How To Make Microloop For Kiteboarding Bar

Table of Contents

Kiteboarding is an exhilarating water sport that combines the thrill of surfing with the excitement of flying a kite. To maximize your experience and ensure safety while kiteboarding, it’s crucial to have a well-designed kiteboarding bar. One of the essential components of a kiteboarding bar is the microloop, which plays a significant role in controlling the kite’s power. In this comprehensive guide, we will walk you through the process of creating a microloop for your kiteboarding bar. From understanding the purpose of a microloop to selecting the right materials and step-by-step instructions, we have you covered. So let’s dive in!

 

What is the Purpose of a Microloop?

A microloop is a crucial component of a kiteboarding bar that acts as a connection point between the kite’s control lines and the bar itself. It allows kiteboarders to fine-tune the power of the kite by adjusting the distance between the control lines. The primary purpose of a microloop is to provide riders with better control over the kite’s power, enabling them to perform maneuvers more efficiently while maintaining optimal safety.

 

What Materials Do You Need?

To create a microloop for your kiteboarding bar, you’ll need a few materials readily available at most kiteboarding shops or online retailers. These include a microloop kit, a splicing needle, a fid, a sharp knife or scissors, heat shrink tubing, and a heat gun. The microloop kit typically consists of a loop, a pigtail, and screws or stainless steel rings for attaching it to the control lines.

 

How to Prepare the Control Lines

Before you can attach the microloop to your kiteboarding bar, it’s essential to prepare the control lines properly. Start by locating the desired spot on the control lines where you want to attach the microloop. Ensure that the area is free from knots, twists, or any other damage that could compromise the integrity of the lines. Once you’ve identified the ideal location, follow these steps:

  1. Measure the distance: Use a tape measure to determine the appropriate distance between the control lines. This measurement will determine the length of the pigtail that attaches to the microloop.
  2. Mark the spot: Make a small mark on both control lines at the desired distance.
  3. Protect the lines: Apply a small piece of heat shrink tubing to each control line, covering the marked spot. This will protect the lines from wear and tear caused by the microloop.

 

How to Attach the Microloop

Now that you’ve prepared the control lines, it’s time to attach the microloop. Follow these step-by-step instructions to ensure a secure and reliable connection:

  1. Thread the loop: Pass the loop from the microloop kit through the pigtail, ensuring that the loop is properly aligned.
  2. Create a loop connection: Insert the looped end of the pigtail through the marked spot on one control line, then pass it through the other control line from the opposite side.
  3. Adjust the length: Pull the pigtail until the loop is positioned at the desired distance between the control lines.
  4. Secure the loop: Use screws or stainless steel rings (provided in the microloop kit) to secure the loop to the control lines.
  5. Check the connection: Ensure that the microloop is securely attached by giving it a gentle tug and verifying that it holds firm.

 

How to Finish the Microloop

Once the microloop is securely attached, it’s essential to finish the process by protecting the connection and ensuring longevity. Follow these final steps:

  1. Apply heat shrink tubing: Slide a longer piece of heat shrink tubing over the connection point between the microloop and the control lines. Ensure that the tubing covers the entire connection area.
  2. Secure and seal: Use a heat gun to apply heat evenly to the heat shrink tubing, causing it to shrink and tightly seal the connection. Be careful not to overheat and damage the control lines.
  3. Trim excess tubing: Once the tubing has cooled down and sealed, use a sharp knife or scissors to trim any excess tubing, creating a neat and clean finish.

 

How to Test the Microloop

After creating the microloop, it’s crucial to test its functionality before heading out onto the water. Follow these steps to ensure the microloop is properly working:

  1. Perform a visual inspection: Examine the microloop connection, control lines, and heat shrink tubing for any signs of damage or looseness.
  2. Conduct a tug test: Gently pull on the microloop, applying moderate force to check its strength and stability. Ensure that it holds securely without slipping or coming undone.
  3. Test the adjustment: Move the microloop along the control lines to adjust the distance between them, ensuring smooth and effortless movement without any snags.
  4. Practice with your kite: Attach your kite to the kiteboarding bar and test the microloop’s functionality while performing various maneuvers. Observe how the microloop affects the kite’s power and adjust it accordingly.

 

Conclusion

Crafting a microloop for your kiteboarding bar is a rewarding process that enhances your overall kiteboarding experience. By following the step-by-step instructions outlined in this guide, you can create a secure and efficient microloop that allows for precise control of your kite’s power. Remember, safety is paramount when kiteboarding, so always conduct thorough inspections and tests to ensure the microloop is functioning optimally before hitting the water. Now that you have the knowledge and skills, it’s time to embark on your kiteboarding adventure and enjoy the thrill of riding the wind and waves like never before!

Josh Mitchell

Josh Mitchell

"I live and breath boardriding"

Recent Posts

How To Make A Wakeboard Rails
How To Make Wakeboard Rails

Wakeboarding has emerged as one of the most exhilarating water sports, combining elements of surfing, snowboarding, and skateboarding into a thrilling experience. As wakeboarders push

Read More »
How To Do A Scarecrow Wakeboard
Safety In Wakeboarding

Wakeboarding is an exhilarating watersport that combines elements of water skiing, snowboarding, and surfing. As with any adventure sport, safety should be a top priority

Read More »