WO2010000332A1 - Method for operation of an elevator system, and method for operation of a building door - Google Patents

Abstract

The invention relates to a method for operation of an elevator system having at least one elevator cab (7) in a building having at least two floors (1, 1', 1'') and having at least one building door (2, 2', 2''). At least one functional designator (92.21, 92.22, 92.23, 92.24) is operated on at least one input apparatus (92) of the building door (2, 2', 2''). At least one designator signal is produced by the operated functional designator (92.21, 92.22, 92.23, 92.24). A designator signal is used to carry out a start call for the elevator cab (7) to a starting floor. The starting floor designates either the floor (1, 1', 1'') of the input apparatus (92) or a predefined floor (1, 1', 1'').

Description

 description

Method for operating an elevator system and method for

Operating a building door

The invention relates to a method for operating an elevator system and to a method for operating a building structure according to the preambles of the independent patent claims.

EP0832838A1 describes a control device for an elevator with call input devices provided on floors of a building for entering destination calls. Each call input device has two input keys. A first enter key enters a visitor destination call. When the visitor destination call is processed, the elevator first drives to a predefined destination floor and then to the floor of the call input device which enters the visitor destination call. A second enter key enters a downbound destination call. When processing the down-destination call, the elevator first moves to the floor of the call input device inputting the down-destination call and then to a predefined destination floor. The call input device is installed at an arbitrary distance to the elevator in a home, office or office. The call input device comprises an intercom system. Instead of a call input device, a telephone set or a home office can also be used. The predefined floor is, for example, a main stop of the elevator or an underground car park. The two

Call buttons of the call input device thus allow, from a safe distance, the input of a visitor destination call to call a person from the floor of the main floor to the floor of the apartment and vice versa, the input of a down-destination call for soliciting a person from the floor of the apartment to the floor of the main station. A first object of the invention is to further develop this method for operating an elevator. Another object of the invention is to further develop the infrastructure of this building. Secondary conditions in the first or the further task are to ensure a rapid, energy ^¬ efficient and highly available operation of the elevator or the building and the possibility of easy, comfortable, clean and safe use of the elevator or the building.

The first or further object is achieved by the invention according to the definition of the characterizing features of the independent patent claims.

In the method for operating an elevator system, a building has at least one elevator car, at least two floors and at least one building. At least one input device of the building at least one functional identifier is actuated. From the actuated functional identifier at least one identifier signal is generated. With an identifier signal, a start call for the elevator car is made on a start floor. The start floor is either the floor of the input device or a predefined floor.

An advantage of this method is that a person can make a start call for the elevator car from an input device of the building. In contrast to the traditional call input on an elevator door, the person no longer has to go to the elevator door, but makes the call input from the building door. The time that the person needs to travel from the building to the elevator can use the elevator system according to the invention for the provision of an elevator car, so that the person no longer has to wait in front of the elevator door. This method is thus fast, easy and comfortable. Another advantage of the method is that the input device is part of the building. The elevator system thus requires no interface a home office call for the elevator car is generated via a functional identifier of the building's input device. Due to the migration of the input device away from the elevator and hm to the building, the elevator system is still conceptually simple, ie without interface to a building management system and as a traditional elevator fail-safe and highly available.

Advantageous developments of this method are described in the dependent claims.

Advantageously, a functional identifier of the input ^¬ device is actuated on the side of Gebaudetur to the interior of the building or to the interior of a room in the building.

This has the advantage that the person makes a start call for the elevator car from inside a room when it is closed

Building can do. Thus, the person does not need to open the building's protected space to make a call. This call is safe. This has the further advantage that the call input from the interior of a room is clean and hygienic, as compared with the public

Call input at an elevator door, only a limited number of persons have access to the input device. Especially in large buildings with a high volume of traffic, many people use the buttons on a public input device. The input device in the protected space meets the recognized need for hygienic operation of the elevator system.

Advantageously, a destination call for the elevator car to a destination floor is carried out with an identifier signal, with the destination floor a different floor than the start floor is called.

This has the advantage that a person at the building not only make a start call, but also make a destination call can. This saves time because the person or a visitor does not have to press an input key for a destination call. This has the further advantage that also different destination floors can be designated for different starting floors, that is for the floor of the input device or for any predefined floor.

Advantageously, if the floor of the input device is designated by the start floor, a predefined floor is designated by the destination floor. Advantageously, if a predefined floor is designated by the start floor, the floor of the input device is designated by the destination floor.

This has the advantage that on each floor of the building floor-specific several functional identifier can be provided.

Advantageously, a floor of a main floor in the building is called the predefined floor. Advantageously, a floor of a parking deck in the building is called the predefined floor. Advantageously, the predefined floor refers to a floor of a restaurant in the building. Advantageously, a floor of a gym in the building is called the predefined floor. Advantageously, a floor of a meeting room in the building is called the predefined floor. Advantageously, a floor of an operating room in the building is designated by the predefined floor. Advantageously, the predefined floor designates a floor of a library in the building. Advantageously, a floor of a workshop in the building is called the predefined floor. Advantageously, a floor of a loft in the building is called the predefined floor. Advantageously, a floor of a cellar in the building is called the predefined floor. Advantageously, a floor of a laundry room in the building is called the predefined floor.

This has the further advantage that functional identifiers are not only floor-specific but also user-specific for each input device.

Advantageously, the identifier signal is transmitted to at least one communication module via at least one electrical conductor or at least one bus system. The transmitted identifier signal is sent by the communication module in at least one radio network to at least one control device.

This has the advantage that a communication module independent of the building communicates the identifier signal to the control device. This has the further advantage that the communication module transmits the identifier signal to the control device independently of existing signal lines of the building via radio network. This also makes the elevator system fail-safe and highly available. This has the added advantage that ZigBee radio transmission is energy efficient.

Advantageously, the controller generates at least one start call for a received identifier signal. This start call is transmitted by the control device via at least one signal line to at least one elevator control. Advantageously, from the

Control means for a received identifier signal generates at least one destination call. This destination call is transmitted by the control device via at least one signal line to the elevator control.

This is advantageous since the control device transmits a start call and a destination call to the elevator control, regardless of the age and make of the elevator control. Advantageously, the elevator car is first moved by the elevator control to the start floor and then to the destination floor. Advantageously, when the elevator car has reached the start floor or destination floor, an elevator opened stubbornness of the start ^¬ stock factory or the destination floor of the elevator control.

This has the advantage that the person or the visitor in the public building area does not have to touch any keys in order to be automatically requested from the start floor to the destination floor. This is hygienic. This has the further advantage that even an object such as a suitcase, a pallet, a package, etc. can be enticed unaccompanied from a start floor to the destination floor. Thus, in a residential building, a pizza courier can place a pizza package on the ground floor in an elevator car, which elevator car is called by a person who is in an apartment of the house via the input device of a flat door directly and without stopping on the floor of the apartment. The pizza courier does not have to drive a lift, which saves time.

Advantageously, with an identifier signal a

Building safety assurance of Gebaudetur or Gebaudetur- unlocking the Gebaudetur the input device carried out.

This has the advantage that a person can make a Gebaudetur backup or a Gebaudetur-Entsicherung only by Betatigen a functional identifier. The person does not need a mechanical or electronic key. Under building security is understood a Verhmderns an opening of the building. Under building-protection is understood as enabling the opening of the building.

Advantageously, the identifier signal is transmitted to at least one coupling of the building. From the coupling an outer pawl of the building is coupled or decoupled with at least one nut. This has the advantage that only a few components are required for the building security or the building door release, which makes the building less susceptible to faults and highly available.

Advantageously, at least one actuator of the coupling is supplied with electrical current for a transmitted identifier signal. From the supplied electric power actuator at least one clutch lever is moved. For a Gebaudetur- security is the moving clutch lever, a connection between at least one outer shaft of the outer pawl and the nut deactivated or for Gebaudetur-release is activated by the moving clutch lever, a connection between at least one outer shaft of the outer pawl and the nut.

This has the advantage that only a clutch lever must be moved by an actuator for the Gebaudetur-securing or Gebaudetur-Entsicherung to a connection between the

External shaft of the outer pawl and the nut to disable or activate. This mechanism is simple, safe and energy efficient, which makes the building even less susceptible to faults and highly available.

Advantageously, a generated identifier signal is confirmed on the input device.

This has the advantage that the person receives a feedback on the execution of the start call or the destination call or the Gebaudetur- security or Gebaudetur-Entsicherung.

In the method of operating a building door, a building on a floor has a building. At least one input device of the building at least one functional identifier is actuated. From the actuated functional identifier at least one identifier signal is generated. With an identifier signal is a Gebaudetur backup of the

Gebaudetur or Gebaudetur unlocking the Gebaudetur the input device executed. The advantage of this method lies in the fact that a person can only undertake a building-door security or a building-door security of a building according to the invention by using a functional identifier. The person does not need a mechanical or electronic key. Under

Building security is understood as a corruption of an opening of the building. Under building-protection is understood as enabling the opening of the building.

Advantageous developments of this method are described in the dependent claims.

Advantageously, a functional identifier of the input ^¬ device is actuated on the side of Gebaudetur to the interior of the building or to the interior of a room in the building.

This has the advantage that the person can do the Gebaudetur backup or the Gebaudetur-Entsicherung from the interior of a room with a closed building, which is safe.

Advantageously, the identifier signal is transmitted to at least one coupling of the building. From the coupling an outer pawl of the building is coupled or decoupled with at least one nut.

This has the advantage that only a few components are required for the building security or the building door release, which makes the building less susceptible to faults and highly available.

Advantageously, at least one actuator of the coupling is supplied with electrical current for a transmitted identifier signal. From the supplied electric power actuator at least one clutch lever is moved. For a Gebaudetur- security of the moving clutch lever, a connection between at least one outer shaft of the outer pawl and the nut is disabled or for a Gebaudetur-release is from moving clutch lever activates a connection between at least one outer shaft of the outer pawl and the nut.

This has the advantage that only a clutch lever must be moved by an actuator for the Gebaudetur-securing or Gebaudetur-Entsicherung to a connection between the

Outer shaft of the outer pawl and the nut to be deactivated or activated. This mechanism is simple, safe and energy efficient, which makes the building even less susceptible to faults and highly available.

Advantageously, on the input device a

Building safety assurance of the building or a building construction protection of the building structure confirmed.

This has the advantage that the person receives a feedback on the execution of Gebaudetur backup or Gebaudetur- EntSicherung.

Advantageously, if at least one condition is met, after completion of the building a Gebaudetur- fuse or Gebaudetur-arming performed.

This has the advantage that the building is automatically secured or remains unlocked as soon as the open building is closed.

Advantageously, the condition is defined in at least one building profile or at least one person profile. Advantageously, it is checked after closing the Gebaudetur whether as a condition at least one predefined

Duration has elapsed since the closing of Gebaudetur or whether as a condition at least a closing time of Gebaudetur lies in at least one predefined period of time or whether as a condition at least one current time in at least one predefined period of time. This has the advantage that the condition can be stored specific building or person specific.

Advantageously, at least one identification code is sent in at least one radio network to at least one communication module. The identification code is received by the communication module. In at least one person profile, at least one condition is defined as to whether a building door release is executed for the received identification code.

For a closed building, it is advantageously checked whether at least one reception time of the identification code is present as a condition in at least one predefined period of time.

This has the advantage that a person with an identification code sent from outside the building can release the building if the reception time is within a predefined period in which the person is authorized to open the building.

Advantageously, the functional identifier of the input ^¬ device is placed on at least one display. A front of the display is betatigbar or visible through at least one recess of the interior fitting of the building.

This has the advantage that the functional identifier for a person is placed well visible and easily accessible at the dominant position of the building.

Advantageously, a plurality of functional identifiers are placed in symmetrical relation to each other on at least one display.

This has the advantage that several functional identifiers are placed in a manner that is clear to the person on the building. Advantageously, the display is at least partially optically transparent or semi-transparent.

This has the advantage that the display is transparent, so that information can be output to the person through the display.

Advantageously, the functional identifier is a pictogram or an alphanumeric string. Advantageously, the electrical contact at the location coordinate of the functional identifier generates an identifier signal which corresponds to the identifier signal of the building function of the functional identifier.

This is advantageous because the person is informed so quickly and clearly about the building function associated with the functional identifier and executed upon actuation of the functional identifier.

Advantageously, the input device is a mechanical switch or an electronic switch.

This has the advantage that two different embodiments of the input device are available.

Advantageously, the mechanical switch has at least one display. The functional identifier of the input device is placed on the display. The mechanical switch has at least one contact element. The contact element is arranged behind an indicator of an inner shield of the inner fitting behind the display.

This has the advantage that a contact element of the mechanical switch is arranged to save space behind the display. Advantageously, the contact element has at least one electrical contact. The electrical contact can be switched in at least two states. Display and contact element are arranged in mechanical interaction with one another such that an actuated functional identifier switches an electrical contact and generates an identifier signal. Advantageously, the electrical contact is a microswitch.

This is advantageous because the person can thus do so by manipulating the functional identifier, i. by touching or light printing, an electrical contact switches.

Advantageously, the electrical contact of the contact element is placed at the location coordinate of the functional identifier of the display.

This is advantageous because the electrical contact has the same location coordinate as the functional identifier, i. is placed just behind the functional identifier. A location coordinate means a unique position with two-dimensional spatial resolution in a plane of the display or of the contact element.

Advantageously, at least one rocker is arranged between the display and the contact element. The display is arranged on the rocker movable to the contact element. Advantageously, at least one web of the rocker is in mechanical contact with at least one front side of the contact element. At least one pin of the rocker is movable in at least one groove on the front side of the contact element.

This has the advantage that the switching of the mechanical switch is perceptible to the person when the display is moved via a pin of the rocker in a groove of the contact element in Betatigen the functional identifier. Advantageously, the contact element has at least one light. The light is visible through the display. Advantageously, the luminaire optically confirms a generated identifier signal. Advantageously, at least one turbo fitting has at least one buzzer. Advantageously, the buzzer acoustically confirms a generated identifier signal.

This is advantageous because the person receives an optical or acoustic feedback on the execution of the building function by a well-visible at a dominant position of the input device and clearly perceptible light or a good audible buzzer. Another advantage is the space-saving placement of the light behind the display or the space-saving arrangement of the buzzer in the turbo fitting.

Advantageously, the electronic switch has at least one display. The functional identifiers of the input device ^¬ is displayed on the display. Em actuated functional identifier generated in the electronic switch at least one disorder with spatial coordinate of the actuated functional identifier. The electronic switch detects the fault. Advantageously, the electronic switch associates the location coordinate of the detected disturbance with a building function of the actuated functional identifier. The electronic switch generates an identifier signal for the assigned building function.

This has the advantage that the functional identifier is displayed on the display. The electrical switch is a tactile screen in which operation of the functional identifier, i. by touching or light printing, generates a detectable disturbance in the touch screen, which is then assigned to a building function.

Advantageously, at least one confirmation visually confirms a generated identifier signal. The confirmation is shown on the display. Advantageously, the confirmation is at the Location coordinate of the actuated functional identifier of the input device placed. Advantageously, the confirmation is a pictogram or an alphanumeric string. Advantageously, at least one turbo fitting has at least one buzzer. Advantageously, the buzzer acoustically confirms a generated identifier signal.

This is advantageous because the person receives the feedback on the execution of the building function by a well visible or well audible and clearly perceptible confirmation.

Advantageously, an identifier signal is a start call for the elevator car to a start floor. The starting floor either designates the floor of the input device or a predefined floor.

This is advantageous because the person at the building not only can make a building security or a Gebaudetur-release, but also can make a start call for the elevator car from the input device of the building. In contrast to the traditional call input on an elevator door, the person no longer has to go to the elevator door, but makes the call input from the building door. The time that the person needs to travel from the building to the elevator can use the elevator system according to the invention for the provision of an elevator car, so that the person no longer has to wait in front of the elevator door, which is comfortable. Another advantage is that the

Input device is part of the building. The elevator system thus does not require any interface to a home switching ^¬ system of the building, but a Startruf for the elevator car is generated by a functional identifiers of the input device of the Gebaudetur. By the migration of

Input device away from the elevator gate and hm to the building, the elevator system is conceptually still simple, ie without interface to a building management system and as a traditional elevator fail-safe and highly available. Advantageously, an identifier signal is a destination call for the elevator car to a destination floor, wherein the destination floor designates a different floor than the start floor.

This has the advantage that the person at the building can do not only a start call, but also a destination call. This saves time because the person or a visitor does not have to press an input key for a destination call. This has the further advantage that can be called for various start ^¬ floors, so the floor of the input device or for any predefined floor, various destination floors.

If the starting floor designates the floor of the input device, the destination floor advantageously designates a predefined floor. If the start floor designates a predefined floor, the destination floor advantageously designates the floor of the input device.

This has the advantage that on each floor of the building floor-specific several functional identifier can be provided.

Advantageously, the predefined floor indicates a

Floor of a main station in the building. Advantageously, the predefined floor refers to a floor of a parking deck in the building. Advantageously, the predefined floor refers to a floor of a restaurant in the building. Advantageously, the predefined floor refers to a floor of a gym in the building. Advantageously, the predefined floor refers to a floor of a meeting room in the building. Advantageously, the predefined floor refers to a floor of an operating room in the building. Advantageously, the predefined floor refers to a floor of a library in the building. Advantageously, the predefined floor refers to a floor of a workshop in the building. Advantageously, the predefined floor refers to a floor of a loft in the building. Advantageously, the predefined floor refers to a floor of a cellar in the building. Advantageously, the predefined floor refers to a floor of a laundry room in the building.

This has the further advantage that functional identifiers are not only floor-specific but also user-specific for each input device.

Advantageously, the input device transmits the

Identifier signal via at least one electrical conductor or at least one bus system to at least one communication module. The communication module transmits the transmitted identifier signal in at least one radio network to at least one control device.

This has the advantage that a communication module independent of the building communicates the identifier signal to the control device. This has the further advantage that the communication module transmits the identifier signal independently of existing signal lines of the building via radio network to the control device. This has the added advantage that ZigBee radio transmission is energy efficient.

Advantageously, the communication module is arranged on the building. Advantageously, the communication module is arranged on at least one outer fitting of the building.

Advantageously, the communication module is arranged in at least one cavity between an outer shield and an outer mounting plate of the building.

This has the advantage that the communication module is space-saving and dissimulated on the Gebaudetur is arranged. Advantageously, at least one electrical power supply is arranged on at least one outer fitting of the building. The electrical power supply energetically autonomous with electrical power at least one electrical load of the building. Advantageously, the electrical load is an input device or a coupling or a communication module.

This is advantageous because electrical consumers of the building are operable in this way independently of an electrical power network of the building.

Advantageously, in a method for servicing an elevator system or a building door, at least one electrical power supply is exchanged on at least one external fitting of the building.

This is advantageous because a service technician can exchange the electrical power supply quickly and easily on the exterior fitting of the building if required.

Advantageously, an existing electrical power ^¬ supply is removed from at least one compartment of the exterior fitting of Gebaudetur. A new electrical power supply is inserted in the compartment of the outdoor fitting of the building. Advantageously, an existing electrical power ^¬ supply is drawn from a arranged in a lower region of the outer fitting tray and a new electrical power supply is pushed into this compartment.

This has the advantage that an exchange of the electrical power supply takes place by removing and inserting an electrical power supply in a special, dissimiliertes compartment of the outer fitting. Advantageously, the electrical power supply is exchanged from the side of the building to the outside of the building or to the outside of a room in the building ago.

This has the advantage that the replacement of the electrical power supply can take place even when the building is closed, i. The building does not have to be opened to replace the electrical power supply. This keeps the maintenance low since no person is required to open the building.

Advantageously, at least one sabotage alarm signal is generated if the electrical power supply is removed from the compartment of the exterior fitting of the building.

This has the advantage that removal of the electrical power supply by unauthorized persons is detected by a tamper protection, which sabotage protection generates a sabotage alarm signal.

Advantageously, the sabotage alarm signal and at least one address of the building are sent by at least one communication module in at least one radio network to at least one center. Advantageously, the sabotage alarm signal and the address of the building are received by the center. At least one security officer is called by the central office for the received sabotage alarm signal to the address of the building.

This has the advantage that the sabotage alarm signal automatically provides a security officer who looks at the address of the building to the right.

Advantageously, an electrical voltage of the electrical power supply is monitored. When falling below a threshold value of the voltage is at least one

Voltage alarm signal generated. The voltage alarm signal and At least one address of the building is sent by at least one communication module in at least one radio network to at least one control center.

This is advantageous in that preventative maintenance is possible. Depending on the number of door operations or start calls or destination calls made with the input device, the electrical power supply can reach the threshold sooner or later. Also, the threshold value can be reached sooner or later depending on the high of the building temperature. The preventive maintenance is thus user-specific or environment-specific.

Advantageously, the voltage alarm signal and the address of the building are received by the center. At least one service technician is called from the control center to the address of the building for a received voltage alarm signal. The electrical power supply of this building has been replaced by the service technician.

This has the advantage that when servicing is required, a service technician is automatically called on to carry out the maintenance at the address of the building.

Advantageously, in the process for raking an elevator, at least one turbo strike of an existing building is replaced by a turbo wall of the building, or at least one existing building is replaced by the building.

This is advantageous since a Nachrusten an elevator to a erfmdungsgemassen elevator system by simple and rapid replacement of the turbocharger of the existing building or exchange of the existing Gebaudetur takes place.

Advantageously, in the process for Nachrusten an existing Gebaudetur at least one turbo strike of existing building is replaced by a turbo strike of a building or at least one existing building is replaced by a building.

This is advantageous because a Nachrusten to a erfmdungsgemassen Gebaudetur by simple and rapid replacement of the turbocharger of the existing building or replacement of the existing Gebaudetur takes place.

Advantageously, at least one antenna is installed in the building. At least one control device is installed in the building. The antenna is suitable for receiving in at least one radio network at least one identifier signal from at least one communication module and for transmitting the received identifier signal to the control device. The control device is connected via at least one signal line with an existing elevator control. The control device is suitable for generating at least one start call for a received identifier signal and transmitting it via the signal line to the elevator control.

Advantageously, a computer program product comprising at least one computer program means which is suitable for realizing the method of operating an elevator system and method for operating a Gebaudetur in that at least one method step is carried out when the Computerpro ^¬ program means in the Processor of a communication module or an input device or a control device or an elevator control is loaded. Advantageously, the computer-readable data memory comprises such a computer program product.

Reference to the figures exemplary embodiments of the invention will be explained in detail. This shows, partially schematized:

Figure 1 is a view of a portion of a building with an elevator system and buildings on floors. Fig. 2 is a view of part of a Gebaudetur according to FIG. 1 with a communications module and an input device, ^•

Fig. 3 is an exploded view of part of an external fitting of a Gebaudetur gemass Fig. 1 and

2 with a communication module;

Fig. 4 is an exploded view of a portion of an interior fitting of a Gebaudetur according to Figures 1 and 2 with a first embodiment of an input device.

Fig. 5 is an exploded view of a portion of the input device according to Fig. 4;

Fig. 6a is a view of a part of the input device according to Figures 4 and 5 in the un-activated state.

Fig. 6b is a view of a part of the input device according to Figures 4 and 5 in the un-activated state.

Fig. 7 is a view of a part of a second

Embodiment of an input device of a Gebaudetur according to Figures 1 or 2;

8 shows a first exemplary embodiment of a circuit diagram with parts of the input device according to FIGS. 2 to 6b and with parts of the communication module according to FIGS. 2 and 3; and

9 shows a second exemplary embodiment of a circuit diagram with parts of the input device according to FIG. 7 and with parts of the communication module according to FIGS. 2 and 3. 1 to 9 show exemplary embodiments of the invention, wherein FIG. 1 shows an elevator system in a building, FIG. 2 shows a building structure of the building, FIG. 3 shows an external fitting of the building with a communication module, FIG. 4 shows an interior fitting of the building door 5, 6a and 6b show further details of this input device, FIG. 7 shows a second embodiment of an input device, and FIGS. 8 and 9 show two embodiments of a circuit diagram with input device and communication module.

According to FIG. 1, the building has several floors 1, 1 ', 1' 'with at least one building 2, 2', 2 '' to at least one room of the building. The building 2, 2 ', 2' 'is a gateway to the building or an access door to a room of the building such as a hallway, a staircase, a tract, a hall, a garage, an apartment, an office, a practice Hotel room, a lab, a cell, etc ..

In the building an elevator system is arranged. The elevator system comprises, in an elevator shaft, at least one elevator car 7, which has at least one suspension device 6 via at least one suspension element 6

Counterweight 8 is connected. For moving elevator car 7 and counterweight 8, the suspension element 6 is set in motion by at least one elevator drive 5 in frictional engagement. At least one person has access to the elevator car 7 via at least one elevator lane 3, 3 ', 3''. Usually, at least one elevator lane 3, 3', 3 '' is arranged in each floor 1, 1 ', 1''. For safety reasons, the elevator cams 3, 3 ', 3''of a floor 1, 1', 1 '' only open when an elevator car 7 is on this floor 1, 1 ', 1''. The opening and closing of the elevator doors 3, 3 ', 3''via at least one Turantπeb 31, which is usually arranged on the elevator car 7 and with the Aufzugsturen 3, 3', 3 '' in Wirk ^¬ connection can be brought. At least one elevator control 4 controls the elevator drive 5 and the door tower 31. The elevator control 4 has at least one processor, at least one computer-readable data memory and an electrical power supply. At least one computer program means is loaded into the processor from the computer-readable data memory and executed. The computer program means controls the process of the elevator car 7 by the elevator drive 5, the opening and closing of the elevator doors 3, 3 ', 3''by the Turantπeb 31. Thus, the elevator control 4 knows when an elevator car 7 in a

Floor 1, 1 ', 1' ', detects at least one elevator sensor 30, 30', 30 '' the retraction of the elevator car 7 in the floor 1, 1 ', 1' '. The elevator sensor 30, 30 ', 30' 'transmits at least one elevator car signal to the elevator control 4 for a detected entry of the elevator car 7 in a floor 1, 1', 1 ". The elevator control 4 opens the elevator door 3, 3 upon transmission of an elevator car signal ', 3' 'of the floor 1, 1', 1 ''. The elevator sensor 30, 30 ', 30' 'is arranged in the elevator shaft near the elevator doors 3, 3', 3 '' and consists for example of a mechanical or electrical contact, which is actuated by the elevator car 7, as soon as they flush with the floor in a floor 1, 1 ', 1' 'retracted. The elevator control 4 can be arranged at any location in the building. Usually, the elevator control 4 is arranged in the vicinity of the elevator drive 5, according to FIG. 1, the elevator control 4 is arranged on the top floor 2 "in the vicinity of the elevator drive 5. Of course, with knowledge of the present invention, the building may have more than three storeys, and the elevator system may comprise more than one elevator car in one elevator shaft or several elevator cars in several elevator shafts.

The building door 2, 2 ', 2' 'has at least one door leaf 20, at least one turbo fitting 9, 9', 9 '', at least one door frame and at least one door sill. The turbo blow

9, 9 ', 9''has at least one inner pawl 91, at least one Outer latch 100 and at least one Turfalle 94 on. The Turfalle 94 is arranged in the door leaf 20. When the building structure 2, 2 ', 2 "is closed, the door catcher 94 is engaged in at least one strike plate of the door frame. The door frame is permanently mechanically fixed and anchored several times in the stonework of the building. Inner pawl 91 and outer pawl 100 are operatively connected to one another by means of at least one nut 98 so as to be torsionally strong. Nut 98 and Turfalle 94 are positively coupled with each other. A printing of the inner pawl 91 or outer pawl 100 is force-transferred by the nut 98 on the Turfalle 94, thereby the Turfalle 94 is released from the strike plate of the door frame and the Gebaudetur 2, 2 ', 2''opened. In addition to the door trap 94, the building structure 2, 2 ', 2''at least one latch 105 for further locking of the door trap 94 vorgeschlossene Gebaudetur 2, 2', 2 '' on. The latch 102 is locked by at least one mechanical contact 103, as soon as the Gebaudetur 2, 2 ', 2''the Turfalle 94 is locked in the strike plate of the door frame. The latch 102 is unlocked as soon as the inner pawl 91 or outer pawl 100 is printed.

Gemass Fig. 2, the turbo fitting 9, 9 ', 9''a Innenbe ^¬ impact and an external fitting on. The interior fitting is arranged on the side of the building 2, 2 ', 2''to the interior of the building or to the interior of the room. The external fitting is on the side of the building 2, 2 ', 2''to the outside of the

Building or arranged to the outside of the room. Fig. 3 shows details of the outer fitting, Fig. 4 shows details of the inner fitting.

The outer fitting has at least one outer mounting plate 97 for mounting at least one outer shield 99 on the door leaf. The outer shield 99 is resistant to sabotage made of hardened stainless steel, spring steel, etc. manufactured. The outer pawl 100 is fixedly connected to the outer shield 99 via at least one ball sliding bearing. Via at least one outer shaft 100.1, the outer pawl 100 is torsionally strong with connected to at least one clutch 98.1. The coupling 98.1 is mounted in a cavity between the outer shield 99 and outer mounting plate 97. The connection between the outer shaft 100.1 and nut 98 can be activated by movement of at least a clutch lever or the clutch 98.1 Deactivate ^¬ bar. When the connection is activated, the clutch 98.1 transmits a rotational movement of the outer shaft 100.1 to the nut 98. When the connection is deactivated, the clutch 98.1 transmits no rotational movement of the outer shaft 100.1 to the nut 98. In this case, the outer shaft 100.1 and the nut 98 are decoupled and the closed building 2, 2 ', 2''can not be opened by printing the outer pawl 100. In the housing of the clutch 98.1, at least one actuator, such as an electric motor, is provided which is supplied with electrical power by at least one electric power supply 101 and moves the clutch lever.

The electrical power supply 101 is also mounted in the cavity between the outer shield 99 and outer mounting plate 97 and consists of a battery or a rechargeable battery or a fuel cell or a solar cell with an energetic autonomy of one year, preferably two years. The electrical power supply 101 is arranged, for example, in at least one compartment 101.1 in the lower region of the outer fitting. The compartment 101.1 is accessible through an opening so that, for replacement of the electrical power supply 101, an existing electrical power supply 101 is drawn through the opening from the compartment 101.1 and a new electrical power supply 101 is pushed through the opening into the compartment 101.1. The opening is located between outer shield 99 and outer mounting plate 97 and is at least partially obscured by the outer shield 99 and so dissimulated. The opening may be closed by at least one resistant plate made of hardened stainless steel, spring steel, etc., for example via a key. For the maintenance of the electrical power supply 101 thus the outside shield 99 does not have to be removed. At least one

Sabotage safeguard generates at least one sabotage alarm signal, if the electrical power supply 101 is removed from the compartment 101.1 of the outer fitting of the building 2, 2 ', 2''. The tamper protection is, for example, a mechanical latch or a mechanical spring or an electrical contact, etc .. Gemass Fig. 2 is the sabotage alarm signal and at least one address of Gebaudetur 2, 2 ', 2''of at least one communication module 93 in at least one radio network 10 sent to at least one central 51. The center 51 is located, for example, in the building or away from the building. From the central station 51, at least one security officer is called to the address of the building 2, 2 ', 2 "for a received sabotage alarm signal, who sees there to the right. For the purpose of preventive maintenance, an electric voltage of the electric power supply 101 is monitored. If the voltage falls below a threshold value, at least one voltage alarm signal is generated. 2, the voltage alarm signal and at least one address of the building 2, 2 ', 2''from the communication module 93 in the radio network 10 to the center 51 is sent. From the central station 51, at least one service technician is called to the address of the building 2, 2 ', 2 "for a received voltage alarm signal. The electrical power supply 101 of this Gebaudetur 2, 2 ', 2''replaced by the service technician.

At least one communication module 93 is mounted in the cavity between the outer shield 99 and outer mounting plate 97 and is powered by the electrical power supply 101 with electrical power. The communication module 93 comprises at least one processor and at least one computer-readable data memory, which are arranged in and / or on the housing of the communication module 93. The processor and the computer readable

Data memories are arranged on a circuit board and connected to one another via at least one signal line. From the computer-readable data memory, at least one computer program means is loaded into the processor and executed. The inner fitting has at least one inner mounting plate 96 for mounting at least one inner shield 90 and at least one inner shield emblem 95 on the door leaf. The inner shield 90 is resistant against sabotage made of hardened stainless steel, spring steel, etc. manufactured. The inner pawl 91 is fixedly connected to the inner shield 90 via at least one ball slide bearing. By way of at least one inner shaft 91.1, the inner pawl 91 is connected to the nut 98 so as to be torsionally strong. For easy and quick installation, the inner shaft 91.1 can be plugged into the nut 98. The inner shield emblem 95 is made of impact-resistant plastic such as polyurethane, polypropylene, polyethylene, etc.

Between inner shield insert 95 and the inner shield, an input device 92 is mounted. In a first embodiment according to FIGS. 4 to 6b, the input device 92 is a mechanical switch, in a second embodiment the input device 92 is an electronic switch.

The input device 92 has at least one display 92.2. Gemass Fig. 4 to 6b is the display 92.2 circularly symmetrical and round or oval shape. 7 is the display 92.2 of rectangular or polygonal shape. The display 92.2 has, for example, a diameter of 5cm and a thickness of 2 to 10mm. The display 92.2 is for example made of glass or impact-resistant plastic such as polyurethane, polypropylene, polyethylene, etc .. The display 92.2 is located in at least one ring socket 92.1. The ring socket 92.1 summarizes the outer edge of the display 92.2. A front of the display 92.2 is visible to at least one recess of the inner shield 90 for a person and can be directly touched by the person with a finger, for example. The display 92.2 is at least partially optically transparent or semi-transparent.

The display 92.2 has a plurality of functional identifiers 92.21,

92.22, 92.23, 9.24, which are arranged symmetrically on the display 92.2. Referring to Figure 5, there are three functional identifiers 92.21, 92.22, 92.23 placed on the display 92.2 at a radial distance of 120 ° to each other. The location coordinates of the three functional identifiers 92.21, 92.22, 92.23 form the vertices of an isosceles triangle centered on the center of the display 92.2. Of course, with knowledge of the invention, those skilled in the art may place more or less functional identifiers 92.21, 92.22, 92.23 in other symmetrical ratios on the display 92.2. 7, four functional identifiers 92.21, 92.22, 92.23, 92.24 are placed on the display 92.2. The location coordinates of the four functional identifiers 92.21, 92.22,

92.23, 92.24 form the vertices of a square with a focus at the center of the display 92.2. For example, the display 92.2 may have only a single functional identifier or two functional identifiers or five or more functional identifiers. The functional identifiers 92.21, 92.22, 92.23, 9.24 are pictograms or alphanumeric character strings. Gemass Fig. 5, the functional identifier 92.21, 92.22, 92.23 are printed or glued to the display 92.2 or etched in display 92.2 or scratched or milled. 7, the functional identifiers 92.21, 92.22, 92.23, 92.24 are shown on the display 92.2 in the form of a screen with luminous elements such as a liquid crystal display (LCD), light emitting display (LED) or organic light emitting display (OLED). etc. displayed. Each light-emitting element is controllable and the functional identifiers 92.21, 92.22, 92.23, 92.24 are freely programmable in number, size, color and shape.

The functional identifiers 92.21, 92.22, 92.23, 92.24 designate building functions that can be executed upon actuation of the input device 92. Such building functions are:

- Gebaudetur-Sicherungs: The clutch 98.1 is transferred into a deactivated position, so that no rotational movement of the outer shaft 100.1 is transmitted to the nut 98 and the closed Gebaudetur 2, 2 ', 2''by printing the outer pawl 100 not to open and thus is secured. - Gebaudetur-Entsicherung: The clutch 98.1 is überfuhrt in an activated position, so that a rotational movement of the outer shaft 100.1 is transmitted to the nut 98 and the closed Gebaudetur 2, 2 ', 2''no longer secured and by printing the outer pawl 100 to is open.

From the main stop destination call: With the from-the-main stop destination call the elevator car 7 first drives a predefined floor 1, 1 ', I ¹ ' of a main stop in the building and then the floor 1, 1 ' , 1 '' to the call input. The from-main-station destination call requests a person from the floor of the main floor to the floor of the call entrance.

From the parking deck destination call: With the parking deck destination call, the elevator car 7 first moves to a predefined floor 1, 1 ', I ¹ ' of a parking deck in the building and then to the floor 1, 1 ', 1''of the call input. The from parkdeck destination call requests one

Person from the floor 1, 1 ', 1''from a parking deck to the floor 1, 1', I ¹ 'the call input.

- Zur-Hauptthaltestelle-Zielruf: With the Zur-Hauptthaltestelle- destination call ride the elevator car 7 first the floor 1, 1 ', 1' 'the call input and then a predefined floor 1, 1', 1 '' a main stop in the building. The Zur-Hauptthaltestelle-Zielruf requires a person from the floor 1, 1 ', 1' 'the call input to the floor 1, 1', 1 '' of the main station.

- To-park deck destination call: With the Zum Parkdeck-Zielruf ride the elevator car 7 first the floor 1, 1 ', I' ¹ the call input and then a predefined floor 1, 1 ', I ¹ ' of a parking deck in the building. The Zum Parkdeck destination call requests a person from the floor 1, 1 ', 1''the call input to the floor 1, 1', 1 '' of the parking deck.

- Zum-Restaurant-Zielruf: With the Zum-Restaurant-Zielruf ride the elevator car 7 first the floor 1, 1 ', 1''of Call input and then a predefined floor 1, 1 ', l' ^{1 of} a restaurant in the building. The Zum-Restaurant-Zielruf requests a person from the floor 1, 1 ', 1''of the call input to the floor 1, 1', I ¹ 'of the restaurant.

With knowledge of the invention, the skilled person can realize other building functions such as a destination call to or from a gym, meeting room, operating room, library, workshop, attic, cellar, laundry room, etc.

Hereinafter, the input device 92 in the first embodiment of a mechanical switch will be described in detail.

In accordance with FIGS. 5 to 6b, a rear side of the display 92.2 is connected via at least one connecting element 92.3 to a front side of at least one support 92.4. The connecting element 92.3 is, for example, a double-sided adhesive surface which connects the display 92.2 with the support 92.4. Connecting element 92.3 and support 92.4 are partially transparent or semi-transparent or partially provided with at least one recess. The support 92.4 is for example a plastic disc made of impact-resistant

Plastic such as polyurethane, polypropylene, polyethylene, etc. A rear side of the support 92.4 is contacted with a front side of at least one contact element 92.5. With respect to the recess of the inner shield 90, support 92.4 or contact element 92.5 are arranged behind the display 92.2. Of the

Contact between support 92.4 and contact element 92.5 is reproduced in detail in FIGS. 5, 6a and 6b. 6a and 6b are a side view along the section line XX 'of the plan view of Fig. 5th

The rear side of the support 92.4 has at least one rocker 92.40. The rocker 92.40 is disposed between the display 92.2 and the contact element 92.5, so that the display 92.2 on the rocker 92.40 movable to the contact element 92.5 is arranged. The location coordinate of the rocker 92.40 on the support 92.4 is located in an area between the functional identifiers 92.21, 92.22, 92.23 on the display 92.2. The rocker 92.40 has a symmetrical construction with a plurality of pins 92.40 'and webs 92.40''on. At least one web 92.40 "of the rocker 92.40 is in mechanical contact with at least one front side of the contact element 92.5. At least one pin 92.40 'of the rocker 92.40 is movable into at least one groove 92.50' on the front side of the contact element 92.5. For example, the pins project 92.40 '3mm and the webs 92.40''2mm out of the back of the pad 92.4 along the normal. Referring to Figure 5, the rocker 92.40 has three pins 92.40 'and three lands 92.40 "with the pins 92.40' placed in the bisector of the isosceles triangle of the functional identifiers 92.21, 92.22, 92.23. A pin 92.40 'is connected via two webs 92.40''with two other pins 92.40'. Pad 92.4 and rocker 92.40 are made emstuckig example by extrusion. The center of the edition 92.4. ie the center of the rocker 92.40 is exactly as the center of the connecting element 92.3 provided with a recess.

Gemass Fig. 5 to 6b, the contact element 92.5 on its front side a plurality of electrical contacts 92.51, 92.52, 92.53. Each electrical contact 92.51, 92.52, 92.53 can be switched in at least two states. Display 92.2 and contact element 92.5 are arranged in mechanical interaction with each other such that an actuation of a functional identifier 92.21, 92.22, 92.23 by touching and printing the display 92.2 at the location coordinate of the functional identifier 92.21, 92.22, 92.23 an electrical contact 92.51, 92.52, 92.53 is switchable. For example, the electrical contacts 92.51, 92.52, 92.53 are positioned at the location coordinates of the functional identifiers 92, 21, 92, 22, 92, 23, ie three electrical contacts 92, 51, 92, 52, 92, 53 are placed at 120 ° to each other on the contact element 92.5 and the location coordinates of the three electrical contacts 92.51, 92.52, 92.53 form the vertices of an isosceles Triangle with focus in the center of the contact element 95.5. The electrical contacts 92.51, 92.52, 92.53 are, for example, microswitches which can be switched by mechanical pressure. As soon as an electrical contact 92.51, 92.52, 92.53 is printed, it switches at least one electrical conductor closed, without mechanical pressure, the electrical conductor is open. The contact element 92.5 has a plurality of grooves 92.50 'on. The location coordinates of the grooves 92.50 'of the contact element 92.5 are positioned at the location coordinates of the pins 92.40' of the support 92.4, ie according to FIG. 5, three grooves 92.50 'placed in the bisector of the isosceles triangle of the functional identifier 92.21, 92.22, 92.23. The grooves 92.50 'receive the heads of the pins 92.40', the pins 92.40 'are movable into the grooves 92.50' and can be moved out of the grooves 92.50 '. The webs 92.40 '' of the support 92.4 are in mechanical contact with the contact element 92.5. The operation of the rocker 92.40 is illustrated in FIGS. 6a and 6b. In Fig. 6a, the display is 92.2 in a horizontal, electrically non-contact position with the contact element 92.5 and pin 92.40 'in the groove 92.50'. In Fig. 6b, the display 92.2 in an oblique, electrically contacted position with the contact element 92.5 and pin 92.40 'partially out of the groove 92.50' moves out. By touching and printing the functional identifier 92.22, the support 92.4 is moved against the electrical contact 92.52, thereby the electrical contact 92.52 is printed and an electrical conductor 93.1, 93.2 closed. In accordance with FIG. 8, at least one identifier signal is transmitted to the clutch 98.1 via the closed electrical conductor 93.1, and at least one identifier signal is transmitted to the communication module 93 via the closed electrical conductor 93.2. The identifier signal is, for example, an electrical DC voltage level. As soon as the clutch 98.1 receives the identifier signal, the actuator of the clutch 98.1 is supplied with electric current and the clutch lever is moved to deactivate the connection between outer shaft 100.1 and nut 98 for a Gebaudetur backup or order for a Building-arming the connection between external shaft 100.1 and nut 98 to activate.

The transmitted identifier signal is detected by the communication module 93. At least one lamp 92.55 in the form of a diode is mounted in the contact element 92.5 and is through the display

92.2 visible. The luminaire 92.55 is mounted in the center of the contact element 92.5 and visible through recesses of the connecting element 92.3 and the support 92.4 for a ^¬ looking person through the transparent or semi-transparent display 92.2. The light 92.55 is used for optical confirmation of an actuated identifier signal. The light 92.55 is powered by the electrical power supply 101 with electrical power. The light 92.55 can permanently light or flash in at least one color. The light 92.55 will have at least one electrical trace

93.3 driven by the communication module 93. For example, the computer program means of the communication module 93 controls a base current of a switching transistor via the electrical track 93.3. The switching transistor has two states, conductive or non-conductive. As long as the switching transistor is turned on, the light 92.55 lights up in the form of a diode, as soon as the switching transistor is not turned on, the light 92.55 no longer shines in the form of a diode. For example, the light 92.55 flashes twice to confirm a detected first identifier signal of a first functional identifier 92.21, twice to confirm a detected second identifier signal of a second functional identifier 92.22, and to confirm a detected third identifier signal of a third functional identifier 92.23 three times. For example, the light 92.55 for confirming a detected identifier signal of a functional identifier 92.21, 92.22, 92.23 for execution of a Gebaudetur backup flashes once in the color green. For example, the light 92.55 flashes to confirm a detected identifier signal of a functional identifier 92.21, 92.22, 92.23 to perform a Gebaudetur-Entsicherung once in the color red. Additionally or alternatively, an acoustic confirmation of a transmitted identifier signal by a buzzer 92.56. The buzzer is mounted in the turbo fitting 9, 9 ', 9'', for example on the contact element 92.5 and is supplied by the electrical power supply 101 with electric current. The buzzer 92.56 can emit a buzzing sound in at least one pitch that is well audible to the person. The buzzer 92.56 is controlled by the communication module 93 via at least one electrical conductor 93.3. For example, the computer program means of the communication module 93 controls a base current of a switching transistor via the electrical track 93.3. The switching transistor has two states, conductive or non-conductive. As long as the switching transistor is turned on, the buzzer buzzes 92.56, as soon as the switching transistor is not turned on, the buzzer 92.56 no longer buzzes. For example, the buzzer 92.56 buzzes once to confirm a detected first identifier signal of a first functional identifier 92.21, to confirm a detected second identifier signal of a second functional identifier 92.22 twice, and to confirm a detected third identifier signal of a third functional identifier 92.23 three times. Instead of the number of buzz tones, the length of the buzz tones for each functional identifier 92.21, 92.22, 92.23 may be different. With knowledge of the invention, the skilled person can of course also a tactile

Realize confirmation of a transmitted identifier signal. Also, the buzzer 92.56 at any point in the Turbeschlag 9, 9 ', 9' ', for example, be mounted in the outer fitting.

In the following, the input device 92 in the second embodiment of an electronic switch will be described in detail.

7, the input device 92 is a touchscreen whose display 92.2 can be touched by a person with a finger. The input device 92 is powered by the electrical Power supply 101 supplied with electrical power. Several functional principles of touchscreens are known:

- In a resistive touch screen electrical contacts between two previously electrically isolated electrically conductive layers is made at touch of the touch screen. The electrical resistance of this electrical contact can be detected by at least one sensor as interference with two-dimensional spatial resolution via a location coordinate.

In the case of a capacitive touch screen, an electric field applied to the display 92.2 is changed when the touch screen touches. This electrical field change can also be detected by at least one sensor as a disturbance with two-dimensional spatial resolution via a location coordinate.

- In an optical touch screen, a light beam is interrupted at touches of the touch screen. The position of the

Light beam interruption can be detected by at least one sensor as a disturbance with two-dimensional spatial resolution via a location coordinate.

- In a surface wave touch screen horizontal and vertical ultrasonic waves are reflected at touch of touch screen. This ultrasonic wave reflection can also be detected by at least one sensor as interference with two-dimensional spatial resolution via a location coordinate.

The touch screen of the input device 92 according to FIG. 7 comprises at least one processor and at least one computer-readable data memory, which are arranged in and / or on the housing of the input device 92. The processor and the computer-readable data memory are arranged on a circuit board and connected to one another via at least one signal line. The computer-readable data store becomes at least one

Computer program means loaded into the processor and executed. When using a functional identifier 92.21, 92.22, 92.23, 92.24, a building function can be uniquely assigned to the location coordinate of the detected disturbance. The computer program means of the electronic switch evaluates the location coordinate of a detected disorder and assigns this location coordinate a building function of the operated functional identifier

92.21, 92.22, 92.23, 92.24. The electronic switch generates an identifier signal for the assigned building function.

On the touch screen of the input device 92 according to FIG. 7, each generated identifier signal is replaced by at least one

Confirmation 92.25 on the display 92.2 visually confirmed. 7, four acknowledgments 92.25 are placed on the display 92.2, and the location coordinates of the acknowledgments 92.55 form the vertices of a square centered on the center of the display 92.2. The confirmations 92.25 are to the

Location coordinates of the actuated functional identifier 92.21,

92.22, 92.23, 92.24. The confirmation 92.25 is a pictogram or an alphanumeric string. The confirmation 92.25 can be permanently lit or flashing in one or more colors. The computer program means activates an acknowledgment 92.25 for each assigned building function. For example, a 92.25 stays activated for two or three seconds on the 92.2 screen and is then disabled. Additionally or alternatively, an acoustic confirmation of a transmitted identifier signal by a buzzer 92.26. The buzzer is mounted on the turbocharger 9, 9 ', 9'', for example on the electrical switch, and is supplied with electrical power by the electrical power supply 101. The buzzer 92.26 can emit a buzzing sound in at least one pitch that is well audible to the person. The computer program means controls the buzzer 92.26 for each assigned building function with a different pitch or with a different number of buzz tones or with a different buzzer pitch. With knowledge of the invention, the skilled person can of course also realize a tactile confirmation of a transmitted identifier signal. Also, the buzzer 92.26 on be placed anywhere in the Turbeschlag 9, 9 ', 9'', for example in the outer fitting.

Fig. 9 shows a circuit diagram of the input device 92 with touch screen according to Fig. 7. Input device 92 and communication module 93 communicate bidirectionally via a bus system 93.4 such as a Universal Signal Bus (USB), Local Operating Network (LON), Modbus, etc. The computer program means of the input device 92 transmits the identifier signal generated for the assigned building function to the communication module 93. The communication module 93 communicates with the coupling 98.1 via at least one electrical conductor 93.1 and transmits, for example, an identifier signal in the form of an electrical DC voltage level to the Coupling 98.1. As soon as the clutch 98.1 receives the identifier signal, the actuator of the clutch 98.1 is supplied with electric current and the clutch lever is moved in order to deactivate the connection between the outer shaft 100.1 and the nut 98 for a building door safety device or, for a building door release, the connection between External shaft 100.1 and nut 98 to activate. With knowledge of the invention, it is of course also possible that the input device 92 communicates with Tastschirm directly to the clutch via an electrical conductor and so transmits an identifier signal directly to the clutch.

The communication module 93 communicates in the building via at least one radio network 10. In the exemplary embodiments according to FIGS. 2 and 3, each building 2, 2 ', 2 "has a communication module 93. The computer program means establishes in the radio network 10 a communication between the communication module 93 with at least one antenna 40 and holds it

Communication upright. This can be done using a known local wireless network 10 up to 300 meters range such as Bluetooth (IEEE 802.15.1), ZigBee (IEEE 802.15.4) or WiFi (IEEE 802.11) with a frequency of 800 / 900MHz or 2.46GHz, for example. But it is also possible, a radio network 10 with a limited range of a few centimeters to a few meters, as it is known in Radio Frequency Identification Devices (RFID). In Fig. 2 to 9, this communication is represented by curved triple-circle segments. The radio network 10 allows bidirectional communication in accordance with known and preserved network protocols such as Transmission Control Protocol / Internet Protocol (TCP / IP) or ZigBee Protocol.

At least one control device 41 has at least one processor and at least one computer-readable data memory. From the computer-readable data memory, at least one computer program means is loaded into the processor and executed. The computer program means establishes a connection to the antenna 40 via at least one signal line and a connection to the elevator control 4 via at least one signal line. The controller 41 may be housed in a separate housing with electrical power. However, the control device 41 may be ^¬ as Emschub part of the elevator control 4 and are powered by an electrical power supply of the elevator control 4 with electric current. With knowledge of the invention, the communication module can of course also communicate via landline with the control device. It is also possible that the communication module communicates directly with the elevator control and transmits the identifier signal directly to the elevator control. Again, the communication module can communicate via wireless network or landline with the elevator control.

For an identifier signal received from the control device 41, at least one start call and at least one destination call are generated. The computer program means of the control device 41 generates different start calls and destination calls for different identifier signals:

From the main station destination call: Upon receipt of this identifier signal, the controller 41 inputs Star call for the elevator car 7 on a predefined floor 1, 1 ', I ¹ ' of a main station generated and it is a destination call to the floor 1, 1 ', 1''of the call input generated. This start call and this destination call are transmitted via the signal line to the elevator control 4 and executed by the computer program means of the elevator control 4.

From parking deck destination call: Upon receipt of this identifier signal is generated by the control device 41, a start call for the elevator car 7 on a predefined floor 1, 1 ', l' ^{1 of} a parking deck and it is a destination call to the

Floor 1, 1 ', 1' 'of the call input generated. This start call and this destination call are transmitted via the signal line to the elevator control 4 and executed by the computer program means of the elevator control 4.

To-main station destination call: Upon receipt of this identifier signal, a start call for the elevator car 7 to the floor 1, 1 ', 1' 'of the call input is generated by the control device 41 and a destination call to a predefined floor 1, 1' is generated. , 1 '' of a main station generated. This start call and this destination call are sent via the signal line to the

Elevator control 4 transmitted and executed by the computer program means of the elevator control 4.

To-park deck destination call: Upon receipt of this identifier signal, the controller 41 generates a start call for the elevator car 7 to the floor 1, 1 ', 1''of the call input and a destination call to a predefined floor 1, 1', I ¹ 'generated a parking deck. This start call and this destination call are transmitted via the signal line to the elevator control 4 and executed by the computer program means of the elevator control 4.

For restaurant destination call: Upon receipt of this identifier signal is from the controller 41, a start call for the elevator car 7 on the floor 1, 1 ', 1''of the call input and generates a destination call on a predefined floor 1, 1 ', I ¹ ' of a restaurant. This start call and this destination call are transmitted via the signal line to the elevator control 4 and executed by the computer program means of the elevator control 4.

The computer program means of the elevator control 4 controls elevator drive 5 and the Turantπeb 31 with this start call and this destination call such that the elevator car 7 with closed elevator doors 3, 3 ', 3' 'on the designated by the start floor floor 1, 1', 1 '' is moved. Upon arrival of the elevator car 7 on the start floor, the elevator door 3, 3 ', 3' 'of the start floor is opened. At least one person enters the elevator car 7. This can be determined by common and known means such as a weight mat or a light barrier. After the person the

The elevator car 3 has entered the elevator car 3, 3 ', 3''of the start floor and the elevator car 7 is moved to the designated by the destination floor floor 1, 1', I ¹ '. Upon arrival of the elevator car 7 on the destination floor, the elevator door 3, 3 ', 3''of the destination floor is opened. The person leaves the elevator car 7.

The Gebaudetur security or Gebaudetur-Entsicherung is building-door-specific or person-specific controlled. At each closure of the building 2, 2 ', 2''either the Gebaudetur-fuse or the Gebaudetur-Entsicherung be executed. For this purpose, at least one building profile or at least one person profile is stored in the computer-readable data memory of the communication module 93. In Gebaudeturprofil or in the person profile is defined whether and under what condition for a Gebaudetur 2, 2 ', 2''the Gebaudetur backup or the Gebaudetur-release is performed. This applies to every state of the building 2, 2 ', 2'', ie an open or closed Gebätetur 2, 2', 2 ''. This also applies to the direction of opening or closing of the building 2, 2 ', 2'', ie via the inner pawl 100 or via the outer pawl 100. After closing the building 2, 2 ', 2''is checked whether as a condition at least a predefined period of time has elapsed since the closing of Gebaudetur or if as a condition at least one closing time of Gebaudetur 2, 2', 2 '' in at least is a predefined period of time or whether the current time of Gebaudetur 2, 2 ', 2''is in at least one predefined period of time as a condition. The closing time is the time at which the building 2, 2 ', 2''was closed. The current time is the current time of a timer of the communication module 93. For example, the building 2, 2 ', 2''after a fixed period of 5 Secured. Such a building profile is suitable for an apartment in an apartment building. For example, the building 2, 2 ', 2''in the specified period from 8 o'clock in the morning until 18 o'clock in the evening permanently unlocked, while the building 2, 2', 2 '' in the specified period from 18 o'clock in the evening to 8 o'clock in the morning after a permanently secured for a specified period of 10 seconds. Such a building profile is suitable for a public business space such as a bar, a shop, etc. For example, the building becomes

2, 2 ', 2' 'is automatically secured after closing by a person after 3 seconds. Such a person profile is suitable for a non-public office space, where the building 2, 2 ', 2' 'is always secured after entering by the person. For example, the building 2, 2 ', 2 "is to be secured in the specified period from 10 pm to 6 am, i. if at the current time at 22 o'clock the building 2, 2 ', 2' 'is unlocked, the building security is executed. And conversely, if at the current time at 6 o'clock in the morning building 2, 2 ', 2' 'is secured the building

Unlocking carried out. Such a building profile is suitable for an entrance door to a building, which entrance door is unlocked until 22 o'clock in the evening and is then automatically secured. And vice versa, which entrance door is secured until 6 o'clock in the morning and then automatically unlocked. A person who desires access through the building 2, 2 ', 2 "may identify himself by communicating via the radio network 10 with the communication module 93. 2, the person has at least one transmission unit 60, which transmits at least one identification code to the antenna 40 of the communication module 93 in the radio network 10. The transmission unit 60 is, for example, an RFID with at least one electrical coil and at least one computer-readable data memory with at least one identification code. As soon as the RFID is held by the person, for example to the outer fitting or inner fitting of the closed building structure 2, 2 ', 2 ", the RFID in the radio network 10 with a limited range of a few centimeters is energetically activated via the electrical coil and the identification code becomes sent via the electrical coil to the antenna 40 of the communication module 93. em

Person profile can have different conditions for one and the same building 2, 2 ', 2' 'at different times. Thus, it can be controlled by the communication module 93 whether the person is authorized to open the closed building 2, 2 ', 2 "at the time of reception of the identification code, i. whether a building door release is carried out for the received identification code. For example, in the specified period from 8 o'clock in the morning until 6 o'clock in the evening, a person can carry out the building safety release and open a closed building 2, 2 ', 2' 'via the outside latch 100, while the person stays in the fixed period from 18 o'clock in the evening to 8 o'clock In the morning, the Gebaudetur-Entsicherung can not run and, accordingly, the closed Gebaudetur 2, 2 ', 2' 'can not open on the outer pawl 100.

Claims

claims

1. A method for operating an elevator system with at least one elevator car (7) in a building with at least two floors (1, 1 ', l' ¹ ) and at least one Gebaudetur (2, 2 ', 2'') on a floor (1 , 1 ', I ¹ '), characterized in that at least one input device (92) of the Gebaudetur (2, 2 ', 2'') at least one functional identifier (92.21, 92.22, 92.23, 92.24) is actuated; in that at least one identifier signal is generated by the actuated functional identifier (92.21, 92.22, 92.23, 92.24); and that with one

Identifier signal a start call for the elevator car (7) is carried out on a start floor; and that with the start floor either the floor (1, 1 ', I ¹ ') of the input device (92) or a predefined floor (1, 1 ', 1'') is called.

2. The method ACCORDING claim 1, characterized in that the functional identifier (92.21, 92.22, 92.23, 92.24) of the input device (92) on the side of Gebaudetur (2, 2 ', 2' ') to the interior of the building or to Inside a room in the building is pressed.

3. Method according to one of claims 1 or 2, characterized in that a destination call for the elevator car (7) to a destination floor is carried out with an identifier signal; and that with the destination floor another floor (1, 1 ', I ¹ ') is referred to as the start floor.

4. Method according to claim 3, characterized in that if the floor of the starting floor (1, 1 ', I ¹ ') of the input device (92) is designated, with the destination floor a predefined floor (1, 1 ', 1'' ) referred to as.

5. A method according to claim 3, characterized in that if, with the start floor, a predefined floor (1, 1 ', I' ¹ ), with the destination floor the floor (1, 1 ', 1'') of the input device (92) is designated.

6. A method according to any one of claims 4 or 5, characterized in that with the predefined floor (1, 1 ', l' ¹ ) a floor (1, 1 ', I ¹ ') of a main stop in the

Building is called; and / or that the floor (1, 1 ', 1'') of a parking deck in the building is designated by the predefined floor (1, 1', 1 ''); and / or that with the predefined floor (1, 1 ', I ¹ ') a floor (1, l ', l'') of a restaurant in the building is called; and / or that with the predefined floor (1, 1 ', 1'') a floor (1, l', l '') of a gym in the building is called; and / or that with the predefined floor (1, 1 ', I ¹ ') a floor (1, l ', l'') of a meeting room in the building is called; and / or that with the predefined floor (1, 1 ',

I ' ¹ ) a floor (1, l', l '') of an operating room in the building is called; and / or that with the predefined floor (1, 1 ', I' ¹ ) a floor (1, l ', l'') of a library in the building is called; and / or that with the predefined floor (1, 1 ', I' ¹ ) a floor (1, l ', l'') of a workshop in the building is called; and / or that with the predefined floor (1, 1 ', I' ¹ ) a floor (1, l ', l'') of a loft in the building is called; and / or that with the predefined floor (1, 1 ', 1'') a floor (1, l', l '') of a cellar in the building is called; and / or that with the predefined floor (1, 1 ', I ¹ ') a floor (1, l ', l'') of a laundry room in the building is called.

7. The method according to one of claims 1 to 6, characterized in that the identifier signal via at least one electrical conductor (93.3) or at least one bus system (93.4) is transmitted to at least one communication module (93); and that the transmitted identifier signal is transmitted from the communication module (93) in at least one radio network (10) to at least one control device (41).

8. Method according to claim 7, characterized in that at least one start call is generated by the control device (41) for a received identifier signal; and that is ^¬ averages this Startruf by the control device (41) via at least one signal line to at least one elevator controller (4).

9. A method according to claim 8, characterized in that at least one destination call is generated by the control means (41) for a received identifier signal; and that this destination call from the control device (41) via at least one signal line to the elevator control (4) is transmitted.

10. The method ACCORDING claim 9, characterized in that the elevator car (7) of the elevator control (4) is first moved to the start floor and then to the destination floor.

11. Method according to claim 10, characterized in that as soon as the elevator car (7) has reached the start floor or the destination floor, an elevator door (3, 3 ', 3' ') of the start floor or the destination floor is opened by the elevator control (4) ,

12. The method ACCORDANCE one of claims 1 to 11, characterized in that with an identifier signal a Gebaudetur- securing the Gebaudetur (2, 2 ', 2' ') or a Gebaudetur- EntSicherung the Gebaudetur (2, 2', 2 ' ') of the input device (92) is executed.

13. Method according to claim 12, characterized in that the identifier signal is transmitted to at least one coupling (98.1) of the building (2, 2 ', 2''); and that from the clutch (98.1) an outer pawl (100) of the building door (2, 2 ', 2'') is coupled or decoupled with at least one nut (98).

14. A method according to claim 13, characterized in that for a transmitted identifier signal at least one actuator of the clutch (98.1) is supplied with electric current; that at least one clutch lever is moved by the actuator supplied with electric power; in that a connection between at least one outer shaft (100.1) of the outer pawl (100) and the nut (98) is deactivated for a building door lock or that a connection between at least one outer shaft (100.1 ) of the outer pawl (100) and the nut (98) is activated.

15. The method ACCORDANCE one of claims 1 to 14, characterized in that on the input device (92) a generated identifier signal is confirmed.

16. Elevator system for carrying out the method according to one of claims 1 to 15.

17. Elevator system according to claim 16, characterized by a building structure (2, 2 ', 2' ') according to one of claims 28 to 61.

18. A method for operating a Gebaudetur (2, 2 ', 2' ') on a floor (1, 1', 1 '') of a building, characterized in that on at least one input device (92) of the Gebaudetur (2, 2 ', 2' ') at least one functional identifier (92.21, 92.22, 92.23, 92.24) is actuated; in that at least one identifier signal is generated by the actuated functional identifier (92.21, 92.22, 92.23, 92.24); and that with an identifier signal a Gebaudetur-securing the Gebaudetur (2, 2 ', 2' ') and a Gebaudetur-Entsicherung the Gebaudetur (2, 2', 2 '') of the input device (92) is executed.

19. Method according to claim 18, characterized in that the functional identifier (92.21, 92.22, 92.23, 92.24) of the

Input device (92) on the side of the building (2, 2 ', 2 '') to the interior of the building or to the interior ernes space is operated in the building.

20. Method according to one of claims 18 or 19, characterized in that the identifier signal is transmitted to at least one coupling (98.1) of the building door (2, 2 ', 2' '); and that from the clutch (98.1) an outer pawl (100) of the building door (2, 2 ', 2' ') is coupled or decoupled with at least one nut (98).

21. The method according to claim 20, characterized in that for a transmitted identifier signal at least one actuator of the clutch (98.1) is supplied with electric current; that at least one clutch lever is moved by the actuator supplied with electric power; that for a Gebaudetur backup of the moving clutch lever, a connection between at least one outer shaft (100.1) of the outer pawl (100) and the nut

(98) is deactivated or that for a Gebaudetur-release of the moving clutch lever, a connection between at least one outer shaft (100.1) of the outer pawl (100) and the nut (98) is activated.

22. The method ACCORDANCE one of claims 18 to 21, characterized in that on the input device (92) a Gebaudetur-securing the Gebaudetur (2, 2 ', 2' ') and a Gebaudetur-Entsicherung the Gebaudetur (2, 2' , 2 '') is confirmed.

23. The method ACCORDANCE one of claims 18 to 22, characterized in that if at least one condition is met, after the closing of Gebaudetur (2, 2 ', 2' ') a Gebaudetur backup or Gebaudetur-release is performed.

24. A method according to claim 23, characterized in that the condition is defined in at least one Gebaudeturprofil or at least one person profile.

25. Method according to one of claims 23 or 24, characterized in that, after closing the building door (2, 2 ', 2' '), it is checked whether as a condition at least one predefined period of time since the closing of the building door (2, 2'). , 2 '') has elapsed or whether at least one closing time of the building door (2, 2 ', 2' ') is present in at least one predefined period of time or if at least one current time is present in at least one predefined period of time as a condition.

26. The method ACCORDANCE one of claims 18 to 25, characterized in that at least an identification code is sent in at least one radio network (10) to at least one communication ^¬ module (93); that the identification code is received by the communication module (93); and that at least one condition is defined in at least one person profile, whether a Gebaudetur- unlocking is performed for the received identification code.

27. The method ACCORDING to claim 26, characterized in, it is checked whether a condition is at least one reception time of the identification ^¬ codes in at least a predefined period of time that, for a closed Gebaudetur (2, 2 ', 2'').

28. Gebaudetur for carrying out the method ACCORDANCE one of claims 18 to 27.

29. Building structure (2, 2 ', 2' ') according to claim 28, characterized in that the functional identifier (92.21, 92.22, 92.23, 92.24) of the input device (92) on an inner fitting of Gebaudetur (2, 2', 2 ' ') is arranged.

30. Building structure (2, 2 ', 2'') according to claim 29, characterized in that the functional identifier (92.21, 92.22, 92.23, 92.24) of the input device (92) is placed on at least one display (92.2); and that a front of the display (92.2) through at least one recess of the Innenbeschlags the Gebaudetur (2, 2 ', 2'') is betatigbar or visible.

31. Gebaudetur (2, 2 ', 2' ') according to any one of claims 29 or

30, characterized in that a plurality of functional identifiers (92.21, 92.22, 92.23, 92.24) are placed in a symmetrical relationship to each other on at least one display (92.2).

32. Gebaudetur (2, 2 ', 2' ') according to any one of claims 30 or

31, characterized in that the display (92.2) is at least partially optically transparent or semi-transparent.

33. Gebaudetur (2, 2 ', 2' ') according to one of claims 29 to

32, characterized in that the functional identifier (92.21, 92.22, 92.23, 92.24) is a pictogram or an alphanumeric string.

34. Gebaudetur (2, 2 ', 2' ') according to one of claims 29 to 33, characterized in that the input device (92) is a mechanical switch or an electronic switch.

35. Gebaudetur (2, 2 ', 2 ¹ ') according to claim 34, characterized in that the mechanical switch has at least one display (92.2); that the functional identifier (92.21, 92.22, 92.23, 92.24) of the input device (92) is placed on the display (92.2); that the mechanical switch has at least one contact element (92.5); and that the contact element (92.5) is arranged behind the display (92.2) with respect to an inner shield (90) of the inner fitting.

36. Gebaudetur (2, 2 ', 2'') according to claim 35, characterized in that the contact element (92.5) has at least one electrical contact (92.51, 92.52, 92.53); that the electrical contact (92.51, 92.52, 92.53) is switchable in at least two states; and that display (92.2) and contact element (92.5) are arranged in mechanical interaction with respect to one another such that an actuated functional identifier (92.21, 92.22, 92.23, 92.24) switches an electrical contact (92.51, 92.52, 92.53) and generates an identifier signal.

37. Building structure (2, 2 ', 2' ') according to claim 36, characterized in that the electrical contact (92.51, 92.52, 92.53) of the contact element (92.5) at the location coordinate of the functional identifier (92.21, 92.22, 92.23, 92.24 ) of the display (92.2) is placed.

38. building (2, 2 ', 2' ') according to one of claims 36 or 37, characterized in that the electrical contact (92.51, 92.52, 92.53) at the location coordinate of the functional identifier (92.21, 92.22, 92.23, 92.24) generates an identifier signal corresponding to the identifier signal of the building function of the functional identifier (92.21, 92.22, 92.23, 92.24).

39. Gebaudetur (2, 2 ', 2' ') according to one of claims 36 to 38, characterized in that the electrical contact (92.51,

92.52, 92.53) is a microswitch.

40. Gebaudetur (2, 2 ', 2' ') according to one of claims 35 to 39, characterized in that at least one rocker (92.40) between the display (92.2) and the contact element (92.5) is arranged; and that the display (92.2) via the rocker (92.40) movable to the contact element (92.5) is arranged.

41. Gebaudetur (2, 2 ', 2 ¹ ') according to claim 40, characterized in that at least one web (92.40 '') of the rocker

(92.40) is in mechanical contact with at least one front side of the contact element (92.5); and that at least one pin (92.40 ') of the rocker (92.40) in at least one groove (92.50') on the front side of the contact element (92.5) is movable.

42. Gebaudetur (2, 2 ', 2'') according to one of claims 35 to 41, characterized in that the contact element (92.5) has at least one lamp (92.55); and that the light (92.55) is visible through the display (92.2).

43. Gebaudetur (2, 2 ', 2 ¹ ') according to claim 42, characterized in that the lamp (92.55) optically confirms a generated identifier signal.

44. Gebaudetur (2, 2 ', 2' ') according to one of claims 35 to 43, characterized in that at least one turbo fitting (9,

9 ', 9' ') has at least one buzzer (92.56); and that the buzzer (92.56) acoustically confirms a generated identifier signal.

45. Gebaudetur (2, 2 ', 2' ') according to claim 34, characterized in that the electronic switch has at least one display (92.2); that the functional identifier (92.21, 92.22, 92.23, 92.24) of the input device (92) is displayed on the display (92.2); an actuated functional identifier (92.21, 92.22, 92.23, 92.24) in the electronic switch generates at least one fault with the location coordinate of the actuated functional identifier (92.21, 92.22, 92.23, 92.24); and that the electronic switch detects the fault.

46. Gebaudetur (2, 2 ', 2' ') according to claim 45, characterized in that the electronic switch of

Spatial coordinate of the detected disturbance assigns a building function of the actuated functional identifier (92.21, 92.22, 92.23, 92.24); and that the electronic switch for the associated building function generates an identifier signal.

47. The building (2, 2 ', 2 ¹ ') according to claim 46, characterized in that at least one confirmation (92.25) optically confirms a generated identifier signal; the confirmation (92.25) is shown on the display (92.2).

48. Building (2, 2 ', 2' ') according to claim 47, characterized in that the confirmation (92.25) at the

Location coordinate of the actuated functional identifier (92.21, 92.22, 92.23, 92.24) of the input device (92) is placed.

49. The building (2, 2 ', 2' ') according to one of claims 47 or 48, characterized in that the confirmation (92.25) is a pictogram or an alphanumeric string.

50. building structure (2, 2 ', 2' ') according to one of claims 46 to 49, characterized in that at least one turbo fitting (9,

9 ', 9' ') has at least one buzzer (92.26); the buzzer (92.56) acoustically confirms a generated identifier signal.

51. Gebaudetur (2, 2 ', 2' ') according to one of claims 38 to 50, characterized in that a functional identifier

(92.21, 92.22, 92.23, 92.24) is a start call for an elevator car (7) on a start floor; and that the starting floor is either the floor (1, 1 ', I ¹ ') of the input device (92) or a predefined floor (1, 1 ', 1'').

52. The building (2, 2 ', 2'') according to claim 51, characterized in that an identifier signal is a destination call for the elevator car (7) to a destination floor; and that the destination floor refers to another floor (1, 1 ', I' ¹ ) than the starting floor.

53. The building (2, 2 ', 2'') according to claim 52, characterized in that if the starting floor designates the floor (1, 1', l ' ¹ ) of the input device (92), the destination floor is a predefined floor (1 , 1 ', I ¹ ').

54. Building (2, 2 ', 2 ¹ ') according to claim 52, characterized in that if the starting floor designates a predefined floor (1, 1 ', I' ¹ ), the destination floor is the floor (1, 1 ', 1 '') of the input device (92).

55. Gebaudetur (2, 2 ', 2'') according to one of claims 53 or 54, characterized in that the predefined floor (1, 1', 1 '') a floor (1, 1 ', 1'') a main stop in the Designated building; and / or that the predefined floor (1, 1 ', 1'') denotes a floor (1, 1', I ¹ ') of a parking deck in the building; and / or that the predefined floor (1, 1 ', l' ¹ ) denotes a floor (1, l ', l'') of a restaurant in the building; and / or that the predefined floor (1, 1 ', 1'') denotes a floor (1, l', l '') of a fitness studio in the building; and / or that the predefined floor (1, 1 ', 1'') denotes a floor (1, 1', 1 '') of a meeting room in the building; and / or that the predefined floor (1, 1 ', l' ¹ ) denotes a floor (1, l ', l'') of an operating room in the building; and / or that the predefined floor (1, 1 ', 1'') denotes a floor (1, l', l '') of a library in the building; and / or that the predefined floor (1, 1 ', 1'') denotes a floor (1, l', l '') of a workshop in the building; and / or that the predefined floor (1, 1 ', 1'') denotes a floor (1, l', l '') of a loft in the building; and / or that the predefined floor (1, 1 ', l' ¹ ) denotes a floor (1, l ', l'') of a basement in the building; and / or that the predefined floor (1, 1 ', 1'') denotes a floor (1, l', l '') of a laundry room in the building.

56. Gebaudetur (2, 2 ', 2' ') according to one of claims 28 to 55, characterized in that the input device (92) the identifier signal via at least one electrical conductor (93.3) or at least one bus system (93.4) at least one communication module (93) transmitted; and that the communication module (93) transmits the transmitted identifier signal in at least one radio network (10) to at least one control device (41).

57. Gebaudetur (2, 2 ', 2'') according to claim 56, characterized in that the communication module (93) on the Gebaudetur (2, 2', 2 '') is arranged.

58. Gebaudetur (2, 2 ', 2' ') according to claim 57, characterized in that the communication module (93) on at least one outer fitting of the Gebaudetur (2, 2', 2 '') is arranged.

59. Gebaudetur (2, 2 ', 2' ') according to claim 58, characterized in that the communication module (93) in at least one cavity between an outer shield (99) and an outer mounting plate (97) of the Gebaudetur (2, 2 ', 2' ') is arranged.

60. Gebaudetur (2, 2 ', 2' ') according to one of claims 28 to 59, characterized in that at least one electrical

Power supply (101) on at least one outer fitting of Gebaudetur (2, 2 ', 2' ') is arranged; and that the electrical power supply (101) at least one electrical load of Gebaudetur (2, 2 ', 2' ') energetically autonomously supplied with electrical power.

61. Gebaudetur (2, 2 ', 2' ') according to claim 60, characterized in that the electrical load is an input device (92) or a clutch (98.1) or a communication module (93).

62. A method for maintaining an elevator system according to one of claims 16 or 17 or a Gebätetur (2, 2 ', 2' ') according to one of claims 28 to 61, characterized in that at least one electrical power supply (101) on at least one Exterior fitting of the building (2, 2 ', 2' ') is replaced.

63. The method according to claim 62, characterized in that the electrical power supply (101) from the side of Gebaudetur (2, 2 ', 2' ') for moving out of the building or for decommissioning a room in the building is replaced.

64. The method according to any one of claims 62 or 63, characterized in that an existing electrical power supply (101) is removed from at least one compartment (101.1) of the exterior fitting of the building (2, 2 ', 2''); and that a new electrical power supply (101) in the compartment (101.1) of the outer fitting of Gebaudetur (2, 2 ', 2'') is inserted.

65. The method according to claim 64, characterized in that an existing electrical power supply (101) is drawn from a arranged in a lower portion of the outer fitting compartment (101.1); and that a new electrical power supply (101) is pushed into this compartment (101.1).

66. The method according to any one of claims 64 or 65, characterized in that at least one sabotage alarm signal is generated if the electrical power supply (101) from the compartment (101.1) of the outer fitting of Gebaudetur (2, 2 ', 2' ') Will get removed.

67. Method according to claim 66, characterized in that the sabotage alarm signal and at least one address of the building (2, 2 ', 2' ') of at least one communication module (93) in at least one radio network (10) to at least one control center ( 51).

68. The method according to claim 67, characterized in that the sabotage alarm signal and the address of Gebaudetur (2, 2 ', 2' ') from the control center (51) are received; and that from the central (51) for a received sabotage alarm signal at least one security officer to the address of Gebaudetur (2, 2 ', 2' ') is offered.

69. Method according to one of claims 62 to 68, characterized in that an electrical voltage of the electrical power supply (101) is monitored; that at least one voltage alarm signal is generated when falling below a threshold value of the electrical voltage; and that the voltage alarm signal and at least one address of the Gebätetur (2, 2 ', 2'') of at least one communication module (93) in at least a radio network (10) to at least one control center (51) are sent.

70. The method according to claim 69, characterized in that the voltage alarm signal and the address of Gebaudetur (2, 2 ', 2' ') are received by the control center (51); in that at least one service technician is provided by the control center (51) for a received voltage alarm signal to the address of the building (2, 2 ', 2' '); and that the electrical power supply (101) of this Gebaudetur (2, 2 ', 2' ') is replaced by the service technician.

71. A computer program product comprising at least one computer program means which is suitable, the method for operating an elevator system according to one of claims 1 to 15 or the method for operating a Gebätetur (2, 2 ', 2' ') according to one of the claims 18 to 27 in that at least one method step is carried out when the computer program means is loaded into the processor of a communication module (93) or an input device (92) or a control device (41) or an elevator control (4) ,

72. A computer readable data store comprising a computer program product according to claim 71.

73. A method for rethinking an existing elevator with at least one elevator car (7) in a building with at least two floors (1, 1 ', 1'') and at least one existing building on a floor (1, 1', I ¹ ') , characterized in that at least one Turbeschlag the existing Gebaudetur by a Turbeschlag (9, 9 ', 9'') of Gebaudetur (2, 2', 2 '') according to one of claims 28 to 61 is replaced or that at least one existing Gebaudetur by Gebaudetur (2, 2 ', 2'') according to one of claims 28 to 61 is replaced.

74. A method for retrofitting an existing building on a floor (1, 1 ', l' ¹ ) of a building, characterized in that at least one turbo fitting of the existing building by a turbo fitting (9, 9 ', 9'') of a building ( 2, 2 ', 2'') according to one of claims 28 to 61 is replaced or that at least one existing Gebaudetur by a Gebaudetur (2, 2', 2 '') according to one of claims 28 to 61 is replaced.

75. The method according to any one of claims 73 or 74, characterized in that at least one antenna (40) is installed in the building; that at least one control device (41) is installed in the building; wherein the antenna (40) is adapted to receive in at least one radio network (10) at least one identifier signal from at least one communication module (93) and to transmit the received identifier signal to the control device (41); and that the control device (41) is connected to an existing elevator control (4) via at least one signal line; wherein the control means (41) is adapted to generate at least one start call for a received identifier signal and to transmit via the signal line to the elevator control (4).