Cuidado y limpieza del acondicionador de aire.

Cómo insertar las baterías del control remoto (en algunos modelos)

1

Retire la cubierta de la batería deslizándola de

acuerdo con la dirección de la flecha.

 

 

Inserte baterías nuevas, cerciorándose de que

2

los polos positivos (+) y negativos (–) están

 

 

orientados correctamente.

 

Coloque la cubierta otra vez deslizándola en

3

su lugar.

 

NOTAS:

QUse 2 baterías “AAA” de 1,5 voltios. No use baterías recargables.

QRetire las baterías del control remoto si el sistema no ha de ser usado por un período de tiempo extenso.

Parrilla y caja

Apague el acondicionador de aire y retire el

Para limpiar, use agua y un detergente suave.

enchufe del tomacorriente de la pared antes

No use cloro o materiales abrasivos.

de limpiar.

 

Bobinas para exteriores

Las bobinas en el lado exterior del acondicionador de aire debe ser inspeccionada regularmente.

Si la misma está obstruida con suciedad u hollín, podría ser limpiada profesionalmente.

Instrucciones de

operación

instalación

Instrucciones de Apoyo al consumidor Solución de problemas

Filtro de aire

El filtro de aire detrás de la rejilla frontal debe

Para retirarlo:

inspeccionarse y limpiarse por lo menos cada

 

30 días o más a menudo si fuese necesario.

 

Limpie el filtro con agua tibia y jabón. Enjuáguelo

 

y permita que se seque antes de colocarlo otra vez

 

en su lugar.

 

PRECAUCIÓN: NO OPERE el

 

acondicionador de aire sin el filtro debido a que la suciedad

 

y las pelusas lo obstruirán y reducirán su rendimiento.

O BIEN

 

Agarre las orejillas en el filtro y tire hacia afuera y hacia arriba.

1.Abra la rejilla de la entrada en la parte inferior y levántela para retirar.

2.Tire la parte superior del filtro hacia abajo y hacia afuera para retirar.

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GE ASM06* Cuidado y limpieza del acondicionador de aire, Precaución no Opere el, Filtro de aire, Para retirarlo

ASM06* specifications

The GE ASM06* is a sophisticated gas turbine engine designed and manufactured by General Electric, specifically tailored for aviation applications. This powerful engine is a result of advanced engineering and innovative technologies aimed at delivering superior performance, efficiency, and reliability.

One of the main features of the ASM06* is its robust design, which integrates state-of-the-art materials and manufacturing processes. Utilizing advanced composite materials in fan blades and complex cooling systems, the engine achieves a remarkable balance between weight and performance, which is crucial for maximizing fuel efficiency and minimizing operational costs.

The ASM06* incorporates a high bypass ratio, which enhances its thrust capabilities while reducing noise emissions. This is especially beneficial for commercial aviation, as it meets stringent environmental regulations while providing a comfortable flying experience. The fan configuration also plays a significant role in optimizing aerodynamic performance, leading to better fuel consumption compared to older models.

Another standout characteristic of the ASM06* is its advanced digital engine control system. This system allows for real-time monitoring and precise adjustments to engine parameters, ensuring optimal performance under various flying conditions. The use of innovative sensors and control algorithms provides significant reliability and enhances maintenance capabilities, enabling operators to monitor engine health and performance efficiently.

In terms of technology, the ASM06* features high-efficiency combustors designed to minimize nitrogen oxide (NOx) emissions. These advanced combustor technologies help the engine to operate with lower environmental impact while maintaining high power output. The use of additive manufacturing techniques has also been a game-changer in producing complex components that were previously difficult to fabricate, resulting in a reduction of weight and an increase in durability.

The modular design of the ASM06* facilitates easier maintenance and quicker turnaround times, which is vital for airlines looking to maximize aircraft availability. This capability not only reduces operational expenses but also enhances overall fleet performance.

In conclusion, the GE ASM06* represents a significant advancement in gas turbine technology, combining high performance, fuel efficiency, and lower emissions. Its innovative features and characteristics make it an attractive choice for airlines looking to improve their operational effectiveness while adhering to environmental standards. With its advanced design and technologies, the ASM06* will undoubtedly play a critical role in the future of aviation engines.