Wednesday, April 30, 2014

How To Identify Fitting Threads

We are frequently asked to explain the differences in various types of threads, as piping specifications and (or) equipment are designed with the following threaded connections:
  1. NPT
  2. BSPT
  3. BSPP
  4. Screw Thread
  5. S.A.E. Straight Thread
  6. Metric Thread

NPT Thread

NPT, National Pipe Thread or pipe taper is the most commonly used pipe thread in the United States and Canada.
Figure 1 NPT (National Pipe Taper)

Characteristics of NPT

  1. Thread Pitch measured in inches.
  2. Root & Crest Truncation are flat.
  3. 60° Thread Angle
  4. Taper Angle 1° 47’
Parker’s Instrumentation Products Division machines this thread on all CPI™, A-LOK® as well as on pipe & pipe adapter fittings where N.P.T. is designated. All male threads are rolled for strength and durability. Parker IPD’s NPT threads meet the standards set forth by ANSI B 1.20.1  

BSPT - British Standard Taper

Figure 2 BSPT
Characteristics of BSPT
  1. Taper Angle 1° 47’
  2. 55° thread angle
  3. Pitch can be measured in millimeters or inches
  4. Thread truncation is round
  5. BSPT threads are different from and will not substitute for N.P.T.
  6. threads.
The following standards are equivalent to B.S.P.T.
  • ISO 7/1 (International Standards Organization)
  • DIN 2999 (Deutsche Industrial Norme)
  • JIS B0203 (Japanese Industrial Standard)
  • d. BS 21 British Standard
BSPP - British Standard Parallel Pipe
Form A
A self centering taper is used at the hex which centers a “Bonded” washer (usually metal and elastomer) to seal to the surface surrounding the female thread.
Form B
A metal gasket (usually copper) performs the
seal between the face of the body and the face of the female threaded component. For Form “B” replace “R” in P/N with “BR”.

Characteristics of BSPP

  1. 55° thread angle
  2. Thread pitch measured in inches
  3. Thread diameter measured in inches
  4. Root/Crest Truncation round
A parallel thread form uses the threads for holding power only and seals by means of an O-ring and retainer ring.
The following standards are equivalent to B.S.P.P.
  1. ISO 228/1 (International Standards Organization)
  2. DIN 3852 Part 2 & Parallel threads (Deutsche Industrial Norme)
  3. JIS B0202 (Japanese Industrial Standard)
  4. BS 2779 (British Standard)

Unified Screw Threads

These are very common threads utilized on valves and fitting stems, nut and fitting end threads. They are straight, NOT tapered threads used for holding power.
Figure 4
Screw threads are denoted by the following:
For instance: 5/16                -          20
                      Thread Diameter       Number of Threads per inch
In general - screw threads can be further classified into various types of pitch’ (UNF) Unified Fine Pitch - (UNC) Unified Coarse - (UN) Unified Constant.
These classifications are determined by the relationship of threads per inch to outer diameter.
Note: For further information on thread pitch, please refer to ISO standards handbook or H-28 handbook.

SAE Straight Thread Port (SAE J1926)

Parker straight thread fittings shown are for connection with the SAE straight thread port as shown here. Basic port dimensions are give in Fig. 5 below. This port is the same as MS16142. It is also similar to, but dimensionally not the same as MS 33649 and AND 10050.

Figure 5 SAE Straight Thread O-ring Port Dimensions
NOTE: Tap drill lengths “P” given here require bottoming taps. Increase “P” as required for standard taps.
NOTE: Diameter “U” shall be concentric with thread pitch diameter within .005 FIM. It should be free from longitudinal and spiral tool marks.

Metric Threads (ISO 6149-2)

The following sections were prepared with the intention of explaining that NONE of them should be confused with a metric thread.
Please remember that a metric thread, be it parallel or tapered is designated as metric by the distance in millimeters from thread crest to crest. In the case of the parallel thread Figure 6 the O.D. is also expressed in millimeters.
Figure 6
To assist you in determining the various types of threads, Parker has available the International Thread I.D. Kit/Bulletin 4303-B1. It includes calipers, international and screw thread pitch gauges.
If you would like to receive more information about Parker A-Lok, Parker CPI or Parker Pipe Fittings please contact the Forberg Scientific Mechanical Sales Team
Phone: 248-288-5330

Monday, April 28, 2014

Omniguard Model 660 UV Flame Detector

The Omniguard® model 660 UV flame detector is designed to detect unwanted fires, and output appropriate alarm information. The Omniguard model 660 senses ultraviolet radiation in the appropriate wavelength for extremely fast fire detection. The Omniguard model 660 will sense both hydrocarbon and non-hydrocarbon fires, a technology which has proven itself over decades of reliable service.

The Omniguard model 660 is available in two versions, one for standard industrial applications where a maximum operating temperature of 85°C is the norm, and a second which is capable of operating at a maximum sustained temperature of 125°C. This version is especially well suited for turbine enclosure and high temperature industrial applications. Both versions are available with an automatic self-test function to monitor the detector’s ability to sense fires and report a fault condition when impaired.

 Key Features:
  • Available in special high temperature version (-40°C to +125°C)
  • All inclusive three-year warranty on parts and labor
  • Widest field of view in the industry (120°)
  • Robust, weatherproof enclosure for indoor or outdoor applications
  • FM, CSA, IECEx and ATEX approved
  • Improved, advanced through-the-lens diagnostic self-test
  • Long range detection
  • Self-contained, explosion-proof enclosure
  • Economical no-test version available
  • Field configurable relays and sensitivity
  • State-of-the-art microprocessor control
  • High intensity, localized indication of fire or fault

Performance Ratings
Responsive to hydrocarbon (gasoline, propane, methane, alcohol, etc) and non-hydrocarbon
(hydrogen, silane, hydrazine, magnesium, etc) flames.

Third-party performance certified to detect saturating signal source in 15 milliseconds,
1 square foot gasoline flame at 50 feet in 1 second. Horizontal performance envelope of 120°.

Environmental Ratings
  • Class I, Division 1, Groups B, C &D (explosion proof)
  • Class II, Division 1, Groups E, F & G (dust ignition proof)
  • NEMA 4X weatherproof, dust-tight, watertight
  • CE0081 II 2 G/D
  • Ex d IIB + H2 T5 Gb for gas on 660-0XXXX
  • Ex tb IIIC T100°C Db IP6X for dust on 660-0XXXX
  • Ex d IIB + H2 T4 Gb for gas on 660-1XXXX
  • Ex tb IIIC T135°C Db IP6X for dust on 660-1XXXX
Standard housing is copper-free aluminium conversion coated to MIL-C-5541C, Class 3 (white).
Optional stainless steel housing available with passive finish per MIL-5-5002C, Type 1.

Standard operating temperature range: -40° to +85°C (-40° to +185°F).

Special high temperature version: -40° to +125°C (-40° to +257°F).

Spectral response
Ultraviolet peak sensitivity of 2,2 μm.
Detector inputs
  • nominal voltage:           24 VDC
  • range:                            20 to 30 VDC
Power consumption
  • standby:                         90 mA
  • alarm:                           110 mA
  • auto and manual test:   250 mA
Detector outputs
  • relays (2):                     fire, trouble, dry contacts, hermetically sealed
  • rated:                            2 A at 28 VDC. User selects NO or NC
  • fire relay:                     user selects latching or non-latching
Current loop (standard version) 0 to 20 mA output
  • 20 mA = fire
  • 4 mA = ready
  • 0 mA = 20
Programmable RS-485 serial output
Mechanical considerations
Weight:                            5 lb (aluminum)
                                        13 lb (stainless steel)
Height x width:               4.90 in x 5.50 in
Conduit entry:                 3/4-14 NPTF or M20-1.5
Optional accessories
Swivel mount:                 No 4651027 (used with aluminum)
                                        No 70991 (used with stainless steel)
Portable test unit:            No 43808-2
Air shield assy kit:          No 8001023

Download Data Sheet: Click Here

If you would like to receive more information about Omniguard Model 660 UV Flame Detectors please contact Forberg Scientific.
P: 248-288-5330
F: 248-288-4204