Bard WUVCLP-A, WUVCLP-C specification

7.Slide the left bracket tight against the left side of the unit. Insert two self drilling screws on the left side of the unit and into the left side mounting bracket of the WUVCLP light assembly. Use the pilot holes in the mounting brackets for alignment. Tighten the ¼ in screw on the left side bracket to hold in place. (See Figure 5)

8.Unpack the WUVCLP light bulb and insert the plug end through the hole closest to the

wire connection. Then insert the other end of the bulb through the other end bracket. When the bulb is in place use the clamp to

secure the bulb and connect the wire plugFigure 5 to the light bulb.

9.Use the alcohol wipe to clean any oil or dirt deposits off the UV light bulb. Oils from human skin will reduce the effectiveness of the UV light bulb

WIRING

230/208 Volt Single Phase and Three Phase Units Only

1.For 230/208 volt single phase and three phase units run the flexible conduit and wires down through the blower partition in the same opening that the copper tubing goes through. Use wire ties to secure the conduit to the suction line. See Figure 6A & 6B.


Figure 6A		Figure 6B

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WUVCLP-A, WUVCLP-C specifications

Bard WUVCLP-C and WUVCLP-A are advanced catheter systems designed for use in healthcare settings that require high levels of efficiency and safety in venous access. These devices are particularly beneficial in critical care environments and for patients requiring long-term venous access.

One of the standout features of the WUVCLP series is its unique catheter design, which incorporates advanced materials that enhance biocompatibility. These materials minimize the risk of adverse reactions and reduce the potential for catheter-related complications. The catheters are engineered to be flexible yet strong, which aids in maneuverability and positioning within the vascular system.

The WUVCLP-C model is designed specifically for central venous access. Its dual-lumen configuration allows for the simultaneous administration of medications and fluids, which can be especially important in emergency situations where time is of the essence. This model is equipped with mechanisms to reduce the likelihood of thrombus formation, which is a prevalent issue in central venous catheters.

On the other hand, the WUVCLP-A model is optimized for arterial access. This model significantly enhances flow rates and is particularly advantageous in procedures that require precise monitoring of blood pressure or the administration of medications directly into the arterial system. Both models include features that promote ease of insertion and minimize the trauma associated with venous access.

Both WUVCLP-C and WUVCLP-A utilize advanced technologies such as ultrasound guidance for improved accuracy during placement. This helps healthcare providers achieve optimal outcomes, particularly in challenging anatomy or in patients with difficult venous access.

Furthermore, these systems are designed with patient safety in mind. They incorporate secure locking mechanisms and are compatible with other medical monitoring devices, ensuring that they meet the rigorous demands of critical care environments.

Additionally, the Bard WUVCLP series benefits from ongoing clinical insights, allowing healthcare providers to utilize the latest evidence-based practices for patient care.

In summary, Bard WUVCLP-C and WUVCLP-A catheters represent a significant advancement in vascular access technology, featuring innovative designs and materials that prioritize patient safety and clinical effectiveness. Their dual capabilities for central and arterial access make them indispensable tools for modern medical practice.