CA1072038A - Material handling apparatus - Google Patents
Material handling apparatusInfo
- Publication number
- CA1072038A CA1072038A CA301,980A CA301980A CA1072038A CA 1072038 A CA1072038 A CA 1072038A CA 301980 A CA301980 A CA 301980A CA 1072038 A CA1072038 A CA 1072038A
- Authority
- CA
- Canada
- Prior art keywords
- bin
- bins
- platform
- garbage
- series
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G65/00—Loading or unloading
- B65G65/30—Methods or devices for filling or emptying bunkers, hoppers, tanks, or like containers, of interest apart from their use in particular chemical or physical processes or their application in particular machines, e.g. not covered by a single other subclass
- B65G65/34—Emptying devices
- B65G65/40—Devices for emptying otherwise than from the top
- B65G65/44—Devices for emptying otherwise than from the top using reciprocating conveyors, e.g. jigging conveyors
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/34—Devices for discharging articles or materials from conveyor
- B65G47/46—Devices for discharging articles or materials from conveyor and distributing, e.g. automatically, to desired points
- B65G47/51—Devices for discharging articles or materials from conveyor and distributing, e.g. automatically, to desired points according to unprogrammed signals, e.g. influenced by supply situation at destination
- B65G47/5104—Devices for discharging articles or materials from conveyor and distributing, e.g. automatically, to desired points according to unprogrammed signals, e.g. influenced by supply situation at destination for articles
- B65G47/519—Devices for discharging articles or materials from conveyor and distributing, e.g. automatically, to desired points according to unprogrammed signals, e.g. influenced by supply situation at destination for articles collecting tables or bins as end-station
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Refuse Collection And Transfer (AREA)
Abstract
ABSTRACT OF THE DISCLOSURE
A material handling apparatus is described, for example for delivering bags of garbage to an incinerator.
The apparatus includes a series of material receiving bins, each of which has an open upper end through which material can be introduced into the bin. Each bin includes a platform forming a bottom wall of the bin and movable between a bottom position when the bin is empty and an upper position for ejecting material from the bin, and means for moving the platform between its said positions. The bins are dis-closed closely adjacent one another in a cascade arrangement in which the bins are of progressively increasing height with increasing distance from a discharge location so that material ejected from an upper bin in said series will tend to pass into an adjacent lower bin. Each said platform has a flat upper surface which slopes towards said discharge location when the platform is in its upper position and forms a closed top on the bin over which material ejected from a higher bin in said series can pass towards said discharge location. The platforms of all of the bins are arranged to co-operate when in their upper positions to form a generally flat inclined surface sloping towards said discharge location.
A material handling apparatus is described, for example for delivering bags of garbage to an incinerator.
The apparatus includes a series of material receiving bins, each of which has an open upper end through which material can be introduced into the bin. Each bin includes a platform forming a bottom wall of the bin and movable between a bottom position when the bin is empty and an upper position for ejecting material from the bin, and means for moving the platform between its said positions. The bins are dis-closed closely adjacent one another in a cascade arrangement in which the bins are of progressively increasing height with increasing distance from a discharge location so that material ejected from an upper bin in said series will tend to pass into an adjacent lower bin. Each said platform has a flat upper surface which slopes towards said discharge location when the platform is in its upper position and forms a closed top on the bin over which material ejected from a higher bin in said series can pass towards said discharge location. The platforms of all of the bins are arranged to co-operate when in their upper positions to form a generally flat inclined surface sloping towards said discharge location.
Description
~ 7z~3~3 This invention relates to a material handling ap-paratus~ In particular, the invention has been devised in connection with the handling of combustible waste material such as bays of garbage and the like intended to be delivered to an incinerator for fuel. However, the invention is not limited to this particular application.
It has previously been proposed to use garbage as a fuel source for heating and/or cooling buildings in which large am~unts of ccmbustible waste material are ordinarily available, such as -~
office buildings, hospitals and the lilce. By way of example, our Canadian patent application no. 284,929 filed August 18, 1977 is concerned with a heating and cooliny system for a building which includes an incinerator intended to be fueled by combustible waste material from the building.
W~lle the desirability of conserving energy by using garbage as a fuel source i5 widely acknowledged, problems have been encountered in providing means for efficiently handling garbage to be delivered to an incinerator. One example of a prior art garbage handlin~ installation used in a hospital
It has previously been proposed to use garbage as a fuel source for heating and/or cooling buildings in which large am~unts of ccmbustible waste material are ordinarily available, such as -~
office buildings, hospitals and the lilce. By way of example, our Canadian patent application no. 284,929 filed August 18, 1977 is concerned with a heating and cooliny system for a building which includes an incinerator intended to be fueled by combustible waste material from the building.
W~lle the desirability of conserving energy by using garbage as a fuel source i5 widely acknowledged, problems have been encountered in providing means for efficiently handling garbage to be delivered to an incinerator. One example of a prior art garbage handlin~ installation used in a hospital
2~ includes an open-topped hopper for receiving bags of garbage collected by hospital personnel. The hopper has an opening at its lower end controlled by a gate arrangement intended to allow garbage to be periodically removed from the hopper. A conveyor belt is disposed below the hopper fo~ delivering the garbage to an incinerator. In practice, it is found that the hopper often becomes jammed with bags of garbage to the extent that the garbage bags will not pass through the outlet opening of the hopper when the gate arrangement is opened. In fact, practical tests have shown that the garbage bags become so 30 tightly jammed in the hopper that they often cannot be dislodged even by forcing a knife or o~her tool downwar~ly through the garbage bags or by attempting to pull the bags down from below.
72~313 An object o~ the present invention is to provide an im~
proved material handling apparatus intended to a~oid ~his problem.
According to the invention, the apparatus includes aseries of ma-terial receiving bins, each of which has an upper end through which material can be introduced into the bin. Each bin includes a platform forming a bottom wall of the bin and movable between a ;
bottom position when the bin is empty and an upper position for ejecting material from the bin, and means for moving the platform between its said positions~ The bins are disclosed closely adjacent one another in a cascade arrangement in which the bins are of pro~
gressively increasing height with increasing distance from a dis-charge location so that material ejected from an upper bin in said sexies will tend to pass into an adjacent lower bin. Each said platform has a flat upper surface which slopes towards said dis-charge location when the platform is in its upper position and forms a closed top on the bin over which material ejected from a higher bin in said series can pass towards said discharge location. The platforms of all of the bins are arranyed to co-operate when in their upper positions to form a generally flat inclined surface sloping towards said discharge location~
In order that the invention may be more clearly understood,~
reference will now be mads to the accompanying drawings which illus-trate a number of embodiments of the invention by way of example, - and in which:
Fig. 1 is a perspective view of a material handling appar-atùs ac~ording to the invention in association with an incinerator; - `~
'!
Fig. 2, 3 and 4 are diagrammatic side views of part of , the apparatus of Fig. 1 illustrating its sequence of operation;
Fig. 5 is a front view of part of the apparatus shown in - 30 Figs. 2, 3 and 4;
;: ;~, Fig. 6 is a vertical sectional view on line VI-VI of
72~313 An object o~ the present invention is to provide an im~
proved material handling apparatus intended to a~oid ~his problem.
According to the invention, the apparatus includes aseries of ma-terial receiving bins, each of which has an upper end through which material can be introduced into the bin. Each bin includes a platform forming a bottom wall of the bin and movable between a ;
bottom position when the bin is empty and an upper position for ejecting material from the bin, and means for moving the platform between its said positions~ The bins are disclosed closely adjacent one another in a cascade arrangement in which the bins are of pro~
gressively increasing height with increasing distance from a dis-charge location so that material ejected from an upper bin in said sexies will tend to pass into an adjacent lower bin. Each said platform has a flat upper surface which slopes towards said dis-charge location when the platform is in its upper position and forms a closed top on the bin over which material ejected from a higher bin in said series can pass towards said discharge location. The platforms of all of the bins are arranyed to co-operate when in their upper positions to form a generally flat inclined surface sloping towards said discharge location~
In order that the invention may be more clearly understood,~
reference will now be mads to the accompanying drawings which illus-trate a number of embodiments of the invention by way of example, - and in which:
Fig. 1 is a perspective view of a material handling appar-atùs ac~ording to the invention in association with an incinerator; - `~
'!
Fig. 2, 3 and 4 are diagrammatic side views of part of , the apparatus of Fig. 1 illustrating its sequence of operation;
Fig. 5 is a front view of part of the apparatus shown in - 30 Figs. 2, 3 and 4;
;: ;~, Fig. 6 is a vertical sectional view on line VI-VI of
- 3 -~ ~' .. : -. , : , :; .. , . ,, . j; .. , .. , ~ , ... ,, : ., . ,, , .;
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Fig. 5.
Fig. 7 is a detail sectional view on line VII~VII
of Fig~ 6;
Fig. 8 is a detail sectional view on line VIII-VIII
of Fig. 5; and, Fig. 9 is a view similar to Fig. 4 illustrating an ;
alternative embodiment of the invention.
Referring first to Fig. 1, the material handling ~ -apparatus is generally indicated at 20 and is intended for handling bag~ of garbage to be fed to an incinerator 22. The `-incinerator is of conventional form and will not therefore be described in detail. For present purposesj it is sufficient to note that the incinerator includes a device 23 for feeding garbage bags into it. Device 23 will be described more speci-fically later. In this embodiment, the installatian comprising apparatus 20 and incinerator 22 is intended to be used in an office building for handling and burningbags of garbage produced in the building and incinerator 22 is used as a heating source for the building's heating system (not shown).
;20 Apparatus 20 includes two series of bins generally -denoted 24 and 26 arranged in banks on opposite sides of a belt conveyor 28. In this embodiment, each s~ries includes three bins; the bins in series 24 are denoted respectively 30, 32 and 34 and the bins in series 26 are denoted 36, 38 and 40.
The bins~have open tops and are housed in a suitable room in the building which allows the garbage bags to be readily loaded into the bins from above. In the illustrated embodiment, parts of the walls of the room are vislble, and it will be seen that openings 42 and 44 are provided in the walls above the bins for ' ~
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this purpose. Walkways, one of which is denoted 46 are pro-vided on the outside of the walls to provide access for ser-vice personnel. In some cases, it may also be desirable to provide walkways along the ends of the apparatus to facilitate loading of garbage bags, although such walkways are not provided in the present embodiment As noted previously, a conventional belt conveyor 28 is provided between the two banks of bins. Conveyor 28 is in-tended to receive garbage bags ejected from the bins as will ~ ;
be described and to convey the bags in the direction of arrow -48 to the incinerator feeding device 23. Thus, it will be seen that the conveyor passes through an opening 50 in an end wall of the room in which the bins are housed and that~the outer end of the conveyor is supported between side plates 52 and 54 at the outer side of the wall. A suitable motor drive for the conveyor is indicated at 56.
The incinerator feeding device 23 includes an elongate rectangular box 58 which is disposed in a transverse position between the two side plates 52 and 54 supporting the outer end ~20 of the conveyor. Box 58 has a lid 60 which is connected to a side of the box~by hinges 62 so that the lid can be moved from ~
the closed horizontal position in which it is shown to an open `
j vertical position, in which material discharged from the con-veyor 28 falls into the open box. The lid is moved between its open and closed by a hydraulic cylinder and ram device 64~ the ~ `~
~' lower end of which is mounted on the box, and the upper end of which is connected by a link 66 to the lid 60. Accordingly, if the ram of device 64 is retracted from the position in which it is shown in Fig. l, lid 60 will be raised. Similarly, by .. '~ .~ .
_ 5 ~
: ;, ".
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~L~7Z~38 extending the ram, the lid can be closed.
Box 58 is open at both ends. The end which is dis-posed at the left in Fig. 1 communicates with an extension 68 -~
of box 58 which leads to the inlet door (not shown) of the in- ~
cinerator. The other end of box 58 is closed by a square plate ;~ -carried by a further cylinder and ram device 72 arranged with its axis horizontal and in alignmen~ with the horizontal axis of box 58. Accordingly, by extending the ram of device 72, plate 70 slides longitudinally through box 58 to push any ~-material in the box towards the incinerator. ~ ~
In practicer the sequence of operation of this part ~ ;
o~ the apparatus will be as follows. With the lid 60 of box 58 in an open position, conveyor 28 will deliver garbage into the open box. When the box is full, the supply of garbage will be terminated and lid 60 will be closed. The ram of device 72 will then be extended to push the garbage towards the in-.
cinerator. With the incinerator inlet door open, the garbage will then be pushed directly into the incinerator. When the apparatus is being started up, it will of course be necessary -;;
for the box extension 68 to become substantially filled with ,A .
garbage before garbage will actually pass into the incinerator.
In other words, the first few charges of garbage will serve to fill extension 68.
Although not shown in the drawings it is anticipated that, in practice, the operation of feediny the incinerator 20 will proceed automatically. Thus~ a photocell arrangement will detect when box 58 is full and will generate a signal to stop conveyor 28 and initiate a sequ~nce control for appro-, :
priately operating the rams 64 and 72.
. ' , . .:
~L~7Z~3 '.
Reference will now be made to Figs. 2, 3 and 4 which ~;
show the three bins 30, 32 and 34 of series 24 and which will now be described in explaining the principle of operation of the appa~atus. Each bin is of rectangular shape in plain view and has an open upper end and front, rear and side walls having flat, smooth inner surfaces which define an internal space -of c~nstant ~ectangular cross-section throughout its height.
Slidably mounted between the side walls of each bin is a platform which defines ~he bottom wall of the bin. In the case of bins 30, 32 and 34, the platforms are denoted respectively 74, 76 and 78. Associated with each platform as will be described is a hydraulic cylinder and ram device arranged to cause vextical sliding movement of the platform within the internal space of the bin. The cylinder and ram devices of the three bins are denoted respectively 80,82 and 84.
Thus, it will be appreciated that, by extending a cylinder and ram device associated with the platform of any particular .~
bin, garbage bags in that bin can be ejected from the bin.
The bins in each series are disposed in a cascade ~ `;
'"l ,.
arrangement so that garbage bags ejected from an upper bin in the series can be progressively conveyed to a discharge location. In the illustrated embodiment, the discharge location is represented by the conveyor 28. Thus, it will -be seen that the three bins in series 24 are arranged directly adjacent one another and that the front wall of each bin iS lower than the rear end wall of that bin. This shaping ensures that garbage ejected from an upper bin in the series will always spill over the front wall of that bin~ ~
and that garbage ejected from the lowest bin in the series ~;
, .
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z~3~
will fall onto conveyor ~8. The side walls of the bins extend upwardly somewhat to prevent material spilling out of the bins at the sides. Each of the platforms 74, 76 and 78 in the bins has an upper surface which slopes downwardly generally from the rear wall of the associated `~
bin to front wall. In this embodiment, the upper surfaces of the platforms slope to an angle of approximately 30 to the horizontal. The platforms are arranged so that, in their uppermost positions, they co-operate to define a generally flat inclined surface disposed at an angle of approximately 30 to the horizontal.
Figs. 2 and 4 illustrate a sequence of operation of the platforms in the respective bins when the apparatus is in operation. The platforms are initially in their bottom positions in which they are shown in Fig.2u Garbage is then loaded into the bins from above as indicated by the arrows 86 in Fig. 2. This operation will take place over a period --of time as and when garbage becomes available. When all of the bins are full and the garbage is to be discharged into conveyor 28, the platform 78 of the lower bin 34 is raised .! as shown in Fig. 3. This causes the garbage bags formerly contained in bin 34 to spill over out of the open ~pper end of the bin onto conveyor 28. ~he conveyor is in motion at this time and will carry away the garbage bags as they fall onto the conveyor. When bin 34 is empty, platform 78 remains in its upper positon and the platform 76 of bin 32 is raised so that the contents of that bin spill out as shown in Fig. 4. Platform 78 prevents the garbage spilling out of bin 32 from enterlng bln 34 so the garbage slides down '~:
.~ '' '' ~.
31.(~7Z~3~3 the upper surface of platform 78 and onto conveyor 28. Platform ~
76 is then maintained in its upper position while the platform .- :
74 of bin 30 is raised so that the garbage bags in bin 30 spill ~::
out and slide down the upper surfaces of platforms 76 and 78 and onto conveyor. All of the bins i~ series 24 are then empty and the platforms are returned to their lower positions so that ~ ;~
the bins are a~ain ready to receive garbage bags.
It will be appreciated that the operation of empty- :
ing the bins can proceed at any appropriate speed according 10 to the rate of consumption of garbage by incinerator 20 and ~ ~-the rate at which garbage becomes available. Thus, the ;~ ~
three platforms do not have to be raised immediately one after . ~.
~: :
the other. Also, the platforms could be raised other than in ;.
the particular sequence described. If, for example, the platform 74 of bin 30 were raised first, the garbage from .~`
~,;4 that bin would spill down over the garbage in the other two ` ;~;
bins and onto the conveyor. However, this would result in a -.
~ less controlled flow of garbage than with the sequence : .
';7i~ described. In other words, although the described sequence : ~
~3 : ~.
~: 20 may be varied, that sequence~is belived to be preferable from the point of view of controlling the flow of garbage onto the ~
.. conveyor. In another embodiment, it might even be possible . .
:1 ` :
- to raise all three platforms simultaneously. ::
; It should also be noted that the platforms can be .
made to assist in loading garbage into the bins. For example, . if garbage is initially loaded into the upper bin 30, the .
platform 74 of that bin could be raised to transfer the garbage :`
into bin 32. Similarly, garbage could be transferred from bin 32 to bin 34 by raising the platform 76 of bin 32.
In any event, appropriate hydraulic control equipment ~ will be provided for operating the cylinder and ram devices 80, : 82 and 84 and may include automatic sequence control devices.
1~7Z~3~3 .
On the other hand, in a simple case, the cylinder and ram devices may be controlled by simple manually operable on/off valves. Such control equipment will be readily constructed by a person skilled in the art and has not been illustrated since it forms no part of the invention.
The bins in series 26 are constructed and arranged to operate in essentially the same fashion as the bins in series 24. Accordingly, these bins will not be described in ;
- detail. It should merely be noted that, as a practical matter, it may be desirable to synchronize the emptying of the bins in the respective series so as not to overload conveyor 28. -It will be appreciated tha-t Figs. 2, 3 and 4 are diagrammatic views intended to illustrate the sequence of operation of the platforms. Figs. 5 to 8 show practical de-tails of the construction of the platform 76 of bin 32 as a typical example. The platforms in the other bins ln both series :, . .
1 24 and series 26 are of essentially the same construction and ~;~
:. :
will not therefore be described in detailO Platform 76 is made Up of a welded framework 88 of angle iron and a metal plate 90 welded to the top of framework 88. Framework 88 is of truhcated triangular shape in end view and of rectangular shape in plan view. As can best be seen in Fig. 5, the top of frame-work 88 is made up of a series of interconnected longitudinal and transverse members which define a grid-form support for plate 90. Two of the transverse members are of T-shape in cross-section and are dënoted 92 and 94 in Fig. 5. These members define attachment points for two hydraulic cylinder and ram devices 82 and 821 by which the platform is raised and lowered. Thus, referring to Fig. 7,-it will be seen that - 1 0 - , 7;~38 the ram of device 82 has a yoke 95 at its outer end which is connected by a pivot pin 96 to the stem portion 92a of member 92. A similar arrangement (not shown) is provided for cylinder and ram device 82 . In describing Figs. 2 t~ 4, reference was made to a single cylinder and ram device for the sake of sim~
plicity of descriptionr and it will of course be appreciated that a single device could be used in practice. However, in the particular embodiment shown in detail in Figs. 5 to 8l two cylinder and ram devices are used in view of the length of the platform in order to provide a balanced lifting action.
The devices 82 and 821 are in fact telescopic so that they can '~-i lift the associated platforms through a height greater than ~;~
~, , ,- .
the length of the devices themselves. ;
The framework 88 of platform 76 includes vertical , front and rear members 97 and 98 respectively as can best be seen in Fig. 6. These mel~bers are arranged in pairs at op~
posite sides of the framework and in the centre, and the mem-bers in each pair are spaced transversely of the framework . ' - ,:
as can be seen in Fig. 5 in the case of members 96. The rear vertical members 98 are similarly arranged although they are not visible in Fig. 5. The pairs of vertical members provide mounting points for front and rear rollers, the front ones of which are denoted 100 while the rear rollers are denoted 102.
Fig. 8 shows a detail view of the mounting point of one o the front rollers 100. It will be seen that the roller is fixed to a shaft 104 which is mounted in freely rotateable fashion in the framework 88. The rollers protrude slightly from the members between which they are mounted and run on the front and rear walls of the bin in which the platform is vertically 7Z~33~
movable to locate the platform in the longitudinal direction.
Rubber strips 105 of inverted U-shape (see Fig. 5) are attached to ends of plate 90 and slide on end walls (not shown) of the -bin to provide lateral location and seal against ingress of garbage.
Referring again to Fig. 6, the walls of each bin are formed by vertical steel plates supported by an angle iron framework of welded construction. Parts of the plates forming the front and rear walls of bin 32 are visible at 106 and 108 respectively in Fig. 6. Also, part of the supporting frame- -work for plate 10 6 is shown at 110. Slnce the form of this framework is not believed to be significant, it will not be ;
described, except to note that the framework also supports a plate 112 which forms the rear wall of bin 34. ~ capping plate 114 is provided on top of the framework. The side walls of the :, bin are of simila~ form.
, In Fig. 6, the platform 76 is shown in its top po-sition in bin 32. It will be noted that the front (lower) edge of the platform denoted 76a protrudes slightly above the plate 114 on framework 110, while the rear (upper) edge of platform 76, denoted 76b, is located below the corresponding plate between bin 32 and bin 30. This position has been de-liberately chosen to avoid presenting any obstruction to move-ment of garbage in practice. For example, if there is a slight inaccuracy or variation in the stroke of the cylinder and ram devices which raise the platform (eg. due to wear in use) the chosen position allows some tolerance for corresponding inaccuracies in the top position of the platform. Thus, the platform could be slïghtly higher or lower than the position '~
~L~72133~
in which it is shown in Fig. 6 without obstructing movement o garbage accross the top surface o~ the platform, The prece~ing description of Figs. 5 to 8 refers specifically to bin 32 and its platform 76. However, it is to -`
be understood that the other bins and platforms in both series ~;
24 and in series 26 are essentially the same.
Reference will now be made to Fig. 9 of the drawing which illustrates an alternative embodiment of the invention.
Fig. 9 is a view similar to Fig. 4 and primed reference nu~
10 merals have been used in Fig. 9 to denote parts which corres- -pond with Fig. 4. The embodiment of Fig. 9 differs from the previous embodiment in that the bins, denoted 30', 32' and ;;
34' are inclined slightly in the direction of intended move- ~ ~
ment of the garbage. The cylinder and ram devices 80', 82' ; ;
and 84' are correspondingly inclined. Otherwise, the bins themselves and the platforms therein (74', 76' and 78') are essentially the same as in the previous embodiment. ~
It wlll be appreciated that, in the Fig. 9 embodi- ~ ~;
ment, material is ejected from the bins 30', 32' and 34' in a ~ ;~
direction which is inclined in the direction of intended move-ment of the material. Accordingly, as the material is ejected from the bins, it will tend to fall towards the discharge lo-cation adjacent bin 34'. This embodiment is designed to pro-mote improved movement of garbage by avoiding any tendency for~garbage raised on one of the platfoxms of the apparatus 1;~
to simply remain in a stationary stack on that platform and not spill over into an adjacent bin or to said discharge lo-:.
cation.- This embodiment may be particularly suitable in handling certain types of garbage, eg. relatively heavy material which ~ 3 ~
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might tend to become consolidated in the bin. It will of course be appreciated that, while Fig. 9 shows only one series of bins, ~-~
a second similar series may also be provided as in the pre-vious embodiment and may, if appropriate, be inclined towards the bins 30', 32' and 34' It should be noted that the preceding description relates to specific embodiments of the invention, and that many modifications are possible within the broad scope of the in-vention.
For example~, although the description refers to an apparatus which includes two series of bins, each series com-prising three individual bins, there is no limitation to this particular arranyement. In a minimum case, the apparatus could comprise two bins in a cascade arrangement. On the other hand, the number of bins in each series could be increased to any reasonable number within the limitations of the space available.
Similarly, the number of series in any given apparatus could be increased beyond the two series shown.
The term "cascade arrangement" as used in this ;:
application is intended to include any arrangement which allows material to be progressively conveyed through the apparatus in cascade fashion.
The bins need not be of the orm specifically des-cribed herein. Differently shaped bins could be used. Also, the bins may be structurally different. In another embodiment the bins could be constructed from a framework of wood studs covered with drywall. Further, the bins need not discharge onto a belt conveyor as shown. In another example, the bins could discharge into, say, a screw conveyor, or even directly into an incinerator or other garbage handling equipment.
~ ' ' ~ - 14 - ~
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~7z~3~3 Although the descripti~ refers to apparatus handling garbage in bags, there is no limita~ion in this -~
respect. The garbage could be loose, provided it is relatively dry and otherwise suitable for handling in the manner described.
The apparatus ~ould also be used for handling material of appropriate form other than garbage, e.g. laundry.
It should also be noted that the form of lifting ;
arrangement provided for the platforms of the bins and the platforms themselves may be varied. In an alternative ~;
embodiment,overhead lifting devices such as chains or cable lifts, hoists or the like could be provided for lifting the - ,:
platforms from above. A still further possibility would be to provide a rack and plnion type of lifting arrangement. ;
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Fig. 5.
Fig. 7 is a detail sectional view on line VII~VII
of Fig~ 6;
Fig. 8 is a detail sectional view on line VIII-VIII
of Fig. 5; and, Fig. 9 is a view similar to Fig. 4 illustrating an ;
alternative embodiment of the invention.
Referring first to Fig. 1, the material handling ~ -apparatus is generally indicated at 20 and is intended for handling bag~ of garbage to be fed to an incinerator 22. The `-incinerator is of conventional form and will not therefore be described in detail. For present purposesj it is sufficient to note that the incinerator includes a device 23 for feeding garbage bags into it. Device 23 will be described more speci-fically later. In this embodiment, the installatian comprising apparatus 20 and incinerator 22 is intended to be used in an office building for handling and burningbags of garbage produced in the building and incinerator 22 is used as a heating source for the building's heating system (not shown).
;20 Apparatus 20 includes two series of bins generally -denoted 24 and 26 arranged in banks on opposite sides of a belt conveyor 28. In this embodiment, each s~ries includes three bins; the bins in series 24 are denoted respectively 30, 32 and 34 and the bins in series 26 are denoted 36, 38 and 40.
The bins~have open tops and are housed in a suitable room in the building which allows the garbage bags to be readily loaded into the bins from above. In the illustrated embodiment, parts of the walls of the room are vislble, and it will be seen that openings 42 and 44 are provided in the walls above the bins for ' ~
, :
,` ;:
~.~7;~:Q138 :
this purpose. Walkways, one of which is denoted 46 are pro-vided on the outside of the walls to provide access for ser-vice personnel. In some cases, it may also be desirable to provide walkways along the ends of the apparatus to facilitate loading of garbage bags, although such walkways are not provided in the present embodiment As noted previously, a conventional belt conveyor 28 is provided between the two banks of bins. Conveyor 28 is in-tended to receive garbage bags ejected from the bins as will ~ ;
be described and to convey the bags in the direction of arrow -48 to the incinerator feeding device 23. Thus, it will be seen that the conveyor passes through an opening 50 in an end wall of the room in which the bins are housed and that~the outer end of the conveyor is supported between side plates 52 and 54 at the outer side of the wall. A suitable motor drive for the conveyor is indicated at 56.
The incinerator feeding device 23 includes an elongate rectangular box 58 which is disposed in a transverse position between the two side plates 52 and 54 supporting the outer end ~20 of the conveyor. Box 58 has a lid 60 which is connected to a side of the box~by hinges 62 so that the lid can be moved from ~
the closed horizontal position in which it is shown to an open `
j vertical position, in which material discharged from the con-veyor 28 falls into the open box. The lid is moved between its open and closed by a hydraulic cylinder and ram device 64~ the ~ `~
~' lower end of which is mounted on the box, and the upper end of which is connected by a link 66 to the lid 60. Accordingly, if the ram of device 64 is retracted from the position in which it is shown in Fig. l, lid 60 will be raised. Similarly, by .. '~ .~ .
_ 5 ~
: ;, ".
,.
~L~7Z~38 extending the ram, the lid can be closed.
Box 58 is open at both ends. The end which is dis-posed at the left in Fig. 1 communicates with an extension 68 -~
of box 58 which leads to the inlet door (not shown) of the in- ~
cinerator. The other end of box 58 is closed by a square plate ;~ -carried by a further cylinder and ram device 72 arranged with its axis horizontal and in alignmen~ with the horizontal axis of box 58. Accordingly, by extending the ram of device 72, plate 70 slides longitudinally through box 58 to push any ~-material in the box towards the incinerator. ~ ~
In practicer the sequence of operation of this part ~ ;
o~ the apparatus will be as follows. With the lid 60 of box 58 in an open position, conveyor 28 will deliver garbage into the open box. When the box is full, the supply of garbage will be terminated and lid 60 will be closed. The ram of device 72 will then be extended to push the garbage towards the in-.
cinerator. With the incinerator inlet door open, the garbage will then be pushed directly into the incinerator. When the apparatus is being started up, it will of course be necessary -;;
for the box extension 68 to become substantially filled with ,A .
garbage before garbage will actually pass into the incinerator.
In other words, the first few charges of garbage will serve to fill extension 68.
Although not shown in the drawings it is anticipated that, in practice, the operation of feediny the incinerator 20 will proceed automatically. Thus~ a photocell arrangement will detect when box 58 is full and will generate a signal to stop conveyor 28 and initiate a sequ~nce control for appro-, :
priately operating the rams 64 and 72.
. ' , . .:
~L~7Z~3 '.
Reference will now be made to Figs. 2, 3 and 4 which ~;
show the three bins 30, 32 and 34 of series 24 and which will now be described in explaining the principle of operation of the appa~atus. Each bin is of rectangular shape in plain view and has an open upper end and front, rear and side walls having flat, smooth inner surfaces which define an internal space -of c~nstant ~ectangular cross-section throughout its height.
Slidably mounted between the side walls of each bin is a platform which defines ~he bottom wall of the bin. In the case of bins 30, 32 and 34, the platforms are denoted respectively 74, 76 and 78. Associated with each platform as will be described is a hydraulic cylinder and ram device arranged to cause vextical sliding movement of the platform within the internal space of the bin. The cylinder and ram devices of the three bins are denoted respectively 80,82 and 84.
Thus, it will be appreciated that, by extending a cylinder and ram device associated with the platform of any particular .~
bin, garbage bags in that bin can be ejected from the bin.
The bins in each series are disposed in a cascade ~ `;
'"l ,.
arrangement so that garbage bags ejected from an upper bin in the series can be progressively conveyed to a discharge location. In the illustrated embodiment, the discharge location is represented by the conveyor 28. Thus, it will -be seen that the three bins in series 24 are arranged directly adjacent one another and that the front wall of each bin iS lower than the rear end wall of that bin. This shaping ensures that garbage ejected from an upper bin in the series will always spill over the front wall of that bin~ ~
and that garbage ejected from the lowest bin in the series ~;
, .
.. ' ~ .
z~3~
will fall onto conveyor ~8. The side walls of the bins extend upwardly somewhat to prevent material spilling out of the bins at the sides. Each of the platforms 74, 76 and 78 in the bins has an upper surface which slopes downwardly generally from the rear wall of the associated `~
bin to front wall. In this embodiment, the upper surfaces of the platforms slope to an angle of approximately 30 to the horizontal. The platforms are arranged so that, in their uppermost positions, they co-operate to define a generally flat inclined surface disposed at an angle of approximately 30 to the horizontal.
Figs. 2 and 4 illustrate a sequence of operation of the platforms in the respective bins when the apparatus is in operation. The platforms are initially in their bottom positions in which they are shown in Fig.2u Garbage is then loaded into the bins from above as indicated by the arrows 86 in Fig. 2. This operation will take place over a period --of time as and when garbage becomes available. When all of the bins are full and the garbage is to be discharged into conveyor 28, the platform 78 of the lower bin 34 is raised .! as shown in Fig. 3. This causes the garbage bags formerly contained in bin 34 to spill over out of the open ~pper end of the bin onto conveyor 28. ~he conveyor is in motion at this time and will carry away the garbage bags as they fall onto the conveyor. When bin 34 is empty, platform 78 remains in its upper positon and the platform 76 of bin 32 is raised so that the contents of that bin spill out as shown in Fig. 4. Platform 78 prevents the garbage spilling out of bin 32 from enterlng bln 34 so the garbage slides down '~:
.~ '' '' ~.
31.(~7Z~3~3 the upper surface of platform 78 and onto conveyor 28. Platform ~
76 is then maintained in its upper position while the platform .- :
74 of bin 30 is raised so that the garbage bags in bin 30 spill ~::
out and slide down the upper surfaces of platforms 76 and 78 and onto conveyor. All of the bins i~ series 24 are then empty and the platforms are returned to their lower positions so that ~ ;~
the bins are a~ain ready to receive garbage bags.
It will be appreciated that the operation of empty- :
ing the bins can proceed at any appropriate speed according 10 to the rate of consumption of garbage by incinerator 20 and ~ ~-the rate at which garbage becomes available. Thus, the ;~ ~
three platforms do not have to be raised immediately one after . ~.
~: :
the other. Also, the platforms could be raised other than in ;.
the particular sequence described. If, for example, the platform 74 of bin 30 were raised first, the garbage from .~`
~,;4 that bin would spill down over the garbage in the other two ` ;~;
bins and onto the conveyor. However, this would result in a -.
~ less controlled flow of garbage than with the sequence : .
';7i~ described. In other words, although the described sequence : ~
~3 : ~.
~: 20 may be varied, that sequence~is belived to be preferable from the point of view of controlling the flow of garbage onto the ~
.. conveyor. In another embodiment, it might even be possible . .
:1 ` :
- to raise all three platforms simultaneously. ::
; It should also be noted that the platforms can be .
made to assist in loading garbage into the bins. For example, . if garbage is initially loaded into the upper bin 30, the .
platform 74 of that bin could be raised to transfer the garbage :`
into bin 32. Similarly, garbage could be transferred from bin 32 to bin 34 by raising the platform 76 of bin 32.
In any event, appropriate hydraulic control equipment ~ will be provided for operating the cylinder and ram devices 80, : 82 and 84 and may include automatic sequence control devices.
1~7Z~3~3 .
On the other hand, in a simple case, the cylinder and ram devices may be controlled by simple manually operable on/off valves. Such control equipment will be readily constructed by a person skilled in the art and has not been illustrated since it forms no part of the invention.
The bins in series 26 are constructed and arranged to operate in essentially the same fashion as the bins in series 24. Accordingly, these bins will not be described in ;
- detail. It should merely be noted that, as a practical matter, it may be desirable to synchronize the emptying of the bins in the respective series so as not to overload conveyor 28. -It will be appreciated tha-t Figs. 2, 3 and 4 are diagrammatic views intended to illustrate the sequence of operation of the platforms. Figs. 5 to 8 show practical de-tails of the construction of the platform 76 of bin 32 as a typical example. The platforms in the other bins ln both series :, . .
1 24 and series 26 are of essentially the same construction and ~;~
:. :
will not therefore be described in detailO Platform 76 is made Up of a welded framework 88 of angle iron and a metal plate 90 welded to the top of framework 88. Framework 88 is of truhcated triangular shape in end view and of rectangular shape in plan view. As can best be seen in Fig. 5, the top of frame-work 88 is made up of a series of interconnected longitudinal and transverse members which define a grid-form support for plate 90. Two of the transverse members are of T-shape in cross-section and are dënoted 92 and 94 in Fig. 5. These members define attachment points for two hydraulic cylinder and ram devices 82 and 821 by which the platform is raised and lowered. Thus, referring to Fig. 7,-it will be seen that - 1 0 - , 7;~38 the ram of device 82 has a yoke 95 at its outer end which is connected by a pivot pin 96 to the stem portion 92a of member 92. A similar arrangement (not shown) is provided for cylinder and ram device 82 . In describing Figs. 2 t~ 4, reference was made to a single cylinder and ram device for the sake of sim~
plicity of descriptionr and it will of course be appreciated that a single device could be used in practice. However, in the particular embodiment shown in detail in Figs. 5 to 8l two cylinder and ram devices are used in view of the length of the platform in order to provide a balanced lifting action.
The devices 82 and 821 are in fact telescopic so that they can '~-i lift the associated platforms through a height greater than ~;~
~, , ,- .
the length of the devices themselves. ;
The framework 88 of platform 76 includes vertical , front and rear members 97 and 98 respectively as can best be seen in Fig. 6. These mel~bers are arranged in pairs at op~
posite sides of the framework and in the centre, and the mem-bers in each pair are spaced transversely of the framework . ' - ,:
as can be seen in Fig. 5 in the case of members 96. The rear vertical members 98 are similarly arranged although they are not visible in Fig. 5. The pairs of vertical members provide mounting points for front and rear rollers, the front ones of which are denoted 100 while the rear rollers are denoted 102.
Fig. 8 shows a detail view of the mounting point of one o the front rollers 100. It will be seen that the roller is fixed to a shaft 104 which is mounted in freely rotateable fashion in the framework 88. The rollers protrude slightly from the members between which they are mounted and run on the front and rear walls of the bin in which the platform is vertically 7Z~33~
movable to locate the platform in the longitudinal direction.
Rubber strips 105 of inverted U-shape (see Fig. 5) are attached to ends of plate 90 and slide on end walls (not shown) of the -bin to provide lateral location and seal against ingress of garbage.
Referring again to Fig. 6, the walls of each bin are formed by vertical steel plates supported by an angle iron framework of welded construction. Parts of the plates forming the front and rear walls of bin 32 are visible at 106 and 108 respectively in Fig. 6. Also, part of the supporting frame- -work for plate 10 6 is shown at 110. Slnce the form of this framework is not believed to be significant, it will not be ;
described, except to note that the framework also supports a plate 112 which forms the rear wall of bin 34. ~ capping plate 114 is provided on top of the framework. The side walls of the :, bin are of simila~ form.
, In Fig. 6, the platform 76 is shown in its top po-sition in bin 32. It will be noted that the front (lower) edge of the platform denoted 76a protrudes slightly above the plate 114 on framework 110, while the rear (upper) edge of platform 76, denoted 76b, is located below the corresponding plate between bin 32 and bin 30. This position has been de-liberately chosen to avoid presenting any obstruction to move-ment of garbage in practice. For example, if there is a slight inaccuracy or variation in the stroke of the cylinder and ram devices which raise the platform (eg. due to wear in use) the chosen position allows some tolerance for corresponding inaccuracies in the top position of the platform. Thus, the platform could be slïghtly higher or lower than the position '~
~L~72133~
in which it is shown in Fig. 6 without obstructing movement o garbage accross the top surface o~ the platform, The prece~ing description of Figs. 5 to 8 refers specifically to bin 32 and its platform 76. However, it is to -`
be understood that the other bins and platforms in both series ~;
24 and in series 26 are essentially the same.
Reference will now be made to Fig. 9 of the drawing which illustrates an alternative embodiment of the invention.
Fig. 9 is a view similar to Fig. 4 and primed reference nu~
10 merals have been used in Fig. 9 to denote parts which corres- -pond with Fig. 4. The embodiment of Fig. 9 differs from the previous embodiment in that the bins, denoted 30', 32' and ;;
34' are inclined slightly in the direction of intended move- ~ ~
ment of the garbage. The cylinder and ram devices 80', 82' ; ;
and 84' are correspondingly inclined. Otherwise, the bins themselves and the platforms therein (74', 76' and 78') are essentially the same as in the previous embodiment. ~
It wlll be appreciated that, in the Fig. 9 embodi- ~ ~;
ment, material is ejected from the bins 30', 32' and 34' in a ~ ;~
direction which is inclined in the direction of intended move-ment of the material. Accordingly, as the material is ejected from the bins, it will tend to fall towards the discharge lo-cation adjacent bin 34'. This embodiment is designed to pro-mote improved movement of garbage by avoiding any tendency for~garbage raised on one of the platfoxms of the apparatus 1;~
to simply remain in a stationary stack on that platform and not spill over into an adjacent bin or to said discharge lo-:.
cation.- This embodiment may be particularly suitable in handling certain types of garbage, eg. relatively heavy material which ~ 3 ~
.,, ' ~:
~L~7Z~3~ ~:
might tend to become consolidated in the bin. It will of course be appreciated that, while Fig. 9 shows only one series of bins, ~-~
a second similar series may also be provided as in the pre-vious embodiment and may, if appropriate, be inclined towards the bins 30', 32' and 34' It should be noted that the preceding description relates to specific embodiments of the invention, and that many modifications are possible within the broad scope of the in-vention.
For example~, although the description refers to an apparatus which includes two series of bins, each series com-prising three individual bins, there is no limitation to this particular arranyement. In a minimum case, the apparatus could comprise two bins in a cascade arrangement. On the other hand, the number of bins in each series could be increased to any reasonable number within the limitations of the space available.
Similarly, the number of series in any given apparatus could be increased beyond the two series shown.
The term "cascade arrangement" as used in this ;:
application is intended to include any arrangement which allows material to be progressively conveyed through the apparatus in cascade fashion.
The bins need not be of the orm specifically des-cribed herein. Differently shaped bins could be used. Also, the bins may be structurally different. In another embodiment the bins could be constructed from a framework of wood studs covered with drywall. Further, the bins need not discharge onto a belt conveyor as shown. In another example, the bins could discharge into, say, a screw conveyor, or even directly into an incinerator or other garbage handling equipment.
~ ' ' ~ - 14 - ~
: ::
~7z~3~3 Although the descripti~ refers to apparatus handling garbage in bags, there is no limita~ion in this -~
respect. The garbage could be loose, provided it is relatively dry and otherwise suitable for handling in the manner described.
The apparatus ~ould also be used for handling material of appropriate form other than garbage, e.g. laundry.
It should also be noted that the form of lifting ;
arrangement provided for the platforms of the bins and the platforms themselves may be varied. In an alternative ~;
embodiment,overhead lifting devices such as chains or cable lifts, hoists or the like could be provided for lifting the - ,:
platforms from above. A still further possibility would be to provide a rack and plnion type of lifting arrangement. ;
~'~
`.'' :, :
, : ' :
: ~, '`, , "`'`.
' ~', -: : ~:`'`
: ' `"`
Claims (8)
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:
1. Material handling apparatus comprising a series of material receiving bins, each of which has an open upper end through which material can be introduced into the bin and each of which in-cludes: a platform forming a bottom wall of the bin and movable between a bottom position when the bin is empty and an upper position for ejecting material from the bin, and means for moving the platform between its said positions; the bins being disposed closely adjacent one another in a cascade arrange-ment in which the bins are of progressively increasing height with increasing distance from a discharge location so that material ejected from an upper bin in said series will tend to pass into an adjacent lower bin, each of said platforms having a flat upper surface which slopes towards said discharge location when the platform is in its upper position and forms a closed top on the bin over which material ejected from a higher bin in said series can pass towards said discharge location, the platforms of all of the bins being arranged to co-operate when in their upper positions to form a generally flat inclined surface sloping towards said discharge location.
2. Apparatus as claimed in claim 1, wherein said means for moving the platform of each bin between its upper and lower positions comprise a hydraulic cylinder and ram device disposed below and coupled to said platform so that the platform can be moved between its said positions by extending and retracting the ram of said device.
3. Apparatus as claimed in claim 1, wherein each bin has front and rear walls which are inclined towards said discharge location of the apparatus so as to promote movement of material ejected from the bins in that direction.
4. Apparatus as claimed in claim 1, wherein each bin has front and rear walls, and wherein each of said platforms comprises a flat top sheet which forms said upper surface of the platform, a framework supporting said sheet, and a plurality of rollers rotatably supported by and projecting outwardly from said frame work for rolling engagement with the inner surfaces of at least said front and rear walls of the bin.
5. Apparatus as claimed in claim 4, wherein each said platform has a rear edge adjacent said rear wall of the bin and a front edge adjacent said front wall, and wherein the platform is designed so that, in its said upper position, its rear edge is disposed at a position below the upper edge of the rear wall of the bin and its front edge is disposed at a position above the upper edge of the front wall of the bin.
6. Apparatus as claimed in claim 1, further comprising a belt conveyor disposed at said discharge location and posi-tioned to receive material discharged from said bins for conveying discharged material to a location remote from said bins.
7. Apparatus as claimed in claim 6, comprising two similar series of bins disposed on respectively opposite sides of said belt conveyor and arranged so that material can be selectively discharged from the bins of either or both of said series onto said conveyor.
8. The combination of: apparatus as claimed in claim 6 or 7 for handling garbage in bags, and an incinerator for burning said garbage, wherein the incinerator includes means for feeding bags of garbage into the incinerator, said feeding means being disposed adjacent said belt conveyor for receiving material from said bins.
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CA301,980A CA1072038A (en) | 1978-04-26 | 1978-04-26 | Material handling apparatus |
GB7909497A GB2019818B (en) | 1978-04-26 | 1979-03-19 | Material handling apparatus |
DE19792912847 DE2912847A1 (en) | 1978-04-26 | 1979-03-30 | MATERIAL PROCESSING DEVICE |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CA301,980A CA1072038A (en) | 1978-04-26 | 1978-04-26 | Material handling apparatus |
Publications (1)
Publication Number | Publication Date |
---|---|
CA1072038A true CA1072038A (en) | 1980-02-19 |
Family
ID=4111342
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA301,980A Expired CA1072038A (en) | 1978-04-26 | 1978-04-26 | Material handling apparatus |
Country Status (3)
Country | Link |
---|---|
CA (1) | CA1072038A (en) |
DE (1) | DE2912847A1 (en) |
GB (1) | GB2019818B (en) |
-
1978
- 1978-04-26 CA CA301,980A patent/CA1072038A/en not_active Expired
-
1979
- 1979-03-19 GB GB7909497A patent/GB2019818B/en not_active Expired
- 1979-03-30 DE DE19792912847 patent/DE2912847A1/en not_active Withdrawn
Also Published As
Publication number | Publication date |
---|---|
GB2019818B (en) | 1982-10-20 |
GB2019818A (en) | 1979-11-07 |
DE2912847A1 (en) | 1979-11-08 |
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MKEX | Expiry |