WO2018082857A1 - Method and device for diagnosing railway switches - Google Patents

Abstract

The invention relates to a method for diagnosing railway switches which can be implemented with comparatively low expenditure and at the same time has a high level of reliability and efficiency. For this purpose, the method for diagnosing railway switches proceeds according to the invention in such a way that, for a group of a plurality of railway switch drives (WA1-WA5) which have a common power supply (SV), measured values are acquired which relate to at least one common electrical measurement variable, in particular in the form of a common actuating current of the railway switch drives (WA1-WA5), to a common actuating voltage of the railway switch drives (WA1-WA5) and/or to a common reactive power which is taken up by the railway switch drives (WA1-WA5). Furthermore, operational data relating to a respective operating state of the individual railway switch drives (WA1-WA5) of the group are acquired, and taking into account at least the acquired measured values and the acquired operational data for at least one railway switch (e.g. W3) whose railway switch drive (WA3) belongs to the group, characteristic diagnostic data is determined for a state of the respective railway switch (W3). The invention also relates to a device (WD) for diagnosing railway switches.

Description

description

Process and apparatus for diagnosis switches to increase the availability of electrical Weichenstell- systems of the railway is a powerful Weichendiag ^¬ nose crucial. This serves, in particular, for a timely recognition of sluggishness, maintenance conditions or probable damage. Through a recording, evaluation and analysis of electrical measurement values here a statement about the state of each ^¬ weiligen switch can be made. A suitable for this method to switch diagnosis and a corresponding Vorrich ^¬ processing are known from the company publication "Weichendiag- nosesystem SWITCHguard Sidis W compact - Increased availability of point operating systems" known Order No .: A19100-V100-B905-V3, Siemens AG, 2014. Here, the known apparatus each point machine a measuring and evaluation unit. Here, the respective switch machine or the respective switch driving motor is made as used as a sensor such that the point diagnostic setting voltage and adjusting power measures during the course circulation and from these values the effective Leis ^¬ tung depending calculated from the time. Here, the switch diagnosis is based on the functional principle of a propor- ality between the abge ^¬ passed by the motor of the switch machine motor to the power consumed by the motor active power. the active power curve is therefore characteristic of the particular current status of the relevant Soft and thus allows a diagnosis of the switch.

The present invention is based on the object having a method and a device for point diagnostic suits ^¬ ben that can be realized at comparatively low cost and at the same time a high reliability and Leistungsfä- ability.

This object is achieved according to the invention by a method for switch diagnostics, wherein for a group of several methods chenantrieben, which have a common power supply, measured values are recorded, which relate to at least one common ^¬ same electrical parameter, in particular in the form ei ^¬ nes common actuating current of the point machines, a ge ^¬ common control voltage of point machines and / or one of the points drives recorded common active power, based on a respective operating state of the individual point drives of the group operating data are detected and taking into account at least the detected measured values and the recorded operating data for at least one switch whose turnout drive belongs to the group, for a state of each switch characteristic diagnostic data ermit ^¬ telt become.

According to the first step of the method according to the invention, measured values which relate to at least one common electrical measured variable are detected for a group of a plurality of turnout drives which have a common power supply. In this case, the term "common" electrical measured variable expresses that the group of switch actuators has a common power supply and the acquired measured values relate to at least one electrical measured variable which overall results for the switch ^{drive of} the group For example, the common actuating current as well as the common control voltage of the point machines can be used as common electrical measured variables from which the common active electrical power can then be determined Alternatively, the acquired measured values can, for example, also be directly related to the common active electrical power or to the common electrical power referenced actuating current and a phase shift between the common electrical control current and the common electrical control voltage. It should be pointed out that the point machines can be point machines of any type and design, in particular also with respect to their electrical power or energy supply. Thus, the common power supply may be for example as a voltage source rea ^¬ lisiert which an operating voltage in the form of a DC voltage (for example 110V), in the form of an AC voltage (for example 110V or 220V), or as in the case of a four-wire interface in the form of a Three-phase AC voltage (of eg 400V / 50 Hz) provides.

The point machines of the group will usually be assigned under ^¬ different switches. In addition, it is also conceivable that the turnouts of the

Group at least partially belong to the same switch. This therefore relates to the case that a switch has several Weichenan ^¬ drives or more actuators. According to the second step of the process, which is run generally parallel or simultaneously with the first step, bezo ^¬ generate operating data is recorded on a respective operating state of the individual switch machines of the group. The operating data preferably been at which times or in which periods of time the relevant switch drive is activated in particular comprise information to the effect or has been ak ^¬ tiv. This can be done for example in such a way that it is documented in the operating data which commands have been transmitted to which point drive of the group at which point in time and at what times which messages have been detected by the point drives of the group. Thus allow appropriate operating data beneficial ^¬ way legally to meet for each time a statement as to which of the relative turnout drives the group to which switches the direction of rotation is active or has been and WUR when this reached which limit position or leave ^¬ de. In accordance with the third step of the inventive method, taking into account at least the measured values recorded and the recorded operating data for at least one point whose point machine belongs to the group, diagnostic data characteristic of a state of the respective points are determined. This makes inventive procedural ^¬ ren which advantageously utilizes the fact that usually revolve not all or more points, their turnout drives the group conces- assigns, at the same time. Thus, even in a route setting in rail operations turnouts are often or usually placed such that the short-term during the start of the turnout drives resulting start ^¬ currents do not add up so that it could lead to an overload of the parking network. For this it is known, for example, a time-staggered or stellstromgestaffeite WEI chenansteuerung, in the form of a switch crawler take vorzu ^¬. Since switches thus often circulate individually and / or sequentially, possibly with an overlap, it is possible by a combination of the measured values recorded relative to the group of point machines and the recorded operating data which indicate the respective operating state of the individual point machines of the group at the respective time to determine diagnostic data from the detected measured values loading relationship as to extract, which are cha ^¬ rakteristisch for a state of at least one switch, the switch machine is in a group. It is located in at least ei ^¬ nen switch, for which the characteristic diagnostic data is determined, typically trade at a switch that has been changed at least once in the conditions of their readings each time. Preferably, so ^¬ provided with for all in the period under consideration or actuated switch diagnostic data determined characteristic or specific to the state of the respective switch.

The method according to the invention has the fundamental advantage that it does not deviate from known methods is required for each monitored soft output to measure at least one electrical measured variable to detect Bezie ^¬ hung example. Instead, a corresponding acquisition of measured values for the at least one common electrical measured variable is advantageously required only for the group of the plurality of point machines which have a common power supply. In this case is used as a common electrical measured variable, preferably, the common actuating ^¬ current of the switch drives, the common control voltage of the switch drives and / or the power absorbed by the turnout drives common active power. This approach is particularly advantageous as ^¬ in such situations in which a common power supply is provided in any case already available for a group of several switch drives. Because le ^¬ a measuring device or a measuring module for acquisition of measured values is diglich required for the group of the plurality of switch machines, considerable advantages in terms of yield to the connected to the switch diagnosis costs and expenses. Here, there is still the advantage that the measured values registered already refer to the totality of the turnout drives the group so that a merge or a collecting ent ^¬ speaking readings of individual point machines is not erfor ^¬ sary. Moreover, at least one electrical measure of turnout drives the group claim related ^¬ nen to the measured values can optionally also be used to make evaluations that would be based not on sensed for individual Wei ^¬ chenantriebe readings or only with greater effort feasible. The inventive method is further characterized in that it allows a reliable and efficient switch diagnosis despite the enabled savings that is at least as effective as previously known point diagnostic systems in response to the ever ^¬ weiligen circumstances and conditions.

Advantageously, the method according to the invention can be developed in such a way that diagnostic data are determined which relate to at least one of the following variables: ström the respective point drive during one revolution of the respective switch, control voltage of the respective switch drive during the circulation of the respective switch, recorded by the respective switch drive during the circulation of the respective switch active power. In the case of the variables mentioned, that is to say actuating current, actuating voltage as well as active power absorbed during the rotation of the respective turnout, these are advantageously those quantities which permit a precise turnout diagnosis. In this case, the determined diagnostic data may be, in particular, the time profile of the relevant variable during the circulation of the respective turnout. Moreover, it is in principle also conceivable that the diagnostic data has already been to the effect reduced or pre-processed, for example, that le- diglich maximum and / or minimum values of the respective size, optionally in combination with a length of entspre ^¬ sponding time interval or corresponding time intervals as diagnostic data be determined. According to a further preferred embodiment of the method according to the invention, an evaluation of the state of the respective turnout is made on the basis of the diagnostic data determined for the respective turnout. This is advantageous because the determined diagnosis data characteristic of the state of the respective switch are thus used to evaluate the state of the switch in question. This can be done for example in such a way that in case of Noticeable ^¬ opportunities created in the diagnostic data, a warning message or example, causes a service or overall plan is.

It should be noted that the fiction, ^¬ proper procedures for point diagnostic preferably vollumfäng ^¬ Lich automatic. This applies both with regard to the acquisition of the measured values and the operating data as well as with respect to the determination of the diagnostic data and the evaluation of the state of the respective turnout. Advantageously, the inventive method may also be configured such that the assessment of the state of the respective switch is made based on a comparison of the diagnosis information for the required data determined ^¬ celled soft with reference data upstream. On the basis of a comparison of the diagnostic data with reference data determined for the respective switch, advantageously a particularly reliable evaluation of the ^{status of} the relevant switch can be carried out. Here, the reference data may, for example, on a temporal refer- ence extending the at least one size, on which the Diag ^¬ nosedaten refer relate. In the case of an appropriate comparison of the curves Tole ^¬ tolerances are advantageously considered or approved to establish safe ^¬ that not even slight deviations are detected as a potential problem or possible errors.

In accordance with a further particularly preferred embodiment of the method according to the invention, updated reference data are determined on the basis of the detected measured values and the acquired operating data. This means that the acquired measured values and the recorded operating data can be used to update the reference data. This is preferably done in a state in which all turnout drives of the group or at least the turnout drive considered in the respective individual case are serviced or maintained and thus the detected measured values and operating data are suitable as a reference. Gege ^¬ appropriate, it is thereby possible that typical values are "self-learning" for each occurring in the normal operation switches running constellation over time summarizes ER- reference data so that the recurrence of the associated switch running configuration, the relevant reference data for comparison with the current Diagnostic data can be used. As a result, in this case, there is the possibility that, where appropriate, an overall view is carried out for several simultaneously operated Wei ^¬ chenantriebe the group without the need for resolution of the diagnostic data relating to an individual is required to the operated switch machines. This applies, for example, to the case in which several points ^¬ drives or actuators of a switch overlap ^¬ pend are actuated and it is sufficient for an assessment of the state of the switch in question to make a Gesamtbetrach- tion, without regard to the individual points drives the switch separately ,

Advantageously, the inventive method can be wei ^¬ terhin further developed such that a limit value for at least one of the following variables is used as reference data at least: manipulated current of the respective switch machine during a revolution of the respective switch, setting voltage of each point mechanism during the rotation of jewei ^¬ liger soft, recorded by the respective switch drive during the circulation of the respective switch active power, Dau ^¬ he circulation of the respective switch, duration of individual phases of the circulation of the respective switch. This is beneficial ^¬ way as limits for these sizes allow zuverlässi ^¬ ge assessment of the state of the respective switch. Because only at least one limit value is used as reference data for at least one of the variables mentioned above, the comparison of the diagnostic data for the respective turnout with the reference data and thus also the evaluation of the state of the respective turnout are advantageously simplified.

In accordance with a further particularly preferred embodiment of the method according to the invention, environmental data relating to the weather, the weather and / or the climate are taken into account in the context of the assessment of the condition of the respective turnout. The environmental data may include, for example insbesonde ^¬ re information to the respective temperature and humidity. On the one hand, the environmental data can refer to the current weather. On the other hand, it is also possible that the environmental data relate to the weather, ie the weather or the weather over a longer period of time. In addition, there wei ^¬ terhin also the possibility that environmental data refer to the climate and thus, for example, regularly or permanently take into account low temperatures. In general, it will be sufficient if the environmental data for the group of point machines or for a larger area, such as a whole station system, are recorded. This signified tet ^¬ that an individual collection of environmental data for the individual switch machines the group advantageously is not necessary, as the environmental data will be equal to or applicable for all turnout drives the group usually at least substantially.

In the context of the method according to the invention, the acquisition of the measured values as well as of the operating data can in principle be carried out continuously. In this case, the corresponding data are therefore also detected when none of the Weichenantrie ^¬ be the group is active.

In accordance with a particularly preferred development of the method according to the invention, the measured values are recorded at least during one revolution of at least one of the switches associated with one of the point machines of the group. So it will be sufficient in many cases to record the measurements and gegebe ^¬ applicable, the operating data only when at least one of the points circulates or one of the switch drives the group is active. In this way, benefits can result to the effect that the detected data ^¬ volume reduced and a possible retroactive effect of the measure in the event that none of the point machines is active, to ^¬ reliably avoided.

Advantageously, the method according to the invention can also be configured in such a way that the measured values are detected without feedback. This is advantageous since a reaction during the acquisition of the measured values, which could possibly impair the reliability or safety of the activation of the respective point machine, can be reliably avoided. A corresponding absence of reaction can be ^¬ example be ensured by an electrical isolation, corresponding methods and devices for non-reactive measured value acquisition are known as such.

With regard to the device for switch diagnostics, the object on which the invention is based is achieved according to the invention in that the device is designed to record measured values relating to at least one common electrical measured variable for a group of a plurality of turnout drives which have a common power supply. in particular in the form of a common actuating current of the switch drives, a common control voltage of the switch drives and / or a common active power absorbed by the switch drives, to record operating data relating to a respective operating state of the individual switch drives of the group and taking into account at least the measured values recorded and the detected values Operating data for at least one turnout whose turnout drive belongs to the group, to determine for a state of the respective turn characteristic Diagno ^¬ sedates.

The advantages of the device according to the invention, so that diesbe ^¬ züglich to the respective foregoing, reference is made corresponding to those of the inventive method. The same applies with regard to the preferred developments of the invention which are mentioned below

Devices in relation to the respective corresponding before ^¬ ferred embodiment of the method according to the invention, so that also in this respect made to the corresponding explanations above.

Advantageously, the device ^{according to} the invention can be further developed such that the device is designed to determine diagnostic data relating to at least one of the following variables: actuating current of the respective soft-ware drive during one revolution of the respective turnout,

Adjustment voltage of the respective point drive during Um ^¬ run of the respective switch, from the respective Weichenan- drove during the circulation of each switch recorded active power.

According to a further particularly preferred embodiment, the device according to the invention is designed to make an assessment of the state of the respective switch based on the diagnostic data determined for the respective switch.

According to a further preferred development, the device according to the invention is designed to carry out the evaluation of the state of the respective turnout on the basis of a comparison of the diagnostic data with reference data determined for the respective turnout. Preferably, the inventive device can also be formed from ^¬ to determine updated reference data on the basis of the detected measurement values and the operational data collected. According to a further preferred development of the inventive device it is configured to use, as reference data, at least a limit value for at least one of the fol ^¬ constricting sizes: actuating current of the respective switch machine during a revolution of the respective switch, setting voltage of each point mechanism during the order ^¬ run of the respective Soft, recorded by the respective switch drive during the circulation of the respective switch active power, duration of the circulation of the respective switch, duration of individual phases of the circulation of the respective switch.

Advantageously, the device according to the invention can also be designed to take into account, as part of the evaluation of the state of the respective switch on the weather, the weather and / or the climate related environmental data.

The device according to the invention may advantageously also be configured such that it is designed to provide the ^measured values at least during one revolution of at least one of the Points that are assigned to one of the points drives to capture.

Furthermore, the device according to the invention can also be designed to detect the measured values without feedback.

The invention will be explained in more detail below with reference to ^exemplary embodiments. For this purpose, the figure shows a schematic sketch of an arrangement with an embodiment of the device according to the invention ^¬ fering diagnosis.

In the schematic representation of the figure switches Wl to W5 can be seen, which may be, for example, points in a station area. The turnouts W1 to W5 have turnout drives WA1 to WA5, which enable an electrical changeover of the respective turnout W1 to W5. In the figure, a control part ST is further indicated, which primarily serves a reliable turning on and off the point machines. In this case represents the control unit ST, the interface between a fail-safe interlocking computers STR and the turnout drives WAl to WA5. Here, the setting part ST command from the interlocking ^¬ computer STR accepts and forwards them to the respective switch machine WAl to WA5. In addition, the control unit ST receives messages from the respective turnout drive WA1 to WA5, processes these if necessary and forwards them to the interlocking computer STR.

The turnout drives WAl WA5 to have a common power supply ^¬ SV, that is, the required of the turnout drives WAl to WA5 electrical energy provided by the power supply SV. The function of the actuating part ST is thus essentially limited to, in the case of an operation or activation of one of the point machines WA1 to WA5 requested by the interlocking computer STR an electrical connection between the power supply SV and the respective turnout drive WAl to WA5 durchzuschal ^¬ th, so that the required for setting the respective switch Wl to W5 actuator current and the associated control voltage are provided by the power supply SV.

It should be noted that instead of the illustrated control part ST, which serves to connect the turnout drives WA1 to WA5 to an internal system of a signal box STW, a separate actuating part or point switching module could also be provided for each turnout drive WA1 to WA5. In this case too, however, the power supply would be effected by means of the central power supply SV for all turnout drives WA1 to WA5. For example, this also apply if the control unit ST or the ent ^¬ speaking actuators were arranged locally in the hotel grounds. Further, for example, the case is conceivable that the point machines WAl to WA5 are connected to each other via an energy bus and supplied with energy. In this case, it would be to design the power supplying power supply han ^¬ spindles in the power supply SV thus.

In the figure, a measuring device ME is further recognizable, which serves for the group of several Weichenantrie ^¬ be WAl to WA5, which have the common power supply SV on ^¬ at least one common electrical parameter, in particular a common actuator current and / or a common control voltage, the turnout drives WAl to WA5 to capture measured values. Advantageously, the

Detection in this case the effect without feedback, that a Be ^¬ einträchtigung the function of the setting part ST or the turnout drives WAl to WA5 by the measurement made ^¬ value acquisition is excluded.

The measuring device ME is connected to an evaluation device AE and together with it forms a device WD for switch diagnostics. The measuring device transfers ME the detected measured values to the evaluation device AE. This is also communicatively connected to the safe interlocking computer STR and receives from this operating data related to a respective operating state of the individual point machines WA1 to WA5. Here, it is utilized that the STEU ^¬ errechner STR is known in the control mode at any time, in which operating state the individual switch machines are WA1 to WA5. In this case, the operating data advantageously relate in particular to information at times of state changes of the turnout drives WA1 to WA5, so that the operating data can be taken, for example, which of the turntable drives WA1 to WA5 at which time ^¬ tion, or in which period has been changed. Taking into consideration at least detected by the measuring device ME values as well as the presently by receiving from the control computer STR (or by the control computer STR itself) acquired operation data, it is the evaluation device AE now advantageously possible for a state of the switch Wl through W5 characteristic Di ^¬ Identify agnose data. This applies in particular to those of the points Wl to W5, which have been changed at least once in the period under consideration. By combining the measured values with the operating data, it is therefore advantageously possible, despite the common power supply SV provided for the Wei ^¬ chenantriebe WA1 to WA5 to determine diagnostic data that characterize the state of each individual switch, for example, W3. In this case, the determined diagnostic data may be, for example, the actuating current of the respective turnout drive WA1 to WA5 during the rotation of the respective turnout Wl to W5, the control voltage of the respective turnout drive WA1 to WA5 during the circulation of the respective turnout Wl to W5 and in particular to the refer to the respective switch drive WA1 to WA5 during the rotation of the respective switch Wl to W5 recorded electrical active power. The latter can, for example, be taken from acquired measurement data for the common Actuating current and for the common control voltage of the point machines WA1 to WA5 are determined.

Based on the diagnosis data determined for the respective switch W1 to W5, it is now possible for the evaluation device AE to carry out an assessment of the state of the respective switch W1 to W5. This can be done by comparing the determined for the respective shunt Wl through W5 ^¬ diagnostic data with corresponding reference data, for example. Here kön- nen as reference data for example, a limit value or meh ^¬ eral limits for the actuating current of the respective switch machine WA1 to WA5 during the rotation of the respective switch Wl through W5, for the control voltage of the respective switch machine WA1 to WA5 during the rotation of the respective switch Wl to W5, taken for each of the points drive WA1 to WA5 during the rotation of the respective switch Wl through W5 on ^¬ active power, the duration of revolution of the respective switch Wl through W5 and / or the duration of different phases of the revolution of the respective switch Wl to W5 can be used.

On the basis of the measured values and the detected operation ^¬ data in addition may be carried out to update the reference data. So it is possible, for example, starting from a successful maintenance of the switches Wl to W5 that the device WD for switch diagnostics learns successively occurring in the course Weichenlaufkonstellationen and applies or updates corresponding reference data. As a rule, the reference data here will refer to quantities that apply to a single switch W1 to W5.

However, in principle it is also possible that, for example, for the case that several point mechanisms WA1 to WA5 are overlapping active rule ^¬ moderately in time, as in the case of MEH ^¬ reren turnout drives a switch, to relate hen the reference data to the combination of the respective turnouts ,

By means of appropriate (long-term) observations, the evaluation device AE can use the diagnostic data, in particular In the long term, for example in the form of a drift or a steady slowing of the circulation of the point in question, deviations which are likely to trend will be detected reliably and early. Moreover, can be detected by the evaluation device AE of the device WD to switch diagnosis also spontaneously occurring acute problems or defects, in the form of a jammed in the switch tongue stone, for example, on ^¬ hand a longer circulation time associated as well as a higher power consumption.

In the context of the assessment of the state of the respective switch Wl to W5 can be advantageously taken into account the weather, the Witte ^¬ tion and / or the climate related environmental data. Thus, in particular by the fact that the measured values detected be ^¬ pull on all switch machines WA1 to WA5 the group taking account of environmental data, a common weather or weather-related, all switch machines WA1 to WA5 equally of respective effect can be recognized. This applies, for example, in the event that, due to cold, the circulation of all switches W1 to W5 is delayed or slowed down. In this case, he ^¬ thus laubt it just an overall consideration of the easily documented ^¬ th measurement data to realize that not a malfunction or problem of a single point mechanism exists WA1 to WA5, but a common weather or weather-related effect. For this purpose, environmental data particular to the respective temperature and Luftfeuch ^¬ ACTION as well as, if any precipitation, such as snow and ice can refer.

The device shown in the figure WD for Weichendiag ^¬ nose has in particular the advantage that only a ME measuring device is required for a zuver ^¬ casual switch diagnosis of the switches Wl to W5. This means that compared to a conventional arrangement, a measuring device ME would be located in each case between the actuating part and the respective ST Weichenantrieb WA1 to WA5, rising ^¬ advan- tages with respect to a reduction for a home Installation of the device WD as well as their operation resulting costs and expenses can result or result.

In addition, the acquisition of measured values before the WEI is chenanschaltgerät-safety principle, as a measured value recording for each switch drive WA1 to WA5 or the per ^¬ weiligen course motor in the form of the operating element ST. The reason for this is that in the method according to the invention the measured values are combined with the operating data relating to the respective operating state of the individual point machines WA1 to WA5 of the group. As a result, there is thus a link to the knowledge already present in the interlocking STW with respect to changes in the state of the points position of the points W1 to W5. By the corresponding link or combination of the measured values with the operating data too ^¬ additional plausibility is thus advantageously possible, so that any Stö ^¬ conclusions can be particularly reliably detected. Advantage ^¬ adhesive enough, can in this case optionally remove the requirement to safety considerations, the transfer of the measuring device ME in the connecting line between the control unit ST and the respective switch machine WA1 to WA5 is required in the case of (galvanic) optionally, or could be.

Corresponding to the above explanations in connection with the described exemplary embodiments of the device WD according to the invention and the method according to the invention for switch diagnostics, these have the particular advantage that the need for individual measured value detection for each of the switch drives WA1 to WA5 is eliminated. This is advantageously replaced by a Meßwerter ^¬ version of a common electrical measure, such as the common or central power consumption or the total recorded active power, for the group of switches Wl to W5. This data acquisition is connected to the knowledge of the control in the form of the control computer STR of the ballast in the form of the control element ST with respect to the temporal change of the operating states of the point machines WAl to WA5. In the case of corresponding operating states, this may be, for example, the rotation of the respective turnout W1 to W5 or the reaching of the end position. By all switch Wl through W5 linking analysis can be used advantageously a deviation in the operating Bezie ^¬ hung as running behavior of the respective drive WAl to WA5, the degree of deviation, the tendency of the deviation as well as other sizes, in order thereof relate alarms hung as messages to produce and as a result, a needs-based maintenance of the switches Wl to W5 to union ^{¬ made possible} .

Claims

claims

1. Method for switch diagnosis, wherein

- For a group of several turnout drives (WA1-WA5), which have a common power supply (SV), measured values are detected, which relate to at least one common ^¬ same electrical parameter, in particular in the form of a common actuating current of the point machines (WA1- WA5 ), a common control voltage of the point machines (WA1-WA5) and / or one of the turnout drives (WA1-WA5)

WA5) recorded common active power,

 - Operating data related to a respective operating state of the individual point machines (WA1-WA5) of the group are recorded and

- Taking into account at least the detected measured values and the recorded operating data for at least one switch (eg W3), whose turnout drive (WA3) belongs to the group, for a state of the respective switch (W3) cha ^¬ characteristic diagnostic data are determined.

2. The method according to claim 1,

d a d u r c h e c e n c i n e s that

Diagnostic data that relates to at least one of the following quantities:

- actuating current of the respective switch drive (WA1-WA5) ^¬ currency rend one revolution of the respective shunt (W1-W5),

 Actuating voltage of the respective point machine (WA1-WA5) during the circulation of the respective point (W1-W5),

- from the respective switch machine (WA1-WA5) during the rotation of the respective shunt (W1-W5) Recorded real ^¬ performance.

3. The method according to claim 1 or 2,

characterized in that an evaluation of the state of the respective switch (W1-W5) is carried out on the basis of the diag nosis data determined for the respective switch (W1-W5).

4. The method according to claim 3,

d a d u r c h e c e n c i n e s that

the assessment of the state of the respective shunt (W1-W5) is made to determined ^¬ hand of a comparison of the respective shunt (W1-W5) diagnostic data with reference data.

5. The method according to claim 4,

d a d u r c h e c e n c i n e s that

updated reference data are determined on the basis of the recorded measured values and the recorded operating data.

6. The method according to any one of claims 4 or 5,

d a d u r c h e c e n c i n e s that

at least one limit value for at least one of the following variables is used as reference data:

- actuating current of the respective switch drive (WA1-WA5) ^¬ currency rend one revolution of the respective shunt (W1-W5),

 - Control voltage of the respective point machine (WA1-WA5)

 during the circulation of the respective turnout (W1-W5),

- from the respective switch machine (WA1-WA5) recorded during the rotation of the respective shunt (W1-W5) ^¬ active power,

 Duration of circulation of the respective turnout (W1-W5),

 - Duration of individual phases of the circulation of the respective branch (W1-W5).

7. The method according to any one of claims 2 to 6,

d a d u r c h e c e n c i n e s that

in the context of the evaluation of the state of the respective switch (W1-W5) on the weather, the weather and / or the climate be ^¬ gege environmental data are taken into account.

8. The method according to any one of the preceding claims,

d a d u r c h e c e n c i n e s that

the measured values are recorded at least during one revolution of at least one of the points (W1-W5) associated with one of the point machines (WA1-WA5) of the group.

9. The method according to any one of the preceding claims,

d a d u r c h e c e n c i n e s that

the measured values are recorded without feedback.

10. Device (WD) for switch diagnosis, wherein the Vorrich ^¬ device (WD) is formed,

for a group of several point drives (WA1-WA5), which have a common power supply (SV), to acquire measured values that relate to at least one common electrical measured variable, in particular in the form of a common actuating current of the point machines (WA1-WA5), ei ^¬ ner common control voltage of point machines (WA1- WA5) and / or one of the point machines (WA1-WA5) recorded common active power,

to record operating data relating to a respective operating state of the individual point machines (WA1-WA5) of the group and

- Taking into account at least the detected measured values and the recorded operating data for at least one turn (eg W3) whose turnout drive (WA3) belongs to the group to determine cha ^¬ characteristic diagnostic data for a state of each switch (W3).

11. Device (WD) according to claim 10,

d a d u r c h e c e n c i n e s that

the device (WD) is designed to determine diagnostic data relating to at least one of the following variables:

 - actuating current of the respective point machine (WA1-WA5) during one revolution of the respective switch (W1-W5),

 - Control voltage of the respective point machine (WA1-WA5)

 during the circulation of the respective turnout (W1-W5),

 - Effective power absorbed by the respective point machine (WA1-WA5) during the circulation of the respective turnout (W1-W5).

12. Device (WD) according to claim 10 or 11,

characterized in that is formed, the apparatus (WD) to make an assessment of the state of the respective shunt (W1-W5) on the basis of the per ^¬ stays awhile shunt (W1-W5) determined diagnostic data.

13. Device (WD) according to claim 12,

d a d u r c h e c e n c i n e s that

the device (WD) is designed to ^{carry out} the evaluation of the state of the respective switch (W1-W5) on the basis of a comparison of the diagnostic data with reference data determined for the respective switch (W1-W5).

14. Device (WD) according to claim 13,

d a d u r c h e c e n c i n e s that

the device is designed (WD) to determine updated Re ^¬ conference data on the basis of the detected measurement values and the operational data collected.

15. Device (WD) according to one of claims 13 or 14, characterized in that a

is formed, the apparatus (WD), to be used as reference data at least a limit value for at least one of the following large ^¬ SEN:

- actuating current of the respective switch drive (WA1-WA5) ^¬ currency rend one revolution of the respective shunt (W1-W5),

- Control voltage of the respective point machine (WA1-WA5)

 during the circulation of the respective turnout (W1-W5),

- from the respective switch machine (WA1-WA5) recorded during the rotation of the respective shunt (W1-W5) ^¬ active power,

Duration of circulation of the respective turnout (W1-W5),

 Duration of individual phases of the circulation of the respective turnout (W1-W5).

16. The device (WD) according to claim 12, wherein:

the device (WD) is designed, as part of the evaluation of the state of the respective switch (W1-W5) on the weather, to take into account the weather and / or climate related environmental data.

17. The device (WD) according to claim 10, wherein:

the device (WD) is designed to record the measured values at least during one revolution of at least one of the switches (W1-W5) associated with one of the point machines (WA1-WA5) of the group.

18. Device (WD) according to claim 10, wherein:

is formed, the apparatus (WD), to detect the measured values ^¬ retroactive effect-free.