[0001] This invention provides a compaction device for use on refuse collection and transportation
vehicles having a rear loading system, comprising:
- a shroud consisting of two side walls, a front wall, a rear wall for coupling with
the vehiche body, an arc-shaped bottom (hopper), and means capable of conveying and
compacting refuse into the vehicle body, consisting of:
- a plate provided with two pins projecting from the plate upper edge which can slide
within a pair of straight-lined guides provided on the side walls of the shroud in
an upper wall only;
- a pair of connecting rods hinged on one side to the side wall frame, at a point near
the front wall of the shroud and on the other side to a lower edge of said plate,
for guiding said lower edge along a curvilinear path during the up and down movements
of the plate;
- a shovel hinged to the plate lower edge;
- a pair of plungers fitted outside the side walls of the shroud, for driving displacements
of said plate along said guides;
- a pair of plungers hinged on one side to said plate and on the other side to arms
secured to said shovel for driving rotations thereof around a hinging point.
[0002] Compaction systems for use in collecting and transporting of refuse, based on the
principle referred to as a so-called "articulated monoshovel", are known and widely
spread throughout the world.
[0003] The system comprises a plate having a shovel hinged at a lower end thereof, the shovel
being driven by a pair of plungers for rotation around its hinging point, thereby
causing its lower end (base) to describe an arc of a circle, to pass from an open
position to a closed position. The entire plate and shovel assembly is slidable in
a direction from bottom to top and viceversa inside the side walls of a shroud-loading
hopper coupled to a body platform mounted to a truck, generally with a given, forwardly
oriented inclination to the vertical from the body platform.
[0004] In the various embodiments as presently used, the manner by which the shovel is hinged
to the plate and the mode of causing its rotation are essentially the same, and do
not show, in fact, any substantial differences in all of the proposed solutions.
[0005] On the contrary, the translational movement of the plate secured to the associated
articulated shovel for conveying and compacting the refuse from the bottom of the
hopper to the vehicle body platform, which platform is, in fact, placed at a higher
level than the hopper bottom, is in the prior art embodiments basically achieved according
to two systems, that is, either
a. by sliding movement on guides formed in the side walls of the loading shroud-hopper,
or
b. by means of a crank mechanism causing said translation to be performed through
an arc of circle.
[0006] In each of said systems some advantages and drawbacks are implied.
[0007] The solution using side-guides permits the plate to have a linear conformation, which
has to find a point of correspondence in the front wall of separation from the vehicle
body, placed in an upper area of the shroud in order to cause the refuse to enter
the vehicle body.
[0008] However, the drawback here is that the length of the guides has to be such as to
comprise the length of the plate which must be supported on two (lower and upper)
points, plus the length of sliding movement, so that, in their lower part, said guides
have to extend also into the area of the hopper where refuse is dumped.
[0009] This solution, therefore, implies all of the unadvisabilities that are involved in
the presence of refuse precisely in the area where the guides and associated shoes
or rolls supporting the plate are subjected to higer wear as a result of the refuse
counterthrust during the compaction step.
[0010] Furthermore, due precisely to the necessity that said guides should be extended into
this area, the guide wings must be inwardly directed, as a result of which the shoes
or rolls for sliding and supporting the plate are also involved in the refuse area,
with severe problems of maintenance as a consequence, since in order to replace the
shoes or the rolls the plate itself must be removed from the shroud.
[0011] Finally, since these shrouds have to be coupled to a truck body mounted in a rear
portion of the truck, the shroud size has to be contained within the standard limits
imposed for equipment jutting out from a rear axle of a vehicle.
[0012] Therefore, the inclination of these guides to the vertical has to be determined by
keeping in mind said limit size (from the end of vehicle body to the imposed jutting-out
limit thereof), so that this frequently gives rise to hard situations with shroud-hopper
terminating to a limit of said size, and difficulties in having further space available
for fitting such accessory devices as are necessary for lifting and tipping a container
to be dumped.
[0013] Embodiments in which translation occurs through crank mechanisms imply a path in
the form of an arc of a circle along which the plate is driven and as a result of
which the plate will be brought to occupy hopper space in the area where access for
dustbins to be dumped takes place, the plate interfering with these latter or their
covers as a consequence.
[0014] Moreover, the circular mode of movement, due to the necessity of maintaining contact
between the plate and the front wall partially closing the way towards the vehicle
body to convey refuse into this body, requires use to be made of an arc-shaped construction
for the plate which is more expensive and complicated as compared with a straightlined
costruction, and finally also the bottom of the hopper may have to show a non-homogeneous
outline, according to the type and combination of arcs that are described by the lower
part (base) of the shovel.
[0015] The present embodiment is characterized in that the translational movement of the
plate and shovel assembly is achieved by using a particular combination of connecting
rods and rectilinear sliding guides, wherein a pair of connecting-rods are hinged,
on one side, to the lowermost area of the plate and, on the other side, to the side
walls of the shroud at a location near the front area of access to the hopper, and
two pins protruding from the upper edge of the plate are slidlingly received in a
slot in a rectilinear guide provided in the upper walls of the shroud.
[0016] Said rectilinear guides are channel sections having a longitudinal slot traversed
by the pins, with their base being flush with the inside of the shroud walls and with
their wings being outwardly turned.
[0017] Said pins, supported by a shoe or roll, as an alternative, are able, under the effect
of two plungers placed outside the shroud walls, to cause the plate-shovel assembly
to follow a translational path in a direction from bottom to top and viceversa.
[0018] Advantageously, the conformation of said guides with their guide wings outwardly
turned, permits maintenance of the shoes or rolls to be easily performed, their possible
replacement being able to take place from outside the shroud walls, without any removal
of the plate being required.
[0019] Now, the invention will be described in detail as an example only, with reference
to the annexed figures wherein:
- figures 1 to 3 are schematic side views of the compaction device according to the
invention with the different handling mechanisms for handling the plate and shovel,
in different operative steps;
- Figure 4 is a front view of the compaction device according to the invention.
[0020] Referring now to the above figures, a vehicle body is shown at 1, in which refuse
is compacted and collected by using the compaction device of the invention.
[0021] This device consists of a shroud-hopper, indicated by reference numeral 2 as a wohle.
[0022] Said shroud has two side walls 3, a front wall 4 for refuse or dustbin access, a
rear wall 5 for coupling with a vehicle body, the rear wall 5 being closed at the
top by a wall 6 which at its lower end provides a point of reference 7 to the inside
surface of the movable plate, from which point, an opening 8 extending up to the vehicle
body platform permits the refuse to enter the vehicle body. Finally, from the level
of the body platform an arcuated bottom 9 extends downwardly into the lower part to
raise again up to the access threshold at a given level of the front wall for garbage
dumping, so as to define the base of a loading hopper.
[0023] Placed inside said shroud-hopper are the devices for conveying and compacting refuse
into the vehicle body, which comprise:
- a plate 10 capable of moving in a direction from bottom to top and viceversa, and
a shovel 11 hinged through pins 12 to the lower edge of plate 10;
- two guides 13 substantially consisting of channel sections placed with their base
at level with and inside the side walls of shroud 2 and having wings outwardly turned.
[0024] Formed in the base of said channel sections is an elongated slot 14 which slidingly
receives pins 15 extending from the upper edge of plate 10 and having shoes 16 fitted
thereon which provide for greater bearing surface on the wings of the sliding guide,
thereby to improve resistance to distortion of the assembly.
[0025] Guides 13 are rectilinear guides and translational movements of plate 10 are provided
by a pair of plungers 17 fitted outside the side walls of shroud 2 and arranged to
act on pins 15 protruding from the upper edge of plate 10.
[0026] Thus, plungers 17 drive the movement of plate 10 by said pins 15 sliding across the
longitudinal slot 14, which pins 15, supported on shoes 16, run along the portion
of guide 13 provided for translational movement of the plate-shovel assembly.
[0027] The lower part of plate 10 is, on the contrary, guided in its movement by a pair
of connecting rods 18 that are hinged, on one side, to the lower edge of plate 10
and, on the other side, to the frame of the side walls of shroud/hopper assembly,
at a point 19 in poximity to the front wall of this latter.
[0028] The fact that only the pins protruding from the upper edge of plate 10 are moved
along the guides 13, permits these guides to be short in length, thereby obviating
the necessity to have the guides continued towards and into the bottom of the shroud/hopper
assebly where the guides would interfere with the refuse being dumped.
[0029] Hinged to the lower edge of plate 10 is the shovel 11. The shovel 11 has a pair of
arms 20 attached thereto, and hinged to these arms 20 is the rod of a plunger 21 which
is in turn hinged, on the opposite side, to plate 10 at point 22.
[0030] Movement of plunger 21 causes the shovel 11 to rotate around pins 12 at the lower
edge of the plate.
[0031] The bottom 9 of the shroud/hopper assembly is arc-shaped, so that the lower edge
of the shovel, during rotation around pins 12 and in the path of translation of the
plate/shovel assembly, will follow said arc while maintaining contact with the bottom
of the hopper so that all of the refuse to be compacted is conveyed into the vehicle
body.
[0032] The operative sequence of the above-described device is as follows:
- At the end of a compaction cycle and, thus, at beginning of the subsequent cycle,
the shovel is in the position shown with a solid line in figure 1, with the plate
10 being fully lifted.
[0033] At this point plungers 21 are operated and cause the shovel to rotate in an anticlockwise
direction to bring it in a so-called open position, shown in dashed line, figure 1.
[0034] Now, the plungers 17 are operated and the retraction of these plungers 17 causes
the plate 10 to slide downwardly, whereby the plate-shovel assembly is moved to the
position in figure 2.
[0035] During this movement, the lower edge of the plate is guided by the connecting rods
18 causing it to move along a circular arc having a center at point 19.
[0036] Now, the plungers 21 are driven in extension to move the shovel in a clockwise direction
to bring it to the position in figure 3. During this movement, the lower edge of the
shovel will slidlingly move in contact with the arcuated bottom of the shroud so as
to collect all of the refuse, whwreupon the plate-shovel assembly can be moved again
upwardly, while maintaining the shovel in the closed state until position of figure
1 is reached once more.
[0037] During this movement the refuse is lifted to be pushed and compacted into the vehicle
body through the opening 8 provided in the rear wall 5 from point of reference 7 to
the platform of vehicle body.
Advantages
[0038] The hinging of the connecting rod to a fixed point in the side walls in proximity
to the front wall of the hopper, describes an arc whose concavity is in the direction
of the vehicle body and this permits the bottom of the hopper to be given a curvilinear
profile of continuity from bottom towards the body platform, thereby enabling the
end (base) of the shovel to constantly move in contact with the hopper bottom, in
the path for conveying refuse into the inside of the vehicle body.
[0039] Said connecting rod, besides performing the function of guiding the lower part of
the plate during its translation, also acts as a counterthrust means against reaction
due to the pressure as exerted by refuse bulk in the compaction step (with substantial
advantages over the solution using guides in that area where both maximum wear and
the interference of refuse with sliding movement of the roll or shoe occur).
[0040] The guide is straight-lined in shape and this permits shoes to be used as supports
for the pins; it is placed in an upper part of the door and, thus, in an area strange
to the presence of refuse; it is of a short length limited to the translational movement
only, that is the path the pins protruding from the upper edge of the plate have to
perform; and due to the fact that said guide is free from any constraint with respect
to the base of said plate hinged to said swinging connecting-rod, it can assume such
inclination to the vertical as is desired in order to obtain optimum profile of the
plate-shovel assembly for conveyance and compaction of refuse into the vehicle body.
[0041] Moreover, said point of contact-reference to which the internal surface of the plate
has to constantly adhere during its movement in order to convey and compact refuse
into vehicle body, has been suitably set so that the profile (inside surface) of contact-reference
of the plate should be basically linear, in spite of the use, in a lower part, of
a connecting rod and, in an upper part, of a guide which is linear, but relatively
short in length.
[0042] These features permit a plate to be constructed which is non-arcuated but substantially
rectilinear in shape, as a result of which a more simple and less expensive product
is obtained.
[0043] The fact that said upper guide of short length is linear in shape (that is a straight-lined
guide with no curves therein), permits sliding shoes to be used, which in comparaison
with hypothetical rolls provides the benefit of having a wider bearing base for counteracting
the pressure thrust on the guide wings.
[0044] By these arrangements it has been attempted to achieve all of the simplicity advantages
offered by a linear construction of the plate, typical of the solutions using guides
only, and which are: maximum utilization of space for access of the bins into hopper
without interference with the moving plate, an evenly curvilinear configuration of
the hopper bottom for conveyance of refuse into vehicle body, together with all of
the benefits resulting from using a connecting-rod or crank, in lieu and place of
guides, in the lower part only of the hopper where refuse is handled and where maximum
thrust and wear occur.
1. A compaction device for use on refuse collecting and transporting vehicles, characterized
in that said device comprises:
- a shroud consisting of two side walls, a front wall, a rear wall for coupling with
the vehicle body, an arc-shaped bottom (hopper), and means for conveying and compacting
refuse into vehicle body consisting of;
- a plate provided with two pins protruding from the plate upper edge and slidingly
received in a pair of rectilinear guides formed in the side walls of the shroud, in
the upper part thereof only;
- a pair of connecting rods hinged on one side to the frame of the side walls, at
a point near the shroud front wall, and, on the other side, to said plate lower edge,
for guiding said lower edge along a curvilinear path during the upward and downward
movements of the plate;
- a shovel hinged to the plate lower edge;
- a pair of plungers fitted outside the side walls of the shroud, do drive the displacements
of said plate on said guides;
- a pair of plungers hinged on one side to said plate and on the other side to arms
secured to said shovel to drive its rotations around the hinging point.
2. The compaction device according to claim 1, characterized in that the translational
movement of the plate-shovel assembly from bottom to top and viceversa, is guided
by means of a special combinaton of connecting-rods and rectilinear sliding guides,
and specifically in that the connecting rods provide for guiding the lower edge of
the plate and the rectilinear guides for guiding the upper edge thereof.
3. The compaction device according to claims 1 and 2, wherein said rectilinear guides
are channel sections provided with a longitudinal slot which is traversed by the pins
protruding from the upper edge of the plate, said guides having their base in flush
correlationship with the inside of the shroud wall and their wings outwardly turned.
4. The compaction device according to claim 3, wherein said guides are straight-lined
guides despite the use of a connecting rod hinged to the lower edge of the plate,
said guides being placed in the upper wall of the shroud over one portion only thereof
which corresponds in length to the path performed by said pins for the translational
movement.
5. The compaction device according to any preceding claims, characterized in that the
point of contact-reference which the internal surface of the plate must constantly
adhere to during its movement for conveying and compacting refuse into the vehicle
body, has been advantageously set so that the profile (inside surface) of contact-reference
of the plate should be basically linear, notwithstanding the use of a connecting rod
in the lower part and a straight-lined but short-in-length guide, in the upper part.
6. The compaction device for use on refuse collection and transportation vehicles as
described herein before and as shown in the annexed drawings.