Dwyer Instruments 460 Operating Instructions And Parts List Manual
Bulletin H-10
No. 460 Air Meter
O
perating Instructions and Parts List
The No. 460 Air Meter is a precision air velocity and
static pressure indicator based on the principle of the
variable area flowmeter. With the meter in a vertical
position, air comes in through the outer of the two top
connectors, passes into the scale chamber and enters
the tapered indicating tube at the bottom, causing the
white plastic ball to lift. Height of ball indicates static
pressure or air velocity.
Air velocity is registered from 260 to 1200 fpm on low range, 1000 to 4000
fpm on high range. Static pressure is .005˝ to .09˝ water, low range and .05˝
to 1.0˝, high range. To read on high range scale, cap exposed connector
with finger as shown in sketch. To read on low range scale, do not cap connector.
STATIC PRESSURE—To read static pressure, secure angle connector to
meter with tubing supplied. For minus pressure readings, use center connector on the meter. For plus pressure readings, use outer connector. Hold
meter vertically, inserting angle connector in unit under test, and read pressure in inches of water on appropriate high or low range scale. For accurate
static pressure measurements in ducts and equipment having appreciable
air velocity, select a location where duct face parallels air stream and drill a
1/4˝ opening, leaving minimum burr. Secure supply grille probe to angle
connector, place over opening permitting as little leakage as possible and
read static pressure as above.
FURNACE DRAFT—Secure angle connector to center connection of Air
Meter with rubber tubing. Holding meter vertically, insert angle connector
into furnace combustion chamber for over-fire draft reading. For last pass
or smoke pipe draft, connect into the breeching on the furnace side of any
damper or draft control. To determine draft loss through furnace, subtract
over-fire draft reading from smoke pipe draft. For adjustment of barometric
draft controls, follow furnace or boiler manufacturer's recommendations for
over-fire draft setting.
AIR FILTER TEST—To obtain pressure drop across an air filter, follow procedure outlined above to determine static pressure on each side of the filter.
Subtract the smaller from the larger to get correct static pressure drop in
inches of water. Follow manufacturer's recommendations for filter cleaning
or replacement.
Copyright 2012 Dwyer Instruments, Inc. Printed in U.S.A. 7/12
• Air Meter
•
White plastic ball
• Bottom plug
• Chemically treated
pipe stem cleaners
• Nylon bristles to clean
calibration orifice
• Case
• Supply grille probe
•
14˝ length 3/16˝ x
5/16˝ rubber tubing
• Angle connector
• Return grille probe
• Air velocity calculator
• Instructions (not shown)
Phone: 219/879-8000 Fax: 219/872-9057
www.dwyer-inst.com
DWYER INSTRUMENTS, INC.
P.O. Box 373 • MICHIGAN CITY, IN 46360 U.S.A.
www. .com
information@itm.com1.800.561.8187
D
UCT AIR VELOCITY—To determine air velocity, within a confined space,
as in a duct, first find static pressure in duct as outlined above under Static
Pressure. Total pressure, or sum of velocity and static pressure, is then
f
ound by removing supply grille probe and inserting angle connector into
duct with angled portion directed into air stream. Subtract static pressure
from total pressure to get velocity pressure, then refer to Air Velocity calcul
ator to find air velocity. (Note: Air velocity determined will be true only for
the point of measurement—average velocity across duct may vary from this
figure.)
SUPPLY GRILLE VELOCITY—To measure
a
ir velocity and determine cfm discharged from
supply grilles in air distribution systems, connect supply grille probe to Air Meter and use
a
s indicated in sketch. Balancing a system on
a comparative basis, i.e. adjusting the controls
so the discharge velocities of all grilles are the
s
ame, presents no problem. Using Air Meter as shown, traverse the face of
the grille. Take readings at a number of points to determine average velocity,
then make adjustment to increase or decrease flow as required. With ornam
ental diffusers it may not be practical to use supply grille probe. If so, angle
connector alone may be used, taking care to obtain measurement at same
point within diffuser face.
Calculate actual air delivered through a grille in cubic feet per minute as
follows:
Cfm = Average velocity in fpm x Effective grille area in sq. ft.
Determining effective area of most grilles, however, is difficult. Where
possible, refer to available technical data supplied by grille manufacturer.
Some manufacturers specify effective area; others give coefficient of discharge; still others, a pressure loss through grille with equivalent flow in cfm.
In all cases, great care is necessary to obtain an accurate value for the cfm.
When manufacturer specifies effective area for a grille, cfm discharged
may be calculated as directed above. If manufacturer specifies coefficient
of discharge the formula becomes:
Cfm = Average velocity in fpm x Grille area in sq. ft. x Discharge coeff.
If manufacturer supplies data showing cfm corresponding to total pressure behind grille face or pressure loss through grille, cfm may be determined by inserting angle connector through grille face and directing tip into
air stream. Reading obtained will be total pressure in inches of water and
cfm can be found by referring to manufacturer’s data. (Note: This technique
may be used only with grille fully open, if of the adjustable type.)
For grilles where no data is supplied or when data is invalidated by partial closing with dampers, approximate cfm may be found by
multiplying average velocity versus face area by a factor of .7.
RETURN GRILLE VELOCITY—To measure velocity of air entering a return
grille, connect return grille probe to Air meter and use as indicated in sketch.
Rubber tube is secured to center connector of meter. To determine volume
of air entering grille, make a careful traverse of grille face to find average
velocity. For conventional return grilles, measure actual face area, excluding
center strips, border, etc. Approximate volume
can be calculated as follows:
Cfm = Average air velocity in fpm x Face area
in sq. ft. x 95. For plain lattice grilles with a relatively greater reduction in open area, the measured open area should be substituted in the
formula.
MAINTENANCE—Keep your Air Meter—
1. DRY—If moisture enters, remove bottom fitting, let moisture slowly evap-
orate. Use chemically treated pipe stem cleaner to clean indicating tube
thoroughly, removing any moisture remaining.
2. CLEAN—Use pipe stem cleaner to remove dust, lint, dirt, etc.
3. STATIC-FREE—If a static electricity charge causes ball to stick, use
chemically treated stem cleaner as in (1.) above.
4. CALIBRATED—Keep the high range calibration orifice clean and open
with nylon bristles supplied. Do not use wire, pins or drills which might enlarge opening. do not replace the 14˝ length of 3/16˝ x 5/16˝ rubber tubing
with tube of different size or length.
FR# 64-440081-00 Rev. 5
Phone: 219/879-8000 Fax: 219/872-9057
www.dwyer-inst.com
DWYER INSTRUMENTS, INC.
P.O. Box 373 • MICHIGAN CITY, IN 46360 U.S.A.
www. .com
information@itm.com1.800.561.8187
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