• Glass Information

1.Under no circumstances should this product be operated with broken glass.

2.Do not strike or slam the glass.

3.Do not use abrasive cleaners to clean the glass.

4.This product uses tempered glass. Replacement of the glass supplied by the manufacturer should be done by a qualified service person.

• Replacing the Light Bulbs

Depending on your model, the fireplace uses two (2) or three (3) clear 120 Volt,

60 Watt, E-12 socket base light bulbs (small base, chandelier candle type) located under the ember bed. Units with overhead lights (Fig. 9) use two (2) clear 120 Volt, 5 Watt, E-12 socket base light bulbs (small base, chandelier candle type) located above the logs. For convenience, if one of the light bulbs burns out, it may be easier to replace all of the light bulbs at the same time.

Do not exceed 60 Watts per bulb for the ember bed bulbs and 5 Watts per bulb for the overhead lights. Use of higher rated bulbs may result in a fire, causing property damage, personal injury or loss of life.

1.Turn off power to the unit.

2.Let fireplace cool if it has been operating.

3.Open the front doors.

4.Locate two (2) screws that hold the refractory (brick patterned) bracket together with the ember bed. (Fig. 6) NOTE: Some units may have two (2) screws secur- ing the refractories to the ember bed. These screws must also be removed.

(not shown)

Figure 6

FP1737

Remove Screws

5.Remove those two (2) screws using an appropriate screwdriver. One screw is located on either side of the unit.

6.Pull the ember bed out of the unit by gently pulling towards you and only slightly upwards. Depending on the model, you can remove the refractory prior to removing the ember bed.

Figure 7

Pull Here (both sides)

FP1738

10

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CFM Corporation EF36, EF22, EF26FG, EF33 manual Glass Information, Replacing the Light Bulbs

EF26FG, EF22, EF33, EF26, EF36 specifications

CFM Corporation is renowned for its cutting-edge aviation technologies, and among its top product lines are the CFM56 and LEAP engines. However, a detailed analysis of the EF26FG, EF36, EF22, EF33, and EF26 engines showcases the company’s innovation in providing powerful and reliable propulsion solutions.

The CFM EF26FG and EF26 engines feature advanced turbofan designs that enhance efficiency while delivering excellent performance. The EF26FG model incorporates a geared fan technology that optimizes thrust and fuel consumption, making it suitable for regional jets and smaller aircraft. The compact architecture of the EF26 ensures compatibility with various airframes while maintaining a lightweight design.

The EF22 engine is optimized for performance in medium-sized commercial aircraft, where a balance of power and fuel efficiency is crucial. It showcases a high bypass ratio, resulting in quieter operations and reduced environmental impact. This model also incorporates advanced materials that contribute to its durability and reliability under varying operational conditions.

Meanwhile, the EF33 engine stands out with its high thrust capacity, making it ideal for larger aircraft requiring superior takeoff performance. The incorporation of state-of-the-art aerodynamic design features helps minimize drag, while the cutting-edge fuel injection technology maximizes combustion efficiency. The EF33's ability to perform in diverse climatic conditions adds to its versatility.

Lastly, the EF36 engine is engineered for high performance and longevity, specifically designed to operate in high-demand environments. It includes features such as upgraded turbine materials and the latest in noise reduction technologies, contributing to a lower carbon footprint. Additionally, advanced engine monitoring systems enhance safety and operational efficiency, allowing for real-time diagnostics.

All these models reflect CFM Corporation's commitment to innovation, performance, and environmental stewardship, making their engines highly regarded in the aviation industry. With a strong emphasis on reliability and cost-effectiveness, CFM’s EF series continues to set the standard for next-generation aircraft propulsion, addressing the evolving needs of airlines worldwide. The EF engines symbolize the future of aviation technology, merging performance with sustainable practices.