EP1037172A2 - Method for the automatic installation of franking machines and apparatus for carrying out said method - Google Patents

Abstract

The automatic installation method uses storage of machine data within the franking machine during its manufacture and storage of a similar set of machine data together with a number code within a data center, which is supplied with customer data upon purchase of the franking machine, for combining with the corresponding machine data and the number code, before forwarding the latter to the franking location upon reception of a data request. An Independent claim for a device for automatic installation of a mail franking machine is also included.

Description

The invention relates to a method for the automatic installation of Franking devices, according to the preamble of claim 1, and an arrangement for performing the method, according to the preamble of claim 13. The method is for users of all kinds of mail processing systems, accounting and security modules, Franking machines or PC franking devices are suitable. The solution aims at the rapid availability of a franking device for one Customers, from purchase of the facility.

Before a franking machine is used as intended can, usually have some country, carrier and Customer-specific data can be stored in the franking machine. In the case of franking machines of the T1000 type, this becomes one Installation of a special EPROM from the dealer or service technician inserted (see US 5,734,571 and EP 762 335 A2, method for Change the data of an electronic data loaded in memory cells Franking machine). A common approach is to use a To store identification number at the same time in a data center, in order to be able to identify the calling franking device later. The Collecting customer data is also per se from other devices known.

Including a remote data center is also nice common. US 5,233,657 already loads data in front of one Commissioning of a franking machine known. For switching from Advertising clichés are already a telephone in US 4,831,554 Communication suggested. In US 4,933,849 is already a date-dependent changing of stamp images (with city stamp and with value stamp), which was previously sent by Modem have been loaded. From US 5,161,109 is already a store of Databases known. A standard database is used for storage of data, with a data record periodically from the franking machine to Central is transmitted. Then the data record is there in the head office updated and then sent back updated to the franking machine (down loading).

According to EP 780 803 A2, the possibility becomes available after an initialization provided that news or carrier-specific from a data center Advertising will be provided when doing an order in the Data center is available. The customer must first have a contract with the Service providers or operators of the data center have completed.

From US 5,077,660 is still a method for changing the Configuration of the franking machine is known, the franking machine by means of suitable input via a keyboard from the operating mode into one Configuration mode switched and a new meter type number can be entered, which of the desired number of features corresponds. The franking machine generates a code for the Communication with the computer of the data center and entering the Identification data and the new meter type number in the aforementioned Computer, which also has a corresponding code for transmission and input to the postage meter generated in both code be compared. If both codes match, the franking machine configured and switched to the operating mode. The The data center has the meter type set for the corresponding franking machine always accurate records. However security is solely from encrypting the transmitted code dependent.

In addition, EP 388 840 A2 is a comparable one Security technology known for setting a franking machine to to clean them of data without the franking machine Manufacturing company must be transported. Here too, security is the only thing dependent on the encryption of the transmitted code.

The task is to create a technical procedure for automatic installation and and associated arrangement, in particular a corresponding one Franking device to develop. The customer the one pre-initialized Franking device purchased through a dealer should be in the Be able to put the franking device fully in operation take without calling a customer service or service technician must be and without a visit to the post office.

a) Speichern eines den in die Frankiereinrichtung eingespeicherten Maschinendaten entsprechenden Spiegeldatensatz zugeordnet einem Nummerncode in der Datenzentrale,

b) Übermitteln von erfaßten Kundendaten einer verkauften Frankiereinrichtung zur Datenzentrale,

c) Speichern der Kundendaten in der Datenzentrale zugeordnet zum Nummerncode,

d) Bereitstellen eines maschinen- und kundenspezifischen Datensatzes in der Datenzentrale zugeordnet zum Nummerncode, wobei der Datensatz mindestens Daten für einen spezifischen Stempel mit temporären und lokalen Daten umfaßt, und

e) Übermitteln des Datensatzes zum Frankierort (Frankiereinrichtung oder dessen Betreiber) nach einem Empfang entsprechender Anforderungsdaten oder Eingaben.

The object is achieved for the method with the features of claim 1 and for the arrangement with the features of claim 13. During production, machine data are embossed into the franking device in a known manner when the franking device is pre-initialized.
According to the invention, the following steps are proposed for the method:

a) storing a mirror data record corresponding to the machine data stored in the franking device and assigned a number code in the data center,

b) transmission of recorded customer data from a sold franking device to the data center,

c) storing the customer data in the data center assigned to the number code,

d) providing a machine-specific and customer-specific data record in the data center assigned to the number code, the data record comprising at least data for a specific stamp with temporary and local data, and

e) transmission of the data record to the franking location (franking device or its operator) after receipt of corresponding request data or inputs.

The machine data is the serial number and / or identification number.
Request data is already generated when the franking device loads a credit in advance of its use. It is advantageous if the franking device additionally carries out a billing of the desired data update service for an installation of stamp image data during the loading process.
The data record transmitted for automatic installation can contain a customer-specific advertising cliché or an advertising cliché selected from a number of advertising clichés, including customer data, if this has been agreed upon during the sale.

The customer data (e.g. place of use, cliché request, service / maintenance contract) are transmitted to the data center directly or, if necessary, via a dealer as part of the establishment of initial communication by postcard, by telephone or a comparable communication. The data center is preferably designed as a first special service center (data update server), which can also transmit other configuration data and postage fee table data if required. The same or a second data center can be designed as a reloading center for credit. The second (teleporto) data center usually transmits the credit required for franking in the form of reloading data.
The same or a third data center can be designed as a reloading center for tariff tables and for further information.

It is envisaged that the data center is a transmission means provides to deliver customized records. Submitting the data record is then made by sending the data carrier.

This means that a customer-specific data record can be created via a chip card or another modern medium can be delivered to the customer.

Advantages arise in particular for low-cost machines that a Distributor sells. The time from the customer's order / purchase to first franking process can be drastically reduced. Due to the Transmission of data for a country-specific stamp image can the country variants by a single variant, for example be replaced by a European version of the franking device.

Figur 1,

Perspektivische Ansicht einer einer Frankiermaschine von hinten rechts,

Figur 2,

Blockschaltbild der Steuerung einer Frankiermaschine,

Figur 3,

Flußdiagramm für eine Kommunikation per Modem,

Figur 4,

Flußdiagramm für eine Kommunikation per Voice,

Figur 5,

Flußdiagramm für eine halbautomatische Kommunikation per Modem,

Figur 6,

Flußdiagramm für eine alternative Kommunikation.

Advantageous developments of the invention are characterized in the subclaims or are shown in more detail below together with the description of the preferred embodiment of the invention with reference to the figures. Show it:

Figure 1,

Perspective view of a franking machine from the rear right,

Figure 2,

Block diagram of the control of a franking machine,

Figure 3,

Flowchart for communication by modem,

Figure 4,

Flowchart for communication by voice,

Figure 5,

Flow chart for semi-automatic communication via modem,

Figure 6,

Flow diagram for an alternative communication.

1 shows a perspective view of a franking machine of type JetMail® shown from the rear right. This franking machine exists from a meter 1 and a base 2. The latter is with a chip card read / write unit 70 equipped behind the guide plate 20 arranged and accessible from the upper housing edge 22. To the switching on of the franking machine by means of the switch 71 is a Chip card 49 inserted from top to bottom in the slot 72. A fed letter 3 standing on the edge, with his to printing surface rests on the guide plate, is then according to the input data with at least one franking stamp 31 and a city stamp 32 printed. The letter feed opening will laterally limited by a transparent plate 21 and the guide plate 20.

FIG. 2 shows a block diagram of a franking machine which is equipped with a chip card read / write unit 70 for reloading change or. User data or customer data via chip card and equipped with a printing device 2, which is controlled by a control device 1. The control device 1 has a main board 9 equipped with a microprocessor 91 with associated memories 92, 93, 94, 95. The program memory 92 contains an operating program for printing at least and security-relevant components of the program for a predetermined format change of part of the user data.
The RAM 93 is used for the temporary storage of intermediate results. The non-volatile memory NVM 94 is used for the non-volatile temporary storage of data, for example statistical data, which are arranged according to cost centers. The calendar / clock module 95 likewise contains addressable but non-volatile memory areas for the non-volatile intermediate storage of intermediate results or also known program parts (for example for the DES algorithm). It is provided that the control device 1 is connected to the chip card read / write unit 70, the microprocessor 91 of the control device 1 being programmed, for example, to load the useful data N from the memory area of a chip card 49 for use in corresponding memory areas of the franking machine . A first chip card 49 inserted into an insertion slot 72 of the chip card read / write unit 70 allows a data record to be reloaded into the franking machine for at least one application. The chip card 49 contains, for example, the user data for setting a cost center.

The control device 1 forms the actual meter with the means 91 to 95 of the aforementioned main board 9 and also includes a keyboard 88, a display unit 89 and an application-specific circuit ASIC 90 and interface 8 for the postal security module PSM 100. The safety module PSM 100 is connected to the aforementioned ASIC 90 and the microprocessor 91 and via the parallel µC bus with at least the means 91 to 95 of the main board 9 and connected to display unit 89. The control bus carries cables for the signals CE, RD and WR between the safety module PSM 100 and the aforementioned ASIC 90. The microprocessor 91 points preferably a pin for one from the PSM 100 security module issued interrupt signal i, further connections for the keyboard 88, a serial interface S1-1 for the connection of the chip card read / write unit 70 and a serial interface Sl-2 for the optional connection of a MODEM. Using the MODEM can for example in the non-volatile memory of the postal Security funds PSM 100 stored credit can be increased.

The postal security device PSM 100 is secured by a Enclosed housing. Before each franking imprint is made in the postal Security module PSM 100 performed a hardware accounting. Billing takes place independently of cost centers. The postal The PSM 100 safety module can be designed internally as in European application EP 789 333 A3 has been described in more detail.

Alternatively, a variant can also be implemented without a PSM 100 postal security module. In such a variant, processor 91 takes over the tasks of the security module.
It is provided that the ASIC 90 has a serial interface circuit 98 to a device upstream in the mail stream, a serial interface circuit 96 to the sensors and actuators of the printing device 2, a serial interface circuit 97 to the pressure control electronics 16 for the print head 4 and a serial interface circuit 99 to one the printing device 20 in the mail stream downstream device. DE 197 11 997 shows an embodiment variant for the peripheral interface, which is suitable for several peripheral devices (stations). It has the title: Arrangement for communication between a base station and other stations of a mail processing machine and for their emergency shutdown. The interface circuit 96 coupled to the interface circuit 14 located in the machine base provides at least one connection to the sensors 6, 7, 17 and to the actuators, for example to the drive motor 15 for the roller 11 and to a cleaning and sealing station RDS 40 for the ink jet print head 4 , as well as the label provider 50 in the machine base. The basic arrangement and the interaction between inkjet print head 4 and the RDS 40 can be found in DE 197 26 642 C2, with the title: Arrangement for positioning an inkjet print head and a cleaning and sealing device.

One of the sensors 7, 17 arranged in the guide plate 20 is the Sensor 17 and is used to prepare the print release when transporting letters. The sensor 7 is used to detect the start of a letter for the purpose of triggering pressure when transporting letters. The transport device consists of a conveyor belt 10 and two rollers 11, 11 '. One of the reels is that equipped with a motor 15 drive roller 11, another is idler roller 11 '. Preferably, the drive roller 11 is as Toothed roller executed, the conveyor belt 10 is accordingly as Toothed belt executed, which ensures the clear power transmission. On Encoder 5, 6 is coupled to one of the rollers 11, 11 '. Preferably the drive roller 11 with an incremental encoder 5 sits firmly on one Axis. The incremental encoder 5 is, for example, a slotted disc executed, which interacts with a light barrier 6, and passes the line 19 from an encoder signal to the main board 9. The The basic structure of the printing device has already been described, for example, in DE 196 05 014 C1 and DE 196 05 015 C1 explained in more detail.

It is provided that the individual print elements of the print head are connected to print electronics within its housing and that the print head can be controlled for purely electronic printing. The print control takes place on the basis of the path control, taking into account the selected stamp offset, which is entered via the keyboard 88 or, if necessary, via a chip card and is stored in the non-volatile memory NVM 94. A planned imprint thus results from stamp offset (without printing), the franking print image and, if necessary, further print images for advertising slogan, shipping information (optional prints) and additional editable messages. The NVM 94 non-volatile memory has a plurality of memory areas. These include those that store the loaded postage fee tables in a non-volatile manner.
The chip card read / write unit 70 consists of an associated mechanical carrier for the microprocessor card and contacting unit 74. The latter allows the chip card to be securely mechanically held in the reading position and unambiguously signaled that the reading position of the chip card has been reached in the contacting unit. The microprocessor card with the microprocessor 75 has a programmed reading ability for all types of memory cards or chip cards. The interface to the franking machine is a serial interface according to the RS232 standard. The data transfer rate is min. 1.2 K baud. The power supply is switched on by means of a switch 71 connected to the main board. A self-test is carried out after the power supply is switched on. A requirement for automatic installation can be determined. A readiness message appears after the installation.
The modem 83 is particularly advantageous for reloading credit, but is also used according to the invention to load further user and customer data. Usually, the reloading tasks to be carried out are divided so that one part can be carried out by modem and another part by chip card. A mixed procedure is also possible, which works simultaneously with a chip card and with voice communication by telephone. The latter allows you to top up your credit. Of course, the required print image data cannot be transmitted by voice, but is stored in the chip card, which is sent to the customer. The latter has to wait for their receipt.
It is particularly advantageous if the first-time installation is made possible by modem, because then the waiting times are minimal and because the automatic installation can also be coupled with a credit recharge.

• erste Kommunikation, mit Kommunikation der Frankiermaschine mit der Datenzentrale, umfassend ein Senden 320 der Anforderungsdaten, um die Nutz- und Kundendaten von der Datenzentrale anzufordern, mit Kommunikation der Datenzentrale mit der Frankiermaschine, umfassend ein Empfangen 220 der Anforderungsdaten in der Datenzentrale und umfassend ein Senden 225 der angeforderten Nutz- und Kundendaten an die Frankiermaschine, und mit Kommunikation, umfassend einen Schritt 325 zum Empfangen und Speichern der angeforderten Nutz- und Kundendaten, sowie
• zweite Kommunikation, mit Kommunikation 330 der Frankiermaschine mit der Datenzentrale, umfassend eine Übermittlung einer Information von der Frankiermaschine zur Datenzentrale, welche auf die gespeicherten Nutz- und Kundendaten bezogen ist, mit Kommunikation der Datenzentrale mit der Frankiermaschine, umfassend einen Schritt 230 zum Empfangen und Prüfen der Information in der Datenzentrale mittels einer aus den Nutz- und Kundendaten generierten Vergleichsinformation und umfassend einen Schritt 235 zum Senden einer OK-Meldung an die Frankiermaschine und mit Empfangen 335 einer OK-Meldung in der Frankiermaschine und Abgabe einer Bereitschaftsmeldung.

FIG. 3 shows a flow chart for communication between the franking machine and a remote data center via modem and communication network, which enables the first-time installation solely by modem. Prior to starting step 200, the franking machine in which machine data was stored was produced. This includes the franking machine serial number and other identification data. In addition to the identification data ID, a secret franking machine-specific basic key BKEK is also generated and preferably stored in a non-volatile memory area of the franking machine which is secured against readout, preferably in the postal security module PSM. The secret basic key BKEK later enables the decryption of encrypted messages which are exchanged during communication with a key distribution center KDC in order to obtain session keys SK. Such session keys SK can be changed at intervals and are used to exchange encryption keys KEK, which are changed from communication to communication. The KEK is the key, for example, for DES encryption (Data Encryption Standard). When the franking machine is pre-initialized, a simplified key (without a key distribution center KDC) can of course store a start key KEK, which is required for initial communication with the data center, at least for reloading the credit. At the same time as the pre-initialization of the franking machine, a code is also generated according to a method to be kept secret. In step 200, a mirror data record associated with the aforementioned machine data is transmitted to the generated code and stored in the database DB of the data center (210). The code can be a number code, for example. After completion of this first phase a, the franking machine produced can be sold and sold by the dealer. When selling, phase b begins with collecting customer data from the dealer, who also knows the number code. After the data transmission (phase b), in phase c the customer data assigned to the number code is stored in the database DB of the data center. The service of the latter now consists in providing machine, user and customer data in such a way that the postage meter machine also receives at least the user data required for franking when a credit is loaded for the first time. If the buyer starts his franking machine by switching on (font 300) and, as a result of a self-test (font 308), an inquiry is recognized in query font 309, an automatic installation routine runs in the franking machine. The required user data are prescribed by the postal carrier regulations and include at least the print image data for a stamp with temporary and local data (for example a location-specific city stamp) and a carrier-, area- or country-specific value stamp. In the first font 310 of the automatic installation routine, request data for such useful and other customer data, such as advertising slogan data, is formed. In phase d, the data record is then transmitted to the franking device after receipt of the corresponding request data, which is explained in more detail using the following steps:

• first communication, with communication of the postage meter machine with the data center, comprising sending 320 the request data in order to request the user and customer data from the data center, with communication of the data center with the postage meter machine, including receiving 220 the request data in the data center and comprising sending 225 of the requested user and customer data to the franking machine, and with communication, comprising a step 325 for receiving and storing the requested user and customer data, and
• second communication, with communication 330 of the postage meter machine with the data center, comprising a transmission of information from the postage meter machine to the data center, which is related to the stored user and customer data, with communication of the data center with the postage meter machine, comprising a step 230 for receiving and checking the information in the data center by means of comparison information generated from the user and customer data and comprising a step 235 for sending an OK message to the franking machine and receiving 335 an OK message in the franking machine and issuing a readiness message.

It is intended to be used in conjunction with sending an OK message a registration (font 240) of the service in the data center and that when the OK message is received in the franking machine marking the stored data as valid is registered as Note that in the data center the service for payment was registered. In the non-volatile memory of the franking machine for the purpose of marking either a bit is set in a secure area or appropriate ones are secured by means of a signature or MAC Data saved. The information to be checked is, for example Checksum or an encrypted checksum of the transmitted Data.

• die Maschinennummer, die auf der Postkarte schon aufgedruckt bzw. aufgeklebt sein kann,
• die Adresse des Aufstellortes der Maschine mit Postleitzahl (PLZ),
• das vom Käufer bzw. Bediener aus einer Vielzahl ausgewählte eine gewünschte StandardKlischée.

FIG. 4 shows a flow diagram for communication between the franking machine and a remote data center by voice and vice versa by voice and data carrier. During the manufacture of the franking machine in which machine data have been stored, a mirror data record for the aforementioned machine data is stored in a data carrier. At the same time as the pre-initialization of the franking machine, a code is also generated according to a method to be kept secret. This is also stored in the data carrier, for example a floppy disk or chip card, assigned to the mirror data record. The data carrier is transported to the data center (service center) in order to store the data in the database DB. After the start 400, a mirror data record relating to the aforementioned machine data and associated with the generated code is therefore stored in the database DB of the data center in the script 410. The code can, for example, again be a number code. The database DB is connected to a chip card writing unit via a server. After completion of this first phase a, the franking machine produced can be sold and sold by the dealer. The customer-specific data record can be delivered to the buyer of an associated franking machine via a chip card or another modern medium. When selling, phase b begins with the collection of customer data at the dealer, who also knows the number code. In phase c, the dealer stores the recorded customer data assigned to the number code in the database DB of the data center. The service of the latter now consists in providing machine, user and customer data in such a way that the franking machine receives at least the user data required for franking when a credit is loaded for the first time. The buyer simply pays for the machine in the department store and takes it home. From there he may send an enclosed postcard, on which further information will be forwarded to the manufacturer FP:

• the machine number, which can already be printed on the postcard,
• the address of the installation location of the machine with postcode (zip code),
• the desired standard cliché selected from a large number by the buyer or operator.

Town Circle" und des länderspezifischen Wertstempels in einem Datensatz zusammengestellt.
Wenn der Bediener (Käufer) durch Einschalten seine Frankiermaschine startet (Schrift 500) und im Ergebnis eines Selbsttestes (Schrift 508) im Abfrageschrift 509 ein Erfordernis erkannt wird, dann läuft in der Frankiermaschine eine automatische Installationsroutine ab. Die benötigten Nutzdaten sind durch die Postbeförderervorschriften vorgeschrieben und umfassen mindestens die Druckbilddaten für einen standortspezifischen Städtestempel und einen carrier-, bereichs- oder länderspezifischen Wertstempel. In einem ersten Schritt 520 der automatischen Installationsroutine erfolgt ein Anruf des Bedieners bei der Datenzentrale und Übermitteln des Nummerncodes per Voice-Verfahren. Alternativ kann auch ein abgeschickter Brief den Nummerncode übermitteln.If this customer information has already been entered by the dealer under a number code, it is sufficient to enter the number code. In addition, he issues a direct debit authorization for services provided by the data center with his signature. A double of the postcard goes to the bank, which certifies the authenticity of the signature and the creditworthiness of the customer. After a positive decision from the bank to the dealer or the operator of the database or franking machine manufacturer, the customer data are assigned to the data record in the data center. For this customer, the data of any advertising clichés selected, the city stamp

Town Circle "and the country-specific stamp in a data set.
If the operator (buyer) starts his franking machine by switching on (font 500) and, as a result of a self-test (font 508), a requirement is recognized in query font 509, an automatic installation routine runs in the franking machine. The required user data are prescribed by the postal carrier regulations and include at least the print image data for a location-specific city stamp and a carrier-, area- or country-specific value stamp. In a first step 520 of the automatic installation routine, the operator calls the data center and transmits the number code using the voice method. Alternatively, a sent letter can also transmit the number code.

After the franking machine operator communicates for the first time the data center, comprising transmitting 520 the number code, to request the user and customer data from the data center, phase d begins. A transmission then takes place in phase d To the operator of the Franking device to the franking location, for example by sending a chip card. The data carrier (chip card) also contains one towards the transmitting information related to user and customer data. First takes place as part of the first communication between the data center and the Operator of the franking machine, receiving 420 the number code in the data center and storing the requested user and Customer data in a data carrier including its sending 425 to the operator of the franking machine. The latter is waiting for inbox of the data carrier, comprising a step 525 for receiving and Storage of the requested user and customer data in the Franking machine. A second operator voice communication 530 the franking machine with the data center comprises a transmission information from the operator of the franking machine to the data center, which is related to the stored user and customer data. In the second communication, comprising a step 430 for receiving, the information in the data center is also checked using a comparison information generated from the user and customer data and comprising a step 435 for transmitting a voice message to the operator of the franking machine, whereby in connection with the Register the voice message in the data center (Step 440) the service is performed. After receiving 535 the voice message is entered into the franking machine and at proper installation the submission of a readiness message.

FIG. 5 shows a flow diagram for semi-automatic communication via modem. If after the self-test 508 on the side of the Postage meter 509 recognizes that an installation is required a message is sent to the operator in document 510 the user and customer data, which can still be reloaded. At the same time input by the operator is possible, which is why the latter step hereinafter also input 510 is called. The difference to The variants already explained is that after the input step 510 in the transmission step 520 from the franking machine next to the entered further customer requests or the number code Information is transmitted to the data center, based on which in the latter additional data can be added to the data record. For example are only the data for the city and value stamp at the dealer has been agreed and the operator decides only at the installation site for an additional advertising cliché, which he for example from a Select or compile catalog. The selected cliché or Cliché parts are assigned codes that are transmitted in step 520 as further data can be transmitted to the data center. The user interface 88, 89 is for executing a corresponding operator input fitted. After receiving in step 420 from the corresponding additional data and the number code is at least in a further step 421 from the data center carried out when both the agreed payment mode, as well the user and customer data already stored in the data record allow such. Steps 510 and 520 on the franking machine side and steps 420 and 421 on the data center side can - in a manner not shown - run repeatedly, according to the Variety of possible entries. A number of others - not shown - steps 422 to 424 are optionally provided to iteratively that Check and complete the data set before sending. It is further contemplated that the data center each or at least one of the entries is acknowledged. This can be done with an OK message take place, which is transmitted to the franking machine. The grasping Further customer data (phase b) is then carried out by the data center immediately before the franking machine is installed for the first time.

Of course, this requires a number of user data that are stored in the database of the data center in order to be able to make a selection therefrom with regard to the user data that the customer requests as customer data in the context of the first communication. The data center then stores and provides customer data assigned to the number code (phases c and d) immediately before the franking machine is installed for the first time.
In the borderline case, only the mirror data record is first stored in step 410 in the data center. However, all other customer data recorded, stored and provided in phases b), c) and d) are only added after the franking machine has been purchased during the first communication by modem (steps 420, 421).

• erste Kommunikation der Datenzentrale mit einer Frankiermaschine, umfassend ein Versenden (Schritt 425) des Datenträgers (49) mit den angeforderten Nutz- und Kundendaten an die Frankiermaschine,
• Durchführung eines Schrittes (525) zum Laden und Speichern der angeforderten Nutz- und Kundendaten in der Frankiermaschine und
• zweite Kommunikation (Schritt 530) der Frankiermaschine mit der Datenzentrale, umfassend eine Übermittlung einer Information von der Frankiermaschine zur Datenzentrale, welche auf die gespeicherten Nutz- und Kundendaten bezogen ist.

FIG. 6 shows a flowchart for an alternative communication between the franking machine and a remote data center and vice versa and using a data carrier. The steps are essentially the same as in the variant according to FIG. 4. In contrast to the variant according to FIG. 4, steps 420 and 520 are omitted, since the data center is informed by the dealer which buyer needs which data, so that the chip card is sent immediately after providing the machine, user and customer data. The franking machine then naturally has a corresponding chip card reading unit. Of course, the alternative communication for confirming receipt at the franking location can also take place via other communication and transmission means. In contrast to the variant according to FIG. 4, steps 435 and 535 are also omitted since the data center registers every action, but also one that has not been carried out, and thus there is sufficient monitoring of user behavior. The process then comprises the following steps:

• first communication of the data center with a franking machine, comprising sending (step 425) the data carrier (49) with the requested user and customer data to the franking machine,
• Execution of a step (525) for loading and storing the requested user and customer data in the franking machine and
• second communication (step 530) of the franking machine with the data center, comprising a transmission of information from the franking machine to the data center, which is related to the stored user and customer data.

Between the aforementioned step 530 and the readiness message in Step 540 can be further steps 536 to 539, not shown, which in connection with reloading a credit into the Franking machine can be performed standing. The latter can in itself known way, the postal register and others Non-volatile memory registers are queried. As part of such a query, the information can also be queried, which in There is a connection with the loaded user and customer data.

The arrangement for performing the method is characterized by this that a processor 91 or a security module 100 of a franking device programmed to perform a self-test to determine whether to perform an automatic installation or in the event a previous installation cannot be carried out, a store a customer-specific data record in non-volatile memory 94 and a ready message for franking after successful installation of a customer-specific data record or a Submit readiness report after non-implementation. In the latter The case can be assumed that the installation was carried out earlier. The Processor 91 or the security module 100 of a franking device programmed to generate and send request data for loading, to request the user and customer data from the data center received and saved, and an additional transmission of a Carry out information from the franking machine to the data center, which is related to the stored user and customer data, and to receive an OK message before submitting the Readiness message.

It is provided that the franking device includes a franking machine an internal printer or a PC franking machine with an external one Printer is. In the case of the PC franker, communication is via Modem and INTERNET particularly suitable.

Alternatively, processor 91 or security module 100 of the franking device programmed to load a customer-specific data record from a chip card 49 and storage in the non-volatile memory 94 to make. Charging is through a voice communication or accompanied other suitable communication with the data center, whereby the data center checks information that relates to the stored customer-specific data record.

The invention is not limited to the present embodiment, since obviously other other implementations of the invention are being developed or can be used, the same basic idea of Invention based on the appended claims become.

Claims (17)

Method for the automatic installation of franking devices in which machine data were stored during manufacture, characterized by the following steps: a) storing a mirror data record corresponding to the machine data impressed in the franking device and assigned a number code in the data center, b) transmission of recorded customer data from a sold franking device to the data center, c) storing the customer data in the data center assigned to the number code, d) providing a machine-specific and customer-specific data record in the data center assigned to the number code, the data record comprising at least data for a specific stamp with temporary and local data, and e) Transmission of the data record to the franking location after receipt of corresponding request data or inputs. Method according to Claim 1, characterized in that the data record is transmitted to a franking device set up at the franking location. Method according to Claim 2, characterized in that the data record is transmitted by modem, the request data being formed in the franking device and transmitted to the data center by modem. Method according to claim 1, characterized in that the data record is transmitted to an operator of a franking device at the franking location by data carrier. Method according to claim 4, characterized in that the transmission of the data record is accompanied by voice communication with the data center. Method according to claims 1 to 5, characterized in that the data center, which is designed as a special service center with a data update server (DS) and database (DB), also transmits further configuration data, information and / or postage fee table data. Method according to claims 1 to 6, characterized in that the transmission of the data record takes place in connection with a credit reload. Method according to claims 4 to 5, characterized in that the transmission of the customer-specific data record takes place by sending the data carrier if the number code has previously been transmitted to the data center. Method according to claims 1 to 3, characterized in that the data record is transmitted by modem, a message being generated to the operator in the franking device for the input of further data, which are then transmitted by modem to the data center by one request customer-specific data record. Method according to claim 7, characterized in that if the franking device loads a credit in advance of its use, additional request data is generated in order to request a customer-specific data record. Method according to claims 1 to 3, characterized by the steps: first communication, with communication of the postage meter machine with the data center, comprising sending (320) the request data in order to request the user and customer data from the data center, with communication of the data center with the franking machine, comprising receiving (220) the request data in the data center and comprehensively sending (225) the requested user and customer data to the franking machine, with communication, comprising a step (325) for receiving and storing the requested user and customer data in the franking machine, and second communication, with communication (330) of the franking machine with the data center, comprising a transmission of information from the franking machine to the data center, which is related to the stored user and customer data, with communication of the data center with the franking machine, comprising a step (230) for receiving and checking the information in the data center by means of comparison information generated from the user and customer data and comprising a step (235) for sending an OK message to the franking machine, and with receiving (335) an OK message in the franking machine and issuing a readiness message. Method according to claim 4, characterized by the steps: first communication of the data center with a franking machine, comprising sending (425) the data carrier with the requested user and customer data to the franking machine, Execution of a step (525) for loading and storing the requested user and customer data in the franking machine and second communication (530) between the franking machine and the data center, comprising the transmission of information from the franking machine to the data center that relates to the stored user and customer data. Arrangement for performing the method according to claim 1, characterized in that a processor (91) or a security module (100) of a franking device is programmed, perform a self-test to determine whether an automatic installation is to be carried out or, in the case of an earlier installation, is not to be carried out, load a customer-specific data record into a non-volatile memory (94) and submit a readiness message for franking. Arrangement according to claim 13, characterized in that the processor (91) or a security module (100) of a franking device is programmed to form and send request data for loading in order to request the user and customer data from the data center, to receive the latter and to save, and to carry out an additional transmission of information from the franking machine to the data center, which relates to the stored user and customer data, and to receive an OK message before the readiness message is issued. Arrangement according to claim 13, characterized in that a processor (91) or a security module (100) of the franking device is programmed to load a customer-specific data record from a chip card (49) and store it in the non-volatile memory (94) of the franking device. Arrangement according to claim 15, characterized in that the loading is accompanied by voice communication with the data center, with information being checked by the data center which relates to the customer-specific data record stored in the franking machine. Arrangement according to claims 13 to 16, characterized in that the franking device is a franking machine with an internal printer or a PC franking machine with an external printer.

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