Safety monitoring device for monitoring safety-related states in a passenger conveyor system and method for operating same

The invention claimed is: 1. A safety monitoring device for monitoring safety-related states in a passenger conveyor system comprising: a first double contact relay and a second double contact relay, each of the first and second double contact relays being controlled by a control voltage to switch a first normally open contact, a second normally open contact and a feedback contact synchronously between an open relay state and a closed relay state; a first controller and a second controller, each of the controllers determining properties of the passenger conveyor system correlated with a safety-related state of at least one component of the passenger conveyor system and generating the control voltages for controlling the first and the second double contact relays depending on the determined properties; wherein a first safety monitoring switch arrangement for monitoring a first safety-related state and for correspondingly switching a first switching state within a safety monitoring chain of the passenger conveyor system and a second safety monitoring switch arrangement for monitoring a second safety-related state and for correspondingly switching a second switching state within the safety monitoring chain of the passenger conveyor system are formed by the first and second double contact relays and the first and second controllers; wherein the first safety monitoring switch arrangement includes the first normally open contact of the first double contact relay connected in series with the first normally open contact of the second double contact relay; and wherein the second safety monitoring switch arrangement includes the second normally open contact of the first double contact relay connected in parallel with the second normally open contact of the second double contact relay. 2. The safety monitoring device according to claim 1 including monitoring the first safety-related state at a higher safety integrity level than monitoring the second safety-related state. 3. The safety monitoring device according to claim 2 including monitoring the second safety-related state at a safety integrity level SIL1 and monitoring the first safety-related state at least at a safety integrity level SIL2. 4. The safety monitoring device according to claim 1 wherein the first safety-related state indicates whether parts of the safety monitoring chain that monitor closed states of doors of the passenger conveyor system may be temporarily short-circuited whereby the parts of the safety monitoring chain that monitor closed states of doors of the passenger conveyor system are temporarily short-circuited by switching the first switching state to closed. 5. The safety monitoring device according to claim 1 wherein the second safety-related state indicates whether an elevator car has been moved beyond a permissible movement range whereby the safety monitoring chain is interrupted by switching the second switching state to open. 6. The safety monitoring device according to claim 1 including a plurality of series-connected third safety monitoring switch arrangements for monitoring third safety-related states. 7. The safety monitoring device according to claim 6 wherein the first safety monitoring switch arrangement is interconnected in parallel with the series-connected third safety monitoring switch arrangements and wherein the second safety monitoring switch arrangement is interconnected in series with the series-connected third safety monitoring switch arrangements. 8. The safety monitoring device according to claim 1 wherein the first and the second controllers are each a safety programmable logic controller. 9. A passenger conveyor system comprising the safety monitoring device according to claim 1 connected to a safety monitoring chain including a plurality of safety monitoring switch arrangements monitoring safety-related states within the passenger conveyor system. 10. A method for monitoring a working order of the safety monitoring device according to claim 1 , the method comprising the steps of: varying the control voltages generated by the first and the second controllers such that one of the first and second double contact relays is alternately switched briefly to the open relay state and back to the closed relay state, and such that at least one of the first and second double contact relays is in the closed relay state at all times; and monitoring whether the feedback contacts of the first and second double contact relays indicate a relay state matching a currently activated relay state of the first and second double contact relays. 11. The method according to claim 10 wherein when the feedback contacts do not indicate the relay state matching the currently activated relay state, the first and second controllers generate the control voltages that switch the first and second double contact relays to the open relay state. 12. The method according to claim 10 wherein each of the first and second controllers monitors the feedback contacts of each of the first and second double contact relays. 13. The method according to claim 10 including performing the steps at least before, during and after each individual journey of the passenger transport system. 14. A passenger conveyor system including the safety monitoring device according to claim 1 comprising: an elevator shaft having a plurality of shaft doors; an elevator car having a car door and being movable in the elevator shaft to the shaft doors; a safety monitoring chain including a plurality of safety monitoring switch arrangements monitoring safety-related states of the car door and the shaft doors; and the safety monitoring device connected to the safety monitoring chain and monitoring the safety-related states of the car door and the shaft doors.