Engineered W ood & Structural Composite Lumber Connectors
Transcription
Engineered W ood & Structural Composite Lumber Connectors
Engineered Wood & Structural Composite Lumber Connectors TOP FLANGE HANGERS ITS/MIT/HIT Engineered Wood Products Hangers This product is preferable to similar connectors because of a) easier installation, b) higher loads, c) lower installed cost, or a combination of these features. Funnel Flange 2" Supports 11⁄8" to 11⁄2" thick flanges ITS U.S. Patents 6,523,321 and 6,250,827 W Typical ITS Installed on LVL The Strong-Grip™ seat secures I-joists in position without joist nails 21⁄2" nal Optioil Na ns io t Loca MIT Typical MIT Installed on a Double LVL 3" T (3" MF ax.) Optional Joist Nail Location for Uplift HIT 118 HIT Installation on a 3x Nailer mounted on a Steel Beam (ITS, MIT similar) C-C-2015 © 2015 SIMPSON STRONG-TIE COMPANY INC. PRINTED 12/14 Simpson Strong-Tie offers a dedicated range of top flange I-joist hangers that meet the unique needs of I-joists while offering superior performance and ease of installation. ITS The innovative ITS sets the standard for engineered wood top flange hangers. The ITS installs faster and uses fewer nails than any other EWP top flange hanger. The new Strong-Grip™ seat and Funnel Flange™ features allow standard joist installation without requiring joist nails resulting in the lowest installed cost. The Strong-Grip seat firmly secures I-joists with flange thicknesses from 1 1⁄8" to 1 1⁄2". MIT/HIT - Positive Angle Nailing (PAN) PAN is specifically designed for I-joists when used with the MIT or HIT. With PAN, the nail hole material is not removed, but is formed to channel and confine the path of the nail at approximately 45°. PAN minimizes splitting of the flanges while permitting time-saving nailing from a better angle. See Top Flange tables on pages 124-132. Refer to Joist Manufacturer’s literature or appropriate Simpson Strong-Tie® Connector Selection Guide for actual joist sizes. MATERIAL: ITS—18 gauge; MIT, HIT—16 gauge FINISH: Galvanized INSTALLATION: •Use all specified fasteners. Verify that the header can take the required fasteners specified in the table. •See product specific installation drawings on pages 108-109. •ITS—no joist nailing required for standard I-joist installation without web stiffeners. When supporting I-joists with web stiffeners or rectangular SCL member 2-10dx1 1⁄2" must be installed into optional triangle joist nail holes for standard installation values. •ITS—optional triangle nail holes may be used for additional load. See allowable load tables. Refer to technical bulletin T-OPTUPLIFT for additional options. •MIT—optional triangle nail holes may be used for increased uplift capacity. See Optional Nailing For Increased Uplift table. •HIT—closed PAN nail holes may be used for increased uplift capacity. See Optional Nailing For Increased Uplift table. •For sloped joists up to 1⁄4:12 there is no reduction, between 1 ⁄4:12 and up to 1⁄2:12, tests show a 10% reduction in ultimate hanger strength. Local crushing of the bottom flange or excessive deflection may be limiting; check with joist manufacturer for specific limitations on bearing of this type. ALLOWABLE LOADS: •The ITS, MIT and HIT hangers have locations for optional nails if additional uplift is needed. Optional uplift nailing requires the addition of properly-secured web stiffeners. See the load tables for minimum required fasteners and allowable uplift loads. OPTIONS: •Because these hangers are fully die-formed, they cannot be modified. However these models will normally accommodate a skew of up to 5°. CODES: See page 12 for Code Reference Key Chart. 2" Engineered Wood & Structural Composite Lumber Connectors 17⁄16" Engineered Wood & Structural Composite Lumber Connectors TOP FLANGE HANGERS ITS/MIT/HIT Engineered Wood Products Hangers ITS INSTALLATION SEQUENCE POSITIVE ANGLE NAILING STEP 3 Firmly push or snap I-joist fully into the seat of the ITS. Correct Nailing Approx. 45o angle IT SERIES WITH VARIOUS HEADER APPLICATIONS Fasteners Model ITS Series10 (Standard Installation) ITS Series7,10 (Alternate Installation) MIT Series10 C-C-2015 © 2015 SIMPSON STRONG-TIE COMPANY INC. PRINTED 12/14 HIT Series Allowable Loads Header Type Top Face Joist Uplift 2,3 (160) 4-10dx1 1⁄2 4-10d 4-16d 4-10d 4-16d 4-10d 4-16d 4-10dx1 1⁄2 4-10d 4-16d 4-16d 2-10dx1 1⁄2 2-10d 2-16d 4-10d 4-16d 4-10d 4-16d 4-10dx1 1⁄2 4-10d 4-16d 6-16d — — — — — 4-10dx1 1⁄2 4-10dx1 1⁄2 2-10dx1 1⁄2 2-10dx1 1⁄2 2-10dx1 1⁄2 2-10dx1 1⁄2 105 105 105 105 105 630 630 215 215 215 315 LVL PSL LSL DF/SP SPF/HF DF/SCL5 I-Joist SPF/HF I-Joist 1395 1550 1785 1735 1785 1735 1785 2035 2335 2550 2550 1245 1365 1735 1595 1735 1595 1735 1500 2000 2140 2220 1625 1780 1905 1885 1905 1885 1905 1605 1605 2115 2500 1440 1520 1635 1955 1955 1955 1955 2035 2245 2305 2875 1140 1150 1225 1230 1490 1230 1490 1115 1665 1665 2000 1085 — — — — — — 1230 — — — 940 — — — — — — 885 — — — 4 1.Loads may not be increased for duration of load. 2.Uplift loads are based on DF/SP lumber and have been increased for wind or earthquake loading with no further increase allowed. Reduce where other loads govern. For SPF/HF use 0.86 x DF/SP uplift load. 3.ITS uplift loads are valid for all lumber species and need not be reduced for duration of load. 4.Applies to LVL headers made primarily from Douglas Fir or Southern Pine. For LVL made primarily from Spruce Pine Fir or similar less dense veneers, use the values found in the SPF/HF column. 5.DF I-joists include flanges made from solid sawn Douglas Fir, LVL made primarily of Douglas Fir/Southern Pine, or LSL. For flanges with thicknesses from 1 5⁄16 to 1 3⁄8, use 0.85 of the I-joist header load. For flanges with thicknesses from 1 1⁄8 to 1 1⁄4, use 0.75 of the I-joist header load. NAILER TABLE This table indicates various allowable loads for ITS/MIT/HIT hangers used on wood nailers. The header nail type must be substituted for those listed in other tables. See technical bulletin T-NAILERUPLFT for other uplift values and options. Model ITS Series MIT Series HIT Series Nailer Top Flange Nailing Joist Nailing Uplift2 (160) 2x 2x 2-2x 2-2x 3x 3x 4x 4x 2x 2-2x 3x 4x 2-2x 3x 4x 6-10dx1 1⁄2 6-10dx1 1⁄2 6-10d 8-10d 6-16dx2 1⁄2 8-16dx2 1⁄2 6-16d 8-16d 6-10dx1 1⁄2 8-10d 8-16dx2 1⁄2 8-16d 10-10d 10-16dx2 1⁄2 10-16d — 2-10dx1 1⁄2 — 4-10dx1 1⁄2 — 4-10dx1 1⁄2 — 4-10dx1 1⁄2 2-10dx1 1⁄2 2-10dx1 1⁄2 2-10dx1 1⁄2 2-10dx1 1⁄2 2-10dx1 1⁄2 2-10dx1 1⁄2 2-10dx1 1⁄2 105 355 105 630 105 630 105 630 215 215 215 215 315 315 315 1.Uplift loads are based on DF/SP members only. See technical bulletin T-NAILERUPLFT for SPF/HF values. SPF/HF 1260 1260 1220 1530 — — — — 1440 1255 — — — — — I19, L14, F18 170 I19, L14, F18 6.SCL (structural composite lumber) is LVL, LSL, and Parallam® PSL. 7.Web stiffeners required for the ITS Alternate Installation when installing optional joist nails for additional uplift load. 8.Code Values are based on DF/SP header species. 9.I-joists with flanges less than 1 5⁄16" thick used in combination with hangers thinner than 14 gauge may deflect an additional 1⁄32 inch beyond the standard 1⁄8" limit. 10. For 2 1⁄4" and 2 7⁄16" wide joists, see tables on page 125 for allowable loads. Parallam ® is a registered trademark of Weyerhaeuser. NAILS: 16d = 0.162" dia. x 3 1⁄2" long, 16dx2 1⁄2 = 0.162" dia. x 2 1⁄2" long, 10d = 0.148" dia. x 3" long, 10dx1 1⁄2 = 0.148" dia. x 1 1⁄2" long. See pages 22-23 for other nail sizes and information. OPTIONAL NAILING FOR INCREASED UPLIFT Allowable Loads DF/SP 1260 1260 1220 1745 1500 1540 1525 1905 1475 1630 1975 2250 2595 2835 2875 Code Ref. Engineered Wood & Structural Composite Lumber Connectors STEP 2 Slide the I-joist downward into the ITS until it rests above the Strong-Grip™ seat. STEP 1 Attach the ITS to the header ITS MIT HIT Allowable Uplift Loads Fasteners Model Top 4-10dx1 1⁄2 Face 4-10dx1 1⁄2 Joist 4-10dx1 1⁄2 (160) 630 4-10d 4-10d 4-10dx1 1⁄2 630 4-16d 4-16d 4-10dx1 1⁄2 630 4-10dx1 1⁄2 4-10dx1 1⁄2 4-10dx1 1⁄2 575 4-16d 4-16d 4-10dx1 1⁄2 575 4-16d 6-16d 4-10dx1 1⁄2 575 4-16dx2 1⁄2 6-16dx2 1⁄2 4-10dx1 1⁄2 575 4-16d 6-16d 6-10dx1 1⁄2 850 1.Loads are based on Doug Fir, and have been increased for wind or earthquake loading with no further increase allowed. Reduce where other loads govern. 2.Web stiffeners are required on I-joist for additional nailing. 119