Cuidado y limpieza del deshumedificador.

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Apague el deshumedificador y desconecte el enchufe del tomacorriente en la pared antes de limpiarlo.

Rejilla y gabinete

Para limpiar el gabinete:

Para limpiar la rejilla:

Use agua y un detergente de baja concentración.

Use una aspiradora con accesorio de cepillo suave

No use blanqueador ni limpiadores abrasivos.

o un cepillo de mano.

Usted puede retocar las raspaduras del gabinete

 

con pintura de esmalte para evitar que se oxide.

 

Tanque de agua

Para limpiar:

Después de algunas semanas, limpie el tanque para evitar la formación de moho, mildiú y bacterias. Llene parcialmente el tanque con agua limpia y agregue un poco de detergente suave. Agite el contenido dentro del tanque, luego vacíelo y enjuáguelo.

NOTA: No use una máquina lavavajillas para limpiar el tanque de agua.

Para retirar:

Retire el tanque y deseche todo resto de agua.

Para volver a colocar:

Coloque el tanque en el deshumedificador deslizándolo.

NOTA: El tanque debe estar en su lugar y bien sujeto para que el deshumedificador funcione.

Seguridad

Operación

Cuidado y limpieza

Filtro de aire

El filtro de aire detrás de la rejilla frontal debe inspeccionarse y limpiarse por lo menos cada 30 días o más a menudo si fuese necesario.

NOTA: NO enjuague o lave el filtro usando una máquina lavavajillas automática.

Para retirarlo:

Tome el borde del filtro y tirelo del lado.

Limpie el filtro con agua tibia y jabón. Enjuáguelo y permita que se seque antes de colocarlo otra vez en su lugar. No lave el filtro en un lavavajillas.

PRECAUCIÓN: NO OPERE el

deshumedificador sin el filtro debido a que la suciedad y las pelusas lo obstruirán y reducirán su rendimiento.

NOTA: Evite usar una máquina lavavajillas para limpiar el filtro.

Solución de problemas Ayuda al cliente

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GE AHM65*, AHM40, AHM30 owner manual Cuidado y limpieza del deshumedificador, Precaución no Opere el, Seguridad Operación

AHM30, AHM65*, AHM40 specifications

The GE AHM series consists of advanced hybrid propulsion systems designed for a variety of aircraft applications. The AHM30, AHM40, and AHM65 models feature cutting-edge technologies that enhance performance, efficiency, and reliability in demanding aviation environments.

The GE AHM30 model is tailored for smaller regional aircraft and offers a compact footprint while delivering impressive power output. With a maximum thrust capability of approximately 3,000 pounds, the AHM30 is equipped with an efficient turbofan engine that utilizes advanced materials to reduce weight and increase durability. The hybrid architecture of the AHM30 allows for seamless transitions between electric and traditional fuel sources, resulting in lower fuel consumption and emissions.

Moving up the range, the GE AHM40 model is designed for medium-sized commercial jets and offers a balance of power and efficiency. This model boasts a thrust range from 5,000 to 7,000 pounds, making it suitable for longer regional routes and short-haul international flights. The AHM40 incorporates next-generation noise reduction technologies, ensuring compliance with stringent environmental regulations while providing a quieter cabin experience for passengers. Enhanced avionics and control systems also significantly improve flight safety and operational flexibility.

The most powerful in the series, the GE AHM65, is engineered for larger aircraft and boasts a thrust output of up to 10,000 pounds. This model is particularly effective for operations in high-demand environments, such as cargo transport and military applications. The AHM65’s hybrid propulsion system features robust electrical systems that can power auxiliary devices, reducing the reliance on traditional fuel systems and paving the way for sustainable aviation practices. Additionally, the AHM65 offers superior thrust-to-weight ratios, enabling better climb performance and efficiency during all stages of flight.

All three models in the GE AHM series leverage advanced diagnostic and monitoring technologies, allowing operators to maximize uptime and minimize maintenance costs. With real-time data analytics, operators can track system performance, predict maintenance needs, and ensure optimal operation throughout the aircraft’s lifecycle.

In summary, the GE AHM30, AHM40, and AHM65 stand out in the aviation industry with their innovative hybrid technologies, fuel-efficient designs, and commitment to sustainability. Their impressive performance characteristics make them suitable for a wide range of applications, from regional air travel to heavier cargo and military missions, representing the future of efficient aviation propulsion systems.