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TRAINING
How to Select Spray Equipment
DIVISION
I. THE APPLICATION
Once an operator has chosen the best method for applying a
coating, he must choose the proper equipment to spray the
coating. Spray equipment components can be assembled into
systems capable of satisfying the requirements of virtually any
type of finishing or refinishing application. Component selection is based on the following:
A. PURPOSE OF THE APPLICATION
There are two purposes in applying a material to a surface.
One purpose is to improve appearance. The other is to condition and protect the surface.
1. Appearance
The spray application of coatings for the prime purpose
of improving the appearance of the product. Multiple
layers of the coating material will also result in giving
protection to the surface to some degree, but this benefit
is secondary. Usually the coatings in this field require
fine atomization and must be sprayed on smooth surfaces
to insure a quality finish. The materials are relatively
thin or low in viscosity. Examples: lacquers, enamels,
varnishes, stains, etc.
2. Protection
The application of a coating which has been designed
primarily for the purpose of protecting the surface from
the surrounding atmosphere. The surface appearance
may be improved by this application but generally it is a
secondary factor. The prime or protective coatings
which are used in refinishing have viscosities which
generally range from thin to medium in consistency. Examples: zinc chromates, rust inhibitors, primers, sealers, etc.
6. THE NATURE OF THE MATERIAL
The coating material required should be selected from a
reputable material supplier and be designed to meet your
particular needs. Once the material is selected, consideration should be given to:
1. The consistency, or viscosity of the material
2. Solvent formulation and mixing instructions
3. Special handling considerations such as being corrosive,
requiring heat, etc. Above all, follow the material supplier's recommendations.
C. THE MATERIAL VOLUME
The amount of material required to do the job and the size
of the container in which the material is purchased will indicate the type and size equipment that will be required to
apply the coating.
P
1. A small job
A job is considered small when the paint is purchased in
pints, quarts, or one gallon cans, and when the application rate does not exceed five gallons per day of one color. Example: The spray finishing of an appliance, automobile or furniture piece, or the touch-up of parts using
different colors.
2. A medium job
When paint is purchased in one to five gallon containers
and the application rate will not exceed five to twenty
gallons total per day of one color. Examples: The spray
painting on a small production basis-boats, earth moving equipment, private aircraft, trucks, tractors, or a
small production shop spraying similar quantities on a
regular basis.
3. Large jobs
When paint is purchased in five to fifty-five gallon
drums and the consumption is up to or exceeds one
drum per day of one color. Exatiples: the finishing of
mass produced items on a conveyor line.
3. Air assisted airless atomization
This method uses a specially designed gun and pump
like the Binks Mach 2 Spray Gun and Pump. The fluid is
delivered to the spray gun at low airless pressures (150 to
800 psi) where it is pre-atomized in an airless tip. Atomization is completed by introducing air into the spray
pattern. The result is a finely atomized pattern that produces a finish that closely resembles the high quality
finish obtainable with air atomization.
4. Electrostatic spraying (air, airless, air/airless,
D. THE APPLICATION RATE
The size, complexity and cost of equipment varies directly
with the size of the job and the application rate required.
Large jobs require large equipment, thus higher cost. Example: the use of one gallon of paint to cover one large item
in a day would be a small job. The use of one gallon of
paint to cover thousands of small items in an hour would be
a k g e job.
8. TYPES OF EQUIPMENT
‘&e type of equipment required should be selected according
to the spraying process being considered and the related equipment necessary to operate that system.
A. THE SPRAYING PROCESS
1. Air atomization (Conventional-HVLP)
The material is delivered to the spray gun by either the
siphon-feed or pressure-feed method. Then jets of compressed air are introduced at the front end of the spray
gun to tear the material apart into small droplets and impart direction and velocity to these droplets. This action
can take place either outside the air nozzle (external
mix) or inside the air nozzle (internal mix).
Siphon-feed is best suited for limited production with
light, refinishing type materials where fine atomization
is required. It is also ideal for applications where small
amounts of different colored materials are being used.
This method also requires the material be relatively thin
or low in viscosity.
Pressure-feed (external mix) is best suited to the applications requiring medium to large quantites of refinishing
and finishing materials which require fine atomization
under production conditions. Pressure-feed using internal mix nozzles is best when heavy protective type coatings are being used and extra fine atomization is not
required. Internal mix nozzles are also used on small
.
application type spray guns when there is little air
volume (CFM)available and time is not a factor.
2. Airless atomization (hydraulic spraying)
This method uses a specially designed paint pump to de-live7 paint to the airless spray gun under relatively high
pressure. The fluid is then released through a small nozzle orifice. The resulting high fluid velocity causes the
material to be tom apart or atomized. Airless spraying
is best suited to applications where medium to large
areas are to be covered in short periods of time. When
using airless for refinishing generally hot circulating systems are employed to insure fine atomization.
2
rotary bells and discs)
Electrostatic attraction (air or airless)- a method of
spraying where material is atomized using conventional
air or airless principles. Particles are electrically charged
and attracted to the work, causing the material to “wrap
around” the article being sprayed. Electrostatic attraction is used on conductive materials to help reduce overspray giving a high transfer efficiency.
Electrostatic atomization by reciprocating disc or bella method widely used by appliance manufacturers because of the high transfer efficiency it provides for the
high production spraying of uniformly shaped parts. In
this method, the voltage differential between paint dispenser and product causes the paint to be atomized and
carried to the product.
Air-assisted airless atomization produced by a modified
airless process in which:
a.) Lower fluid pressures are used, normally below 1000
psi.
b.)Compressed air is added at low pressure via the air
nozzie to help further atomize the pattern.
The air-assisted airless method is widely used by fumiture finhhers and some industrial finishers.
High speed rotational atomizers-High
speed (IOK70K RPM) rotating discs or bells give exiting paint
particles velocity and direction. The voltage differential
between the paint dispenser and the product causes the
electrically charged paint particles to be attracted to the
grounded part.
B. THE AIR COMPRESSOR
The air compressor is the most important part of any spray
finishing operation. The reason for this is because it is the
energy source by which the system operates.
The most important specification of a compressor is the
volume of air that the compressor will deliver (CFM). Unfortunately, many people think that the pressure is the most
important factor. The truth of the matter is that without
adequate air volume the pressure will drop to a point where
the equipment will not function. The more air volume available the larger the air nozzle or airless pump that can be
used. This will determine the amount of material that can
be properly atomized in a given period of time. NOTE: A
rule of thumb for calculatin‘g CFM is a one-horse-power
electric motor will produce 4 CFM at 100 psi of free air.
Once a compressor is selected according to the air requirements, then consideration should be given to see that there
is adequate current and voltage available on the premises
fo operate the electric motor. If in doubt, check with the
power company.
The air that is being used in the system should be controlled
by the use of air regulators or air adjusting valves. The air
should be filtered and cleaned by the use of oil and water
extractors, air dryers, aftercoolers, and drop legs so that
contaminants will not spoil the finish.
‘.
“*z
C. FLUID SUPPLY
The equipment necessary to supply the fluid to the spray
gun will be determined by the amount of material you must
apply in a given period of time. When materials are purchased in quarts or gallon cans, your fluid supply could be a
siphon cup, pressure cup, or small pressure tank. When
material is bought in five gallon cans then you could use
medium size pressure tanks or small pumping systems.
When material is purchased in 55 gallon drums then large
pressure tanks or pumping systems will be required.
Air controls should be utilized on all pressure tanks and
pumps to control the system’s fluid pressure. Fluid pressure
regulators should be used for each gun in a circulating system and on pressure tanks when precise control is required
for each gun. Accessory equipment should be considered
when the material requires agitation or filtration. NOTE: Always make sure the fluid being used is not corrosive because
it could damage standard fluid handling equipment.
D. HOSE AND FITTINGS
The proper size hose and fittings are important in conveying
the air and fluid to the spray gun. Selection should be made
SO that the pressure loss in the system remains at a minimum by using only proper type connections and hose with a
large enough inside diameter.
When selecting hose consider the following:
1. The volume of air or fluid the hose must carry.
2. The working pressure of the system.
3. The viscosity of the fluid.
4. The total length 6f the hose.
5. The type of material and solvent that are going to pass
through the hose.
6. The temperature. of the material if heated.
7. The flexibility requirements.
E. THE TYPE OF SPRAY GUN
When selecting spray guns, the function of the spray gun
should be considered first. Once the type of spray gun has
been selected, the nozzle combination should be considered
next. The nozzle selection is made according to the type of
material being sprayed, the method of feeding the material
to the spray gun, the method of atomization selected, and
the amount of air available. To obtain the information required about the nozzles one should consult the spray
equipment manufacturer’s literature on spray guns or contact a qualified sales representative.
The following list describes some types of spray guns available and their function:
1. Air atomizing type (Conventional-HVLP)
a. Heavy duty production spray guns are built of the
finest materials, and include many design features
not available in lighter equipment. They are designed
to be used under heavy duty production conditions
and to provide day-to-day reliability. Production type
spray guns insure perfect atomization and the application of the paint in a minimum amount of time.
b. Standard production spray guns are used for full production operation and will generally utilize the same
~an a
n
a Buia nozzks as hiivy duty production spray
guns. These spray guns may not have all the refinements of the heavy duty production spray guns but
will do the job just as well.
c. Touch-up spray guns provide a smaller spray pattern
and are used for spraying small objects, shading and
toning of furniture and,because of their light weight,
are preferred by many women spray operators.
~
2.
3.
4.
5.
d. Heavy fluid spray guns are used to apply heavy viscosity materials under production conditions, e.g.:
undercoatings or heavy primers or fillers.
e. Automatic spray guns are designed to handle the
same materials and will produce the same type finish
as standard spray guns, however, they are designed to
mount on automatic equipment designed to move
them over the product or move the product to the
spray gun. They are usually used when high production requirements must be met.
f. Lightweight (homeowner type) spray guns are intended for use with small portable air compressors.
They are capable of producing a fine finish, however,
at a much slower speed than the production type
spray guns.
g. Special purpose spray guns are designed to perform
certain specialized applications, e.g.: blow guns, engine cleaning guns, car washing guns, etc.
Airless atomization
Airless spray guns are designed to withstand the high
pressures used in the airless atomization method and
provide control of the fluid flow and spray pattern size
only through the proper selection of the airless nozzle
tip. Airless spray guns are designed for standard handheld production spraying, heated applications, automatic
operations, heavy fluid application (mastic spraying) and
touch-up.
Air-assisted airless atomization
Air-assisted spray guns are designed for high transfer
efficiency while delivering a high quality finish. The
fluid is delivered to the gun at low airless pressures, then
is pre-atomized at the airless tip. Atomization is completed by introducing air to the spray pattern. The result
is a fine finish resembling that of air atomization.
Electrostatic attraction
Electrostatic spray guns are specifically designed to
atomize the material using the air or airless atomization
processes. Once the material has been atomized, a static
electric charge is placed on the paint particles, causing
the charged paint particles to seek the nearest grounded
object (the product). The front end of the spray gun is
made of non-conducting materials so as to isolate the
spray operator from the high voltage charge being emitted from the spray gun.
Accessories
Spray gun accessories are also important parts of a system which should be considered. They will enable you
to derive maximum benefits from your equipment. Considerations should be given to the possible need for nozzle extensions, special nozzle attachments, mounting
brackets, quick-change side-port controls, circulating
connections, spray gun filters, etc.
F. SAFETY EQUIPMENT
The process of spray painting produces hazardous byproducts which in many instances may cause fires, explosions, burns, and health hazards from toxic fumes and dust.
Therefore anyone who uses this type of equipment should
protect himself from these contaminants.
1. Respirators
Should be worn whenever one uses spray equipment.
Respirators are designed to be used when the atmosphere is NOT highly contaminated. Filter type respirators are designed to remove only solid particles from
the air-not solvent vapors. If the air is contaminated
with solvent vapors then chemical or hood type respirators should be selected. Other items such as protective
clothing, barrier creams, safety glasses, and gloves
should be considered.
2. Spray booths
Should be considered the best means of protecting the
spray operator and others in the immediate area when
spray painting is being done. In many instances, the
need for spray booths will be dictpted to the operator by
state and local codes. There are also many advantages in
using spray booths such as:
a. Safety-through the removal of volatile solvent
fumes from the spray area.
b. Finish quality-is improved when overspray and rebound are removed from the spraying area, preventing the contamination of other work in the area.
the spray operator and
C. Working environment-of
others ilr the immediate area is improved.
d. Community relations-proper filtration of exhausted
air will minimize air pollution.
e. Lower insurance rates-some states even provide a
tax advantage to firms using spray booths. This is
generally based on the reduction of air and noise
pollution.
111. SPRAY EQUIPMENT SELECTION
As an aid in selecting the best possible equipment for your particular application, a thorough knowledge of each component
that makes up a spray system should be reviewed. This may be
acoomplished by referring to Raining Division bulletins covering the various parts of the system.
A. TYPICAL BASIC EQUIPMENT LAYOUTS
Listed blow are typical equipment packages the operator
has to choose from.
1. Small d t e jobs:
a. The homeowner:
Compressed air supply
Compmsor-1/3 H.E portable unit
Model 34-3010
Air controls-Air adjusting valve Model 73-157
Fluid supply
Siphon cup- 1 qt. Model 8 1-560
Hose and fittings
Air hose-15 ft. of 5116-in. ID with 1 / 4 NPS
connections Model 7 1-1203
spray gun
Light production-Model 370 with an 85 x 85F
nozzle setup
Safety equipment
Chemical cartridge respirator-Model 40- 128
b. Small shop
Compressed air supply
Compressor-1 '/2 H.P. stationary unit
Model 33-1012
Air control-Oil,
water and regulator combination Model 86-945
Air adjusting valve Model 73-157
Fluid supply
Siphon cup-1 qt. Model 81-550
Steadi-grip cup-2 qt. Model 80-228
Hose and fittings
Air hose
25 ft. of 5/16-in. ID with 1/4 NPS connections Model 71-1205
5 ft. of 114-in. ID with 114 NPS connections
Model 7 1- 1101
Fluid hose-5 ft. of 318-in. ID with 318 NPS
connections Model 7 1-3300
4
Spray gun
Model 2001 with a 66 x 66SD nozzle setup
Spare nozzle setup 63C x 63PB
Safety equipment
Chemical cartridge respirator Model 40- 128
2. Medium size jobs:
a. Auto Body Shop;
Compressed air supply
Compressor-5 H.P. 2-stage stationary unit
Model 33- 1036
Air control-Oil and water extractor regulator
combination Model 86-948
Air filter-Main-line extractor Model 86-950
Fluid supply
Siphon cup- 1 qt. Model 8 1-550 quantity (2)
Steadi-grip cup-2 qt. Model 80-228
Hose and fittings
Air hose
50 ft. of 3/8-in. ID with 1/4 NPS connections
Model 71-1356
5 ft of 5/ 16411.ID with 1 / 4 NPS connections
Model 7 I- I20 1
Fluid hose-5 ft. of 318411. ID with 318 NPS
connections Model 7 1-3300
Quick-change fittings- I /4NPS Model 72-446
Spray gun
Standard production-Model 7 with a 36 x 36SD
Nozzle set-up
Standard production-Model 200 1 with a
66 x 66SD nozzle set-up
Spare nozzle setup 63C x 63PB
HVLP-Mach 1 Plus with a 91 x 97P
nozzle setup
Safety equipment
Chemical cartridge respirator Model 40-128
and refinishing shop
Finishing
b.
Compressed air supply
Compressor-7% H.P. 2-stage stationary unit
Model 33-1041
Air filtration-main-line extractor Model 86-950
Air control-Oil and water extractor with regulator combination Model 86-949
Fluid supply
Siphon cup-1 qt. Model 81-550
Pressure tank-2-gal. Model 83-5668
Hose and fittings
Air hose
25 ft. of 3/8-in. ID with 1/4 NPS connections
Model 7 1- 1355
15 ft. of 5/16-in. ID with a 1/4 NPS connections Model 71-1203
Fluid hose-15 ft. of 3/8-in. ID with 3/8 NPS
connections Model 7 1-3302
Connections-Quick-change I14 NPS
Model 72-446
"44
i
i
spray gun
Heavy duty
Model 2001 with a 66 x 66SD nozzle setup
Spare nozzle setup 63C x 63PB
HVLP-Mach 1 with 91 x 97P
nozzle setup
Touch-up-Mode1 26 with a 78 x 78SD
nozzle setup
Safety equipment
Respirator-Chemical cartridge type
Model 40-128
Spray booth-Filter type 5-ft. wide
Model FA-5-7-T
3. Large size job
a. Large automotive shop
Compressed air supply
Compressor-10 H.P. 2-stage stationary unit
Model 33-1047
Air filtration-Air dryer aftercooler combination
Model 37-915
Air control-Oil, water and regulator comhination Model 86-948
Fluid Supply
Siphon cup-I qt. Model 81-550
Steadi-grip cup-2-qt. Model 80-228
Pressure tank-2 gal. Model 83-5668
Hose and fittings
Air hose
50 ft. of 3/8-in. ID with 114 NPS connections
Model 71-1356
25 ft. of 5/16-in. ID with 1 / 4 NPS connections Model 71-1205
5 ft. of 5116411. ID with 114 NPS connections
Model 7 1- 1201
Fluid hose
5 ft. of 3/8-in. ID with 318 NPS connections
Model 71-3300
25 ft. of 3/8-in. ID with 318 NPS connections
Model 7 1-3303
Connections-Quick-change 114 NPS
Model 72-446
Spray gun
Heavy duty production-Model 18 with a
63C x 63PB nozzle setup
HVLP-Mach
1 with 92 x 95P or 97P nozzle
setup
Standard production-Model 7 with a 36 x 36SD
nozzle setup
Standard production-Model 2001 with a
66 x 66SD nozzle setup
Safety equipment
Respirator-Chemical cartridge respirator
Model 40-128
Spray booth-Automotive spray booth
Model AAE-631
b. Large finishing and refinishing shop
Compressed air supply
Compressor-25 H .P. Stationary compressor
2-stage Model 33-1069
Air filtration-Combination aftercooler/air dryer
Model 37-918
Air control-Oil, water and regulator combination Model 86-949
Fluid supply
Siphon cup-1 qt. Model 81-550
Pressure tank- IO-gal. tank-Model 83-5308
Pump-Transfer pump Model 41-800 I
Hose and fittings
Air hose
50 ft. of 3/8-in. ID with 114 NPS connections
Model 71-1356
25 ft. of 5116-in. ID with 1/4 NPS connections Model 71-1205
Fluid hose-25 ft. of 3/8-in. ID with 318 NPS
connections Model 7 1-3503
Connections-Quick-change 114 NPS
_1
Model 72-446
Spray gun
Heavy duty production
Model 2001 with a 63C x 63PB nozzle setup
HVLP-Mach 1 with 92 x 95P or 97P
nozzle setup
Spare nozzle setup 66 x 66SD
Touch-up-Model 26 with a 78 x 78SD
nozzle setup
Safety equipment
Respirator-Chemical cartridge type
Model 40-128
Spray booth-Floor type water-wash and air
make-up system Model WE15-8-T
These listings show only the minimum amount of equipment required. Other equipment selections such as airless,
automatic, heated systems, circulating systems, electrostatic equipment plus accessories should be made to meet
your particular needs.
B. EQUIPMENT SELECTIONCHECK LIST
The equipment check list should be filled out before you order
the equipment for your next job.
CONSIDERATIONS
PURPOSE OF THE APPLICATION:
Appearance
Protective
FLUID CHARACTERISTICS:
Type of material
Cure Rate
Viscosity
Abrasive
Corrosive
Special precaution when handling the material
PAINT IS PURCHASED IN:
One
TYPE OF EQUIPMENT:
Air atomization
Airless
Electrostatic
Fives
Other
Fifty-fives
External mix
Automatic
Other
Other
Internal mix
Heated
SELECTION
COMPRESSED AIR SUPPLY:
(Catalog AC)
Actual CFM Required
Compressor Horsepower
Model Number Selected
Accessory Items and their Model Numbers
FLUID SUPPLY:
(Catalog A98-29)
Pressure CupPressure Tank
Siphon Cup
Size Required
Model Number Selected
PUMP:
Pressure RequiredVolume Required per MinutePump RatioCirculating or Non-Circulating
Corrosion or Abrasion Resistance Required
Accessories Needed and their Model Numbers
HOSE AND FITTINGS:
AIR HOSE:
Non-oil Resistant
Oil Resistant
Nylon Retract
Maximum CFM
Length
Working Pressure
Inside Diameter
Oil Resistance
FLUID HOSE:
LengthWorking PressureViscosityInside DiameterModel Numbers
ACCESSORIES:
Nipples
Adapters
Swivels
Others
Ball Valves
Size of Items SelectedModel Numbers:
(Catalog A72-6)
PSI Required
Type of Compressor
-
SPRAY GUN:
(Catalog A54-19)
6
Air atomizing
Standard production
Automatic
Nozzle Set-up
ACCESSORIES:
Model Numbers
Airless
Heavy duty production
Touch-up
Electrostatic
CFh4 RequiredPSI Required
Model Numbers
SAFETY EQUIPMENT:
(Catalog A40-4)
,
(Catalog SB)
\
RESPIRATORS:
Filter
Chemical Cartridge
Hood
Self-contained Breathing Equipment
Protective Clothing
Other
Model Numbers and Quantities
SPRAY BOOTHS:
Floor-Type or Conveyor
Filter Media Selected: Baffle
Paint Arrestor
Andreae
Dispo
Water Wash
NOPUMP
Special Type
Size of Spray Booth (Length x Width x Depth)
Velocity
FPM. Air Movement Required through Booth
Model Numbers
IV.GETTlNG THE MOST FROM YOUR EQUIPMENT
INVESTMENT
To get the most from your spray painting system it must be controlled and maintained. Remember that a spray machine can’t
think-it only obeys the laws of physics and the man who controls it. This is the reason why people should attend training
programs and read the directions supplied by the equipment
manufacturer.
i
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t
Soulh Edmonton
o Vancouver
Milwaukee
(J
Chicago 0
zitdleveland,
0
New York
San Francisco
Denver
Service.. .
Where you want it,
when you need it.
SI LOUIS
Atlanta
A comprehensivenetwork
of select jobber specialists
stands m d y to take care of your
spray equipment needs. They await your
inquky and are preparedto add their years of
experience to the informationsupplied in
this literature.
Br8nch OfficesWith Warehouse Facilities
Dallas
QA
At-
5576SpaldingOr.. Norcross, GA 30092-2559
FAX 4041368-9411 .....................................
404/447-5600
chl#go,IL
9201 Wmmt Avenue, Franklin Park, 1L 60131-2887
FAX 7081671-1471
w,
OH
.....................................
708/671-3000
15401Commerce Park Dr.. Clewland, OH 44142-2012
FAX2l~13620114.....................................
216/362-8500
14340P”Rd.. Farmers Branch, TX 75244-3594
FAX 214l7O2-9502 .....................................
2141233-2500
D.-=
-
-w
1lSgSMenhnan Rd.. Livonia, MI 48150-1991
FAX 3131525-6917 .....................................
?*%?We,t
313/5256900
B M . CA 92621-3721
.....................................
3i0/6gi-i900
12708RabinLn.. Brookfield, WI 53005-3125
.....................................
~~x41417a1-6854
414/781-6880
W310/691-2988
Wf
New York, NY
1 Chapin Rd., Pine Brook, NJ 07058-9719
FAX 201/575-4034. ......... TELEX 133325, . . . . . . . . . 201 /575-6660
Philadelphia, PA
4301 Rising Sun Ave., Philadelphia, PA 19140-2719
FAX 215/456-1210 ..................................
2151329-7800
Pittsburgh, PA
Pittsburgh Spray Equipment Co.
3601 Library Rd., Pittsburgh, PA 15234-2230
FAX 4121882-8281. .................................
412/882-4550
San Francisco, CA
1459 San Mateo Ave.,
South San Francisco, CA 94080-6572
FAX 4151589-3151 ......................
415/589-8477
Seattle, WA
1749 First Ave.. S., Seattle, WA 98134-1441
PO. Box 24706, Seattle, WA 98124-0706
FAX206/623-4179.................................
.206/623-1350
Indianapolis, IN
500 Polk St., Suite 15, Greenw
FAX 317/888-7110.. ........
317/888-7100
BranchOffices
5
Denver, co
Sales Offices
DuMln,OH PO. Box831,43017-0831.. .....................
G r d Raplds, MI RO. Box 7216
Seymour Square Station, 49510-7216 .....................
6141262-5335
616/456-7106
7131999-2008
. . . . . . . . . . . . . . 2141595-5837
. . . . . . . . . . . . . . 5011376-9655
LOUI.vOl., KY ..........................................
502/425-5511
Wm, A24016 East Downing, 85205 .......................
602/924-4411
Metakk, LA 4021 Reich St., 70002-2241. ................... 5041486-2528
Hourton,TX450N.SamHoustonPkyE.,
Undak,lX307TexasDr.. 75771-5209..
Little Rook,AR RO. Box 2658,72203-26
~
~
~
6,77060-3519
St. Paul, MN 1821 University Ave., 55104-2801 ........... 61~645-5885
Salt Lake City, UT 3783 S. 5th St. W., No. 3,84115-4256. .. 801/268-9568
San Antonio, TX 9315 Lorna Doone St., 78250-2235 ...... 512/680-1206
Syracuse, NY 3650 James St.. 13206-2451 .............. 315/476-3725
Tampa, FL 1221 N. Florida Ave., Suite A,
Toledo, OH PO. Box 5894,43613-0894.
Vancouver, WA 12205 Northeast 74th St.
Vernon, CT 230 Hartford Tpke., 06066-4701.............. 2031875-8906
Winston-Salem, NC 206 Spruce St., Suite lB, 27101-2736 919/723-4590
Dornestk Subsidiaries
Canadian Sales & Division Offices
Binks Rawarch and Development Corp.
1791 Range St., Boulder. CO 80301-2714
FAX 303t444-9312
S
a
mEiectrostatlc,
11998 Merriman Rd
FAX 313i261-5971
Toronto, Ontarlo,
14 Vansco Rd., M8Z 5J5 (Headquarters)
FAX 416/252-3618 ..................................
416/252-5181
Montreal, Quebec,
6412 Trans-CanadaHwy., H4T 1X4.
514/731-4000
~~~~
3031443-2140
313/261-5970
Mvisions
Poly-craft systems,
3403 Pacific Ave.. Burbank. CA 91505-1590
FAX8181845-1852 .....................................
Sunklss USA,
Division of Binks Manufacturing Co.
9201 Belmmt Ave., Franklin Park, IL 60131-2887
FAX 708/671-4248 .....................................
.......
South Edmonton, Alberta,
1221 78th Ave., T6P 1L8 . . . . . . . . . . . .
213/849-1387
Sunkiss Canada,
Division of Binks Manufacturing Co. of Canada, Ltd.,
6412 Trans-Canada Hwy., Montreal, Quebec, H4T 1X4
FAX 5141735-8841 ..................................
514/735-5488
.708/671-3000
Vancouver, British Columbia,
8584 Fraser St.. V5X 3Y3 ............................
604/324-4671
Printed in USA 6/93