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Claims  |
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The embodiments of the invention in which an exclusive property or
privilege is claimed are defined as follows:
1. An apparatus for delivering golf balls to a transportation conduit at a
first location, the transportation conduit transporting the balls from the
first location to a second location remote from the first location using a
stream of air flowing through the transportation conduit, the apparatus
comprising:
a delivery conduit for receiving balls and delivering the balls to the
transportation conduit via a stream of air flowing in the delivery
conduit;
a feed conduit having an entrance end an exit end, the feed conduit
intermediate the entrance end and the exit end including a first valve and
a second valve spaced from the first valve, a staging section defined
between the first valve and the second valve, the staging section being
open to the to the entrance end when the first valve is open such that
balls may pass through from the entrance end into the staging section, the
staging section being open to the exit end when the second valve is open
such that balls may pass from the staging section through the exit end,
the first valve when closed separating the entrance end from the staging
section such that balls cannot pass through the entrance end into the
staging section, the second valve when closed separating the staging
section from the exit end such that balls cannot pass from the staging
section through the exit end, the exit end of the feed conduit connected
to the delivery conduit; and
a valve control system for maintaining the first valve open a period of
time sufficient to permit more than one ball to collect in the staging
section while the second valve is closed.
2. The apparatus of claim 1, further comprising a blower connected to the
delivery conduit.
3. The apparatus of claim 2, further comprising a suction conduit having
one end connected to the entrance end of the feed conduit for delivering
balls to the entrance end via suction.
4. The apparatus of claim 3, wherein the blower includes an intake port in
fluid communication with the suction conduit.
5. The apparatus of claim 1, wherein the feed conduit and the delivery
conduit intersect at an angle ranging from about 45.degree. to about
90.degree..
6. The apparatus of claim 1, wherein the first and second valves are
pneumatic valves.
7. The apparatus of claim 6, wherein the pneumatic valves are ball valves.
8. The apparatus of claim 1, wherein the first valve when closed prevents
flow of air between the staging section and the entrance end.
9. The apparatus of claim 1, wherein the second valve when closed prevents
the flow of air between the exit end and the staging section.
10. A method for introducing golf balls into a transportation conduit at a
first location, wherein the transportation conduit transports the balls
from the first location to a second location remote from the first
location using a stream of air flowing through the transportation conduit,
the method comprising the steps:
providing a delivery conduit connected to the transportation conduit;
providing a feed conduit connected to the delivery conduit, the feed
conduit having an entrance end and an exit end opposite the entrance end,
the feed conduit intermediate the entrance end and the exit end including
a first valve and a second valve spaced from the first valve, a staging
section defined between the first valve and the second valve, the staging
section being open to the entrance end when the first valve is open such
that balls may pass through the entrance end into the staging section, the
staging section being open to the exit end when the second valve is open
such that balls may pass from the staging section through the exit end,
the first valve when closed separating the staging section from the
entrance end such that balls cannot pass through the entrance end into the
staging section, the second valve when closed separating the staging
section from the exit end such that balls cannot pass from the staging
section through the exit end;
closing the second valve;
opening the first valve;
introducing a plurality of balls through the entrance end into the staging
section;
closing the first valve;
opening the second valve to permit the plurality of balls to leave the
staging section and be introduced into the delivery conduit.
11. The method of claim 10, further comprising the step of introducing the
balls into the entrance end by gravity.
12. The method of claim 1, wherein the step of closing the second valve
prevents airflow between the exit end and the staging section.
13. The method of claim 1, wherein the step of closing the first valve
prevents airflow between the staging section and the entrance end.
14. An apparatus for delivering golf balls to a transportation conduit at a
first location, the transportation conduit transporting the balls from the
first location to a second location remote from the first location using a
stream of air flowing through the transportation conduit. The apparatus
comprising:
a delivery conduit for receiving balls and delivering the balls to the
transportation conduit via a stream of air flowing in the delivery
conduit;
a blower connected to the delivery conduit;
a feed conduit having an entrance and an exit end, the feed conduit
intermediate the entrance end and the exit end including a first valve and
a second valve spaced from the first valve, a staging section defined
between the first valve and the second valve, the staging section being
open to the entrance end when the first valve is open such that balls may
pass through from the entrance end into the staging section, the staging
section being open to the exit end when the second valve is open such that
balls may pass from the staging section through the exit end, the first
valve when closed separating the entrance end from the staging section
such that balls cannot pass through the entrance end into the staging
section, the second valve when closed separating the staging section from
the exit end such that balls cannot pass from the staging section through
the exit end, the exit end of the feed conduit connected to the delivery
conduit; and
a suction conduit having one end connected to the entrance end of the feed
conduit for delivering balls to the entrance end via suction.
15. The apparatus of claim 14, wherein the blower includes an intake port
in fluid communication with the suction conduit.
16. A method for introducing golf balls into a transportation conduit at a
first location, wherein the transportation conduit transports the balls
from the first location to a second location remote from the first
location using a stream of air flowing through the transportation conduit,
the method comprising the steps:
providing a delivery conduit connected to the transportation conduit;
providing a feed conduit connected to the delivery conduit, the feed
conduit having an entrance end and an exit end opposite the entrance end,
the feed conduit intermediate the entrance end and the exit end including
a first valve and a second valve spaced from the first valve, a staging
section defined between the first valve and the second valve, the staging
section being open to the entrance end when the first valve is open such
that balls may pass through the entrance end into the staging section, the
staging section being open to the exit and when the second valve is open
such that balls may pass from the staging section through the exit end,
the first valve when closed separating the staging section from the
entrance end such that balls cannot pass through the entrance end into the
staging section, the second valve when closed separating the staging
section from the exit end such that balls cannot pass from the staging
section through the exit end;
closing the second valve;
opening the first valve;
introducing a plurality of balls through the entrance end into the staging
section using a suction conduit;
closing the first valve; and
opening the second valve to permit the plurality of balls to leave the
staging section and be introduced into the delivery conduit. |
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Claims |
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Description |
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FIELD OF THE INVENTION
The present invention generally relates to an apparatus and a method for
efficiently and safely transporting balls, especially golf balls, from one
location to another location.
BACKGROUND OF THE INVENTION
With the popularity of golf, and the limited number of courses available
for play, avid golfers typically hone their skills by visiting driving
ranges on a periodic basis. These driving ranges provide the golfers with
containers of balls for practice. Typically, these balls are dispensed
from a mechanical dispenser. In larger ranges, these mechanical dispensers
are distributed throughout the facility. After the balls are driven into
the range, they are retrieved to a central location where they are
collected for delivery back to the dispensing units or washed and then
delivered to the dispensing units.
Presently, manual labor is used to deliver these balls back to the
dispensers. Typically this involves filling large containers, such as
garbage cans full of balls, and then transporting the ball-filled garbage
cans on a cart or trailer to the various dispensers. Because most
dispensers are top loading units, laborers are required to lift these
heavy containers over their heads in order to dump the balls into the
dispenser. This task is cumbersome at best and also is very physically
demanding. Because of the weight of the balls and the difficulty in
handling large containers, the potential for injuries to the laborers'
back or legs exists. Furthermore, the cost of this manual labor is
significant.
As an improvement to the manual distribution of golf balls to dispensers,
U.S. Pat. No. 5,228,168 to Hollrock et at. describes a ball delivery
system that relies upon moving air in a substantially vertical conduit to
deliver the balls from a central location to an inclined conduit where the
balls roll by gravity to a remote dispenser. These types of delivery
systems while meritorious in design have suffered from a lack of
commercial acceptance, partially due to their inability to deliver balls
over extended distances.
Another reason that these systems have met with minimal commercial
acceptance is their inability to effectively and quickly introduce batches
of balls into a horizontally flowing air stream. The Hollrock patent
describes a system for introducing one ball at a time into a vertically
rising air stream. Hollrock uses a vertically rising air stream because
Hollrock elevates the balls to a point where they can be gravity fed into
a dispenser. Based on the illustration in the Hollrock patent, gravity is
the primary force serving to transport the balls once they are elevated by
the air stream.
In order to deliver the balls the large distances, e.g., 100-500+ feet,
that are required at larger ranges, it is necessary to introduce batches
of balls into a horizontally moving air stream that is flowing at a
velocity necessary to transport the balls these distances. Because of the
availability of manual labor to distribute the balls, such a system must
be capable of reliably operating in a cost effective manner over extended
periods of time.
SUMMARY OF THE INVENTION
The present invention relates to an apparatus for delivering golf balls to
a transportation conduit through which a stream of air flows and serves to
transport the balls from one location to another. Preferably, the golf
balls are introduced in batches of two or more as opposed to singly. The
apparatus relies upon gravity to provide the driving force for introducing
the balls into the stream of air. In a preferred embodiment, the stream of
air is traveling in a substantially horizontal direction.
An apparatus formed in accordance with the present invention includes a
delivery conduit for receiving balls and delivering the balls to a
transportation conduit (connected to the delivery conduit) via a stream of
air flowing in the delivery conduit. Connected to the delivery conduit is
a feed conduit having an entrance end and an exit end opposite the
entrance end. The feed conduit intermediate the entrance end and the exit
end includes a first valve and a second valve spaced from the first valve.
A staging section is defined between these valves. When the first valve is
open, balls may pass from the entrance end of the feed conduit into the
staging section. When the second valve is open, balls may pass from the
staging section to the exit end of the feed conduit and into the delivery
conduit. The first valve, when closed, separates the entrance end from the
staging section such that balls cannot pass into the staging section from
the entrance end. Likewise, the second valve, when closed, separates the
staging section from the exit end such that balls cannot pass from the
staging section to the exit end.
In another aspect, the present invention relates to a method for
introducing golf balls into a transportation conduit at a first location,
wherein the transportation conduit transports the balls from the first
location to a second location remote from the first location using a
stream of air flowing through the transportation conduit. A method carried
out in accordance with this aspect of the present invention includes the
steps of providing a delivery conduit connected to the transportation
conduit and providing a feed conduit connected to the delivery conduit,
wherein the feed conduit has an entrance end and an exit end opposite the
entrance end. The feed conduit intermediate the entrance end and the exit
end includes a first valve and a second valve spaced from the first valve.
A staging section is defined between these valves. When the first valve is
open, balls may pass into the staging section from the entrance end of the
feed conduit. When the second valve is open, balls may pass from the
staging section to the exit end. The first valve, when closed, separates
the staging section from the entrance end such that balls cannot pass into
the staging section from the entrance end. The second valve, when closed,
separates the staging section from the exit end such that balls cannot
pass from the staging section to the exit end. One cycle of the method
starts with the second valve being closed and the first valve being open.
This permits a plurality of balls to pass from the entrance end of the
feed conduit into the staging section. The first valve is then closed
followed by opening of the second valve that permits the plurality of
balls to leave the staging section and exit the feed conduit as they are
introduced into the delivery conduit where the balls are then delivered to
the transportation conduit. The second valve is then closed and the first
valve opened to restart the cycle.
The apparatus and method of the present invention allow for the effective
and efficient introduction of golf balls into a flowing air stream. The
apparatus and method use commercially available components that provide
reliable and cost effective performance. The practice of the present
invention permits range owners to deliver golf balls to dispensers that
are extended distances (e.g., 500+feet) from a central location where the
balls are introduced into the stream of air flowing in a transportation
conduit. The apparatus has a minimum number of mechanical parts, can be
constructed economically and has proven to operate reliably with low
maintenance requirements. The apparatus and method will allow range
operators to quickly recoup their initial investment in such a system by
avoiding the cost associated with the manual labor needed to deliver the
balls to the dispensers.
BRIEF DESCRIPTION OF THE DRAWINGS
The foregoing aspects and many of the attendant advantages of this
invention will become more readily appreciated as the same becomes better
understood by reference to the following detailed description, when
considered in conjunction with the accompanying drawings, wherein:
FIG. 1 is a schematic illustration of a ball delivery system; and
FIG. 2 is a schematic illustration of a system for introducing golf balls
into a transportation conduit carrying a stream of air formed in
accordance with the present invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
Referring to FIG. 1, a typical driving range includes an arrangement of a
ball washer/hopper 20 that delivers golf balls to a delivery system 30 in
which the apparatus and method for introducing balls into a flowing air
stream is implemented. The air stream receives the balls and delivers them
through lines 40 to dispensers 50 located at various locations around the
driving range.
Lines 40 are typically round tubing, preferably having an inner diameter of
approximately two inches. It should be understood that the inner diameter
of air lines 40 may vary depending upon the size of the golf balls, the
length of the run, and the pressure needed within the air lines. Lines 40
can be made from any material, such as flexible plastic, suitable for
burying underground and for running through structural elements of a
building. As described below in more detail, one end of an air line is in
fluid communication with a ball delivery system formed in accordance with
the present invention. The opposite end of the air line feeds into a
dispenser 50. Depending upon the number of dispensers, a single air line
is attached to the ball delivery system 30 and then a downstream Y or
other structure can be provided to direct the balls to additional air
lines connected to different dispensers.
In the following description, transportation conduit 74 in FIG. 2 is
identical to air lines 40 in FIG. 1. Referring to FIG. 2, an embodiment of
an apparatus for delivering golf balls to a transportation conduit
includes an air blower 60 having an exhaust port 62 that is connected to
the entrance end 64 of an air supply line 66. The opposite end 68 of air
supply line 66 is connected to a Y-shaped coupling 70. Y-shaped coupling
70 includes an exit 71, a primary entrance 73 and a secondary entrance 75.
The primary entrance and secondary entrance are defined by the arms of the
Y and the exit is defined by the base of the Y-shaped coupling. A straight
path for air to flow is defined between exit 71 and primary entrance 73,
with secondary entrance 75 forming an acute angle with this straight path.
Exit 71 of coupling 70 is connected to the inlet of transportation conduit
74. Air blower 60 provides a flow of air through air supply line 66 and
coupling 70, and when transportation conduit 74 is coupled to coupling 70,
into the transportation conduit.
The air supply line 66 and coupling 70 cooperate to provide a delivery
conduit into which balls are introduced in accordance with the present
invention and ultimately delivered to transportation conduit 74. In the
above description, air supply line 66 and coupling 70 are treated as
elements separate from transportation conduit 74. It should be understood
that air supply line 66 and coupling 70, and the delivery conduit they
define could also be considered to be part of transportation conduit 74,
or vice versa, a part of the transportation conduit could perform the
function of air supply line 66 and coupling 70.
Air supply line 66 can be made from any airtight material suitable for
transporting a flow of air. In a preferred embodiment, air supply line 66
is a plastic tube having an inner diameter of about one and one-half
inches. Coupling 70, like air supply line 64, is also made from an
airtight material, preferably, plastic such as the type used in the
plumbing industry. In a preferred embodiment, coupling 70 has an inner
diameter of about two inches. In order to fit snugly with the smaller air
supply conduit, coupling 70 at secondary entrance 75 is sized to
accommodate the smaller diameter of the air supply line compared to the
larger diameter of the transportation conduit 74.
Secondary entrance 75 is provided between primary entrance 73 and exit 71
of coupling 70 and in the illustrated embodiment forms an approximate 45
degree angle with the path defined between exit 71 and primary entrance 73
as described above. While in the illustrated embodiment, the angle is
approximately 45 degrees, it should be understood that larger or smaller
angles are also considered to be within the scope of the present
invention. Larger angles, e.g., 45.degree.-90.degree., are preferred when
it is desirable to provide more acceleration to the balls as they enter
the flowing air stream. When the angle is smaller, less acceleration is
provided to the balls. Secondary entrance 75 is coupled to the exit end 82
of feed pipe 78 as described below in more detail.
Feed pipe 78 is an elongate, preferably plastic, tube having an inner
diameter of about two inches. Feed pipe 78 includes an exit end coupled to
entrance port 75 of coupling 70 as explained above. Feed pipe 78 slopes
downward at an angle equivalent to the angle formed by the secondary
entrance 75 of coupling 70. The end of feed pipe 78 opposite exit end 82
defines an entrance end 80 into which golf balls are introduced as
described below in more detail.
Intermediate exit end 82 and entrance end 80 are entrance valve 84 and exit
valve 86. Entrance valve 84 is closer to entrance end 80 and exit valve 86
is closer to exit end 82. Entrance valve 84 and exit valve 86 are spaced
apart and define a staging section therebetween. The spacing between
entrance valve 84 and exit valve 86 can vary depending upon the number of
balls that one desires to place in the staging section. Applicants have
found that a staging section approximately 18 inches long is suitable when
one desires to introduce batches comprising two or more balls at a time,
preferably 10-15 balls can be introduced as a batch. When either entrance
valve 84 or exit valve 86 is closed, golf balls and air cannot flow
through feed pipe 78. In a preferred embodiment, both valves 84 and 86 are
pneumatic valves, and more preferably pneumatic ball valves, such as those
available as Model 220-THR-FP-316 from Familian Northwest. Pneumatic
valves are preferred because of their ability to reset themselves when the
closing of the valve is blocked, for example, by a golf ball. In contrast,
electronic valves are more likely to burn themselves out as they
repeatedly try to close when they are blocked by a golf ball. Ball valves
in contrast to other types of valves are preferred because the ball valves
when open provide an unrestricted path through the valve. When pneumatic
in nature, air pressure is provided to these valves by compressor 88, such
as a Speedaire Model No. 4B214. Operation of the valve is controlled as
described below in more detail by conventional delay-relay timer 90, such
as a Model No. 1A367 available from W. W. Grainger.
In the illustrated embodiment, the apparatus for delivering golf balls is
provided with an optional vacuum feature to enable the user to "suck" golf
balls into entrance end 80 of feed pipe 78. It should be understood that
the present invention is not limited to this suction feature and that golf
balls may be delivered directly to entrance end 80 by gravity, such as
from a ball washer or hopper capable of delivering balls to entrance end
80 from an elevation above entrance end 80.
In accordance with this aspect of the present invention, entrance end 80 of
feed pipe 78 is connected to a primary exit 91 of another Y-shaped
coupling 92. Y-shaped coupling 92 includes a primary exit 91 and a
secondary exit 93 that are defined by the arms of the Y-shaped coupling.
The leg of the Y-shaped coupling defines an entrance 95. The primary path
through Y-shaped coupling 92 is defined between primary exit 91 and
entrance 95. Secondary exit 93 extends from Y-shaped coupling at a
location intermediate primary exit 91 and entrance 95 and forms an acute
angle therewith. The secondary exit 93 is connected to one end of a
conduit 94 that has its opposite end connected to the intake 96 of air
blower 60. Entrance 95 is coupled to one end of a suction pipe 98. The
opposite end of suction pipe 98 is open and provides an entrance through
which golf balls may be sucked and delivered to entrance end 80 of feed
conduit 78. In order to prevent golf balls that have been sucked into
coupling 92 from blocking secondary exit 93, the inner diameter of
secondary outlet 93 is smaller than the outer diameter of the golf balls,
e.g., about one and one-half inches or less. This allows the secondary
outlet 93 to reject and prevent the golf balls from becoming lodged in
this portion of the Y and thus preventing the vacuum provided by the air
blower from extending into the suction pipe. Suction pipe 98, like feed
pipe 78 and transportation conduit 74, is preferably a plastic tube having
an inner diameter of about two inches. Coupling 92 is also preferably a
plastic coupling similar to those used in the plumbing industry and has an
inner diameter of approximately two inches between the primary exit 91 and
entrance 95 and an inner diameter of approximately one and one-half inches
in the secondary exit 93.
It should be understood that the exemplary materials and dimensions of the
respective elements of an apparatus formed in accordance with the present
invention have been described above. The use of pipes, couplings and
valves having different configurations or being made from different
materials are considered to be within the scope of the present invention.
The following describes the operation of the apparatus for delivering golf
balls to a transportation conduit described above without the optional
suction feature. Initially, air blower 60 is activated and provides air
flow through air supply line 66 and coupling 70 into transportation
conduit 74. Applicants have found that a one horsepower electric Fiji
vortex blower, such as a Model 42751 provides suitable flow of air through
these respective conduits. It should be understood that the present
invention is not limited to such size of blower and that larger or smaller
blowers may be utilized depending upon the particular requirements of a
particular driving range. The one horsepower vortex blower was found
suitable for delivering golf balls over lengths of at least 300 feet, when
two-inch plastic tubing was used for transportation conduit 74. If golf
balls are to be delivered over shorter distances, blowers having less
horsepower may be suitable; on the other hand, if balls are to be
delivered over larger distances, it may be necessary to use a blower
having greater horsepower.
The transportation conduits 74 are preferably relatively air tight. When
run underground, it is preferred that the conduits be accessible at spaced
intervals in order to clear the conduits of blockages. In order to adjust
the pressure in the conduits, one can provide exhaust ports at periodic
locations. In order to eliminate noise and wear, any change in directions
in the conduits is preferably provided by smooth transitional curves
provided by flexible tubing as opposed to sharp elbows.
Golf balls from a washer or hopper are available for delivery by gravity
into entrance end 80 of feed pipe 78. Initially, timer 90 controls valves
84 and 86 so that valve 84 is open, while valve 86 is closed. Gravity
causes golf balls introduced into entrance end 80 of feed pipe 78 to roll
down against closed valve 86. Because valve 86 is closed, air flowing
through coupling 70 is unable to blow back up through feed pipe 78 past
valve 86. After a predetermined period of time generally selected to
ensure a large enough number of golf balls fills the staging section,
timer 90 causes valve 84 to close, thus preventing any additional golf
balls from passing into the staging section. The number of golf balls in
the staging section to be delivered to the flowing stream of air is
preferably at least two, and more preferably 10-15. By ensuring that more
than one golf ball is delivered at a time, the system does not have to
cycle as quickly, thus reducing the wear and tear and maintenance required
for the valving system. After entrance valve 84 is closed, timer 90 opens
valve 86, thus allowing the golf balls in the staging section to roll into
coupling 70 and into the stream of air supplied by air supply line 66. Any
possible flow of air through feed pipe 78 and out entrance 80 is blocked
by closed valve 84. Thus, there is no "rush" of air through feed pipe in a
direction opposite to that which the balls need to roll in order to leave
the staging section. In fact, because of a venturi effect created by the
flow of air past the location where secondary entrance 75 introduces the
balls into the flowing air stream, the batch of balls tends to be sucked
out of the staging section and into the flowing air. After a predetermined
period of time sufficient to allow the golf balls to pass by valve 86,
timer 90 closes valve 86 and opens valve 84, thus permitting the loading
cycle to repeat itself.
When the optional suction delivery system is employed, the connection to
the air intake of air blower 60 provides the needed suction to pick up
golf balls through line 94, coupling 92, and suction pipe 98. In this
manner, balls at a location which do not allow them to be delivered by
gravity into entrance 80 of feed pipe 78 can be sucked up to a point where
they can be delivered by gravity into entrance 80. This feature of the
present invention makes the present invention more readily adaptable to
preexisting operations that do not provide a ball washer or hopper having
the necessary elevation to deliver the golf balls via gravity to the feed
pipe.
The present invention provides a reliable and effective means of delivering
golf balls into a flowing stream of air for delivery to remote locations.
It should be understood that the present invention has been described in
the context of a preferred embodiment and that other configurations
relying upon the unique valving system and suction feature described above
are within the scope of the present invention.
While the preferred embodiment of the invention has been illustrated and
described, it will be appreciated that various changes can be made therein
without departing from the spirit and scope of the invention.
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