Loading...
HomeMy WebLinkAboutDRB150038 Windowso M o 'n�o a`c'v 0 03 n m =r o O $ } o D „or. C CD ' 'O N ;C; 0 N 0 f \ ND C n A m m 3 w O A � O X � 3 G"7, o x CIl m � o 0 a, v G7 V v � � �6iU12 ,i7Nj mi�1' %Z D O =_° Fm �� ° m m9 r a s3 0 O a_°= 3 ° n S j (° p.IO .. 7 OO ._: 0 �m -n w m 3 nn Fff c) oa..a 7. O ZIP 3 .fie .. N 01 D � 3 CLy 71.n-10, y 3o =-- D9 a 3 -apa�� am m �� ca m a r. 3 a O 7 ... n O p Dm a 0) ?F -n sue# 3 a- W 00 Q d m m Mmn m N to 01 n > a o a Ry off- x =D Zoo O p O 7 CD �� 3a O acn_ y 0 r O � a� g n m m O oo rQ m O O D = m n m CD _ n 4t v� °A°_- o' a G) i 01 Z �pD 01 m D D -n "0 ho c m o. x ® s u. D O O U _CT A. p V N c y, - A p < CD U) 47 A S N CD v m a a 0 T m cr Cl) ) a 3 N a PD m 3 t° .. p- C CD w cc a CD N 0 'n m ° o 3 O �.. 00�I oNS y w SL N C w N W V Q n c c o o 'n�o a`c'v 0 03 n n � o o D „or. C CD ' 'O ;C; 0 0 w wI :3 z z ? o G)� a a, v G7 V v p G V m ' 't 1 {p W 1 }2 { oNO I I� CA Q Q. 00 Q Q. O i v' c�aoc�o0 v *OpO A A p p icc m a = a CL 0 0 cr � 3 3 O 00�I oNS y y. N C CD F3 CD w w (NC O O. v N V n cn A y y CD ¢ ¢e O cn m m R CD I Q� 'O G) O 0 � N o O n (D O 0 O cn (U 'z A �, ;1 C. n N y O CL CC) 0 O En OD O y O (o 4 O (O A (Jt A A y N CO) CO) m a •O •O •O V •nm z x 3 0 m � m c m io3 io� 4 C 4 �. o O Q co m w E CA 0 p 9 AL -O N n Ab m OD N co a) co m 0 0 v CL 0 O 0 3 Mo O O v CL v n 0 CD izs O A v CD CD O O m CD z O O tD 7 O ty O 7 CD tG 0) o. to 3 tD tQ N N 3 W c� O 3 CL d N t!1 'O v .O Q. n N N 3 CD CD, t0 CT U) r: m w tD N A 0 3 a .i V �o n < S) s �• 3 CL -n c 2 co X ( O in A m 7 in tom.) �j •�' _ t7� to m � a m m A m S��' td�A N '�Sm' z O Z n ti M 8 N CVDi �� 9 -. O aNRN�.S O SR 1 V sp = wv d r S0 Sa —O._ m S� Uma -0 FMPIO •• S c to —I_3 cno nm rwT —m W a �g �m �nX °'° CL Er 3 -nQ aoov 3 53 oZ a.. =;R � •n,°z o0o m3 ;r a 3 E& o as omi mg 0»3 �^ mm o SD Cl) mo �n o > 4� c= Da 01 �0 f r � 06 ytso a.) m 3 a CD ^' g .< ° Dm" m 3,a mm ° Dya01 3 m o m o ti a- n n m °a PL ° S3 ° 7 mn a= F ^ I 3 r °'T d S3` n <�'►t° Zd 7 7 m ym m Zm 7 C 'D N •'" D O c) e7 O �n W �.d m •o m 3B n �. a° - `w n m C S g¢ m c Via Do � N T nm g; W 06 z 0) Om ° m v _ O °? 7O -n mpr O S 'n CO r' 3 me 3 m D to D�° c 3 D m a?� m _ S N 2 � an d c 4 d N -�• >' w i S S S CD c -n = e o' 20 c� tT n �g = x m to R M t. D &• C- u3 o • V N W A N 7 O. m a Q N 0 3 CA F CL � D r c 3 ° 47 � m m z c 3 Q M m o m N C. o � 3 cn � 0 0W R. CD f1 O o' N O A v CD ai n v 0 O 3 O m 3 O 3 d O m tG N a 3 m 3 y cQ N• 7 N 3 N p N 0' CD a obi 0 v G. C n _N t/1 =r CD m of f m cr N_ N m = 01 O w � J v M r �. _ N C12 C 1 G -0 I f( m m _ 0 _ OD (D V / CJ =3. A X rn X v' S CO # C.0 .A «? ' �:EG)c xQw5mpm =m w m TG-n -s « � S.m � a y = 33 � =r :L m m ° 1 - o" —�m � ?gy Z: ;— —nn Z _M,ate, —o ,Nin van MZRNOOFMIMSOVD� 0 �7 m -O O a ="-O& .. =° Nm =3(pO m = 0 0,No W 0 CL 3�� mom3S�� �� maLNy XC oa 3 ?S� n Cp, 3 ° 3>D m fnm tQ c D 5i nc �S' Ow CL Dam O m 3 r a «m °�� Dm m « 3 n�7 m nR a-a. Of! �+ mn W° m no. m M 3m m TQ w ao a r r s a ' x o = z o n : °v 0T O'mv `° coax ° 03 5* v �m r— m m y m of m d rg m SLm X m'Z m ° COL cn °: D o 0° 'n m n m? a ate' =.y o «w @ O�' o c w 0 J $ ga3 CD '0 Om ° o 3 g j m °m 0 3 'p m W° n mN 3� o � 3a, 0, m 0 0m@ =D m a w D CD X rr CL wo �v Z _8 c m Q /Q a D C o a o � m a� UP W A a • V W w w A CA 7 a m a 3 1 N � CL w o & p m o_ vm m ^' c Q 3 m m O .mm - En � o� d .0 fl. O N Cl A v CD r. a 0 w O O O O 3 W fQ S1 Q tG 3 tD =s N 01 m 7 N N CL w of 7 Ol CD, O CL C M N of '0 N N O' N CD a1 N A V p r c 4 of 0 �� m -n _ �x (n (0 Vrn • _ cD `r 7 CJ 0 j ? c O� •� (n A T X p— w CO cD w A G) �N�m NSm W N�m �.. o aw_..,. 01 n � o - �N Tw o a -Z3 '' o -Cn7o$O VtMO -n3 On - _ m ° o o x M o n a a obi $Q on' m � �� 4I -C -m cc O $ O _ fA O m n m O i W W a w m F., o m0. raw' w�a ? 1° ° n? 50.1 Q- 3 -nQ aoo m aFrs' W3`Z iL cA -Q �o m3= ?R "a eo 0 Om, 0 O.0 m 2) �� �; > �2 �Da cnd N aSm 9 c Da m g > a. m O S >CL 3 � ' CQOn D3a ' mmo ' W acs d -n� xa ao ei r �'caa co 01 m < C 3 tQ Z 11 m 0 O O m �O �n m p o 1T1 Qo x o mZ m 3° O ncn j as rn c O Lq, W °�. S> - r g o-' -n m O n-` 39 m a° � c w 25 w m o� � c C"' n 0) g m O m Q c 3 o$ m O m $ °> Oy W .ate co 3-� m m 3� �d 3rn .. 20 0 O rn c O 1 m e O m n y 3 r and m � a m D CL o uS atQ > m aT m G) 1 N O 1 N O CL 0. ff Z � °_ fm Q m ° D n m S to a a a3 m A N = W w w A fA LL 3 a w 0 4A c C CO) :-4 0 O a m o_ Qrn O ° m c m a .. 0 m N �1 co CL cn n. c N O fD 2 O c n 0 3 O (D z m 0 cc CD 0 Q O N z c 3 Q rn tN� v O7 o r o 7 C to Or tD Cn 7 IC O _< to Cl rL c_<Q O Z O a E15 --m $ � �^� 915 T 3 ''°"�." T rti � V � Co ( �° � Co N per}+ CD p O N 7 Q N T- =L W A 7 A o fA U) 3 Co O) X Gl N O) X x Ol r+ O a =�= 0 n G)WX000 m�,�� m- ,Fevlz z D a 7 3z g-0 rr � �� �7 5,00--1 r� 1 0 coin .. r --i_2� t i c O m 60 w'� • - wol �3 nCnO ° m O o m •• Zo ! � = ncp° CL ,3 Cm 3 NO O (D 3 S -7 X 3? Ov 7 NO ° cD •• 3 a 3 x� 3? Ov 3 =a 7 rn3 ?S' ao G�cG c D a Cl) m�� -•m —� (G m - -nG)0, m gym.. (nom �oo.c �m�m�x (G D G o =.c, mmy 7m w r�`C � ;37 O N O �O m ra�7� C-N7 O 3 m=om aia3ma f ' m��3a #a3ma CD vM j,:oFmw= an m _u_ gomnlx(an m 0) w -�.Z1O > m a s 0 .i ID N T� C D N 2 Fyp O Sp _O_ _ cu c3a� 7ms1 0 O _. fD m.�m o O t� to O S N 11 NQD 7 UD C nG)° G.� 11 N� 7 Co C CL G) G.0 (D Z °°Ig°� o vo N �n� c°nv °tea r- nZ (D O� aom�°� p G� C A aomOo� p zv< °(n 3m z=< -yam 3� x X p Q o O 01) mac- � Co (D' N m 3 ao to _J6 m 0� ° 4?�" ° v �?� D 3 ° d A m 3 w b� & = -� N o. w c) a n = Cn t Z P� O Y ° DcVn cn O v O PC -n s Z ° a, CD 3 'O (D CL ° �. a a n o � x :C 7� W m S•p '1 7 7 'L3 3 _ (OD 3 _ f7D 7 O CL A C Cn m CD = A C m c°D — rn rn ' � cn V w V m =r (D D) d T N O O Z DD 'a ® O L EA a (A LO Cr (A M, 00 W O Co W V in g W N g CD Q �G n(D o. n Gl n n c C m w m m m A CL m A C. M VV V p IP O O 4 n. c N O fD 2 O c n 0 3 O (D z m 0 cc CD 0 Q O N z c 3 Q rn tN� v O7 -o (D Q 0 3 N O 3 N O O M O cc 0) a 7 co S N S 9' 3 D), m 7 CD m N v v3 CD Q v � C2- CD o � N O N O CL C n N N S CD o� m CT CD O tC CD o D) 0 O V 0 C N J2 < coil v 33 ? - D 3 m =r CO CL ,% n1 cn — X C.) � 7C W �A *QwxQwFmQT,t 'Iaom sameoz N�FIjI?M�mm; a =m_ °off z• a —tog =5 yOcc-i m o O �� cD �CCD -• too m 3- Q O a�S ; -I Xa �� 7'p�a370wy w m� mom3Fr - CL Da m i; am CL CO,- m G 7 a m ooi3� cones mam(7 3 m ?�i- toC�- 1° O0 ' 37C'O Ol rm C. spy i �c � 0 o m Sn co 3c �flcn m- o.^' c w fD p t H z d 3 rn O = N m om m D 00p CL -n m F � ? N - 1G t0 O O D 7 w 7. N c O N -3 O A CA w A d 7 CL N CL 0 rn a N n d 3 Q m N N c of a O Q a CD 0 n IS CD CD 7 CD N W W n C cn O � 3 N � c°ln W Q) N C. W T CT O A 0 = G O f a _ - .•. -•.. 315 -�-- -- m � th CD W N o X N � 7C a� 0 m� W � m• � Z 3 "OoFIS rnv � � �•a ,o o m m o rm- 172_•uim Of> >�ifi j Z tp Yi O O d O O'D ,I C CDUCO +„ :ta r►y N 0 7 0 N- 0 OCp 3 G) X -0 O m=� r G) o �.c io m d �y �x N O O= r j CL 3.Dm a -� 1: ID m�CD mg m �Do 7 - N -� n a o @ ICD7 � m J J. N o a) c a DO ac, v°lv ° v�0 w o n:Z! A NN C.I p ' CA d� am�� O A = < 5Z a z � O N C m :E N .O—. A Of m c� 5* ca') (/) V ° ° ca O. w A pl �. :3 W cl a 3 c D -4 Cn Z N � � Co o N v A = r N m� n O CD = Cn C, s G c O T 7 r W cn X oD n C .ter O G C 3 V W 1 g N O m v CL. A � rn � o o. OL•. 0 a Z N cD 0 CL cc m 0 m fJ 0 0 W, Z C CD rn (Np A V cT . = 01 11 -4 :3. ? - D 3 m =r A CL co W — N � � Co o N v A = r N m� n O CD = Cn C, s G c O T 7 r W cn X oD n C .ter O G C 3 V W 1 g N O m v CL. A � rn � o o. OL•. 0 a Z N cD 0 CL cc m 0 m fJ 0 0 W, Z C CD rn (Np A V cT c a CD p #�O {' *b m 7 V = NO to m t° . ;t C/3 71 ;0 N tND m Cl) CEO X fn : 'y 0 O 0 N' _ 7r ' C ca AA 0) f'f OX X 0 w m X cn 0) X t0 qk .+ w w O P A 7 fQ v �OOy3 mJ) j D g�G)C G)m E mi): "•' D N o_aZFIva aN a ��=00 a6a =0Z c> '00 0 N� CD -00 Z-- ' Z y d A n-- g C) .-► N_ o a m ci o x C r+ N a 7 m O C� O rt a0 fn -O it 0��Ny 0 -± m am n v)— =� men � m co o OL Xa m o y a& 3 co (a N 3� Wmf m �S "'� 3 ma7z I � c c ma.. z r W (Q no D m m o Dc amcn 3 Q. N np N any K no � m Day a CD n >W 2L S. �� s` 3aa a - mT R 3a mT ann mac, N o ITDm �� 'o t� m m' m cXn vm zm c n x ° (n a o m m £L 3 trJ m o r� m fL a o U) Z �c cm 3 � m W C 4 o �. c w w m > N W >• a r► tG o a o o C m o Q 3 m Z m 3 rn m z 7 m rn O a a D a fA � m (O a O ° 2D n to cD N rn� n ��. 321 m n ?o = i° -� a ; o , a �? C � N. 3 t� W. - W (O D N to z m o O � m � c N co m M It i n a � M M- O. to (it 01 w w y A A 3 N 7 CD o a CL a a T o _ o C ± 1 WS 40 W n w ° m d m �» c c A m m o � ° z O 01 a to (p 7 Q (D N m °' n m Cl) O O O W YY V N O. CD N aD � aD V o. 0 0 N O A O C', CD m• fA -n O O tD 7 O 3 w 0 7 N o� a 7 C: CD O s 3 t0 N v m N W d 3 a 0�1 0 � N v 0 G. C n N G N S (D (D m Cy CD w I m c w O Co 3 2. � N r y. m < 3 O m inn r 2 m [?i�1 Cn G O to w W x 7 CT4 Co � Zm �° m G1�m�a N D m Ira go � � o � � � o s• m • W ;.; HIS -p ui s A' � 0z--u- 10=0605R* m 30 �1m m An= �9 w �m;O���' A3�aD� o moc c__ c30 p_ ois' c m o a.. o O GC .m.. s� CNp�•• Vma Om m SO �NA W • Wm-fSlii O a 21. _. Ti' O tl m G rm -"n" I a r•5�,9 c xwm m � „'m _3F-I o ° a � •• ° no 5'o cn• s Co a; m wN a � .. m'ao 3 0 w C LL 3 "n To m3�z�W? 3 m3�yIr 'x•Q o om 3 ==tnWM z CD C) D .�� n� 9>1 'm Co . a m o C > > DFL m m m 3 o. w two ° � ° Dm m � a- ' 'D a� =' 5 n as CD Ira o m 3.M KCL °•mn om �3� cc i KC, o5 mm� w v m� o D 3 -E 3 °1 m - - r 2.0- ' _ vt v-n mm n e $A-" -n m Vic)- W Z �am ° 3 m ro 3 m 3 a 0 N O -n to _ m m Co m O r 3 0 HC D m > mm to CL a G) `° N � n CL m N A3 0 �3 c s a -n _ Z 4 ° C oO ; o CD c mg EL y 3 s m � tl1 so g D C p3 m G A • V to N W A N 7 CL m _ c 0 3w 1 V y CJ1 QQC03 m 0 Cr rn m Cr C a .. gym( a, n N O. z C � o _ N 7 G �5 s cNii O 7 v o o O -n m 3d m do X _ cn N O v cD o x . 3 `n CO m ft `A) .P o' a Z 3 HLW 0 �3 o a D a O —m In—Z —m n"— G&— Zo T o EM& to goTta w zooro �go l- 0 m ao a : m c) S 1 O &G)c Jo o o o n=D=0— o o ap Nt m_ •Q m .. 0 O N O W M �oNO a(nsS tOa ^1=t mppa•• mQ N' O O Q? O 1►�.0► rQaw 4•op ;g A* 2 ? CD p o n.3 7 O AtA Q O % m # M 3 U S ? O 'A m N p z ? O Tl m M CD 3 •nZ mo a=0 'Z a H TQ 0°om3.. z r �n to sr Cl) 0 am 0 ME N CL (;DD �mnoai n� g Dma am 3� dam a n'!?, mob Sal 3 = :mn v,a Ana acai 3 N �a o 3 a o.mc) 3 0 o n o m i s m— a r. 'o' »� °� Nam m z c-0 mom 60 9 it m e. � m X m SD 3, c 91 <; a 9 0 -' -n m o; o o- n H901 -g m co T F a��"' a °o go-- ww 0 !� - a 2 0 '' 3 pro o C CD �a O o 3 S� m mG) � 5 �o �? 3 m m 3 0) � m 0 m 0 0 N O T Q � , 3 m 3Z m a„ 3 g N d `-ia _ o _ Z 0 0 03 o W� = o o's �z > 7 O D m V� O. a° m C a ax3 C q A n N � a G N .=r W .► A (D y CD 3 _ C m Cr CL r Q N 'y M `G m c � 0) o C ? �+ co 3 m o0 0. Z rn m V v 0 A z 0 CL co O 9 A c 0 m z c 3 m Z rn N N 4 cn 'O 7 n 0 7 N N O A v CD o� CD .D O 0 (A 07 T 0 0 N O N O 3 tQ a S N .s ui S fQ w m w 3 9 ai m 0 m N CL m w 3 O. N .0 O a C n pl 3 =r tD tD N O• W to cn w 0 0'3 O V �o O S _ ►V 0 fC/l 3 CD 7 a G 3 V V r m S O c V X O O A O C X Cf rn x 3 CO w A 9*:�_�mS��m?Two a - �m3 R�Nma`�'mam39 n 3N C D p i3m m�.m SUNS O w co m° a m -� m CL Z- W— Z— - nc X—, 0 - T Z p — O' N j m ngp•r 3o Tm, r nA --� O Cs � -3oT�w • 7 C OC OC n —N -c_ O p •� �iiC o o O o° �� m C Q5.0G 1 O Q•. to 7.��m _= m O aW ii o•• .=iN7.d -n—g X •• 0 Na��'(n .0 0) O' N C'1 ,3 may.. T�xy TA O � .n X W ° o cm, m �g5 NT� U10 b2 &i gj �'� �' .0 wm �0 ,n 3 �� W n? a o x 3 a C o ti = =� ~ �& m'CA' m am= C, n O ° nma 0� ° CL a N a »� m 01 `� dam D m m m D�a m ° Dam < 3 0/ 3 3 ' @ m 3� o _ :.mn ' o nm I.D. mn o� en a m T n¢ C 54, , C, Zm o :m �� o �m ~ O m m� m r 5 3 m• m m ' av! g Ian F a m _ate, r �. m m 3 ° U1 cn w �. sl �T 39 m �� a �ci' C 0-' T w 6 �r �(7- CL Z fl m G) a— � C � O 1 3 ' 3� m O� $ 0 — m -a W�-n C m 3 m o a� 0 7 w °? O �'S SD o ro T 3 to �, 3 r gm°� ■ m n„ m a EL G) D as Q m fD n v — @ w m (A o f = 03 0 _ _ o° D ° A F S Q pZ 42 ° n n = = N T g `° X m 0 CL o• n 3 a N y, co y cn w A w 3 c 3 � OD a) iQ Co fJ C- o 3 m m c a a m a, T coo Q Q V Vf � r n n c 0 CL 0 a r m 3. f m y� m�7 rr m cn O N tD n 7 w CD A 3w X 0 00 CA -0 cp X IV CO 0 ;K CJ CO *t: (U CJ O 1 t T DG�Li��7 m TNm w ca ��M_omu�i'ma'�iz D v3??•mwmtSmz�?_�m3a�3mm ci m o a —y-� 3 0� y� Ot �Z� vn-• m&—z.. 3 y mr CD o a m o n5 Nd 3o Tm w 0 00 - -0 C7 ,. �mr-1239_.0 W9 m Oco o moc c coop � X. m o o a —G) =O= m ��,zlc'O0 -o ° -3' 3a d3�� ..0,:•�o�po,,�?.��dr.._o,n,� N 3 73 n(AO O C +tO >O. f�A N 3 m C�j �Im XNwTP m 30 �d ?�-n°�' xm C, 11 0 C —Iw —�2 N ° 0 0 r3 7.� tnN � p° 3 3 FUM3 G y N e d; W fD 0 7 �• O 3 f: 7 w w W 0 ?•• d p? 7 -0= Q' O3 3 ?� xw_� � 3 a m y X o c.ma =�tn '• (7 _. G)o MO OM A 0.m w �m Op m c c D 2Q c >m =.m = a �-'•� �6,3:r-c6 > a0 N0 nc a m CL 3 m'p y m 5. Dm O/ 3 to T`OG.* 3 a3 ? 17 w TIC w mo (nM N - N O.0 CD 07 A0mmm� m0 {p - 3 =, 0 CL n 7 F ° 7 r mm D) vii 0 �no �n O 7 o n� r c c. �.�c c a N 3 o n� �� m ' ? moy m m �� m cn m m X o NQ CDC CLQ nom, (rD 3 yg � Q � m ?.c —.FL W G� —O 'u, r- 0- v Ny' o-' T N N m-o'n ,c w 3 n3 =.w w 0 c� 0 ►g"� aE w o? w 3 °r o �" 3 Om 3 (D c6 c3 mm�pO 0 A n3 m O 3- R m N 2 7 0 7 N 3 m z m Of C ? Cl �_ Z�-<� w _ 0 Q ° m'� c� rn x s° o -n 0 m CL N w ID V fn N m 3 > (3p a T � CL pt 0' G) �A a �• W m o 'O 3 r aD rr D N 3? CL D -4 CD Q S ij a CD CD m T N c Ln O A a CL co 0 — fA ul CT V w Vj C A .-► -n (D fm1 7 0 06 M, 3 �j v T cr cm °° 3 m p v �. IV (D O C! N 3 v c CD cn z CL (o CD Q CD al T (D d In o" n m m o ro 3 @ a z o Ci o ?� W :L co O CD A N V 0 r o c < s < s 0 0 'R O .1 'k 0 & _ ^-- Ei a o V = N- m E u j'' m 3 is, •� CP N 3 N r O w � 7 X N O f0 3 ID. x fp 5• o X X N 0) X d � rrt O ca 5.�a °m �g mz �.� =- 01x0 = o A CD c° �m� =mwa00 oAg�� >zpm�c ° -� t* ��z�pm- o0g..a =, �° ��(70)0 CL -n I ta. N �� 0CAO3q B r „_I 5� ON 2. N N M N> as 1� y N C 03 •• fD O 3 x � O 3 �33?�v3 ioxo � rn�?2L(D- acD G)c �� t cymfnd �_ S Leo a9m �d C F net ^SrFy� nN� p N 0 -o ro rn� C2 N0 O N-3 m Dmnm �i c ;3 ai aDm 3 i �-nA0 �� 3n 3 -n -D2 p0° fi�m.gn m 3 'm t)>a o g m m eD my'- Sm D° � m D 7 0 c waQ�poO3n1m c_nm o p- r- O° m 0Di p2 Cn @: R S p SD O° C a .� �D m m r 11 0 0 0• �$ m g• m m r � U) N`Z ppc °.G)5 nP O N m ppc6aG) nom, eu CD CD 0 737 Qr�, ° v � OL""O> 7o3 ao y � n-4 Z NN 7.0 OD W NN d to CS W N • .— m CD Q N mm?D� p A d 8m -� O A 0) Z �� 3 7 S-N C- °' N 3 m ca r- CL �° m v v+ m m n v��' n l c ow COL C7 0 0 3 =L 0) m C �wb, a. =W U) G 3 0D' � O a Z °DA Cl) O d c M� m 3 O 3c' „;, c 3 Q an 'o D an 3 c CD 0 ma - a ° (a °. m W N 71 7 3 3 am ? 3 �m O A C V) A a ° _ ° CL - C n a, rn L V V N a, m T. CD £= CD vD N � v a CD 460 A m cr m v w w -+ V) m :p N N � o ID CD 3 3 o CD N a n Q `gym n m CD CD m ..a O N 3 ° En C � A O o C C> cn V 7 d O 7 0 0 �3 O A CD 7 3 d 0 rn d Q 7 CD 7 7" �Q 3 Ol 3 N c� rn N v0 a � N o o m O a c w d! S N N a U) N w o m CD N 0 w 3 0 7 N � .. N TI T a pl m� CD k CD p f 0 C �.o W cn � O F- CD CL N a m•- a A ,p c m n n F c c O w 3 0 3 0 cc O O CD N Q N m CL ft� O1 O UR O O 0 Cr CD csi Et 2 C Q O cif CD 'd cn x 'c ET cr O 7r V cn 7C w vs 3 �. O CD lC m m a w Q- am V NC . ° �: 0 S o W C*) H O CD CD 3: 2 O 3 z d 3 m 0 to CD 0 m D c O m z c C Cr rn N 4 m N c m S G .0 a 7 T�1 � O (O � rn X 0 O CD A o 7 N � .. N TI T a pl m� CD k CD p f 0 C �.o W cn � O F- CD CL N a m•- a A ,p c m n n F c c O w 3 0 3 0 cc O O CD N Q N m CL ft� O1 O UR O O 0 Cr CD csi Et 2 C Q O cif CD 'd cn x 'c ET cr O 7r V cn 7C w vs 3 �. O CD lC m m a w Q- am V NC . ° �: 0 S o W C*) H O CD CD 3: 2 O 3 z d 3 m 0 to CD 0 m D c O m z c C Cr rn N 4 m Designer Series" Pella* Prol-ine GLAZING PERFORMANCE - TOTAL UNIT Aluminum -Clad Wood IN -SWING DOOR m h c F_ T e of Glazin YP g NFRC Certified Product # Glass (mm) Gap Fill Shaded Areas Meet Performane Values, ENERGY STAR" Performance Criteria in Zones Shown ]E.t-Int. ° U o U. S. ti 2 f U Zone Canada z ER Zone 13/16" Clear IG PEL- N- 218 -00001 -00001 3 3 air 0.40 0.44 46 48 with grilles - between- the -glass PEL -N -218- 00002 -00001 0.40 0.38 39 48 with integral grilles PEL -N- 218- 00003 -00001 0.41 0.38 39 49 13/16" Advanced Low -E IG PEL -N- 218- 00067 -00001 3 3 argon 0.28 0.21 39 62 with grilles - between- the -glass PEL -N- 218- 00068 -00001 0.28 0.18 33 62 with integral grilles PEL -N- 218- 00069 -00001 0.29 0.18 33 62 13/16" SunDefense'" Low -E IG PEL -N -218- 00013 -00001 3 3 argon 0.28 0.16 36 62 13 with grilles- between- the -glass PEL -N- 218 - 00014 -00001 0.28 0.14 31 62 12 with integral grilles PEL -N -218- 00015 -00001 0.28 0.14 31 62 13/16" AdvancedComfort Low-E IG PEL -N -218- 00031 -00001 3 3 argon 0.25 0.21 39 49 20 with grilles- between- the -glass PEL -N- 218- 00032 -00001 0.25 0.18 33 49 18 with integral grilles PEL -N- 218- 00033 -00001 1 0.26 0.18 33 49 17 13/16" NaturalSun Low -E IG PEL -N- 218- 00049 -00001 3 3 argon 0.29 0.39 44 61 25 with grilles - between- the -glass PEL -N- 218- 00050 -00001 0.29 0.34 38 61 with integral grilles PEL -N -218- 00051 -00001 0.30 0.34 38 61 13/16" Bronze Advanced Low -E IG PEL -N- 218- 00085 -00001 5 3 argon 0.28 0.19 25 60 with grilles - between- the -glass PEL -N- 218- 00086 -00001 0.28 0.16 22 60 with integral grilles PEL -N- 218 - 00087 -00001 0.29 0.16 22 60 13/16" Gray Advanced Low -E IG PEL -N -218- 00097 -00001 5 3 argon 0.28 0.17 22 60 with grilles- between- the -glass PEL -N -218- 00098 -00001 0.28 0.15 19 60 with integral grilles PEL -N -218- 00099 -00001 0.29 0.15 19 60 13/16" Green Advanced Low -E IG PEL -N -218- 00109 -00001 5 3 argon 0.28 0.18 31 60 with grilles- between- the -glass PEL -N- 218- 00110 -00001 0.28 0.16 26 60 with integral grilles PEL-N-218-001 11 -00001 1 0.29 0.16 26 60 0.31 0.21 39 58 13/16" Advanced Low -E IG PEL -N- 218 - 00064 -00001 3 3 air with grilles - between- the -glass PEL -N -218- 00065 -00001 0.31 0.19 33 58 with integral grilles PEL -N- 218 - 00066 -00001 0.31 0.19 33 58 13/16" SunDefense Low -E IG PEL -N- 218- 00010 -00001 3 3 air 0.30 0.16 36 59 with grilles - between- the -glass PEL-N-218-0001 1 -00001 0.30 0.14 31 59 with integral grilles PEL -N- 218 - 00012 -00001 0.31 0.14 31 59 13/16" AdvancedComfort Low -E IG PEL -N- 218- 00028 -00001 3 3 air 0.27 0.21 38 45 17 with grilles - between- the -glass PEL -N- 218- 00029 -00001 0.27 0.18 33 45 15 with integral grilles PEL -N- 218- 00030 -00001 0.27 0.18 33 45 15 13/16" NaturalSun Low -E IG PEL -N -218- 00046 -00001 3 3 air 0.31 0.39 44 58 with grilles- between- the -glass PEL -N -218- 00047 -00001 0.31 0.34 38 58 with integral grilles PEL -N -218- 00048 -00001 0.32 0.34 38 58 R -Value = 1/1.1- Factor SHGC = Solar Heat Gain Coefficient VLT %= Visible Light Transmission CR = Condensation Resistance ER = Canadian Energy Rating (1) Glazing performance values are calculated based on NFRC 100, NFRC 200 and NFRC 500. ENERGY STAR® values are updated to 2015 (Version 6) criteria. (2) The values shown are based on Canada's updated ENERGY STAR* 2015 initiative. U- Factor values shown are based on a standard sill and pine interior. For center -glass values, see the Product Performance section. See the Product Performance section for more detailed information or visit www.energystar.gov for Energy Star guidelines. Cllmatf t� Win. / Pella 2015 Architectural Design Manual I Division 08- Openings I Windows and Doors I www.PellaADM.com W -ISD -6 GLAZING PERFORMANCE - TOTAL UNIT Wood Exterior CASEMENT Fixed m v N Y ° Type of Glazing YP NFRC Certified Product # Glass (mm) Gap Fill Performane Values, Shaded Areas Meet ENERGY STAR' Performance Criteria in Zones Shown Ext. Int. ° U m H jj u U. S. Zone Canada z ER Zone 11/16" Clear IG PEL -N -41- 07038 -00001 2.5 2.5 air 0.44 0.63 66 45 with integral grilles PEL -N -41- 07644 -00001 0.44 0.57 59 45 11/16" Clear IG PEL -N -41- 07039 -00001 3 3 air 0.45 0.62 65 44 with integral grilles PEL -N -41- 07645 -00001 0.45 0.56 58 44 11/16" Advanced Low -E IG PEL -N -41- 06996 -00001 2.5 2.5 argon 0.26 0.30 56 62 25 with integral grilles PEL -N -41- 07602 -00001 0.26 0.27 50 62 23 11/16" Advanced Low -E IG PEL -N -41- 06997 -00001 3 3 argon 0.26 0.30 56 61 25 with integral grilles PEL -N -41- 07603 -00001 0.26 0.27 50 61 23 11/16" SunDefenselm Low -E IG PEL -N -41- 07009 -00001 2.5 2.5 argon 0.26 0.22 52 62 20 with integral grilles PEL -N -41- 07615 -00001 0.26 0.20 46 62 19 11/16° SunDefenseT" Low -E IG PEL -N -41- 07010 -00001 3 3 argon 0.26 0.22 51 61 20 with integral grilles PEL -N -41- 07616 -00001 0.26 0.20 46 61 19 29 11/16" AdvancedComfort Low -E IG PEL -N -41- 10186 -00001 2.5 2.5 argon 0.22 0.29 55 49 with integral grilles PEL -N -41- 10228 -00001 0.22 0.26 49 49 27 11/16" AdvancedComfort Low -E IG PEL -N -41- 10187 -00001 3 3 argon 0.22 0.29 54 48 29 with integral grilles PEL -N -41- 10229 -00001 0.22 0.26 49 48 27 11/16" NaturalSun Low -E IG PEL -N -41- 06967 -00001 2.5 2.5 argon 0.27 0.56 64 61 38 with integral grilles PEL -N -41- 07573 -00001 0.27 0.50 57 61 35 11/16" NaturalSun Low -E IG PEL -N -41- 06968 -00001 3 3 argon 0.27 0.55 63 60 38 with integral grilles PEL -N -41- 07574 -00001 0.27 0.49 56 60 34 11/16" Bronze Advanced Low -E IG PEL -N -41- 06954 -00001 5 3 argon 0.27 0.26 36 60 21 with integral grilles PEL -N -41- 07560 -00001 0.28 0.24 32 60 19 11/16" Gray Advanced Low -E IG PEL -N -41- 06980 -00001 5 3 argon 0.27 0.24 31 60 20 with integral grilles PEL -N -41- 07586 -00001 0.28 0.22 28 60 17 11/16" Green Advanced Low -E IG PEL -N -41- 06987 -00001 5 3 argon 0.27 0.26 44 60 21 with integral grilles PEL -N -41- 07593 -00001 0.28 0.23 39 60 18 11/16" Advanced Low- E IG PEL -N -41- 07073 -00001 2.5 2.5 air 0.30 0.30 56 58 with integral grilles PEL -N -41- 07679 -00001 0.30 0.27 50 58 11/16" Advanced Low -E IG PEL -N -41- 07074 -00001 3 3 air 0.30 0.30 56 57 with integral grilles PEL -N -41- 07680 -00001 0.30 0.27 50 57 11/16" SunDefense Low -E IG PEL -N -41- 07086 -00001 2.5 2.5 air 0.29 0.22 52 58 with integral grilles PEL -N -41- 07692 -00001 0.29 0.20 46 58 11/16" SunDefense Low -E IG PEL -N -41- 07087 -00001 3 3 air 0.30 0.23 51 57 with integral grilles PEL -N -41- 07693 -00001 0.30 0.20 46 57 11/16" AdvancedComfort Low -E IG PEL -N -41- 10193 -00001 2.5 2.5 air 0.25 0.25 0.29 0.26 55 49 45 45 25 23 with integral grilles PEL -N -41 -10235 -00001 11/16" AdvancedComfort Low -E IG PEL -N -41- 10194 -00001 3 3 air 0.25 029 54 44 25 with integral grilles PEL -N -41- 10236 -00001 0.25 0.26 49 44 23 11/16" NaturalSun Low -E IG PEL -N -41- 07044 -00001 2.5 2.5 air 0.31 0.56 64 57 33 with integral grilles PEL -N -41- 07650 -00001 0.31 0.50 57 57 30 11/16" NaturalSun Low -E IG PEL -N -41- 07045 -00001 3 3 air 0.31 0.55 63 56 33 with integral grilles PEL -N -41- 07651 -00001 0.31 0.49 56 56 29 R -Value = IM- Factor SHGC = Solar Heat Gain Coefficient climati VLT % =Visible Light Transmission CR = Condensation Resistance ER = Canadian Energy Rating (1) Glazing performance values are calculated based on NFRC 100, NFRC 200 and NFRC 500. ENERGY STAR® values are updated to 2015 (Version 6) criteria. (2) The values shown are based on Canada's updated ENERGY STAR® 2015 initiative. -01 nO( Seethe Product Performance section for more detailed information or visit www.energystar.gov for Energy Star guidelines. EQ: Pella 2015 Architectural Design Manual I Division 08 - Openings I Windows and Doors I www.PellaADM.com CM -13 GLAZING PERFORMANCE - TOTAL UNIT Aluminum -Clad Wood CASEMENT Vent c= "Y m (D -C Type of Glazing YP g NFRC Certified Product # Glass (mm) Gap Fill Performane Values, Shaded Areas Meet ENERGYSTAR'3 Performance Criteria in Zones Shown Ext. Int. ° U o M C7 - LL ilil > U U. S. Canada 2 Zone ER Zone 11/16' Advanced Low -E IG PEL -N -11- 09108 -00001 2.5 2.5 air 0.31 0.26 48 58 with grilles - between- the -glass PEL -N -11- 09730 -00001 0.31 0.24 44 58 with integral grilles PEL -N -11- 09318 -00001 0.32 0.24 44 58 11/16" Advanced Low -E IG PEL -N -11- 09109 -00001 3 3 air 0.32 0.26 48 57 with grilles - between- the -glass PEL-N-1 1-09731 -00001 0.32 0.24 43 57 with integral grilles PEL -N -11- 09319 -00001 0.32 0.24 43 57 11/16" SunDefense Low -E IG PEL -N -11- 09121 -00001 2.5 2.5 air 0.31 0.20 45 58 with grilles- between - the -glass PEL -N -11- 09743 -00001 0.31 018 41 58 with integral grilles PEL-N-1 1-09331 -00001 0.32 0.18 41 58 11/16" SunDefense Low -E IG PEL -N -11- 09122 -00001 3 3 air 0.31 0.20 44 57 with grilles - between- the -glass PEL -N -11- 09744 -00001 0.31 0.18 40 57 with integral grilles PEL -N -11- 09332 -00001 0.32 0.18 40 57 11/16' AdvancedComfort Low -E IG PEL -N -11- 10652 -00001 2.5 2.5 air 0.27 0.26 47 45 21 with grilles - between- the -glass PEL -N -11- 10694 -00001 0.27 0.23 43 45 19 with integral grilles PEL -N -11- 10666 -00001 0.28 0.23 43 45 18 11/16" AdvancedComfort Low -EIG PEL -N -11- 10653 -00001 3 3 air 0.27 0.26 47 44 21 with grilles - between- the -glass PEL -N -11- 10695 -00001 0.27 0.23 42 44 19 with integral grilles PEL -N -11- 10667 -00001 0.28 0.23 42 44 18 11/16" NaturalSun Low -E IG PEL -N -11- 09079 -00001 2.5 2.5 air 0.32 0.48 55 57 27 with grilles- between- the -glass PEL-N-1 1-09701 -00001 0.32 0.44 50 57 25 with integral grilles PLL -N -11- 09289 -00001 0.33 0.44 50 57 11/16" NaturalSun Low -E IG PEL -N -11- 09080 -00001 3 3 air 0.32 0.47 54 56 27 with grilles - between- the -glass PEL -N -11- 09702 -00001 0.32 0.43 49 56 25 with integral grilles PEL -N -11- 09290 -00001 0.33 0.43 49 56 R -Value = 1 /1-1- Factor SHGC = Solar Heat Gain Coefficient Climate VLT % = Visible Light Transmission CR = Condensation Resistance ER = Canadian Energy Rating (1) Glazing performance values are calculated based on NFRC 100, NFRC 200 and NFRC 500. ENERGY STAR® values are updated to 2015 (Version 6) criteria. (2) The values shown are based on Canada's updated ENERGY STAR® 2015 initiative. See the Product Performance section for more detailed information or visit www.energystar.gov for Energy Star guidelines. 70- Pella 2015 Architectural Design Manual I Division 08- Openings I Windows and Doors I www.PellaADM.com CM -6