Note: Descriptions are shown in the official language in which they were submitted.
CA 02275085 1999-06-14
INCREASED LITTER STORAGE FOR VACUUM TRASH COLLECTOR
THE FIELD OF THE INVENTION
The present invention relates to vacuum trash collection vehicles of the type
which use a large diameter hose, for example eight inches, to collect debris.
Such a vehicle
is driver operated and the hose is supported on a boom and manipulated by the
driver from
the driver's seat as he controls the movement and direction of the vehicle.
U.S. Patents
3,710,412, 5,058,235, 5,138,742, and 5,519,915 all show typical devices of
this type.
The present invention is particularly useful in that it enhances the litter
storage
capability of the debris container for such a machine. The debris canister is
pivotally
mounted on the frame of the vehicle and may be moved from a closed position in
which it is
covered by the vacuum fan mounted cover, a partially open position in which
the driver or
operator may have access to the debris canister, and a fully open position in
which the debris
containers may be removed from the debris canister. The debris canister will
acconunodate
two large size debris containers such as disposable plastic bags or the like,
each of which
may have a capacity of approximately 50 gals. There is a deflector plate which
is positioned
at the top of the debris canister and in the flow path of debris which comes
from the vacuum
hose and is directed towards the debris canister. The deflector plate ensures
that both of the
debris containers, whether they be plastic bags or otherwise, will be
relatively equally filled
with debris. Preferably the deflector plate is mounted in the center of the
debris canister and
may in addition brace the upper portion of the canister. The debris
containers, such as
plastic bags, may have rigid liners, ensuring that they remain in a fully open
position for
debris collection during use.
CA 02275085 1999-06-14
SUMMARY OF THE INVENTION
The present invention relates to vacuum trash collection vehicles and in
particular to such a vehicle which has increased debris collection capability.
A primary purpose of the invention is a vehicle as described in which the
debris canister has the capability of mounting side-by-side debris containers
such as plastic
bags, each of which may have the capacity of prior art debris collection
containers.
Another purpose is a vacuum trash collection vehicle of the type described in
which the debris canister mounts a deflector plate at the top thereof, which
plate is in the
path of debris flow from the collection hose toward the debris canister with
the deflector
plate dividing the debris as it moves into the side-by-side debris containers.
Another purpose is a vacuum trash collection vehicle as described in which the
debris canister may be moved between a closed position, used for debris
collection, a
partially open position in which the debris containers are accessible to the
operator for
securing the top thereof, and a fully open position in which the debris
canister has been
moved to a location in which the debris containers may be easily moved without
substantial
effort on the part of the operator.
Other purposes will appear in the ensuing specification, drawings and claims.
BRIEF DESCRIPTION OF THE DRAWINGS
The invention is illustrated diagrammatically in the following drawings
wherein:
Fig. 1 is a side view of a trash collection vehicle of the type disclosed
herein;
Fig. 2 is an enlarged partial side view of the support boom;
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Fig. 3 is a section along plane 3-3 of Fig. 2;
Fig. 4 is a bottom view of the boom support lever;
Fig. 5 is a section along plane 5-5 of Fig. 2;
Fig. 6 is an enlarged view of the connection between the telescopic control
rod
and the support element of Fig. 5;
Fig. 7 is an enlarged side view of the operator control assembly and its
connection to the hose;
Fig. 8 is a top view of the operator handle;
Fig. 9 is a section along plane 9-9 of Fig. 8;
Fig. 10 is a top view showing the connection between the hose support ring
and the hose yoke;
Fig. 11 is a partial enlarged side view of the vehicle showing the pickup head
and its connection to the vehicle frame and front axle;
Fig. 12 is a top view of the pickup head and its connection to the vehicle
front
axle;
Fig. 13 is a front view of the pickup head and its connection to the vehicle
frame;
Fig. 14 is a side view, on an enlarged scale, showing the debris canister and
the mounting thereof on the vehicle frame;
Fig. 15 is a section along plane 15-15 of Fig. 14;
Fig. 16 is a side view of the deflector plate mounted in the debris collection
plenum chamber;
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Fig. 17 is an exploded view illustrating the trash collection canister and the
rigid liners used therein;
Fig. 18 is a side view, in part section, of the debris canister;
Fig. 19 is an enlarged partial side view of the pivotal connection between the
debris canister and the vehicle frame;
Fig. 20 is a top view of the connection of Fig. 19;
Fig. 21 is an enlarged side view, similar to Fig. 19, but showing the debris
canister in a second position; and
Fig. 22 is a side view, similar to Figs. 19 and 21, but illustrating the
debris
canister in a third position.
DESCRIPTION OF THE PREFERRED EMBODIMENT
The litter collection vehicle of the present invention includes a body 10
mounted on rear wheels 12 and front wheels 14. The body may support a driver's
seat 16
and there will be the typical controls for the driver to use in operating the
vehicle. These
may include foot pedals 18 and 20 and a steering wheel 22, as well as other
conventional
devices found on vehicles of this type.
The vehicle includes both a pickup hose with supporting control elements and
what is described as a pickup head. The hose is indicated at 24 and the pickup
head is
indicated at 26. The hose may be supported by a counterbalance system
indicated generally
at 28 and, in the Fig. 1 position, provides the vacuum to the pickup head 26
by being
mounted thereon. The opposite end of hose 24 is connected to a cover 30 within
which is
housed a vacuum fan 32 indicated in dotted lines in Fig. 14. Thus, suction
will be applied to
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the end of the hose 24 connected to the vacuum fan, with the free end of the
hose, when it is
not mounted on the pickup head 26, being used by the operator to pick up
litter.
The hose counterbalance support system 28 is detailed in Figs. 2-4 and
includes a U-shaped roll bar 34, the upper end of which mounts a generally U-
shaped
bracket 36. Bracket 36 pivotally mounts a rod 38 which in turn is attached to
one end of a
rear support arm 40. The support arm will be seated on the upper flange 42 of
bracket 36
and will pivotally move to either side relative to roll bar 34 by means of the
pivotal
connection comprising pin 38 and bracket 36.
Rear support arm 40 carries a mounting bracket 44 which in turn mounts a
hose support 46 which is one of several such hose supports used to hold the
hose 24 up
above the body 10, as shown in Fig. 1. Rear support arm 40 is pivotally
connected, as at
48, to a front support arm 50 which mounts a series, in this case three, hose
supports 52.
Pivotally mounted to rear support arm 40, as at 56, are a pair of spaced gas
springs 54. Each of the springs 54 has a forwardly extending piston rod 58,
with the two
springs being pivotally mounted to opposite sides 60 of an intermediate lever
62 illustrated in
side view in Fig. 2 and in bottom view in Fig. 4. As shown in Figs. 2 and 4,
the leftwardly-
extending portions of the sides 60 will pivotally mount the two gas spring
piston rods 58. It
will be understood that the gas springs could alternatively be installed with
their piston rods
and cylinders in opposite locations. Lever 62 is pivotally mounted, as at 64,
to the forward
support arm 50 and its forward extensions 66 pivotally mount a pin 68 which
threadedly
mounts a screw 70, as particularly shown in Fig. 3. The screw 70 has a handle
72 which
rotates the screw. The upper end of the screw is mounted loosely in a pin 74
by a pair of
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lock nuts 76, with the pin 74 being rotatably or pivotally mounted within the
interior of the
forward support arm 50. Rotation of the handle 72 has the effect of raising
and lowering the
pivotal connection of the front end of lever 62 relative to the support arm
50, which in tum
lowers or raises the pivotal connection between the gas springs and the rear
end of lever 62.
The raised and lowered positions of the lever 62 are illustrated in Fig. 2,
with the raised
position being in solid lines and the lowered position being in broken lines.
Changing the
height of the connection between the gas springs and lever 62 varies the
effective moment
arm through which the springs are pushing so they exert more or less lifting
force on the
front support arm 50. This has the effect of floating the hose pickup nozzle
higher above or
closer to the ground. Gas springs require less operator manipulative force for
hose
movement than prior art leaf springs.
The support arms 50 and 40, as their names imply, support the hose 24 in the
position of Fig. 1 so that the operator may manipulate the hose, as described
hereinafter.
The height of the pickup end of the hose above the surface being cleaned is
controlled by the
handle 72, easily accessible to the operator while in the seat 16, again as
shown in Fig. 1.
Movement of the hose 24 is controlled by a telescopic arm assembly 80,
shown in Fig. 1, and illustrated in detail in Figs. 5-10. It is comprised of
upper tube 82,
sleeve 100, handle 106 and fork 104. Focusing first on the upper mounting for
the arm
assembly, the top of the arm assembly 80, an upper tube 82, is pivotally
mounted for
movement about a horizontal axis on a pin 84 extending through opposite sides
of a bracket
86. The bracket 86 is pivotally bolted to an anchor bracket 88, which in turn
is bolted to the
rear support arm 40 by bolts 90, particularly shown in Fig. 5. The bolts 90
also secure hose
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supports 92 which extend upwardly and outwardly from opposite sides of the
rear support
arm 40. The anchor bracket 88 may be mounted to extend to either the left side
or the right
side of the hose support, depending upon the preference of the machine
operator or
depending upon whether more debris will be picked up on the left or right side
of the
machine. This provides an advantage to the operator in terms of the ease of
use of the hose
for picking up litter. As clearly shown in Fig. 6, the upper end 82 of the
telescopic support
rod is pivoted about a horizontal axis, as shown by arrows 94, and is pivotal
about a vertical
axis, as shown by arrows 96. Thus, the control for the operator to manipulate
the hose is
essentially universally movable about its upper support assembly.
The telescopic arm assembly 80 includes the upper tube 82, the end of which
is mounted as described. The tube 82 extends within a sleeve 100, shown in
Fig. 7, with
these elements being telescopically movable to vary the length of the support
assembly. At
the lower end of assembly 80 there is a stub shaft 102 which also extends into
and is pinned
to the sleeve 100 at 98, with the stub shaft 102 being connected to and
forming part of a fork
104, which is indirectly connected to and carries the lower end of the hose
24.
The handle for use by the operator in manipulating the hose is indicated
generally at 106 and will be located along sleeve 100 by two collet-type clamp
collars
indicated at 108 and 110 located at opposite ends of the handle 106. The
handle 106 may be
moved along sleeve 100 by loosening, moving and then tightening the collars
108 and 110.
The handle 106 includes a tubular portion 112 and three separate hand gripping
areas which
are all joined together. There is a vertical hand gripping area 114 and left
and right hand
gripping areas 116 and 118. The hand gripping areas are tubular, as indicated
by the cross
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section of Fig. 9. The operator may grip either the left side, the right side
or the vertical
portion of the handle which provides both ease in controlling movement of the
hose and
substantially lessens fatigue on the part of the operator by allowing use of
either hand and
shifting of the hand to different positions when manipulating the hose.
Of particular advantage in the handle shown and described herein is that it
fits
loosely over the telescopic tube assembly 80 and swivels freely relative
thereto. Thus, when
the operator holds the handle to move the hose around, it always stays aligned
with the
operator's body or arm, regardless of how the tube is swung about.
The fork 104 which forms the lower connection point for the telescopic tube
assembly 80 is pivotally connected to a ring 120 as particularly shown in
Figs. 7 and 10.
There are stub pivot shafts 122 attached to and extending outwardly from the
ring with the
fork 104 being pivotally attached thereto.
The ring 120 loosely surrounds a pickup nozzle 124, as shown in the partial
section of Fig. 7, with the nozzle 124 extending inside of the hose 24 as at
126. A hose
clamp 128 secures the lower end of hose 24 to the upper end 126 of the nozzle,
again as
particularly shown in Fig. 7. Ring 120 is loosely retained between a shoulder
127 formed in
nozzle 124 and a flanged collar 129 fitted inside the end of hose 124. This
type of pivotal
connection between the hose and its control eliminates twisting of the hose,
which has
considerable torsional stiffness, and thus allows the operator to manipulate.-
or control the
hose with substantially less fatigue than prior art devices of a similar type.
The nozzle 124
has a guard ring 111 spaced from its open end by mounting brackets 113, which
provides an
air gap 115. The air gap 115 allows the operator to drag the hose along a
surface to be
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cleaned without vacuum causing it to stick to the ground. The ring 111 also
dislodges
flattened-out wet debris.
Figs. 11, 12 and 13 illustrate the mounting of the pickup head 26 on the front
axle 131. Brackets 130 are mounted to the top 132 of the pickup head and
rearwardly
extending arms 134 are pivotally mounted to each of the brackets 130. The arms
134, as
particularly shown in Figs. 11 and 12, are pivotally attached to a support
assembly 136
which includes a pair of torsion springs 138 mounted on bolts 140 to permit
yielding
movement of the pickup head 26. The assembly 136 includes an upwardly
extending flange
142 which will be attached by bolts 144 to the axle 131 of the front wheels
14. Thus, the
pickup head 26 may be responsive to contact with large debris in that it has
up, down and
twisting yielding movement due to the presence of the torsion springs 138.
At one side of the top 132 of the pickup head 26 there is a stub tube 133
which will support the hose 24 on top of the pickup head as illustrated in
Fig. 1. In this
position, the hose is not used as an independent litter pickup device, but
rather provides the
suction to the pickup head so that it may sweep a wide area for litter. The
pickup head has a
peripheral skirt, as is customary, with the skirt comprising an upper retainer
135 and a
depending flexible for example rubber skirt 137. The skirt 137 is peripheral,
but has an
opening on the left side, that being the side away from the stub tube 133,
with the opening
being indicated at 139. The skirt is also open across the front of the
machine, as at 141, so
that it may pass over debris to be sucked up by the pickup head. The advantage
in having
the opening 139 at the side of the pickup head opposite the point of suction,
that being the
stub tube 133, is that the air flow will be completely across the front of the
pickup head
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which may be either 40" or as much as 48" in width. By drawing air across the
full width
of the pickup head a high air velocity is obtained, and the debris which is
accessible at the
front of the pickup head will be moved across its width into the stub tube
133, through the
hose and into the debris containers. This provides a more efficient pattern
for movement of
picked up debris and litter. Also, by positioning the vacuum connection to one
side of the
pickup head, the area of maximum suction power may be located along a curb or
fence
where debris is more heavily concentrated.
The pickup head can be raised or lowered depending upon whether it is to be
used as the means for picking up litter or whether it is to be unused and
litter is to be picked
up by the hose 24. A pair of cables 146, as shown in Fig. 13, are attached to
the top 132 of
the pickup head 126 with brackets 127, with the cables each extending around a
pulley 148
and being dead-ended in a bracket 150. The pulleys 148 may be raised and
lowered, which
moves the pickup head away from or toward the surface to be cleaned. Each
pulley is
mounted on a pivotal arm 152 with the arms being connected by a lost motion
link 154. The
two arms 152 are connected together by a spring 156 and there is an actuating
lever 158
which is connected to the left arm 152 and to link 154 and has, at its lower
end, a spring 160
which is fixed to the vehicle frame. The upper end of actuating lever 158 is
connected by a
cable 162 to an actuator 164 shown in Fig. 11. The actuator is mounted on the
vehicle
frame and will either pull in or let out the cable 162, which will have the
end result of
raising or lowering the pulleys 148, which in turn raises or lowers the pickup
head. The
movement of the lever 158 is illustrated in Fig. 13 by the arrows 166 with
such movement
being effective to raise or lower the pulleys through the combination of the
arms 152, the
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springs 160 and 156, the lost motion link 154 and a stop 168, the position of
which is
controlled by a manual control knob 170. By using this knob, the operator may
control the
height above the ground to which the pickup head can be raised or lowered. The
actual
raising and lowering of the pickup head is done by the actuator 164 which also
will be
controlled by the operator from one of the dashboard mounted controls.
Figs. 14 through 22 illustrate the trash containers, the cover over them, the
vacuum system and the mechanism which permits variable tilting of the trash
containers for
convenient disposal of the collected debris by the machine operator. In Fig.
14, the vacuum
fan is illustrated generally at 32 and is located within the cover 30 and the
vacuum fan is
driven by a motor 172. Air is exhausted to atmosphere through an outlet 173.
The hose
inlet for the cover 30 where suction hose 24 connects is shown at 174 and
there is a further
inlet 176 which will be used with a wand pickup, the wand being illustrated
generally at 178
in Fig. 1. The wand will be used when the machine operator dismounts and moves
to pick
up debris from an area that is not accessible while riding on or driving the
machine.
The hose inlet 174 will direct debris into a plenum which is defined within
the
cover in the area 180 and located directly above a debris canister 182. The
debris canister
182, shown in Fig. 17, will contain two side-by-side debris containers, such
as plastic bags,
which will be maintained in an open position for collection of debris by
identical rigid inserts
184 and 186 shown in Fig. 17. The inserts, which may have open bottoms, will
be placed
inside of the plastic bags or other suitable debris containers and then the
plastic bags will be
placed side-by-side within the debris canister 182. The debris containers may
each be on the
order of 50 gals. in volume and will be seated side-by-side within the debris
canister so that
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both will be filled as debris is sucked up by either the hose 24 or the vacuum
head 26 or the
wand 178. Thus, the present invention provides essentially double the normal
capacity of
prior art machines of this type.
In order to insure that the debris containers are relatively evenly filled,
there is
a deflector plate 188, shown in Figs. 15 and 16, which is mounted
longitudinally in the
lateral center and near the top of the debris canister and which has
deflecting flanges 190
which will cause the debris which is sucked in generally centrally of the
debris canister to be
directed to both of the debris containers. The plate 188 extends
longitudinally completely
across the top of the debris canister so that it will deflect the incoming
litter laterally into the
two plastic bags.
The cover 30 is attached by a hinge 192 to a hinge mount 194 which permits
the cover to be raised up, as shown by dotted line 30A, so that the debris
canister may be
pivoted rearwardly as indicated by the two dotted line positions 208 and 210
in Fig. 14. The
hinge mount 194 is fixed on the top of a post 196 and there is a gas spring
198 mounted to
the hinge 192 and to the post 196 with the gas spring balancing the cover 30
and the vacuum
fan when the cover is lifted. There is a cable 200 which is fastened to the
debris canister at
202, as shown in Fig. 14 and to the post 196 at its opposite end, which cable
will limit the
pivotal movement of the debris canister as it is moved between the closed
position of Fig. 14
and the lower broken line tilted position 210 of this same figure. The
canister pivotal
mounting is indicated at 204 and the canister will rest upon a front mount 206
when it is in
the closed position shown in Fig. 14.
The debris canister may be moved first to a partially open position as shown
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by the broken lines indicated at 208 in Fig. 14 and finally to a full open
position shown by
the broken lines 210 in Fig. 14. In the first position, the trash bags may be
tied at the top
and at the second position the trash bags may be removed. The second position
210 provides
for removal of the trash bags with less vertical lifting than if they were in
the position 208,
which assists the operator and provides trash removal with much less effort.
Figs. 18 through 22 illustrate the mechanism for controlling movement of the
debris canister through the various positions described above. The bottom of
the canister has
a stop 208 bolted thereto with the stop having a stiffening gusset 210. A
portion of the
vehicle frame is indicated at 212 and the pivot 204 will be attached to this
portion of the
frame. The frame mounts a bracket 214 which carries two forward flanges 216
pivotally
mounting a block 218. Bracket 214 also has a floor 215 which serves as a
motion stop for
block 218, as shown in Figs. 19 and 21. The block 218 has a forwardly curved
nose 220
connected by two springs 222 to the bracket 214. The springs 222 urge the
block to rotate in
a counter clockwise direction about its pivot point 223.
Fig. 19 illustrates the closed position of the debris container with the block
218 being held firmly against bracket floor 215 by springs 222. Fig. 21
illustrates the
position 208 of the debris canister. The debris canister has been moved
rearwardly about its
pivot 204 until the curved area 224 of the block 218 has encircled a stop pin
226 carried near
the bottom of stop 208. The debris canister will be held in this position
because the springs
222 hold the block in the described position against bracket floor 215.
When it is desired to move the debris canister to the fully tilted position
illustrated at 210, a back and down movement by the machine operator on the
debris canister
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is effective to push the block 218 up, fully releasing the debris canister
from the Fig. 21
position and permitting its full movement to the Fig. 22 position. It is held
in this position
by the cable 200 and can move no further. Springs 222 go over center and hold
block 218
against bracket 214. When it is desired to move the debris hopper back to its
upright
position, pin 210 will rotate downward about pivot 204, and will strike the
tail end 219 of
block 218, causing it to rotate back to the position of Fig. 19.
Thus, the debris canister has several advantages. It has double the normal
litter capacity since it has side-by-side litter containers, each of which may
be about 50 gals.
in capacity. Further, it has more than one open position facilitating removal
of the debris
containers once the bags have been tied at their tops and permitting such
removal without
strain on the operator's back. Rather than lifting the bags directly up, they
may be removed
by sliding them rearwardly.
Whereas the preferred form of the invention has been shown and described
herein, it should be realized that there may be many modifications,
substitutions and
alterations thereto.
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