraps around the tube bundle, providing excellent load containment and preventing any movement or damage.
– Pipe Packing Efficiency: The pipe packing machine is designed to handle various pipe sizes and bundle configurations, offering versatility and adaptability for different packaging requirements.
– Secure and Stable Packaging: By tightly securing the steel tubes together, the machine ensures stable and secure packaging, minimizing the risk of shifting or damage during handling and transit.
– Durability and Reliability: Built with high-quality materials and precision engineering, our machines are durable, reliable, and require minimal maintenance, ensuring long-lasting performance and productivity.

Operation Steps:
1. Prepare the Tube Bundle: Arrange the steel tubes in a neat and organized bundle, ensuring they are aligned and positioned properly for wrapping.
2. Place the Bundle onto the Machine: Carefully position the tube bundle onto the machine’s conveyor system, ensuring it is centered and aligned.
3. Set the Wrapping Parameters: Adjust the machine settings, such as wrapping speed, film tension, and number of rotations, according to the specific requirements of the tube bundle.
4. Initiate the Wrapping Process: Start the machine, and it will automatically wrap the stretch film around the tube bundle, tightly securing it together.
5. Complete the Packaging: Once the wrapping process is complete, remove the finished bundle from the machine, ready for storage or transportation.

Call to Action:
If you found this video informative and useful, we encourage you to like, subscribe, and share it to help others discover the benefits of our Orbital Stretch Wrapper and Pipe Packing Machine. Visit our website, [Website Name], for more information and to explore our wide range of packaging solutions.

Additional Tags and Keywords:
Orbital Stretch Wrapper, Pipe Packing Machine, Steel Tube Packaging, Tube Bundle Wrapping, Stretch Film Wrapping, Pipe Packing Efficiency, Secure Packaging, Reliable Packaging Solution, Packaging Machinery, Industrial Packaging.

Hashtags:
#OrbitalStretchWrapper #PipePackingMachine #TubeBundleWrapping #SteelTubePackaging #IndustrialPackaging
Here is a sample code for a tilter for a pipe packing machine/orbital stretch wrapper for steel tube:

“`python
import RPi.GPIO as GPIO
import time

# Define GPIO pins for the tilter
TILTER_PIN = 18

# Configure GPIO
GPIO.setmode(GPIO.BCM)
GPIO.setup(TILTER_PIN, GPIO.OUT)

def tilt(angle):
# Calculate the required pulse width for the servo motor
pulse_width = (angle / 180.0) * 2.5 + 0.5

# Generate PWM signal with the calculated pulse width
pwm = GPIO.PWM(TILTER_PIN, 50) # 50 Hz frequency
pwm.start(2.5) # Start with the neutral position

try:
# Move the tilter to the desired angle
pwm.ChangeDutyCycle(pulse_width)
time.sleep(1) # Wait for 1 second to complete the tilt operation
finally:
# Cleanup GPIO
pwm.stop()
GPIO.cleanup()

# Example usage
tilt(45) # Tilt the pipe to 45 degrees
tilt(0) # Tilt the pipe back to the neutral position
“`

In this code, we use the RPi.GPIO library to control the GPIO pins of the Raspberry Pi. The `tilt()` function takes an angle as input and calculates the corresponding pulse width needed to move the tilter to that angle. It then generates a PWM signal with the calculated pulse width to control the servo motor attached to the tilter. The `time.sleep(1)` line is used to wait for 1 second to complete the tilt operation before stopping the PWM signal and cleaning up the GPIO.

Please note that this is a basic example and you may need to modify the code according to your specific hardware and requirements. Additionally, make sure to connect the servo motor to the correct GPIO pin as specified by the `TILTER_PIN` constant.Orbital Stretch Wrapper
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