Installation, Masonry and factory built fireplace clearances – Hampton Direct HI300 User Manual

Hampton HI300 Wood Cast Insert

8

Clearance Diagram for Installations

Side and Top facing is a maximum of 1.5" thick.
Floor protection must be non-combustible, insula-
tive material with an R value of 1.1 or greater.

*

Hearth thickness of 0.5" with k value = 0.84",
r value = 0.6 or greater.

Thermal fl oor protection not required if unit is
raised 3.5" min. measured from bottom of stove. At
this point the standard ember fl oor protection will
be required. It will need to be a non-combustible
material that covers 16" (406 mm) to the front
of the unit (in Canada 18" (450 mm) and 8" (200
mm) to the sides.

All fl oor protection must be non-combustible (i.e.,
metals, brick, stone, mineral fi ber boards, etc.) Any
organic materials (i.e. plastics, wood paper prod-
ucts, etc.) are combustible and must not be used.
The fl oor protection specifi ed includes some form
of thermal designation such as R-value (thermal
resistance) or k-factor (thermal conductivity).

** A non-combustible mantel may be installed

at a lower height if the framing is made of
metal studs covered with a non-combustible
board.

** Max. mantle depth is 10" (254mm)

MASONRY AND FACTORY BUILT FIREPLACE CLEARANCES

The minimum required clearances to combustible materials when installed into a masonry or factory built fi replace are listed below.
NOTE: Clearances are the same with standard or oversize cast faceplate.

Adjacent

Mantle**

Top

Side

Minimum

Minimum

Minimum

Unit

Side Wall

(to Top)

Facing

Facing

Hearth

Hearth

Hearth Side

(to Side of unit)

(to Top)

(to Side of unit) Extension*

Thickness*

Extension

A

B

C

D

E

F

G

Wood Cast
Insert (HI300) 11"/280mm 20"/508mm

12"/305mm

8"/200mm

18"/455mm 0.5"/13mm

8"/200mm

Minimum Hearth Extension for the front (E) and sides
(G) are measured from the fuel door opening.

HOW TO DETERMINE IF ALTERNATE

FLOOR PROTECTION MATERIALS ARE ACCEPTABLE

The specifi ed fl oor protector should be 3/8"
(18mm) thick material with a K - factor of
0.84.

The proposed alternative is 4" (100mm) brick
with a C-factor of 1.25 over 1/8" (3mm) mineral
board with a K-factor of 0.29.

Step (a):

Use formula above to convert specifi cation
to R-value.

R = 1/k x T = 1/0.84 x .75 = 0.893.

Step (b):

Calculate R of proposed system.

4" brick of C = 1.25, therefore

Rbrick = 1/C = 1/1.25 = 0.80

1/8" mineral board of k = 0.29, therefore
Rmin.bd. = 1/0.29 x 0.125 = 0.431

Total R = Rbrick + Rmineral board =

0.8 + 0.431 = 1.231.

Step (c):

Compare proposed system R of 1.231 to
specifi ed R of 0.893. Since proposed system
R is greater than required, the system is
acceptable.

DEFINITIONS

Thermal Conductance:

C

= Btu

= W

(hr)(ft

2

)(

o

F) (m

2)

)(K)

Thermal Conductivity:

k = (Btu)(inch) = W = Btu

(hr)(ft

3

)(

o

F) (m)(K) (hr)(ft)(

o

F)

Thermal Resistance:

R = (ft

2

)(hr)(

o

F) = (m

2

)(K)

Btu

W

INSTALLATION