Lennox ADAGIO-EN, Installation Instructions Manual

Page: 7 / 36

7
NOTE: DIAGRAMS & ILLUSTRATIONS ARE NOT TO SCALE.
EXTERIOR HORIZONTAL VENT TERMINATION CLEARANCE REQUIREMENTS
Figure 7
V
V
V
V
V
F
C
Fixed
Closed
Window
Operable
Window
B
B
A
B
H
M
I
= Area where Termination is not Permitted
= Air Supply Inlet
X = Vent Termination V
D
V
3 ft.
3 ft.
A
A
A
= 9” in U.S.
= 12” in Canada
V
L
B
J
X
V
A
G
Inside
Corner Detail
B
C
C
C
*18”
Ventilated Soffit
Horizontal
Termination
Detail D
Exterior Wall
6”
Inside Corner
*
See Item D in the Text Below.
V
P
V
O
N
N
Q
NOTE: Local Codes Or Regulations
May Require Different Clearances.
NOTE: Location Of The Vent Termination
Must Not Interfere With Access To The
Electrical Service.
E
K
X
� �
�
* n o it a ll a t s n I n a i d a n a C * * n o it a ll a t s n I S U
. y n o c l a b r o , k c e d , h c r o p , a d n a r e v , e d a r g e v o b a e c n a r a e l C = A * ) m c 0 3 ( s e h c n i 2 1 * * ) m c 0 3 ( s e h c n i 2 1
. d e n e p o e b y a m t a h t r o o d r o w o d n i w o t e c n a r a e l C = B s e c n a il p p a r o f ) m c 5 1 ( s e h c n i 6
) m c 0 3 ( s e h c n i 2 1 , ) W k 3 ( h u t B 0 0 0 , 0 1 <
) W k 3 ( h u t B 0 0 0 , 0 1 > s e c n a il p p a r o f
s e c n a il p p a r o f ) m c 5 1 ( s e h c n i 6
) m c 3 2 ( s e h c n i 9 , ) W k 3 ( h u t B 0 0 0 , 0 1 <
d n a ) W k 3 ( h u t B 0 0 0 , 0 1 > s e c n a il p p a r o f
) m c 0 3 ( s e h c n i 2 1 , ) W k 5 1 ( h u t B 0 0 0 , 0 5 <
* * ) W k 5 1 ( h u t B 0 0 0 , 0 5 > s e c n a il p p a r o f
w o d n i w d e s o l c y lt n e n a m r e p o t e c n a r a e l C = C o t d e d n e m m o c e r ) m m 5 0 3 ( s e h c n i 2 1
n o it a s n e d n o c w o d n i w t n e v e r p
o t d e d n e m m o c e r ) m m 9 2 2 ( s e h c n i 9
n o it a s n e d n o c w o d n i w t n e v e r p
e h t e v o b a d e t a c o l ti ff o s d e t a li t n e v o t e c n a r a e l c l a c it r e V = D
) m m 8 5 4 ( s e h c n i 8 1 f o e c n a t s i d l a t n o z ir o h a n i h ti w n o it a n i m r e t
) m m 8 5 4 ( s e h c n i 8 1 ) m m 8 5 4 ( s e h c n i 8 1
ti ff o s d e t a li t n e v n u o t e c n a r a e l C = E ) m m 5 0 3 ( s e h c n i 2 1 ) m m 5 0 3 ( s e h c n i 2 1
r e n r o c e d i s t u o o t e c n a r a e l C = F m u m i n i m ) m c 7 . 2 1 ( s e h c n i 5 m u m i n i m ) m c 7 . 2 1 ( s e h c n i 5
r e n r o c e d i s n i o t e c n a r a e l C = G • 2 - T H 5 . 4 V S - m u m i n i m ) m c 8 0 . 5 ( s e h c n i 2
S S T H 5 . 4 V S - m u m i n i m ) m c 2 . 5 1 ( s e h c n i 6
• 2 - T H 5 . 4 V S - m u m i n i m ) m c 8 0 . 5 ( s e h c n i 2
S S T H 5 . 4 V S - m u m i n i m ) m c 2 . 5 1 ( s e h c n i 6
e v o b a d e d n e t x e e n il r e t n e c f o e d i s n i h c a e o t e c n a r a e l C = H
y l b m e s s a r o t a l u g e r/ r e t e m
t e e f 5 1 f o t h g i e h a n i h ti w ) m c 1 9 ( t e e f 3
* y l b m e s s a r o t a l u g e r/ r e t e m e h t e v o b a
t e e f 5 1 f o t h g i e h a n i h ti w ) m c 1 9 ( t e e f 3
* * y l b m e s s a r o t a l u g e r/ r e t e m e h t e v o b a
t e lt u o t n e v r o t a l u g e r e c i v r e s o t e c n a r a e l C = I * ) m c 1 9 ( t e e f 3 * * ) m c 1 9 ( t e e f 3
r o g n i d li u b o t t e l n i y l p p u s ri a l a c i n a h c e m n o n o t e c n a r a e l C = J
e c n a il p p a r e h t o y n a o t t e l n i ri a n o it s u b m o c e h t
s e c n a il p p a r o f ) m c 5 1 ( s e h c n i 6
) m c 0 3 ( s e h c n i 2 1 , ) W k 3 ( h u t B 0 0 0 , 0 1 <
) W k 3 ( h u t B 0 0 0 , 0 1 > s e c n a il p p a r o f
s e c n a il p p a r o f ) m c 5 1 ( s e h c n i 6
) m c 3 2 ( s e h c n i 9 , ) W k 3 ( h u t B 0 0 0 , 0 1 <
d n a ) W k 3 ( h u t B 0 0 0 , 0 1 > s e c n a il p p a r o f
) m c 0 3 ( s e h c n i 2 1 , ) W k 5 1 ( h u t B 0 0 0 , 0 5 <
* * ) W k 5 1 ( h u t B 0 0 0 , 0 5 > s e c n a il p p a r o f
t e l n i y l p p u s ri a l a c i n a h c e m a o t e c n a r a e l C = K * ) m 3 8 . 1 ( t e e f 6 ) m 3 ( t e e f 0 1 n i h ti w fi e v o b a ) m c 1 9 ( t e e f 3
* * y ll a t n o z ir o h
d e t a c o l y a w e v i d d e v a p r o k l a w e d i s d e v a p e v o b a e c n a r a e l C = L
y tr e p o r p c il b u p n o
‡ ) m 3 1 . 2 ( t e e f 7 ‡ ) m 3 1 . 2 ( t e e f 7
y n o c l a b r o k c e d , h c r o p , a d n a r e v r e d n u e c n a r a e l C = M ‡ * ) m c 0 3 ( s e h c n i 2 1 ‡ ) m c 0 3 ( s e h c n i 2 1
) m u m i x a M ( e v o c l A f o h t p e D = N * ) m 3 8 . 1 ( t e e f 6 * * ) m 3 8 . 1 ( t e e f 6
) e v o c l A ( n o it a n i m r e T o t e c n a r a e l C = O * ) m m 2 . 5 1 ( s e h c n i 6 * * ) m m 2 . 5 1 ( s e h c n i 6
) m u m i n i M ( e v o c l A f o h t d i W = P * ) m c 1 9 ( t e e f 3 * ) m c 1 9 ( t e e f 3
) e v o c l A ( e v o b A e l b it s u b m o C o t e c n a r a e l C = Q * ) m m 7 5 4 ( s e h c n i 8 1 * * ) m m 7 5 4 ( s e h c n i 8 1
. e d o C n o it a ll a t s n I e n a p o r P d n A s a G l a n o it a N 1 . 9 4 1 B - A S C t n e r r u c e h t h ti w e c n a d r o c c a n I *
. s e d o C s a G l e u F l a n o it a N 4 5 A P F N / 1 . 3 2 2 Z S I S N A t n e r u c e h t h ti w e c n a d r o c c a n I * *
h t o b s e v r e s d n a s g n il l e w d y li m a f e l g n i s o w t n e e w t e b d e t a c o l s i h c i h w y a w e v ir d d e v a p r o k l a w e d i s a e v o b a y lt c e ri d e t a n i m r e t t o n ll a h s t n e v A ‡
. s g n il l e w d
. r o o lf e h t h t a e n e b s e d i s 2 m u m i n i m a n o n e p o y ll u f s i y n o c l a b r o k c e d , h c r o p , a d n a r e v fi d e tt i m r e p y l n O ‡ *
. y l n O 2 - T H 5 . 4 V S r o f s e l b it s u b m o C - n o N o t e c n a r a e l C h c n i 2 •
f i r e - p a r t s . c o m