EP1319625B1 - Apparatus and method for modernising an elevator system - Google Patents

Description

The invention relates to a device and a system for modernizing a Elevator installation according to the definition of the claims.

Elevators for the transport of persons / goods are relatively durable Capital goods with lifetimes of 20 years and more. If after such a thing long overhaul of an elevator system is pending, so are the Components of the elevator system technologically often obsolete, resulting in a more or less requires complete replacement of the components. Such an exchange of Components of an elevator system will be referred to in the following modernization. Often done the modernization is staggered over time, with control units and in a first stage Elevator cabins will be modernized while in another stage in the Engine room drives will be modernized and in a final stage in the individual Floors callers to be modernized.

The document US Pat. No. 5,352,857 is considered to be the closest prior art for the purposes of the invention Technology. US 5,352,857 discloses a method for modernizing a Lift system. The elevator system consists of a group of elevators, which in one Transporting buildings to users, each elevator being controlled by an elevator control becomes. To the transport capacity of the elevator system during modernization Maintain the modernization is modular and in temporal stages carried out. A first method step is a group control and install several adapter units. The adapter units are connected to the Elevator controls installed and mediate between the individual Elevator controls and the new group control. In this way one becomes Formed a communication network, which controls the individual lifts on the new group control allowed. In further process steps are - too free selectable later times - existing lift system components to modules summarized. Then existing lift system components - such as the Drive in the engine room, the floor callers in the floors, etc. - selected and removed by module and by new, appropriate Lift system components replaced. When all modules have been replaced, in a further step, the elevator controls and the adapter units removed and replaced by a security system interface to the individual elevators over to control the security system interface of the group control.

A disadvantage of this method of modernization of an elevator system is that the Transport capacity of the elevator system during modernization at best It is maintained that modular modernization will take longer can and that the process is material-consuming and therefore expensive to implement.

In many cases, a modernization of a lift system but also to an increase To effect the efficiency of the elevator system or the ride comfort for the users to increase. So users want to be promoted as quickly and directly, long Waiting times or a change is perceived as unpleasant. Also intended for the User acceleration and deceleration of the elevator car can hardly be felt.

A first object of the invention is to provide a device and a system, already during the modernization of an elevator system, the efficiency of Increase elevator system or to increase the ride comfort for the user. A Another object of the invention is inexpensive, this device and this system and to realize quickly. Finally, the invention with proven standards of Mechanical engineering and the electronics industry.

These objects are achieved by the invention as defined in the claims solved.

According to the invention, a building located in a building and to be modernized Elevator installation as part of preparatory work for the modernization of the Lift system upgraded with a destination call control. The destination call controller points at least one floor terminal on which floor terminal in one floor is mounted. At the floor terminal, a user inputs a destination announcement Floor terminal, an identification code of a user is detected. The Destination call control registers the boarding floor and the one with a single destination message desired destination floor or assigns a detected in a boarding floor Identification code automatically adds a destination floor. A destination message includes thus information about both the boarding floor, as well as the destination floor. By the destination call control makes traditional call announcements superfluous, which call announcement contain only one piece of information, for example only one boarding stall or only one Report the destination floor to an elevator control. In particular, avoids the Destination call control that a user in a boarding stall at a Floor caller must enter a first call message to a lift to To call boarding platform, and then in the elevator car to a car call station must enter a second call message to specify a destination floor.

The destination call control has at least one arithmetic unit, which arithmetic unit the Destination messages are evaluated or users are clearly identified by means of identification codes identifies and identifies users to a predetermined destination floor. In This evaluation of destination messages or assignment of identification codes include further information, such as information about the building or Information about the current user traffic. According to a funding result is each elevator assigned an elevator and the user so in no time or with greatest driving comfort, for example, with low waiting times or as possible without changing transported a destination floor.

The destination call control controls an existing elevator control of the to be modernized Elevator installation via at least one device. The device has one mediating function, by the calculated by the processing unit delivery result in converts at least one call message to the elevator control. The arithmetic unit transmits at least one target signal to the device, which target signal from the Device is converted into at least one call message, with which call message the Elevator control is controlled. In this way, the to be modernized Elevator system will be upgraded with a destination call control and will continue with operated the existing elevator control according to paging messages.

The device documents the behavior of the elevator control as at least one Time profile. The elevator control is considered as a kind of black box, whose behavior becomes predictable in a learning process. This will be at least one Signal of the elevator control tapped and its time course as a travel time profile documented. The trip profile contains information such as the acceleration, Speed and deceleration of the elevator car as a function of the length of the Conveyor line, the cabin load, etc .. Advantageously, a large number of Travel time profiles documented.

Another embodiment of a modernization device is a computer program product which Computer program product analyzes the travel profile and information about the Elevator installation as at least one leading selector provides. The anticipatory Selector indicates for a moving elevator car that floor on which the Elevator car could still stop. To determine the leading selector compares the computer program product the time course of the currently tapped Signals with timetable profiles and selects that timetable profile, which Travel time profile the time course of the currently tapped signal on most likely reproduces or largely reproduces. Advantageously, for Each elevator of the elevator system is a leading selector in continuous Time intervals updated and transmitted to the destination call control. This updated leading selector flows as further information in the evaluation of the Delivery result by the arithmetic unit. The leading selector allows a rapid assignment of a user to an elevator car and thus reduces waiting times the user. Also, the leading selector allows the elevator car barely noticeably accelerated or decelerated and thus guarantees a high level of ride comfort for the user. The documentation of a large number of travel time profiles allows an accurate determination of the leading selector and optimizes the efficiency of the Lift system.

The upgrade of the elevator system with a destination call control is fast, for example. Within less hours, for example. In times of low utilization of the elevator system feasible. For this purpose, the elevator control via at least one electrical line with the Device connected. The floor terminal is mounted and the arithmetic unit becomes Installed. The system consists of floor terminal, arithmetic unit and device that are connected to each other via at least one data bus. The individual components of the system are standardized and inexpensive to produce.

The elevator system prepared in such a way for the modernization is simple and uncomplicated to modernize. By making the preparatory work traditional Calls have become obsolete and that the efficiency of the elevator system has been increased, can lift system without disadvantages for users modernize. Advantageously, an elevator system with several elevators in Modular modernization of at least one process step. In contrast to the state of Technique according to the document US 5 352 857 are elevator installation components but not combined into modules and in each step such a Module of the elevator system modernized, but per process step is at least one Elevator largely completely modernized. Advantageously, in a Process step modernizes an elevator car of a lift, driving this Elevator modernized, the conveyor rope of this elevator modernized, the elevator control This elevator has been modernized and the device of this elevator is removed.

Fig. 1

zeigt einen Teil einer zu modernisierenden Aufzugsanlage,

Fig. 2

zeigt einen Teil der Aufzugsanlage gemäss Fig. 1 nach Abschluss von Vorbereitungsarbeiten zur Modernisierung, und

Fig. 3

zeigt eine schematische Darstellung eines Teils einer Vorrichtung.

In the following the invention will be explained in detail with reference to exemplary embodiments according to FIGS. 1 to 3:

Fig. 1

shows a part of an elevator system to be modernized,

Fig. 2

shows a part of the elevator system according to FIG. 1 after completion of preparatory work for modernization, and

Fig. 3

shows a schematic representation of a part of a device.

Fig. 1 shows a part of an exemplary embodiment of a to be modernized Elevator installation 1, with at least one elevator 10, 10 ', 10 ", which elevator 10, 10', 10 "is controlled by at least one elevator control 14, 14 ', 14' Elevator installation 1 is, for example, in a building 2 with floors 21, 21 ', 21 "mounted and serves the transport of users such as persons or goods from a floor 21, 21 ', 21 "to another floor 21, 21', 21". The building 2 has, for example, three Floors 21, 21 ', 21 "on which three floors 21, 21', 21" on the elevator system 1 are accessible.

The elevator installation 1 has, for example, two elevators 10, 10 ', which elevators 10, 10', for example. are arranged parallel to each other. Each elevator 10, 10 'has an elevator car 11, 11 ', which elevator car 11, 11', for example, on a hoist rope 9, 9 'hanging over a drive 12, 12 'from one floor 21, 21', 21 "to another floor 21, 21 ', 21 ". The vertical conveying direction of the elevators 10, 10' is shown in FIG. 1 and 2 indicated by a double-headed arrow.

The drive 12, 12 'is controlled by the elevator control 14, 14', wherein known Way at least one setpoint is generated, at least one control function is present and at least one start or at least one stop is realized. The current position an elevator car 11, 11 'is, for example, via at least one displacement sensor 24, 24', 24 ", 25, 25 ', 25" detected and as at least one path signal to the elevator control 14, 14 'transmitted. For example. is in each floor 21, 21 ', 21 "a first displacement transducer 24, 24 ', 24 "mounted for a first lift 10 and it is in each floor 21, 21', 21" a second displacement sensor 25, 25 ', 25 "for a second elevator 10' mounted.

The users arrive via access means into or out of the elevator car 11, 11 '. For example. the users arrive at each floor 21, 21 ', 21 "via an access means Shape of a storey door into or out of the elevator car 11, 11 '. For example. rejects the Elevator car 11, 11 'an access means in the form of an elevator car door, through Which elevator car door the users in and out of the elevator car 11, 11 ' reach. In the elevator car 11, 11 'is the user via at least one Cabin display 15, 15 ', the current position of the elevator car 11, 11' is displayed.

The elevator installation 1 is operated by users outside the elevator car 11, 11 '. via at least one floor call generator 22, 22 ', 22 ", 23, 23', 23", which Floor call generator 22, 22 ', 22 ", 23, 23', 23", for example, in one floor 21, 21 ', 21 " is arranged next to the elevator installation 1 and which floor call generator 22, 22 ', 22 ", 23, 23 ', 23 "has at least one input means for inputting a first call message. For example. is in each floor 21, 21 ', 21 "a first floor callers 22, 22', 22" Located next to the landing door of the first elevator 10 and it is on each floor 21, 21 ', 21 "a second floor caller 23, 23', 23" next to the landing door of second elevator 10 'arranged.

The elevator installation 1 is operated by users in the interior of the elevator car 11, 11 '. via at least one car pager 12, 12 ', 12 ", which car pager 13, 13' has at least one input means for inputting a second call message. These Traditional paging messages contain a single piece of information. For example. gives the first Call notification a promotion goal direction (upwards or downwards) or a Einsteigestockwerk at. For example. the second call message indicates a destination floor.

• Bspw. ist der Stockwerkrufgeber 22, 22', 22", 23, 23', 23" über mindestens eine elektrische Stockwerkrufgeber-Leitung 16, 16' mit mindestens einem Eingang der Aufzugssteuerung 14, 14' verbunden und ermöglicht so die Übermittlung einer ersten Rufmeldung an die Aufzugssteuerung 14, 14'.
• Bspw. ist der Kabinenrufgeber 13, 13' über mindestens eine elektrische Kabinenrufgeber-Leitung 18, 18' mit mindestens einem Eingang der Aufzugssteuerung 14, 14' verbunden und ermöglicht so die Übermittlung einer zweiten Rufmeldung an die Aufzugssteuerung 14, 14'.
• Bspw. ist der Wegaufhehmer 24, 24', 24", 25, 25', 25" über mindestens eine elektrische Wegaufnehmer-Leitung 17, 17' mit mindestens einem Eingang der Aufzugssteuerung 14, 14' verbunden und ermöglicht so die Übermittlung einer Wegsignals an die Aufzugssteuerung 14, 14'.
• Bspw. ist der Antrieb 12, 12' über mindestens eine elektrische Antriebleitung 19, 19' mit mindestens einem Ausgang der Aufzugssteuerung 14, 14' verbunden und ermöglichen so die Übermittlung eines Sollwertes an den Antrieb 12, 12'.
• Bspw. ist der Kabinenanzeiger 15, 15' über mindestens eine elektrische Kabinenanzeiger-Leitung 20, 20' mit mindestens einem Ausgang der Aufzugssteuerung 14, 14' verbunden und ermöglichen so die Übermittlung mindestens eines Anzeigesignals an den Kabinenanzeiger 15, 15'.

The various components of the elevator installation 1 such as floor callers 22, 22 ', 22 ", 23, 23', 23", car callers 13, 13 ', position sensors 24, 24', 24 ", 25, 25 ', 25", elevator control 14, 14 ', drive 12, 12' and cabin display 15, 15 'are connected to each other via at least one electrical line:

• For example. the floor call pager 22, 22 ', 22 ", 23, 23', 23" is connected to at least one input of the elevator control 14, 14 'via at least one electrical floor pager line 16, 16' and thus enables the transmission of a first call message to the Elevator control 14, 14 '.
• For example. is the car pager 13, 13 'via at least one electrical car caller line 18, 18' connected to at least one input of the elevator control 14, 14 'and thus allows the transmission of a second call message to the elevator control 14, 14'.
• For example. the Wegaufhehmer 24, 24 ', 24 ", 25, 25', 25" connected via at least one electrical Wegaufnehmer line 17, 17 'with at least one input of the elevator control 14, 14' and thus allows the transmission of a path signal to the elevator control 14, 14 '.
• For example. the drive 12, 12 'is connected to at least one output of the elevator control 14, 14' via at least one electrical drive line 19, 19 'and thus enables the transmission of a desired value to the drive 12, 12'.
• For example. is the car indicator 15, 15 'at least one electrical car indicator line 20, 20' connected to at least one output of the elevator control 14, 14 'and thus enable the transmission of at least one display signal to the car indicator 15, 15'.

These paging messages, this path signal, this setpoint and this indication signal are For example, analog electrical signals of defined current, voltage, frequency, time length, etc ..

• Ein Benutzer betätigt in einem Einsteigestockwerk einen Stockwerkrufgeber 22, 22', 22", 23, 23', 23".
• Gemäss einer ersten Rufmeldung, die über eine elektrische Stockwerkrufgeber-Leitung 16, 16' an die Aufzugssteuerung 14, 14' übermittelt wird, steuert die Aufzugssteuerung 14, 14' einen Antrieb 12, 12' an und bewegt eine Aufzugskabine 11, 11' zum Einsteigestockwerk.
• Nachdem die Aufzugskabine 11, 11' das Einsteigestockwerk erreicht hat, steigt der Benutzer in die Aufzugskabine 11, 11' ein und betätigt einen Kabinenrufgeber 13, 13'.
• Gemäss einer zweiten Rufmeldung, die über eine elektrische Kabinenrufgeber-Leitung 18, 18' an die Aufzugssteuerung 14, 14' übermittelt wird, steuert die Aufzugssteuerung 14, 14' den Antrieb 12, 12' an und bewegt die Aufzugskabine 11, 11' vom Einsteigestockwerk zum Zielstockwerk.
• Nach Erreichen des Zielstockwerkes steigt der Benutzer aus der Aufzugskabine 11, 11'.

The operation of the elevator installation 1 functions, for example, as follows:

• A user actuates a floor call generator 22, 22 ', 22 ", 23, 23', 23" in a boarding floor.
• According to a first call message, which is transmitted to the elevator control 14, 14 'via an electric floor caller line 16, 16', the elevator control 14, 14 'drives a drive 12, 12' and moves an elevator car 11, 11 'to the boarding floor ,
• After the elevator car 11, 11 'has reached the boarding floor, the user enters the elevator car 11, 11' and actuates a car call transmitter 13, 13 '.
• According to a second call message, which is transmitted to the elevator control 14, 14 'via an electric car call transmitter line 18, 18', the elevator control 14, 14 'actuates the drive 12, 12' and moves the elevator car 11, 11 'from the boarding floor to the destination floor.
• After reaching the destination floor, the user rises from the elevator car 11, 11 '.

This elevator installation 1 should now be modernized. This is where the invention starts.

FIG. 2 shows a part of an exemplary embodiment of an elevator installation 1 according to FIG Completion of preparatory work according to the invention for the modernization of the Elevator installation 1. As part of this preparatory work, the elevator installation 1 is with a destination call control 3 upgraded.

The principle of destination call control 3 is known from the document EP 0 246 395. The Destination call control 3 has at least one floor terminal 31, 31 ', 31 ", which Floor terminal 31, 31 ', 31 ", for example, in each floor 21, 21', 21" next to the Elevator installation 1 is arranged. The floor terminal 31, 31 ', 31 "has at least one Manual input means 32, 32 ', 32 "for entering a destination call message or at least a recognition device 33, 33 ', 33 "for recognizing at least one identification code on. Detecting one of at least one identification transmitter 34, 34 ', 34 " a recognition device 33, 33 ', 33 "transmitted identification codes is from the Document EP 0 699 617. The destination call controller 3 detects with a single Destination message the boarding floor and the destination floor or assigns a in On a boarding deck identification code automatically recognized a destination floor to. A destination call message includes information both to the boarding floor and to the destination floor.

The destination call control 3 has at least one arithmetic unit 30. The arithmetic unit 30 is, for example, a commercial personal computer or a workstation. The Computing unit 30 has at least one processor and at least one Data storage. The arithmetic unit 30 is at any suitable location, for example. In a lobby of the building 2, or in a computing room of the building 2, etc. arranged. The arithmetic unit 30 executes at least one computer program product Evaluation of destination call messages or assignment of recognized identification codes with destination floors. This computer program product is, for example, in the Data storage is stored and loaded into the processor for its execution.

• Das Computerprogrammprodukt zum Auswerten von Zielrufmeldungen trägt eine Eingangszeit einer jeden Zielrufmeldung unter Angabe des Einsteigestockwerkes sowie des gewünschten Zielstockwerkes in mindestens eine Auftragstabelle ein.
• Dieses Computerprogrammprodukt vergleicht die Distanz zwischen dem Einsteigestockwerk und der aktuellen Position der mindestens einen Aufzugskabine 11, 11'. Auch berechnet dieses Computerprogrammprodukt die Distanz zwischen Einsteigestockwerk und Zielstockwerk. Auch berücksichtigt dieses Computerprogrammprodukt das aktuelle Benutzeraufkommen und berechnet mögliche Zwischenhalte entlang der Förderstrecke.
• Auf der Basis dieser Daten führt dieses Computerprogrammprodukt eine Optimierung durch und ermittelt für jede Zielrufmeldung mindestens ein Förderergebnis. Das Förderergebnis bezeichnet den für die Beförderung des Benutzers günstigsten Aufzug 10, 10', d.h. den Aufzug 10, 10', der den Benutzer am schnellsten bzw. mit dem höchsten Fahrkomfort an das Zielstockwerk befördert.

For example. an evaluation of destination call messages proceeds as follows:

• The computer program product for evaluating destination call messages enters an arrival time of each destination call message stating the boarding floor and the desired destination floor in at least one order table.
• This computer program product compares the distance between the boarding floor and the current position of the at least one elevator car 11, 11 '. This computer program product also calculates the distance between boarding floor and destination floor. This computer program product also takes into account the current user volume and calculates possible intermediate stops along the conveyor line.
• On the basis of this data, this computer program product performs an optimization and determines at least one delivery result for each destination message. The result of conveying designates the elevator 10, 10 'which is most favorable for the transportation of the user, ie the elevator 10, 10', which conveys the user to the destination floor in the fastest or most comfortable way.

• Das Computerprgrammprodukt zum Zuordnen von erkannten Identifikations-Codes mit Zielstockwerken trägt eine Erkennungszeit eines erkannten Identifikations-Codes unter Angabe des Einsteigestockwerkes in eine Auftragstabelle ein.
• Im Datenspeicher wird mindestens ein Benutzerprofil mit mindestens einer benutzerspezifischen Angabe zu einem Zielstockwerk geführt. Dieses Benutzerprofil ist über eine Identifikations-Adresse eindeutig identifizierbar. Für jede Identifikations-Adresse existiert genau ein Identifikations-Code. Bspw. ist eine Identifikations-Adresse einem Identifikations-Code genau dann zuordenbar, wenn Identifikations-Adresse und Identifikations-Code identisch sind.
• Dieses Computerprogrammprodukt vergleicht den erkannten Identifikations-Code mit den Identifikations-Adressen von gespeicherten Benutzerprofilen. Dieses Computerprogrammprodukt liefert genau dann ein positives Zuordnungs-Ergebnis, wenn eine der gespeicherten Identifikations-Adressen mit dem erkannten Identifikations-Code identisch ist, anderfalls liefert dieses Computerprogrammprodukt ein negatives Zuordnungs-Ergebnis.
• Dieses Computerprogrammprodukt trägt das Zielstockwerkes in die Auftragstabelle ein.
• Dieses Computerprogrammprodukt vergleicht die Distanz zwischen dem Einsteigestockwerk und der aktuellen Position der mindestens einen Aufzugskabine 11, 11'. Auch berechnet dieses Computerprogrammprodukt die Distanz zwischen Einsteigestockwerk und Zielstockwerk. Auch berücksichtigt dieses Computerprogrammprodukt das aktuelle Benutzeraufkommen und berechnet mögliche Zwischenhalte entlang der Förderstrecke.
• Auf der Basis dieser Daten führt dieses Computerprogrammprodukt eine Optimierung durch und ermittelt für jeden erkannten Identifikations-Code mindestens ein Förderergebnis. Das Förderergebnis bezeichnet den für die Beförderung des Benutzers günstigsten Aufzug 10, 10', d.h. den Aufzug 10, 10', der den Benutzer am schnellsten bzw. mit dem höchsten Fahrkomfort an das Zielstockwerk befördert.

For example. An assignment of recognized identification codes with destination floors takes place as follows:

• The computer program product for associating recognized identification codes with destination floors enters a recognition time of a recognized identification code indicating the boarding floor into a job table.
• At least one user profile with at least one user-specific information is routed to a destination floor in the data memory. This user profile can be uniquely identified via an identification address. For each identification address exists exactly one identification code. For example. For example, an identification address can be assigned to an identification code if and only if the identification address and the identification code are identical.
• This computer program product compares the recognized identification code with the identification addresses of stored user profiles. This computer program product provides a positive association result if and only if one of the stored identification addresses is identical to the identified identification code, otherwise this computer program product will provide a negative association result.
• This computer program product enters the destination floor in the order table.
• This computer program product compares the distance between the boarding floor and the current position of the at least one elevator car 11, 11 '. This computer program product also calculates the distance between boarding floor and destination floor. This computer program product also takes into account the current user volume and calculates possible intermediate stops along the conveyor line.
• On the basis of this data, this computer program product carries out an optimization and determines at least one delivery result for each identified identification code. The result of conveying designates the elevator 10, 10 'which is most favorable for the transportation of the user, ie the elevator 10, 10', which conveys the user to the destination floor in the fastest or most comfortable way.

The funding result will be implemented. Advantageously, the user is a the Destination floor of the user assigned elevator 10, 10 'is displayed. This points to that Floor terminal 31, 31 ', 31 "at least one lift indicator 35, 35', 35" on. The Arithmetic unit 30 carries at least one computer program product for driving the Elevator system 1 off. The arithmetic unit 30 controls the elevator system to be modernized 1 via at least one device 36, 36 'on. The term "driving" is used understood indirect taxation. In the present case, the existing elevator control 14, 14 'of the arithmetic unit 30 indirectly via the device 36, 36' driven.

The floor terminal 31, 31 ', 31 ", the arithmetic unit 30 and the device 36, 36' communicate with each other via at least one data bus 37. The data bus 37 can be any modern standard bus. Such data buses are those skilled in the art known. It can be a data bus based on electrical or optical Signal transmission, such as an Ethernet network, a token ring network, etc .. It can also be a wireless network, an infrared network, a radar network, a beam network, etc. With knowledge of the present invention the expert in this regard, many possibilities of realization open.

FIG. 3 shows part of an exemplary embodiment of a device 36, 36 '. The Computing unit 30 is at least one target signal to the device via the data bus 37 36, 36 'off. The device 36, 36 'has, for example, at least one input for the Data bus 37 for receiving the target signal. For example. is the target signal according to a Transmission protocol of the data bus 37 to the device 36, 36 'transmitted and read from the device 36, 36 '. For example. the device 36, 36 'at least a converter 361, which converter 361 receives the target signal and in a Call message converts. The transducer 361 is a commercial and proven converter of the electronics industry.

The device 36, 36 'and the elevator control 14, 14' are at least one electrical line connected to each other. The device 36, 36 'has, for example. at least one output for the output of call messages. This output is over at least one floor caller line 16, 16 'and at least one Car caller line 18, 18 'connected to the elevator control 14, 14'. The Paging messages are received from at least one signal generator 362 of the device 36, 36 '. output to the elevator controller 14, 14 '. Advantageously, but not imperatively, the device 36, 36 'is close to the elevator control 14, 14' arranged. The signal generator 362 is a commercially available and proven signal generator of the electronics industry.

• Ein Benutzer gibt in einem Einsteigestockwerk entweder über ein manuelles Eingabemittel 32, 32', 32" des Stockwerkterminals 31, 31', 31" eine Zielrufmeldung ein oder der Benutzer trägt einen Identifikationsgeber 34, 34', 34" und übermittelt einen Identifikations-Code an die Erkennungsvorrichtung 33, 33', 33" des Stockwerkterminals 31, 31', 31", welcher Identifikations-Code von der Erkennungsvorrichtung 33, 33', 33" erkannt wird.
• Das Stockwerkterminal 31, 31', 31" übermittelt über den Datenbus 37 ein der Zielrufmeldung entsprechendes Fördersignal bzw. ein einem erkannten Identifikations-Code entsprechendes Identifikationssignal an die Recheneinheit 30.
• Die Recheneinheit 30 führt ein Computerprogrammprodukt aus und ermittelt für das Fördersignal bzw. für das Identifikationssignal mindestens ein Förderergebnis.
• Als Förderergebnis wird mindestens ein Steuersignal zum Ansteuern der Aufzugsanlage 1 ausgegeben.
• Das Steuersignal umfasst ein Benutzerinformationssignal, welches Benutzerinformationssignal über den Datenbus 37 an das Stockwerkterminal 31, 31', 31" im Einsteigestockwerk übermittelt wird, wo der Benutzer die Zielrufmeldung vorgenommen hat. Gemäss dem Benutzerinformationssignal wird dem Benutzer auf dem Aufzuganzeiger 35, 35', 35" der dem Zielstockwerk des Benutzers zugeteilte Aufzug 10, 10' angezeigt.
• Das Steuersignal umfasst mindestens ein erstes Zielsignal, welches erste Zielsignal über den Datenbus 37 an die Vorrichtung 36, 36' übermittelt wird. Gemäss diesem ersten Zielsignal gibt die Vorrichtung 36, 36' über eine elektrische Leitung eine erste Rufmeldung an die Aufzugssteuerung 14, 14' aus. Gemäss dieser ersten Rufmeldung steuert die Aufzugssteuerung 14, 14' einen Antrieb 12, 12' an und bewegt eine Aufzugskabine 11, 11' zum Einsteigestockwerk.
• Nachdem die Aufzugskabine 11, 11' das Einsteigestockwerk erreicht hat, steigt der Benutzer in die Aufzugskabine 11, 11' ein.
• Das Steuersignal umfasst mindestens ein zweites Zielsignal, welches zweite Zielsignal über den Datenbus 37 an die Vorrichtung 36, 36' übermittelt wird. Gemäss diesem zweiten Zielsignal gibt die Vorrichtung 36, 36' über eine elektrische Leitung eine zweite Rufmeldung an die Aufzugssteuerung 14, 14' aus. Gemäss dieser zweiten Rufmeldung steuert die Aufzugssteuerung 14, 14' den Antrieb 12, 12' an und bewegt die Aufzugskabine 11, 11' vom Einsteigestockwerk zum Zielstockwerk. Der Benutzer wird ohne weiteres Zutun zum Zielstockwerk befördert.
• Nach Erreichen des Zielstockwerkes steigt der Benutzer aus der Aufzugskabine 11, 11'.

The operation of the modernized elevator installation 1 functions, for example, as follows:

• A user inputs in a boarding floor either via a manual input means 32, 32 ', 32 "of the floor terminal 31, 31', 31" a destination message or the user carries an identification transmitter 34, 34 ', 34 "and transmits an identification code the recognition device 33, 33 ', 33 "of the floor terminal 31, 31', 31", which identification code is recognized by the recognition device 33, 33 ', 33 ".
• The floor terminal 31, 31 ', 31 "transmits via the data bus 37 a conveying signal corresponding to the destination call message or an identification signal corresponding to a recognized identification signal to the arithmetic unit 30.
• The arithmetic unit 30 executes a computer program product and determines at least one delivery result for the conveyance signal or for the identification signal.
• As a delivery result, at least one control signal for driving the elevator installation 1 is output.
• The control signal comprises a user information signal which is transmitted to the user via the data bus 37 to the floor terminal 31, 31 ', 31 "in the boarding floor where the user has made the destination call message according to the user information signal is sent to the user on the elevator indicator 35, 35', 35 "the elevator 10, 10 'assigned to the destination floor of the user is displayed.
• The control signal comprises at least a first target signal, which first target signal is transmitted via the data bus 37 to the device 36, 36 '. According to this first target signal, the device 36, 36 'outputs a first call message to the elevator control 14, 14' via an electrical line. According to this first call notification, the elevator control 14, 14 'actuates a drive 12, 12' and moves an elevator car 11, 11 'to the boarding floor.
• After the elevator car 11, 11 'has reached the boarding floor, the user enters the elevator car 11, 11'.
• The control signal comprises at least a second target signal, which second target signal is transmitted via the data bus 37 to the device 36, 36 '. According to this second target signal, the device 36, 36 'outputs a second call message to the elevator control 14, 14' via an electrical line. According to this second call message, the elevator control 14, 14 'controls the drive 12, 12' and moves the elevator car 11, 11 'from the boarding floor to the destination floor. The user is transported to the destination floor without any further action.
• After reaching the destination floor, the user rises from the elevator car 11, 11 '.

The device 36, 36 'has at least one input at least one Signal catcher 363 for detecting at least one signal of the elevator control 14, 14 'up. The signal is at least one input or at least one Output of the elevator control 14, 14 'tapped. Advantageously, this input the device 36, 36 'via at least one drive line 19, 19' and / or at least a car indicator line 20, 20 'connected to the elevator control 14, 14'. Of the Signal receiver 363 detects, for example, at least one desired value of the drive line 19, 19 '. and / or at least one indication signal of the car indicator line 20, 20 '. At the Signal receiver 363 is a commercially available and proven Signal receiver of the electronics industry.

The temporal behavior of this setpoint and / or this display signal is called at least one travel time profile documented. The timetable profile is a log about the operation of the elevator control 14, 14 '. It documents diverse Information about the elevator installation 1 such as the acceleration, speed and Delay of an elevator car 11, 11 'as a function of the length of the conveyor line, the Cab load, etc. The trip profile can be in any data format be documented. For example. the device 36, 36 'has at least one Data memory 364 for storing the travel time profile on.

• Bspw. übermittelt die Aufzugssteuerung 14, 14' ein Anzeigesignal auf der Kabinenanzeiger-Leitung 20, 20' als eine Art Quittung für eine eingegangene Rufmeldung. Diese Quittung wird an einen Kabinenanzeiger 15, 15' der Aufzugskabine 11, 11' übermittelt und dort als aktuelle Position der Aufzugskabine 11, 11' angezeigt. Das Anzeigesignal auf der Kabinenanzeiger-Leitung 20, 20' ist bspw. eine elektrische Spannung von 5 V Gleichspannung und von je nach anzuzeigendem Stockwerk unterschiedlicher zeitlicher Länge. So kann das Anzeigesignal zum Anzeigen des ersten Stockwerkes 1 sec lang sein, während dasjenige zum Anzeigen des zweiten Stockwerkes 2 sec lang ist. Aus dieser Quittung an die Kabinenanzeiger 15, 15' lässt sich somit die aktuelle Position der Aufzugskabine 11, 11' bestimmen.
• Bspw. übermittelt die Aufzugssteuerung 14, 14' einen Sollwert auf der Antrieb-Leitung 19, 19' zum Beschleunigen bzw. Verzögern einer Aufzugskabine 11, 11'. Bspw. ist der Sollwert zum Beschleunigen der Aufzugskabine 11, 11' eine elektrische Gleichspannung von 5 V. Bspw. ist der Sollwert zum Verzögern der Aufzugskabine 11, 11' eine elektrische Gleichspannung von 0 V. Aus diesen Sollwerten lässt sich somit die Beschleunigung bzw. Verzögerung der Aufzugskabine 11, 11' bestimmen.

Two examples of signals picked up by the elevator control 14, 14 'are illustrative:

• For example. the elevator controller 14, 14 'transmits an indication signal on the car indicator line 20, 20' as a kind of acknowledgment for an incoming call message. This acknowledgment is transmitted to a car indicator 15, 15 'of the elevator car 11, 11' and displayed there as the current position of the elevator car 11, 11 '. The display signal on the car indicator line 20, 20 'is, for example, an electrical voltage of 5 V DC and depending on the floor to be displayed different length of time. Thus, the display signal for displaying the first floor may be 1 sec, while that for displaying the second floor is 2 sec. Long. From this receipt to the car indicator 15, 15 'can thus determine the current position of the elevator car 11, 11'.
• For example. the elevator control 14, 14 'transmits a desired value on the drive line 19, 19' for accelerating or decelerating an elevator car 11, 11 '. For example. is the target value for accelerating the elevator car 11, 11 ', a DC electrical voltage of 5 V. For example. is the target value for decelerating the elevator car 11, 11 ', a DC electrical voltage of 0 V. From these setpoints can thus determine the acceleration or deceleration of the elevator car 11, 11'.

Advantageously, the device 36, 36 'at least one Computer program product, which computer program product the travel time profile analyzed and at least one leading selector is determined or provided. One precursor selector gives for a moving elevator car 11, 11 'that floor at which the elevator car 11, 11 'could still stop. For example. has the device 36, 36 'a data memory 364 for storing the computer program product and at least one processor 365 for executing the computer program product. For example. the computer program product compares the currently detected indication signal or the currently acquired setpoint with stored travel time profiles. The Computer program product selects that travel time profile, which travel profile with the time course of the currently detected display signal or the currently detected Setpoint largely matches and represents this selected time profile as anticipatory selector ready. Under a currently detected signal is a real-time or understood in quasi real-time tapped signal. For example. a signal every 1/4 sec, preferably every 1/20 sec, preferably tapped every 1/1000 sec. Advantageously, for each elevator 10, 10 'of the elevator installation 1 a leading selector in continuous Time intervals updated and transmitted to the arithmetic unit 30. For example. becomes a precursor selector every 1/4 sec, preferably every 1/20 sec, preferably every 1/1000 sec on the arithmetic unit 30 transmitted. With knowledge of the present invention are the Professional various possibilities of realization of variants open. That's the way it is quite possible, the computer program product on any computer, eg. to perform on the computing unit 30 of the system or on a remote server. In In this case, the currently detected signal to the arithmetic unit or to the remote server transmitted. Such a transmission takes place, for example, via the Internet.

An updated leading selector flows as further information in the Delivery result. The leading selector allows a quick assignment of a User to an elevator car 11, 11 'and thus reduces waiting times of the user. Also, the leading selector allows the elevator car 11, 11 'hardly noticeable is accelerated or decelerated and thus guarantees a high level of ride comfort for the User. By documenting a large, almost complete number of Travel time profiles, the leading selector can be determined with high accuracy and optimize the efficiency of the elevator installation 1.

The preparatory work for the modernization of the elevator installation 1 consists in at least one floor terminal 31, 31 ', 31 "to assemble and at least one Computing unit 30 and at least one device 36, 36 'to install. The system, consisting of floor terminal 31, 31 ', 31 ", arithmetic unit 30 and device 36, 36' is advantageously made of prefabricated and, for example, preconfigured units together, which are easy and quick to assemble and install.

For example. is in each floor 21, 21 ', 21 "next to the elevator 1 a Floor terminal 31, 31 ', 31 "mounted, for example, in each floor 21, 21', 21" a Floor terminal 31, 31 ', 31 "as a stand-alone device next to the two elevators 10, 10' assembled. For example. This stand alone device will be in the bottom or on a wall of the Floor 21, 21 ', 21 "fixed with screws These floor terminals 31, 31', 31" replace the floor callers 22, 22 ', 22 ", 23, 23', 23" and the car callers 13, 13 '.

For example. At each elevator control 14, 14 'a device 36, 36' is installed. For this becomes the existing electrical floor caller line 16, 16 'for Floor callers 22, 22 ', 22 ", 23, 23', 23" or the existing electrical Car caller line 18, 18 'to the car caller 13, 13' at the entrance of Elevator control 14, 14 'is interrupted and this input of the elevator control 14, 14' instead, via an electrical line to an output of the device 36, 36 ' connected. Advantageously, the existing electric drive line 19, 19 'on Output of the elevator control 14, 14 'branched off and this output of the Elevator control 14, 14 'via an electrical line to an input of Device 36, 36 'connected. Advantageously, the existing electrical Cabin indicator line 20, 20 'to the car indicator 15, 15' at the output of Elevator control 14, 14 'is interrupted and this output of the elevator control 14, 14' instead, via an electrical line to an input of the device 36, 36 ' connected. Due to the often small number of inputs and outputs of the Elevator control 14, 14 ', this installation of the device 36, 36' is simple and quick to accomplish. For example. If the device 36, 36 'is next to the elevator control 14, 14 'fixed with screws.

The floor terminal 31, 31 ', 31 ", the arithmetic unit 30 and the device 36, 36' are, for example, connected to each other via at least one data bus 37. For example. become Cable of the data bus 37 in at least one existing cable duct of the building 2 laid.

This prepared for modernization elevator system 1 is simple and easy to modernize. Advantageously, an elevator system 1 with several elevators 10, 10 'modularly modernized in at least one process step, wherein at least one elevator 10, 10 'is largely complete per method step is modernized. Advantageously, in one method step, an elevator car 11, 11 'of an elevator 10, 10' modernizes, it is the drive 12, 12 'of this elevator 10, 10 'modernized, it is the hoisting rope 9, 9' of this elevator 10, 10 'modernized, it is the elevator control 14, 14 'of this elevator 10, 10' modernized and it is the Device 36, 36 'of this elevator 10, 10' away.

Claims (6)

1. Modernisation device (36, 36') of a lift installation (1), which comprises at least one lift (10, 10') and at least one lift control (14, 14') for controlling the lift (10, 10') by way of at least one call report, characterised in that the modernisation device (36, 36') comprises at least one input for reception of at least one first destination signal with data with respect to a boarding storey and at least one second destination signal with data with respect to a destination storey, that the modernisation device (36, 36') converts the first destination signal into a boarding storey call report and the second destination signal into a destination storey call report, that the modernisation device (36, 36') has at least one output for issue of the boarding storey call report and the destination storey call report and that the modernisation device (36, 36') controls the lift control (14, 14') by way of an issued boarding storey call report and an issued destination storey call report.
2. Modernisation device (36, 36') according to claim 1, characterised in that at least one output of the modernisation device (36, 36') is connected with at least one input for at least one electrical storey call transmitter line (16, 16') of the lift control (14, 14') or that at least one output of the modernisation device (36, 36') is connected with at least one input for at least one cage call transmitter line (18, 18') of the lift control (14, 14').
3. Modernisation device (36, 36') according to claim 1 or 2, characterised in that at least one input of the modernisation device (36, 36') is connected with at least one existing electrical drive line (19, 19') between at least one drive (12, 12') and the lift control (14, 14') and/or that at least one input of the modernisation device (36, 36') is connected with at least one output or at least one electrical cage indicator line (20, 20') of the lift control (14, 14').
4. Modernisation device (36, 36') according to claim 3, characterised in that at least one signal receiver (363) of the modernisation device (36, 36') detects at least one target value of the drive line (19, 19') or at least one indication signal of the cage indicator line (20, 20') and that at least one data memory (364) of the modernisation device (36, 36') documents the behaviour of this target value or of this indication signal over time as at least one travel time profile.
5. Modernisation device (36, 36') according to claim 4, characterised in that the modernisation device (36, 36') compares at least one detected current target value or at least one detected current indication signal with target time profiles, that the modernisation device (36, 36') selects that travel time profile which substantially agrees with the course over time of the detected current target value or the detected current indication signal and that the modernisation device (36, 36') provides this selected target time profile as at least one advance selector.
6. Modernisation system of a lift installation (1), which comprises at least one lift (10, 10') and at least one lift control (14, 14') for controlling the lift (10, 10') by way of at least one call report, characterised in that the modernisation system comprises at least one storey terminal (31, 31', 31") for the input of destination call reports or for recognition of identification codes of users, that the modernisation system comprises at least one computing unit (30) for evaluating the destination call reports or for association of destination storeys with recognised identification codes as well as for the issue of at least one destination signal and that the modernisation system comprises at least one modernisation device (36, 36') for reading in the destination signal, for converting the destination signal into at least one call report and for controlling the lift control (14, 14') by way of the call report.

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