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System Design
7. Center-of-gravity and earthquake resistance
D-36
c)
Bot
to
m
s
urf
ac
e of
norm
al c
ei
lin
g s
lab,
c
onc
ret
e w
all s
urf
ac
e
Long-t
erm a
llo
wabl
e pul
l-ou
t l
oad (N)
Not
es
1.
Thes
e a
re s
ho
rt-
te
rm al
lo
w
abl
e pu
ll-
ou
t l
oa
ds
fo
r bol
ts
embed
de
d as
s
how
n i
n t
he d
iag
ram
ab
ov
e,
wi
th
F
C1
=
20.
6 N/
mm
2
, F
C2
= 17.
6 N/
mm
2
, an
d
W
= 100 mm.
2.
W
he
n t
he d
imens
io
ns
di
ffe
r f
rom t
he a
bov
e
di
ag
ra
m,
o
r
if t
he c
onc
ret
e d
es
ign
c
ha
rac
te
ris
tic
s
trengt
h di
ffe
rs
,
then t
he
pul
l-o
ut
lo
ad
c
an be c
al
cul
at
ed ac
co
rd
in
g wi
th
the f
ormul
ae f
or
bol
ts
in
a
s
tro
ng f
ou
ndat
ion,
at
th
e l
ef
t.
In
any
c
as
e,
t
he al
lo
w
abl
e p
ul
l-out
l
oad
on
on
e b
ol
t
mus
t not
ex
ceed 1
1,
760 N.
3.It is d
es
irab
le
tha
t L
≥
6d.
T
he c
ondi
tio
ns
indi
ca
ted by
“-
” i
n t
he ab
ov
e t
abl
e s
ho
ul
d b
e av
oi
ded.
4.
The
ab
ov
e t
abl
e c
an b
e us
ed f
or
box
out
wi
dt
hs
up
t
o
150 mm.
5.If typ
e 1
o
r 2
li
gh
twe
igh
t co
nc
re
te
is u
se
d,
a
llo
w
1
0%
margi
n.
b)
U
ppe
r s
ur
fa
ce
of
no
rm
al
fl
oo
r s
lab
S
hort
-te
rm
pul
l-ou
t l
oad
(N)
Not
es
1.
Th
es
e
ar
e s
hort
-te
rm
al
lo
wa
bl
e p
ul
l-out
lo
ad
s f
or b
ol
ts
emb
ed
de
d as
s
ho
w
n i
n t
he
di
ag
ram
ab
ov
e,
w
ith
F
C1
=
11.
8 N/
m
m
2
, F
C2
= 17.
6 N/
mm
2
, a
nd
W
=
10
0 mm.
2.
W
hen t
he
di
me
ns
ions
di
ffe
r f
rom
the
abov
e
di
ag
ram,
or i
f t
he c
onc
ret
e d
es
ig
n c
har
ac
te
ris
tic
s
tren
gt
h
di
ffers
,
th
en
the
pu
ll-o
ut
lo
ad
c
an b
e c
al
cu
lat
ed
ac
co
rd
in
g w
ith
the f
ormu
la
e
fo
r b
ol
ts
in
a
st
ro
ng
fo
un
dat
io
n,
at
th
e l
ef
t.
In
any
c
as
e,
t
he
al
lo
w
abl
e p
ul
l-out
l
oa
d
of
on
e b
ol
t
m
ust no
t e
xc
eed
11
,760
N
.
3.
It
is
des
ira
bl
e t
hat
L
≥
6
d.
Th
e c
on
di
tions
indi
ca
te
d by
“-
” i
n t
he
ab
ov
e t
abl
e s
ho
ul
d b
e
av
oi
ded.
4.
T
he
a
bov
e t
ab
le
c
an
be
us
ed f
or
bo
xo
ut
wi
dt
hs
up
to
15
0 mm.
5.
If
ty
pe
1
o
r
2 l
ight
w
ei
ght
c
onc
ret
e i
s us
ed,
al
lo
w
10%
mar
gi
n.
Ins
tal
lat
ion
lo
ca
tion:
a) S
oli
d f
oun
dat
io
n
Sh
or
t-
te
rm
allow
able
pu
ll-
out
load
of
a bol
t i
s obt
ai
ned w
ith
the f
ol
lo
wi
ng
fo
rmul
ae.
How
ev
er,
if
th
e s
hea
r s
tres
s on t
he
bol
t ex
ce
ed
s 44.
1
N/
mm
2
(fo
r S
S
40
0)
, bol
t s
tre
ngt
h
an
d
as
su
ranc
e t
hat
al
lo
w
abl
e t
ens
ile s
tre
ss
is
not
ex
ceeded mus
t b
e v
eri
fied.
F
or
F
C1
≤
F
C2
T
a =
π・
L
・
W
…
(a)
F
or
F
C1
>
F
C2
(e.
g.
, i
n non-s
hr
in
k
mort
ar)
T
a =
π・
L
・
W
…
(a)
W
he
re
,
T
a =
A
nc
hor bolt
a
llo
wabl
e
sh
ort
-te
rm
pul
l-ou
t l
oad (N)
L
=
E
m
bedded
lengt
h of an
ch
or
bol
t (m
m)
F
C1
=
Cha
ra
cter
istic
de
sign
str
en
gt
h o
f ba
ckfill m
or
tar
(N
/m
m
2
)
F
C2
=
Charact
eris
tic
de
si
gn
st
re
ngt
h o
f s
urroundi
ng
c
on
cre
te
(N
/m
m
2
)
N
or
m
al
ly
, F
C1
=
1
1.8
N
/m
m
2
an
d F
C2
= 17
.6
N
/mm
2
a
re us
ed
.
W
=
W
id
th
o
f an
ch
or
bo
lt
bo
xou
t (between
100
m
m
and
1
50
m
m
).
Us
e t
he s
m
al
le
st
di
mens
io
n f
or
rec
ta
ngul
ar s
hapes
. H
ow
ev
er,
th
e i
nt
ern
al
s
urf
ac
es
of
the box
in
se
rt mus
t be s
uf
fic
ie
nt
ly
rou
gh
ene
d.
For
an
chor
bo
lts
po
si
tion
ed
in t
he corn
er
or
near
th
e edge
o
f t
he
fo
unda
tion
, the shor
t-t
er
m
a
llo
wab
le
pull
-ou
t load
s
ha
ll
be
ta
ke
n
to
be
eit
he
r o
f the
v
al
ue
s
fro
m
for
m
ulae
(c
) an
d
(d)
or
(e
) and
(f
) be
lo
w
.
1
) F
or
F
C1
≤
F
C2
and L
≤
h,
T
a =
π・
L
・
W
…
(c
)
2
) F
or
F
C1
≤
F
C2
and L
>
h,
T
a =
π・
L
・
W
(
L
- h
+ h
)
…
(d)
3
) F
or
F
C1
> F
C2
and L
≤
h,
T
a =
π・
L
・
W
…
(e)
4
) F
or
F
C1
> F
C2
and L
>
h
,
T
a =
π・
L
・
W
(
L
- h
+
h
)
…
(f)
W
here,
h
=
Foundati
on pad
hei
gh
t (
mm)
A
= Di
st
anc
e f
rom edg
e of
a
nc
hor b
ox
out
to
e
dg
e of
fo
undat
ion
pad
(mm)
N
ote
s
1
. L
sh
ou
ld
b
e
≥
6d
(where
d = no
mi
nal an
chor bo
lt di
am
et
er).
2. If
ty
pe 1
or 2
li
gh
twei
gh
t c
on
cret
e is
u
sed
, all
ow 10
%
margi
n.
200
6272
6272
6272
6272
6272
-
160-d
180
5488
5488
5488
5488
5488
-
140-d
150
4508
4508
4508
-
-
-
110-d
C
on
cr
ete
th
ic
kn
es
s (
m
m
)
120
3136
3136
-
-
-
-
80-d
B
ol
t di
am
et
er
d (nomi
na
l)
M 8
M10
M12
M16
M20
M24
Lengt
h o
f bo
lt
embedded, L (
mm)
200
8820
9408
9408
9408
9408
9408
160-d
180
8232
8232
8232
8232
8232
-
140-d
150
6762
6762
6762
-
-
-
110-d
C
on
cr
ete
th
ic
kn
es
s (
m
m
)
120
4802
4802
-
-
-
-
80-d
B
ol
t di
ame
ter
d (nomi
nal
)
M 8
M10
M12
M16
M20
M24
Lengt
h o
f bo
lt
embedded, L (
mm)
F
C1
80
A
10
F
C2
80
F
C1
80
F
C1
80
A
10
F
C2
80
A
10
F
C2
80
A
10
(4) Al
lowa
bl
e p
ul
l-ou
t l
oad
of
J-
an
d J
A
-ty
pe
bo
lts a
nd
hea
ded
bo
lts i
n b
ox
out
s
(Box
out
te
chn
iq
ues
ar
e n
ot a
pp
lic
ab
le
to t
he
un
der
sid
e o
f cei
lin
g
sla
bs
or
co
ncr
ete
w
al
l surf
ac
es)
Summary of Contents for ECO G SGP-EW120M2G2W
Page 3: ...A 1 System Configuration Contents 1 Type Configuration 1 Outdoor unit A 2 ...
Page 12: ...Outdoor Unit 3 External Dimensions B 8 ...
Page 13: ...Outdoor Unit 4 Wiring Diagram B 9 ...
Page 14: ...Outdoor Unit 5 Performance Characteristics B 10 Cooling Heating SGP EW120M2G2W ...
Page 15: ...Outdoor Unit 5 Performance Characteristics B 11 Cooling Heating SGP EW150M2G2W ...
Page 16: ...Outdoor Unit 5 Performance Characteristics B 12 Cooling Heating SGP EW190M2G2W ...
Page 17: ...Outdoor Unit 5 Performance Characteristics B 13 Cooling Heating SGP EW240M2G2W ...
Page 18: ...Outdoor Unit 6 Operating Sound Level Characteristics B 14 1 Standard Mode ...
Page 19: ...Outdoor Unit 6 Operating Sound Level Characteristics B 15 ...
Page 20: ...Outdoor Unit 6 Operating Sound Level Characteristics B 16 ...
Page 21: ...Outdoor Unit 6 Operating Sound Level Characteristics B 17 ...
Page 22: ...Outdoor Unit 6 Operating Sound Level Characteristics B 18 2 Quiet Mode ...
Page 23: ...Outdoor Unit 6 Operating Sound Level Characteristics B 19 ...
Page 24: ...Outdoor Unit 6 Operating Sound Level Characteristics B 20 ...
Page 25: ...Outdoor Unit 6 Operating Sound Level Characteristics B 21 ...
Page 28: ...Control Related 1 System Block Diagram C 2 ...
Page 29: ...Control Related 2 Remote Control Warning List C 3 ...
Page 30: ...Control Related 2 Remote Control Warning List C 4 ...
Page 31: ...Control Related 2 Remote Control Warning List C 5 ...
Page 76: ...Installation Work 1 Points regarding refrigerant pipe work E 3 APR P680BG ...
Page 77: ...Installation Work 1 Points regarding refrigerant pipe work E 4 APR P1350BG ...
Page 78: ...Installation Work 1 Points regarding refrigerant pipe work E 5 APR CHP680BG APR CHP1350BG ...
Page 86: ...Installation Work 2 Points regarding electrical work outdoor unit E 13 ...
Page 87: ...Installation Work 3 Outdoor unit installation work E 14 ...
Page 88: ...Installation Work 3 Outdoor unit installation work E 15 ...
Page 89: ...Installation Work 3 Outdoor unit installation work E 16 ...
Page 90: ...Installation Work 3 Outdoor unit installation work E 17 ...
Page 91: ...Installation Work 3 Outdoor unit installation work E 18 ...
Page 92: ...Installation Work 3 Outdoor unit installation work E 19 ...
Page 93: ...Installation Work 3 Outdoor unit installation work E 20 ...
Page 94: ...Installation Work 3 Outdoor unit installation work E 21 ...
Page 95: ...Installation Work 3 Outdoor unit installation work E 22 ...
Page 96: ...Installation Work 3 Outdoor unit installation work E 23 ...
Page 97: ...Installation Work 3 Outdoor unit installation work E 24 ...
Page 98: ...Installation Work 3 Outdoor unit installation work E 25 ...
Page 99: ...Installation Work 3 Outdoor unit installation work E 26 ...
Page 100: ...Installation Work 3 Outdoor unit installation work E 27 ...
Page 101: ...Installation Work 3 Outdoor unit installation work E 28 ...
Page 102: ...Installation Work 3 Outdoor unit installation work E 29 ...
Page 103: ...Installation Work 3 Outdoor unit installation work E 30 ...
Page 104: ...Installation Work 3 Outdoor unit installation work E 31 ...
Page 105: ...Installation Work 3 Outdoor unit installation work E 32 ...
Page 106: ...Installation Work 3 Outdoor unit installation work E 33 ...