Installation Instructions

USING FLEXIBLE METAL DUCT FOR TRANSITION VENTING

Rigid or semi-rigid metal ducting is recommended for use as transition ducting between the dryer and the wall. In special installations when it is impossible to make a connection with the above recommendations, then a UL-listed flexible metal transition duct may be used between the dryer and wall connection only. The use of this ducting will affect dry time. Only those foil-type flexible ducts, if any, specifically identified for use with the appliance by the manufacturer should be used. In the United States, the duct must comply with the Outline for Clothes Dryer Transition Duct, Subject 2158A.

If flexible metal transition duct is necessary, the following directions must be followed:

Use the shortest length possible. The total length of flexible metal duct shall not exceed 2.4 m.

Stretch the duct to its maximum length.

Do not crush or collapse.

Never use flexible metal ducting inside the wall or inside the dryer.

Avoid resting the duct on sharp objects.

Venting must conform to local building codes.

FOR TRANSITION VENTING (DRYER TO WALL), DO:

•DO cut duct as short as possible and install straight into wall.

•DO use elbows when turns are necessary.

Elbows

DO NOT:

•DO NOT bend or collapse ducting. Use elbows if turns are necessary.

•DO NOT use excessive exhaust length. Cut duct as short as possible.

•DO NOT crush duct against the wall.

•DO NOT set dryer on duct.

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GE UPVH890 Do not, For Transition Venting Dryer to WALL, do, Using Flexible Metal Duct for Transition Venting

UPVH890 specifications

The GE UPVH890 is a state-of-the-art ultrasound machine that redefines imaging capabilities in the medical field. It is designed for comprehensive diagnostic applications, emphasizing portability, versatility, and advanced imaging technologies. This device stands at the intersection of functionality and user-friendliness, making it a valuable asset in various healthcare settings, from hospitals to outpatient clinics.

One of the main features of the UPVH890 is its lightweight design. Weighing significantly less than traditional ultrasound machines, it offers unparalleled portability, allowing healthcare providers to transport it easily from room to room or even to remote locations. This is particularly advantageous in emergency situations where rapid ultrasound assessments are crucial.

The UPVH890 employs cutting-edge imaging technologies, including advanced three-dimensional and four-dimensional imaging capabilities. These features enable clinicians to visualize complex anatomical structures in real-time, enhancing diagnostic accuracy. The system is equipped with enhanced Doppler imaging, crucial for evaluating blood flow, and provides high-resolution images that aid in better assessment of conditions.

Additionally, the device incorporates artificial intelligence (AI) algorithms, which streamline the workflow and improve image interpretation. The built-in AI assists clinicians by providing automated measurements and suggesting the most likely diagnosis based on the obtained data, ultimately leading to quicker and more accurate patient care.

The UPVH890 also boasts an intuitive touchscreen interface that facilitates easy navigation through various settings and functions. This feature reduces the learning curve for new users and enhances efficiency for experienced operators. The customizable user interface allows healthcare providers to tailor the machine's settings according to their specific preferences and the needs of their patients.

In terms of connectivity, the UPVH890 supports wireless communication, enabling seamless integration with electronic medical record (EMR) systems. This capability ensures that patient information is readily available, promoting coordinated care and efficient follow-up processes.

Overall, the GE UPVH890 ultrasound machine stands out for its innovative features, intelligent technologies, and user-centric design that collectively enhance diagnostic efficiency and patient care. It represents a significant advancement in the field of medical imaging, catering to a wide range of clinical needs while ensuring ease of use and accessibility.