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WO2010034094A1 - Compacteur à déchets et système de surveillance des récipients - Google Patents

Compacteur à déchets et système de surveillance des récipients Download PDF

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Publication number
WO2010034094A1
WO2010034094A1 PCT/CA2008/001644 CA2008001644W WO2010034094A1 WO 2010034094 A1 WO2010034094 A1 WO 2010034094A1 CA 2008001644 W CA2008001644 W CA 2008001644W WO 2010034094 A1 WO2010034094 A1 WO 2010034094A1
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WO
WIPO (PCT)
Prior art keywords
compactor
container
waste
tag
site
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.)
Ceased
Application number
PCT/CA2008/001644
Other languages
English (en)
Inventor
Robert B. Carroll
James Edwards
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Applied Radio Technologies Corp
Original Assignee
Applied Radio Technologies Corp
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Applied Radio Technologies Corp filed Critical Applied Radio Technologies Corp
Priority to PCT/CA2008/001644 priority Critical patent/WO2010034094A1/fr
Publication of WO2010034094A1 publication Critical patent/WO2010034094A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B9/00Presses specially adapted for particular purposes
    • B30B9/30Presses specially adapted for particular purposes for baling; Compression boxes therefor
    • B30B9/3042Containers provided with, or connectable to, compactor means
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B9/00Presses specially adapted for particular purposes
    • B30B9/30Presses specially adapted for particular purposes for baling; Compression boxes therefor
    • B30B9/3003Details
    • B30B9/3007Control arrangements
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65FGATHERING OR REMOVAL OF DOMESTIC OR LIKE REFUSE
    • B65F1/00Refuse receptacles; Accessories therefor
    • B65F1/14Other constructional features; Accessories
    • B65F1/1484Other constructional features; Accessories relating to the adaptation of receptacles to carry identification means
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65FGATHERING OR REMOVAL OF DOMESTIC OR LIKE REFUSE
    • B65F2210/00Equipment of refuse receptacles
    • B65F2210/128Data transmitting means

Definitions

  • Example embodiments of the present invention relate to systems and methods for monitoring the operation of waste compactor containers.
  • Waste generators typically contract with waste haulers to pick-up and haul away accumulated waste.
  • such contracts have provided for regularly scheduled pick-up times, which occur at pre-specif ⁇ ed times, regardless of whether the waste container is full, not yet full, or whether the trash in the waste container has long since been overflowing the container. This can result in inefficiencies on waste pickups as they will often be conservatively scheduled to assure that most if not all of the regularly scheduled pick-ups occur when the waste container is not yet overflowing and generally when the waste container is not yet full.
  • Some commercial arrangements use an on-demand pick-up schedule in which the fullness of waste containers is remotely monitored.
  • Such systems typically monitor the amount of force or hydraulic pressure applied to a ram for compacting the trash within a respective container over one Q ⁇ more compaction strokes. The measured force readings are then analyzed and a level of fullness is determined. When a determined level of fullness equals or exceeds the predefined threshold value for a set number of compaction cycles, the monitoring system initiates a pick-up request.
  • Example of monitored waste compactor systems are shown for example in US Patent Nos. 5,299,493; 5,393,642; 6,360,186; 6,408,261; 6,453,270; 6,561,085; 6,738,732; 5,299,142; and 7,145,459, The contents of these patents are incorporated herein by reference.
  • a waste management system that offers additional operational efficiencies, simplifies or reduces the cost of operating waste management systems that use compactor and container units is desirable.
  • a monitoring system for a waste compactor system comprising: a compacting device; at least one removable waste container; a sensor for determining the fullness level of the receptacle or bin; a compactor communications device responsive to the sensor for transmitting an indication of the fullness level of at least one receptacle or bin; a container communications device attached to the at least one removable waste container; a communications device to communicate with the container communications device and the compactor communications device
  • FIG. 1 is a block diagram of a waste management system in accordance with at least one embodiment of the present invention.
  • Figure 2 is a flow diagram illustrating one aspect of the operation of a compactor tag of the waste management system of Figure 1, according to an example embodiment
  • Figure 3 is a flow diagram illustrating one aspect of the operation of a waste generator site monitoring unit of the waste management system of Figure 1, according to an example embodiment
  • Figure 4 is a flow diagram illustrating one aspect of the operation of a central monitoring station of the waste management system of Figure 1, according to an example embodiment
  • Figure 5 is a flow diagram illustrating a further aspect of the operation of a central monitoring station of the waste management system of Figure 1, according to an example embodiment
  • Figure 6 is a flow diagram illustrating a container removal monitoring process performed by a waste generator site monitoring unit of the waste management system of
  • Figure 6A is a flow diagram illustrating an optional step for the container removal monitoring process of Figure 6, according to an example embodiment
  • Figure 7 is a flow diagram illustrating a container arrival monitoring process performed by a waste generator site monitoring unit of the waste management system of Figure 1 , according to an example embodiment
  • Figure 8 illustrates a data intake sheet for a waste generator using the waste management system of Figure 1.
  • FIG. 1 illustrates a block diagram of an example of a waste management system 10 according to at least one embodiment of the present invention.
  • the waste management system includes components at one or more one waste generator sites 14 that are monitored from a central monitoring station 44.
  • the components at each waste generator site 14 include at least one waste compactor container unit, generally depicted by reference numeral 12, and a waste site monitoring device 40.
  • each waste compactor container unit 12 includes a removable container 16 that is mounted to a compactor 18 having a hydraulic driver 22 which includes a ram 20 to compact waste received in container 16 through an inlet opening or chute 24.
  • the hydraulic driver 22 receives pressurized hydraulic fluid from a hydraulic circuit 23 to effect reciprocal movement of the ram 20 in a controlled manner.
  • the compactor 18 also includes a monitoring unit 26 that can monitor and provide an indication of the status of compactor 18.
  • the monitoring unit 26 may comprise a pressure sensor 28 for monitoring pressure in the hydraulic fluid path of the hydraulic circuit 23 for hydraulic drive 22.
  • the pressure sensor 28 which may for example include a pressure transducer and associated processing logic or circuitry, is configured to generate a signal when the pressure m the hydraulic circuit exceeds a predetermined threshold pressure setting or reading.
  • the predetermined threshold could be indicative of the ram pressure used when the container 16 is three quarters (3/4) full
  • the monitoring unit includes a visual status indicator in the form of a light 32 to provide a visual indication to an operator that the threshold has been met.
  • the pressure sensor 28 is configured to generate multiple signals, each indicative of a different predetermined threshold being reached, such as a first signal when a first threshold pressure level indicative of a V, level of container fullness is reached, and a second signal when a second threshold pressure level indicative of a full container is reached.
  • the monitoring unit 26 can include multiple indicator lights, for example 3 A full light 32 and full light 30 for indicating a % fullness status and a full status of the container 16, respectively.
  • the monitoring unit 26 is provided with an override or reset switch 34 for manually resetting the one or both of the status signals and visual indicators generated by the monitoring unit 26.
  • the compactor 18 includes a monitor unit wireless communications device 36 associated with the monitoring unit 26 that periodically wirelessly transmits status information for the waste compactor container unit 12 to the waste site monitoring device 40
  • the container 16 also has attached to it a further container wireless communications device 38 that periodically wirelessly transmits information about the container 16 to the waste site monitoring device 40.1n
  • the compactor monitoring unit wireless communications device 36 and container wireless communications devices 38 are each short range communications devices such as active RFID ("Radio Frequency Identification”) tags and the waste site monitoring device 40 is a corresponding active RFID reader, with the compactor tag 36 and the container tag 38 each communicating with the site monitoring device 40 using the ISM ("Industrial, Scientific and Medical") radio frequency bands.
  • ISM Intelligent, Scientific and Medical
  • the compactor tag 36 and container tag 38 each are programmable microprocessor enabled wireless Communications devices having one or more onboard storage elements and including their own power source such as a battery.
  • the compactor tag 36 may in some embodiments be connected to receive power from the compactor monitoring unit 26 to recharge its battery or for direct power.
  • Other types of wireless communications devices communicating using other radio frequency or other types of wireless communications technologies could be used to implement communications devices 36, 38 and 40.
  • container tag 36 could be implemented using a passive RFID tag.
  • the compactor tag 36 is configured to monitor whether monitoring unit sensor 28 generates a signal (Sl) indicating that the first threshold ram pressure has been reached or not in the most recent compacting cycle of the compactor.
  • the signal Sl is a binary signal.
  • the compactor tag 138 can be electrically or otherwise coupled to the compactor monitoring unit 26 to detect when current is provided to the 3 ⁇ full light 32 on the monitoring unit, which can indicate whether the first threshold ram pressure was reached in the most recent compacting cycle or not.
  • the compactor tag 32 is further configured to periodically send out a beacon signal to the waste site monitoring device 40 that includes a current status of the compactor unit signal Sl (ex.
  • iTie frequency with which the beacon signal is transmitted to site monitoring unit 40 can in at least some example embodiments be remotely configured from central monitoring station 44 in dependence on the requirements of the particular waste generator site 14.
  • Using a compactor tag 36 that monitors for the signal S 1 used by monitoring unit 26 to drive indicator light 32 conveniently allows the compactor tag 36 to be easily connected to an existing compactor, as many compactor units will typically have a compactor light indicating a threshold pressure or fill level (such as 3 ⁇ full, for example) based on detected ram pressure - thus, adding compactor tag 36 simply requires connection of a wire or wires to detect current to a fill indicator light or other suitable signal line on a circuit board of the compactor monitor 26.
  • compactor tags 36 can easily be integrated into new compactor monitoring units 26 with little or no change to the design and operation of such units as the compactor tag 36 need only be connected to monitor a signal that the compactor monitor unit sensing logic has already been designed and configured to generate.
  • the compactor monitor 26 may be configured to perform more advanced processing on hydraulic pressure data received through sensor device 28 (as described for example in some of the patents listed in the "Background” Section above)- and in such embodiments the data gathered and sent by the compactor tag 36 may be more detailed than a simple indication as to whether the first threshold pressure was reached in the last compactor compacting cycle.
  • the container tag 38 is securely fixed to the wall of container 16 and periodically transmits a beacon signal that includes a unique container tag id (Container_Tag_ID) to the site monitoring unit 40,
  • the frequency with which the container tag beacon signal is transmitted to site monitoring unit 40 can in at least some example embodiments be remotely configured from central monitoring station 44 in dependence on the requirements of the particular waste generator site 14.
  • the site monitoring unit 40 located at site 14 will typically have an associated wireless coverage area in which the compactor container unit 12 is located, In addition to compactor container unit 12, other compactor container units 12i having similarly configured compactor tags 36i and container tags 3Si can also be located on site 14 within the coverage area of the site monitoring unit 40.
  • monitoring units 40 at a particular site each having a respective coverage area including respective compactor container units 12i.
  • the site monitoring unit 40 is a programmable microprocessor enabled device having one or more onboard storage elements and a wireless communications interface for communicating with compactor tags 26 and container tags 38 within it coverage area.
  • the site monitoring unit 40 can also includes a communications interface for communicating over a communications link 42 with a remotely located central monitoring station 44.
  • the site monitor unit 40 includes an. active RPID reader, however it can be implemented using other processor enabled devices.
  • the site monitoring unit 40 collects information from the compactor tags 36 and container tags 38 within its coverage area, processes the collected information, and sends notifications and other information based on the processed information over communications link 42 to the central monitoring station 44.
  • the communications link 42 can include one or more of a cellular link, a Wi-Fi link, a wired PSTN (public switched telephone network), an internet link or other communications link.
  • the central monitoring station 44 can be implemented using a server or other suitably configured computer, and as will be described in greater detail below, is configured to receive information from the site monitor 40 and other similar site monitors 4Oi that are located at waste generator site 14 and other waste generator sites 14i.
  • waste generator communications devices 48 are devices that are used to communicate with a person or people responsible for the operation of waster generator sites 14, 14i
  • waste hauler communications devices 46 are devices that are used to communicate with a person or people responsible for hauling containers from the sites or sites 14, 14i.
  • Such device could for example include a fax machine, or device capable or receiving one or more of email messages, text messages or voice messages.
  • Communications link(s) 50 can include one o ⁇ more of a cellular link, a Wi-Fi link, a wired PSTN (public switched telephone network), an internet link or other communications link.
  • the central monitoring station 44 has access Io an operations database 56 that is either locally stored on a storage element of the central monitoring station or available through a Communications Hnk to the central monitoring station which stores data used for operation of the waste compactor and container network 10.
  • the operations database 56 can include a list of all compactor tag ID'S for the compactor tags that are associated with the waste management system 10, with each unique compactor tag ID being associated in the database with one or more of: (a) a ID number for the compactor and container unit 12 that compactor tag 36 is attached to; (b) identification information For the site monitoring unit 40 that the compactor tag 36 communicates with; (c) information identifying the location of the waste generator site 14 that the compactor tag 36 is located at; (d) information identifying waste generator that is using compactor and container unit 12 and rules and information for communicating with the waste generator communications devices 48; (e) information identifying the waste hauler responsible for compactor and container unit 12 and information for communicating with the waste hauler communications devices 48; (f) business rules for issuing service messages for the compactor and container unit 12 that compactor tag 36 is attached to, including information about the various duration and number of repetition thresholds that are described in greater detail below; (g) information identifying the containers 16 (and/or the container tag ID for such containers) used with the compact
  • a compactor monitoring process 200 performed by the compactor tag 36 includes the following.
  • the compactor tag 36 is configured to wait a predetermined time duration (step 202), then check to see if the compactor monitoring unit 26 is generating signal Sl (step 204) which indicates if the ram pressure for the compactor exceeded a threshold value during its most recent compacting cycle. As noted above, this could for example be done by checking to see if the signal Sl used to drive the 3 Zi full indicator light 32 has been activated.
  • the compactor tag 36 After checking the status of signal S 1 , the compactor tag 36 then sends a beacon signal that includes the current status of signal Sl (for example "On” or “Off") as well as the unique compactor tag ID (Compactor TagJD) to the site monitoring unit 40 (step 206).
  • the timer used in step 202 is reset (step 208), and the compactor tag process 200 is repeated. Accordingly, as will be understood from process 200 as described above, in one example embodiment, the compactor tag 36 periodically sends a beacon signal to the site monitoring unit 40 that identifies the compactor tag 36 and the latest status of the signal Sl.
  • the threshold time used in step 202 can be remotely set through instructions received from central monitoring station 44 via the site monitoring unit 40 such that the frequency with which the beacon messages are sent by the compactor tag 36 can be remotely configured for the operating conditions of the compactor container unit 12. For example, in some cases the threshold time could be set to one minute, while in other cases the time could be less than or greater than one minute. In some example embodiments, the compactor tag 36 could alternatively be configured to only send a beacon signal to the site monitoring unit 40 when there is a change in the status signal Sl, or only when interrogated by the site monitoring unit 40.
  • the site monitoring unit 40 is configured to monitor the periodic beacon signals received from compactor tag 36 to determine when there is a change in compactor status based on a predetermined number of readings of signal Sl taken at the compactor monitoring unit 26 and then notify the central monitoring station 44 of any detected change in compactor status.
  • Figure 3 shows a block diagram that represents one possible compactor status change monitoring process 300 that can be performed by the site monitoring unit 40. Change monitoring process 300 will be described in the context of a single compactor tag 36, however the process 300 is continuously performed by the site monitoring unit 40 for each of the compactor tags 36, 36i that are assigned to site monitoring unit 40 and within the site monitoring unit's 40 coverage area.
  • the site monitoring unit 40 monitors the beacon signal received from compactor tag 36 to determine if there is a possible change in the compactor status information between successive beacon signals (step 302). For example, if compactor tag 36 sends a succession of beacon signals each indicating that as an initial state the compactor status signal Sl is "OFF" (e.g. indicating that hydraulic pressure provided to compactor ram 20 has not yet hit, the predetermined compactor pressure), and then sends a beacon signal indicating that the compactor status signal Sl is "ON” (indicating that the threshold hydraulic pressure was hit in the most recent compacting cycle), then the site monitoring unit 40 will determine that a change in compactor status information has been detected.
  • OFF e.g. indicating that hydraulic pressure provided to compactor ram 20 has not yet hit, the predetermined compactor pressure
  • the site monitoring unit 40 is configured to track successive beacon signals to determine if the updated compactor status information then stays the same for a threshold number of successive beacon signals from the compactor tag 36 (step 304). For example, once the beacon signal changes to indicate the compactor status signal Sl is "ON" (indicating that the threshold hydraulic pressure was hit in the most recent compacting cycle), then the site monitoring unit 40 will continue monitoring a threshold number of successive beacon signals received from the compactor tag 36 to track if they also indicate that the compactor status signal Sl is "ON".
  • the threshold number could be 5, such that in the case where the compactor tag 36 sends a beacon signal every minute the compactor signal Sl must be "ON" for five minutes before the site monitoring unit 40 will conclude in step 304 that the new compactor status has remained the same for a threshold number of beacon signals.
  • the site monitoring unit 40 sends a compactor change status notice to the central monitoring station 44 (step 306).
  • the compactor status change monitoring process 300 has been described above primarily in the context of a change on the compactor signal Sl from an initial "OFF” state to an "ON” state, the process 300 similarly monitors for a change from an initial "ON” state to an "OFF” state and sends status change notification messages 52 for such changes.
  • the compactor tag 36 is configured to periodically send a beacon signal to the site monitor 40 every (T) minutes (or seconds).
  • the beacon signal includes the compactor tag ID and compactor status information that indicates the current status of signal Sl generated by the compactor monitoring unit 26 which in turn is indicative of the whether or not the hydraulic drive 22 hit a tlireshold pressure level (P) during the compactor's most recent compression cycle.
  • the site monitoring unit 40 is in turn configured to monitor for a change in the compactor status information between received beacon signals.
  • the site monitoring unit 40 then tracks the compactor status information to see if it remains the same for a threshold number (N) of successive beacon signals, and if so it sends a status change notification message 52 to the central monitoring station 44. If the compactor status information reverts back to its former state before the number of received beacon signals hits the threshold number (N), the status change notification message 52 is not sent.
  • N threshold number
  • a status change notification message 52 is sent from the waste generator site 14 over communications link 42 to the central monitoring station 44.
  • the delay of (N)* (T) minutes can mitigate against premature notification being provided to the central monitoring station of a change in compactor status.
  • some refuse in the container 16 may take multiple compression cycles to properly compress, with the result that the hydraulic ram pressure for one or two compression cycles may jump up to the threshold level (P) and then subsequently go back below the threshold level in a subsequent compression cycle that occurs within the delay time (N)*(T) minutes, in which case no change in compactor status notification is sent to the central monitoring station.
  • the hydraulic ram pressure may exceed the threshold level (P) and cause indicator light 32 to go on (and change in signal Sl from “OFF” to "ON") but a local site operator may decide within the delay time (N)*(T) minutes that the container 16 still has capacity and thus use reset switch 34 to override or reset the monitoring unit 26 and turn off the indicator light 32, pushing signal Sl back to its "OFF” state and thereby aborting sending of the compactor status change notification to the central monitoring station 44.
  • P threshold level
  • T delay time
  • one or both of the number of beacon signals (N) and the beacon signal period time (T) can be remotely configured from the central monitoring station 44 so that the delay time can be configured for the specific operating environment of the compactor container unit 12.
  • the status change notification message 52 sent by the site monitoring unit to the central monitoring station 44 includes the compactor tag ID for the relevant compactor tag 36 and provides an indication that a change in the state of the compactor status has occurred.
  • the compactOT status change notification may identify the current changed state of the compactor - for example indicating that the compactor has reached a "full” status when the compactor ram pressure goes above the threshold pressure P for the threshold number of beacon signals, and a "not full” status when the compactor ram pressure drops below the threshold pressure P for the threshold number of beacon signals.
  • the central monitoring station 44 is configured to perform a status change monitoring process 400, illustrated generally in Figure 4, during which compactor status change notification messages 52 received from site monitoring units 4O 5 4Oi are monitored to determine if service messages 54 need to be sent out to one or more waste generator communications devices 48 and/or one or more waste hauler communications devices 46.
  • a status change monitoring process 400 illustrated generally in Figure 4, during which compactor status change notification messages 52 received from site monitoring units 4O 5 4Oi are monitored to determine if service messages 54 need to be sent out to one or more waste generator communications devices 48 and/or one or more waste hauler communications devices 46.
  • the central monitoring station 44 receives a compactor status change notification message 52 for a specific compactor tag 36 (step 402), it records the time of receipt and then waits for a threshold wail time (step 404) for another compactoi status change notification message 52 for the subject compactor tag 36.
  • step 404 If no further compactor status change notification is received by the central monitoring station 44 during the threshold wait time, then the central monitoring station will proceed to send out a service message 54 for the compactor and container unit 12 that the compactor tag 36 is attached to (step 406). However, if in step 404 another compactor status change notification message 52 for the subject compactor tag 36 is received from the site monitoring unit 40 within the threshold wait time, the central monitoring station 44 aborts the countdown and does not send a service message 54
  • the service message 54 will be sent to one or more waste hauler communications devices 46 and/or one or more waste generator communications devices 48 in dependence on rules specified in the operations database 56.
  • the service message 54 could be sent by one or more of fax, text message or email message to communications devices 46, 48 associated with the generators or haulers responsible for generator site 14.
  • the service message 54 sent in step 406 will include a service request that identifies the compactor and container unit 12 that is in need of servicing and the site 14 at which the compactor and container unit 12 is located (such information can be stored in the operations data base 56 associated with the container tag ID so that it can be retrieved and included in the service message 54.
  • the service message 54 could contain the following text sent one or more of fax, email, or text messaging to predetermined waste ' hauler and/or waste generator devices: "The Air System (Shred) Compactor located at Acme Printing, 10 Queen Street, Toronto Ontario requires service”.
  • the container tag ID links to compactor identifying information: "Air System (Shred) Compactor” and to site identifying information: "located at Acme Printing, 10 Queer Street. Toronto Ontario”.
  • the time that service message 54 is sent can be tracked and stored by the central monitoring station 44, for example in Operations database 56.
  • the parties receiving the message can then make arrangements for the subject container 16 to be emptied.
  • the threshold wait time in step 404 could be 55 minutes.
  • the wait time can be set by an administrator based on requirements of the particular waste compactor container unit 12 that is associated with the subject computer tag 36 ' .
  • the threshold wait time in step 404 further mitigates against premature sending of service messages 54.
  • "bridging" can occur in some cases when an empty or nearly empty container 16 is initially filled with waste such as cardboard, meaning that the waste can form a layer on the bottom of the container 16 that resists compaction for several cycles of the hydraulic ram 20 until the bridge is broken.
  • the site monitoring unit 40 could send a compactor status change notification 52 to the central monitoring station 44 for a container 16 that still has lots of capacity but appears full (from the perspective of ram pressure) due to the bridging.
  • the threshold wait time that the central monitoring station 44 waits between receiving the compactor status change notification 52 and prior to sending out a service message 54 provides time, at least in some cases, for the bridge to break and the site monitoring unit 40 to send a subsequent compactor status change notification 52 advising the central monitoring station 44 that the compactor container 16 has changed back to "not full", thereby aborting an unnecessary service message 54.
  • additional or alternative criteria can also be applied at the central monitoring station 44 to determine if a waste compactor and container unit 12 is in need of servicing.
  • an operator can reset or override the threshold pressure indicator light 32 (and thus status signal Sl) by using reset switch 34 (or in some cases by turning the compactor on and off),
  • constant resetting and overriding may result in situations where the site monitoring unit 40 keeps sending new status change notification messages 52 to the central monitoring station 44 before the threshold wait time in step 404 of monitoring process 400 expires, such that a timely service message 54 may be difficult to generate using process 400 on its own.
  • Figure 5 shows a status change frequency monitoring process 500 that in one example embodiment is performed by the central monitoring station 44 in parallel with and supplemental to process 400 to mitigate against situations where operators may be prone to overuse of a compactor alarm reset or override feature.
  • a status change frequency monitoring process 500 ( Figure 5), after a compactor status change notification message 52 is received from a site monitoring unit 40 in respect of a particular compactor tag 36 (step 502), the central monitoring station 44 is configured to check if the most recent compactor status change notification message 52 was received within a threshold time since the last compactor status change notification message 52 for the subject compactor tag 36 (step 504). If the delay between the successive notification messages 52 is greater than the threshold, then a change counter is set to zero ( step 506), and the process 500 restarts.
  • a status change counter is incremented (step 508) and a determination made if the status change counter has hit a predetermined limit (step 510). If the status change count limit has not been hit, then central monitoring station returns to step 502 to wait for and eventually receive the next status change notification message 52. However, in the event that the change count limit has been reached, the central monitoring station 44 is configured to send out a service message 54 requesting that the compactor container unit 12 be serviced.
  • the central monitoring unit 44 is configured to monitor the pattern of compactor status change notification messages 52 received in respect of a compactor tag and determine if a service message needs to be sent. In the illustrated embodiment, the central monitoring unit 44 will determine that a service message needs to be sent for a compactor container unit 12 if a threshold limit of successive compactor status change notification message are received for the compactor container unit with each of the successive messages 52 being received within a threshold time limit of the immediately preceding status change notification message 52.
  • the status change count limit could be 5, with the time limit between successive message being 1 hour such that if the sequence of the following five status change messages: "FiUl” - " Not Full” - " Full” - “Not Full” - "Full” was received with no more than 60 minutes between each successive pair of messages a service message for the subject compactor container unit 12 would be triggered once the last "Full" message in the sequence was received.
  • the time and number limits used in process 500 can be configured for the needs of a specific compactor container unit 12.
  • change frequency monitoring process 500 tracks pairs of status change messages rather than just signal status change messages such that the occurrence of a series of pairs of status change messages, with each pair being received within a threshold time of the previous pair will result in a service request message being sent. For example, successively receiving the status change message pairs "Full; Not Full” - “Full; Not Full” - “Full; Not Full” - “Full; Not Full” - “Full; Not Full” for a container tag 36, with each "Full; Not Full” pair being received within a threshold time limit of the previous "Full; Not Full” pair will result in a service request message being sent. Notification That Container Ts Being Serviced.
  • a truck 58 ( Figure 1) will then be dispatched to the waster generator site identified in the service message to pick up the container 16 that is attached to the identified compactor container unit 12.
  • Figure 1 the above mentioned container tag 38 provides a mechanism by which the central monitoring station 44 can track when a container has been removed for servicing and when servicing of a compactor container unit is complete-
  • the container tag 38 is also configured to periodically send a beacon signal to the site monitoring unit 40 that includes a unique container tag ID (Container_Tag_E>).
  • the container tag 38 could also include a sensor such as an accelerometer and information from the sensor about the container could also be sent as part of the beacon signal or another signal.
  • the beacon signal could be transmitted every minute, while in other cases the time could be less than or greater than one minute.
  • the time period can be remotely set through instructions received from central monitoring station 44 via the site monitoring unit 40.
  • the container 38 could alternatively be configured to only send a beacon signal to the site monitoring unit 40 when interrogated by the site monitoring unit 40.
  • FIG. 6 illustrates a container monitoring process 600 that is performed by the site monitoring unit 40 in order to detect when servicing of a compactor container unit 12 has commenced.
  • the process 600 will be carried out by the site monitor 40 in respect of all waste compactor container units 12 that are in its coverage area.
  • the site monitoring unit 40 At the start of container monitoring process 600 in respect of a specific waste compactor container unit 12, the site monitoring unit 40 has previously registered that the container tag 38 (and thus container 16) is within its coverage area and is associated with a specific waste compactor 18.
  • the process by which the site monitor 40 registers a specific container tag 38 as being within its coverage area will be discussed in greater detail below under the heading " Notification that Servicing is Complete".
  • monitoring process 600 begins with the site monito ⁇ ng unit 40 monitoring for a periodic beacon signal transmissions from a container tag 38 that has previously registered with the site monitoring unit 40.
  • the site monitoring unit 40 has been configured to expect a periodic beacon signal from the container tag 38 within a threshold time duration, for example once every minute (in example embodiments, such time duration can be configured back at the central monitoring station 44).
  • a threshold time duration for example once every minute (in example embodiments, such time duration can be configured back at the central monitoring station 44).
  • the missed container beacon signal counter is incremented (step 606) and compared against a missed beacon threshold (step 608). If the number of missed beacon signals falls below the threshold, the site monitoring unit 40 continues to monitor for further beacon signals from the container tag 38 (step 602) If however the number of missed beacon signals for the container tag 38 Teaches the missed beacon threshold, then the site monitoring unit 40 sends a status change notification message 52 to the central monitoring station 44 in respect of the container tag 38 (step 610).
  • the status change notification message 52 will include the container tag ID 38 as well as an indication of the nature of the change in status, for example that the container tag 38 ( and hence container 16) has been moved away from the waste compactor container unit 12.
  • container monitoring process 600 when the site monitoring unit 40 fails to receive any beacon signals from container tag 38 a predetermined duration (e.g. the threshold time in step 602 multiplied by the missed beacon count threshold) then a preliminary assumption is made that the associated container 16 has been moved from its location on the waste compactor container unit 12 for emptying, and a status change notification message 52 is sent to notify the central monitoring station 44 of the change. More generally, when the communications (or lack thereof) between the container tag 38 and the site monitoring unit 40 are indicative of the removal of the associated container 16, a status change notification message 52 is generated advising of the change. [00501 In some example embodiments, the site monitoring unit 40 may perform more than a simple presence test in determining if a change in container tag status has occurred.
  • a predetermined duration e.g. the threshold time in step 602 multiplied by the missed beacon count threshold
  • Figure 6 A shows an optional step that can be inserted between steps 602 and 604 of the container monitoring process of Figure 6 in which an RSSl (Received Signal Strength Indicator) of the beacon signal from container tag 38 is analyzed to determine if the container 16 has been moved off of the waste compactor container unit 12 but is still within range of the compactor tag 36, as may occur for example in a generator site 14 where multiple or "swing" containers are available.
  • RSSl Receiveived Signal Strength Indicator
  • step 602 a determination is made that a beacon signal is received within the threshold time, then prior to resetting the missed beacon counter in step 604, an intermediate step 612 is performed to determine if the RSSI for the container tag beacon signal falls within a signal strength range that would be expected if the container tag 38 was on a container mounted to the waste compactor container unit 12. If the RSSI is within the expected signal range, an assumption is made that the container 16 has not yet been moved for servicing, and the process 600 continues with step 604. However, if the RSSI for the container tag signal falls outside the expected range tben the missed beacon counter is incremented and compared against the threshold (steps 606 and 608).
  • the site monitoring unit 40 fails to receive any beacon signals at all or which fall within a expected RSSI value for a predetermined duration (e.g. the threshold time in step 602 multiplied by the missed beacon count threshold) then a preliminary assumption is made that the associated container 16 has been moved from its location on the waste compactor container unit 12, and a status change notification message 52 advising of such is sent to notify the central monitoring station 44 of the change.
  • the expected signal strength range used step 612 could be pre- calib ⁇ ited during system set up or could for example be dynamically determined with comparison to the RSSI for beacon signals received from the compactor tag 36.
  • Central monitoring station 44 is configured to monitor for and process status change notification messages 52 advising of the removal of container tags 38 in a similar manner that it monitors for and processes status change notification messages for compactor tags 36, as described above with reference to status change monitoring process 400 illustrated in Figure 4. For example, once a status change notification message 52 advising of a change in status of a container tag 38 is received (step 402), the central monitoring station waits for a predetermined time duration for another status change notice advising of a further change in status of the container tag 38 (step 404), and if no further status change notice is received in respect of the container tag 38, then a service message 54 is then sent out to one or more waste hauler communications devices 46 and/or waste generator communications devices 48. However, if a further status change notice is received in respect of the container tag 38 then the service message 54 is not sent.
  • the predetermined waiting time applied in step 404 for a subsequent status change notification message 52 for container tag 38 (and its container 16) can be different than the waiting time in respect of a change in status notification message for a compactor tag 36 - by way of non limiting illustrative example, the time limit could be 10 minutes, or such other amount as set by a system administrator to meet the operating requirements of waste generator site 14.
  • One purpose of the delay in sending the service message 54 is to account for a momentary loss of communication between the container tag 38 and the site monitoring unit 40 that could occur for transient reasons other than removal of the container for dumping - for example due to transient blocking of wireless communication between the container tag 38 and the site monitoring unit 40, or due to quick removal and replacement of an un-emptied container due to hauler error.
  • the delay in step 404 can prevent premature notification that a container has been, removed for servicing; if the central monitoring station 44 first receives a status change notification message 52 advising that a container tag 38 has been removed from a compactor and container unit, and then subsequently within the delay time in step 404 receives a subsequent notice that the container tag 38 has been returned to the compactor and container unit 12 an assumption is made that the container 16 associated with the container tag 38 has not been dumped and so the service message is not sent out. [0053J In cases where a service message is sent in respect of a removed container 16, the service message 54 will be sent in dependence on information stored in operations database 56.
  • the container tag 38 can be linked in the operations database 56 to identification information for the waste compactor and container unit 12 that it was mounted on prior to its recent removal, and to information defining what waste hauler communications devices 46 and/or waste generator communications devices 48 should be provided with service message 54 over what medium.
  • An illustrative example of the content of a service message 54 sent advising that a compactor and container unit is being services is as follows: "The Bin #C97 Located at Acme Printing, 10 Queen Street,
  • Figure 7 illustrates a sample of a container arrival monitoring and registration process 700 that is performed by the site monitoring unit 40 according to example embodiments.
  • Process 700 can be performed by site monitoring unit 40 in respect of each compactor and container unit within Us coverage area for which the site monitoring unit 40 has previously sent a status change notice message advising that a container tag 38 has been removed Jfrom the proximity of a compactor and container unit
  • the site monitoring unit 40 monitors for a beacon signal from a container tag 38 that is not currently registered with the site monitoring unit
  • the site monitoring unit 40 waits for a subsequent beacon signal to be received from the newly acquired container tag 38 within a threshold time duration (step 704) If a subsequent beacon signal is received, then a beacon signal counter is incremented (step 708) and compared against a beacon count threshold (step 710). If the threshold is met, then a change in status notification message 52 is sent to the central monitoring station 44 advising of the container tag ID that has been newly acquired, and the container tag ID is registered with the site monitoring unit 40 as a container tag that it is currently monitoring (step 712).
  • the beacon signal counter is reset (step 706) and process 700 starts over at step 702 without sending change in status notification 52.
  • the requirement that a threshold number of successive beacon signals be received from container tag 38 each within a predetermined time period of the one another can mitigate against false notification messages being sent out for container tags that arc temporarily located in the vicinity of the compactor and container unit 12.
  • the threshold number of beacon signals and the rate of such signals can be configured from the central monitoring station 44 based on the requirements of the site 14.
  • RSSI filtering can be applied in steps 702 and 704 to make the process more sensitive to the physical location of container tags within the waste generator site 14.
  • an RSSI range can be set as corresponding to a container tag 38 that has been mounted to a particular waste compactor and container unit 12 of interest, such that process 700 ignores and does not count container tag beacon signals that do fall within the expected RSSI range.
  • Such expected RSSI range could be predetermined absolute range, or could be dynamically determined based on the RSSI of received signals from the compactor tag 36 associated with the waste compactor and container unit 12.
  • the use of RSSI filtering can be useful at sites that have swing containers that can be stored on site, for example.
  • RSSI information can also be provided back to the central monitoring station 44 to allow it to correlate container tags 38 with specific locations ons within the site 14 at specific times, which can be useful for sites with many compactor and container units.
  • timing of container arrivals at a site can be used to associate containers with a particular compactor container unit 12, for example an assumption can be made that the first compactor requesting service or being serviced on site will be the first to receive a container back.
  • the status change notification message 52 that is sent to the central monitoring station 44 in step 712 can for example include the container tag ID, as well as an indication that the container tag has recently been acquired. Other information such as RSSI information for the container tag could also be included.
  • Central monitoring station 44 is configured to monitor for and process status change notification messages 52 advising of the arrival of container tags 38 in a similar manner that it monitors for and proces$es status change notification messages for compactor tags 36, and removal of container tags 38.
  • the central monitoring station waits for a predetermined time duration for another status change notice advising of a further change in status of the container tag 38 (step 404), and if no further status change notice is received in respect of the container tag 38, then a service message 54 is then sent out to one or more waste hauler coinmunications devices 46 and/or waste generator communications devices 48.
  • the service message 54 is not sent - for example, if the beacon signal is subsequently lost after it has been registered by the site monitoring unit 40, then a status change notice message 52 advising of the lost container tag will be sent as per container removal monitoring process 600, and in such case an assumption is made that the container and compactor unit 12 has not been properly serviced.
  • the predetermined waiting time applied in step 404 for a subsequent status change notification message 52 for container tag 38 (and its container 16) after receiving a container tag arrival notice could by way of non limiting illustrative example be 115 minutes, or such other amount as set by a system administrator to meet the operating requirements of waste generator site 14.
  • One purpose of the delay in sending the service message 54 is to account for transient movement of container tags through the coverage area of a site monitoring unit 40.
  • the service message 54 will be sent in dependence on information stored in operations database 56.
  • the container tag 38 can be linked, through using one or more of its unique ID 1 timing information, and RSSI data, to identification information for the waste compactor and container unit 12 that it is currently mounted to, and to information defining what waste hauler communications devices 46 and/or waste generator communications devices 48 should be provided with service message 54 over what medium.
  • An illustrative example of the content of a service message 54 sent advising that servicing has been completed for a compactor and container unit is as follows: "The Bin #C97 Located at Acme Printing, 10 Queen Street, Toronto, Ontario has been returned, service complete".
  • the receive time and content of the status change notification message 52 advising of the container arrival and/or the send time and content of the service message 54 advising of container being serviced can be stored in operations database 56 for future performance analysis.
  • the central monitoring station 44 can receive a first status change notification message indicating removal of a container, followed quickly with a subsequent status notification change message indicating the arrival of a container which will ⁇ esult in the service message 54 being aborted if the second status change message is received within a threshold time period. It will be appreciated that the container arrival monitoring process 700 can generate the subsequent status notification change message.
  • the central monitoring station 44 is configured to not send out any service request service messages for the subject compactor and container unit 12 for a predetermined initial time duration, regardless of what intervening status change notifications are received from the site monitoring unit 40 for the compactor and container unit 12.
  • the initial delay time for sending out a service request after a service complete message has been sent could be 24 hours.
  • Such initial time delay can be set according to the operating condition of the subject compactor and container unit 12.
  • waste hauler trucks 58 can also be equipped with mobile communications devices 60, which can be active RFID tags for example, and which communicate with site monitoring units 40 such that the arrival and departure of waste hauler trucks at the waste generator site 14 can be monitored and tracking information sent back to the central monitoring station 44 and stored in operations database 56-
  • transfer or dumping stations can be equipped with their own monitoring units 40 to detect and track arrival of trucks and containers 16 and provide information about such activities back to the central monitoring station 44.
  • Such tracked information can provide a near real time overview of the operation components of waste management system 12, as well as allow historical analysis for efficiency and bench marking purposes.
  • some compactor monitoring units 26 may include more than one indicator light, for example a "mil” light 30 in addition to a "3/4 full” light 32.
  • a separate compactor tag 36 may be connected to monitor each signal - e.g. a "full” compactor tag 36, and a "3/4 full compactor tag", and the information from such tags used to generate respective status change notification messages similar to those noted above.
  • the information sent by each tag may include more pressure informati on or other compactor operation information than a simple "ON” or "OFF”, with the compactor monitoring unit using hydraulic and other operating characteristic monitoring methods as described in one or more of US Patent Nos.
  • Figure 8 illustrates a data intake sheet fo ⁇ a waste generator using the waste management system of Figure 1. Using information from the sheet, an initial time delay for sending out a service request post servicing can be set, as well as the various time and number thresholds identified in the processes of Figures 2-7.
  • GPS receivers can be attached to or incorporated into one or more of container tag 3 S, compactor tag 36 and truck tag 60 such that real time location information can be sent to site monitor 40 and then central monitoring station 44.
  • the monitoring unit 40 could record and communicate to the central monitoring station 44, status information such as the location a bin was picked up or deposited,
  • waste hauler trucks 58 can be equipped with a monitoring unit similar to a site monitoring unit 40 such that each truck could act similar to a site monitoring unit 40.
  • the RFID tags may be passive tags with the site monitoring device including or being connected to one or more suitable readers for interrogating the passive RFID devices.
  • one or both of container tag 38 and compactor tag 36 are unidirectional active RFID tags in that they send information to the site monitoring unit 40 but do not received information back from the site monitoring unit 40. In such configurations, the beacon signal frequency and content will be preconfigured for such tags at the time a site 14 is set up.
  • one or both of container tag 38 and compactor tag 36 are bi-directional active RFID tags in that they can also receive information, such as configuration information from the site monitoring unit 40.
  • semi- passive RFID tags could be used for one or both o F tags 38 and 36 - semi passive tags could be used with standard Gen 2 Electronic Product Code interrogators.
  • Semi passive tags are RPID transponders that reflect RF energy back to the reader similar to passive lags but has an onboard sensor.
  • a container tag 38 includes or is connected to a motion sensor such as an accelerometer
  • information from the accelerometer can be sent to the site monitoring unit 40 and used at site monitoring unit 40 or the central monitoring station 44 when determining if a status change notification message or a service message should be sent.
  • Embodiments of the invention relate to the monitoring of waste compactor systems, and more specifically the monitoring of both the fullness level of at least one receptacle container or bin attached to a compacting device and the location of at least one removable receptacle or bin, associated with the compactor, allowing an intended recipient to receive information when a waste compactor system is at or near capacity and requires service and when the removable bin was removed and returned or a new receptacle or bin replaced it, and when the compactor system was returned to service.
  • a monitoring system for a waste compactor system comprising: a compacting device; at least one removable waste container; a sensor for determining the fullness level of the receptacle or bin; a compactor communications device responsive to the sensor for transmitting an indication of the fullness level of at least one receptacle or bin; a container communications device attached to the at least one removable waste container, a communications device to communicate with the container communications device and the compactor communications device.
  • compactor fullness and the movement of the removable container or bin is managed as an entire system.
  • wireless transmitters such as active rf ⁇ d (radio frequency identification device) tags are attached to both the compacting device and the removable container o ⁇ bin.
  • the active rfid tag attached to the compacting device comprises the ability to monitor some status of the compactor, such as an electrical circuit indicating some predetermined status of fullness.
  • Many industrial compactors manufactured by OEMs OEMs (Original Equipment Manufacturers) have the ability to adjust the pressure exerted by the hydraulic ram and are designed to sense when hydraulic pressure reaches predetermined settiDgs, and illuminate a light on the compactor control unit indicating to operators the fullness status of the container or bin.
  • an active rfid tag comprising the ability to sense a current in a circuit is attached to the appropriate circuit associated with the light.
  • the rfid tag monitors the circuit and wirelessly sends a message indicating when there are changes in the circuit-
  • an rfid reader receives the wireless message from the tag, and may or may not conduct some logic associated to whether the message should be forwarded. If the reader's logic determines that this message should be forwarded, it can be sent to a predetermined recipient through a variety of options.
  • the reader could be connected to a standard telephone line, the Internet, a computer Ethernet system or a cellular modem to forward the message to an intended recipient.
  • the message is sent to an off site central monitoring computer system and data base, where additional business rules, business logic or algorithms may be applied before a message is sent to an intended recipient alerting them as to the fullness status of the container or bin.
  • the business logic or algorithms can be modified to control the terms upon which the message is sent For example, a condition known as 'bridging' can occur when the compactor may signal that it has reached some predetermined fullness capacity when in reality the material in the compactor is forming a layer in the bottom of the container or bin and the hydraulic ram is unable to fully compact the material until additional ram cycles occur.
  • the customer can access the business rules or business logic via a web based portal and modify the rules under which a message is sent to an intended recipient and dedicate which recipients) should receive the message.
  • the business rules may be set to require 5 hydraulic ram cycles, each one of which generated a status message that the predetermined fullness level had been reached before a message to an intended recipient is generated. This might overcome most instances of bridging in this application and prevent premature notification of the compactor being full, and a service call by a waste hauler.
  • the message may be in the form of an email, SMS 3 fax or other electronic notification. Via this same web portal a customer could also add delete or modify the emails or other address and identities of the intended recipients.
  • active RFID tags are also attached to the removable container or bin, and are monitored wirelessly by the RFID reader.
  • a message is forwarded by the reader, via similar methods as described above.
  • the bin has been returned another message is generated.
  • 'swing' bins may be already placed on site to replace the bin that has been removed and are tracked where they may be on site and when they are utilized.
  • the RfID tags mounted on the containers or bins can be associated with each bin's identity providing a real time tracking of where all containers or bins are located either on a site or across a company or geographical area where the Compactor and Bin Monitoring System is deployed.
  • the compactor system comprising of both the compactor and the removable containers or bins can be monitored and managed as one system.
  • Real time data can be obtained as to when the compactor has compressed waste in the removable containers or bins to a predetermined level.
  • Notifications such as emails can be sent to various recipients, such as notification to haulers to service the compactor.
  • Real time data can be obtained as to how long to took the hauler Io respond and haul away the container or bin and how long the hauler took to return it an put the compactor back into service.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Refuse Collection And Transfer (AREA)

Abstract

L'invention concerne un système de surveillance destiné à un système de compacteur à déchets et comportant : un dispositif de compactage ; au moins un récipient amovible à déchets ; un capteur servant à déterminer le degré de remplissage du réceptacle ou de la benne ; un dispositif de communications du compacteur réagissant au capteur en vue de transmettre une indication du niveau de remplissage d’au moins un réceptacle ou benne ; un dispositif de communications du récipient fixé audit ou auxdits récipients amovibles à déchets ; un dispositif de communications servant à communiquer avec le dispositif de communications du récipient et le dispositif de communications du compacteur.
PCT/CA2008/001644 2008-09-23 2008-09-23 Compacteur à déchets et système de surveillance des récipients Ceased WO2010034094A1 (fr)

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Cited By (5)

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CN104609078A (zh) * 2014-12-31 2015-05-13 聚光科技(杭州)股份有限公司 垃圾监测方法
US9905094B1 (en) 2015-08-14 2018-02-27 Robert W. Hooper Stabilize and status alert device for a refuse can
WO2023186761A1 (fr) * 2022-03-30 2023-10-05 Robert Bosch Gmbh Procédé de détermination et d'affichage d'un niveau de remplissage d'un récipient de presse, récipient de presse, programme informatique et support lisible par ordinateur
US20240035665A1 (en) * 2019-01-25 2024-02-01 Weber-Stephen Products Llc Pellet grills
US12535219B2 (en) * 2023-10-06 2026-01-27 Weber-Stephen Products Llc Pellet grills

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US4603625A (en) * 1984-07-18 1986-08-05 Marathon Corporation Apparatus for monitoring the fullness of a compactor
US6003441A (en) * 1999-01-25 1999-12-21 Pmds, L.L.C. Waste compacting system with system supervisor
WO2002062565A1 (fr) * 2001-02-02 2002-08-15 Pmds, L.L.C. Systeme et procede permettant de compacter et de transporter de la ferraille
US6687656B2 (en) * 2000-03-07 2004-02-03 One Plus Corp. Systems for remote management of a network of waste containers
JP2006311239A (ja) * 2005-04-28 2006-11-09 Tomozo Ota 無線icタグ装置及びrfidシステム
US20080197194A1 (en) * 2007-02-21 2008-08-21 Flood Christopher M Method For Handling Discarded Identification Numbers

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US4603625A (en) * 1984-07-18 1986-08-05 Marathon Corporation Apparatus for monitoring the fullness of a compactor
US6003441A (en) * 1999-01-25 1999-12-21 Pmds, L.L.C. Waste compacting system with system supervisor
US6687656B2 (en) * 2000-03-07 2004-02-03 One Plus Corp. Systems for remote management of a network of waste containers
WO2002062565A1 (fr) * 2001-02-02 2002-08-15 Pmds, L.L.C. Systeme et procede permettant de compacter et de transporter de la ferraille
JP2006311239A (ja) * 2005-04-28 2006-11-09 Tomozo Ota 無線icタグ装置及びrfidシステム
US20080197194A1 (en) * 2007-02-21 2008-08-21 Flood Christopher M Method For Handling Discarded Identification Numbers

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104609078A (zh) * 2014-12-31 2015-05-13 聚光科技(杭州)股份有限公司 垃圾监测方法
US9905094B1 (en) 2015-08-14 2018-02-27 Robert W. Hooper Stabilize and status alert device for a refuse can
US20240035665A1 (en) * 2019-01-25 2024-02-01 Weber-Stephen Products Llc Pellet grills
WO2023186761A1 (fr) * 2022-03-30 2023-10-05 Robert Bosch Gmbh Procédé de détermination et d'affichage d'un niveau de remplissage d'un récipient de presse, récipient de presse, programme informatique et support lisible par ordinateur
US12535219B2 (en) * 2023-10-06 2026-01-27 Weber-Stephen Products Llc Pellet grills

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