Annexe

TRANSFORMATION D’UN LAVE-VAISSELLE DOTÉ D’UN CORDON D’ALIMENTATION INSTALLÉ À L’USINE EN VUE D’UN BRANCHEMENT PERMANENT

Pour accomplir cette procédure, vous avez besoin des fils pour la conversion mis de côté à l’étape 1.

Assurez-vous que le cordon d’alimentation du lave-vaisselle est débranché de la prise de courant murale.

Enlevez la vis du couvercle de la boîte de jonction, puis enlevez le couvercle, s’il y a lieu.

Débranchez les trois conducteurs du cordon d’alimentation du faisceau du lave-vaisselle. Reportez-vous à la Figure BB.

Enlevez et jetez le cordon d’alimentation.

Branchez les fils pour la conversion (fournis avec le lave-vaisselle) au faisceau du lave-vaisselle, en branchant ensemble les fils de même couleur.

Reportez-vous à la Figure CC.

Figure BB

Retournez à l’étape 16 des présentes directives pour terminer la conversion.

Enlevez la bague anti-traction

Débranchez le cordon d'alimentation

Figure CC

ConversionFils pour la conversionHarness

LES SPÉCIFICATIONS PEUVENT ÊTRE MODIFIÉES SANS PRÉAVIS

GE Consumer & Industrial

 

General Electric Company

 

Louisville, Kentucky 40225

206C1559P195 31-30255

GEAppliances.com

07-09 JR

16

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Image 32
GE 206C1559P195 installation instructions Annexe, Enlevez et jetez le cordon d’alimentation, Reportez-vous à la Figure CC

206C1559P195 specifications

The GE 206C1559P195 is a component that belongs to General Electric's suite of high-performance aircraft engine components. Specifically, this part is integral to the Geared Turbofan (GTF) engine technology that GE has pioneered, aiming at increasing fuel efficiency while reducing noise and emissions.

One of the standout features of the GE 206C1559P195 is its advanced aerodynamic design, which plays a crucial role in optimizing the engine's performance. The component helps improve air flow, thereby enhancing thrust and operational efficiency. By utilizing sophisticated Computational Fluid Dynamics (CFD) simulations in its design process, GE has ensured that the part meets the rigorous demands of modern aviation.

The GE 206C1559P195 also incorporates cutting-edge materials technology. Constructed with lightweight yet robust materials, the part significantly contributes to the overall weight reduction of the engine, which is vital for maximizing fuel efficiency. The use of composite materials and advanced alloys ensures that the component can withstand extreme temperatures and pressures associated with high-performance engine operation.

Another characteristic that sets the GE 206C1559P195 apart is its reliability and durability. GE's stringent manufacturing processes and quality control protocols ensure that each component is built to last, reducing maintenance frequency and enhancing operational reliability. The part is designed to have a long service life, making it a cost-effective choice in the long run for airlines and operators.

In terms of technological innovation, the GE 206C1559P195 features integrated sensors that provide real-time data on engine performance. This capability allows for better monitoring and predictive maintenance, thereby increasing safety and reducing unscheduled downtimes.

Furthermore, the integration of digital twin technology enables operators to simulate different operational scenarios, improving decision-making and optimizing maintenance schedules. This technological edge places the GE 206C1559P195 at the forefront of aircraft engine component innovations, aligning with the industry's shift toward sustainability and efficiency.

In summary, the GE 206C1559P195 is a remarkable component that embodies GE's commitment to advance aviation technology, emphasizing performance, durability, and environmental awareness. Its design and technological features reflect the ongoing evolution in the aerospace industry, making it a key asset for modern aircraft engines.