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| United States Patent | 3940065 |
| Link to this page | http://www.wikipatents.com/3940065.html |
| Inventor(s) | Ware; Lyle A. (Bloomington, MN);
Sundelius; Dennis J. (St. Paul, MN);
Melquist; Marlin R. (Spring Lake Park, MN) |
| Abstract | Apparatus is disclosed for spraying liquids, preferably paint, directly
from a paint container mounted on the apparatus, wherein an electric drive
motor, pump assembly, and paint container shelf are attached to a wheeled
frame assembly for portable movement without disconnecting the paint
container from the pump assembly, and wherein electrostatic voltage
discharges are prevented by means of a common electrical interconnection
of all electrostatic voltage-developing components. |
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Title Information  |
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Drawing from US Patent 3940065 |
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Portable spraying apparatus |
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| Publication Date |
February 24, 1976 |
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| Filing Date |
March 14, 1975 |
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Title Information |
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Claims |
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What is claimed is:
1. Apparatus for spraying liquids from a container and for portable
relocation to a work site without disconnecting the liquid coupling and
spraying members, comprising:
a. an L-shaped frame member having wheels mounted on axles near the
intersection of the horizontal and vertical frame legs;
b. a motor and pump assembly rigidly attached to the horizontal leg of said
frame member;
c. a liquid container shelf pivotally mounted along said frame member
vertical leg and supported in a substantially horizontal position by said
motor and pump assembly, whereby said shelf is elevated above said pump
assembly and has its load-bearing center forward of said wheel axles;
d. a suction hose and a recirculating hose attached to said motor and pump
assembly and having means for attachment to said liquid container;
e. spraying means, attached to said motor and pump assrmbly, for delivering
sprayed liquid pumped by said motor and pump assembly; and
f. electric circuit means for interconnecting said spraying container shelf
to a common electrical potential.
2. Apparatus as claimed in claim 1, wherein said liquid container shelf
further comprises a raised edge sized for snugly enclosing a liquid
container of a first capacity, and a recessed center portion for snugly
enclosing a liquid container of a second capacity.
3. A portable paint spraying apparatus having a motor-driven pump for
withdrawing paint from a paint supply container and recirculating said
paint and delivering said paint at elevated pressures for spraying from a
spray gun, comprising:
a. a frame assembly having a base portion for attaching said motor-driven
pump thereto, and having an upwardly extending handle portion;
b. a pair of wheels rotatably attached to said frame assembly and having
their wheel surfaces extending below said base portion;
c. a paint container shelf attached to said frame assembly at a position
elevated above said motor-driven pump and projecting forwardly to position
its gravitational center point forwardly of said wheels attachment point;
and
d. means for electrically interconnecting said paint container shelf and
said motor-driven pump to a common voltage ground.
4. The apparatus of claim 3, wherein said paint container shelf further
comprises a circumferential lip for snugly encompassing said paint
container.
5. The apparatus of claim 4, wherein said paint container shelf further
comprises a central recessed portion for accepting a paint container of
smaller size than said circumferential lip size.
6. The apparatus of claim 5 wherein said paint container shelf further
comprises a pivotal mounting connection for attachment to said frame
assembly, and a bottom saddle for supporting against said motor driven
pump. |
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Claims |
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Description |
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BACKGROUND OF THE INVENTION
This invention relates to an apparatus for spraying paint, and more
particularly to an apparatus for spraying paint under high hydraulic paint
pressures wherein the entire apparatus and paint container are portable
for access to a work station which may be remotely located from an
electrical power source. The apparatus includes an electric motor for
operation on conventional house power, and the apparatus is primarily
intended for painting areas in and around houses and other buildings. The
apparatus includes an electric extension cord for plugging into a normal
110 volt AC outlet.
Portable paint sprayers have been developed in the past for purposes
similar to the present invention. They generally include an electric or
gasoline powered pump mounted on a wheeled frame assembly for transporting
to a work station. Once located at the work station, a paint container is
placed nearby and is fluid coupled to the apparatus by means of a suction
hose, and an attached spray hose with spray gun is utilized to enable the
operator to spray paint at a distance of from 25 to 50 feet from the
apparatus. When the apparatus is again moved to a new work station, it is
disconnected from the paint container and wheeled to the new location. The
paint container is hand-carried to the same location and again fluid
coupled to the apparatus so that painting operations may continue.
The high hydraulic paint pressures utilized in an apparatus of this type
create a problem of electrostatic voltage build up which must be dealt
with. Paint fluid flow through these systems results in a frictional
electrostatic charge accumulating on and along the components in contact
with the paint. This electrostatic voltage build up if discharged
suddenly, will cause a spark which could ignite paint fumes to create a
fire or explosion. Prior art apparatus has minimized this problem by
utilizing a grounded wire connected between the electric motor assembly
and the paint spray gun to drain off any electrostatic potentials that
would otherwise develop. Electrostatic potentials developed on or in the
paint container itself are a lesser problem, and it has been assumed that
these voltages discharge by virtue of the fact that the paint container is
generally placed upon the ground. To the extent that electrical continuity
is imperfect, there still remains an electrostatic discharge hazard in
following this procedure, and it may be recommended by manufacturers of
such equipment to provide an auxiliary ground connection between the paint
container and the motor assembly.
SUMMARY OF THE INVENTION
The present invention comprises a portable paint cart having two wheels for
transporting the entire painting apparatus, including the paint container.
The paint cart utilizes a forwardly projecting metal frame which contacts
the ground and serves to support the apparatus in a tripod fashion while
it is being used. The apparatus utilizes a conventional electric
motor-driven paint pump which receives its input via a suction hose
clamped to the paint container and feeds its output over a suitable
hydraulic hose and spray gun. The apparatus includes a hinged paint
container shelf which may be placed in a vertical position for cleaning
and draining excess paint accumulations and which may be placed in a
horizontal position in supporting contact with the motor assembly for
holding the paint container during painting operations. The apparatus also
includes a rack for holding accumulated electric cord and paint hose, and
for hanging hereon the spray gun when it is not in use. Because of the
completely self-contained apparatus it enables the transporting of all
equipment associated with the paint spraying operation from one work
station to another without disconnecting or uncoupling the paint container
from the assembly.
BRIEF DESCRIPTION OF THE DRAWINGS
A preferred embodiment of the invention is described herein, and in
conjunction with the attached drawings, in which:
FIG. 1 illustrates the invention in isometric perspective view;
FIG. 2 shows a side view of the invention; and
FIG. 3 shows a top view of the invention.
DETAILED DESCRIPTION
FIG. 1 shows the invention in perspective view, having a paint container
mounted thereon. Paint container 10 is typically a standard 5 gallon paint
can which snugly fits inside of the raised shoulder of shelf 12. Shelf 12
is hinged at points 14 by means of a pin pivotally attaching shelf 12 to
tubular frame 15. Tubular frame 15 may be bent from a single tubular piece
into the shape illustrated in FIG. 1; alternatively, frame 15 may be
hinged at a convenient point along the handle portion for folding into a
compact size for storage.
A frame support member 18 is bolted across two parallel tubular members of
frame 15, for strengthening the apparatus and for providing a mounting
surface for the motor and pump assembly. Electric motor 20 is securely
bolted to this frame support member 18, and pump assembly 22 is bolted to
the motor and driven thereby. Motor 20 may be any electric motor
conveniently sized for this application, but preferably is constructed
having an explosion proof motor casing. For example, electric motor model
No. 1111513411, manufactured by Franklin Manufacturing Company, Bluffton,
Indiana, has been found suitable for this purpose. Similarly, pump
assembly 22 may be of any convential construction suitable for driving by
a rotary shaft. In the preferred embodiment applicant has selected a
diaphragm pump assembly for this purpose, which assembly obtains its
rotary drive power from motor 20, and delivers paint via hose 24 at up to
0.25 gallons per minute, and 800 to 3,000 pounds per square inch (p.s.i.).
A suction hose 26 is coupled between the pump inlet and the interior of
container 10, and may be clamped to the edge of container 10 for support
by means of a threaded clamp 13. Clamp 13 may be a simple U-clamp having a
threaded wing nut for tightly securing against the container edge. The
preferred embodiment has a return tube 28 connected between the pump 22
outlet and the paint container 10. Return tube 28 may also be clamped to
the paint container edge by means of clamp 13.
The apparatus has a pair of wheels 30 rotatably attached to frame member
15. Wheels 30 project below the underside of frame support 18 to provide
clearance for transporting the apparatus while maintaining as low a center
of gravity as possible.
A bracket 16 is attached near the upper end of frame 15 for purposes of
providing a support member for holding excess spray hose and electric
cords. Rack 16 is also adapted for hooking thereon a paint spray gun, so
that the entire apparatus and its associated hoses and equipment may be
completely self-contained and supported while the apparatus is being
moved.
An electric extension cord 32 is used to connect the apparatus with a
convenient source of household power. An on-off switch 33, which may be
actuated by foot control, controls the application of electric power to
motor 20. When switch 33 is turned on, motor 20 operates and drives pump
22. Pump 22 draws paint from paint container 10 via suction hose 26, and
pumps the paint at an elevated pressure through hose 24 to the paint spray
gun 25. When the paint spray gun trigger is not actuated, pump 22 may be
caused to recirculate paint back to the container via return tube 28.
One of the advantages of the invention which is apparent from FIG. 1 is the
positive inlet pressure which is made possible by means of the
construction illustrated. Because paint container 10 is elevated above the
inlet 33 to pump 22, paint is continually delivered to pump 22 at a
positive pressure. This positive pressure maintains a prime in hose 26 and
enables pump 22 to immediately begin pumping paint as soon as motor 20 is
turned on. This is true even after the apparatus has been moved from one
location to another, for the movement of the apparatus does not disturb
the paint prime in hose 26 nor does it require any intital setup prior to
renewing the painting operation other than restarting motor 20.
Pump assembly 22 has a pressure control 17 for adjusting the fluid pressure
of the material being sprayed. Control 17 is typically adjusted to provide
the desired quality and quantity of fluid to be sprayed by spray gun 25,
usually in the range of 800 p.s.i. - 2,000 p.s.i. This pressure may be
relieved by opening priming valve 36, which fluid couples paint from pump
assembly 22 directly back to container 10 via return tube 28.
FIG. 2 illustrates the invention in side view, with a typical paint
container shown in dotted outline. The apparatus is pivotal about the axle
31 of wheel 30 for transporting. The center of gravity of the apparatus is
approximately at the position labeled G, which is well forward of the axle
pivot point, and approximately at the same height. If a 5 gallon paint
container is placed on shelf 12, the center of gravity of the apparatus
still remains well forward of the axle 31, insuring stability of the
apparatus even under conditions when the frame 15 is tipped for
transporting purposes. The combined center of gravity of the paint
container and apparatus is designed so that paint will spill from the
container 10 before the apparatus becomes unstable and falls over on its
handle as a result of tipping.
FIG. 3 illustrates the invention in top view. From this figure, it is
apparent that the center point of shelf 12 is forward of axle 31. This
again insures that the center of gravity, even in cases where a full paint
container is placed on shelf 12 is forward of the pivot point for the
apparatus. The raised edge of shelf 12 is sized so as to conveniently and
snugly accept a standard 5 gallon paint container. A center recessed
portion 11 of shelf 12 is sized to snugly accept a standard 1 gallon paint
container. Thus, either of these paint containers will fit within shelf 12
and will be supported by an edge shoulder for stability.
In operation, the paint container 10 is placed on shelf 12 and suction hose
26 is inserted into the paint within the container. Hose clamp 29 is
threadably clamped to the edge of the paint container to secure the
suction hose and return tube. During initial startup it is necessary to
prime the pump and paint delivery hose. This is accomplished by opening
priming valve 36 and then turning on switch 33. Priming valve 36 couples
return tube 28 to the pump and provides a predetermined and fixed pressure
load from the pump back to container 10. This load is overcome by the
pump, and paint is drawn through suction hose 26 and recirculated back to
container 10 via return tube 28 until priming valve 36 is shut off. Once
recirculation has begun in this manner priming valve 36 may be shut off
and the spray gun may be actuated for painting. Whenever spray gun 25 is
triggered, the pump draws paint from the paint container and forces it out
through the paint delivery hose under high pressure. When the paint spray
gun trigger is released, spraying stops but the suction hose 26 and paint
hose 24 remain full of paint and fully primed for the next painting
operation. Under this condition, the motor may be turned off, and the
apparatus may be moved from one location to another, and when the motor is
again restarted the pump assembly will immediately begin delivering paint
upon actuation of the spray gun trigger. Since the paint container is
always elevated above the pump assembly the pump prime, once established,
remains developed under the pressure head caused by the difference in
elevation between the container and the pump.
The build up of electrostatic voltages is common in apparatus of this type,
and is caused by the frictional flow of paint through the system. It is
important, therefore, to provide an electrical ground to all portions of
the apparatus where electrostatic voltages could otherwise develop, so as
to eliminate the possibility of an electrical spark igniting paint or
paint fumes. The electric cord 32 has an electrical ground connection
which is connected to the chassis of motor 20. Since motor 20 is securely
bolted to frame support 18 and frame 15 the entire frame is electrically
grounded. Shelf 12 is preferably made of metal and is attached to frame 15
so as to insure that it is grounded, and since paint container 10 is
inserted into the recess of shelf 12 it contacts the electrical ground
also. In order to improve the electrical connection between container 10
and shelf 12 it may be desirable to construct shelf 12 with a corrugated
surface, or other surface having sharp projections thereon. An alternative
or additional approach to electrically grounding paint container 10 is to
provide a ground wire attached to either suction hose 26 or return tube
28, having one of its ends connected to the motor chassis and its other
end connected to clamp 29.
Of course, a ground wire is also provided in paint hose 24, connecting
spray gun 25 electrically to the motor chassis in a manner which has been
done previously in the art. All these electrical connections provide a
common grounding network for portions of the apparatus having paint
contact or paint flow therein, thereby eliminating the usual problems
associated with static electricity otherwise found in similar paint
sprayers.
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Description |
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