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Ductile Iron
Grooved Fittings
and Couplings
MECH FLOW SUPPLIES
Malleable Iron
Pipe Fittings
Electrical
Power Fittings
JINAN MEIDE CASTING CO., LTD.
JINAN MEIDE CASTING CO., LTD.
Ductile Iron
Grooved Fittings
and Couplings
Malleable Iron
Pipe Clamps
Valves
JINAN MEIDE CASTING CO., LTD.
JINAN MEIDE CASTING CO., LTD.
JINAN MEIDE CASTING CO., LTD.
Address: Pingyin Industrial Park, Meigui Zone,
Jinan Meide Technopark, Jinan, China 250400
Phone: (86)531 87879384 87885036 87885067
Fax: (86)531 87879387
Email: [email protected]
Http://www.meide-casting.com
UPDATED 12/2015
JINAN MEIDE CASTING CO., LTD.
Ductile Iron Pipe Fittings
Cast Iron Pipe Fittings
Cast Bronze
Fittings
JINAN MEIDE CASTING CO., LTD.
Pipe Nipples
JINAN MEIDE CASTING CO., LTD.
JINAN MEIDE CASTING CO., LTD.
JINAN MEIDE CASTING CO., LTD.
01
Company
Profile
More than
50 years of
Foundry
Experience
Jinan Meide Casting Co. Ltd. was established in 1962.
We organize the whole produc tion process in
In the past decades, Jinan Meide has seized each
accordance with ISO 9001 and ISO 14001. It has also
opportunity to consolidate its strength, and has finally
the most complete certificates in the PVF industry,
developed into what it is today, a large-scale enterprise
including UL/FM/NSF of US, CRN/cUL of Canada,
group with advanced technology, equipment and
DVGW/TUV/CE/VdS of Germany, BSI/LPCB of UK, SII of
strong comprehensive strength, known for its complete
Israel, JIS of Japan, ABNT of Brazil, GOST-R of Russia,
range of products, large producing capacity, high
CNBOP of Poland, KS of South Korea, TSE of Turkey, PSB
quality and strong R&D strength. The company owns
of Singapore, SIRIM of Malaysia, SABS of South Africa
altogether one main factory, three branch factories,
etc. The products are well distributed in more than 130
two independent accounting steel pipe companys, and
countries and regions.
a science & technology park.
As an industry leader and key high-tech enterprise of
The company is the largest manufacturer in the fitting
the national torch plan, the company attaches great
industry with the most complete range of products,
importance to environmental protection, energy-
supplying malleable iron fittings, grooved fittings,
saving and emission-reduction. US-EEC recognizes
grooved couplings, valves, cast iron fittings, ductile iron
MECH brand malleable iron pipe fittings as “the
fittings, steel pipe nipples and couplings, stainless steel
product to promote for the technology exchange of
nipples, brass pipe nipples, cast bronze fittings, steel
environmental protection”. Protecting the environment
pipes, pipe hangers and supports, electric fittings, etc.
is the duty of the company.
Over 50 years, Jinan Meide has been a trusted name
Customer satisfaction has always been the company’s
in piping solutions by offering high-quality products,
top objective, and we constantly stick to the principle:
service and support to the PVF industry continuously.
to provide customers with a value-added solution
We provide expertise and product solutions for a wide
rather than simply delivering products.
range of applications, plumbing, mechanical, industrial,
air-conditioning and refrigeration, mining, oil, gas, fire
protection, equipment and power system. Many of the
company’s application technology are advanced in the
world, with more than 20 patents registered each year,
and the company has presided over and participated in
the drafting of many important national standards of
the industry.
2014
2013
2012
2011
2010
2009
2008
2007
2006
2005
2004
2003
2002
2001
2000
1999
1998
1997
1996
1995
1994
1993
1992
1991
1990
1989
1971
1972
1973
1974
1975
1976
1977
1978
1979
1980
1981
1982
1983
1984
1985
1986
1987
1988
1964
1965
1966
1967
1968
1969
1970
1963
1962
1961
"MECH" Malleable Iron Pipe Fittings for Fire Protection
Steel Pipes
Extra-heavy Brass Pipe Nipples
Hydraulic Control Valves
Electric Power Fittings
Bronze Fittings
Ductile Iron Pipe Fittings
Ductile Iron Grooved Fittings
and Couplings
Ball Valves
Pipe Hangers and Brackets
Malleable Iron Pipe Clamps
Steel Pipe Nipples
Red Brass Pipe Nipples
Cast Iron Fittings
Self Export, Developed US and
European Market
Conduit Body
2014
2012
2007
2001
1999
1995
1990
1970
2013
2011
2003
2000
1998
1997
1993
1987
1962
Export, Main Market: Southeast Asia
Malleable Iron Pipe Fittings
Business Started from Grey Iron Pot
1960
03
02
Company
History
04
05
State of
the Art
Equipment
Pattern
Core Making
Sand Mulling
High precision equipment is quality assurance.
Jinan Meide’s 8 factories are all equipped with the
most advanced facilities and equipment in the
industry. The main production facilities include Sinto
automatic molding line, Tokyu automatic molding
line, Chinese 416 automatic vertical molding line,
automatic molding sand mixers, cupola furnaces,
Melting
Tokyu AMF-111055
Sinto FCMX
DISA
electric furnaces, water-cooled longevous cupola
furnaces, CNC vertical machining centers, CNC
machines, NC vertical lathes, radial drills, Jinan
Meide proprietary automatic machines, hot-dipped
galvanization line, automatic box sealing line,
stereoscopic warehouse and so on.
Pouring
End Grinding Line
Painting
Threading, Air Pressure Test, and Anti-rust Treatment
Warehouse
06
07
Reliable
Quality
Assurance
Jinan Meide is honored as the National enterprise
technical center and is capable and qualified to
conduct full series of tests and inspections including
chemical checking, etc.
Inspection facilities include: spectrometer, carbon
sulfur analyzer, metallurgical microscope, tensile
strength testing equipment, pressure testing
equipment, adhesive force testing equipment, CMM,
hardness tester, etc.
From incoming inspection to finished product,
CMM
Projector
Carbon Sulfur Analyzer
Tensile Strength Testing Equipment
The Length of The Test Instrument
quality is checked and monitored in the whole
process. Each step of the manufacturing process is
carefully documented, regularly reviewed for revision
control and updating standard. Quality procedures
are constantly monitored and updated to assure
that only the highest and most consistent quality
products are supplied to our valued customers.
Metallurgical Microscope
Spectrometer
Sand Testing Instrument
Roughness Tester
08
09
Certificates
10
11
Ductile Iron Grooved Fittings
and Couplings
M a t e r i a l : ASTM A5 3 6 , G RADE 6 5 -4 5 -1 2 , Q T 4 5 0 -1 0
Su rf a ce Tre a t me n t :
Th r e a d s : ASM E B1 . 2 0 . 1 , I SO 7 -1 , G B 7 3 0 6
P: Pa in t e d
Si z e Av a i l a b l e : 1 " - 2 4 "
B: Bla ck
E: Ele ct ro p la t e d
S: Ep o xy
G : Ho t -d ip G a lva n ize d
1N
1N
1N
1NS
1NH
131R
180
180R
181
Standard Flexible Coupling
Standard Flexible Coupling
Standard Reducing Flexible Coupling
Light-duty Flexible Coupling
Heavy-duty Flexible Coupling
Reducing Tee with Female Thread
Cross
Reducing Cross
Reducing Cross with Female Thread
1G
1GS
1GK
H305
H307
Standard Rigid Coupling
Light-duty Rigid Coupling
Angle Pad Coupling
HDPE Coupling
HDPE Transition Coupling
90
90C
90C
90R
90S
90° Elbow
90° Hydrant Elbow
90° Drain Elbow
90° Reducing Elbow
Light-duty 90° Elbow
3L
3G
3GS
3J
3JS
U-Bolt Mechanical Tee
Mechanical Tee Grooved Outlet
Light-duty Mechanical Tee
Grooved Outlet
Mechanical Tee Threaded Outlet
Light-duty Mechanical Tee
Threaded Outlet
4G
4GS
4J
4JS
Mechanical Cross Grooved Outlet
Light-duty Mechanical Cross
Grooved Outlet
Mechanical Cross Threaded Outlet
Light-duty Mechanical Cross
Threaded Outlet
105
110
120
130
130C
230
230N
240
240N
240W
11.25° Elbow
22.5° Elbow
45° Elbow
Tee
Reducing tee
Grooved Eccentric Reducer
Grooved Eccentric Reducer
with Female Thread
Grooved Concentric Reducer
Grooved Concentric Reducer
with Female Thread
Grooved Concentric Reducer
with Male Thread
300
300
300PX
321
321G
Cap
Cap with Concentric Hole
Cap with Eccentric Hole
Grooved Flange
Adaptor Flange
130D
130S
130R
130R
131R
Reducing tee
Light-duty Tee
Reducing Tee
Reducing Tee
Reducing Tee with Female Thread
12
13
Pipe End
Separation
mm/in
Dimensions
Bolt Size
A
mm/in
B
mm/in
C
mm/in
No.-Size
mm
1N
Standard Reducing
Flexible Coupling
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Max. End
Load
kN/Lbs
Pipe End
Separation
mm/in
Dimensions
Bolt Size
A
mm/in
B
mm/in
C
mm/in
No.-Size
mm
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B
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C
mm/in
No.-Size
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Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Max. End
Load
kN/Lbs
Pipe End
Separation
mm/in
Dimensions
Bolt Size
A
mm/in
B
mm/in
C
mm/in
No.-Size
mm
Max. End
Load
kN/Lbs
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Separation
mm/in
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C
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Nominal
Size
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Pipe
O.D
mm/in
Dimensions
Bolt Size
A
mm/in
B
mm/in
C
mm/in
No.-Size
mm
PREVEN
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N C R TIFI
C
SS
VdS
IO
O
FM
APPROVED
T
ION BOAR
HDPE Transition Coupling
Working
Pressure
PSI/MPa
AT
H307
Pipe
O.D
mm/in
FM
HDPE Coupling
Standard
Rigid Coupling
Nominal
Size
mm/in
APPROVED
H305
1G
L
Light-duty
Flexible Coupling
Nominal
Size
mm/in
D
1NS
;
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Bolt Size
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Size
mm/in
Pipe
O.D
mm/in
A
mm/in
B
mm/in
C
mm/in
No.-Size
mm
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L
FM
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Size
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Working
Pressure
PSI/MPa
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Load
kN/Lbs
Pipe End
Separation
mm/in
ô
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Dimensions
90
Bolt Size
A
mm/in
B
mm/in
C
mm/in
No.-Size
mm
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PREVEN
Dimensions
A
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E
N C R TIFI
C
SS
Pipe End
Separation
mm/in
O
T
PREVEN
SS
O
D
Angle Pad Coupling
Max. End
Load
kN/Lbs
ION BOAR
1GK
Working
Pressure
PSI/MPa
AT
VdS
C
ION BOAR
APPROVED
E
N C R TIFI
AT
FM
IO
Pipe
O.D
mm/in
L
Light-duty
Rigid Coupling
Nominal
Size
mm/in
D
1GS
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
L
mm/in
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Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
A
L1
mm/in
L2
mm/in
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90° Reducing Elbow
FM
FM
APPROVED
APPROVED
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
90S
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
L
mm/in
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O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
L
mm/in
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L
mm/in
D
mm/in
E
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N C R TIFI
C
ION BOAR
VdS
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FM
APPROVED
T
Light-duty 90° Elbow
SS
90° Drain Elbow
Nominal
Size
mm/in
O
90C
L
90° Hydrant Elbow
Dimensions
Nominal
Size
mm/in
D
90C
20
21
Nominal
Size
mm/in
T
PREVEN
SS
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
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mm/in
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APPROVED
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Nominal
Size
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IO
PREVEN
SS
O
D
L
VdS
C
ION BOAR
APPROVED
E
N C R TIFI
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FM
IO
45° Elbow
E
N C R TIFI
C
ION BOAR
22.5° Elbow
120
AT
110
SS
C
Dimensions
L
mm/in
O
E
N C R TIFI
PREVEN
T
IO
ION BOAR
VdS
AT
FM
APPROVED
Working
Pressure
PSI/MPa
L
11.25° Elbow
Pipe
O.D
mm/in
D
105
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Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
L
mm/in
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22
23
130
Nominal
Size
mm/in
PREVEN
SS
D
O
ION BOAR
L
VdS
E
N C R TIFI
C
IO
AT
FM
APPROVED
T
Tee
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
L
mm/in
130C
Reducing tee
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8/)0
ó
8/)09G6/3&%
8/)09G6/3&%
8/)09G6/3&%
8/)0
8/)09G6/3&%
8/)0
8/)0/3&%
8/)09G6/3&%
8/)09G6/3&%
8/)0
8/)09G6
ȊȊ
8/)09G6
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
;;
;;
;;
;;
;;
;;
;;
;;
Nominal
Size
mm/in
Pipe
O.D
mm/in
;;
;;
;;
;;
Dimensions
A
L
mm/in
D
mm/in
E
mm/in
M
mm/in
137
5S,62
8/)0
137
5S,62
8/)0
Working
Pressure
PSI/MPa
A
L
mm/in
D
mm/in
E
mm/in
M
mm/in
;;
;;
137
5S,62
8/)0
;;
;;
137
5S,62
8/)0
FM
APPROVED
130D
Reducing tee
FM
APPROVED
Dimensions
24
25
130R
8/)09G6/3&%
8/)0
ó
8/)09G6/3&%
8/)09G6/3&%
8/)0
8/)09G6/3&%
8/)09G6/3&%
8/)0
8/)0/3&%
8/)09G6/3&%
8/)0
8/)09G6/3&%
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
L
mm/in
Dimensions
L1
mm/in
ȡȡ
óȡóȡ
ȡȡ
ȡȡ
ȊȊ
ȡȡ
óȡóȡ
ȡȡ
ȡȡ
ȊȊ
ȡȡ
ȡȡ
ȡȡ
ȡȡ
ȊȊ
FM
APPROVED
VdS
IO
PREVEN
ó
E
N C R TIFI
C
SS
T
Reducing Tee
O
PREVEN
SS
O
D
L
Reducing Tee
Dimensions
L
mm/in
ION BOAR
130R
C
Working
Pressure
PSI/MPa
AT
VdS
E
N C R TIFI
ION BOAR
APPROVED
IO
AT
FM
T
Light-duty Tee
Pipe
O.D
mm/in
L
Nominal
Size
mm/in
D
130S
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
L1
mm/in
Dimensions
L2
mm/in
ȡ
ȡ
ȡ
ȡó
ȡ
óȡó
ȡ
óȡ
ȡ
óȡô
ȡ
óȡó
ȡ
óȡ
ȡ
ȡ
ȡ
ȡô
ȡ
ȡó
ȡ
ȡ
ȡ
ȡó
ȡ
ȡó
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
ȡ
ȡó
ȡ
ȡó
ȡ
ȡ
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
;ó
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
8/)09G6/3&%
8/)09G6/3&%
8/)0
8/)0
8/)0
8/)09G6/3&%
8/)09G6/3&%
8/)09G6/3&%
8/)0
8/)09G6/3&%
8/)09G6/3&%
8/)0
8/)09G6/3&%
8/)0
8/)0
8/)09G6/3&%
8/)09G6/3&%
8/)09G6/3&%
8/)0
8/)09G6/3&%
8/)09G6/3&%
8/)0
8/)0
8/)0
8/)0
8/)0
8/)0
8/)0
8/)0
8/)09G6/3&%
8/)0
8/)0
8/)0
8/)0
8/)0
8/)0
8/)0
8/)0
8/)0
8/)0
8/)0
26
27
130R
Nominal
Size
mm/in
Reducing Tee
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
PREVEN
SS
D
O
ION BOAR
L
VdS
E
N C R TIFI
C
IO
AT
FM
APPROVED
T
ȡ
ȡ
ȡȁ
ȡ
ȡó
ȡ
ȡó
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
Pipe
O.D
mm/in
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
Working
Pressure
PSI/MPa
Dimensions
L1
mm/in
Dimensions
L2
mm/in
131R
Reducing Tee
with Female Thread
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
L1
mm/in
Dimensions
L2
mm/in
8/)0
ȡ
ȡ
ȡ
ȡ
8/)0/3&%
ȡ
ȡô
ȡ
ȡ
ȊȊ
8/)0/3&%
ȡ
ȡó
ȡ
ȡ
8/)0
8/)0
8/)0/3&%
8/
ȡ
óȡ
ȡ
ȡ
ȡ
óȡô
ȡ
ȡ
8/)0
8/)0
ȡ
óȡ
ȡ
ȡ
8/)0
8/)09G6/3&%
ȡ
óȡô
ȡ
ȡ
8/)0
8/)09G6/3&%
ȡ
óȡó
ȡ
ȡ
8/)0
8/)0
8/)09G6/3&%
ȡ
óȡ
ȡ
ȡ
8/)0
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡô
ȡ
ȡ
8/)0
ȡ
ȡó
ȡ
ȡ
8/)0
8/)0
ȡ
ȡ
ȡ
ȡ
8/)0
8/)09G6/3&%
ȡ
ȡó
ȡ
ȡ
8/)0
8/)0
ȡ
ȡó
ȡ
ȡ
8/)0
8/)09G6/3&%
ȡ
ȡ
ȡ
ȡ
8/)0
8/)0
ȡ
ȡó
ȡ
ȡ
8/)0
8/)0
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡ
ȡ
ȡ
)0
ȡ
ȡó
ȡ
ȡ
)0
ȡ
ȡ
ȡ
ȡ
)0
8/)09G6/3&%
FM
APPROVED
8/)09G6/3&%
8/)0
8/)0
8/)09G6/3&%
8/)0
8/)0
8/)09G6/3&%
8/)0
8/)0
8/)09G6
8/)09G6
8/)0
8/)09G6
8/)09G6
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
28
29
Dimensions
L1
mm/in
Dimensions
L2
mm/in
180
Cross
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
L
mm/in
8/)09G6/3&%
ȡ
ȡ
8/)0
ô
ȡ
ȡô
ȡ
ȡ
8/)0
ó
8/)09G6/3&%
ȡ
ȡó
ȡ
ȡ
8/)0
8/)09G6/3&%
ȡ
ȡ
ȡ
ȡ
8/)0
ó
8/)0
ȡ
ȡ
ȡ
ȡ
8/)0
ó
8/)09G6/3&%
ȡ
ȡ
ȡ
ȡ
8/)0
8/)09G6/3&%
ȡ
ȡó
ȡ
ȡ
8/)0
8/)0
ȡ
ȡ
ȡ
ȡ
8/)0
8/)09G6/3&%
ȡ
ȡ
ȡ
ȡ
8/)0
8/)09G6/3&%
ȡ
ȡô
ȡ
ȡ
8/)0
8/)0
ȡ
ȡó
ȡ
ȡ
8/)0
8/)0
ȡ
ȡ
ȡ
ȡ
8/)0
8/)0/3&%
ȡ
ȡó
ȡ
ȡ
8/)0
8/)09G6/3&%
ȡ
ȡ
ȡ
ȡ
8/)0
8/)09G6/3&%
ȁȡ
ȡ
ȡ
ȡ
8/)0
8/)09G6
ȁȡ
ȡó
ȡ
ȡ
8/)0
8/)09G6
ȁȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡô
ȡ
ȡ
8/)0
ȡ
ȡó
ȡ
ȡ
8/)0
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡó
ȡ
ȡ
8/)0
180R
Reducing Cross
E
N C R TIFI
C
SS
VdS
O
FM
APPROVED
IO
PREVEN
T
ȡ
ȡ
ION BOAR
APPROVED
Working
Pressure
PSI/MPa
AT
FM
Pipe
O.D
mm/in
L
Reducing Tee
with Female Thread
Nominal
Size
mm/in
D
131R
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
ȡ
óȡ
ȡ
ȡ
ȊȊ
ȡ
ȡ
ȡ
ȡ
8/)0
Dimensions
L1
mm/in
Dimensions
L2
mm/in
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡ
8/)0
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡȁ
ȡ
ȡ
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡ
ȡ
FM
APPROVED
8/)0
8/)0
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡó
ȡ
ȡ
8/)0
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡ
ȡ
ȡ
8/)0
30
31
Nominal
Size
mm/in
U-Bolt
Mechanical Tee
FM
APPROVED
VdS
Dimensions
L2
mm/in
3G
Mechanical Tee
Grooved Outlet
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Hole Dia
mm/in
+1.6,0/+0.063,0
Dimensions
A
mm/in
B
mm/in
C
mm/in
D
mm/in
Bolt Size
mm/in
ȡ
óȡ
ȡ
ȡ
ȊȊ
ȡ
ȡô
ȡ
ȡ
ȡ
ȡô
ȡ
ȡ
ȡ
0;
8/)09G6
ȊȊ
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȊȊ
ȡ
óȡ
ȡ
ȡ
ȡ
0;
ȊȊ
ȡ
ȡ
ȊȊ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
8/)0
ȡ
óȡô
ȡ
ȡô
ȡ
ȡ
ȡ
óȡó
ȡ
ȡ
ȡ
0;
8/)0
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
8/)0
ȡ
ȡô
ȡ
ȡó
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)09G6
ȊȊ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȊȊ
ȡ
ȡô
ȡ
ȡ
ȡ
0;
8/)09G6
PREVEN
IO
E
N C R TIFI
C
SS
VdS
O
FM
APPROVED
T
ȡ
ȡó
ȡ
ȡ
ION BOAR
3L
Dimensions
L1
mm/in
AT
FM
APPROVED
Working
Pressure
PSI/MPa
L
Reducing Cross
with Female Thread
Pipe
O.D
mm/in
D
181
ȡ
ȡô
ȡ
ȡ
ȊȊ
ȡ
ȡó
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)09G6
ȊȊ
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡó
;
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȊȊ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡô
;
ȡ
ȡ
0;
8/)09G6
ȊȊ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)09G6
ȊȊ
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
Nominal
Size
mm/in
Hole Dia
mm/in
+1.6,0/+0.063,0
Working
Pressure
PSI/MPa
;
ô;
;
ô;
Dimensions
U Bolt Size
mm/in
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
9G6/3&%
8/)0
9G6/3&%
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
8/)0
ȡ
ȡô
ȡ
ȡ
ȡ
0;
8/)0
;
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
;
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
;
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
9G6/3&%
;
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
9G6/3&%
;
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
9G6/3&%
;
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȊȊ
;
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
;
ȊȊ
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
;
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
;
ó;
;
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0/3&%
;
ó;
;
0;
8/)0
ȡ
ó2'ȡ
ȡ
ȡ
ȡ
0;
8/)0/3&%
;
;
;
0;
8/)09G6
ȡ
ó2'ȡ
ȡ
ȡ
ȡ
0;
8/)0/3&%
;
;
;
0;
8/)09G6
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)09G6
;
;
;
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
;
;
;
8/)09G6
A
mm/in
B
mm/in
C
mm/in
;
0;
;
0;
;
ô;
;
ó;
;
ó;
;
ó;
;
;
;
;
;
;
;
;
;
ó;
32
33
3G
FM
APPROVED
PREVEN
C
SS
O
L
Light-duty
Mechanical Tee
Grooved Outlet
E
N C R TIFI
D
3GS
IO
ION BOAR
VdS
AT
FM
APPROVED
T
Mechanical Tee
Grooved Outlet
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Hole Dia
mm/in
+1.6,0/+0.063,0
Dimensions
A
mm/in
B
mm/in
C
mm/in
D
mm/in
Bolt Size
mm/in
3GS
Light-duty
Mechanical Tee
Grooved Outlet
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Hole Dia
mm/in
+1.6,0/+0.063,0
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
Dimensions
Bolt Size
mm/in
ȡ
0;
8/)0
ȡ
0;
8/)0
8/)0
A
mm/in
B
mm/in
C
mm/in
D
mm/in
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
9G6/3&%
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
9G6/3&%
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
9G6/3&%
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
9G6/3&%
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
9G6/3&%
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
8/)0
9G6/3&%
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
9G6/3&%
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȊȊ
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȊȊ
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȊȊ
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡô
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Hole Dia
mm/in
+1.6,0/+0.063,0
ȡ
ȡ
ȡ
ȡ
ȡ
ȡô
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡô
Dimensions
Bolt Size
mm/in
FM
APPROVED
A
mm/in
B
mm/in
C
mm/in
D
mm/in
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
34
35
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
Bolt Size
mm/in
3J
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Hole Dia
mm/in
+1.6,0/+0.063,0
A
mm/in
B
mm/in
C
mm/in
D
mm/in
0;
ȊȊ
ȡ
ȡ
ȡ
ȡ
0;
9G6
ȡ
ȡ
ȡ
ȡ
0;
9G6
ȡ
ȡ
ȡ
ȡ
0;
9G6
ȡ
ȡô
ȡ
ȡ
;
;
0;
ȊȊ
ȡ
ȡó
ȡ
ȡ
;
;
0;
9G6
ȡ
ȡ
ȡ
ȡ
;
;
;
;
0;
9G6
ȡ
ȡ
;
;
;
;
0;
9G6
;
;
;
;
0;
;
;
;
;
;
;
;
;
;
;
;
;
ȡ
ȡ
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
ȡ
ȡõ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡô
ȡ
ȡ
ȡ
ȡó
Dimensions
ȡ
0;
8/)0
ȡ
0;
8/)0
ȡ
0;
8/)0
ȡ
0;
8/)0
ȡ
0;
8/)0
ȡ
0;
8/)0
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)09G6
ȊȊ
ȡ
ȡõ
ȡ
ȡ
ȡ
0;
8/)09G6
0;
9G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
0;
9G6
ȡ
ȡô
ȡ
ȡ
ȡ
0;
8/)09G6
0;
9G6
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
0;
ȊȊ
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
0;
8/)09G6
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
9G6/3&%
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
9G6/3&%
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
óȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
óȡõ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
óȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
óȡô
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
óȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡõ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡô
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡô
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
9G6/3&%
ȡõ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
9G6/3&%
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
9G6/3&%
ȡ
ȡô
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡô
ȡ
ȡ
ȡ
0;
8/)0
APPROVED
T
IO
PREVEN
VdS
E
N C R TIFI
C
D
mm/in
C
mm/in
FM
A
mm/in
Bolt Size
mm/in
B
mm/in
Mechanical Tee
Threaded Outlet
SS
SS
D
O
;
;
Dimensions
O
T
C
Hole Dia
mm/in
+1.6,0/+0.063,0
ION BOAR
PREVEN
E
N C R TIFI
Working
Pressure
PSI/MPa
AT
IO
ION BOAR
L
APPROVED
VdS
AT
FM
Pipe
O.D
mm/in
L
Mechanical Tee
Threaded Outlet
Nominal
Size
mm/in
D
3J
36
37
3J
E
N C R TIFI
C
D
O
SS
PREVEN
IO
ION BOAR
L
VdS
AT
FM
APPROVED
T
Mechanical Tee
Threaded Outlet
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Hole Dia
mm/in
+1.6,0/+0.063,0
ȡ
ȡó
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
ȡ
ȡõ
Dimensions
A
mm/in
Bolt Size
mm/in
3JS
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Hole Dia
mm/in
+1.6,0/+0.063,0
ȡ
ȡó
ȡ
ȡ
ȡ
ȡõ
ȡ
ȡ
B
mm/in
C
mm/in
D
mm/in
ȡ
0;
8/)0
ȡ
0;
8/)0
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡô
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡô
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
Light-duty
Mechanical Tee
Threaded Outlet
Dimensions
D
mm/in
Bolt Size
mm/in
A
mm/in
B
mm/in
C
mm/in
ȡ
0;
8/)0
ȡ
0;
8/)0
ȡ
0;
8/)0
ȡ
0;
8/)0
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡõ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡô
ȡ
ȡ
ȡ
0;
8/)0
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
8/)0/3&%
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
8/)0/3&%
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
0;
8/)0/3&%
ȡ
ȡô
ȡ
ȡ
ȡ
0;
8/)0
FM
APPROVED
ȡ
ȡô
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
9G6/3&%
ȡ
ȡõ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
9G6/3&%
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
9G6/3&%
ȡ
ȡô
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡô
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
9G6/3&%
ȡ
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
9G6/3&%
ȡ
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
9G6/3&%
ȡ
ȡó
ȡ
ȡ
ȡ
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)09G6
ȡ
ȡô
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
38
39
3JS
Light-duty
Mechanical Tee
Threaded Outlet
FM
APPROVED
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Hole Dia
mm/in
+1.6,0/+0.063,0
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡô
Dimensions
Bolt Size
mm/in
4G
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Hole Dia
mm/in
+1.6,0/+0.063,0
A
mm/in
B
mm/in
C
mm/in
D
mm/in
ȡ
0;
8/)0
ȡ
óȡô
ȡ
ȡ
ȡ
0;
8/)0
ȡ
óȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
óȡô
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡô
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
ȡõ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
ȡô
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡô
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
Dimensions
Bolt Size
mm/in
A
mm/in
B
mm/in
C
mm/in
D
mm/in
ȡ
0;
ȡ
0;
ȡ
0;
ȡ
0;
ȡ
0;
ȡ
0;
ȡ
0;
ȡ
0;
;
0;
;
0;
;
;
0;
;
0;
;
0;
ȡ
ȡ
;
0;
8/)0
ȡ
ȡó
ȡ
ȡ
;
0;
8/)0
ȡ
ȡ
ȡ
ȡ
;
0;
8/)0
ȡ
ȡ
ȡ
ȡ
;
0;
8/)0
ȡ
ȡó
ȡ
ȡ
;
0;
8/)0
ȡ
ȡ
ȡ
ȡ
;
0;
8/)0
ȡ
ȡ
ȡ
ȡ
;
0;
8/)0
ȡ
ȡó
ȡ
ȡ
;
0;
8/)0
ȡ
ȡ
ȡ
ȡ
;
0;
ȊȊ
ȡ
ȡ
ȡ
ȡ
;
0;
ȡ
ȡô
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡó
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
ȡ
ȡ
ȡ
ȡ
ȡ
0;
8/)0
Mechanical Cross
Grooved Outlet
ȡ
0;
40
41
4GS
Light-duty
Mechanical Cross
Grooved Outlet
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Hole Dia
mm/in
+1.6,0/+0.063,0
ȡ
ȡ
ȡ
ȡ
ȡ
ȡô
ȡ
ȡ
Dimensions
A
mm/in
Bolt Size
mm/in
4J
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Hole Dia
mm/in
+1.6,0/+0.063,0
B
mm/in
C
mm/in
D
mm/in
ȡ
0;
ȡ
óȡõ
ȡ
ȡ
ȡ
0;
ȡ
óȡ
ȡ
ȡ
Mechanical Cross
Threaded Outlet
Dimensions
Bolt Size
mm/in
A
mm/in
B
mm/in
C
mm/in
D
mm/in
ȡ
0;
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
óȡô
ȡ
ȡ
ȡ
0;
ȡ
ȡô
ȡ
ȡ
ȡ
0;
ȡ
óȡó
ȡ
ȡ
;
0;
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȡ
óȡõ
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
óȡ
ȡ
ȡ
;
0;
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȡ
óȡô
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
;
ȡõ
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡô
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡô
ȡ
ȡ
ȡ
0;
ȡ
ȡô
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
;
0;
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȡ
ȡõ
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡô
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
;?
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
;
0;
ȡ
ȡô
ȡ
ȡ
;
0;
ȡ
ȡó
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
;
0;
ȡ
ȡó
ȡ
ȡ
;
0;
ȡ
0;
ȡ
ȡô
ȡ
ȡ
42
43
4J
Mechanical Cross
Threaded Outlet
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Hole Dia
mm/in
+1.6,0/+0.063,0
ȡ
ȡó
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
Dimensions
A
mm/in
Bolt Size
mm/in
4JS
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Hole Dia
mm/in
+1.6,0/+0.063,0
ȡ
ȡó
ȡ
ȡ
ȡ
ȡõ
ȡ
ȡ
B
mm/in
C
mm/in
D
mm/in
ȡ
0;
ȡ
0;
ȡ
0;
ȡ
ȡ
ȡ
ȡ
;
0;
ȡ
ȡô
ȡ
ȡ
Light-duty
Mechanical Cross
Threaded Outlet
Dimensionsmm/in
Bolt Size
mm/in
A
mm/in
B
mm/in
C
mm/in
D
mm/in
ȡ
0;
ȡ
0;
ȡ
0;
ȡ
0;
ȡ
0;
ȡ
ȡõ
ȡ
ȡ
;
0;
ȡ
ȡó
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
;
0;
ȡ
ȡõ
ȡ
ȡ
ȡ
0;
ȡ
ȡô
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
;
0;
ȡ
ȡô
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
;
0;
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
;
0;
ȡ
ȡô
ȡ
ȡ
ȡ
0;
ȡ
ȡô
ȡ
ȡ
;
0;
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
;
0;
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
;
0;
ȡ
ȡõ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
;
0;
ȡ
ȡô
ȡ
ȡ
ȡ
0;
ȡ
ȡô
ȡ
ȡ
;
0;
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
0;
ȡ
ȡ
ȡ
ȡ
;
0;
ȡ
ȡó
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
;
0;
ȡ
ȡô
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
;
0;
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
;
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
44
45
4JS
Light-duty
Mechanical Cross
Threaded Outlet
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Hole Dia
mm/in
+1.6,0/+0.063,0
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡô
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
Dimensionsmm/in
Bolt Size
mm/in
A
mm/in
B
mm/in
C
mm/in
D
mm/in
ȡ
0;
ȡ
0;
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȡ
ȡõ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡô
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡô
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡô
ȡ
ȡ
ȡ
0;
ȡ
ȡó
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
ȡ
ȡ
ȡ
ȡ
0;
ȡ
0;
230
Grooved Eccentric
Reducer
FM
APPROVED
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
L
mm/in
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
;
;
;
;
8/)0
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
46
47
230N
Grooved Eccentric
Reducer with
Female Thread
FM
APPROVED
ȊȊ
;
;
ȊȊ
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
L
mm/in
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
FM
APPROVED
T
;
;
;
;
Grooved Concentric
Reducer
VdS
IO
PREVEN
;
;
240
E
N C R TIFI
C
SS
ION BOAR
APPROVED
Dimensions
L
mm/in
AT
FM
Working
Pressure
PSI/MPa
O
Grooved Eccentric
Reducer
Pipe
O.D
mm/in
L
Nominal
Size
mm/in
D
230
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
L
mm/in
;
;
;
ó;
;
ó;ô
;
;
;
;ô
;
;ó
;
ó;
;
ó;ô
;
ó;ó
;
ó;
;
ó;
;
ó;ô
;
ó;ó
;
ó;
;
;
;
;ô
;
;ó
;
;
;
;ó
;
;ó
;
;
;
;ó
;
;ó
;
;
;
;ô
;
;ó
;
;
;
;ó
;
;ó
;
;
;
;
;
;
;
;
;
;ó
;
;
;
;
;
;ó
;
;
;
;
;
;
;
;
;
;
;
;
;
;
[
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
8/)09G6/3&%
8/)09G6/3&%
8/)09G6/3&%
8/)09G6/3&%
8/)09G6/3&%
8/)09G6/3&%
8/)0
8/)0
8/)0
8/)0
ȊȊ
8/)09G6/3&%
8/)09G6/3&%
8/)09G6/3&%
8/)09G6
8/)0
8/)09G6
8/)09G6/3&%
8/)0
8/)09G6/3&%
8/)0
8/)0
8/)0
8/)0
8/)09G6
8/)09G6/3&%
8/)09G6/3&%
8/)0
8/)09G6/3&%
8/)09G6/3&%
8/)0
8/)0
8/)0
8/)09G6
8/)09G6
8/)09G6/3&%
8/)0
8/)0
48
49
Nominal
Size
mm/in
Grooved Concentric
Reducer
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
L
mm/in
;
;
8/)0
;
;
;
;
ȊȊ
;
;
;
;
8/)0
;
;
;
;
ȊȊ
;
;ó
;
;
8/)0
;
;
;
;
ȊȊ
;
;
;
;
8/)0
;
;
;
;
ȊȊ
;
;
;
;
8/)0
;
;
;
;
ȊȊ
;
;
;
;
8/)0
;
;
;
;
ȊȊ
;
;
;
;
8/)0
;
;
;
;
ȊȊ
;
;
;
;
8/)0
;
;
;
;
ȊȊ
;
;ó
;
;
8/)0
;
;
;
;
ȊȊ
;
;
;
;
8/)0/3&%
;
;
;
;
ȊȊ
;
;
;
;
8/)0/3&%
;
;
;
;
ȊȊ
APPROVED
VdS
IO
PREVEN
FM
T
;
;
E
N C R TIFI
C
SS
SS
D
O
240
O
T
C
ION BOAR
PREVEN
E
N C R TIFI
Dimensions
L
mm/in
AT
IO
ION BOAR
L
APPROVED
VdS
AT
FM
Working
Pressure
PSI/MPa
L
Grooved Concentric
Reducer
Pipe
O.D
mm/in
D
240
;
;
;
;
8/)0/3&%
;
;
;
;
;
;
ȊȊ
;
;
ȊȊ
;
;
;
;
ȊȊ
ȊȊ
;
;
;
;
8/)09G6
;
;ó
;
;
;
;
;
;
8/)0
;
;
;
;
ȊȊ
;
;ó
;
;
8/)09G6
;
;
;
;
ȊȊ
;
;
;
;
8/)09G6
;
;
;
;
;
;
ȊȊ
;
;
8/)09G6/3&%
;
;
;
;
ȊȊ
;
;
;
;
8/)09G6/3&%
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;ó
;
;
8/)0
;
;
;
;
8/)09G6/3&%
;
;
;
;
8/)0
;
;
;
;
8/)09G6/3&%
;
;
;
;
8/)09G6/3&%
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)09G6/3&%
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)09G6
;
;
;
;
8/)09G6
;
;
;
;
8/)09G6
;
;
;
;
8/)09G6
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
;
;
;
;
ȊȊ
50
51
Working
Pressure
PSI/MPa
Dimensions
L
mm/in
;
;
;
;
ȊȊ
;
;ó
;
;
8/)0
8/)09G6/3&%
;
;
;
;
ȊȊ
8/)09G6/3&%
;
;
;
;
8/)09G6
8/)09G6/3&%
;
;ô
;
;
8/)09G6
8/)0
;
;ó
;
;
8/)09G6
8/)0
;
;
;
;
8/)09G6
8/)0
;
;ó
;
;
8/)09G6
9G6
8/)09G6/3&%
8/)0
Grooved Concentric
Reducer with
Female Thread
;
;
8/)09G6
;
;
8/)09G6/3&%
8/)09G6
;
;
;
;
8/)0
8/)09G6
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;ô
;
;
8/)0
;
;ó
;
;
8/)0
;
;
;
;
8/)0
;
;ó
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;ô
;
;
8/)0
;
;ó
;
;
8/)0
;
;
;
;
8/)0
;
;ó
;
;
8/)0
8/)0
;
;
;
;
8/)0/3&%
8/)0
;
;
;
;
8/)0
8/)09G6
;
;
;
;
8/)0
8/)09G6
;
;
;
;
8/)09G6
8/)09G6
;
;
;
;
8/)0
8/)09G6
;
;ó
;
;
8/)0
8/)09G6/3&%
;
;
;
;
8/)09G6
8/)09G6/3&%
;
;ó
;
;
8/)0
8/)0
;
;ó
;
;
8/)09G6
8/)09G6/3&%
;
;
;
;
8/)09G6/3&%
8/)09G6/3&%
;
;
;
;
8/)0
8/)09G6/3&%
)09G6/3&%
8/)09G6/3&%
9G6
8/)09G6
8/)09G6
9G6
8/)09G6
8/)09G6/3&%
8/)0
8/)09G6/3&%
8/)0
8/)0
8/)0
8/)0
8/)0
FM
APPROVED
T
;
;
;
;
8/)09G6
VdS
IO
PREVEN
SS
D
O
Pipe
O.D
mm/in
E
N C R TIFI
C
ION BOAR
240N
Nominal
Size
mm/in
SS
C
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
;
Dimensions
L
mm/in
O
E
N C R TIFI
;
;
;
;
;
;
;
;ô
;
;ó
;
ó;
;
ó;ô
;
ó;ó
;
ó;
;
ó;
;
ó;
;
ó;
;
ó;ô
;
ó;ó
;
ó;
;
;
;
;
;
;
;
;ô
;
;ó
;
;
;
;ó
;
;ó
;
;
;
;ô
;
;ó
;
;
;
;ó
;
;
;
;
;
;
;
;
;
;ô
;
;ó
;
;
;
;ó
;
;ó
;
;
;
;ó
Working
Pressure
PSI/MPa
AT
PREVEN
IO
ION BOAR
L
VdS
AT
FM
APPROVED
T
Grooved Concentric
Reducer with
Female Thread
Pipe
O.D
mm/in
L
Nominal
Size
mm/in
D
240N
52
53
240W
Nominal
Size
mm/in
Grooved Concentric
Reducer with
Male Thread
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
L
mm/in
300
Cap with Concentric Hole
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
;
;
;
;
8/)0
FM
APPROVED
FM
APPROVED
300
E
N C R TIFI
C
D
O
SS
PREVEN
IO
ION BOAR
L
VdS
AT
FM
APPROVED
T
Cap
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
L
mm/in
ô
ó
ó
ó
8/)09G6/3&%
8/)09G6/3&%
8/)09G6/3&%
8/)09G6/3&%
8/)0
8/)09G6/3&%
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
L
mm/in
;
;
;
;
;
;
;
óȡ
ȡ
óȡó
;
óȡ
;
;
;
;
;
;ó
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
;
;ó
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
;
;
ȡ
ȡ
;
;
;
;
;
;
;
;
;
;
ȡ
ȡ
;
;
;
;
;
;
;
;
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
;
;
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
[
;
ȡ
ȡ
;
;
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
L
mm/in
;
;
;
;
;
;
;
;ó
ȡ
ȡ
;
;
;
;ó
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
ȡ
ȡó
ȡ
ȡó
ȡ
ȡ
ȡ
ȡó
ȡ
ȡ
;
;
;
;
;
;
;
;
ȡ
ȡ
;
;
;
;
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
ȡ
;
;
ȡ
ȡ
ȡ
ȡ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
8/)0
ȊȊ
8/)0
8/)0
8/)0
8/)0
8/)0
8/)0
8/)0
ȊȊ
8/)0
8/)0
8/)0
ȊȊ
8/)0
ȊȊ
ȊȊ
ȊȊ
8/)09G6/3&%
8/)0
8/)09G6/3&%
8/)0
300PX
Cap with Eccentric Hole
8/)09G6/3&%
8/)0
8/)0
8/)0/3&%
8/)09G6/3&%
8/)0
FM
APPROVED
8/)09G6/3&%
8/)09G6/3&%
8/)09G6
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
8/)0
8/)0
ȊȊ
8/)0
8/)0
8/)0
8/)0
8/)0
8/)0
8/)0
8/)0
8/)0
54
55
321
PN16
Grooved Flange
FM
APPROVED
VdS
321H
PN25
Grooved Flange
FM
APPROVED
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
ó
Dimensions
Bolt/Nut
No.-SIZE
mm
321A
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
A
mm/in
B
mm/in
C
mm/in
D
mm/in
E
mm/in
0;
0
8/)09G6/3&%
0;
0
8/)09G6/3&%
ó
0;
0
8/)09G6/3&%
0;
0
8/)09G6/3&%
0;
0
0;
0;
C
mm/in
D
mm/in
E
mm/in
0;
8/)0
0;
8/)0
0;
8/)0
0;
8/)0
8/)0
0;
8/)0
0
8/)09G6/3&%
0;
8/)0
0
8/)0
;
0;
8/)0
0;
0
8/)0/3&%
;
0;
8/)0
0;
0
8/)0
;
0;
8/)0
0;
0
8/)0/3&%
ȊȊ
ȊȊ
0;
0
8/)0/3&%
ȊȊ
ȊȊ
;
0;
0
8/)09G6/3&%
ȊȊ
ȊȊ
;
0;
0
8/)09G6
ȊȊ
ȊȊ
;
0;
0
8/)0
ȊȊ
ȊȊ
ȊȊ
0
ȊȊ
ȊȊ
0
ȊȊ
ȊȊ
0
ȊȊ
321E
BS.TABLE‘E’
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
A
mm/in
B
mm/in
C
mm/in
D
mm/in
E
mm/in
0;
0
ȊȊ
0;
0
ȊȊ
ȊȊ
0
ȊȊ
ȊȊ
0
ȊȊ
Dimensions
Grooved Flange
FM
Working
Pressure
PSI/MPa
B
mm/in
Pipe
O.D
mm/in
Bolt/Nut
No.-SIZE
mm
A
mm/in
ANSI 125/150
Nominal
Size
mm/in
Dimensions
Bolt/Nut
No.-SIZE
mm
APPROVED
Grooved Flange
Dimensions
Bolt/Nut
No.-SIZE
mm
0;
0
ȊȊ
0;
0
ȊȊ
;
0
ȊȊ
ȊȊ
ȊȊ
A
mm/in
B
mm/in
C
mm/in
D
mm/in
E
mm/in
0;
0
8/)0
0;
0
8/)0
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
56
57
321G
PN16
O
SS
PREVEN
C
D
L
VdS
E
N C R TIFI
ION BOAR
FM
APPROVED
IO
AT
T
Adaptor Flange
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
ô
ó
Dimensions
Bolt/Nut
L
mm/in
X
mm/in
Y
mm/in
Z
mm/in
No.-SIZE
mm
0
8/)09G6/3&%
0
8/)09G6/3&%
0
0
0
8/)0
0
8/)09G6/3&%
0
8/)09G6/3&%
0
8/)0
0
8/)09G6/3&%
0
8/)0
0
8/)09G6/3&%
0
8/)0
0
8/)0
0
8/)0/3&%
0
8/)09G6/3&%
0
8/)09G6/3&%
0
8/)09G6
0
8/)09G6
0
8/)0
0
8/)0
321GA
ANSI 125/150
PN25
Adaptor Flange
FM
APPROVED
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
Working
Pressure
PSI/MPa
Dimensions
L
mm/in
X
mm/in
Bolt/Nut
Y
mm/in
Z
mm/in
No.-SIZE
mm
8/)0
8/)0
8/)09G6/3&%
8/)0
8/)09G6/3&%
8/)0
8/)0
8/)0
8/)0
Class 125/150
FM
ȊȊ
321GL
PN10
Adaptor Flange
321GH
Pipe
O.D
mm/in
ó
Adaptor Flange
APPROVED
0
Nominal
Size
mm/in
Bolt/Nut
L
mm/in
X
mm/in
Y
mm/in
Z
mm/in
No.-SIZE
mm
0
8/)0
0
8/)0
0
8/)0
0
8/)0
0
8/)0
FM
APPROVED
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
Bolt/Nut
No.-SIZE
mm
L
mm/in
X
mm/in
Y
mm/in
Z
mm/in
0
8/)0
0
8/)0
0
8/)0
58
59
321G
BS.TABLE ‘E’
Adaptor Flange
FM
APPROVED
321GJ
JIS 10K
Adaptor Flange
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
Dimensions
Gasket Data
Bolt/Nut
L
mm/in
X
mm/in
Y
mm/in
Z
mm/in
No.-SIZE
mm
0
ȊȊ
0
ȊȊ
0
)0
0
)0
0
ȊȊ
0
ȊȊ
ȊȊ
ȊȊ
ȊȊ
ȊȊ
Nominal
Size
mm/in
Pipe
O.D
mm/in
Working
Pressure
PSI/MPa
ó
Dimensions
Name
Temperature
Color Mark
-34~+110ņ
(-30~+230ŃF)
Recommended for hot water
temperature range plus a variety
of dilute acids,oil-free air and many
accordance with ANSI/NSF 61or
cold+86ŃF(+30Ń)and hot
+180ŃF(+82ņ) potable water
service.Not recommended for
petroleum service.
Black Green
Strip
Orange Strip
White
Range
Bolt/Nut
No.-SIZE
mm
Gasket
L
mm/in
X
mm/in
Y
mm/in
Z
mm/in
0
ȊȊ
0
ȊȊ
0
ȊȊ
0
ȊȊ
0
ȊȊ
E
EPDM
D
NBR
-29~+82ņ
(-20~+180ŃF)
Recommended for petroleum
productsLjair with oil
vapors,vegetable and mineral oils
range.Not recommended for hot
water services.
S
Silicone
-40~+177ņ
(-40~+350ŃF)
Recommended for high
temperature dry air and some high
temperature chemical products.
60
61
ANSI Heavy Hex Nut
ANSI Oval Neck Track Bolt
1. Material: SAE J995 2.
2.Thread: ANSI B 1.1-1982, class 2B.
3.Surface Treatment: Zinc electroplated per ASTM B633
CLASS FE/ZN5 TYPE Ʊ
̂m per class SC1.
F
1.Material: SAE J429 5.
2.Thread: UNC thread per ANSI B 1.1 Class 2A.
3.Surface Treatment: Silver chromate electroplated per ASTM B633
CLASS FE/ZN5 TYPE Ʊ
̂m per class SC1.
G
3/8-16UNC
d
A
C
F
H
L
3/8-16UNC
19
13.9
9.50
6.0
55/70
H
d
Min
Max
Min
Max
Min
Max
16.99
17.47
19.38
20.17
8.66
9.57
1/2-13UNC
21.59
22.22
24.61
25.65
11.78
12.80
5/8-11UNC
26.19
26.97
29.85
31.16
14.90
16.02
3/4-10UNC
30.78
31.75
35.10
36.65
18.03
19.25
7/8-9UNC
35.41
36.53
40.36
42.16
21.16
22.48
Metric Heavy Hex Nut
1/2-13UNC
22.5
16
12.70
8.0
70/75
5/8-11UNC
27.4
19.8
15.90
10.0
80/85/105
3/4-10UNC
32.5
26.2
19.05
12.0
115/120
7/8-9UNC
37.7
28.8
22.20
14.0
125/140
Metric Oval Neck Track Bolt
1.Material: ISO 898-2:1992 \ GB/T3098.2-2000 Class 8.
2.Thread: ISO 261, tolerance 6h for M10& M12, 7h for M16 and above.
3.Surface Treatment: Zinc Electroplated followed by a yellow chromate
dip per ISO 2081 FE/ZN5LjISO4520 CLASS 1A.
F
G
H
d
Min
Max
Min
Min
Max
M10
15.73
16.0
17.7
8.0
8.4
M12
21.16
22.0
23.9
9.34
10.0
M16
23.16
24.0
26.17
14.1
15.9
M20
29.16
30.0
32.95
16.9
19.0
M22
33.0
34.0
37.29
18.1
20.2
Hexagon Flange Nut
Dimension according to DIN6923.
S
1.Material: ISO 898-1:1992 \ GB/T3098.1-2000 Class 8.8.
2.Thread: ISO metric thread per ISO 261, tolerance 6h.
3.Surface Treatment: Yellow chromate electroplated per ISO 2081 FE/ZN5Lj
ISO4520 CLASS 1A.
D
h
d
Min
Max
Max
Min
M8
12.3
13
17.9
7.6
Max
8
M10
14.73
15.0
21.8
9.64
10
M12
17.73
18.0
26.0
11.57
12.0
d
A
C
F
H
L
M10
18.5
13.5
9.5
5
50/57/63/70/89
M12
23.5
17.5
12.3
8
70/76/82/89/108
M16
29.5
20.5
15.7
10
85/89/95/108
M20
38
27
18.3
12.5
110/115
M22
42.2
31
21.4
14
125/140/150
62
63
Hole Diameter of pipe
Roll Groove Dimensions
Spmm!Hsppwjoh!Nbdijof
Ipmf.dvuujoh!Nbdijof
Run Nominal Sine Outlet Nominal
mm/in
Size mm/in
ô
ó
Hole Dia.
+3.2,0+0.13,0
mm/in
$
óȑ
ô
$
ô
ó
ô
ó
ó
$
Hole Dia.
+3.2,0+0.13,0
mm/in
Run Nominal Size
mm/in
$
$
$
ô
$
$
ô
ó
$
$
$
$
$
ô
$
Nominal
Size
mm/in
ó
ó
ó
$
ó
$
$
$
$
The outside surface of the pie within 16mm from the hole must be clean and smooth.
ô
ó
Pipe OD
Hole Dia.
+3.2,0+0.13,0
mm/in
$
$
Outlet Nominal
Size
mm/in
ó
Outlet Nominal
Size
mm/in
$
Run Nominal
Size
mm/in
$
$
$
$
ó
$
$
$
Gasket seat A
±0.76/±0.03
mm/in
Groove Width B
±0.76/±0.03
mm/in
ó
ó
Groove Dia C
Groove Depth
D(ref)
mm/in
MaxAllow Flare
Dia F
mm/in
Min.Allow wall
mm/in
$
$
$
mm/in
mm/in
mm/in
mm/in
64
65
Pressure Ratings and End Loads for Mech Couplings on Steel Pipe
2H!Sjhje
2HT!M0Evuz!Sjhje!
Pressure Ratings and End Loads for Mech Couplings on Steel Pipe
2O!Sfevdjoh
2O!Gmfyjcmf
1G
1GS
1NR
Roll Grooved
Roll Grooved
Roll Grooved
Nom.
Size
Pipe
O.D
Pipe
Max.Work Press.
Max.End Load
Max.Work Press.
Max.End Load
Max.Work Press.
Max.End Load
DN/in
mm
(Sch)
mm
Bar/Psi
kN/Lbs
Bar/Psi
kN/Lbs
Bar/Psi
kN/Lbs
40
3.38
35/500
3.0/680
--ā
--ā
20/300
1.8/410
25
33.7
32
40
50
65
65
80
300
--ā
--ā
20/300
1.8/410
40
3.56
35/500
4.8/1080
--ā
--ā
20/300
2.9/650
76.1
1NH
321
Roll Grooved
Roll Grooved
Wall
Max.Work Press.
Max.End Load
Max.Work Press.
Max.End Load
Max.Work Press.
Max.End Load
DN/in
mm
(Sch)
mm
Bar/Psi
kN/Lbs
Bar/Psi
kN/Lbs
Bar/Psi
kN/Lbs
40
3.38
35/500
3.0/680
--ā
--ā
--ā
--ā
25
33.7
10
2.77
35/500
3.0/680
--ā
--ā
--ā
--ā
40
3.56
20/300
2.9/650
--ā
--ā
--ā
--ā
42.4
2.77
35/500
4.8/1080
--ā
--ā
20/300
2.9/650
10
2.77
20/300
2.9/650
--ā
--ā
--ā
--ā
40
3.68
35/500
6.3/1420
--ā
--ā
20/300
3.8/850
40
3.56
20/300
3.8/850
--ā
--ā
16/225
3.2/710
10
2.77
35/500
6.3/1420
--ā
--ā
20/300
3.8/850
10
2.77
20/300
3.8/850
--ā
--ā
16/225
3.2/710
40
3.91
20/300
5.9/1320
--ā
--ā
20/300
5.9/1330
40
3.91
20/300
5.9/1320
35/500
9.8/2210
16/225
4.4/1000
4.4/1000
40
50
48.3
60.3
10
2.77
20/300
5.9/1320
--ā
--ā
20/300
5.9/1330
10
2.77
20/300
5.9/1320
35/500
9.8/2210
16/225
40
5.16
35/500
14.4/3240
--ā
--ā
20/300
8.7/1950
40
5.16
20/300
8.7/1940
35/500
14.4/3240
20/300
5.9/1330
10
3.05
35/500
14.4/3240
--ā
--ā
20/300
8.7/1950
10
3.05
20/300
8.7/1940
35/500
14.4/3240
20/300
5.9/1330
--
6.35
--ā
--ā
--ā
--ā
--ā
--ā
--
5.08
20/300
9.4/2110
35/500
15.7/3530
16/225
7.1/1590
65
--
6.35
--ā
--ā
--ā
--ā
--ā
--ā
--
5.08
20/300
9.4/2110
--
--
20/300
9.4/2120
65
73
76.1
--
3.81
20/300
9.4/2110
--
--
20/300
9.4/2120
--
3.81
20/300
9.4/2110
35/500
15.7/3530
16/225
7.1/1590
40
5.49
20/300
12.8/2890
20/300
12.8/2885
20/300
12.8/2885
40
5.49
20/300
12.8/2890
35/500
21.4/4800
16/225
9.6/2165
10
3.05
20/300
12.8/2890
20/300
12.8/2885
20/300
12.8/2885
40
6.02
20/300
21.2/4770
20/300
21.2/4770
20/300
21.2/4770
10
3.05
20/300
21.2/4770
20/300
21.2/4770
20/300
21.2/4770
40
6.55
20/300
32.4/7300
20/300
32.4/7290
20/300
32.4/7290
80
88.9
100
114.3
125
141.3
10
3.05
20/300
12.8/2890
35/500
21.4/4800
16/225
9.6/2165
40
6.02
20/300
21.2/4770
35/500
35.4/7950
16/225
15.9/3580
10
3.05
20/300
21.2/4770
35/500
35.4/7950
16/225
15.9/3580
40
6.55
20/300
32.4/7300
35/500
54.1/12160
20/300
31.3/7035
10
3.4
20/300
32.4/7300
20/300
32.4/7290
20/300
32.4/7290
10
3.4
20/300
32.4/7300
31/450
48.6/10930
20/300
31.3/7035
--
6.35
20/300
44.3/9960
20/300
44.3/9960
20/300
44.3/9960
--
6.35
20/300
44.3/9960
35/500
73.8/16610
16/225
33.2/7460
--
5.08
20/300
44.3/9960
20/300
44.3/9960
20/300
44.3/9960
--
5.08
20/300
44.3/9960
31/450
66.4/14930
16/225
33.2/7460
40
7.11
20/300
46.0/10350
20/300
46.0/10340
20/300
46.0/10340
40
7.11
20/300
46.0/10350
35/500
76.7/17260
16/225
34.5/7750
10
3.4
20/300
46.0/10350
20/300
46.0/10340
20/300
46.0/10340
10
3.4
20/300
46.0/10350
31/450
68.9/15500
16/225
34.5/7750
40
8.18
31/450
116.9/26280
20/300
77.8/17500
--ā
--ā
40
8.18
31/450
116.9/26280
35/500
130.0/29250
16/225
58.4/13140
30
7.04
31/450
116.9/26280
20/300
77.8/17500
--ā
--ā
10
4.77
20/300
77.8/17500
20/300
77.8/17500
--ā
--ā
40
9.27
20/300
121.0/27210
--ā
--ā
--ā
--ā
30
7.8
20/300
121.0/27210
--ā
--ā
--ā
--ā
150
165.1
150
168.3
273
1N
Roll Grooved
Pipe
O.D
10
88.9
219.1
432!Gmbohf
Nom.
Size
32
73
141.3
250
3.0/680
60.3
125
200
35/500
48.3
114.3
150
2.77
42.4
100
150
10
2OI!Ifbwz!Evuz!Gmfyjcmf
200
250
165.1
168.3
219.1
273
30
7.04
31/450
116.9/26280
35/500
130.0/29250
16/225
58.4/13140
10
3.76
20/300
77.8/17500
20/300
77.8/17500
16/225
58.4/13140
40
9.27
20/300
121.0/27210
--ā
--ā
16/225
90.8/20410
30
6.35
20/300
121.0/27210
--ā
--ā
16/225
90.8/20410
10
4.77
20/300
121.0/27210
--ā
--ā
--ā
--ā
10
4.19
20/300
121.0/27210
--ā
--ā
16/225
90.8/20410
40
10.31
20/300
170.3/38280
--ā
--ā
--ā
--ā
40
10.31
20/300
170.3/38280
--ā
--ā
16/225
127.7/28710
STD
9.53
20/300
170.3/38280
--ā
--ā
--ā
--ā
STD
9.53
20/300
170.3/38280
--ā
--ā
16/225
127.7/28710
30
6.35
20/300
170.3/38280
--ā
--ā
--ā
--ā
20
6.35
20/300
170.3/38280
--ā
--ā
16/225
127.7/28710
10
4.77
20/300
170.3/38280
--ā
--ā
--ā
--ā
10
4.57
20/300
170.3/38280
--ā
--ā
16/225
127.7/28710
323.9
300
323.9
66
67
Installation Instruction For Rigid & Flexible Coupling
Installation Instruction For Threaded & Grooved Mechanical Tee
1.Pipe preparation
2.Lubricate gasket
3.Gasket installation
4.Alignment
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7 a.Assembly completed- Rigid Coupling
7 b. Assembly completed- Flexible Coupling
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1.Pipe preparation
2.Remove burrs
3.Gasket installation
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6.Assembly completed
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68
69
Installation Instruction For U-Bolt Mechanical Tee
Installation Instruction For Grooved Flange
1.Pipe preparation
2.Remove burrs
3.Gasket installation
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4.Alignment
5.Tighten nuts
6.Assembly completed
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4.Housing installation
5.Tighten nuts
6.
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70
71
Flexible Coupling
Rigid Coupling
1.A flexible coupling accommodates pipe
4.With the removal of just a few bolts you
!#
can easily access the system for cleaning,
If nominal diameter <DN200, deflection
maintenance, changes or system expansion.
$Ń%'*
;=>??
GASKET
?Ńbut <1Ń.
BUILT-IN TOOTH HOUSING
COUPLING HOUSING SEGMENT
1.The T&G mechanism in combination
3.The T&G mechanism features a slight
GAP
with a slightly shortened key diameter
offset at the foot of the coupling halves
GROOVE
provides a mechanical and frictional
which serve to protect the gasket from
interlock resulting in a rigid joint
exposure.
which reduces undesired angular
movement.
GROOVE
5.Coupling are non-directive and pipe can
be rotated 360Ńduring installation.
2.The built-in teeth on the coupling
4.With the T&G style coupling no metal-
grip the groove shoulder and serve to
to-metal contact of the bolt pads is
reduce linear movement.
2.The C-shaped rubber gasket
required. You will normally see a 1/16đ1/8đ(1.6mm to 3.2mm) gap between
provides excellent self-sealing
TONGUE & GROOVE(T&G)
the bold pads when installed.
capabilities in both low and high
CPMU0OVU
pressure service as well as under
certain vacuum conditions.
Mechanical Tee Connection
6.Coupling keys engage the full
3.The design and construction of the
coupling with elastomeric gaskets can
circumference of the grooves and provide
provide significant noise and vibration
significant pressure and end load restraint
absorption as well as seismic stress.
against pipe movement from internal and
*
*
@[
]
^
external forces.
and fasten the mechanical tee to the pipe with the nuts and bolts provided. As the housing bolts are tightened, the
The Mechanical Tee (3J, 3G, 3L ) provide for a fast and easy grooved or threaded branch outlet and eliminate the need
pressure responsive gasket forms a leak-tight seal.
BOLT/NUT
COUPLING HOUSING SEGMENT
72
73
Movement
Each flexible design coupling can provide for pipe system movement up to the design
Movement
^*
]
[!
]`
!
coupling due to two factors: (1) designed-in clearance between the key of the coupling and
"Thermal stress
Thermal stress is caused by changes in temperature, resulting in either expansion or
-Application
contraction. When designing a system you must allow for this thermal movement. To
the groove diameter and groove width, and (2) the gap between pipe ends joined by the
!*^!
*
coupling.
please refer to the following.
1.Linear Movement
Linear movement is accommodated within the coupling by allowing the pipe ends to move
together or apart in response to pressure thrusts and temperature changes. The available linear
movement provided by couplings is shown below:
size
1-1¼DŽ25-32MMDž
1½-12DŽ40-300MMDž
movement
0-4.0MM
0-6.4MM
Example:
- 4” straight steel pipe, 30m long
- Anchored on both ends
- Minimum temperature (during installation) = 5ņ
2.Angular Movement
- Maximum working temperature = 55ņ
;
*
{
From the thermal expansion table, we know the overall pipeline length will increase by 18mm
introducing eccentric loads into the coupling joint.
?‚$ƒ„…}$|!†
*
^‡
The maximum available angular movement of coupling joints is shown in the performance
want to know the number of couplings that are required to address this thermal movement
*
[|
*^!
[*]
problem.
[}
!!![
!
|
*ˆƒ^!#
factors to account for pipe, groove and coupling tolerances.
Movement range x Adjustment = Allowed movement
4.3mm x 75% = 3.2mm
size
1-3(IN)
4-12(IN)
Reduce to 50%
Reduce to 75%
The appropriate number of coupling is:
Thermal expansion / Allowed movement = Number of couplings
18mm / 3.2mm = 5.6
Conclusion:
Flexible Couplings:
Linear Movement and
Angular Movement
Cut
Size
Linear
Movement
The appropriate number of coupling is 6.
Roll Groove
Angular
Movement
Linear
Movement
Angular
Movement
!
mm
mm
Degree
mm
mm
Degree
1
33.7
2
2º-45'
48
1
1º-22'
mm
24
1 1/4
42.4
2
2º-10'
38
1
1º-05'
19
1 1/2
48.3
3.2
1º-54'
33
1.6
0º-57'
16.5
2
60.3
3.2
1º-31'
26
1.6
0º-45'
13
2 1/2
73
3.2
1º-27'
25
1.6
0º-43'
12.5
"Thermal Expansion
Pipe length (m)
Temperature
(ņ)
1
5
10
20
30
40
Thermal Expansion Formula 1
Thermal Expansion(mm)
2 1/2
76.1
3.2
1º-12'
21
1.6
0º-36'
10.5
1
0.012
0.06
0.12
0.24
0.36
0.48
3
88.9
3.2
1º-02'
18
1.6
0º-31'
9
5
0.06
0.3
0.6
1.2
1.8
2.4
10
0.12
0.6
1.2
2.4
3.6
4.8
20
0.24
1.2
2.4
4.8
7.2
9.6
30
0.36
1.8
3.6
7.2
11
15
40
0.48
2.4
4.8
9.6
14
20
50
0.6
3
6
12
18
24
4
108
3.2
1º-51'
32
1.6
0º-55'
16
4
114.3
3.2
1º-36'
28
1.6
0º-48'
14
5
133
3.2
1º-41'
30
1.6
0º-50'
15
5
139.7
3.2
1º-19'
23
1.6
0º-37'
11.5
5
141.3
3.2
1º-03'
18
1.6
0º-30'
9
6
159
3.2
1º-18'
23
1.6
0º-39'
11.5
6
165.1
3.2
1º-05'
20
1.6
0º-35'
10
60
0.72
3.6
7.2
14
22
29
0.84
4.2
8.4
17
25
34
0.96
4.8
9.6
19
29
39
6
168.3
3.2
1º-05'
19
1.6
0º-32'
9.5
70
8
219.1
3.2
0º-50'
15
1.6
0º-25'
7.5
80
10
273
3.2
0º-40'
12
1.6
0º-20'
6
12
323.9
3.2
0º-34'
10
1.6
0º-18'
5
́=˷ġLġT
́ǖThermal Expansion
˷ǖLinear Expansion
*
*
LǖPipe length
TǖTemperature difference
74
75
Riser Design
Risers assembled with Flexible couplings are generally installed in either of two ways. In the
"%&'
most common method, the pipe ends are butted together within the coupling joint. Note that
|
!
[*
^!
![*{
![
where the piping is not properly aligned . At least two couplings are required to provide for
from the pipe end prior to positioning the upper pipe. Anchoring of the riser may be done
lateral pipe misalignment . Deflection (longitudinal misalignment) may be accommodated
prior to pressur-ization with the pipe ends butted or while pressurized, when, due to pressure
*
^
thrust, the pipe ends will be fully separated.
in the coupling performance data for the particular size and coupling type .
An alternative method or riser installation is to place a metal spacer of a predetermined
‹{
]
!
[*
thickness, between the pipe ends when an additional length of pipe is added to the riser
and thermal forces dependent upon the manner in which it is restrained . An unrestrained
stack. The upper pipe length is anchored, the spacer removed and the coupling is then
{
*![
*
installed. This method creates a predetermined gap at each pipe joint which can be utilized
{
'*{
!
[
!
in pipe systems where thermal move-ment is anticipated and in systems with rigid (threaded,
then sufficient anchors must be provided to resist the lateral forces and hold the joint in the
welded, flanged) branch connections where shear forces due to pressure thrust could
damage the rigid connections.
|
*
*
!
]
*
The following examples illustrate methods of installing commonly encountered riser designs.
equations:
`’@”
"#$
Install the riser with the pipe ends butted.
Locate an anchor at the base of the riser (A) to support the total weight of the pipe, couplings
‰[
!
*
{
^
thermal growth. Note that no intermediate anchors are required.
When the system is pressurized the pipe stack will “grow” due to pres-sure thrust which
causes maximum separation of pipe ends within the couplings. The maximum amount of
Picture 1
stack growth can be predeter-mined (see Linear Movement). In this example the pipe length
”’@$DŽG÷DDž
M=DŽG÷DDž×L
Where:
M = Misalignment (inches)
G = Maximum Allowable Pipe End Movement (Inches) as shown under “Performance Data”
(Value to be reduced by Design Factor)
” ’ `^ ;*
;„ * Š‰* ;
ƒ
(Value to be reduced by Design Factor)
D = Pipe Outside Diameter (Inches)
L = Pipe Length (Inches)
Šƒ
*
!
*
‹
Movement) to accommodate the total movement “M” from both pressure thrust and thermal
gradients.
"Curve Layout
]
{
[!
pipe lengths and Couplings.
"#
Install the riser with the predetermined gap method. Anchor the pipe at or near the base
with a pressure thrust anchor “A” capable of supporting the full pressure thrust, weight of
‹
ŠŒƒ
!*
*
thrust at the top of the riser plus weight of pipe column. Place intermediate anchors “C” as
shown, between anchors “A” and “B”. Also place intermediate clamps at every other pipe
length as a minimum.
When this system is pressurized, the pipe movement due to pressure thrust will be strained
Picture 2
and there will be no shear forces acting at the branch connections.
This example shows how to calculate the curve radius, required pipe lengths, and number of
required couplings.
‘’“>^@”“>„„
’>^‘^@”“>„
=’|“”
WHERE:
N = Number of Couplings
R = Radius of Curve (feet)
L = Pipe Length (feet)
”’;
*
;„*
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Anchoring
and Supports
When designing the hangers, supports and anchors for a grooved end pipe system, the
Engineering Test
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in additional to many universal pipe hanger and support design factors. As with any pipe
system, the hanger or support system must provide for
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3)permit required pipe system movement to relieve stress.
The following chart shows the maximum span between pipe hangers, supports and anchors.
Max. Span between Supports (steel pipe)
Nominal Size (mm)
Insulating
Pipe
Max. Span
Between
Supports (mm) Non-insulating
Pipe
15
20
25
32
40
50
70
80
100
125
150
200
250
300
2
2.5
2.5
2.5
3
3
4
4
4.5
6
7
7
8
8.5
2.5
3
3.5
4
4.5
5
6
6
6.5
7
8
9.5
11
12
Movement capability
of couplings-expansion
and contraction joints
Nominal
Size
Pipe O.D.
(mm)
Maximum
Allowable
Movement (mm)
L min.
(mm)
L max.
(mm)
Number of
Couplings
Filled With Water
Pressure
1
33.7
45
617
662
10
300
1¼
42.4
45
617
662
10
300
1½
48.3
45
617
662
10
300
2
60.3
45
617
662
10
300
2½
73.0
45
617
662
10
300
76.1
76.1
45
617
662
10
300
3
88.9
45
617
662
10
300
4
114.3
47
503
550
7
300
139.7
139.7
47
503
550
7
300
5
141.3
47
503
550
7
300
165.1
165.1
52
503
550
7
300
6
168.3
52
591
643
7
300
8
219.1
52
591
643
7
300
10
273.0
52
591
643
7
300
12
323.9
52
591
643
7
300
78
79
Engineering Test
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