CA1132329A - Refuse disposal method and apparatus - Google Patents

Abstract

ABSTRACT OF THE DISCLOSURE . . _ . The specification describes a method of refuse collection as well as a transfer station used in conjunction with the method. The method generally involves subdividing an area in which refuse is to be collected into a plurality of service areas and providing each service area with a transfer station, collecting refuse in each service area using relatively low capacity collection vehicles which transport collected refuse to the transfer station of the service area whereat the collection vehicles discharge into transfer containers and emptying on a routine basis the contents of the transfer containers into relatively large transportation vehicles which transport the so collected refuse to an ultimate disposal site. The transfer station containers are such that they can readily receive the contents of the collection vehicles and readily discharge their contents into transportation vehicles.

Description

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The present invention relates to a system of refuse collection and disposal as well as to a container especially adapted for use in such a system.
A problem with which society has been, is and will continue to face is that of collecting and disposing of refuse.
The prime objective of the present invention is to provide a system and an apparatus which renders the task of refuse disposal more simple, efficient and less expensive than conventional systems and apparatuses.
Refuse disposal in general normally involves three separate and distinct phases, namely, collection, transportation and dis-posal.
The first phase, collection, involves the gathering of refuse from residential and commercial generating locations at predetermined intervals. A number of collection methods have been used and will be discussed in greater detail bèlow. The collection phase is primarily conducted by public or private haulers. However, in some cases, residents themselves will transport their own refuse to a disposal site.
Public or private haulers normally utilize transportation vehicles to collect refuse from a generation point and convey or transport the refuse to its ultimate and permanent disposal site which may be a sanitary land fill location.
~he transportation phase relates to the movement of refuse from the facility where the collection process is terminated to a sanitary land fill location. As indicated earlier, it has been conventional to utili~e the collection vehicles to transport the refuse to the disposal site. Since collection vehicles normally ~; have a relatively small capacity, the cost of transporting -the -r~T ~

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3~ fZ~3 refuse from the collection site to the disposal site may be unnecessarily expensive if the distance to be travelled is fairly large.
The disposal phase of the refuse disposal process in-volves, perhaps, the compaction of refuse and, certainly the covering of collected and transported refuse at a sanitary land fill location in accordance with existing laws and regulations.
The present invention is primarily concerned with the collection and transportation phases of the refuse disposal process. Various collection and transportation schemes have been conceived and have been used. The following is a brief summary of some conventional schemes.
One existing system of collecting and transporting refuse is the "green box system". This system provides containers of three to six cubic yard capacity which are placed at strategic locations for use by local residents. The containers are serviced and emptied regularly with specially designed front end loader vehicles. The vehicles are conventionally equipped with a compaction type body having a volume in the neighbourhood of thirty to thirty five cubic yards and a normal gross vehicle weight tGVW) rating of about 49,000 pounds. The vehicles trans-port their contents to a disposal site.
This system has a decided cost advantage over conventional collection systems in that the collection site development costs are lower than a system using larger containers such as the "roll off system" discussed below. In addition, the containers have lids which reduce wind blowing of refuse. The major dis-28 advantage of this system is that the container size is rather rw/

~ Z 9 inadequate in the handling of larger items generated at certain times by the general population. In addition, this system makes no provision to receive refuse from a collection vehicle used in the residential collection process and the cost of the long haul may be greater than other systems.
The "roll off system" involves the use of containers having a capacity in the neighbourhood of 30 to 50 cubic yards which, again, are placed at strategic locations in a municipality.
This system affords the user the advantage of handling large items and/or large loads to thus overcome one major disadvantage of the "green box system". However, since the container is larger, the opening and closing of large lids or covers creates a problem for the residential or private user and, in addition, this system requires the construction of a more expensive collection site. The containers are themselves carried to and from the ultimate disposal site by means of vehicles especiaqly equipped to load and unload the containers. Thus, in addition to the containers themselves, this system requires special transportation vehicles.
In general, prior systems did not distinguish between collection and transportation of refuse. The container in which the refuse is gathered is either transported directly to the disposal site and then returned or its contents are emptied into a collection vehicle which transports the refuse to the disposal site. Thus, the vehicles serve both as collection as well as transportation means. They have a relatively small capacity and, therefore, the cost of transporting a given weight of refuse tends 28 to ~e relatively high.

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One aspect of the present invention relates to animproved system of collecting and transporting refuse to its ultimate disposal site. In general, the present invention separates the collection and transportation phases of refuse disposal. Collection is confined to a given area of a predetermined size wherein relatively low capacity vehicles collect refuse and convey it to a transfer station within the area. Large capacity transportation vehicles then collect the refuse from a number of transfer stations and convey the refuse to a disposal site.
In accordance with the present invention, there is provided a refuse container assembly for temporarily storing refuse at a refuse transfer station. The assembly is comprised of a refuse receptacle having a refuse storage section and a hopper section which defines a refuse intake and discharge opening. The receptacle is mounted on a support means for pivotal movement about a horizontal pivot axis between a lower first position whereat the receptacle is adapted to receive and store refuse and an elevated second position whereat the receptacle is adapted to discharge its contents.
An actuating mechanism is provided for pivoting the receptacle between the first and second positions.
These and other features of the invention are described in greater detail in the following description in which reference is made to the accompanying drawings wherein:

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Figure 1 is a map illustrating a typical area in which refuse is to be collected and which is subdivided into service areas;
Figure 2 is a pictorial illustration of a transfer station utilizing the container of the present invention and showing a collection vehicle in the process of discharging its contents into the container;

-4a-1~3~3~9 Fiaure 3 is a view similar to Figure 2 but illustrating the container emptying its contents into a transportation vehicle;
Figure 4 is a perspective view of an articulated refuse container for use at a transfer station;
Figure 5 is a side elevational view of the container of Figure 4;
Figure 6 is a view similar to Figure 5 but illustrating a lid assem~ly in a pos;tion whereby a collection vehicle may discharge its contents into the container;
Pigure 7 is a view .similar to Figures ~ and 6 but illustrating the container discharging i.s contents into a transportation vehicle;
Figure 8 is a pictorial, diagrammatic illustration of a hydraulic circuitry for actuating the various hydraulic cylinders of the container;
Pigure 9 is a perspective view of a container similar to Figure 4 ~ut having an alternative lid assembly;
Figure 10 i5 a partially broken, side elevational view of :
the container of Figure 9;
Figures 11 and 12 are views similar to Figure 10 but illustrating the lid assembly in different positions;
Figure 13 is a view similar to Figures 10 to 12 but illustrating the container in a discharging position;
Figures 14 and 15 are side elevational views of the container of Pigure 9 illustrating lid actuating mechanisms;
Figure 14a is a view taken along lines 14a-14a of Figure 14; and Figure 16 is an elevational view illustrating an alter-native container mounting arrangement~

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, 23~29 DETAI L DES CRIPTION
Figure 1 represents a map of a region or municipality in which refuse is to be collected. The circles represent the boundaries of service areas within which, dependin~ upon the population, one or more collection vehicles operate on one or more predetermined days per week. Each service area includes a transfer station having one or more transfer containers to be described in greater detail later. Generally, the transfer containers are adapted to receive refuse from collection vehicles and discharge refuse into transportation vehicles. The number of transfer containers at each transfer station depends upon the quantity of refuse expected to be collected within the service area. The transfer station is located within its service area so as to minimize the "transportation" distance between the collection site and disposal site by the collection vehicles so as to optimize the efficiency of the collection ~ehicles and crew and minimiæe fuel consumption. This objective is based upon the notion that refuse collection vehicles tend to be inefficient means for long-distance refuse transportation since the ratio of vehicle weight to refuse weight is relatively high in comparison to other modes of transportation. Furthermore, in conventional refuse collection systems, the refuse collection crew is normally inactive while the collection vehicle is in transit to and from the disposal site. The size of the service area may depend, to some extent, upon the nature of the service area, that is, whether it is an urban or rural area. In any case, the area should not exceed a diameter of about 15 miles. A diameter 27 of 9 or 10 miles is preferred, as indicated in Figure 1.

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The present invention provides for the servicing of the service areas by conventional refuse collecting vehicles which may be of the compacting or non-compacting type. When loaded, the collection vehicles transport their contents to the local transfer station which will be considerably closer than the municipal or regional disposal site. The collection vehicles empty their con,tents into the transfer containers.
The transfer containers have a capacity of several times that of collection vehicles, for example, 2 to 6 times.
~igures 2 and 3 pictorially illustrate a transfer station as contemplated by the present invention. As illustrated, the transfer station includes only one transfer container but, as indicated earlier, the transfer station may have several containers if necessary to properly service an area. Figure 2 illustrates a refuse vehicle emptying its contents into a transfer container.
In accordance with a further aspect of the present invention, high capacity transportation vehicles, such as a tractor-trailer arrangement illustrated in Figure 3, periodically travel between transfer stations and collect refuse temporarily stored in transfer containers. Figure 3 illustrates a trans-portation vehicle receiving refuse from a transfer container.
The transportation vehicles will have a capacity of several transfer containers, that is, two or more times that of a transfer container depending upon the capacity of the transfer container.
In general, a transfer container may have a capacity of from 40 to 60 cubic yards while a transportation vehicle will have a 28 capacity of about 100 cubic yards or more. Once filled or once ' 32~

a transportation vehicle has visited the transfer stations within its predetermined route, it transports its contents to a regional or municipal disposal site. High capacity transportation vehicles are a much more efficient means of transporting refuse over relatively long distances inasmuch as the ratio of vehicle weight to refuse weight is considerably less than that of conventional refuse collection vehicles.
Thus, one aspect of the present invention provides a method or system of refuse collection comprising sub-dividing a municipality or region in which refuse is to be collected into a plurality of service areas with each service area having a diameter of less than about 15 miles and preferably a diameter of 9 or 10 miles,providing a transfer station within each area, each transfer station having at least one transfer container, collecting refuse within each service area on a regular ~asis utilizing at least one relatively low capacity col~ection vehicle, transporting the collected refuse to the transfer station, emptying the collected refuse into a transfer container, collecting the refuse from a plurality of transfer stations utilizing a relatively high capacity transportation vehicle and transporting the so collected refuse to a local disposal site.
It will be seen that there are several advantages to the above described method or system. Pirstly, the provision of strategically located transfer stations in a given collection area ensures that the collection vehicles are collecting refuse rather than merely transporting refuse. Not only does this render the collection vehicles more efficient, it is also more 28 economical in terms of refuse weight per vehicle weight dollar.

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lt is also more economical in terms of the collection crew which is occupied a greater percentage of the time.
Secondly, because of the provision of special transfer containers to be described later, the nature of the transfer station, the disposal site for collection vehicles, is neat and tidy and the refuse disposed thereat is sealed from the elements and environment. Thus, there is a reduced likelyhood that vehicles or local residents utilizing the transfer station are apt to be damaged or injured.
Thirdly, the use of large transportation vehicles is the most economical manner in terms of labour and machinery of transporting refuse.
Fourthly, as will become clear later, the transfer of refuse from the collection vehicles to the transfer trailers is readily and quickly accomplished.
Fifthly, the number of vehicles which need attend the ultimate disposal site is considerably reduced and, therefore, the organization of the site is much more readily accomplished and maintained.
A transfer station as invisaged by the present invention will now be described in greater detail.
Figures 2 and 3 illustrate a transfer station 100. The transfer station includes an articulated refuse container 102 which serves to temporarily store refuse between visits of collection vehicles lOa, local residents and transportation vehicles 106. The container 102 is pivotally mounted on a frame assembly 108 which is rigidly secured to the ground adjacent to 28 and in a steep embankment 110. A gentle ramp 112 leads to the rw/

3~3 top of the embankment, adjacent the upper end of the container for use by collection vehicles and local residents for placing contents into the container. A roadway 11~ running generally perpendicular to ramp 112 is located at the base of embankment 110 on the opposite side of the container from the ramp. The roadway 114 is for use by transportation vehicles.
Generally, the container 102 is formed with a large horizontal opening at its upper end so that collection vehicles may discharge their contents directly into the container. The opening is closed by means of an appropriate lid assembly, various embodiments of which are described later. The lid assembly is movable to one position when it is desired to charge the container and to another position when it is desired to empty the container. The container and its lid assembly ensure that the temporary disposal site is neat and tidy in appearance, free of refuse which might potentially present a safety or health hazard, free of scavenging animals and not susceptable to wind blowing. The container is pivotable from a first position in which it is adapted to receive and store refuse and a second position in which it is adapted to discharge its contents. The container will now be described in greater detail.
With reference to Figures 4 to 7, container 102 is mounted on a frame assembly 108. Frame assembly 108 includes a pair of unright columns or members 120 which are secured in the ground adjacent the base of embankment 110 in any suitable manner.
A horizontal frame member 122 interconnects uprights 120 approximately midway between their upper and lower ends 124 and 126 while longitudinal, horizontal frame members 128 extend from 29 the midpoint of each upright 120 into embankment 110 and are rw/

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suitably secured thereto. ~ brace member 130 connects the upper end of each upright 120 to its respective longitudinal horizontal frame member 128. A horizontal pivot shaft 132 extends between the upper ends 124 of uprights 120.
As mentioned earlier, container 102 is mounted on shaft 132 for pivotal movement in a vertical plane between a first position illustrated in Figure 5 wherein the container may receive refuse from collection vehicles and private residence and a ~-second position shown in Figure 7 wherein the container may discharge its contents into the trailer of a transportation vehicle 106.
The container is formed with a storage section 136 and a hopper section 138. The hopper section, located at the upper end of the storage section, includes a large opening 140 (see Figure 4) through which refuse is received and discharged. The opening is generally horizontal but is formed with a generally vertical portion at the end thereof adjacent ramp 112. The opening is closed by a lid assembly 142. The lid assembly is mo~rable to different positions depending upon whether it is desired to charge or discharge the container. Various lid assembly configurations will be described later.
The storage section, which may have a capacity in the neighbourhood of about 40 to 60 cubic yards, is formed with a pair of side walls 144, an inclined rearward wall 146 and a forward wall 148. Forward wall 148 is shaped so as not to interfere with the embankment during pivotal movement of the container but otherwise may be of any desired shape such as the 28 generally arcuate shape shown in the drawings. The rearward 1~3~3;~9 wall 146 is inclined with respect to the vertical so as to reduce the angular travel of the container to ensure complete discharge thereof. Container 102 normally assumes the position illustrated in Figure 5. In this position, the weight of the container and its contents are borne by a pair of seating blocks 150 connected to braces 130. The seating blocks 150 abut the lower extremity of wall 146. The upper end of wall 146 is provided with appropriate bearing sections 152 which receive pivot shaft 132.
The hopper section 138 is generally a vertical extension of the storage section 136 but may be of any suitable size and shape. The hopper section is formed with a pair of vertical side walls 154 which extend vertically from side walls 144 of the storage section and a rearward inclined wall 156 coplanar with wall 146 of the storage section. The forward marginal edges 158 of the side walls are generally parallel with rear wall 156. It will be noted that the forward end of the hopper section is open. This portion of the refuse receiving opening 140 is provided to permit the rearward end of collection vehicles to be positioned as close as possible to the interior of the container. Thus, the side walls 154 of the hopper section serve to prevent spillage of refuse over the side of the container and prevent wind blowing of refuse while the collection vehicles discharge into the container. It will be apparent that the marginal edges of the hopper walls define the intake and discharge 26 opening 140.

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Figures 4 to 7 illustrate one embodiment of a lid asse~bly.
In this embodiment, the lid assembly includes two pivotally inter-connected lid members which are adapted to overlie the entire opening 140. The lid assembly is movable from a closed position illustrated in Figure 5 to a first open position for permitting charging of the container. The assembly is movable to the first open position by means of hydraulic cylinders and levers described hereinbelow. The assembly is also movable to a second, at least partially open position under the influence of gravity to permit discharging of the container.
Lid assembly 142 includes two lid members 160 and 162 which overlie the marginal edges of the hopper. Lid member 160 is formed with a pair of rigidly interconnected panels 164 and 166. Panel 164 covers the forwaxd end of the horizontal portion of the opening while panel 166 covers the inclined or generally vertical portion of the opening. Lid member 162 is,generally coplanar with panel 164 in the closed position of the assembly and covers the rearward end of the opening. Panel 166 is ~ormed with a small pivotable chute 167 for use by local residents in manually feeding small quantities of refuse into the container.
Lid members 160 and 162 are pivotally interconnected along their adjacent marginal edges by any suitable arrangement for movement about transverse a~is 170. The other transverse marginal edge of lid member 162 carries transverse, outwardly directed pins 172, each of which is releasably received in a seat 174 26 formed at each end of the upper edge of rearwall 156.

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, 1~3~3;~1 The lid assembly is pivotally connected to the hopper section by a pair of arms 176, one arm on each side of the container. The rearward end o~ each arm is pivotally connected to a wall 154 by a pin 178 while the forward end is pivotally connected to a side edge o~ panel 166 by a pin 180. In the normal position of the lid assembly and container, the arms are generally parallel to the plane of the lid members as shown in Figure 5. Thus, counter-clockwise movement of arms 176 from the position illustrated in Figure 5 will move the lid assembly upwardly and rearwardly of the hopper opening with the two lid members pivoting relative to one another about axis 170 and the rear lid member pivoting about pins 172 in seats 174, as illustrated in Figures 4 and 6. The distance between the pivot axis of arms 176 is equal to that of lid member 162 and the arms and member 162 are parallel to one another so that the arms 176, lid member 162, lid member 160 and hopper side~walls 154 together define a parallelogram arrangement.
Any suitable means for actuating arms 176 may be provided.
One such means is illustrated in Figures 4 to 7 and includes a second pair of arms 184 and a pair of hydraulic cylinders 186, one of each being associated with each arm 176. One end of each arm 184 is pivotally connected to side wall 154 by a pin 188 while the other end of arm 184 is pivotally and slidably connected to arm 176 by a pin 190. Pin 190 is secured to arm 176, approx-imately midway between its ends, and extends into an elongated, longitudinal slot 191 in arm 184. Slot 191 provides for relative movement between the arms. Piston rod 192 of cylinder 186 is pivotally connected to arm 184 at 194 while the opposite end of 29 the cylinder is pivotally connected to a side wall of the container rw/
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, as at 196.
When it is desired to charge the container, the lid assembly is moved to its first open position (Figure 6) by actuating cylinders 186. In so doing, piston rods 192 move outwardly and rearwardly to cause arms 184 to pivot in a counter-clockwise direction about pins 188. This action, in turn, transmits a force to arms 176, causing them to rotate in a counter-clockwise direction and move lid members 160 and 162 away from the opening as explained earlier. In particular, member 162 will pivo, in a counter-clockwise direction about the axis of pins 172 while members 160 and 162 will pivot relative to one another about axis 170. When the collection vehicle has been discharged, the cylinders are deactuated or reversed and the lid assem~ly is returned to its normal position.
When it is desired to discharge the container, the container is rotated to the position shown in Pigures 3 and 8 by means to be described hereinbelow. In this position, lid member 160 is maintained in a closed position by means of fluid pressure in cylinders 186. However, as illustrated in Figure 7, once the container reaches a predetermined angular disposition, pins 172 are free to move away from seats 172 and permit rear lid member 162 to move away from the marginal edges of the hopper section in a cloc~wise direction about axis 170. Thus, the contents of the container are then free to slide outwardly of the container. It will be seen that lid member 162, in addition to removably closing the opening of the hopper, also serves as a windshield during the discharge process.

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The container may be pivoted about shaft 132 in any suitable manner. Figure 5 illus'rates a container actuating arrangement. This arrangement utilizes a pair of hydraulic cylinders and an arm associated with each upright member.
As illustrated in Figure 5, one end 200 of an arm 202 is rotatably mounted at one end of pivot shaft 132 and extends downwardly and forwardly therefrom. A first hydraulic cylinder 204 is pivotally connected between the other end 206 of arm 202 and upright 120 and a second hydraulic cylinder 208 is pivotally connected between end 206 of arm 202 and container 102 as shown.
Preferably, the angles subtended between the axis of the cylinders and the centerline of the arm are equal.
The hydraulic cylinders 204 and 208 may be operated in unison or independently in order to raise and lower the container.
It will be understood that a single hydraulic cylinder can replace the pair of hydraulic cylinders as above described on each side of the container. However, the pair of cylinders in tandum are preferred because the applied forces tend to be directed more perpendicularly to arms 202 than the forces applied by a single cylinder arrangement. Thus, the capacity of cylinders may be reduced and the stresses on the various parts may be minimized.
When it is desired to discharge the container, cylinders - 204 are actuated to cause arms 202 to pivot in a counter-clockwise direction about shaft 132. The force produced by cylinders 204 is transmitted through end 206 of arms 202, through cylinders 208 and their respective piston rods and then to container 102.
Thus, arms 202 simply serve a guiding function. Once the piston _ 16 _ rw/

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;ods of cylinders 204 have reached their limit of travel, cylinders 208 are pressurized. As the piston rods of cylinders 208 move outwardly, container 102 will pivot in a counter-clock-wise direction as viewed in Figure 5 and the forces produced by the cylinder are transmitted back to column members 120 via end 206 of arms 202 and cylinders 204. It will be appreciated that the cylinders may be actuated in reverse order or in unison as suggested earlier.
Once the container has pivoted through 90 degrees, pins 172 of lid member 162 will unseat. Further pivoting of the container will cause lid member 162 to uncover opening 144.
At this point, rear walls 146 and 156 of the storage and hopper sections, respectively, will already be inclined downwardly and rearwardly so that the refuse within the container will already have started to slide toward opening 140. Little further pivoting of the container is then required to fully discharge the container.
As shown in Figure 7, lid member 162 serves to prevent spillage of refuse over the sides of the transportation vehicle while also serving to minimize windblowing of the refuse being discharged.
It is contemplated that the lid assembly lifting cylinders and container lifting cylinders be provided with conventional conduits, control valves, pumps and motors. In order to minimize the cost of the containers, the container lifting hydraulic cylinders may be powered by the hydraulic system of the trans-portation vehicles. It is also contemplated that the lid assembly lifting cylinders may also be arranged to couple directly into 28 the hydraulic system of collection vehicles.

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~3Z32~3 Figure 8 diagrammatically illustrates a hydraulic circuit wherein the container cylinders are adapted to be actuated by the transportation vehicle hydraulic system while the lid cylinders are provided with a separate and independent hydraulic power circuit.
In the arrangement of Figure 8, cylinders 204 and 208 are adapted to be actuated by the hydraulic systems of a trans-portation vehicle. A first hydraulic conduit 220 connects adjacent ends 222 and 224 of cylinders 204 and 208, respectively, to a first hydraulic break-away 226 while a second conduit 228 connects the other ends 230 and 232 of cylinders 204 and 208, respectively, to a second break-away 234. Thus, when conduit 220 is pressurized, piston rods 236 and 238 of cylinders 204 and 208, respectively, will be extended to raise the container and when line 228 is pressurized piston rods 236 and 238 will be withdrawn to lower the container.
Lid cylinders 186 are provided with an independent hydraulic system having a hydraulic power and control unit 240, a first hydraulic line or conduit 232 connecting ends 244 of cylinders 186 to unit 230 and a second hydraulic line or conduit 246 connecting ends 248 of cylinders 186 to unit 240. As will be evident, the cylinders are connected in parallel. Thus, when conduit 242 is pressurized, piston rods 192 will be extended to raise the lid assembly to the first open position discussed earlier and when line 246 is pressurized, the piston rods will be withdrawn to return the lid assembly to its closed position.

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lh3~32~3 Figures 9 to 15 illustrate an alternative lid assembly 300 which tends to be less affected by wind loads because of a lower profile in an open position and which requires less energy to actuate due to a counterbalancinq effect by a portion of the assembly as will be explained.
In this embodiment of the lid assembly, certain lid members are provided with rollers which travel along the marginal edges of the side wall of the hopper. Further, the hoppex section is modified by removing the rear inclined wall 156 so that the hopper section consis.s only of side walls 154.
This modification provides a generally inverted U-shaped refuse receiving and discharge opening 340 when viewed in side eleva-tion such as in Figures 9 to 13.
The lid assembly is movable from a normally closed position (Fiyure 10) overlying opening 340 to an, at least, I partially open position (Figure 12) wherein the container may receive refuse from collection vehicles. The assembly also includes a discharge gate for discharging the container as will be explained hereinbelow.
Lid assembly 300 includes three pivotally interconnected, generally flat, rectangular lid members or panels 302, 304 and 306 of tubular and sheet steel construction. Each panel is adapted to overlie the three lengths of opening 340. First panel 302 normally overlies the rearward portion of opening 340 and generally occupies the space previously occupied by rear wall 156. Panel 302 is pivotally connected to pivot shaft 132 along longitudinal marginal edge 308. However, panel 302 may alternatively be pivotally connected to the container itself 29 rather than to the pivot shaft if so desired. Second panel 304 19 _ rw/

overlies the horizontal, intermediate portion of opening 340 and is pivotally connected along its rearward marginal edge 310 to the upper marginal edge 312 of panel 302 by pins 314.
Third panel 306 overlies the front portion of opening 340 and is pivotally connected along its upper marginal edge 316 to the front marginal edge 318 of second panel 304 by pins 320.
Second and third panels 304 and 306 are each provided with a pair of rollers 322 and 324, respectively, one roller ; being located on either side edge of the respective panels.
Rollers 322 and 324 support panels 304 and 306, respectively, and are adapted to travel along the front and upper marginal edges 326 and 328 of side walls 156 of the hopper section.
Lid assembly 300 is movable to the position illustrated in Figure 12 when it is desired to charge the container. The t~ lid assembly may be actuated by any suitable means. A particular means will be described later. In general, the lid assembly may be actuated by applying either a rearwardly directed force to panel 304 or a counter-clockwise torque to panel 302. In either case, panel 302 will pivot in a counter-clockwise direc-tion about its pivotal connection to pivot shaft 182 while panel 304 will travel rearwardly as rollers 322 roll along edges 326 of side walls 154 and simultaneously pivot in a counter-clockwise direction about the axis of rollers 322 to an inter-mediate position illustrated in Figure 11. Likewise, panel 306 will follow panel 304 as rollers 324 roll along edges 326 and 328 of side walls 154. An appropriate stop (not shown~ may be provided to define the limit of rearward travel of the lid assembly, 28 that illustrated in Figure 12.

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When the lid assembly is in the position illustrated in Figure 12, refuse collection vehicles may discharge their contents directly into the container. As with the previous embodiment, side walls 154 serve to prevent spillage and reduce wind blowing of refuse. Panels 306 and 304 also serve to prevent spillage and wind blowing of refuse. However, because of the lower profile (area of assembly projecting vertically above the side walls) the wind loading on the assembly is considerably reduced.
10In order to discharge the container, second panel member 304 is provided with a generally rectangular gate member 330 which extends substantially across the entire width of panel 304 and extends from just rearwardly of rollers 322 to the rearward end thereof. As shown in Figure 13, the forward end 332 of gate ~` 330 is pivotally mounted to panel 304 by means of pins 334. The rearward marginal edge 336 of gate 330 rests, undex the influence of gravity, upon the upper marginal edge 312 of panel 302 when the lid assembly and container are in the position illustrated in Figures 10 to 12. However, once the container has been ~pivoted in a counter-clockwise direction by an amount exceeding 90 degrees such as is illustrated in Figure 13, gate 330 ~ill pivot about pins 334 and depend vertically downwardly as shown in Figure 13 permitting discharge of refuse within the container.
Thus, gate 330 functions in a manner similar to panel 162 of the previously described embodiment.
Any suitable means may be provided for r~tracting lid assembly 300 from its closed position to the open position illus-trated in Figure 12. For example, hydraulic or electric motors, 2J either independently poweredl if a source of power is readily rw/

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3~3 available, or powered by the hydraulic or electric system of collection vehicles may be provided. However, an advantage of the lid assembly 300 is that little energy is required to move it between the two above mentioned positions. Accordingly, a manual lid actuating mechanism is feasible. Such a mechanism is diagrammatically illustrated in Figure 14. As illustrated in Figure 14, tnree chain sprockets 350, 352 and 354 are rotatably mounted into each side wall 154 of the hopper section of the container. A chain 356 is trained about sprockets 350, 352 and 354 as shown and its ends are secured in any suitable manner to cross shaft 358 of rollers 322. A crank handle 360 is rotatably mounted at the forward end of one side wall 154 of the hopper section adjacent sprocket 352. A chain sprocket 362 is non rotatably secured to handle 360 while a second chain sprocket 364 is mounted for rotation with chain sprocket 352 as illustrated in Figure 14~. A second chain 366 is trained about sprocket 364 and 362. Thus, it will be seen that rotation of crank handle 360 in a counter-clockwise direction as viewed in Figure 14 will tension chain 356 and cause the lid assembly to retract from the closed position towards the open position. Sprockets 352, 362 and 364 are suitably sized to minimize the torque necessary to effect rotation of crank handle 360.
It will be apparent that lid assembly 300 requires means to maintain the assembly in its closed position while the container ~ is being discharged. A suitable means is illustrated in Figure 15 ; and includes an L-shaped lever arm 370 pivotally connected inter-mediate its ends to side wall 154 of the hopper section by means 28of a pivot pin 372. Lever arm 370 is formed with a transversely ' ''' _ 22 rw/

- : ~-. ~ :: -323~9 outwardly projecting leg 374 which is adap-ted to engage an abutment 376 secured to panel 304 of the lid assembly. A
second lever 378 is rigidly secured at one end to lever arm 370 and depends downwardly therefrom. The free end 380 o~
lever 378 is connected to one end of a flexible cable 382 while the other end of the cable is partially wrapped around and ~ secured to pivot shaft 132 as shown. A spring 384 has one - end connected to the end of lever arm 370 opposite leg 374 and its other end connected to side wall 154 as shown in Figure 15 and biases lever arm 370 in a counter-clockwise direction.
Cable 382 is adjusted such that leg 374 of arm 370 assumes the position illustrated in solid lines in Figure 15.
In this position, the lid assembly is free to move to and from its closed and open positions to permit charging of the container.
However, when the container is pivoted in a counter-clockwise direction towards its discharging position, cable 382 will unwrap from pivot shaft 132 and slacken. In so doing, spring 384 we will be permitted to retract and move lever arm 370 to the dotted line position illustrated in Figure 15 wherein leg 374 engages abutment 376, thus preventing retraction of the lid assembly. As the container returns to its normal position illustrated in Figure 10, cable 382 will again partially wrap around shaft 132 and tension. This action will cause lever arm 370 to return to the solid line position of Figure 15.
While a particular lid assembly locking means has been described and illustrated it will be understood that various alternatives may be provided. For example, appropriate means 28 may be provided to prevent rotation of crank handle 360O Such rw/

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3~9 a means could be manually settable and releasable by the collection vehicle operator.
Figure 16 illustrates an alternative container mounting arrangement. This arrangement permits the container to be mounted closer to the ground thereby reducing the height of the ramp and associated expenses yet still permits the container to be raised a sufficient height for discharging into a transportation vehicle. This is achieved generally by rearwardly displacing the pivot axis of the container as will be described hereinbelow.
The alternative mounting arrangement illustrated in Figure 16 utilizes the same hydraulic actuating mechanism described with respect to Figures 1 to 9 and, accordingly, the same reference numerals have been used to designate the same or similar elements.
! As shown in Figure 16, the container of the previous embodiments is modified by securing to the opposed ends of shaft 132 and to the side walls 154 of the hopper section a rearwardly extending arm or plate 384. The free end 386 of each arm 384 is pivotally connected to frame 108 at the location thereon where shaft 132 of the previous embodiments is connected. The outer end of the piston rod of each hydraulic cylinder 208 may be connected to the arm 384 as shown in Figure 16 or may be connected to either the side wall 154 of the hopper section or side wall 144 of the container. In each of these cases, it will be appreciated that outward displacement of the piston rods of cylinders 204 and 208, as previously described, will cause the container to pivot in a counter-clockwise direction about the 28 pivotal connection of the free ends 386 of ar~s 384 from the - ~4 -11~2;329 .
material receiving position illustrated in solid lines in Figure 16 to the material discharge position illustrated in dotted lines therein. As is evident from Figure 16, the arms - 384 permit the container to be raised well above the side walls of the transportation vehicle while permitting the material receiving opening of the container in its material receiving position at a height which is less than that of the previous embodiments. As a result, the height of the ramp necessary to permit discharging into the container by collection vehicles may be reduced and this, in turn, will tend to reduce the cost of the transfer station.
The particular arrangement used will depend to some extent upon the contour of the land selected for the transfer station. If the location has a hill which would be suitable for a ramp, the arrangement of Figures 1 to 9 may be utilized.
~owever, if it is necessary to construct a ramp, the arrangement of Figure 16 would be preferred.
While the container illustrated in the previous embodiments includes a lid assembly, it will be appreciated that there are circumstances wherein a lid assembly would not be required. It is within the spirit and scope of the present invention, for example, that a building could be constructed to enclose the trans-fer station in its entirety including at least a portion of the ramp and the roadway for the transportation vehicles. In such circumstances, the need of a lid assembly and its associated operative mechanism is not as great.

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1~3232~
It should be understood further that the specific configurations of lid assemblies described herein are for illustrative purposes only. Various alternative assemblies can be devised without departing from the spirit and scope of the invention.

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Claims (45)

THE EMBODIMENTS OF THE INVENTION IN WHICH AN EXCLUSIVE
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:

1. A refuse container assembly for temporarily storing refuse at a refuse transfer station, said assembly comprising:
a refuse receptacle having a refuse storage section and a hopper section, said hopper section defining a refuse intake and discharge opening;
support means, said receptacle being mounted on said support means for pivotal movement about a horizontal pivot axis between a lower first position whereat said receptacle is adapted to receive and store refuse and an elevated second position whereat said receptacle is adapted to discharge its contents; and actuating means for pivoting said receptacle between said first and second positions.

2. A refuse container assembly as defined in claim 1, further including:
a lid assembly for opening and closing said opening, said lid assembly being moveable between a closed position and a first opened position permitting charging of said receptacle through said opening and a second opened position permitting discharging of said receptacle; and second actuating means for moving said lid assembly between said closed position and at least said first opened position.

3. A refuse container assembly as defined in claim 1, further including:
a lid assembly for opening and closing said opening, said lid assembly being moveable between a closed position and a first opened position permitting charging of said receptacle through said opening and a second opened position permitting discharging of said receptacle; and second actuating means for moving said lid assembly between said closed position and at least said first opened position wherein said lid assembly is moveable between said closed and said second opened position under the influence of gravity.

4. A refuse container assembly as defined in claim 2, said lid assembly including a first lid member and a second lid member;
said first lid member being adapted to close one end of said opening and being moveable between said closed position and said first opened position for charging of said receptacle through said one end of said opening;
said second lid member being adapted to close the balance of said opening and being moveable between said closed position and said second opened position for discharging of said receptacle through said balance of said opening.

5. A refuse container assembly as defined in claim 4, said first and second lid members being connected together for pivotal movement of said lid members about a first lid pivot axis extending generally parallel to said receptacle pivot axis.

6. A refuse container assembly as defined in claim 5, said second lid member being releasably pivotally connected to said hopper section for pivotal movement about a second lid pivot axis adjacent a marginal edge of said opening and parallel to said first lid pivot axis, whereby, upon movement of said first lid member between said closed position and said first opened position, said second lid member pivots about said second lid pivot axis and said first and second lid members pivot in one direction about said first lid pivot axis and, upon movement of said second lid member between said closed position and said second opened position, said second lid member is released from said hopper section at said second lid pivot axis and pivots about said first lid pivot axis in a direction opposite said one direction under the influence of gravity.

7. A refuse container assembly as defined in claim 6, said second actuating means including a pair of arms for moving said first lid member between said closed and said first opened positions, said arms being disposed on opposed sides of said first lid member, corresponding one ends of said arms being pivotally connected to said receptacle and corresponding other ends of said arms being pivotally connected to said first lid member, the pivot axis of said connections being parallel to the pivot axis of said container, whereby upon pivoting of said arms in one direction about said corresponding one ends of said pair of arms, said first lid member moves from said closed position to said first opened position.

8. A refuse container as defined in claim 7, said second actuating mechanism further including a second pair of arms for actuating said first mentioned pair of arms, said second pair of arms being disposed on opposed sides of said first lid member and each being associated with one of said first mentioned pair of arms, one end of each of said second pair of arms being pivotally connected to said receptacle and the other end thereof being connected to the associated one of said first mentioned pair of arms.

9. A refuse container assembly as defined in claim 8, said second actuating means further including hydraulic motor means mounted on each side of said receptacle for actuating said second pair of arms.

10. A refuse container assembly as defined in claim 8, said hopper section including a pair of spaced side walls and a rear wall interconnecting said side walls, said opening being defined by the marginal edges of said spaced side walls, rear wall and an edge of said storage section extending parallel to the marginal edge of said rear wall.

11. A refuse container as defined in claim 10, said first and second pair of arms being connected to said side walls.

12. A refuse container assembly as defined in claim 1, said support means including a pair of upright columns and a pivot shaft extending between said upright columns, said receptacle being mounted on said pivot shaft for pivotal movement thereon.

13. A refuse container assembly as defined in claim 12, said first actuating means including extendable motor means disposed on both sides of said assembly and being connected between said upright columns and said receptacle, said motor means being operable to move said receptacle between said first and second positions.

14. A refuse container as defined in claim 1, said first actuating means including:
a pair of arms mounted on said support means for pivotal movement about said receptacle pivot axis and extending radially outwardly of said pivot shaft, a pair of extendable motor means associated with each arm of said pair of arms, one of said motor means being connected between said support means and the free end of its associated arm and the other of said motor means being connected between the free end of said associated arm and a said receptacle.

15. A mechanism as defined in claim 14, said motor means being coplanar with their associated arm means.

16. A mechanism as defined in claim 15, said motor means acting in a direction which is substantially perpendicular to their associated arm means.

17. A mechanism as defined in claim 16, said arm means being adapted to extend forwardly and downwardly of said receptacle.

18. A mechanism as defined in claim 16, said motor means being hydraulic cylinders having extendable and retractable piston rods.

19. A mechanism as defined in claim 18, further including control means for operating said motor means in unison.

20. A mechanism as defined in claim 19, further including control means for operating said cylinders sequentially.

21. A mechanism as defined in claim 19, further including conduit means for connecting said motor means to a source of pressurized hydraulic fluid.

22. A mechanism as defined in claim 18, further including conduit means for connecting said motor means to a source of pressurized hydraulic fluid.

23. A mechanism as defined in claim 20 or 21, said conduit means including a quick connect-disconnect coupling for connecting said motor means to the hydraulic system of a vehicle.

24. A refuse container assembly as defined in claim 6, said lid assembly further including an articulated chute for manually feeding small quantities of refuse into said container.

25. A refuse container assembly as defined in claim 24, said chute being formed in said first lid member.

26. A refuse container assembly as defined in claim 1, said transfer station including a vehicle ramp terminating at a position adjacent said opening of said receptacle to permit refuse collection vehicles to discharge into said receptacle.

27. A refuse container assembly as defined in claim 26, said transfer station further including a roadway adjacent said assembly on the side of said assembly opposite said ramp for use by high capacity transportation vehicles, said container being adapted to discharge its contents into said transportation vehicles.

28. A refuse container assembly as defined in claim 1, said receptacle including a pair of side walls, a rear wall, a front wall and bottom wall, said hopper section being defined by extensions of said receptacle side and rear walls, said rear wall being generally flat and lying in a plane extending parallel to said pivot axis and in said first position of said receptacle, said rear wall being inclined downwardly and forwardly from said pivot axis.

29. A refuse container assembly as defined in claim 28, said front and bottom walls together forming a generally curved wall.

30. A refuse container assembly as defined in claim 28, said support means including a generally horizontally disposed pivot shaft defining said pivot axis, the upper end of said rear wall being pivotally mounted on said pivot shaft.

31. A refuse container assembly as defined in claim 28, said receptacle further including a pair of transversely spaced support arms extending rearwardly of said rear wall adjacent the upper end thereof, the ends of said arms remote from said receptacle being pivotally connected to said support means about said receptacle pivot axis and said receptacle pivot axis being rearwardly displaced from said rear wall of said receptacle.

32. A transfer station for receiving temporarily storing refuse collected by relatively low capacity collection vehicles and the like and pick-up by relatively high capacity transportation vehicles, said transfer station including:
a refuse receptacle of intermediate capacity mounted on a support frame above a support surface and having an opening in an upper end thereof sized to receive refuse deposited therethrough by said collection vehicles and an articulated lid assembly for opening and closing said opening for charging and discharging refuse and minimizing the effects of wind on the contained refuse, said receptacle being mounted on said support frame for pivotal movement in a vertical plane between a first position at which said receptacle is adapted to receive refuse from collection vehicles and a second position at which said container is adapted to discharge its contents into said transportion vehicles;
a ramp running transversely to the pivot axis of said container from said support surface to a position adjacent said opening of said receptacle for use by said collection and other vehicles for discharging refuse into said container;
and a roadway running generally parallel to said pivot axis on said support surface adjacent said receptacle and on the opposite side of said container from said ramp.

33. A refuse container assembly for temporarily storing refuse at a refuse transfer station and being adapted to receive refuse from relatively low capacity refuse collection vehicles and discharge refuse into relatively high capacity refuse transportation vehicles, said assembly comprising:
a refuse receptacle having a pair of side walls, a front wall and an inclined rear wall, a pair of transversely spaced support arms extending rearwardly of said rear wall adjacent the upper end of said receptacle and a refuse intake and discharge opening in said upper end defined by said front, rear and side walls;
support means for supporting said receptacle above a support surface, said support arms having free ends remote from said receptacle connected to said support means about a transversely extending pivot axis for pivotal movement thereabout of said receptacle between a lower refuse receiving position and an elevated refuse discharge position, said support means including means engageable with the lower end of said receptacle for locating said receptacle in said lower position;
first actuating means for pivoting said receptacle between said lower and elevated positions;
a lid assembly adapted to overlie said opening in a closed position and being moveable from said closed position to a first opened position for charging said receptacle and from said closed position to a second opened position for discharging said receptacle; and second actuating means for moving said lid assembly between said closed and said first opened position.

34. A refuse container assembly as defined in claim 33, said support means including a horizontal shaft extending generally transversely of said receptacle and defining said receptacle pivot axis.

35. A refuse container assembly as defined in claim 34, at least the upper portion of said front wall being rearwardly inclined.

36. A refuse container assembly as defined in claim 35, said front and bottom walls being joined to form a generally curved wall.

37. A refuse container assembly as defined in claim 33, said side walls each having an extension projecting beyond said front and rear walls and defining with said front and rear walls a generally inverted, U-shaped opening, each said extension having an upper and a front, rearwardly inclined marginal edge for supporting said lid assembly.

38. A refuse container assembly as defined in claim 37, said lid assembly including:
first, second and third lid members each adapted to overlie a portion of said opening in said first position of said lid assembly;

said first lid member overlying the portion of said opening in said rear wall and being pivotally connected to said receptacle adjacent a lower marginal edge of said portion of said opening;
said second lid member overlying the portion of said opening between said extensions, and being pivotally connected along its rear marginal edge to the upper marginal edge of said first lid member, the front end of said second lid member being moveably supported upon said upper marginal edge of each said extensions;
said third lid member overlying the portion of said opening in said front wall and being pivotally connected along its rear marginal edge to the front marginal edge of said second lid member, the front end of said third lid member being moveably supported on the front marginal edge of each said extensions, said first actuating means being operable to pivot said lid members relative to one another and move said second and third lid members rearwardly on said marginal edges of said extensions to uncover said opening and permit charging of said receptacle.

39. A refuse container assembly as defined in claim 38, said second and third lid members having rollers engageable with the marginal edges of each said extensions.

40. A refuse container assembly as defined in claim 39, said second lid member having a gate member moveable to an open position under the influence of gravity for discharging said receptacle.

41. A refuse container assembly as defined in claim 40, said gate member being coplanar with said second lid member in a closed position and being pivotally connected thereto.

42. A refuse container assembly as defined in claim 41, said gate member being biased in a closed position under the influence of gravity.

43. A refuse container assembly as defined in claim 42, said first actuating means including:
at least one pair of chain sprockets rotatably mounted in each said extension;
a chain trained about said sprockets, the ends of said chain being secured to said second lid member;
manual crank means associated with one of said sprockets for rotating said one sprocket.

44. A refuse container assembly as defined in claim 43, said first actuating means including three sprockets rotatably mounted in each said extension.

45. A refuse container assembly as defined in claim 32, further including locking means preventing movement of said lid assembly between said first and second positions thereof during pivoting of said receptacle between its first and second positions.