I. Field of the Invention
The present invention relates generally to refuse vehicles, particularly to dedicated side-loading, or front loading, rear discharging refuse vehicle bodies designed for automated loading by container handling devices. The invention further relates to incorporating packer-ejector mechanisms which feature a relatively high speed packing phase and which provide full ejection of the packed contents of the storage enclosure of the truck body without any tipping of the truck body to discharge refuse. A charging or receiving hopper is provided located forward of the storage enclosure to facilitate automated loading using an associated short-radius boom-mounted container handling mechanism, or alternately, a front loading fork and arm system may be substituted. The relatively high speed reciprocating packer panel cycle moves refuse from the receiving hopper into a vehicle body storage enclosure through a front opening accessed from the hopper at a speed that eliminates the need for a follower panel.
II. Related Art
Refuse hauling trucks commonly include a hollow truck body dedicated to receiving, compacting, discharging refuse materials mounted on a heavy duty chassis which includes a cab. The truck body generally includes all the associated hydraulic, pneumatic and/or electrical operating mechanisms associated with packing and ejection equipment. In side-loading or front-loading systems, the truck cab is located in front of a receiving hopper which charges a rear storage enclosure. Refuse to be hauled is loaded into the receiving hopper as by dumping containers either manually or by using a mechanized container handling device mounted on the charging hopper, truck chassis or body. A packing device including a reciprocating or rotating ram, usually hydraulically operated, compacts the material moving it rearward into the storage enclosure or compartment. Loading of the charging hopper is accomplished through side or top openings. The bottom or floor of the charging hopper typically is located at a height equal to or above that of the storage enclosure.
It is known to provide a front or side loading refuse vehicle with a packing and ejecting mechanism that packs refuse from a charging hopper into an associated hollow storage enclosure and later fully ejects the refuse from the storage enclosure. An example of such a refuse truck body system is shown in U.S. Pat. No. 5,857,822. A further type of full-eject side loading refuse vehicle is shown in co-pending application Ser. No. 10/414659, filed Apr. 16, 2003, which is assigned to the same Assignee as the present application. That system includes a charging hopper floor that is dropped to accommodate manual loading and packs the storage compartment from beneath utilizing a vertically pivoting packer-ejector assist panel to clear the dropped or lowered floor area during ejection and optionally to assist the packing, if desired.
It is also known to provide a mechanized lifting and emptying apparatus situated on one side of the receiving hopper such that a container of interest may be retrieved on that side and emptied through a material receiving opening into the receiving hopper. Such an apparatus typically includes a holding or grasping device generally connected to an arm or extensible boom which is connected, in turn, to a base mounted on the vehicle. The arm or boom and grasping device are operated in concert to engage the container of interest, lift and dump the container into the receiving hopper in the vehicle. Such systems are typically operated using one or more hydraulic devices to extend or retract the boom, pivot the arm and open and close the grabbing device. Examples of such booms are shown in U.S. Pat. Nos. 5,967,731, 5,769,592 and 5,931,628.
While the prior devices of the related art have met with a certain amount of success, there remains a definite need for a refuse collection truck body that offers automated side or front loading in which the packer mechanism is constructed and operated in a manner which eliminates the need for a follower panel and which includes a full ejection mechanism which allows full emptying of the storage chamber of the truck body without the need for tipping.
By means of the present invention, there is provided a refuse collection vehicle body for loading, compacting, transporting and ejecting refuse materials. The truck body includes a hollow refuse storage enclosure for containing collected and compacted refuse that has a rear refuse discharge opening including a tailgate against which the refuse is packed and a forward refuse receiving opening which connects with a charging hopper disposed forward of the storage enclosure. The body is further designed with a substantially full width walled charging hopper that permits the addition of a set of front loader arms to the body so that it can be implemented as a front loading or side loading or even a combination front and side loading collection vehicle body.
A relatively high speed variable stroke cycle packer-ejector panel mechanism having a programmable operation is provided that can be operated using a packing cycle selected from a plurality of available packing stroke cycles. A communication system is provided between the vehicle loading system and the packer-ejector mechanism such that the packer-ejector panel operation can be fully programmed, for example, to count the number and density (frequency) of loading cycles of a side-loading arm dumping containers into the charging hopper to determine, for example, when and whether a quick shorter (possibly a sweep) cycle or a full cycle packing stroke should be used. Normally, after a selected number of quick fractional cycles, a full packing cycle is used to clear the charging hopper. Packer cycle time, in one model is approximately eight seconds for a sweep cycle or sixteen seconds for a packing cycle. The sweep cycle time is faster than the loading cycle time on a side arm container handling system and the full cycle is less than the cycle time of the front arms so that the loading device cannot tip a container behind the packer panel. This allows rapid loading while eliminating the need for a follower panel system in the design of the packer panel system. Followers have long been an easily damaged, high maintenance item in refuse packers and the ability to operate without a follower offers a significant advantage.
A pair of crossing telescoping cylinders are provided in one preferred embodiment to operate the packer-ejector panel mechanism which provide a full retract, quick sweep cycle pack, a full cycle pack and assume a fully extended position to eject all the material from the storage enclosure without the need for tipping the truck body. As indicated, operation may be fully programmable and microprocessor controlled.
The container handling device of a side-loading embodiment includes a lateral reaching device such as an extendable telescoping boom device or the like which carries a container tipper arm system of narrow profile. The narrow profile eliminates the need to mount the arm in an offset position in relation to the boom or recessing the charging hopper to enable the container handling device to be retracted to a position within the confines of the overall width of the vehicle when the container handling device is in the fully retracted position. This further enables the tipping mechanism to empty refuse containers generally in the center of the charging hopper which also improves side-to-side packed payload distribution in the operation of the system. The preferred arm is further designed to minimize the number of moving components and, in addition, incorporates an offset linkage which allows the container to remain generally quite high in the tipping cycle.
In the drawings wherein like numerals depict like parts throughout the same:
a)–1(d) represent side elevational views depicting a side-loading version of a refuse collection vehicle as an embodiment of the refuse collection body of the invention showing the packer-ejector mechanism in four different, successive stages or positions including a home or fully retracted position (1(a)); sweep stroke packing position (1(b)); packing stroke position (1(c)); and full eject phase (1d);
a)–2(c) depict a top schematic views of the crossing cylinder packer-ejector operating system in three of the stages including the fully retracted or home position (2(a)); a packing stroke position (2(b)); and a full eject position (2(c));
a)–3(f) depict successive stages of a container tipping operation utilizing the side-loader system of
The specific embodiments illustrated and described in the detailed description of this specification are intended to serve as examples only and are not intended to limit the scope of the inventive concepts in any way. The features of the invention may be manifested in a variety of forms yet remain within the confines of the intended scope of the invention.
Given the above,
A packer-ejector panel 40 is provided to pack refuse deposited in the charging hopper by a side-loading container handling device generally at 42 which is adapted to tip containers at about the mid point of the charging hopper 24 where a recess 44 is located in the relatively high sidewall 46 of charging hopper 24. As will be discussed, the relatively high sidewalls 46 of charging hopper 24 are designed to optionally provide for front loading of relatively large boxes.
In
In
c) shows the packer-ejector panel in the full packing position where it penetrates the front of the storage enclosure 22 after a packing stroke clears the contents of the charging hopper 24. In
a)–2(c) depict schematic top views of the position of the packer-ejector panel mechanism. As seen in the figures, the packer-ejector panel mechanism includes a pair of crossing telescoping hydraulic cylinders 60 and 62, both of which are pivotally mounted both to the forward end of the truck body as at 64, 66, respectively, and to the packer-ejector panel as at 68, 70, respectively.
The packer-ejector panel mechanism is depicted with the cylinders having fixed rod ends and traveling cylinder or blind ends. Hydraulic fluid is supplied and returned from the rod end of each cylinder. While not restrictive or limiting, this is the preferred arrangement as it is the most efficient.
As indicated, the side-loading container handling device 42 is preferably one exhibiting a narrow retracted profile, together with compact lift and dump characteristics. This enables the use of a full-width charging hopper which improves packed load distribution and enables front loading and enables straight-on mounting to a laterally extending device such as a boom in which no offset is required. This also enables cart tipping toward the center of the charging hopper for more uniform loading of the storage enclosure.
As seen best in the front and side elevational views of
A grabber system 110 is connected to the lower portion of the container handler arm system as by mounting bolt/pivot joints 112. The grabber system is of a type clearly illustrated and described in U.S. Pat. No. 5,769,592 which is assigned to the same assignee as the present application and which is hereby incorporated by reference in its entirety herein for any purpose. The system is basically a system with dual converging arms including a split two-finger arm 114 and single central finger arm 116. The system is operated by a single cylinder 118 and a pair of enmeshing gears, one of which is shown at 120.
The arm system is further shown as being connected to the end of the extendable member of a telescoping boom device at 130 which provides lateral range for the grabber system. The arm is further designed to pivot in a vertical plane utilizing the rotary actuator 88 with the offset linkage helping to maintain a container in a substantially upright disposition until near the end of a tipping arc.
a)–3(f) illustrate side-loading steps utilizing the container handling device of the side-loading embodiment of the invention as schematic representations.
In
An important aspect of the present invention lies in the fact that the packer-ejector mechanism may be fully programmable, its operation coordinated with the operation of the loading devices as desired. The system can be programmed, for example, to track the number of loading cycles of a side-loading arm dumping containers into the charging hopper to determine when and what type of a compacting stroke should be used. The use of a quick shorter half or sweep stroke after each container is dumped allows the system to easily keep up with a route having a dense container population. This enables a full packing stroke to be required only after perhaps four or five containers have been emptied. The sweep stroke is quite fast, possibly eight seconds or less so that the packer-ejector mechanism can be fully retracted faster than a repeat container dumping operation can be performed thereby advantageously precluding the need for a follower. The full packing stroke is also relatively rapid, perhaps sixteen seconds-long. The use of the system in a front loading mode is also convenient for the full packing cycle inasmuch as the loading cycle for a front loading vehicle mechanism consumes additional time allowing the full packing cycle to be completed.
This invention has been described herein in considerable detail in order to comply with the patent statutes and to provide those skilled in the art with the information needed to apply the novel principles and to construct and use such specialized components as are required. However, it is to be understood that the invention can be carried out by specifically different equipment and devices, and that various modifications, both as to the equipment and operating procedures, can be accomplished without departing from the scope of the invention itself.
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Number | Date | Country | |
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20050002764 A1 | Jan 2005 | US |