Halo Tire Inflator How It Works

You know how crucial it is to maintain the correct tire pressure. It is essential for our vehicle safety, fuel efficiency, and tire lifespan. A drop or spike in pressure can lead to accidents, increased fuel consumption, and premature wear and tear. Enter the Halo Tire Inflator, a cutting-edge solution to keep your tires at optimal pressure. In this article about “Halo tire inflator how it Works,” we’ll explore What the Halo tire inflator is, how the Halo tire inflator works, how to set up a Halo tire inflator, and offer a simple yet effective way to manage tire maintenance. 

What is the Halo Tire Inflator?

Helo is an automatic tire inflation device. It bolts onto the wheel of a commercial vehicle (e.g., Truck, Trailers) and uses the rotation of that wheel to generate pumping power as the vehicle moves down the road. As the vehicle drives, the Halo will sense when the tire pressure is low, putting air into the tire as needed. So, It automates the process that fleets have difficulty doing themselves. This beautiful technology benefits our environment because it allows trucks to run much cleaner and more efficiently, helping us with cleaner air, less fuel, and reduced tire waste. 

How the Halo Tire Inflator Works?

Halo is an automatic tire inflation system (ATIS) that works by monitoring and continually adjusting the air pressure in a vehicle’s tires to ensure they remain at the optimal pressure level. The essential operation involves a few key components and steps:

1. Sensors: The Holo system uses pressure sensors in each tire to monitor the current air pressure. These sensors can detect when the pressure drops below or rises above the predetermined optimal level.

2. Control Unit: The information from the sensors is sent to a central control unit, which processes the data and determines whether any tire needs air added or released. This unit acts as the system’s brain, deciding when and how much to adjust tire pressure.

3. Air Source: The Holo automatic device has many holes. When it is rotated with the wheel, it automatically pulls air from the outside environment. The air source supplies the air needed to inflate the tires.

4. Air Delivery System: This includes a network of tubes or hoses that carry air from the source to the tires. Valves controlled by the central unit open to allow air to flow into a tire or release air from it, depending on the required adjustment.

5. Inflation or Deflation: When the control unit detects a tire with pressure below the set threshold, it opens the valve and starts the compressor (if not already running), allowing air to flow into the tire until the correct pressure is reached. If a tire’s pressure is too high, the system can open a valve to let some air out until the pressure drops to the desired level. The system continuously monitors tire pressures and makes adjustments as needed. 

Halo Tire Inflator Installation

Installation of a Helo tire Inflator is an easy task. Each wheel takes around 10 minutes. Before starting, ensure you have all the parts needed to install the Halo. We’ll cover the parts needed for a standard tandem axle truck with dual tires. The parts and procedures are very similar if you are performing an installation on a trailer. Here is a step-by-step guide to installing a Halo tire inflator. 

Parts We Need

• The Halo
• A standard tractor bracket with a sinner bolt
• One straight hose for the inner tire
• One hose with a hundred and eighty degrees in fitting pin for the outer tire
• A six-millimeter tube thread sealant

Note: Before installation, confirm that the target tire pressure label on the Halo matches the target pressure set point of the tires. 

Necessary Tools For Install Holo

• An impact driver and impact socket size for axle flange hub nuts. 
• A torque wrench capable of measuring 35 foot-pounds
• 5/8 socket and socket extension
• 5/8 wrench 
• A Channel lock pliers

Primary Tasks 

When you get to the wheel end of the dual tires, check that the tire valve stems are 180 degrees apart, or, if using five-hand hole wheels, they are as close to 180 degrees apart as possible. If any wheel end with a dual tire has valve stems that are not 180 degrees apart, please rotate the wheel to reorient the valve stems. Because the Halo only works while rotating in one direction. You will notice an arrow on both sides indicating the direction of rotation for proper function. Before installation, verify that the rotation arrow on the halo points in the forward rolling direction of the tire. 

Now you have all the necessary parts tools and have completed your primary task, let’s move over to the vehicle and get started with the installation:

Step-by-Step Guide

1. The first step is to remove four hub nuts and washers. If the hubs have tapered dowels under the hub nuts, do not remove them.
2. Slide the brackets over the studs and tighten the nuts to the recommended torque. Before installing the hoses, remove any valve extenders or pass-through valve stem caps, as these will significantly increase the chance of a tire leak. 
3. Attach the hoses to the inner and outer tires. While installing, you should hear the sound of air escaping as the hose engages the straighter core. Tighten until the sound stops, then tighten the hose one-quarter turn past hand height. Up area offers a custom-made hose install tool to assist when attaching and detaching the hoses. 
4. Next, attach the Halo to the bracket using the center bolt, but don’t tighten the center bolt fully. The Halo and the bracket have a ring of teeth, allowing the Halo to be oriented on the bracket. This will allow you to position the Halo to avoid poorly fitting hoses. Remember to verify the rotation arrow is pointing in the forward rolling direction of the tire. 
5. Next, apply a small amount of thread sealant onto the halo hose connector threads and attach the hoses. Tighten the hoses until they are snug using a 5/8 wrench and channel lock pliers. Rotate the Halo relative to the bracket until the hoses are not stretching or rubbing against the wheel.
6. Once the best position is found, tighten the center bolt. The recommended torque is 35 foot-pounds. This torque should be verified during each scheduled maintenance.  
7. Spray soapy water over the hose connections and crimps on both ends of the hoses. If you see large bubbles, it indicates a leak. Address the leak and test using soapy water. Your installation is done.  

Benefits of Using the Halo Tire Inflator

Using a Holo inflator brings several benefits: it ensures tires are always at the optimal pressure, improving fuel efficiency and reducing tire wear, leading to longer tire life. It enhances safety by minimizing the risk of tire-related accidents due to underinflation. This system also saves time and reduces maintenance costs, eliminating the need for manual tire pressure checks and adjustments. Overall, it contributes to more efficient and safer driving conditions.

Conclusion 

In conclusion, the Holo Tire Inflator offers an innovative and efficient solution for maintaining optimal tire pressure. It’s easy to install and operates seamlessly, automatically monitoring and adjusting tire pressure. This technology not only extends tire life but also improves fuel efficiency and enhances safety on the road. Drivers can enjoy peace of mind by investing in a Holo Tire Inflator, knowing their tires are always in top condition.