EP4051612A1 - Mobile control unit and method for remotely controlling a lift installation - Google Patents

Abstract

The present invention relates to a mobile control unit and to a method for remotely controlling a lift installation in an inspection operation, wherein the lift installation comprises a lift cabin (3), a lift controller (4) and a safety circuit (5), wherein the lift controller (4), in a normal operation of the lift installation (1) with the safety circuit (5) electrically closed, can automatically control the lift cabin (3) for movement. The mobile control unit (2) is connected to the lift installation (1) for control of the lift installation (1) in such a manner that the mobile control unit (2) can switch the lift installation (1) between normal operation and inspection operation; in inspection operation of the lift installation (1), the lift cabin (4) can be controlled manually for movement using the mobile control unit (2).

Description

Mobile control device and method for remote control of an elevator system

description

The present invention relates to a mobile control device and a method for remote control of an elevator installation in its inspection operation or an elevator installation which can be controlled by such a mobile control device or method.

An elevator system is used to transport people through an elevator car within buildings, namely between different floors. In order to be able to guarantee the safety of passengers or service personnel, the elevator system must be regularly or periodically inspected and maintained. For maintenance or for carrying out inspection and maintenance work, an elevator system must be put into an inspection or maintenance mode in which the elevator car is only allowed to travel by manual control at walking speed and, under certain circumstances, only between certain positions within the elevator shaft. In order to switch the elevator system to inspection mode, a service technician normally first has to get into the elevator shaft via a shaft door or maintenance hatch, since a control device, e.g. an operating device, is located in the shaft and is available to manually control the elevator car during maintenance work to be controlled. This control device is to be switched on or off by a toggle switch, usually called an inspection switch. After a maintenance work has ended, the inspection maintenance mode can be ended by deactivating this control device. In addition, such a control device is arranged as a fixed inspection operating device in accordance with the EN81-20 standard on the roof of the elevator car and in the shaft pit of an elevator system, the mobility of the technician during inspection / maintenance work is limited only within the shaft, either on the roof of the Elevator car or in the shaft pit.

During the control of the elevator system, all current safety-relevant states of a number of components of the elevator system, in particular a so-called safety chain, should be monitored. The safety chain is also referred to as a safety circuit. It is the entirety of the electrical safety devices connected in series, such as the door contacts, bolt contacts or contacts of the Safety gear. If one of these safety switches is interrupted, the entire chain is considered interrupted and the elevator is not allowed to move. The elevator control can only move the elevator car in the elevator shaft when the safety chain is closed as a whole. After maintenance / inspection work, the elevator system can be switched back to regular ferry operation (normal operation) by switching the control device in the shaft to normal mode and closing or locking the shaft door, as well as by closing the safety chain.

In view of the above explanation, a technician can set an elevator system into the inspection mode only if he has entered the elevator shaft through a shaft door and has reached the control device. However, during the time in which the technician is in the elevator shaft but does not yet have the control device in hand, the elevator car could suddenly move in spite of the presence of the technician. As a rule, a so-called emergency stop switch is therefore arranged in the shaft next to the shaft door, but mostly only on the ground floor. An emergency stop switch is used to immediately bring an elevator system to a standstill in the event of danger or to avert danger. But a technician either occasionally forgets to press the emergency stop button or fails to do so because of annoyance, because otherwise he has to return to the shaft after activating the control device and release the pressed emergency stop button. Such a dangerous scenario is to be avoided in any case.

One aspect of the present invention can be seen in ensuring the work safety of an elevator installation, in particular in maintenance / inspection work. Among other things, there may be a need for a larger and flexible operation zone for service technicians, whereby maintenance / inspection work can be carried out comfortably but also safely.

Such a need mentioned above can be met by the subject matter of one of the independent claims. Advantageous embodiments are defined in the dependent claims and the description below.

According to the invention, a mobile control device for remote control of an elevator system in an inspection operation is provided, the elevator system being an elevator car, a Includes elevator control and a safety circuit, which is usually also referred to as a safety chain of the elevator system. The elevator control can, for example, be a central main control of the elevator system, which processes a request signal from an operating panel (COP: car operation panel or LOP: lobby operation panel) and controls the movement of the elevator car accordingly, or it can be a subordinate special control. The elevator control can therefore automatically control the elevator car for moving in normal operation of the elevator installation when the safety circuit is electrically closed. Of course, if the safety circuit is electrically interrupted, the elevator car will be blocked for movement. The mobile control device can be connected to the elevator system to control the elevator system in such a way that the mobile control device can switch the elevator system to normal operation and / or inspection mode, and that in inspection mode the elevator car can be manually controlled for movement by the mobile control device.

Automatic control of the elevator car means that the elevator control executes an algorithm or a program after a triggered start signal, which can be a signal generated externally or internally, and thus to carry out one or more process operations of the elevator car. Manual control is understood here to mean that the elevator system only reacts to current handling by a person using a switch (e.g. button or button), which directly causes the elevator car to move after handling (after releasing the button or button) the reaction of the elevator system or the movement of the elevator car also ends. Typically, an elevator car travels under an automatic control at a higher travel speed or a greater acceleration, while under a manual control only at a low travel speed or a lower acceleration.

A technician can then manually control the elevator car for movement in the inspection operation of the elevator system by operating the mobile control device. When the elevator system is switched to normal operation, the mobile operating device can be separated from the elevator system. It is then no longer necessary for an inspection operating device to be available on the roof of the elevator car and / or in the shaft pit. The inspection control device or devices can be replaced by the mobile control device become. In other words, the mobile operating device can be used functionally instead of a local inspection operating device. It is thus possible to switch an elevator system into its inspection mode without a technician having to go into the shaft of the elevator system in particular. Even if a local inspection control unit has already been installed in the shaft of an elevator system, it does not need to be dismantled. In this case, the mobile control device can also take over the responsibility of the existing inspection control device, namely the control of the elevator system in the inspection mode. If the local inspection control device has an emergency stop switch or an emergency pull-out function, this switch or this shut-off function can, however, continue to function alongside the mobile control device. Such a takeover can take place automatically if, for example, a higher priority is given to the mobile operating device than the inspection operating device. Alternatively, you can start this takeover by the mobile control device manually if you first set up a communication link between the mobile control device and the elevator control. For safety reasons, an emergency stop switch can be left on the roof of the elevator car and / or in the chess pit instead of an inspection control device, even if the inspection control device is no longer required there. If the mobile control device fails or causes an error, the emergency stop switch can be used to interrupt the drive of the elevator system or the movement of the elevator car.

According to an advantageous embodiment of the invention, the safety circuit can be designed as an electrical series circuit which consists of at least one safety element of the elevator system in order to be able to block movement of the elevator car when the series circuit is electrically interrupted. The mobile operating device can be assigned to the safety circuit as an additional safety element. If a current flow or current path through the safety circuit is electrically interrupted, a control of the mobile operating device on the elevator system is also broken. The safety element is, for example, a car / shaft door contact, bolt contact or contact of a safety catch. In the event that the mobile control device is connected to the safety circuit as an additional safety element, the mobile control device is also connected electrically in series with the other safety element or elements of the safety circuit. A real-time system is created from this, with the mobile operating device communicating with the safety circuit in real time can. The mobile operating device can simulate a relay contact, for example, by means of a button on its own or a dedicated software module (dedicated module or apps).

According to an advantageous embodiment of the invention, the safety circuit can be formed by a bus system, such as a wired or wireless bus system, in particular a CAN bus system, wherein the mobile operating device can be assigned to the safety circuit as a bus node. The connection can be implemented, for example, using a software module. A real-time system for controlling the elevator system in inspection operation is also created via the bus system. The elevator control can monitor a switching state of the safety circuit or the mobile control device. If the switching state indicates an error or an unsafe situation, the elevator control can prevent the elevator car from moving.

Regardless of how the safety circuit is designed by an electrical circuit or a bus system, the safety circuit and / or the mobile control device for data communication with the elevator control can also be connected in a wired, wireless manner or via the bus system. In this way, a technician in the shaft can always communicate with the elevator system in real time using the latest information.

According to an advantageous embodiment of the invention, the position of the mobile operating device can be determined by the elevator control. The mobile control device can be positioned using near field communication (NFC) such as RFID (Radio Frequency Identification) or Bluetooth communication, with the mobile control device possibly using other components or sensors in the elevator system or via communicate with the elevator control via the bus system if the distance between the elevator control and the mobile control device is too far for direct communication. Alternatively, it may be necessary to scan a QR code of a component (e.g. sensors or days) of the elevator system during inspection / maintenance work after a certain time or periodically with the mobile control device, whereby the position of a technician in the shaft can be determined. According to a further advantageous embodiment of the invention, the mobile control device can communicate with a wireless or mobile communication network, the mobile control device being, for example, a mobile radio device. As a result, communication can be established between the mobile operating device and a remote control center or a server or a cloud server. It is then possible for a service technician to receive or download all the necessary documentation or information on site at an elevator system. In addition, he can send recorded data or a prepared test report to a remote control center. This could be helpful for remote diagnosis of the elevator system. The mobile control device can be provided with a display for displaying, for example, the downloaded information. For this purpose, other information that is determined by the elevator control or the safety circuit can also be displayed.

According to a further advantageous embodiment of the invention, the mobile control device can comprise a switching means for switching the elevator system between normal operation and inspection operation, the switching means being an electromechanical means and / or a software function (e.g. an app or a menu item). An electromechanical means is, for example, a simple rotary switch. A combined rotary / pressure switch, pressure switch or toggle switch, which are connected in series, are also possible. If the display of the mobile operating device is a touchscreen, a representation of a button that corresponds to the switching means is provided on the touchscreen. In addition, the mobile control device can be provided with an emergency shut-off device. This emergency shut-off device can be configured just like the switching device of the mobile control device. Thus, a technician can always take a safety measure during his higher mobility in the shaft.

According to another aspect of the invention, a method for controlling an elevator system is proposed, in which the elevator system has an elevator control and an elevator car and a safety circuit. The elevator system in normal operation is automatically controlled by the elevator control when the safety circuit is electrically closed. If the safety circuit is electrically interrupted, the elevator car is blocked from moving. The mobile operating device is used to control the elevator system in this way with the elevator system connected that the elevator system is switched by the mobile control device between normal operation and / or the inspection mode, the elevator car being manually controlled for moving by the mobile control device in the inspection mode of the elevator system.

According to a third aspect of the invention, an elevator system with at least one elevator control and an elevator car and a safety circuit is provided, wherein the elevator control can automatically control the elevator car for moving in normal operation of the elevator system, the elevator system being switched between normal operation and / or can switch to an inspection mode of the elevator system, with the elevator car being manually controllable for movement by the mobile control device in the inspection mode.

It should be noted that some of the possible features and advantages of the invention are described herein with reference to different embodiments. A person skilled in the art recognizes that the features can be combined, adapted or exchanged in a suitable manner in order to arrive at further embodiments of the invention.

Embodiments of the invention are described below with reference to the accompanying drawings, neither the drawings nor the description being to be construed as restricting the invention.

1 shows an elevator installation with two conventional inspection panels;

2 shows an illustration of an elevator installation with a mobile operating device according to the invention; and

3 plan view of a mobile control device according to the invention.

Fig. 1 shows an illustration of an elevator system 1 which is installed in a building with several floors. The elevator installation 1 has a safety circuit 5 which, in addition to the schematically shown elevator installation 1, is shown in detail on the right-hand side thereof. An electric motor 8 drives an elevator car 3 under the control of one Elevator control 4 such as, for example, a main control of the elevator installation 1 in an elevator shaft 9 for movement. A shaft door 12 is provided on each floor and a car door (not shown) is provided on the elevator car 3. The shaft door 12 can be opened or closed alone or together with the car door. A door switch 13 is provided on each of the shaft doors 12 and on the car door; with the aid of such door switches 13 it can be monitored whether the respective shaft or car door 12 is currently correctly closed or opened.

An inspection control panel 10 is available to a technician (not shown) in the shaft 9 for inspection / maintenance work, with which the technician can switch the elevator system 1 to an inspection mode and then manually control the elevator car 3 via the electric motor 8 for movement. For example, a switching position "1" is used for inspection mode and a switching position "0" is used for normal operation. Depending on what type of elevator standard (e.g. EN 81-20) has to be met, two inspection control panels 10 can each be arranged on the roof of the elevator car 3 and in the shaft pit 9a. For this purpose, at least one emergency stop switch 11 is provided in the shaft 9, which is located, for example, on an inner wall of the shaft 9 - often close to a shaft door 12 on the ground floor - or on the roof of the elevator car 3 in order to immediately interrupt the operation of the elevator system and consequently the To lock elevator car 3 to move.

Typically, the door switches 13 of the shaft door and car door 12, the emergency stop switch 11 are connected in series as safety elements 5a, whereby a safety circuit 5 formed as a safety chain is only closed as a whole if all door switches 13 are closed and the emergency stop switch 11 is not released. Since all of the safety elements 5a are coupled to the safety chain 5, when one of the safety elements 5a is opened, the elevator car 3 is blocked from moving. If a door switch 13 is open, the movement of the elevator car 3 is considered to be unsafe and is shut down by the controller 4.

In FIG. 2, a mobile control device 2 according to the invention for controlling or remote control of an elevator installation 1 - as shown in FIG. 1 - is shown in an inspection operation. The mobile operating device 2 is, for example, a mobile telephone or a smartphone, a laptop, a tablet computer or any portable device Communication device. Instead of the two inspection control panels 10 in the shaft pit 9a and on the roof of the elevator car 3, the elevator system 1 can be set to inspection mode by the mobile control device 2 both outside and inside the shaft 9 and then switched back to normal mode. It is then no longer necessary to arrange an inspection control unit 10 in the shaft 9. It is therefore no longer necessary for the technician to make an effort to first reach the inspection operating device 10 in the shaft in order to put the elevator installation 1 into inspection mode. However, only one emergency stop switch 11 could remain on the roof of the elevator car 3 and / or in the chess pit 5a so that the technology can interrupt the safety circuit 5 in an emergency despite faulty control of the mobile operating device 2. If an elevator system 1 also has an inspection control device 10, the function of the existing inspection control device 10 should be taken over by the mobile control device 2 for safety reasons if this elevator system 1 is serviced or inspected by the mobile control device 2. An emergency stop switch or an emergency switching function of the inspection control device 10 can continue to function independently of the mobile control device 2. The takeover of the function of the inspection control device 10 can be manipulated and operated manually, for example, by the mobile control device 2 after a communication link has been established between the mobile control device 2 and the elevator control 4 and the elevator control 4 releases this takeover.

In this exemplary embodiment, the safety circuit 5 and the elevator control 4 are connected via a bus system 15 such as a CAN bus system, the mobile operating device 2 being connected to the bus system 15 as a bus node. The elevator installation 1 can be switched to normal or inspection mode by sending a message from the mobile operating device 2 to the elevator control 4. In addition, the bus system 15 monitors the safety circuit 5. If any safety element 5a of the safety circuit 5 is opened, the elevator car 3 is immediately blocked for movement. Before the safety circuit 5 is closed again, the mobile control device 2 can no longer control the elevator car 3. And the elevator control 4 can determine the position of the mobile operating device 2 or the technician, for example by means of NFC communication, for example RFID. If the elevator installation 1 is switched to normal operation, the mobile control device 2 is switched from the bus system 15 or the Elevator system 1 separated. The elevator control 4 then takes over the control of the elevator installation 1 again from the mobile operating device 2.

In addition, the mobile operating device 2 is connected to a public communication network 7, as a result of which communication between the mobile operating device 2 and a remote control center or a server 17 is established. The technician can then download information from the server 17 at the site of an elevator installation 1 or communicate with the remote control center 17.

3 shows a mobile control device 2 according to the invention. The mobile control device 2 has a display 6 which can, for example, show the information downloaded or determined by the elevator control 4 or the safety circuit 5. The mobile control device 2 also includes a changeover switch 18. So that a technician can manually control the elevator car 3 for movement, the operating mode of the elevator system 1 must first be switched from “normal operation” to “inspection operation” using the changeover switch 18. For example, a switch position "0" is provided for normal operation and a switch position "1" for inspection operation. By actuating two direction buttons 16a, 16b each for the upward and downward direction, the elevator car 3 can be controlled by the mobile control device 2 in a corresponding direction for movement. For this purpose, there is also an emergency stop switch 11 in the mobile operating device 2 in order to be able to immediately interrupt operation of the elevator installation 1. The various switches of the mobile control device 2, such as switches 11, 16a, 16b and 18, can either be used as electromechanical switches (e.g. buttons or buttons) or application software (app) or a graphic menu entry on a user interface (user interface) for the Mobile control device 2 are designed.

In summary, embodiments of the mobile operating device 2 presented here or a method for switching and remote control of an elevator installation 1 in an inspection operation allow a higher mobility for a technology in the shaft in a safe measure.

It is pointed out that possible features and advantages of embodiments of the invention are described herein partly with reference to a method according to the invention and partly with reference to a device according to the invention are. A person skilled in the art will recognize that the individual features can be combined, modified or exchanged in a suitable manner and that in particular features described for the method can be transferred analogously to the device and vice versa in order to arrive at further embodiments of the invention.

Claims

Claims 1. Mobile control device (2) for remote control of an elevator system (1) in an inspection operation, which comprises an elevator car (3), an elevator control (4) and a safety circuit (5), the elevator control (4) in normal operation of the elevator system (1 ) in the electrically closed safety circuit (5) can automatically control the elevator car (3) for movement, the mobile control device (2) for controlling the elevator system (1) being connectable to the elevator system (1) in such a way that the mobile control device (2) the Elevator system (1) can switch between normal operation and inspection mode, and in the inspection mode of the elevator system (1), the elevator car (4) can be manually controlled for moving by means of the mobile control device (2), characterized in that the safety circuit (5) as a electrical series connection of at least one safety element (5a) of the elevator system (1) is designed to control the elevator car in the case of the electrically interrupted series connection (3) to block the movement, whereby the mobile control device (2) can be assigned as a further safety element (5a) to the series circuit (5), whereby a control of the mobile control device (2) to the elevator system (1) in the event of an interrupted safety circuit (5) can be broken. 2. Mobile control device (2) according to claim 1, wherein the safety circuit (5) is formed by a wired or wireless bus system (15), in particular a CAN bus system, wherein the mobile control device (2) can be connected as a bus node to the safety circuit (5) is. 3. Mobile control device (2) according to one of the preceding claims, wherein the position of the mobile control device (2) can be determined by the elevator control (4). 4. Mobile operating device (2) according to one of the preceding claims, wherein the mobile operating device (2) can be communicated with a wireless or mobile communication network (7). 5. Mobile operating device (2) according to claim 4, wherein the mobile operating device (2) has a display (6) for displaying information. 6. Mobile control device (2) according to one of the preceding claims, wherein the mobile control device (2) comprises a switching means (18) for switching the elevator system (1) between normal operation and inspection operation, the switching means (18) being an electromechanical means and / or is a software function. 7. Mobile control device (2) according to one of the preceding claims, wherein the mobile control device (2) can be assigned an emergency stop means (11) for interrupting a drive of the elevator system (1). 8. A method for remote control of an elevator system (1), which has an elevator control (4) and an elevator car (3) and a safety circuit (5), in which, in normal operation of the elevator system (1), the elevator car (3) is used to move through the Elevator control (4) is automatically controlled when the safety circuit (5) is electrically closed, the mobile control device (2) for controlling the elevator system (1) being connected to the elevator system (1) in such a way that the elevator system (1) is connected to the mobile control unit (2) a switch is made between normal operation and inspection operation, with the elevator car (4) being manually controlled for moving by means of the mobile control device (2) in the inspection operation of the elevator system (1), and with the safety circuit (5) being an electrical series circuit of at least a safety element (5a) of the elevator system (1) is designed to block the elevator car (3) for movement in the electrically interrupted series circuit, wherein the Mobile control device (2) is assigned as an additional safety element (5a) to the series connection, whereby a control of the mobile control device (2) on the elevator system (1) is broken in the event of an interrupted safety circuit (5). 9. The method according to claim 7, in which the safety circuit (5) is formed by a wired or wireless bus system, in particular a CAN bus system. 10. The method according to any one of the preceding claims 8 or 9, in which the position of the mobile control device (2) is determined by the elevator control (4). 11. The method according to any one of the preceding claims 8 to 10, wherein the mobile operating device (2) communicates with a wireless or mobile communication network. 12. The method according to any one of the preceding claims 8 to 11, in which an emergency switch-off function for interrupting a drive of the elevator installation (1) is carried out by the mobile operating device. 13. Elevator system (1) with at least one elevator control (4) and an elevator car (3) and a safety circuit (5), wherein the elevator control (4) in the electrically closed safety circuit (5) allows the elevator car (3) to move in normal operation the elevator system (1) can automatically control, the Elevator installation (1) can be controlled by a mobile control device (2) according to one of Claims 1 to 8.