WO2019063263A1

WO2019063263A1 - Method for determining an actuating force on the basis of sound emission measurements

Info

Publication number: WO2019063263A1
Application number: PCT/EP2018/074095
Authority: WO
Inventors: Michael Schulze
Original assignee: Siemens Mobility GmbH
Priority date: 2017-09-29
Filing date: 2018-09-07
Publication date: 2019-04-04
Also published as: DE102017217414A1; EP3661829A1; EP3661829B1; AU2018340218B2; ES2903446T3; CN111163993A; PL3661829T3; AU2018340218A1; CN111163993B

Abstract

A method for analysing a points mechanism of rail points is disclosed, wherein at least one sensor for measuring sound waves is arranged on an outer housing or in the outer housing of the points mechanism, measurement signals from the at least one sensor are amplified and recorded during actuating operation of the points mechanism, and an actuating force of an actuating force coupling of the points mechanism is determined on the basis of the recorded measurement signals from the at least one sensor. A points mechanism system is also disclosed.

Description

description

Method for determining a force based on

Acoustic emission measurements

The invention relates to a method for analyzing a point drive of a rail switch. Furthermore, the invention relates to a points drive system with a measuring system for carrying out such a method and with a point machine for adjusting switch points of a rail switch.

Manually or electrically operated point machines are used as the most important railway infrastructure elements to change over points. The required actuating force acting on an actuating rod is realized by means of an adjustable actuating force coupling. Over the service life of the point machine, which lasts up to 25 years, the set operating force may change. The actuating force may decrease over the life of the points drive. Because the

If the actuating force is relevant to the safety of the operation of the points and point machine, the force must be checked or checked by measurements. So far, the force of turnout drives had to be checked regularly. For this purpose, maintenance of a point machine must be organized and carried out. A measurement of the actuating force takes place on site with a measuring device and a force measuring pin. Depending on the measurement result, an adjustment of the actuating force coupling or an exchange of the entire point machine drive takes place.

The object of the invention is to propose a method for determining a positioning force of a points drive, in which a direct intervention in an operation of the points drive is avoided. The object is achieved by the subject matters of independent ^¬ patent claims 1 and 10. Advantageous embodiments of the invention are the subject of the respective dependent subclaims.

According to one aspect of the invention, a method for analyzing a point mechanism of a rail switch is bereitge ^¬ represents. According to the invention, at least one sensor is provided for measuring sound waves. The sensor may be on an outer housing or in the outer casing of the point mechanism angeord ^¬ net. Subsequently, measuring signals of the at least one sensor are recorded during a positioning operation of the point machine. The measuring signals can be amplified. Ba ^¬ sierend on the recorded measurement signals of the at least one sensor, a force of a force coupling of the point mechanism is determined.

As a sensor, for example, a piezoelectric sensor can be used, which can measure the sound waves and vibrations generated during operation of the Weichenantriebs. In particular, a surface acoustic wave sensor may be used as the at least one sensor. The ^¬ like sensors can be inexpensive and robust against external influences, so that they can be used for use in the field of rail vehicles and rail networks. The vibrations and sound waves generated by the components of the points drive can spread over fasteners and the outer housing and measured there.

In particular, the vibrations of a points drive motor, the mechanical travel elements (eg.

Adjusting slide, ball screw), the power take-off and be measured by shafts and bearings. The at least one sensor can be calibrated based on measurement signals of a defined number of switching operations. A calibration may preferably depend on a defined nierten set-actuating force of the actuating force coupling and components used in the points drive.

An insufficiently maintained power-transmitting clutch is heavier than an optimally functioning power-operated clutch. Consequently, the point motor drive must be operated at a higher speed in order to apply the necessary torque for the stiff adjusting force coupling. The vibrations generated by the point drive motor are, according to a known engine running curve of Weichenan ^¬ drive motor, dependent on its speed. Based on the determined measurement signals of the at least one sensor, it is possible to determine a load level of the point machine drive motor and thus also the actuating force coupling. In particular, the at least one sen sors ^¬ deviations are detected by a standard setting mode at an early stage by the determined measurement signals. By the method, a contactless verification of a current actuating force of the actuating force coupling of the points drive can be performed. A manual over ^¬ test of the actuating force coupling, which also represents a direct intervention in the operation of the point machine, can thus be avoided. Furthermore, by the method feedback deviations can be minimized in a determination of the actuating force of the actuating force coupling.

According to one exemplary embodiment of the method, the at least one sensor is detachably arranged on an outer side of the outer housing of the points drive. By an external fastening ^¬ tion of at least one sensor no changes to the outer housing and thus to existing Sicherheitsnachwei ^¬ sen the points drive are required. The actuating force can thus be measured without a necessary change in the design of the existing point machine drive. Thus, already in service point machines can be checked or retrofitted according to the inventive procedural ^¬ ren. By a technically simple attachment of the at least ei ^¬ NEN sensor on the outer housing of the point machine drive Im ^¬ planning for any electromechanical Weichenan- drive motors with power clutches is possible. For example, the at least one sensor can be arranged detachably on the outer housing via at least one ^magnet , a belt or clamp that surrounds the outer housing, or a clamping connection. Alternatively or additionally, the at least one sensor can be glued to the outer housing temporarily or permanently.

In accordance with a further exemplary embodiment of the method, stored measuring signals of a plurality of changeover operations of the soft-ware drive for determining a maintenance requirement of the actuating-force coupling are compared with one another. By comparing a plurality of measurements made at different times by the at least one sensor, a tendency or a deviation in the positioning operation can be detected. A deviation in the vibration or sound characteristic of the

Actuating can be an indication of a technical defect or a future technical defect. Thus, causes for possible defects can be identified and eliminated at an early stage, thereby avoiding costs for a failure of the Weichenantriebs or a replacement of several components.

In accordance with a further exemplary embodiment of the method, a maintenance requirement of the actuating force coupling is determined when the minimum setpoint value of the determined actuating force falls below a minimum value. It can be calculated a ^¬ actuating force of the actuating force clutch based on the determined by the Minim ^¬ least one sensor measurement signals and a corresponding calibration of the at least one sensor.

A maintenance requirement can be signaled if the calculated actuating force exceeds or falls below a defined setpoint. For example, a need for maintenance can signa- be lisiert, if the setpoint of the force is fallen below by a factor of 1.2.

According to a further embodiment of the method the stored measurement signals of a plurality of actuating operations Wei ^¬ chenantriebs advertising for determining a deterioration condition of the

Actuator clutch used. Based on a plurality of monitored or checked Stellbetriebe the points drive, a tendency can be measured with respect to the vibration characteristic of the points drive. As a result, an event-related optimized maintenance can be realized independently of the components of the points drive. War ^¬ turing costs can thus be reduced and availability of the Weichenan ^¬ drive can be increased.

According to a further embodiment of the method ^¬ the stored measurement signals of several Umstellvorgänge the point mechanism used to create a condition forecast of the actuating force clutch. It can be based on the measurement signals models of points machine and the wear ^¬ parts, such as the adjusting force, created. In this way, it is possible to produce a predictive state ^{prognosis which} makes it possible to make statements about a maintenance effort or a valid state with regard to a customer or a service provider. In particular, this can be realized by a continuous force monitoring.

According to a further exemplary embodiment of the method, a future maintenance time is determined on the basis of the established state prognosis of the actuating force coupling. Based on time-offset measurement signals, a trend or a change in the force can be detected. From this, a time can be estimated when a maintenance of the switch ^¬ drive can be advantageous or necessary. It may be so-checked or existing service models through fact-based Datenana ^¬ analysis of the monitored point mechanism adapted. In particular, the determined information about the monitored point machine can be combined with other diagnostic data, such as from the program Sidis W compact, and used to optimize existing diagnostic programs. It can thus be a more accurate risk, state and

Availability evaluation of the examined turnout drives take place.

According to a further embodiment of the method ^¬ which the measurement signals of the at least one acoustic sensor continuously or time-discretely recorded. As a result, a long-term monitoring of point machines can be realized. Based on the data and / or information determined by the long-term monitoring, precise performance data of force-transmitting clutches as a function of different environmental influences and

operational usage intensities are gained. These data can be used for further development and for constructive improvements of turnout drives.

According to a further embodiment of the method, the measurement signals of the at least one sensor on a exter ^¬ NEN server unit is stored and provided. Thus, the measuring signals or determined the resulting calculate ^¬ th restoring forces can be centrally collected from different force couplings and evaluated.

In particular, the at least one sensor may be coupled to an off ^¬ evaluation electronics which the measuring signals obtained directly on the external server may transmit. In this way, a spatially independent evaluation of the measurement signals of the at least one sensor can be made possible.

According to a further aspect of the invention is Weichenan- operating system with a measuring system for performing the method according to the invention and having a points drive for locking ^¬ provide at least two switch points of a railway turnout provided. The point machine has a turnout drive motor for direct or indirect driving connected to at least one switch blade actuator rod via an actuating force coupling. Furthermore, the point machine drive on a drive electronics for controlling and regulating the point motor drive, while at least the Weichenan ^¬ drive motor and the actuating force coupling are arranged in an outer housing of the points drive. According to the invention on the outer housing at least one sensor for measuring Schallwel ^¬ len attachable to and evaluated by a measuring electronics, wherein based on measurement signals of the at least one sensor, a

Actuating force of the actuating force coupling during a control operation of the points drive is measurable.

The measuring system can in particular have at least one sensor on ^¬ which is mountable to any surface in or on the Wei ^¬ chenantrieb. At least one sensor is connected to a measuring electronics, wherein the measuring electronics can enhance and record the measurement signals of the at least one sensor at least before ^¬.

The measuring electronics can be connected to a transmitting and receiving device so that the recorded measuring signals of the at least one sensor can be transmitted to an external server unit. Alternatively, the measuring electronics store the recorded measurement signals of the at least one sensor on a storage medium, such as a memory card, hard disk or cloud.

The measuring system can be designed as a portable system for targeted checking of defined point machines or as a retrofit solution for permanent integration in a point machine. The measuring system can be coupled to the drive electronics to ^¬ of the switch drive motor, so that measurement signals listed specifically only during parking operations are characterized.

Preferably, the at least one sensor on the Außenge ^¬ housing can be placed. The at least one sensor can in be executed protected from environmental influences a sensor housing, so that a mounting or arrangement of the at least one sensor on an outer side of the outer housing of the Wei ^¬ chenantriebs is possible. As a result, the outer housing for making measurements must not be opened nor in his

Stellbetrieb be interrupted.

The point machine drive system can thus be used to position and operate a measuring system without direct intervention in an actuating operation of a soft-ware drive.

The measuring signals may preferably be time-varying amplitudes of vibrations and sound waves, which can travel and be registered via fasteners and holders of components in the outer housing of the points drive up to the at least one sensor.

According to an exemplary embodiment of the points drive system, the at least one sensor is a surface wave sensor. The at least one sensor may preferably be a sensor based on the piezo effect. The arriving at the at least one sensor vibrations and sound waves, a piezoelectric substrate of the at least one sensor me ^¬ mechanically stimulate, whereby the excitation can be generated corresponding voltage pulses and evaluated. Insbeson ^¬ particular, the vibrations and sound waves may be surface acoustic waves can propagate to material surfaces. The above-described characteristics, features, and advantages of this invention, as well as the manner in which they are achieved, will become clearer and more clearly understood by the following simplified simplified schematic illustrations of preferred embodiments. Show this 1 shows a perspective view of a Weichenan ^¬ drive system according to a first Ausführungsbei ^¬ game,

2 shows a schematic flowchart of a method for analyzing a points drive according to a first embodiment.

In the figures, the same constructive elements each have the same reference numerals.

The 1 shows a perspective view of a Wei ^¬ chenantriebssystems 1 according to a first embodiment, the switch drive system 1 here consists of a Weichenan drive 2 and, disposed on the switch machine 2 ^¬ measuring system. 4

The points drive 2 has an outer housing 6, which is open to illustrate the components. The point machine 2 has a point drive motor 8. The point drive motor 8 is an electric motor and drives a lock slider 10 which is connected to an actuating rod to. The point drive motor 8 drives the control rod 10 indirectly via a gear, not shown, and via a mounted on ei ^¬ ner ball screw actuator force 12 at.

By means of the actuating force coupling 12, a defined actuating force can be applied to the adjusting slides 10. In particular, the actuator clutch 12 can prevent damage to the switch drive motor 8 and the transmission when the lock slider 10 is blocked during a changeover operation. The points drive motor 8 is controlled by a drive electronics 14, when a signal for performing an actuating operation of a control center (actuator in Stell ^¬ factory) received. The setting slide (The control rod) 10 is connected according to the exporting approximately ^¬ for example with a switch blade 16, and may deflect the switch blade 16 transversely to the rail direction S of the rail 18 (scroll).

The measuring system 4 consists of a sensor 20 and a measuring electronics 22. The sensor 20 is a SAW (Surface Acoustic Wafers) sensor 20 and is positioned by means of a magnet, not shown, on an outer surface of the outer housing 6 of the Wei ^¬ chenantriebs 2.

The sensor 20 is coupled to the measuring electronics 22 so that the measuring signals determined by the sensor 20 can be recorded and processed by the measuring electronics 22.

In FIG 2 is a schematic flow diagram of a method 30 for analyzing a point mechanism 2 is shown in accordance with egg ^¬ nem first embodiment.

In a first step 31, the sensor 20 is arranged on or in the outer housing 6 of the switch drive 2.

Subsequently, the at least one sensor 20 is connected to the measuring electronics 22 32.

The measurement signals of the at least one sensor 20 are received by the measuring electronics 22 and stored 33 after amplification and filtering.

In a further step, a restoring force of the force coupling is based on the recorded measurement signals 12 determines or calculates 34. This can be realized in particular by 22 to ^¬ before a calibration carried out the at least one transmitter sors 20 and the measuring electronics.

Although the invention has been illustrated and described in detail by the preferred embodiments, so the invention is not limited by the disclosed examples and other variations can be deduced therefrom by those skilled in the art without departing from the scope of the invention.

Reference sign

1 point control system

2 points drive

4 measuring system

6 outer casing

8 point drive motor

10 control slide (control rod)

12 power transmission clutch

14 drive electronics

16 switch tongue

18 rail

20 sensor

22 measuring electronics

30 procedures

31 arranging the at least one sensor

32 Connecting the at least one sensor to a measuring electronics

33 Receiving and Saving Measured Signals

34 Determining a force

S rail direction

Claims

claims

A method (30) for analyzing a point machine (2) of a rail switch, wherein

at least one sensor (20) is provided for measuring sound waves,

Measuring signals of the at least one sensor (20) are recorded (33) during a changeover process of the point machine drive (2),

based on the recorded measurement signals of the

at least one sensor (20) a force of an actuating force coupling (12) of the points drive

(2) is determined (34).

2. The method of claim 1, wherein the at least one sensor (20) on an outer side of the outer housing (6) of the Wei ^¬ chenantriebs (2) is detachably arranged (31).

3. The method of claim 1 or 2, wherein stored measuring signals of several adjusting operations of the points drive (2) for determining a maintenance requirement of the actuating force coupling (12) are compared.

4. The method of claim 3, wherein a maintenance requirement of

Force control clutch (12) is determined when falling below a minimum setpoint value of the determined actuating force.

5. The method according to any one of claims 1 to 4, wherein stored measuring signals of several actuating operations of the points drive

(2) can be used to determine a state of wear of the actuating force ^¬ clutch (12).

6. Method according to one of claims 1 to 5, wherein stored measuring signals of a plurality of actuating operations of the point machine

(2) can be used to create a state prognosis of the Stellkraftkupp ^¬ ment (12).

7. The method of claim 6, wherein based on the prepared state prognosis of the actuating force coupling (12), a future maintenance time is determined.

8. The method according to any one of claims 1 to 7, wherein the

Measuring signals of the at least one sensor (20) are recorded continuously or temporally discrete.

9. The method according to any one of claims 1 to 8, wherein the measurement signals of the at least one sensor (20) are stored and provided on an ex ^¬ ternal server unit.

10. switch system (1) with a measuring system (4) for carrying out the method (30) according to one of the preceding claims and with a points drive (2) for adjusting at least two switch blades (16) of a rail switch, pointing to ^¬ a point drive motor (8) adjusting rod connected for directly or indirectly driving a with at least one point (16) (10) via a Stellkraft- clutch (12) and comprising drive electronics (14) for driving and controlling of the switch drive motor (8), to ^¬ least the point drive motor (8) and the Stellkraftkupp ^¬ ment (12) in an outer housing (6) of the points drive (2) are arranged, characterized in that on the outer housing (6) at least one sensor (20) for measuring sound ^¬ can be attached and evaluated by a measuring electronics (22), wherein based on measuring signals of the at least one sensor (20) a force of the actuating force coupling (12) during a Stellbetrie bs of the points drive (2) is measurable.

11. point machine drive system according to claim 10, wherein the at least one sensor (20) is a surface acoustic wave sensor.