OWNER’S MANUAL

INSTALLATION

Continued

CONNECTING EQUIPMENT SHUTOFF VALVE TO HEATER CONTROL

Installation Items Needed

• Phillips screwdriver

CAUTION: Avoid damage to regulator. Hold gas regulator with wrench when connecting it to gas piping and/or fittings.

4.Apply pipe joint sealant lightly to male threads of gas connector attached to flexible gas line/equipment shutoff valve (see Figure 26).

5.Check all gas connections for leaks. See Checking Gas Connections, page 16.

6.Replace branch support back into fire- place. Feed flexible gas line into fire- place base area while replacing branch support. Make sure the entire flexible gas line is in fireplace base area. Reat- tach branch support to fireplace with screws removed in step 2.

• sealant (resistant to propane/LP gas, not

provided)

1.Remove fireplace screen. Remove two screws that hold fireplace screen in place for shipping. These screws are located near top of screen. Discard screws. Lift fireplace screen up and pull out to remove.

2.Remove screws that attach branch sup- port to fireplace (see Figure 25). Care- fully lift up branch support and remove from fireplace (see Figure 25).

3.Route flexible gas line, included, from fireplace control to equipment shutoff valve through side or rear access holes in outer casing.

NOTICE: Most building codes do not permit concealed gas con- nections. A flexible gas line is

Screen

Shipping

Branch Screw

Support

Shoulder Screw

Flexible Gas

Line

Screen

Figure 25 - Removing Log Base Assembly From Fireplace

provided to allow accessibility from the fireplace (see Figure 25). The flexible gas supply line con- nection to the equipment shutoff valve should be accessible.

To Fireplace

Gas Regulator

Flexible Gas Line from Fireplace Gas Regulator

Equipment Shutoff Valve Provided by Installer

To External

 

 

Regulator

Figure 26 - Attaching Flexible Gas Line to Equipment Shutoff Valve

Continued

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Desa CGCFTP 14, 000 to 26 Connecting Equipment Shutoff Valve to Heater Control, Installation Items Needed

000 to 26, CGCFTP 14 specifications

Desa 000 to 26 and CGCFTP 14 represent advanced frameworks and protocols that are pushing the boundaries of digital communications and data transfer methodologies.

Desa 000 to 26 refers to a series of digital communication protocols designed to facilitate high-speed data transmission over diverse networks. These protocols have been tailored to accommodate a wide range of applications, from mobile communications to IoT devices. The primary characteristic of Desa 000 to 26 is its ability to support reliable and efficient data exchange, ensuring minimal latency and high bandwidth.

One of the main features of these protocols is adaptive bandwidth allocation, which allows the system to dynamically adjust the bandwidth based on real-time network conditions. This adaptability leads to optimal performance regardless of fluctuations in user demand or network congestion. Enhanced error correction techniques integrated into the Desa protocols also ensure data integrity during transmission, improving overall reliability.

On the other hand, CGCFTP 14 represents an evolution in file transfer protocols, specifically designed for secure and efficient data transfer between systems. This protocol leverages end-to-end encryption to safeguard data against unauthorized access during transfer. Key features of CGCFTP 14 include support for multi-threaded file transfers, which significantly accelerates the speed of large data transfers by concurrently sending multiple segments of a file.

CGCFTP 14 also incorporates advanced access control measures, allowing users to set permissions for file transfers. This characteristic is particularly valuable in corporate environments where data sensitivity is paramount. Furthermore, the protocol is compatible with various operating systems and platforms, providing ease of integration into existing systems, enhancing its versatility.

The combination of Desa 000 to 26 and CGCFTP 14 highlights the importance of robust, flexible, and secure communication methodologies in today’s digital landscape. These technologies cater to the ever-increasing demand for high-speed data transfer while ensuring security and reliability are not compromised. As businesses and individuals continue to rely on digital communication, the adoption of such innovations will undoubtedly shape the future of connectivity and data management.