The Division2 sheet in the HVAC.xls workbook defines the reference data in the Catalog for a division feature, which is a component that divides the HVAC rectangular duct into two ducts along the width of duct. The division feature has three ports: the original duct port and the resulting two ducts ports.
PartNumber
Type the part number for the division feature. An example is DivisionW2.
SymbolDefinition
Type the symbol definition for the division feature.
FaceWidth
Type the face width of the damper for the division feature.
FaceDepth
Type the face depth of the damper for the division feature.
ComponentType
Type the component type for the division feature.
PartDescription
Type a description for the division feature.
Width
Type the width of the division feature.
Depth
Type the depth of the division feature.
Cell
Type a description of the cell associated with the division feature.
CellDimension
Type the dimension of the cell for the division feature.
For the remaining properties, (i) indicates an integer corresponding to a nozzle number assigned to the cross section. This method avoids a lengthy listing for all possibilities, like Nozzle(1):CrossSection, Nozzle(2):CrossSection, and Nozzle(3):CrossSection for three possible nozzles. When you type the nozzle properties in the workbook, substitute a number for i to assign the nozzle to the appropriate property.
Nozzle(i):CrossSection
Identify the cross section for the particular nozzle. OCS-6X4 is an example.
Nozzle(i):EndPrep
Type the coded end preparation for the nozzle. Examples of end preparations include Threaded, Screwed, Plain End, Welded, Bolted, Female, Male, and Ferule. In the reference data, a number represents each type of end preparation (for example, 1 for Threaded, 2 for Screwed and so on).
Nozzle(i):Thickness
Type the thickness of the nozzle.
Nozzle(i):FlangeWidth
Type the flange width for the nozzle.
Nozzle(i):FlowDirection
Type the flow direction for the nozzle.
Nozzle(i):PortDepth
Type the depth of the port for the nozzle.
Nozzle(i):CptOffset
Type the offset value for the component.