Application Data

OFSD-211

Actuator Space Envelopes

The drawing below and corresponding table show the minimum dimensions required for internal actuator mounting on OFSD-211s. The standard mounting locations provide enough space for the mounting of actuators and controls plus allowing space for a grille and duct connection (see Sleeve Length below).

Factory supplied thermal blanket around sleeve

Actuator Space

Honeywell

 

 

 

 

 

ML-4XXX series

MS4120 series

 

Envelopes

Grille

 

MS4XXX series

 

 

 

 

 

(Supplied by

'X' Dimension

5.88 in. (149mm)

5.88 in. (149mm)

others)

 

 

 

 

 

 

Minimum Width

12 in. (305mm)

12 in. (305mm)

 

 

Minimum Height

12 in. (305mm)

12 in. (305mm)

 

 

 

 

 

Sleeve Information

 

 

 

‘Sleeve Length’ = Depth of Grille (or Register)

 

 

+ X (Actuator: see table above)

 

 

+ 5 in. [127mm] (Damper Width)

 

 

+ 1.25 in. [31.8mm] (for duct connection)

Fire rated barrier

 

 

 

 

 

(round up to nearest length: 14 in., 16 in., 18 in.,

 

 

or 20 in. [356, 406, 457, or 508mm])

 

 

 

 

 

 

X

 

 

7

1 "

5 in.

2

Max.

 

A

 

 

Sleeve Length

Combination Fire Smoke Damper

‘Sleeve Gauge’ = 16 Ga. or 20 Ga. (1.5mm or 1mm)

Wall Opening Sizing

To accommodate for sleeve and thermal blanket thickness,

Wall

the wall opening must be oversized by 38 in. (9.5mm) as

 

shown. For example, if the nominal damper size required

 

is 18 in. x 14 in. (457mm x 356mm), the wall opening size

 

needs to be 18 38 in. x 14 38 in. (467mm x 365mm). The

 

damper itself is undersized 14 in. (6mm) on each dimension

 

for an actual damper size of 17 34 in. x 13 34 in. (451mm x

 

349mm). This is also the inside dimensions of the sleeve (for

 

grille considerations).

 

Fire Smoke Damper

With Sleeve And

Thermal Blanket

Nominal

Damper

Height + 3/8 in.

Nominal Damper

Width + 3/8 in.

Specifications

Combination Fire Smoke Dampers meeting the following specifica- tions shall be furnished and installed where shown on plans and/or as described in schedules. Dampers shall meet the requirements of NFPA 80, 90A, 92A, 92B, 101 & 105 and further shall be tested, rated and labeled in accordance with the latest edition of UL Standards 555 and 555S. Dampers shall have a UL555 fire rating of 1½ hours and be of low leakage design qualified to UL 555S Leakage Class I.

Each damper /actuator combination shall have a UL555S elevated temperature rating of 250°F (121°C) minimum and shall be operational and dynamic rated to operate at maximum design air flow at its installed location. Each damper shall be supplied with an appropriate actuator installed by the damper manufacturer at the time of damper fabrication. Damper actuator shall be (specifier select one of the following) electric type for 120 (24 or 230) volt operation.

Damper blades shall be 16 ga. (1.5mm) galvanized steel 3V type with three longitudinal grooves for reinforcement. Damper frame shall be galvanized steel formed into a structural hat channel shape with reinforced corners. Bearings shall be sintered bronze sleeve type rotating in extruded holes in the damper frame. Blade edge seals shall be silicone rubber designed to inflate and provide a tighter seal

against leakage as pressure on either side of the damper increases. Jamb seals shall be stainless steel compression type. Blades shall be completely symmetrical relative to their axle pivot point, presenting identical resistance to airflow in either direction or pressure on either side of the damper. Each damper shall be supplied with a factory mounted sleeve; sleeve shall be wrapped with UL approved thermal barrier material.

The Damper Manufacturer's submittal data shall certify all air perfor- mance pressure drop data is licensed in accordance with the AMCA Certified Ratings Program for Test Figures 5.2, 5.3, and 5.5. Damper air performance data shall be developed in accordance with the lat- est edition of AMCA Standard 500-D. Dampers shall be labeled with the AMCA Air Performance Seal.

Damper must be rated for mounting vertically (with blades running horizontal) or horizontally and be UL 555S rated for leakage and airflow in either direction through the damper. Each damper shall be supplied with a 165°F (74°C) RRL.

The basis of design is Greenheck Model OFSD-211.

Copyright ©2006 Greenheck Fan Corporation OFSD-211 Rev 3 June 2006

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Greenheck Fan dimensions Application Data OFSD-211, Actuator Space Envelopes, Sleeve Information, Wall Opening Sizing
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OFSD-211 specifications

The Greenheck Fan OFSD-211 is a notable solution in the arena of energy-efficient and high-performance fan systems. Designed to handle varying air volumes and pressures, this fan has become an essential component in numerous commercial and industrial applications. Its reliable operation and versatile design make it an exceptional choice for users seeking effective ventilation solutions.

One of the standout features of the OFSD-211 is its exceptional energy efficiency. Equipped with advanced motor technology, it significantly reduces energy consumption compared to traditional fan models. The use of high-efficiency EC motors ensures that users not only benefit from lower utility bills but also contribute to a more sustainable environment. This feature is particularly crucial in today’s climate-conscious market.

In terms of construction, the OFSD-211 is built with durability in mind. The fan’s housing is made from galvanized steel, providing robust protection against the elements and long-lasting performance. The design minimizes vibration and noise, ensuring that operations remain quiet even during peak performance.

Another encouraging characteristic of the OFSD-211 is its ease of installation and maintenance. The fan is designed with user convenience in mind, allowing for straightforward setup and minimal downtime during servicing. This practicality appeals to facility managers and maintenance personnel seeking efficient solutions without excessive operational interruptions.

The OFSD-211 also incorporates state-of-the-art control technologies, enabling users to optimize performance based on specific environmental conditions. With integrated controls, users can adjust speed variables to meet precise airflow demands, further enhancing the fan's energy efficiency. This adaptability makes it suitable for a range of applications, from restaurants and schools to manufacturing plants and warehouses.

Moreover, the OFSD-211 offers exceptional airflow capabilities, with models available in a variety of sizes to suit different requirements. Its design ensures that it can handle both high static pressures and large air volumes, making it a versatile choice for various industrial applications.

In summary, the Greenheck Fan OFSD-211 stands out as a pioneering fan solution, combining energy efficiency, durability, and advanced control technologies. Its commitment to performance and user-friendly features positions it as a leading choice among HVAC professionals and facility managers, ensuring effective ventilation in diverse environments while prioritizing energy savings.
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