All appliances have a 3" long ³⁄₈" NPT nipple installed at the valve. To quickly and easily complete the gas line routing, use the gas flex line kit, Model GFLV.

Gas Flex Line Kit, Model GFLV

³ " NPT x ³ "

¹ " x ³ " FlareFlare Fitting Shut-Off Valve

Gas Valve

¹⁄₂” Gas

Stud

Plate

Line

 

 

 

3 ⁷⁄₈"

 

 

(98 mm)

 

 

4"

Standard

 

(102 mm)

Left Side

 

 

 

Stud

¹⁄₂” Gas

 

Plate

 

Line

 

 

³ " Flex Tubing

³ " Nipple, Standard with all Units

³ " Union

Gas Stub

³ " Close Nipple

³ " Shut-Off Valve

¹ " x ³ " Reducer

Figure 10

11³⁄₈"

 

(289 mm)

 

 

 

Primary

4 ¹⁄₈"

Right Side (ST)

(105 mm)

Figure 9

Step 3. Remove the nailing flanges from the lower control compartment and install in place with three (3) screws each. Align with the three holes on each side of the appliance (refer to Figure 5 ).

Install the hood on all units. Position the hood in the open area above the appliance door. Insert the tabs, on each end of the hood, into the bracket at each end. Bend the two tabs over to secure.

Step 4. Position appliance into prepared fram- ing, secure with 6d nails at the nailing flange along each side.

Step 5. Connecting Gas Line – Make gas line connections. All codes require a shut-off valve mounted in the supply line. Figure 10 illus- trates two methods for connecting the gas supply. Installation methods and materials must be in compliance with local codes.

The gas control valve is located in the lower control compartment. To access the valve open the lower control compartment door (Figure 11 ). The control valve has a ³⁄₈" NPT thread inlet port and is fitted with a 3" (76 mm) long nipple, ³⁄₈" NPT on both ends. Plan the connections accordingly.

Route the gas line using techniques and mate- rials prescribed by local and/or national codes. If the gas line must be routed from the left hand side (viewed from the gas controls), route the gas line around the valve and connect to the valve from the right hand side. The left hand gas line opening has been offset to allow for easy attachment of hard piping from the left hand side, when hard piping (black iron) is required by local codes. For ease in installa- tion, the offset is designed to utilize (1) a 3/8" street elbow at the valve, replacing the nipple provided with the appliance and oriented to the rear, (2) a 6", 3/8" nipple and (3) a 3/8" standard elbow returning to the left and aligning with a gas line routed through the left hand opening.

Control

Valve

Lower Control

Compartment Door

Figure 11

Secure all joints tightly using appropriate tools and sealing compounds (ensure propane re- sistant compounds are used in propane appli- cations). Turn on gas supply and test for gas leaks using a soapy water solution. Never use an open flame to check for leaks.

A. Mix a 50% dish soap, 50% water solution.

B. Light the appliance (refer to safety and lighting instructions on page 15) (See *Note).

C. Brush all joints and connections with the soapy water solution to check for leaks. If bubbles are formed, or gas odor is detected, turn the gas control knob to the “OFF” position. Either tighten or refasten the leaking connec- tion and retest as described above.

D. When the gas lines are tested and leak free, observe the individual tongues of flame on the burner. Make sure all ports are open and pro- ducing flame evenly across the burner. If any ports are blocked, or partially blocked, clean out the ports.

An external regulator must be used on all propane (L.P.G.) heaters, in addition to the regulator fitted to the heater, to reduce the supply tank pressure to 13" w.c. (maximum).

WARNING: CONNECTING DIRECTLY TO AN UNREGULATED PROPANE TANK CAN CAUSE AN EXPLOSION.

Step 6. Installing the Optional Remote Wall Switch – The standard millivolt system comes from the factory wired as shown in Figure 12. Select a convenient location for the remote wall switch and connect the wiring to the appliance (Figure 13 ).

8

NOTE: DIAGRAMS & ILLUSTRATION NOT TO SCALE.

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Superior VFST-CMP-2, VFPF-CMP-2, VFST-CMN-2, VFPF-CMN-2 installation instructions Mix a 50% dish soap, 50% water solution
Page 7 Page 9

VFPF-CMP-2, VFPF-CMN-2, VFST-CMN-2, VFST-CMP-2 specifications

The Superior VFST-CMP-2, VFPF-CMN-2, VFPF-CMP-2, and VFST-CMN-2 represent a cutting-edge suite of products designed to meet the demands of modern applications in various industries, including telecommunications, data management, and industrial automation. Each of these models incorporates advanced features and technologies aimed at enhancing performance, reliability, and user experience.

The VFST-CMP-2 is particularly focused on high-speed data processing. With an impressive throughput and low latency, it is engineered for tasks that require rapid data handling, making it suitable for applications in cloud computing and data centers. This model incorporates state-of-the-art error correction algorithms, ensuring data integrity during transmission and significantly reducing downtime.

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The VFPF-CMP-2 combines features from both offerings, positioned as a hybrid solution that caters to versatile applications. It balances powerful data processing and efficient network management, making it an optimal choice for organizations looking to streamline operations across various platforms. With its modular architecture, users can easily scale their systems as demand increases without significant overhauls.

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In summary, the Superior VFST-CMP-2, VFPF-CMN-2, VFPF-CMP-2, and VFST-CMN-2 are exemplary models that bring together innovative features and technologies. Their unique characteristics make them well-suited for various applications, providing essential tools for enhanced data processing, network management, and operational efficiency. Organizations investing in these products are poised to benefit from improved performance and adaptability in an ever-evolving technological landscape.
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