AU2003200057C1 - Method and system for delivering products for human consumption - Google Patents

Description

1 METHOD AND SYSTEM FOR DELIVERING PRODUCTS FOR HUMAN

CONSUMPTION

The present invention generally relates to a method and system for delivering products for human consumption from a manufacturing centre to passenger carrying vehicles.

On many forms of passenger carrying vehicles it is usual to serve the passengers with a meal. In passenger carrying vehicles where space is a premium e.g. trains and aeroplanes, the food is usually provided for distribution in compact units such as trolleys to allow for easy distribution of food to the passengers.

The logistics of providing food to passenger carrying vehicles to meet the vehicle schedule is complex. This distribution problem is further complicated by the need to comply strictly with hygiene regulations. Further, some food products are fragile and can easily be damaged. The food can require differing temperature environments and handling in order to avoid spoiling or damaging the food and to meet health and safety hygiene requirements. If there is aproblem with the food product, as a result in some failure in the distribution process, it would be highly advantageous for the distributor and/or supplier to be able to identify the cause of the failure during the distribution process.

The travel industry is an area where a great deal of time and effort is expended in providing passengers with high quality food. Traditional travel related caterers purchase food ingredients which they cook and prepare in their kitchens. The prepared food is then placed in packaging or onto trays which are loaded into trolleys.

Traditionally, the number of trolleys and the number of meals loaded into the trolleys is tailored at the point of manufacture of the food to the requirements'of a passenger carrying vehicle to which the food is to be delivered. Thus, traditional travel related caterers require food production facilities in addition to distribution facilities. Although PXOPER\lXCN2(RUrnur)'.26)1Z9 spcdoctJ2II 00 -2- Ssome products may be bought from food manufacturing centres, this is generally a minor part of the total meal being prepared.

Even when food is provided to passengers in the form of a packaged food item e.g.

sandwiches, traditionally, sandwiches are received from a food manufacturer in bulk packaging e.g. cardboard boxes. The food items must then be unpacked and Cc repacked into carriers suitable for fitting into trolleys to go onto the vehicle e.g.

aircraft or train.

The present invention provides a method of delivering products for human consumption from a manufacturing centre to passenger carrying vehicles, the method comprising: in a manufacturing centre, packaging the products into carriers, each carrier carrying a plurality of products, and is adapted to fit into trolleys in a stacked arrangement; delivering the carriers in bulk to a distribution centre; and at the distribution centre, loading predetermined numbers of the carriers individually in a stacked arrangement into respective trolleys for distribution to the passenger carrying vehicles enabling the products to the distributed to passengers on the passenger carrying vehicle in transit.

PMOPER IrI603829 div spc.doc-2/04103 -3- Thus this aspect of the present invention provides a significant streamlining of the delivery system. The repackaging of the products at the distribution centre is avoided thus saving time and effort and avoiding the wastage of packaging material.

In the manufacturing centre, the manufacturer is provided with carriers into which they package the products. The products are thus passed right from the manufacturer to the passenger carrying vehicles and the carriers are returned again to the manufacturer once used. This use of the same carriers for packaging the products from the manufacturer right away to the passenger carrying vehicles simplifies not only the delivery logistics, but also tracking procedures for food products as a means of monitoring compliance with hygiene regulations. Further, the avoidance of repackaging of the food products greatly reduces the risk of damage to the products.

Thus this aspect of the present invention is particularly suited to the distribution of food products which are fragile or subject to hygiene regulations.

P :O PERW\MX W)Uanua.260l2J 9 rsp¢idoc-2WOls8 00 -4- SIn one embodiment the distribution centre comprises a hub distribution centre, which _receives the bulk packaged carriers. Spoke distribution centres are provided and are supplied with predetermined numbers of trolleys by the hub distribution centre. At the spoke distribution centres the number of carriers in respective trolleys is adjusted 0 5 in dependence upon the requirements of respective vehicles. The trolleys are then 0 distributed to the respective passenger carrying vehicles by the spoke distribution centres. Thus in this embodiment the spoke distribution centres can be provided 0 locally to the passenger carrying vehicle transit points. Because the spoke distribution centres only need carry out adjustments to the number of carriers in the trolleys and/or to adjust the number of trolleys required for respective passenger carrying vehicles, the spoke distribution centres can be of greatly reduced scale compared to the hub distribution centre. Thus this embodiment has the advantage that for example for the supply of aircraft meals, the airport food distribution centre can be of greatly reduced scale compared to a central hub distribution centre. This greatly reduces the cost of distribution since the cost of real estate in an airport or in the vicinity of an airport is usually much higher than the cost of real estate for a distribution centre provided remotely i.e. a remote hub distribution centre.

The present invention is particularly suited to an electronic ordering and tracking system. Passenger vehicle operators can electronically place an order for products P: OPERMX C' 2(X)AVznu 603 829 peldo.2M2i)(S 00 Swith the caterer. The order can simply identify the number of passengers but can additionally identify special dietary requirements e.g. vegetarian. The order can either be placed directly with the hub distribution centre or it can be placed with a spoke distribution centre. The benefit of placing the order with the spoke distribution centre is that the spoke distribution centre can modify the order to take into account local factors. The hub distribution centre will collate orders placed with Cc the spoke distribution centres and will place an electronic order with the manufacturing centre for a bulk delivery of products in the carriers. If the order for the products is not placed directly with the spoke distribution centres, the hub distribution centre will send electronic data on the number of products required for respective vehicles to the spoke distribution centres. The spoke distribution centre will then determine the number of trolleys required to enable them to tailor the order for each respective passenger carrying vehicle.

In order to provide for accurate tracking of products, in an embodiment of the present invention the carriers each include a unique electronic tag. At points in the distribution the tags are detected and a computer system receives the detections to track the location and keep a history for each carrier. Thus each carrier of products can be tracked from the manufacturing centre to the passenger carrying vehicle.

Further, the bulk delivery of carriers from the manufacturing centre can be provided P:\OPER rI2603829 div sp.d.-28/04/03 -6in one or move bulk carriers which each include an electronic tag. Thus when the bulk delivery is made to the hub distribution centre, the tag of the bulk carrier can be detected instead of having to detect all of the tags of the carriers in the bulk carrier.

At the manufacturing centre when the bulk carrier is loaded with carriers, the tags for the bulk carriers can be read and the computer system can store information identifying the identities of the carriers loaded into the bulk carriers. Thus at the hub distribution centre, it is simply necessary to detect the tag of the bulk carrier in order to identify the carriers delivered.

In one embodiment, the carriers each include a temperature detector for detecting temperature in the region of the products and for waming if the detected temperature moves outside predetermined range or threshold. This feature can thus provide for the individual monitoring of carriers to determine their compliance with hygiene regulations. The temperature detector can comprise an electronic detector which can transmit information to the computer system for remote monitoring. Altemrnatively or in addition, the temperature detector can simply comprise a visible indicator to indicate if the temperature for a carrier has moved outside a predetermined range or threshold.

Embodiments of the present invention will now be described with reference to the accompanying drawings, in which: P OPERWMXC(XXlnjanua)UM26I'R29 spCm dM-2/nVQ)IX) 00 -7- Figure 1 is a schematic diagram of a distribution centre in accordance with the _embodiment of the present invention; Figure 2 is a diagram of a bulk load of carriers; Figure 3 is a diagram of a trolley and a carrier; SFigure 4 is a schematic diagram of the hub and spoke distribution system in accordance with an embodiment of the present invention; and Figure 5 is a schematic diagram of the distribution monitoring system in accordance with an embodiment of the present invention.

Figure 1 schematically illustrates a distribution centre in accordance with a first embodiment of the present invention. Figure 3 illustrates the trolley 8 and carrier 7 in more detail, particularly a predetermined number of carriers are loaded into the trolleys in a individually stacked arrangement. Figure 2 illustrates the bulk delivered trolleys in more detail.

At a food manufacturing centre, food products are manufactured and packaged e.g.

rolls, sandwiches, pies etc. These are then placed in carriers 7 in accordance with an order from a distribution centre 1. The carrier 7 will hold a designated number of any type of food products. Alternatively, the carrier 7 may be required to be filled with a mixture of food products. This is dependent upon the order placed with the food manufacturer. Each carrier 7 has applied to it or incorporated in it a unique electronic tag. The tag can comprise any conventional electronic tag such as an RF tag as will be understood by a skilled person in the art. The tag can be read by any form of tag reader such as a hand held tag reader or a static tag reader mounted in for example a doorway.

Thus in order to fulfil an order, a food manufacturing centre will package a number of carriers 7 into a bulk order 4 carried by a palette 4a. The palette 4a has mounted thereon or incorporated therein a unique electronic tag 6. Thus, when the bulk order 4 is put together at the food manufacturing centre, the tags 7a of the carriers 7 which form a bulk load 4 are read together with the tag 6 of the palette 4a. This information is read and stored on a computer system and the information is transmitted to a computer system 12 at the distribution centre I from which the order for the food products originated. In this way a food manufacturing centre records and tracks food products which leave the centre. The food products in each bulk order 4 are transported by a vehicle 2 to the distribution centre 1. The bulk ordered products 4 are then unloaded by fork lift truck 3 and as they are delivered into the distribution centre 1, a tag reader will detect the palette tag 6 on the palette 4a. The tag detections are transmitted to the computer system 12 in which the detected palette tag 6 can be matched to the identities of the carriers 7 carried on the palette 4a. Thus the reading of the palette tag 6 avoids the necessity for attempting to read each of the tags 7a on each of the carriers 7.

Alternatively however each of the tags 7a could be detected in order to compare the expected load on the palette 4a with the load that the food manufacturing centre alleges to have delivered.

Where the products are subject to strict hygiene regulations and require refrigeration for example, the lorry 2 will comprise a refrigeration unit and within the distribution centre 1, the bulk orders 4 will be stored in" refrigerated conditions. In order to monitor the temperature, each carrier 7 can include a temperature monitor with the tag 7a. The temperature monitor can provide a warning if the temperature range rises above that required for the food product The monitor can comprise an electronic arrangement for transmitting a signal to the computer system 12 to allow the remote -monitoring of the conditions of the carriers 7. Aternatively or in addition, a simple arrangement can comprise a visible indicator e.g. a liquid crystal strip which will register and display a warning if the temperature rises above a threshold. The warning will remain even after the temperature has dropped to point out that the food products in the carrier 7.wereexposed to high temperatures for a predetermined period of time sufficient to raise a hygiene issue.

Within the distribution centre 1, the carriers 7 are unloaded from the palette 4a. and loaded into trolleys 8. The number of carriers 7 loaded into the trolleys 8 and the number of trolleys 8 will depend upon the order placed for a passenger carrying vehicle.

An order can be fulfilled by loading the appropriate number-of trolleys 8 with the a ppropriate number of carriers 7 which- contain the. appropriate number of products.

Thus the trolleys 8 are loaded onto a truck I1I for distribution to the passenger carrying vehicles, the trolleys 8 pass through a tag detector 10 to detect the tags of the carriers 7 being delivered. The tag detections are received by the computer system 12 in order to track the movement of the carriers 7. Thus in-this way the movement of the carriers 7 in and out of the distribution cenitre 1 can be detected.

The truck 11I will provide the required conditions for the delivery of the food products e.g. it will comprise a refrigeration unit and will deliver the trolleys 8 to the passenger carrying vehicle, In such circumstances the distribution centre I comprises the sole distribution centre. In an alternative embodiment the distribution centre 1 comprises the hub distribution centre which receives the products directly from the food manufacturing centre. The hub distribution centre will then distribute the product to spoke distribution centres. Thus in Figure 1 the trolleys 8 are filled with carriers 7 and the truck I11 delivers the trolleys 8 to the spoke distribution centres. Within the spoke distribution centres, the number of carriers 7 within the trolleys 8 is adjusted as necessary in order to accurately fulfil the order from the passenger vehicle operator.

it can thus be seen from Figure 1 that food products delivered from the food manufacturing centre are not repackaged. The carriers 7 are simply redistributed into~ trolleys 8. This greatly reduces the handling of the food products thereby making it easier to comply with hygiene regulations. Further, there is no requirement to repackage the products and there is thus no wastage of packing material or timhe and money expended in wasted repackaging. Further, the use of a single carrier from the point of manufacture to the point of use on the passenger carrying vehicle facilitates better control and tracking of delivery.

In addition to the tags on the carriers 7 and the palettes 4a, tags 9 can also be provided on the trolleys 8. This enables the trolleys 8 to be tracked. It can also enable the tag detector 10 to simply detect the trolley 8 passing thereby. If the tags 7a of the carriers 7 are read when the trolley 8 is loaded, and matched with the tag 9 of the trolley, the computer system 12 will have a record of the carriers 7 loaded in the trolleys 8. Thus the detection of the tags 9 of the trolleys 8 and the tag detector 10 is sufficient for the computer system to know which carriers 7 have been loaded on the truck 11.

Figure 4 is a schematic diagram of the hub and spoke distribution system in which there are three hubs 20,21, 22 provided at separate locations and is connected by high speed communication lines 23a and 23b for the exchange of data therebetween. Each hub 21, 22 is connected to a spoke distribution centre 40a, 40b, 41a, 41b, 42a, 42b, 42c and 42d respectively. A food manufacturing centre 30 is connected to each of the hubs 21 and 22 via a communication line In this embodiment each spoke distribution centre is located at or near an airport or train station to provide airline or rail catering facilities. At each spoke orders can be received from airlines or rail operators being served in respect of food to be provided for specific journeys. This information can be electronically received and is passed from the spokes to the respective hub distribution centres 20, 21 and 22. The hub distribution centres 21 and 22 will collate all of the orders in order to form a bulk order for groups which is transmitted to the food manufacturer 30. When the goods are delivered by the food manufacturer 30 to the hub distribution centres 20, 21 and 22, the hub distribution centres 20, 21 and 22 use the information received from the spoke distribution centres i.e. the orders from the airlines or rail operators in order to determine how to distribute the products to the spoke distribution centres. Thus within the hub distribution centres 21, 22 the bulk orders received from the food manufacturers 30 are split and distributed to the spoke distribution centres. As described hereinabove with reference to Figure 1, this redistribution is carried out by placing the carriers 7 into trolleys 8 so that the spoke distribution centres simply have to adjust the number of carriers 7 required for each flight. The spoke distribution centre needs to carry out no repackaging or even movement of carriers 7 into different stored units.

P:\OPERrI\2603829 div sp.doc-2 04103 -11- In an alternative embodiment, the airlines can place orders directly with the hub distribution centres 20, 21 and 22. The benefit of the receiving orders from the spoke distribution centres is that the spoke distribution centres can take into account local factors. For example, it may be known that because of a pricing policy, although a number of passengers have booked flights, not all passengers will turn up for those flights. Thus although the airline may request food for each passenger, it may not be necessary to supply that number. The order can thus be adjusted accordingly.

Figure 5 is a schematic diagram of a distribution monitoring system in accordance With an embodiment of the present invention.

At the heart of the system is a monitoring computer system 12 to receive and process all input information. A communications link 19 is provided which can comprise any conventional type of communications link to enable product information from manufacturers to be entered. This enables a product manufacturer to transmit information on the products to the distribution monitoring system when the products have been shipped to the distributor. The product information can be loaded into a database of history information 18 by the monitoring computer system 12. The product information can include a description of the product, a description of the temperature conditions under which the product should be kept, e.g. below 4'C, and an expiry date for the product. Also, information on how the product should be handled or kept and any other necessary information can be provided. This information will aid quality control during the distribution of the products.

The products are provided in carriers 7 with tags 7a. The tags 7a. incorporate a temperature sensor and transmitter therein to enable the ambient temperature of the products to be detected and transmitted. The tag detectors 5 and 10. described with reference to Figure 1 are connected to the monitoring computer system 12 to provide tag detections detecting when the tags pass by and thus enter a location. This provides for the tracking of the tags and the tag detections are entered into the database of history information 18 by the mon itoring computer system 12. Also temperature measurements by the temperature monitor of the tags 7a are sensed by temperature readers 16 provided at locations within the distribution centre. The temperature measurements received by the temperature readers 16 are stored in association with the tag detections in the database of history information 18 by the monitoring computer system 12.

Video cameras 14 are also provided at locations in the distribution centre in order to provide images or video of locations in the distribution centre. The images or video are stored in the database of history information 18 by the monitoring computer system 12 so that there is an association between the time of tag detections and the images or video recorded.

in addition to the temperature monitors in the tags 7a, temperature sensors 15 can be provided in locations in the distribution centre. These enable temperature conditions in the locations to be detected, and this information can be stored in the database of history information 18 by the monitoring computer system 12. The temperature sensors 15 can be provided in case carriers 7 which do not have temperature monitors. built into the tags 7a. The temperature sensors 15 provide an overall temperature measurement for a location and are thus less accurate than the temperature measurements performed on the carriers 7 themselves. The use of temperature sensors 15 at the locations does however reduce the cost and can be used instead of, or to supplement the temperature measurements from monitors associated with the tags.7a.

The distribution monitoring system is also provided with a user terminal 17 operable by a person of administrative capacity in order to monitor the distribution of products. The user's terminal 17 provides a user interface to allow a user to access the database of history. information 18 to trace the location of a product with time, to determine the temperature experienced by the product at each location, and to view images or video of the location when the product is in that location. In ths way a user can identify when unsatisfactory temperature conditions were experienced by the- product by viewing the temperature information, or they can identify when unsatisfactory handling occurred by viewing the associated image or video for a location when the product is in that location. This enables a visual inspection of the handling of the goods to identify when goods were damaged, or when quality was compromised for hygiene reasons. For example, this enables a user to identify where something may have gone wrong during the distribution process causing a customer to suffer food poisoning. The distribution monitoring system provides for a quality control audit trail.

The distribution monitoring system can also provide for automatic warning when the quality of the product falls below that required during the distribution process: The information on the product received over the communications link 19 from the manufacturer can include information on the temperature conditions for storage of the product. This is stored in the database of history information I1B. The monitoring computer system 12 can use the received temperature measurements (from. the temperature sensors 15 or from the sensors in the tags 7a) in combination with the tag detections to compare the temperatures being experienced by a product with the temperature recommended for storage for the product by the manufacturer. If the detected temperature moves outside the manufacturer's recommended range, a warning can be generated on the user terminal 17 to warn an operator that the quality of a .product has been compromised. The warning need not be raised immediately the temperature of the product strays outside the recommended range, it may require the temperature to stray outside the recommended range for a predetermined period before P:OPER \M 2603829 di~v sp.doc-07/0103 -14the warning is generated. This is because the temperature variation outside the manufacturer's recommended temperature range for a short period of time may not compromise the quality of the products.

Although the present invention has been described herein above with reference to specific embodiments, it will be apparent to a skilled personnel in the art that modifications lie within the spirit and scope of the present invention.

For example, although the present invention has been described with reference to food items, the present invention is applicable to any food or drink items and particularly to food and drink items which are fragile or subject to hygiene regulations.

In the embodiments tags are described for the containers. Any suitable active or passive tag or unique identifying system can be used which can be electronically read e.g. a bar code, a microchip or RF tag. Although in the embodiments fixed tag detectors are used, the present invention is applicable to any type of tag detector including mobile tag detectors. Further, although in the embodiments tags are used which can be read from a distance, the present invention is applicable to tags which can only be read at short range e.g. a bar code. The present invention preferably however uses tags which can be read at a distance remotely) to make handling and tracking of the products and carriers during the distribution more practical.

Throughout this specification and the claims which follow, unless the context requires otherwise, the word "comprise", and variations such as "comprises" and "comprising", will be understood to imply the inclusion of a stated integer or step or group of integers or steps but not the exclusion of any other integer or step or group of integers or steps.

The reference to any prior art in this specification is not, and should not be taken as, an acknowledgment or any form of suggestion that that prior art forms part of the common general knowledge in Australia.

Claims (9)

1. A method of delivering products for human consumption from a manufacturing centre to passenger carrying vehicles, the method comprising: S 5 in a manufacturing centre, packaging the products into carriers, each carrier carrying a plurality of products, and being adapted to fit into trolleys in a stacked Sarrangement; Sdelivering the carriers in bulk to a distribution centre; and at the distribution centre, loading predetermined numbers of the carriers individually in a stacked arrangement into respective trolleys for distribution to the passenger carrying vehicles enabling the products to the distributed to passengers on the passenger carrying vehicle in transit.

2. A method according to Claim 1 wherein the distribution centre comprises a hub distribution centre, the method including distributing predetermined numbers of trolleys from the hub distribution centre to respective spoke distribution centres, and at the spoke distribution centres adjusting the numbers of carriers in respective said trolleys dependent upon the requirements for respective passenger carrying vehicles and distributing the trolleys to the respective passenger carrying vehicles.

3. A method according to Claims 1 or Claim 2 wherein the trolleys are distributed to the passenger carrying vehicles from the distribution centre, and the predetermined number of carriers loaded into respective trolleys is dependent upon the required number for respective passenger carrying vehicles.

4. A method according to any one of Claims 1 to 3 wherein the containers are distributed to the passenger carrying vehicles from the distribution centre, and the predetermined number of carriers loaded into respective trolleys is dependent upon the required number for respective passenger carrying vehicles. A method according to Claim 2 or Claim 3 including receiving an electronic order P:OPERXCt2(8Unwa264)3829 pci 00 -16- Sat the hub distribution centre for products from product distributors who distribute the products to the passengers on the passenger carrying vehicle and placing an electronic order with the manufacturing centre for a bulk delivery of products in the carriers; and receiving electronic data at the spoke distribution centres on the number of products required for respective passenger carrying vehicles and determining the number of trolleys required. (Ni

6. A method according to Claim 4 wherein the electronic order for products is received first by respective spoke distribution centres and passed on to the hub distribution centre, the spoke distribution centres being able to adjust the number of products in the order according to local circumstances.

7. A method according to any one of Claims 1 to 6 wherein said carriers each include an electronic tag, the method including detecting the tags at predetermined points during delivery, transmitting data on the detections to a computer system to track the location and keep a history for each carrier.

8. A method according to Claim 7 wherein the carriers are delivered in at least one bulk carrier to the distribution centre, the at least one bulk carrier including an electronic tag, the tag is detected at the manufacturing centre and at the distribution centre, the detections are transmitted to a computer system to track the delivery of the bulk carrier, and when the bulk carrier is loaded with carriers at the manufacturing centre, information on the carriers loaded in the bulk carrier is transmitted to the computer system.

9. A method according to Claim 7 or Claim 8 wherein the carriers each include a temperature detector for detecting ambient temperature, the temperature detector warning if the detected temperature moves outside a predetermined range or threshold. A method according to any one of Claims 1 to 9 wherein the products are fragile or subject to hygiene regulations. P \OPERWXCU1)pu ark,)A1R29 spmc, kd.2IWOOX~

17- 11. A method, substantially as described with reference to Figures 1 to 5 of the drawings.