rail of the bottom section.
Long Strut(s) are typically installed along the top and or bottom rails of sections. Measure the height of the long strut(s) to determine if you have 2” or 3”.
NOTE: Some struts also may or may not have holes in them. If they don’t, then prior to installing the strut and hinge to the section surface, you may have to drill a 3/16” hole for the appropriate fastener on one or both sides of the strut legs.
3 Section High Strutting Schedule
Section Type | | Type Of Strut | Location On Section |
| | | |
Top | | (1) Short | Top Of Section |
| | |
| N/A | Bottom Of section |
| |
| | | |
Intermediate I | | (1) Long | Top Of Section |
| | |
| (1) Long | Bottom Of section |
| |
| | | |
Bottom | | (1) Long | Top Of Section |
| | |
| (1) Short | Bottom Of section |
| |
| | | |
| | |
| 4 Section High Strutting Schedule | |
| | | |
Section Type | | Type Of Strut | Location On Section |
| | | |
Top | | (1) Short | Top Of Section |
| | |
| N/A | Bottom Of section |
| |
| | | |
Intermediate II | | (1) Long | Top Of Section |
| | |
| (1) Long | Bottom Of section |
| |
| | | |
Intermediate I | | (1) Long | Top Of Section |
| | |
| N/A | Bottom Of section |
| |
| | | |
Bottom | | (1) Long | Top Of Section |
| | |
| (1) Short | Bottom Of section |
| |
| | | |
| | |
| 5 Section High Strutting Schedule | |
| | | |
Section Type | | Type Of Strut | Location On Section |
| | | |
Top | | (1) Short | Top Of Section |
| | |
| N/A | Bottom Of section |
| |
| | | |
Intermediate III | | (1) Long | Top Of Section |
| | |
| (1) Long | Bottom Of section |
| |
| | | |
Intermediate II | | (1) Long | Top Of Section |
| | |
| (1) Long | Bottom Of section |
| |
| | | |
Intermediate I | | (1) Long | Top Of Section |
| | |
| N/A | Bottom Of section |
| |
| | | |
Bottom | | (1) Long | Top Of Section |
| | |
| (1) Short | Bottom Of section |
| |
| | | |
2” Strut | | | 3” Strut |
| | Long strut | |
Upper hinge | | Short strut | Center hinge(s) |
leaf | | | (as required) |
Lower hinge | | Hinges are stamped for | |
leaf | | identification | Half center hinge(s) |
2 | 1 | 1 |
| | | (as required) |
Removing an Existing Door
Important: Counterbalance spring tension must always be released before any attempt is made to start removing an existing door.
WARNING
A powerful spring releasing its energy suddenly can cause severe or fatal injury. To avoid injury, have a trained door systems tech- nician, using proper tools and instructions, release the spring tension.
For detailed information see supplemental instructions “Removing an Existing Door/ Preparing
the Opening”. These instructions are not supplied with the door, but are available at no charge from Wayne-Dalton, A Division Of Overhead Door Corporation, P.O. Box 67, Mt. Hope, OH., 44660, or at www.Wayne-Dalton.com.
Preparing the Opening
IMPORTANT: If you just removed your existing door or you are installing a new door, complete all steps in preparing the opening.
To ensure secure mounting of track brackets, side and center brackets, or steel angles to new or retro-fit construction, it is recommended to follow the procedures outlined in DASMA technical data sheets #156, #161 and #164 at www.dasma.com.
The inside perimeter of your garage door opening should be framed with wood jamb and header material. The jambs and header must be securely fastened to sound framing members. It is recommended that 2” x 6” lumber be used. The jambs must be plumb and the header level. The jambs should extend a minimum of 12” (305 mm) above the top of the opening for Torsion counterbalance systems. For low headroom applications, the jambs should extend to the ceiling height. Minimum side clearance required, from the opening to the wall, is 3-1/2” (89 mm), for 2” track. Minimum side clearance required, from the opening to the wall, is 4-1/2” (114 mm), for 3” track.
Important: Closely inspect jambs, header and mounting surface. Any wood found not to be sound, must be replaced.
For Torsion counterbalance systems, a suitable mounting surface (2” x 6”) must be firmly at- tached to the wall, above the header at the center of the opening.
Note: Drill a 3/16” pilot hole in the mounting surface to avoid splitting the lumber. Do not attach the mounting surface with nails.
Weatherstrips (may not be included):
Depending on the size of your door, you may have to cut or trim the weatherstrips (if necessary) to properly fit into the header and jambs.
Note: If nailing product at 40°F or below, pre-drilling is required.
Note: Do not permanently attach weatherstrips to the header and jambs at this time.
For the header, align the weatherstrip 1/8” to 1/4” inside the header edge, and temporarily secure it to the header with equally spaced nails. Starting at either side of the jamb, fit the weatherstrip up tight against the temporarily attached weatherstrip in the header and 1/8” to 1/4” inside the jamb edge. Temporarily secure the weatherstrip with equally spaced nails. Repeat for other side. This will keep the bottom section from falling out of the opening during installation. Equally space nails approximately 12” to 18” apart.
Headroom requirement: Headroom is defined as the space needed above the top of the door for tracks, springs, etc. to allow the door to open properly. If the door is to be motor operated, 2-1/2” (64 mm) of additional headroom is required.
Backroom requirement: Backroom is defined as the distance needed from the opening back into the garage to allow the door to open fully.
Backroom Requirements
Door Height | Track | Manual Lift | Motor Operated |
| | | |
6’0” to 7’0” | 15” Radius | 102” (2591 mm) | 125” (3175 mm) |
| | | |
7’1” to 8’0” | 15” Radius | 114” (2896 mm) | 137” (3480 mm) |
| | | |
8’1” to 9’0” | 15” Radius | 126” (3200 mm) | 168” (4267 mm) |
| | | |
9’1” to 10’0” | 15” Radius | 138” (3505 mm) | 168” (4267 mm) |
| | | |
Headroom Requirements
Track Type | Space Needed |
| |
6” LHR | 9” (229 mm) |
| |
