Referring now to the drawings, and more particularly to
Now, additionally referring to
Processor 26 interfaces with each of the elements of data gathering system 10 and provides data storage for information gathered in the operation of system 10. GPS 28 provides localization information for information relative to the positioning of containers 16 by tractor 12. Proximity sensor 30 provides a signal when a container 16 is proximate to fork system 14, which can then be utilized by a processor 26 to activate RFID reader 22. Communications module 32 may be a disk storage device 32 or a radio frequency or other wireless communication device 32. Communications from system 10 may be done in a delayed manner, upon being queried, or continuously on a real-time basis.
Weight sensor 34 may be associated with the forks of fork system 14 or the lift interface between lift vehicle 12 and fork system 14. Weight sensor 34 provides weight information on container 16, when a container 16 is lifted, thereby providing weight information that can be associated with the identification information received by way of RFID reader 22 in its query of RFID tag 18. Weight sensor 34 may be associated with lift distance sensor 38, which provides a calculation on the energy expended in lifting containers 16, to thereby estimate the weight of containers 16. Information from lift distance sensor 38 is acquired by way of CAN bus interface 36 associated with tractor 12.
Operator interface 40 provides for the operator to visually or audibly receive feedback upon the operation of system 10. For example, if RFID reader 22 reads an RFID tag 18 it may produce an audible beep signal or by way of a visual indication, thereby indicating a completed read operation. Further, operator interface 40 may include a re-settable counter allowing the operator to have a count of the number of lift operations performed since the last reset of the counter.
In managing the produce chain from the field to the processing plant, it is very useful to know weights and locations of containers 16. This enables timely and efficient processing of the contents of containers 16. Timely in that the produce, which is most perishable can be given a priority and moved from the field to processing without getting delayed or lost. Efficient in that like grades of produce can be routed and processed in full batches, minimizing any equipment or process changes that may be needed at the processing plant to process the particular grade of produce.
Data obtained by RFID reader 22 is communicated to processor 26. RFID reader 22 may be activated in a number of ways including, but not limited to, periodic activation, an activation in response to a signal from proximity sensor 30, a prompting by the user by way of operator interface 40 or in response to a lift command detected by way of CAN interface 36. Three-point hitches are often controlled by electronic control units and a command to perform a hitch-lift operation would be present in the electronic control unit and it is passed by way of a CAN bus linking the operator hitch control to the electronic control unit, which can be interpreted by CAN bus interface 36.
As many containers are proximate to data gathering system 10, such as shown in
Information from RFID tags 18 that are read but are not being currently transported is of value as well. For example, the RFID tag numbers can then be localized to a particular area associated with a position available from GPS 28. This information then localizes the position of other containers 16 for later processing and movement.
Since container 16 may be stacked, as shown in
The weight of container 16 can be measured in a number of ways, including but not limited to the use of load cells placed on surfaces of fork system 14 that are used in transferring the lift force to the container. Another method is to measure the energy being utilized to lift container 16. The energy method recognizes that the energy needed to lift container 16 a distance H is equal to MGH, where M is the mass of container 16 and G is the gravitational constant. Tractor 12 supplies this energy through hydraulic, electrical or mechanical mechanisms. Sensors are utilized to measure the parameters necessary to calculate the tractor energy transfer such as the time integral of V×I (V=voltage, I=current) during lifting for an electrical actuator. These implementation specific adjustments may be needed to make up for system inefficiencies and energy transfer.
Depending on the three-point hitch system design and the parameters being measured, a lift distance sensor 38 may be utilized. One such sensor senses the angles of the linkages in the three-point hitch that are read at the starting and ending points of the movement of container 16. Trigonometric identities and calculations are utilized by processor 26 to calculate the distance the forks are raised or lowered and to arrive at a system calculation of the energy transferred by tractor 12.
When loads are lifted, there are at least four loads of interest, the first indicating that there is no load on fork system 14, the second that indicates that a container 16 is present but empty on fork system 14, the third being a container 16 that is full, and fourthly a container 16 that is partially full. Processor 26 can utilize a table that provides the tare weight of container 16 based on a fixed value for all containers or tare weights that are associated with each container 16. Alternatively, the tare weight can be part of the information read from RFID tag 18. The tare weight then is subtracted from the total weight, sensed by weight sensor 34, to provide a net weight that is then associated with the lift operation and identified with the particular containers 16 weights and identification.
A positional sensor, such as GPS 28 provides localization information relative to the pickup and drop-off points of the containers 16 as well as routing information in the tracking of loads carried by tractor 12. In orchard operations, GPS 28 may be augmented by a tree row map for further localization information.
The data collected by processor 26 is stored in memory associated therewith and is eventually transferred to a back office supply chain and/or logistic computer system by way of a data transfer of communications module 32. This transfer can be accomplished in near real-time using long range wireless, such as a cellular telephone connection by way of communications module 32. Alternatively, other wireless methods such as proprietary radio systems such as Safari Radio, or Wi-Max (IEEE802.16). Since real-time data transfer comes at a cost, lower cost methods that delay the transmittal of data may be employed; such a transmission may employ the transmission of the data in packets. Other methods utilizing technologies such as Bluetooth with a data transfer occurring when tractor 12 is proximate to a Bluetooth access point. Alternative physical media such as compact flash cards can be loaded and removed from system 10 having data stored thereon by way of processor 26.
A visual output such as a LCD display may be a part of operator interface 40 having a map and other directional information located thereon.
An example of data obtained by the operating of data gathering system 10 may include a sequence of records for a container in an orchard as follows:
In the foregoing illustration, date and time information as to particular actions relative to a container 16 are illustrated, each of which are connected with the same container number 3705. The first action is a pickup and it is noticed that the weight is empty at a particular location shown as latitude 1 and longitude 1. One minute later it is seen that container 3705 is dropped at latitude 2 and longitude 2. The next entry shows that container 3705 is picked up and has a net weight of 743 lbs. The next entry shows that container 3705 has been delivered to latitude 4 and longitude 4. Sometime later container 3705 is picked up having a net weight of 937 lbs so it can be inferred that more produce has been added to container 3705 and that it has been picked up at a new location indicating that it had been moved by some other vehicle subsequent to the prior operation. The last entry indicates that the container is then positioned at latitude 6 and longitude 6. It is to be understood that this information is merely one example of the type of data that can be obtained utilizing data gathering system 10.
Having described the preferred embodiment, it will become apparent that various modifications can be made without departing from the scope of the invention as defined in the accompanying claims.