WO2006012939A1

WO2006012939A1 - Arrangement for characterising objects on transport and method for transporting objects

Info

Publication number: WO2006012939A1
Application number: PCT/EP2005/005995
Authority: WO
Inventors: Christoph Fethke; Gerhard STÖNNER
Original assignee: Deutsche Post Ag
Priority date: 2004-07-30
Filing date: 2005-06-03
Publication date: 2006-02-09
Also published as: CN1989517A; KR20070101200A; DE102004037363B4; IL181033A; DE102004037363A1; EP1774461A1; JP2008508154A; IL181033A0

Abstract

The invention relates to an arrangement for the transport of objects, in which said objects are transported in containers (10), provided with at least one electronic display means (20). The arrangement comprises generation means (30), for the generation of information for display on a display means (20), preparation means, for preparation of information for display in at least one device (50) and transmission means (40), for transmission of data from the device (50) to a display means (20) of a container. The electronic displays (20) are, for example, organic polymer displays or electronic inks of bistable elements. The applications of said displays for replacement of paper labels and displays with low material, cost and personnel requirements are numerously disclosed.

Description

Arrangement for identifying

Objects during transport; Method for transporting objects

Description:

The invention relates to an arrangement for transporting objects, in which the objects are transported in containers, which are provided with at least one electronic display means.

The invention further relates to a method of transporting objects, in which the articles are transported in containers which are provided with at least one electronic display means.

For the visually detectable marking of objects such as goods, containers, containers or pallets, it is known to provide them with labels containing, for example, information about the content, the destination or the price of a product. This tag allows people to read the information they need and take appropriate action, such as moving an item to a specified destination. In the case of changeable information, a new marking must be affixed to the object concerned whenever a change is made. Typically, the information is manually removed from the label and replaced with new information. The old label can also be completely replaced by a new one or pasted over, for example with a new label.

To overcome the disadvantages of conventional labels, electronic labels based on electronic components are increasingly being used Ink developed. Such a label is described, for example, in international patent application WO 00/16189 A1. The label is made up of several layers such as display, activation grid, processor and antenna layers and a memory element, the display layers having an electronic ink arranged on a carrier. The information to be displayed can be transmitted to the label via the antenna layer.

A typical use of electronic tags is described in international patent application WO 00/67110 A1 which discloses electronic tags for variable price tagging of goods. In this case, an electronic label is attached to a shelf on which there are goods, so that the display with variable prices or other product information can be controlled.

Furthermore, it is known to replace the visually detectable marking of objects in transport or logistics systems by RFID technologies with electronically rewritable and readable transponders. Such systems have the advantage that in a transponder a multiplicity of information can be electronically read in and out, as a result of which automatic transport, sorting, tracking or distribution processes can be controlled without requiring the visual display of information is.

An example of the use of RFID transponders in the postal sector is disclosed in international patent application WO 03/098533 A1. The RFID transponders are attached to postal items and these are sorted on the basis of the information which can be read in and out and transported to a delivery location. Another use of RFID labels is disclosed in German Utility Model DE 202 07 972 U1, which describes load carriers such as pallets with transponders. In this case, information such as the owner, the content or the load carrier identification number of a designated load carrier are stored in the transponder.

Particularly in logistics systems such as mailing systems, it has proven advantageous to replace conventional paper labels with electronic labels. This allows the

Material, personnel, disposal and cost significantly reduce while the reliability of the markings can be increased.

The object of the invention is to provide an arrangement for transporting objects, in which the objects are transported in containers that are provided at low material, personnel, disposal and cost with variable identification information.

According to the invention, this object is solved by the subject matter of independent claims 1 and 17. Advantageous developments of the invention will become apparent from the dependent claims 2-16 and 18-19.

The arrangement according to the invention for transporting objects in which the articles are transported in containers, provides that the containers are provided with at least one electronic display means. The arrangement further has generating means for generating information to be displayed on a display means and providing means for providing the information to be displayed in at least one device. Furthermore, the arrangement comprises transmission means for transmitting data from the device. tion on a display means of a container. The generating means, the provisioning means and the transmission means can be combined in a device which represents the device for transmitting the information to the display means. However, the individual components can also be arranged separately from one another, data being transferred between the means. In a particularly preferred embodiment of the invention, at least the generating means are connected to a central data processing unit which controls and stores the flow of information onto the electronic labels.

In a particularly preferred embodiment of the invention, the transported articles are mail items which are transported and / or sorted in a mailing system. The device may include a sorting system as a device via which data is transferred to the electronic label of a container. At the entrances of a sorting plant, containers are delivered by personnel forces, which for this purpose are marked with the entrance of the relevant sorting plant. After sorting, accumulations of letters are generated at the exits of the plant, which are collected in containers marked with the next transport destination of the container. At the outputs, an automatic transmission of the destination information associated with a container takes place on the electronic display of the positioned container. The display can be read by personnel forces and the container can be transported to a next transshipment station.

The electronic display device on a transport container may be, for example, a component based on a monostable liquid crystal display. It is also possible to use a component based on a bistable component Liquid crystal displays. Such a bistable liquid crystal display may be based on FLCD, EASL, ZBD, BiNem or ChLCD technology. In a further embodiment of the invention, the electronic display means is a component based on electronic ink with bistable elements. On this display information can be displayed as text and / or graphical representation. In one embodiment, the information to be displayed is encrypted information, for example in the form of a bar code, as is typically used to label containers. To record the barcode information, the arrangement has means such as scanners for optical detection of encrypted information.

In a particularly preferred embodiment of the invention, a container to be transported additionally has an RFID transponder in addition to an electronic display. The identification of the container thus represents a combination of a display for the visual or optical detection of information and a transponder, via which additional information can be read in and out. The data stored in the two components may be the same or different information. By way of example, the read-out information can be used to automatically control the containers in areas in which no personnel forces are used. In addition, the transport of the containers can be tracked and / or transport statistics generated.

In order to generate and transmit transponder data in addition to information to be displayed, the generating means, the devices and the transmission means additionally comprise means for transmitting data to the RFID transponder. This additional means are preferably located within the means for processing the display information.

The devices used for the transmission of information may be not only sorting systems but also handhelds or gates. Handhelds are manually positioned to transmit information by personnel forces in the reception area of a container identification, while gates have a defined area in which information is transmitted automatically if a container moves through this area.

The invention further comprises a method of transporting objects, in which the articles are transported in containers which are provided with at least one electronic display means. The method provides for the generation of information to be displayed on a display means in a generating means. Information to be displayed is provided in at least one device and data from the device

Transmit display means of a container via a transmission medium.

The method can be designed so that the transmission of the information to be displayed is automatic when a container is located in the region of a device. Another possibility of the procedure is the transmission of the information to be displayed by manual triggering by a personal force.

The use of an electronic label for identifying a container has the advantage that variable information can be displayed without the label having to be exchanged. This reduces the material, Personnel, disposal and cost of labeling the container. Furthermore, no paper label must be generated and manually attached to a container, which is faulty, since it can lead to confusion. Rather, the variable information in the arrangement according to the invention can be transmitted to the container according to a control and monitorable system, which increases the reliability of the container identification.

The arrangement makes it possible to use different devices in a system for generating and transmitting data on an electronic display. This has the advantage that various process sequences of a transport and sorting system in which markings are assigned at different stations can be mapped. For example, at some stations of the arrangement, it may be advantageous to use mobile handhelds because the circumstances require flexible handling of containers, while at other stations, such as the outputs of a sorting system, a fixed automatic transmission device may be advantageous. Gates can be used, for example, if it is expedient not to interrupt the transport of containers, but rather to transmit new identifications during the movement of a container.

Further advantages, features and expedient developments of the invention will become apparent from the dependent claims and the following description of a preferred embodiment with reference to FIG. 1.

Fig. 1 shows an embodiment of an arrangement for trans portieren of objects in containers 10. Particularly preferred is the use of the inventive arrangement in a postal shipping system, in the mail in containers be transported between several transhipment stations. The arrangement can, however, also be used in other systems in which the variable identification of objects takes place by means of an electronic display on this object.

Containers for transporting mailpieces are typically constructed in such a way that they can be stacked one inside the other and / or stacked one on top of the other and optionally closed with a lid. The containers are provided with an electronic label having at least one electronic display 20.

The electronic label has at least one optically or visually detectable electronic display. As with monostable display systems in case of failure of

Voltage source, the displayed information is no longer visible, preferably bistable display units are used on the electronic information carrier. As a display, various technologies can be used, for example, based on the liquid crystals. Depending on the field of application, criteria such as flexibility, shock resistance, service life, maintenance requirements, weather resistance, working temperature range, number of write cycles and generation intervals must be taken into account when selecting a suitable display technology.

One possible display technology is the FLCD technology (Ferroelectric Liquid Crystal Display). Ferroelectric liquid crystal phases are formed by chiral or chirally doped smectic C phases. By tilting the

Molecular longitudinal axes within the smectic layers produce a spontaneous polarization perpendicular to the layer normal. By applying an electric field against this polarization, the tilting direction of the molecules and thus also the direction the polarization reversed. Both switching states differ visually and are stable. A reflective FLCD basically consists of a polarizer, the liquid crystalline phase and a deposited mirror. Depending on the tilting direction of the smectic phase relative to the polarizer, light and dark states are generated.

Another technology is Electrically Addressable Smectic Liquid Displays (EASL). It is a liquid crystal display based on the electro-optical effects of smectic liquid crystals. The non-tilted smectic layers are aligned parallel to the display cell and, in this state, incident light does not undergo birefringence. The display appears transparent or when deposited with a colored reflective layer in the corresponding color. The second state is characterized by randomly arranged focal conic domains, where scattered light is generated. Due to the birefringence present then this scattered light appears white and with the addition of dichroic dyes in the corresponding color.

Both states can be converted into each other by applying an electrical voltage.

Zenithai Bistable Devices (ZBD) are displays based on nematic liquid crystals. In this particular type of nematic display, perturbations of the nematic order are induced on a substrate by a trench structure in the micrometer range in such a way that either a planar or a homeotropic orientation can be set depending on the influence of a DC electric field.

The BiNem technology is based on the bistability of two nematic states. The liquid crystal is in a planar orientation and experiences a strong on one substrate Edge connection, while it experiences a weak edge connection on the other substrate. With dedicated current pulses, it is possible to switch between a non-twisted bulk structure and a bulk-twisted structure. Is one equipped with parallel polarizers

Liquid crystal cell deposited with an absorbent film, the non-twisted state appears white, while the twisted state appears black.

The Cholesteric Liquid Crystal Display (CHLCD) technology is based on twisted nematic liquid-crystalline phases. Chiral nematic phases or nematic phases provided with chiral dopants form helical structures at the molecular level. If the length of the helix is equal to the wavelength of visible light, it is selectively reflected (helix perpendicular to the display surface) or transmitted (random arrangement of the helices). Both states are long-term stable and can be converted into each other by applying a voltage.

The displays may also be a polymer display such as an OLED (Organic Light Emitting Diode). Such displays consist of a multi-layer system in which a very thin polymer is arranged between two electrodes. As a result, a thin display can be realized, which can be used as a paper substitute for marking objects. It is sufficient to use black and white displays, but it can also be used more complex displays with multiple colors. Such OLED displays have the advantage that they require less energy than LED displays, so that the life of a battery of a container identification can be increased. In a particularly preferred embodiment of the invention, the displays are formed by electronic ink. These are chemically microcapsules containing two different color components of different charge, which align themselves in the electric field. Due to the particle size and the viscosity of the system after switching off the electric field, no immediate return relaxation in a disordered initial state. There is thus no loss of the written information, but it possibly occurs only a decrease in the Kontrastes.

Electrophoretic displays have favorable properties, in particular with regard to the mechanical requirements for flexibility, shock sensitivity and pressure stability. Furthermore, they provide a sufficiently bistable behavior and operate within a temperature range which corresponds to the typical weather conditions for a transport container system. Furthermore, the circuit complexity for the energy supply is limited by the comparatively low drive voltage.

In one embodiment of the invention, an electronic label comprises at least one wireless interface for preferably bi-directional transmission of data and a display for visualization of optically detectable information. The interface is preferably an RFID component such as a chip. In addition, a logic circuit for data management is integrated, which performs the transfer of data from the wireless interface to the display. Furthermore, a label expediently comprises a circuit part for the provision of the energy required by the individual system components.

It has proven to be useful, the required for the operation of the electronic label Enerσie wireless Transfer interface. The transmission of data received via the wireless interface to the display is assumed, for example, by a microcontroller in conjunction with a suitable display driver. Depending on the type of connection and the additional wiring of this

Basic elements can realize different concept variants of the overall system.

If active (monostable) LCDs are used, a permanent power supply of the display is required, which requires the integration of an energy storage such as a battery, a rechargeable battery or a capacitor with sufficient capacity. The data to be transferred is received via an RF interface and stored there directly. Data relevant for the display are transferred to a microcontroller with display driver, which controls the display. During the data transmission, energy is gained from the RF signal by a separate circuit part, which is used to fill an energy store, which ensures the supply of controller and display.

The energy required for the RF component is taken from this directly from the RF signal. All components required for this purpose are preferably already contained in the RFID chip. The necessary effort for the circuit for additional energy production, however, is highly dependent on the supply voltage of the other connected components.

When using passive (bistable) displays, a simplified version of the previously mentioned concept can be used. The basic elements of the RF component and the microcontroller with display control are retained. By using a passive display, however, it is possible to dispense with the energy store. There are bistable conventional LCDs work, the control of the display changes. To obtain the drive voltage additional (passive) components can be used, but this increases the number of components.

For passive (bistable) displays, for example, two separate RF components can be used. A component may be an RFID-IC component which contains the circuitry necessary for the generation of energy from the RF signal. The part of the circuit which is provided for driving the display is preferably decoupled from the RFID-IC component. This simplifies the adaptation of the second RF component and additionally required components to the higher supply voltage of the passive display. The data to be transmitted to the display are thus only passed through by the second RF component and displayed via the following microcontroller with display control.

In a further embodiment of the electronic label, the number of system components is minimized by integrating all components except the display within an application specific IC.

The goal of such an ASIC (Application Specific IC) or CSIC (Customer Specific IC) is to integrate as many functionalities as possible for an electronic end product into a single semiconductor.

To transmit information to an electronic display, this information is generated in a generating means 30. The generation can be carried out by the generation means 30 itself or by transmission of data by a central data processing unit 70. For generating data from a personal force can also be entered. The generating means 30 are in connection with provisioning in a device 50, which has transmission means 40 for transmitting the information.

The device 50 may be, for example, a handheld that is manually positioned by personnel personnel in the receiving area of the display and which transmits the information to the label. In a further preferred embodiment, the devices for transmission are one or more gates, through whose effective range the respective container is moved. When moving through the gate, preprogrammed information is automatically transferred to the container.

If the container is used in a postal sorting and transport system, it has proven advantageous to carry out the transfer of information at least partially at fixed positions at which a container is placed. For example, containers in post offices are traditionally provided with information carriers, which contain the type of mail to be collected by a processor in this container and the destination of the container. This largely consistent information can be stored permanently in a device in the vicinity of which the container is positioned, so that the device can transmit the information to the electronic display. In a further embodiment of the invention, an engineer can freely program the information to be transmitted or supplement it with further information.

The arrangement according to the invention can also be advantageously used in postal sorting systems in which containers are provided with consignments at different sorting stations with new information carriers. Conventionally, a sorting system sorts imported consignments to a particular one

Sorting plan and generates at several outputs of the device collections of shipments with the same destination. In this The destination may already be a delivery region or the entry of a further sorting plant.

In known sorting systems, a processor provides a container with a paper label on which the corresponding destination information is automatically printed by a control of the sorting system and positions this container at the correct starting point of the system. When using the arrangement according to the invention, this destination information could be transmitted directly to the relevant starting point of the sorted items. The processor must thus place only one container and the destination information is automatically played on the electronic display. As a result, confusion and errors in the labeling of containers can be completely reduced. The arrangement can thus provide several different devices via which information is transmitted to container labels. In the exemplary embodiment illustrated in FIG. 1, a container 10 is moved to a transfer station A on the basis of a corresponding display on its label. For this purpose, this transport destination was read by a personnel force and the transport was carried out by it or at least initiated. At the trans-shipment station A, for example, the transported objects are stored, emptied, sorted and / or filled into new containers, for example.

In the area of the station A is a device 50 for transmitting a new label on the container. The information generated in the generating means 30 and provided in the device 50 is applied to the electronic

Display of the label transmitted on which in this example now a new transhipment station B appears. The new transshipment station is read by a personal force, which uses the information performs or causes the transport to the station B.

For data transmission, the device 50 is equipped with a transmission means 40, which transmits data to a receiving means of the display. The transmission means may, for example, be a transmitter which transmits data in conjunction with an antenna of the electronic display 20. The transmission of data to the electronic display 20 is preferably carried out without contact. In a further embodiment of the invention, the transmission takes place via direct contact of the container display with a contact means of the transmission device. For example, a device for receiving the container can be provided, which aligns the container in a position in which the contact means of the transfer device 40 engages in a counterpart of the display 20 and so a solid contact is made, over which data can be transmitted.

In a further particularly preferred embodiment of the invention, the visually detectable electronic display of a label is supplemented by an RFID transponder 60, which is also integrated in the label. As a result, the same or different information can be stored in the RFID transponder as displayed on the electronic display. Typically, RFID transponders are used for the tracking of containers and for generating transport statistics, so that information which exceeds the displayed identifications can also be stored.

The reading in and out of data via the transponder 60 can likewise take place via handhelds, gates or transmission devices installed at individual positions. The means required for this purpose are preferably integrated into the means for transmitting information to be displayed. LIST OF REFERENCE NUMBERS

10 containers

20 display means

30 generating means

40 transmission means

50 Device for providing information to be displayed

60 RFID transponders

70 Central data processing unit

Claims

Claims:

An arrangement for transporting objects, in which the objects are transported in containers (10) provided with at least one electronic display means (20), characterized in that the arrangement has the following features:

- generating means (30) for generating information to be displayed on a display means (20);

- providing means for providing information to be displayed in at least one device (50);

- Transfer means (40) for transmitting data from the device (50) to a display means (20) of a

Container.

2. Arrangement according to claim 1, characterized in that the electronic display means (20) is a component based on a monostable liquid crystal display.

3. Arrangement according to claim 1, cla. du. ztrch indicates that the electronic display means (20) is a bistable liquid crystal display based device.

4. Arrangement according to claim 3, cLa-ch-i-trclT. in that it is in the bistable liquid crystal display is a display based on the FLCD, EASL-, ZBD-, BiNem- od ^'he ChLCD technology.

5. Arrangement according to claim 1, characterized in that the electronic display means (20) is a component based on electronic ink with bistable elements.

6. Arrangement according to one or more of claims 1 to 5, cäa-cäuL-trcri g-ekennzeich.net, that it is the information to be displayed is text and / or graphical representations.

7. Arrangement according to one or more of claims 1 to 5, characterized in that it is the information to be displayed encrypted information, which are optically detectable by a device.

8. Arrangement according to claim 7, cLa.cLu.-trch characterized in that it is the information to be displayed is a bar code.

Arrangement according to one or both of claims 5 and 6, characterized in that the arrangement comprises means for optically detecting displayed encrypted information.

10. Arrangement according to one or more of claims 1 to 9, characterized in that it indicates that the transported articles are postal items.

11. Arrangement according to one or more of claims 1 to 10, clacVu-tTch- gekennze i chnet. in that the containers have an RFID transponder (60).

12. Arrangement according to claim 11, characterized in that the generating means (30), the device (50) and the transmission means (40) comprise means for generating and transmitting data to the RFID transponder (60).

Arrangement according to one or more of claims 1 to 12, characterized in that at least the generating means (30) are connected to a central data processing unit (70).

14. Arrangement according to one or more of claims 1 to 13, characterized in that the device (50) is a sorting system.

15. Arrangement according to one or more of claims 1 to 14, characterized in that the device (50) is a handheld device.

16. Arrangement according to one or more of claims 1 to 15, da.d "u._crch characterized in that it is the device (50) is a gate.

17. A method for transporting objects, in which the articles are transported in containers (10) which are provided with at least one electronic display means (20), characterized by the following steps:

- Generation of to be displayed on a display means (20) Information in a generating means (30);

- Providing information to be displayed in at least one device (50);

- Transferring data from the device (50) to a display means (20) of a container via a

Transmission means (40).

'

18. The method according to claim 17,

CLΞL dal je cli indicates that the transfer of the information to be displayed takes place automatically when a container (10) is located in the region of a device (50).

19. The method according to one or both of claims 17 and 18, ^' cia.cL' u.:r:ch characterized in that the transmission of the information to be displayed by manual triggering by a personal force.