DE102010014728A1 - Signal status detecting arrangement has switching units for lamps, voltage detectors, summing units and inverter - Google Patents

Abstract

The signal status detecting arrangement has switching units (2 to 4) for the lamps (5 to 7), the voltage detectors (8,9), summing units (10,11,14) and an inverter. The voltage provided by the switching units is detected by the voltage detectors. The reference voltage (20) is always greater than the values determined by the voltage detectors at the switching units.

Description

To monitor the functionality of signaling systems are frequently used in rail-based traffic engineering facilities listed and described, for example, in a product overview of the company. BBR-Verkehrstechnik GmbH in Braunschweig, on the detection and evaluation of each flowing currents conclusions about the respective operating state of such a device allow. A disadvantage of such arrangements is that possible insulation deficits between the signal-carrying lines are not recognized and detected currents are misinterpreted.

Furthermore, arrangements of a signal state detection are known and exemplified in US Pat European Patent 0500200A1 in which the operating state of a signal device is derived from the polarity of a control variable provided in a drive arrangement. A disadvantage of these arrangements is, inter alia, that depending on the polarity of the control variable separate detection and evaluation arrangements are required.

The object of the inventive arrangement of a signal state detection should be to circumvent the known disadvantages, at the same time to reduce the required circuitry and to improve safety aspects.

1 shows in exemplary form an inventive arrangement of a signal detection device. This is a supply voltage 1 with the control devices 2 . 3 and 4 , respectively for the incandescent lamps 5 . 6 and 7 , for the signal colors green, yellow and red, connected. To the monitoring connections of the control devices 2 and 3 are each voltage detections 8th and 9 connected, in turn, with the monitoring port of the drive unit 4 keep in touch. The voltage detections 8th and 9 are each with the summation facilities 10 and 11 connected to which the comparator arrangements 12 and 13 are downstream. Another analog arrangement, consisting of summation 14 and comparator assembly 15 is on the part of the summation device 14 via an inverter arrangement 16 to the voltage detection 8th connected. The comparator arrangements 12 . 13 and 15 each lead into the connections for the evaluation variables 17 . 18 and 19 , All summation facilities 10 . 11 and 14 as well as the comparator arrangements 12 . 13 and 15 are with the reference voltage 20 connected.

When concerns the supply voltage 1 is in accordance with the activation state of the control devices 2 . 3 and 4 one each of the light bulbs 5 . 6 or 7 turned on. Via corresponding monitoring connections called control devices 2 and 3 the voltage levels corresponding to the state are applied to the voltage detections 8th and 9 guided and opposite the monitoring port of the control device 4 detected. For the light bulbs 5 and 6 the colors green and yellow become the respectively determined voltages by the summation devices 10 and 11 with a fixed reference voltage 20 acted upon and in each of the following comparator arrangements 12 and 13 evaluated. Depending on the state of the connections for the evaluation variables 18 and 19 appropriate signals are provided. For the evaluation of the condition of the red lightbulb 7 that will be in voltage detection 8th detected signal by means of the inverter arrangement 16 processed, then passes through, as already described, the summation device 14 and the comparator arrangement 15 and stands at the connection of the evaluation size 17 as evaluable size for further use.

In 2 will already be in 1 exemplified as a possible form with respect to the recognition of the function of the main or Nebenfadenbetriebs extended shown.

Herein is the supply voltage 1 with the drive device 4 for the red lightbulb 7 connected. Between the monitoring port and another thread exit control output 21 is a tension detection 22 connected, whose output with a summation device 23 and a following comparator arrangement 24 connected, which has an output for the evaluation size 25 has. Both arrangements, 23 and 24 , are still at the reference voltage 20 connected.

The at the control output 21 the drive device 4 provided tension for the thread recognition is by means of a voltage detection 22 determined, with a constant reference voltage 20 charged and in a comparator 24 rated. The state is evaluated as a value at the connection for the evaluation value 25 provided.

3 shows in an exemplary form a possible form of the combination of two signal state detections with the objective to increase the reliability of statements regarding the state of the system. For this purpose, the total connections of the signal state detections 26 and 27 with an evaluation unit 28 connected, in the additional characteristic signals 29 , into which connections K1 and K2, are fed. Furthermore, here are connections for the output variables 30 available. The incoming signal state detections 26 and 27 become one below the other and with additional identification signals 29 linked so that at the terminals for the outputs 30 clear and reliable information about a signal state pending or can be generated.

LIST OF REFERENCE NUMBERS

1

supply voltage

2

driver

3

driver

4

driver

5

light bulb

6

light bulb

7

light bulb

8th

voltage detection

9

voltage detection

10

Summing means

11

Summing means

12

comparator

13

comparator

14

Summing means

15

comparator

16

inverter arrangement

17

Connection for an evaluation value

18

Connection for an evaluation value

19

Connection for an evaluation value

20

reference voltage

21

control output

22

voltage detection

23

Summing means

24

comparator

25

Connection for an evaluation value

26

Overall output terminals of a signal state detection A

27

Total output terminals of a signal state detection B

28

evaluation

29

identification signals

30

Connections for the output variables.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 0500200 A1 [0002]

Claims (7)

Signal state detection, consisting of the control devices 2 to 4 for the light bulbs 5 to 7 , the voltage detectors 8th and 9 , the summing facilities 10 . 11 and 14 and an inverter arrangement 16 characterized in that by means of the voltage detectors 8th and 9 by the control devices 2 . 3 and 4 supplied voltages and with a constant reference voltage 20 preferably added. Arrangement according to claim 1, characterized in that the reference voltage 20 always equal to or greater than the amount of the voltage detectors 8th and 9 at the control devices 2 . 3 and 4 determined values. Claim according to the points 1 and 2, characterized in that all reference voltages used satisfy the condition that they are equal in magnitude or greater than the amount of half the operating voltage. Arrangement of points 1 to 3, characterized in that the in 1 arrangement shown is arbitrarily expandable. Claim according to the items 1 to 4, characterized in that the at the total Auswerteanschlüssen 26 and 27 applied sizes by means of an evaluation with additional identification signals 29 be charged. Arrangement according to claims 1 to 5, characterized in that by means of the added characteristic signals 29 a clear error assignment at the terminals for the output variables 30 he follows. Claim according to the points 1 to 6, characterized in that according to the 2 also the detection of the state of nonsignal-typical variables can take place.

Images