8.Wipe off the bulb glass with the supplied alcohol wipe. Then insert the bulb through the center hole of the mounting base. (See Figure 5) The power cord must be 90° to the view port hole on the mounting base.

9.With the ballast pressed against the mounting base, rotate the ballast clockwise 90°.

10.Plug the power supply cord into a standard electric wall outlet. Check bulb operation by looking through the view port hole. NOTE: The view port hole is made of glass and will not allow any UVC rays to pass through. A blue glow should be seen in the duct.

11.If blue glow is not seen, make sure base is properly installed onto duct. There is a proving switch located on the base that needs to be seated properly onto the duct. Make sure that

when base is mounted that the plated washer on the switch is raised approximately 3/16” and the switch is fully engaged. (See Figure 6)

12.With standard duct tape or like material, seal all joints and seams of the plenum near the

mounting location to reduce any direct viewing of light.

MAINTENANCE

WARNING: Unplug unit from outlet before commencing inspection and cleaning.

NOTE: Wear disposable, non-absorbent protective gloves prior to inspection procedure in case of accidental breakage of glass.

Figure 5

Figure 6

1.We recommend inspecting and cleaning bulb at least every 6 months depending upon your home environment and condition of conventional filters and duration of use and their replacement cycle.

2.To maintain the bulbs maximum output intensity , replace your Air+Health™ Air Purifying System bulb annually, depending upon your home environment using the replacement procedure below. The bulb should operate continuously for maximum bulb life and light effectiveness.

REPLACEMENT PROCEDURE

WARNING: Unplug unit from wall outlet before starting replacement procedure.

NOTE: Wear disposable, non-absorbent protective gloves prior to replacement procedure in case of accidental breakage of glass.

1.Rotate the Air+Health™ ballast assembly counter-clockwise until it stops. (See Figure 7)

2.Remove the ballast assembly and bulb from the mounting base. (See Figure 5)

3.Remove the bulb from the bulb socket. (See Figure 4)

4.Install replacement bulb into bulb socket. Do not handle the bulb with bare hands. Oils on the hands tend to reduce bulb intensity.

5.Wipe off the glass with the supplied alcohol wipe.

6.Position the ballast assembly power cord 90° to the view port hole on the mounting base. (See Figure 7)

7.Slide the bulb thought the hole in the mounting base. (See Figure 5)

8.Press the ballast against the mounting base and rotate the ballast assembly clockwise until it stops. (See Figure 8)

9.After assembly is firmly in place, plug the power supply cord into a standard electrical wall outlet. Check bulb operation by looking through the view port hole. A blue glow should be seen in the duct.

Figure 7

Figure 8

WARNING: Never expose eyes or skin to UVC light from any source. Looking directly at the UVC light may cause permanent eye damage or blindness. Never operate the Air+Health™ Air Purifying System out of the plenum. Avoid touching the glass portion of the bulb with your hands.

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Air Health AH-RL, AH-1 instruction sheet Maintenance, Replacement Procedure
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AH-RL, AH-1 specifications

The Air Health AH-RL and AH-1 are advanced air mobility vehicles designed for a variety of missions, ranging from emergency medical services to search and rescue operations. These innovative aircraft are part of a new generation of aerial vehicles that leverage cutting-edge technologies to enhance safety, efficiency, and overall performance.

One of the standout features of the AH-RL is its vertical takeoff and landing (VTOL) capability. This technology allows the aircraft to operate in constrained environments, such as urban landscapes and remote areas, where traditional fixed-wing aircraft may struggle. The VTOL function is powered by four electric rotors, enabling the AH-RL to ascend and descend with precision, making it ideal for rapid patient transport and urgent medical situations.

The AH-1 variant is specifically tailored for tactical missions, incorporating a more robust airframe designed to withstand challenging operational conditions. It boasts heavy-duty landing gear, reinforced structures, and improved payload capacity, allowing it to carry essential medical equipment and personnel efficiently.

A key characteristic of both models is their advanced avionics suite. The aircraft is equipped with a sophisticated navigation system that integrates real-time data and AI-driven analytics to optimize flight paths and ensure precise arrivals at designated landing spots. The user-friendly cockpit interface enhances pilot situational awareness with clear displays of vital flight information and environmental conditions.

Additionally, the Air Health AH series features state-of-the-art communication systems that allow for seamless coordination between flight crews and ground-based medical personnel. This capability is crucial in ensuring that emergency services are timely and effective, potentially saving lives during critical situations.

Safety is paramount in the design of the AH-RL and AH-1. Both aircraft are built with redundancy in mind, including multiple power sources and backup systems to guarantee reliability during flights. The materials used in construction are selected for their lightweight yet durable properties, contributing to increased speed and fuel efficiency while minimizing wear and tear.

In summary, the Air Health AH-RL and AH-1 represent a significant leap forward in aerial health solutions, bringing together innovative features, advanced technologies, and robust characteristics to support vital emergency services. Their integration of VTOL capabilities, advanced avionics, and a focus on safety positions them as leading options in the evolving landscape of air mobility.
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