HomeMy WebLinkAbout0003996-Buildingc;.~y-,.
r
.~A
W V
;!
E.
~\
~
C +~+
Z •(~
d
~
OI
z
~
0 *=
~
I LL d
~ 11 . l l
rn a
c v~
N ~ ' ~
` ~1
7 ~ ~
.=
m
d
U
C
f0
a
C
_ ~ ~
N
LL ~ C
~ 3 0
.N
O ^
H ~
~ c
V ~ •v
' N ~
c ^
~ ~ c
0
V ~
W d
Q ^
Z •~
O_ ~
Q
V ~ ^
J
a
a
I °'
Y W
~ O
m
~ a
W ~ c
a1
~, m
O
a
E
O
+. Q
J H
~C •
O
0
z
c
t
s
c
a
~~
> >
U U
0 0
c c
.~ .~
~ ~
E
Ca
C
Q N
L
d U
FO-
I N
^
m ~ ^
~i
~ ~•
~ ~
~ ^ ^ O > >
m ~ N
..
C N ~
~
~
~ U
i ~
O m ±.
~ a
U
•y y O
m «S
m Q O M
U N
m
m O. ~ ~
_ Y
(C C L 7 (n ~ ~
^ m
>'
m
a ~ o ^ w ^
~
~cnUc~mU ~ +~
cv ., c m
~°^ aci> rn
~~a~i s
2 ~- U
~.~.
3
a~
~ 7
m m
O O
~ ~
~ U U
O
a
H
Z
O ~
v 3 a~
O ~ N
Z ~
~ ~ ~
a m m
r ~
--- C7 J
O
/ ~
~ t.
I O
F »~
c ~
O ~
U ~
7 +'
N
N ~
~~
o
U ~
~ O ~
~ C ~
~ ~
S °-
l a I
y i L
U
^ a
O p m
N
~ ~,
~ 'L
~ °' c° ~
~ ~
~ c°n ~
U
°-'
^ ~
^ r
3
~ ~ ~ ~ ~ ~ W Q ^ _ (n
°o c N
~U' m ~ ~ ~
J~m x
O ~
~ ~
•~ m
~ ~
O
^ ~
H
QOwU^ o oaCZ
~ - J
F- Q +• Z ai o-
m ( ~
*''
i
L ~ Z
O^
~ ~ O U ~.
j H
U
' ~ N rO. ~ ~
LL V C = V
~ c y
~ O O m ~ w
O C O N
(q O m U Y S .. C Z C'3 •O N c+-C ~ U Q- O C
~ ~ L ~ ~ ~ 3 ~ H .. v ~ c ~ V ~ ~ ~ ~ m
c
~ ~ cNU a ._ a r m Q
W~ c
o ~.
~ r ~ ~ a~ a~i x a rn
~ m ~ 3Y ~ cn a xu. U cn U U wwO ii Q in
- I I I Y d c ~ .-~
` m
~ ~ +' U
.~
O
Z c
o
~
°'
~-
U
'~
L
Q
•; ~ O c aci
3.~
._ O j
~ 3
U rn
Q
Y~c ~
3 c
!~
°' ~
~ _
co
`~
~
~~ O
~
MM
c _ U ~ ., ;o_ 3 c
O ~ ~ ~ ~~ 3
N
U N
~ y~ c
Y w ~
~
C ~ ~ L ~ d O_
O ~ 0~3 `
u.
~
n ~ 0~0 3
~ Y~~
~ U
°
3 O
N
U ~
,
~ ~+
m ~
~
.~ r '-
Y •` .D
~
v ~ C
O -
t >,
O U C
~
N O ~ ~ c_ •a U ,o ~ O
~ A/1 ~ ~ v 0 C
~~Z ~~ ~ Q ~ ~ X N V
~ per/ ~ ~ r ~
O > V ~ ~
N
C
v O C
N
~ ~
m
d
~
V ~ ~
r ,o
X
.~ 3
-... .r
m
~ ~
~ ' a
~ ~; o
c { ~
L7 U o~. 3
Z ~-
o `~° •`°v
t
~ N O O N
O O
m C7 m L
L cn =
K ~ ~i~
~
U
~
~
T~ ~
'p n c c
m ~
f0 0 -p U
~ N
~ o
~ x
N V ~~
•
~ ~
L
~•~~
3~~~
d ;•~
c y N C ~ i
m ~, ~ - L O
~m-rn
pia c +••>
Y O
mo
-- ° ~
w
~
ccp~m ~ N
o •~
O C
~
~ ~•-
T ~
~
w `°
• ,~ c
O cC
o
U
w
ao~~ O~ ~~
Z ~ •` ~ ~
++
•
fn C7 C fC0 fa0 ~
O c
~
\ ,
o z;rL ~ v ~
V
U DcON.N p U1 N
N
N ~oiN>
~ U
r
c}o m~ o E
~
a c ~
C C N
~n ~
rn
2
~ ~ r ~ ~
~
~ ~
W
~w C O Q m Q
DATE ~ C
NAME ,S ~J <~ L . ADDRESS ~~ Q
LOT I ~ BLOCK ~ ~ WARD ~~: ~' ~(v
S UBD I V . ~ ~wr-,.k,G, S"t~ sue.! ~..L ~ ~ Z~
STREET N0. /030 G~~ G~~" LOT D I MENS I ONSJC7 ~X" ~~~
SIDEWALK EXISTING YES ~ NO C~
BUILDING GRADE ELEVATIONS STAKES SET AT SITE ,19 BY
FEE: $2.00~~ G~rC-~
DEPARTMENT OF PUBLIC WORKS
I, the undersigned, owner or agent of the above described property agree to have the
grade established before excavation has commenced.
~1
.x ,.Jl' Yt ln..'*- ViV 1.y1++
Department of Industry, Labor and Human Relations
Safety and Buildings Division, Madison, Wisconsin 53707
~~ ~~ ~ ~ ~ ~
~~ ~~
JOB NAME :_ ~ a s s Y n li n ~, ~ i~ DESIGNER
LOCATION :- 10 3 o p w~~, k~ ~, ,~, , ZONE : DATE gb
GROSS WALL AREA:
INSTRUCTIONS: This worksheet is recommended for determining conform-
ance with the Uniform Dwelling Codes Energy Conservation Standards.
Dwellings may be evaluated by the System Design Method or the Accept-
able Practice Method. Heat loss thru basement walls and floors where
insulation is not required by code may be included in furnace sizing
calculations at the option of the designer. System Design heat losses
not exceeding the losses determined thru the code requirements by
more than 1 ~ are considered acceptable.
0
~~~ ~.~
7.s ~ ~z- = 9d~
FOUNDATION WALL ABOVE GRADE:
113x.S3,~=9y ..s.d =
~wd~.)
1I~'~ sq. ft• ~sq.ft.
WINDOW <AREA:~g lass size ($1 unit size FOUNDATION WALL BELOW GRADE:
~ ~3 x 10 - 9a 8 S ~~: s'xsa~a :~ ~y~ :3.6
'3x3 x 3 = `f~ Ira X3
~.~7 ~~;~; $ ,M~,~
16
a
~~ ~ S _ ~.~ t / ......» ~
1
171 ho`+" -h54
--°~s q . f t .
~~._s q • f t • .
DooR AREA: FLOORS OVER UNHEATED AREAS
2~3~.~
CEILING AREA:
~7. $ sq, ft.
(OPAQUE)WALL AREA:
OTHER : ~o_x
~-~ ~ )~)
~~J sq. ft.
___~,l ~_,sq . f t .
~~ sq. ft.
`t sq. ft.
OTHER:
sq, ft.
l~nrm N~. SBD-5513 ~.-..
Page
INSTRUCTIONS: Calculate R and. U values using TABLE A-~+ in Dwelling
Code Book. Separate. calculations for systems having the same insul-
ation but different interior or exterior finishes is not necessary
provided. the system with the lowest R value is used. in the System
Design or Accepted Practice calculation.
type 1 type 2
-~~~ cav sol cav sol
exterior film
~ .17 .17 .17 .17
siding ,j?~ ,~
sheathing ,ys ,y~
insulation + xxxx xxxx
framing xxx ~, xxx
int. finish ,-~~ ~
interior film .68 .68 .68 .68
TOTAL R 2l~'t~ `~.3~
type 1 ; type 2
cav sot ~ ~cav sol
exterior film
T .17 .17 .17 .17
ext .
finish
insulation 3~ at,9
framing xxxx -~,~ xxxx
insulation
int. finish ,56 .5~
interior film .61 .61 .61 .61
TOTAL R `~•3 3~• ~
"U" = 1/R . d2S , 031
~" above rade walls
~.... cav sol v sol
exterior film .17 .17 .17 .17
ext. finish
masonry ,~y ,6~
wood
int, finish
int~:;rior film . 68 .68 , 68 .68
Insulation
TOTAL R ~•yq
nUn = 1/R .13y
~r=~+' , ~~~~~~~-
cav sol 1 , ,~, ~,
cav sol
exterior film , j , ~ ~
ext. finish ,~
insulation ~q ~
~ ~ _~~
int, finish
interior film , 6~ , `~
TOTAL R ~O.az ~a,'j~
' U''= 1/R ,0 ~ ,Dy
~ ~ 1st thru 3rd. foot Lath foot below ~;rad.e
~~~ ~ ~ below grade to basement floor
no insulation .288 .09~
walls R 5 rigid board .113 .063
R 11 fiberglass .072 .f>>If',~
w/ 2 x L!- framing
floors no insulation .025 .025
~~:r~~3..~~~~ air f3~.ma wa~.l~ J~nsul.s,t:i,on & so~.l pazj~ ~ ,
~',',':,,,v~ ~ '~; +'~ CONSTRUCTION HEAT LOSS
eat loss i
~~~ AREA "U" TD
BTU per hou
t;yb e cav . ... ~~.}~ x ~ °) ~a • D y ~S ~~ ~c~
1 sol. ~`'_x 10 /) , to .~ ~ a
type cav.( x-~)
type cav. ( ~~~ x t3 ~.) l ,D~ ,~" .?~
1 s o l . ( ~2 ~I x_.~. f) ~ . ~ 31
'~++' 4:~+'
type cav , x o
( ~~)
2 sol. ( x-~)
1 above grade walls fin, , 13 ~S D a
~~~ 2 below grad.e(3 feet) / j fl"~ `f l.~
~ 3 1 '] u
1 windows ~ ~ ~ ~ _ _ ~ 6
~~~ 2 patio doors
3
.ft Std
~~ ~ 2
1 8~ . D
TOTAL ~'O~ !Jr [
ADJUSTMENT FACTORS
FOR WOOD FRAMING
cc studs joists
12" _ 20 0 1~-4~~
16"
- 15~ lob
2~" 10 f 7~
CODE COMPARISON
STD = inside temp. minus 20 degrees
x*From table on page 2
~a~E
~.~' ( ....rF w~ ...err! ~ ~~ f ~~'
INSTRUCTIONS: for completion of acceptable practice method
Dwelling Code, Chapter Ind 22, Energy Conservation StandardsplAase refer to Uniform
ppendix Tables A-1,2,& 3.
WINDOW GLAZING:['~Single w/storm. DOORS:QLnsulated SIDING: wood(R .77)
WALLS ABOVE [_'(Insulated glass Solid wood
FOUNDATION Tri le alum(R1.82)
WALL [~, p pane Uninsul w/storm
INSULATION TYPE: WINDOW AND DOOR AiREA PERMITTED
GROSS WALL AP~EA(from worksheet., page 1) _
GLASS/DOOR AREA from worksheet. page 1) = square feet.
PERCENT WINDOW/DOOR AREA = glass/door area square feet.
PERCENT WINDOW/DOOR AREA = glass/door area fi gross wall area =
CEILING INSULATION) TYPE: .R VALUE (per inch)
REQUIRED THICKidESS(per table A-3): " in cavity "over framing
FOUNDATION WINDOW GLAZIIQG: single [single w/ storm Qinsulated(double)
WALL INSULATION TYPE: _
R VALUE
EXPOSED FOUNDATION AREA(from worksheet, page 1) square feet.
(walls must TOTAL FOUNdDATION AREA includes above & below rade
be insulated g )= square feet.
PERCENT EXPOSED = Exposed foundation total fdtn
to be in con- pERCENT WINDOW AREA PERMITTED (see Table A-2 square feet.
formance.) pERCENT WINDOW AREA (window area ~ exposed area) _ --'percent(%)
percent(%)
-,
~~ `~ ~ `
VOLUbIE CALCULATIOPdS: LEVEL VOLUME CON
7.3„3 ~ ~,l ~ ~~,~ Basement ~q g:
Level 1
a~ ~ ~ b ~ Level 2
.Z
~' `~ ~ ~3 Level 3
*AIR CHANGES. Recommended changes between .25 and 1.00
depending on type construction, number of openings,
weatherstripping, caulking etc:
R
ra
~~ '
A1,LOWABLE HEAT LOSS (from page 3) ~~ p
INFILTRATIAN LOSS (from above)
__~~t.~..~,1..~
BASEMENT HEAT LUSS (from page 3)
TOTAL DWELLINdG HEAT LOSS:
~.) ~ U
* Furnace output
TD
.018 ~'
.018
.018 ~
.013
INFILTP,ATION
HEAT LOSS
A/C* ~BTUH HEAT LOSS
D
~~! ~~
f^":
r+..r+d'
TOTAL DtJELLIPIG LOSS ~v~ ~~'~
x 1.15
r'~XTP'ItTM FTJRNACE SIZE p '~
FURNACE SPECIFIED 'ti