JNURY, 1-1 TM 30 Thermal Sliding oors FTURS 1 Features TM 30HP (High Performance) meets: M / WM / S 1 / I.S.2 / 0-0 W-PG-S TM 30IR (Hurricane Resistant) meets: STM 1/ 1, FLORI UILING O (F) TS 1/3 Small and Large Missile impact & cycle tested to ± psf (± Pa) Tested on panel sizes ' x ' (1,2 x 2,3) up to ' x ' (1,21 x 3,0) Water resistance up to 1 psf (1 Pa) System depth of -3/" (.) vailable as OX, XO, OXO and OXXO configurations, common mullion allows for additional fixed lites to be stacked (OOXO) Infills include 1" (2.) and 1-/1" (33.) Polyamide thermal break Heavy duty stainless steel casters Stainless steel track inset for sliding panels orrosion-resistant stainless steel locks and fasteners Permanodic TM anodized finishes in seven choices Painted finishes in standard and custom choices Optional Features ual color finish capabilities Factory glazed sliding panels and sub sash fixed lites Low profile threshold Product pplications The TM 30HP and TM 30IR are high performance, hurricane resistant thermal sliding doors for use in condominiums, hotels and apartments. For specific product applications, onsult your Kawneer representative.
2 TM 30 Thermal Sliding oors LNK PG JNURY, 1-1
JNURY, 1-1 TM 30 Thermal Sliding oors INX 3 TYPIL LVTIONS... TM 30HP (High Performance) TYPIL TILS... - GLZING OPTIONS... HRWR OPTIONS... WIN LO HRTS... -1 THRML HRTS... 1-2 LWS N UILING N SFTY OS GOVRNING TH SIGN N US OF GLZ NTRN, WINOW, N URTIN WLL PROUTS VRY WILY. KWNR OS NOT ONTROL TH SLTION OF PROUT ONFIGURTIONS, OPRTING HRWR, OR GLZING MTRILS, N SSUMS NO RSPONSIILITY THRFOR. Metric (SI) conversion figures are included throughout these details for reference. Numbers in parentheses ( ) are millimeters unless otherwise noted. The following metric (SI ) units are found in these details: m meter cm centimeter mm millimeter s second Pa pascal MPa megapascal
TM 30 Thermal Sliding oors TYPIL LVTIONS TYPIL LVTIONS LVTIONS R NUMR KY TO TILS ON TH FOLLOWING PGS Note: levations shown with "Sub-Sash" framing in the fixed lite. "Field Glazed" option creates a thinner sightline in the fixed lite, shown on page. JNURY, 1-1 3 3 O 1 X 2 OX UNIT 3 1 1 3 X O 2 XO UNIT 3 1 3 O O X O X O OOX UNIT 2 2 OXO UNIT 3 1 1 3 O X X O 2 2 OXXO UNIT
JNURY, 1-1 SL 3" = 1'-0" TM 30 Thermal Sliding oors TM 30HP (High Performance) TYPIL TILS TM 30HP HIGH PRFORMN GLZING RY GLZ - 1" INFILL (NON-IMPT) WITH "SU SSH" -1/" () -3/" (.) 1 H T SLIING PNL 2-3/" (0.3) 3 H T FIX LIT 3-1/2" (.) -1/" () OPTIONL HORIZONTL T SLIING PNL 2 SILL T SLIING PNL 2-3/" (0.3) OPTIONL HORIZONTL T FIX LIT SILL T FIX LIT
TM 30 Thermal Sliding oors TM 30HP (High Performance) TYPIL TILS JNURY, 1-1 SL 3" = 1'-0" TM 30HP HIGH PRFORMN GLZING RY GLZ - 1" INFILL (NON-IMPT) WITH "SU SSH" -3/" (.) -1/" () OPTIONL P INTRLOK or P HVY INTRLOK -/1" (1.3) OPTIONL HVY INTRLOK VILL -3/1" (1.2) 3-1/2" (.) OPTIONL STL 2-1/" (.2) -1/2" (.) -1/1" (.) JM T FIX LIT INTRLOKS JM T SLIING PNL -3/" () OPTIONL P MULLION or P HVY MULLION OPTIONL HVY MULLION VILL -/" (3.) 3-1/2" (.) 3" (.2) OPTIONL STL -3/" (.) OPTIONL HVY MULLION VILL 3-1/2" (.) OPTIONL STL -1/2" (.) -3/1" () OMMON MULLION LOK STIL MULLION
JNURY, 1-1 TM 30 Thermal Sliding oors TM 30HP (High Performance) TYPIL TILS TM 30HP HIGH PRFORMN GLZING RY GLZ - 1" INFILL (NON-IMPT) WITH "SU SSH" OPTIONL STL " (1.) STNR MTING STILS " (1.) MI-RNG MTING STILS " (1.) MXIMUM RNG MTING STILS -3/" (2) 1-/1" () 3/" (1.1) OPTIONL H RPTOR 1-/" (1.3) OPTIONL LOW PROFIL SILL (SLIING PNL) /" (1.) OPTIONL LOW PROFIL SILL (FIX PNL) /" (1.)
TM 30 Thermal Sliding oors GLZING OPTIONS JNURY, 1-1 SL 3" = 1'-0" TM 30IR HURRIN RSISTNT GLZING RY GLZ - 1-/1" INFILL WT GLZ - 1-/1" INFILL TM 30HP and TM 30IR OPTIONL "FIL GLZ" FIX LIT TM 30HP RY GLZ - 1" INFILL 2-1/" (.2) TM 30IR RY GLZ - 1-/1" INFILL TM 30IR WT GLZ - 1-/1" INFILL 2-1/" (.2)
JNURY, 1-1 TM 30 Thermal Sliding oors HRWR OPTIONS STNR XTRIOR PULLS STNR INTRIOR PULLS Finger Pull - lank Finger Pull with ylinder OPTIONL XTRIOR PULLS "" Pull - lank LOKING OPTIONS "" Pull with Lever "" Pull - lank "" Pull with ylinder 1 Point Lock STNR STR Stainless Steel aster HRWR FINISHS STIN LK - Powder oat Paint ON WHIT - Powder oat Paint MS Hookbolt Lock 2 Point Lock Note: Hookbolt lock standard with OXXO units. Optional for other configurations. UMPR SILVR GRY - Powder oat Paint STIN NIKL - Plated Stainless Steel umper
TM 30 Thermal Sliding oors WIN LO HRTS JNURY, 1-1 WIN LO HRTS Mullions are designed for deflection limitations in accordance with M TIR- of L/1 up to '-" and L/ +1/" above '-". These curves are for mullions WITH HORIZONTLS and are based on engineering calculations for stress and deflection. llowable wind load stress for LUMINUM 1, psi ( MPa), STL 30,000 psi ( MPa). harted curves, in all cases are for the limiting value. Wind load charts contained herein are based upon nominal wind load utilized in allowable stress design. conversion from Load Resistance Factor esign (LRF) is provided. To convert ultimate wind loads to nominal loads, multiply ultimate wind loads by a factor of 0. per S/SI. /3 increase in allowable stress has not been used to develop these curves. For special situations not covered by these curves, contact your Kawneer representative for additional information.
JNURY, 1-1 TM 30 Thermal Sliding oors llowable Stress esign Load LRF Ultimate esign Load = 0 PSF (330) 3 PSF (30) = 0 PSF (0) 1 PSF (0) = 1 PSF (0) 0 PSF (0) = PSF (0) 22 PSF (0) = PSF () PSF (0) WIN LO HRTS 1 1 1 1 1 1 0 1 2 3.0.0.0 0 STNR INTRLOK MULLION I = 3. S = 1.22 STL I S = 0.3 S S = 0. 1 1 1 1 1 1 0 1 2 3.0.0.0 WITHOUT HORIZONTLS WITH STL RINFORING WITHOUT HORIZONTLS 1 1 1 1 1 1 0 1 2 3.0.0.0 0 HVY WIGHT INTRLOK MULLION I =.1 S = 2.3 STL I S = 0.3 S S = 0. 1 1 1 1 1 1 0 1 2 3.0.0.0 WITHOUT HORIZONTLS WITH STL RINFORING WITHOUT HORIZONTLS
TM 30 Thermal Sliding oors WIN LO HRTS llowable Stress esign Load LRF Ultimate esign Load = 0 PSF (330) 3 PSF (30) = 0 PSF (0) 1 PSF (0) = 1 PSF (0) 0 PSF (0) = PSF (0) 22 PSF (0) = PSF () PSF (0) JNURY, 1-1 1 1 1 1 1 1 0 1 2 3.0.0.0 01 P INTRLOK MULLION I =.2 S = 3.3 1 STL I S = 2. S S = 1.3 1 1 1 1 1 1 0 1 2 3.0.0.0 WITHOUT HORIZONTLS WITH STL RINFORING WITHOUT HORIZONTLS 1 1 1 1 1 1 0 1 2 3.0.0.0 01 P HVY WIGHT INTRLOK MULLION I =.0 S = 3.1 1 STL I S = 2. S S = 1.3 1 1 1 1 1 1 0 1 2 3.0.0.0 WITHOUT HORIZONTLS WITH STL RINFORING WITHOUT HORIZONTLS
JNURY, 1-1 TM 30 Thermal Sliding oors llowable Stress esign Load LRF Ultimate esign Load = 0 PSF (330) 3 PSF (30) = 0 PSF (0) 1 PSF (0) = 1 PSF (0) 0 PSF (0) = PSF (0) 22 PSF (0) = PSF () PSF (0) WIN LO HRTS 1 1 1 1 1 1 0 1 2 3.0.0.0 0 STNR OMMON MULLION I = 3. S = 1.3 STL I S = 0. S S = 0. 1 1 1 1 1 1 0 1 2 3.0.0.0 WITHOUT HORIZONTLS WITH STL RINFORING WITHOUT HORIZONTLS 1 1 1 1 1 1 0 1 2 3.0.0.0 0 HVY WIGHT OMMON MULLION I =. S = 2. STL I S = 0. S S = 0. 1 1 1 1 1 1 0 1 2 3.0.0.0 WITHOUT HORIZONTLS WITH STL RINFORING WITHOUT HORIZONTLS
1 TM 30 Thermal Sliding oors WIN LO HRTS llowable Stress esign Load LRF Ultimate esign Load = 0 PSF (330) 3 PSF (30) = 0 PSF (0) 1 PSF (0) = 1 PSF (0) 0 PSF (0) = PSF (0) 22 PSF (0) = PSF () PSF (0) JNURY, 1-1 1 1 1 1 1 1 0 1 2 3.0.0.0 01 P OMMON MULLION I =. S = 2. 2 STL I S = 2. S S = 0.21 1 1 1 1 1 1 0 1 2 3.0.0.0 WITHOUT HORIZONTLS WITH STL RINFORING WITHOUT HORIZONTLS 1 1 1 1 1 1 0 1 2 3.0.0.0 01 P HVY WIGHT OMMON MULLION I =.3 S = 3.2 2 STL I S = 2. S S = 0.21 1 1 1 1 1 1 0 1 2 3.0.0.0 WITHOUT HORIZONTLS WITH STL RINFORING WITHOUT HORIZONTLS
JNURY, 1-1 TM 30 Thermal Sliding oors llowable Stress esign Load LRF Ultimate esign Load = 0 PSF (330) 3 PSF (30) = 0 PSF (0) 1 PSF (0) = 1 PSF (0) 0 PSF (0) = PSF (0) 22 PSF (0) = PSF () PSF (0) WIN LO HRTS 1 1 1 1 1 1 1 0 1 2 3.0.0.0 01 STNR LOK MULLION I =.3 S = 2.22 2 STL I S = 2. S S = 0.21 1 1 1 1 1 1 0 1 2 3.0.0.0 WITHOUT HORIZONTLS WITH STL RINFORING WITHOUT HORIZONTLS 1 1 1 1 1 1 0 1 2 3.0.0.0 01 HVY WIGHT LOK MULLION I =. S = 3.3 2 STL I S = 2. S S = 0.21 1 1 1 1 1 1 0 1 2 3.0.0.0 WITHOUT HORIZONTLS WITH STL RINFORING WITHOUT HORIZONTLS
1 TM 30 Thermal Sliding oors WIN LO HRTS JNURY, 1-1.0 1 1 1.0 1 1 1.0 0 1 2 3 WITHOUT HORIZONTLS llowable Stress esign Load LRF Ultimate esign Load = 0 PSF (330) 3 PSF (30) = 0 PSF (0) 1 PSF (0) = 1 PSF (0) 0 PSF (0) = PSF (0) 22 PSF (0) = PSF () PSF (0) / LIGHT WIGHT MTING STILS NOT: WIN LO HRTS R S ON OMPOSIT PROPRTIS WHIH R LULT IN ORN WITH M TIR- N M 0 1 1 1 1 1 1 0 1 2 3.0.0.0 / MI WIGHT MTING STILS NOT: WIN LO HRTS R S ON OMPOSIT PROPRTIS WHIH R LULT IN ORN WITH M TIR- N M 0 WITHOUT HORIZONTLS
JNURY, 1-1 TM 30 Thermal Sliding oors llowable Stress esign Load LRF Ultimate esign Load = 0 PSF (330) 3 PSF (30) = 0 PSF (0) 1 PSF (0) = 1 PSF (0) 0 PSF (0) = PSF (0) 22 PSF (0) = PSF () PSF (0) WIN LO HRTS 1 1 1 1 1 1 1.0.0.0 / P HVY WIGHT MTING STILS I =.2 S =.1 1 1 1 1 1 1.0.0.0 0 1 2 3 0 1 2 3 WITH STL RINFORING WITHOUT HORIZONTLS STL RINFORING I S = 1.0 S S = 0.3 WITH STL RINFORING WITH HORIZONTLS
1 TM 30 Thermal Sliding oors THRML HRTS JNURY, 1-1 Project Specific U-Factor xample alculation (ased on OXO Sliding oor Unit) '-0" -1/" -1/" ' -3/1" -1/2" -3/1" 3'-0" 3'-0" 3'-0" O X O -1/" '-0" -1/" -1/" -1/" Vision rea xample Glass U-Factor = 0.2 tu/(ft 2 h F) Total aylight (Vision) rea = 3(3' x ') = 3 ft 2 Projected Total rea =.1' x.' = 3. ft 2 Percent of Vision Glass = (Total aylight rea Projected Total rea)0 = (3 3.)0 = %
JNURY, 1-1 TM 30 Thermal Sliding oors THRML HRTS 1 OG U-factor 0. (2.3) 0. (2.1) 0. () 0.2 (2.3) 0.0 (2.2) 0.3 (2.1) 0.3 () 0.3 (1.3) 0.32 (1.2) 0.30 (1.1) 0.2 (1.) 0.2 (1.) 0.2 (1.3) 0.22 (1.2) 0. (1.1) System U-Factor vs Percent of Vision rea XMPL (NOT FOR SIGN) 0. 0 0% 0 Vision rea / Total rea (%) ased on a OXO Unit of % vision glass and center of glass U-Factor of 0.2, system U-Factor is equal to 0. tu/(h ft 2 F) 0.0 0. 0.0 0. 0.0 0. 0.0 0. 0.0 0. 0.0 0.3 0.30 0.2 tu h ft 2 F (.00) (.0) (.00) () (0) () (0) (1.0) W ( ) m 2 System U-factor
THRML HRTS System U-Factor vs Percent of Vision rea TM30 Thermal Sliding oors Vision rea / Total rea (%) OG U-factor tu h ft2 F JNURY, 1-1 OX UNIT "SU SSH"
System VT System SHG JNURY, 1 TM30 Thermal Sliding oors -1 THRML HRTS OX UNIT "SU SSH" System Solar Heat Gain oefficient (SHG) vs Percent of Vision rea OG SHG Vision rea / Total rea (%) System Visible Transmittance (VT) vs Percent of Vision rea OG VT Vision rea / Total rea (%) 21
22 TM 30 Thermal Sliding oors THRML PRFORMN MTRIX (NFR SIZ) JNURY, 1-1 Thermal Transmittance 1 (TU/hr ft 2 F) Glass U-Factor 3 Overall U-Factor 0. 0.2 0. 0.1 0. 0. 0.2 0. 0.0 0. 0.3 0. 0.3 0. 0.3 0.3 0.32 0.1 0.30 0.0 0.2 0. 0.2 0. 0.2 0. 0.22 0. 0. 0.3 OX UNIT "SU SSH" NOT: For glass values that are not listed, linear interpolation is permitted. 1. U-Factors are determined in accordance with NFR 0. 2. SHG and VT values are determined in accordance with NFR 0. 3. Glass properties are based on center of glass values and are obtained from your glass supplier.. Overall U-Factor, SHG, and VT Matricies are based on the standard NFR specimen size of 2,000 mm wide by 2,000 mm high (-3/" by -3/"). SHG Matrix 2 Glass SHG 3 Overall SHG 0. 0. 0.0 0.2 0. 0. 0.0 0. 0. 0.1 0.0 0.3 0. 0.3 0.0 0.30 0.3 0.2 0.30 0.23 0.2 0.1 0. 0.1 Visible Transmittance 2 Glass VT 3 Overall VT 0. 0. 0.0 0.0 0. 0. 0.0 0.3 0. 0.0 0.0 0.3 0. 0.32 0.0 0.2 0.3 0.2 0.30 0.22 0.2 0.1 0. 0.1 0.1 0. 0.1 0. 0. 0.0 0. 0.0 0.0 0.0 0.0 0.0
JNURY, 1-1 TM 30 Thermal Sliding oors THRML HRTS 23 OX UNIT "FIL GLZ" System U-Factor vs Percent of Vision rea OG U-factor tu h ft 2 F Vision rea / Total rea (%)
System Solar Heat Gain oefficient (SHG) vs Percent of Vision rea OG SHG System Visible Transmittance (VT) vs Percent of Vision rea OG VT Vision rea / Total rea (%) THRML HRTS System SHG TM30 Thermal Sliding oors System VT 2 JNURY, 1-1 OX UNIT "FIL GLZ" Vision rea / Total rea (%)
JNURY, 1-1 TM 30 Thermal Sliding oors THRML PRFORMN MTRIX (NFR SIZ) 2 Thermal Transmittance 1 (TU/hr ft 2 F) Glass U-Factor 3 Overall U-Factor 0. 0.1 0. 0. 0. 0. 0.2 0. 0.0 0. 0.3 0.3 0.3 0.2 0.3 0.1 0.32 0. 0.30 0. 0.2 0. 0.2 0. 0.2 0.3 0.22 0.2 0. 0.0 OX UNIT "FIL GLZ" NOT: For glass values that are not listed, linear interpolation is permitted. 1. U-Factors are determined in accordance with NFR 0. 2. SHG and VT values are determined in accordance with NFR 0. 3. Glass properties are based on center of glass values and are obtained from your glass supplier.. Overall U-Factor, SHG, and VT Matricies are based on the standard NFR specimen size of 2,000 mm wide by 2,000 mm high (-3/" by -3/"). SHG Matrix 2 Glass SHG 3 Overall SHG 0. 0.0 0.0 0. 0. 0. 0.0 0. 0. 0. 0.0 0.0 0. 0.3 0.0 0.33 0.3 0.2 0.30 0.2 0.2 0.21 0. 0.1 Visible Transmittance 2 Glass VT 3 Overall VT 0. 0. 0.0 0. 0. 0.1 0.0 0. 0. 0.3 0.0 0.3 0. 0.3 0.0 0.31 0.3 0.2 0.30 0.2 0.2 0. 0. 0.1 0.1 0. 0.1 0. 0. 0.0 0. 0.0 0.0 0.0 0.0 0.0
2 TM 30 Thermal Sliding oors LNK PG JNURY, 1-1