Classifications

• • G—PHYSICS
  • G05—CONTROLLING; REGULATING
  • G05D—SYSTEMS FOR CONTROLLING OR REGULATING NON-ELECTRIC VARIABLES
  • G05D22/00—Control of humidity
  • G05D22/02—Control of humidity characterised by the use of electric means
• • Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
  • Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
  • Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
  • Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
  • Y02A40/10—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
  • Y02A40/25—Greenhouse technology, e.g. cooling systems therefor

Definitions

• the present invention relates to a storage system for fresh produce grown outdoors, which includes:
• the invention also relates to a storage box for use in the storage system.
• Potatoes, green vegetables, root vegetables, and fruit, as well as other fresh produce are stored, depending on the produce and situation, for periods of days or even years.
• the storage is generally intended to match the differences in the timing of the produce's supply and demand to each other, i.e. to store the produce for future requirements, or in some cases (such as bananas) to use the storage to ripen the produce. In all these cases, it is wished to keep the storage conditions as good as possible for the produce, so that it will retain its weight and quality during storage as intended.
• the storage capacity of commercial fresh produce stores is generally in the order of 300 - 1000 tonnes.
• the general conditions of the store are monitored by means of various measuring devices, while the temperature of the produce and the properties of its surface or interior can be monitored by means of sensors, which are situated on top of, or in the middle of the produce.
• sensors which are situated on top of, or in the middle of the produce.
• the sensors are located only on the walls or ceiling of the storeroom.
• the sensors are placed manually in their measurement locations only after the produce being stored have already been put into the store, in which case problems such as the following arise. Because the sensors are connected to the measurement/automation system by means of cables, the store employees must lay the sensor cables over and between the boxes, while very often the sensors cannot be placed in the desired locations, because the boxes of produce have been stacked by fork-lift trucks into a tight- packed stack, which is typically ⁇ -m high, 15-m wide, and 30-m long.
• the number and locations of the sensors are always a compromise between the amount of work needed and the desired measurement loca- tions.
• the sensors are also often damaged, because the fork-lift truck drivers do not always remember to remove the sensors from the box before removing the box, so that the sensor falls from a great height and is broken, or else the sensor's cable breaks.
• the produce storage boxes are passive, i.e. they really act only as produce storage boxes and are not used to measure and monitor the properties or quality of the produce.
• the invention is intended to create an improved storage system for fresh produce grown outdoors and a related storage box, by means of which the problems arising from the state of the art can be avoided and by means of which a better overall picture of the produce being stored can be obtained.
• the characteristics of the storage system according to the invention are stated in the accompanying Claim 1 and the characteristics of the storage box used in the system are stated in Claim 9.
• the storage box for fresh produce grown outdoors described in this application participates .actively in the individuation of the produce it contains and in the monitoring of the properties of the produce.
• this new type of storage box is referred to in short by the name ⁇ smartbox' .
• the smartbox acts not only a storage receptacle and transfer/transportation device for produce, but also as a measuring device of the air surrounding the produce and/or of the temperature and other quality properties of the produce.
• the smartbox incorporates measurement technology, which measures the temperature of the surrounding air and/or the temperature and other quality properties of the produce it contains and transmits these measurement results to a measurement/automation centre, for examination by the storekeeper and possibly for further processing.
• the smartbox incorporates measurement electronics, which can measure the temperature of the procuce contained in the smartbox, and the surface moisture of potatoes, for example, the moisture and ethene content of the air in the smartbox, and, if necessary, record them for later use.
• the smartbox also incorporates technology, by means of which the measured data can be transmitted either wirelessly (e.g., by radio), or over a cable to the store's measurement/automation system, for possible later processing and for monitoring carried out by the storekeeper. If the measurement data are transmitted over a cable, it is preferable to build the necessary cabling as part of the smartbox, so that the cabling apparently 'builds itself , when the smartboxes are stacked next to and on top of each other.
• the smartbox technology By means of the smartbox technology, it is possible to increase the number of sensors monitoring the state and quality of produce in such a way that they can also be controlled in practice. Because the sensors are part of the produce box, they can be put in the precise locations that are preferable for measurement.
• the smartbox technology even permits all the produce boxes to be monitored simultaneously. As a medium-sized store can have more than 1000 storage boxes, it is easy to understand that this would be in no way possible in practice using the state of the art.
• the smartbox' s electronics includes individuation of the box, i.e. each box has a 'name and address' , and it is possible for the measurement system to know the location of each box in the store (in relation to the other boxes) and the history of the produce contained in it.
• Produce is often put into storage boxes already in the field, to reduce damage to produce from handling.
• Many plant diseases infect parts of the plant being stored, precisely when they are lifted from the field, if the lifting conditions favour this.
• the spore of grey scale in potatoes can grow from the surface of the potato through the skin in about four hours, if the surface of the potato is sufficiently damp immediately after lifting.
• the smartbox produce box begins to operate immediately after produce has been placed in it. It measures the properties of the produce already on the field and during transportation to the store and, if necessary, will warn of conditions favouring plant diseases.
• the store's automation system will know where a particular produce batch is stored and when the produce is taken from the store the automation system will know the entire history of that precise batch of produce, starting from the field, and how it 'behaved' during storage. If the quality feedback from the sorting line is added to this history, the factors affecting the quality of the product can be analysed for the entire duration of the production chain. Individuation thus makes it possible to monitor the contents of each box individually, from filling in up to the time that the produce is taken to the packing line and packed.
• the Smartbox technology permits the produce's quality properties (temperature, health, etc.) to be shown as a graphical display, in which the relevant quality property is distributed in the display in the same way as it is distributed in the store on which it is based. Similarly, it is possible to display the origin of the produce (place of growth, seed supplier, or variety of plant, etc.) and its distribution within the store, in relation to the store and to other produce.
• Figure 1 shows a storage box according to the invention.
• Figure 2 shows a store according to the invention.
• Figure 3 shows a series bus according to the invention.
• Figure 4 shows one way of measuring surface resistance.
• a storage box 12 comprises a traditional box and the electronics installed in it. These electronics include a data unit 14, series bus contacts 15, 15' on one side and second series bus contacts 16, 16' on the opposite side, a temperature sensor 13, as well as surface resistance measurement electrodes 18 and 19 in the inside of the storage box.
• the storage box includes the cables between the components, which can be quite easily hidden inside the construction.
• the data unit 14 includes at least a microprocessor, I/O devices, and a memory, as well as preferably a clock circuit.
• the box is generally a cage-like construction open at the top, but other kinds of box equipped with air-flow connections can also be contemplated.
• the said 'smartbox' can form part of a detachable part of the box, for example, the lid. Either the harvesting machine drops a separate smartbox into each box, while recording the identifier of the box in the memory, or else the box identifier is linked to the other information at the stage when the produce is made ready for sale.
• the temperature of the store 10 is controlled in a traditional manner, Figure 2. Once the storage boxes 12 have been stacked next to and on top of each other, ducts are formed under them to openings in the front wall of the store. Cooled air is blown in from these openings, and reaches the interior of the stack through the said ducts.
• series-bus contacts 11 and 11' which are connected to the system's central unit.
• eight storage boxes are stacked next to each other, in storage places LI - L8, between which the series bus is formed.
• there a several queues of this kind on top of each other and several parallel to each other.
• some known data transmission protocol can be used.
• 'next to each other' can refer to both the vertical and lateral directions.
• the series bus can be implemented in many different ways. Instead of a galvanic connection, it is possible to use either a capacitive or inductive connection. Entirely wireless data transmission is one alternative to the series bus.
• the data unit preferably includes its own power supply, so that monitoring of the produce can commence already during harvesting, when a produce batch is placed in the box.
• the location information devices connected to the storage boxes can comprise of nothing more than a remotely readable identifier in the box, which is recorded according to the stacking order of the boxes, or with the aid of a loading/unloading device equipped with a location information sensor.
• a location information sensor equipped with a location information sensor.
• the location information devices forming part of the system can be outside the storage box in such a way that, for example, the transit time delay technique is used to calculate the distances to at least three fixed points, on the basis of a signal sent by the storage box's 'smartbox'.

Landscapes

• Physics & Mathematics (AREA)
• General Physics & Mathematics (AREA)
• Engineering & Computer Science (AREA)
• Automation & Control Theory (AREA)
• Details Of Rigid Or Semi-Rigid Containers (AREA)
• Packging For Living Organisms, Food Or Medicinal Products That Are Sensitive To Environmental Conditiond (AREA)
• Packages (AREA)
• Warehouses Or Storage Devices (AREA)
• Storage Of Fruits Or Vegetables (AREA)

Priority Applications (2)

Applications Claiming Priority (2)

Publications (1)

Family

ID=8558913

Family Applications (1)

Country Status (4)

Cited By (25)

Citations (4)

• 2000
  • 2000-08-17 FI FI20001825A patent/FI20001825A7/fi unknown
• 2001
  • 2001-08-17 WO PCT/FI2001/000728 patent/WO2002014968A1/en not_active Ceased
  • 2001-08-17 AU AU2001282203A patent/AU2001282203A1/en not_active Abandoned
  • 2001-08-17 EP EP01960804A patent/EP1337899A1/en not_active Withdrawn

Patent Citations (4)

Non-Patent Citations (2)

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