Elevator having a safety chain with a series connection of safety switch arrangements

1 . An elevator, comprising: a safety controller to which several safety switch arrangements are connected, which safety controller is configured to cause the stop of the elevator motor and the activation of the motor brakes; and a comparator is provided in the safety controller for the determination of the status of the safety chain, which comparator is connected with a memory for storing at least one resistor reference value, which comparator is configured to output a safety chain status signal in dependence of comparison of a measured resistance value with the resistor reference value, wherein each of said safety switch arrangements comprises at least one first resistor and a safety switch which are connected in series, wherein the value of the first resistor is different in at least some safety switch arrangements arrangements, and wherein each safety switch arrangement comprises at least a second resistor connected in parallel with the safety switch, which second resistor has a higher value than the first resistor. 2 . The elevator according to claim 1 , wherein the safety controller is connected to a safety chain comprising a series connection of the safety switch arrangements. 3 . The elevator according to claim 1 , wherein the comparator is connected to the safety chain via an analogue digital converter. 4 . The elevator according to claim 1 , wherein the reference value is a reference value table defining an allowed range of resistor values for the safety chain. 5 . The elevator according to claim 1 , wherein the second resistor is connected in series with the first resistor. 6 . The elevator according to claim 1 , wherein the stored reference value comprises a lower reference value and a higher reference value. 7 . The elevator according to claim 1 , wherein a measuring tool is provided having a bridging resistor for the safety switch of a safety switch arrangement, which leads in the comparator to an allowed safety chain status. 8 . The elevator according to claim 7 , wherein the measuring tool has pins for a connection with taps on both sides of the safety switch in the safety switch arrangement. 9 . The elevator according to claim 1 , wherein the safety controller is part of the elevator control. 10 . The elevator according to claim 1 , wherein the first resistor is directly connected to the safety switch of the safety switch arrangement. 11 . A method for checking the safety status of an elevator using a safety chain with a series connection of safety switch arrangements, wherein each safety switch arrangement comprises a series connection of a safety switch with at least a first resistor, in which method the resulting resistance value of the complete safety chain is measured, wherein at least one safety switch arrangement in the safety chain is assumed to be short circuited if the measured resulting resistance value is by a first threshold value below the sum of the values of the first resistors in the safety chain and wherein at least one safety switch arrangement in the safety chain is assumed as being open if the resulting resistance value is by a second threshold value above the sum of the first resistor values in the safety chain, wherein different values of the first resistors are used in the safety switch arrangements and wherein by measuring the resulting resistance value of the safety chain, it is determined which of the safety switch arrangements is short circuited and wherein a short circuit is measured by bridging the safety switch of a safety switch arrangement with a bridging resistor having a value lower than the second threshold value. 12 . The elevator according to claim 1 , wherein the value of the first resistor is different in all safety switch arrangements. 13 . The elevator according to claim 2 , wherein the comparator is connected to the safety chain via an analogue digital converter. 14 . The elevator according to claim 2 , wherein the reference value is a reference value table defining an allowed range of resistor values for the safety chain. 15 . The elevator according to claim 3 , wherein the reference value is a reference value table defining an allowed range of resistor values for the safety chain. 16 . The elevator according to claim 2 , wherein the second resistor is connected in series with the first resistor. 17 . The elevator according to claim 3 , wherein the second resistor is connected in series with the first resistor. 18 . The elevator according to claim 4 , wherein the second resistor is connected in series with the first resistor. 19 . The elevator according to claim 2 , wherein the stored reference value comprises a lower reference value and a higher reference value. 20 . The elevator according to claim 3 , wherein the stored reference value comprises a lower reference value and a higher reference value.