Instrucciones para la instalación

CÓMO INSTALAR EL REFRIGERADOR (CONT.)

4COLOQUE EL REFRIGERADOR EN SU LUGAR

Mueva el refrigerador a su destino final.

5CÓMO NIVELAR EL REFRIGERADOR

El refrigerador puede nivelarse ajustando los rodillos localizados cerca de las bisagras inferiores.

Rodillos

Levante

Los rodillos tienen tres propósitos:

Los rodillos se ajustan para que la puerta cierre con facilidad cuando

esté medio abierta. (Levante el frente aproximadamente 16 mm [5/8] del piso.)

Los rodillos se ajustan para que el refrigerador esté colocado firmemente en el piso y no tambalee.

Los rodillos se ajustan para que el refrigerador pueda ser alejado de la pared en momentos de limpieza.

Para ajustar los rodillos en los modelos de 23’ y 25’:

6

A

B

CÓMO NIVELAR LAS PUERTAS

Ajuste la puerta del refrigerador para que las puertas estén niveladas en la parte superior.

Para linear:

Usando una llave de 7/16, gire el tornillo ajustable de la puerta hacia la derecha para levantar la puerta, y a la izquierda para bajarla.

NOTA:

Un tapón de nilón, empotrado en las roscas del pasador, evita que el pasador gire a no ser que se use una llave.

Después de una o dos vueltas de la llave, abra y cierre la puerta del refrigerador y cerciórese de que están alineadas en la parte superior.

Las puertas deben estar alineadas en la parte superior

Levantar

Llave de 7/16

Gire los tornillos de ajuste del rodillo en sentido de las agujas del reloj para levantar el refrigerador, y en contra de las agujas del reloj para bajarlo. Use una llave o un

cubo de cabeza hexagonal de 3/8o una llave ajustable.

Tornillo de ajuste del

rodillo

98

Page 98
Image 98
GE MODELS 23 AND 25 Coloque EL Refrigerador EN SU Lugar, Cómo Nivelar EL Refrigerador, Cómo Nivelar LAS Puertas

MODELS 23 AND 25 specifications

General Electric (GE) has long been a prominent name in the industrial world, particularly in the aviation and power generation sectors. Among its notable innovations are the GE Models 23 and 25, which have made significant contributions to engineering and technology.

The GE Model 23, launched in the early 1960s, was primarily designed for use in the aviation industry. This model is recognized for its robust design and reliable performance. Engineered with advanced materials for its time, the Model 23 utilized high-strength steel and lightweight aluminum alloys to reduce its overall weight while maintaining structural integrity. This focus on weight reduction allowed for improved fuel efficiency in aircraft utilizing this model.

One of the standout features of the GE Model 23 is its advanced turbofan engine technology, which is characterized by its quiet operation and high thrust capabilities. The model was notable for its bypass ratio, allowing it to deliver optimal performance with lower fuel consumption. This efficiency made it a popular choice among commercial airlines, as it contributed to lower operational costs.

The GE Model 25 followed shortly after and is often regarded as a more advanced iteration of the Model 23. Incorporating lessons learned from its predecessor, the Model 25 features improvements in aerodynamics and thermal efficiency. One of its key characteristics is its high bypass turbofan design, which enhances thrust while reducing noise levels even further.

The Model 25 also integrates cutting-edge digital engine control systems, allowing for precise management of engine performance. This technology not only optimizes fuel efficiency but also enhances the overall reliability of the engine under various operating conditions. Additionally, the use of composite materials in the fan blades of the Model 25 reduces weight and further improves efficiency.

Both models are equipped with advanced diagnostics and monitoring features, enabling engineers to assess engine health in real-time and preemptively address any potential issues. This has paved the way for improved maintenance routines and reduced downtime in aircraft operations.

In summary, the GE Models 23 and 25 epitomize GE's commitment to innovation, performance, and efficiency. With features that have significantly influenced the aviation industry, they have set a high standard for future developments in engine technology. Their advanced design and focus on sustainability continue to inspire new generations of engineers and manufacturers around the globe.