EP1555683A1 - Method for inspecting a circuit breaker - Google Patents

Abstract

Circuit breaker investigation involves carrying out a switching procedure with a definable movement profile and recording measurement values during the procedure for the drive current of the electric motor (4) and/or for the distance moved by the movable contact part using a measurement device. The recorded measurement values are used to assess the condition of the contacts or of the transmission chain (6).

Description

The invention relates to a method for examining a circuit breaker according to the preamble of claim 1.

From the document EP 1147531 A1 is known, the movable contact piece of a High or medium voltage circuit breaker by means of a controlled electric motor, for example, by means of a stepper motor or servo motor to drive. The electric motor is controlled by a control unit and transmits Data, such as the angular velocity and the position of the rotor, on the control unit. Thus, a sufficiently accurate control, respectively Regulation of the electric motor, and thus the movement of the mobile Contact piece possible.

Circuit breakers have a variety of parts that are continuous Wear subject. For example, the pre-contacts of the solid and burn movable contact piece, which are also referred to as arcing contacts, due to arcing, which occur during the switching operations for a short time, with the time off. Other, especially moving parts such as the shift rod, which are exposed to high mechanical loads can increase with increasing Operating life and increasing number of operating cycles lose strength.

The invention has for its object to provide a method which a Examination of a circuit breaker by simple means allowed.

This object is achieved by the method according to the invention for the investigation of a Circuit breaker with the features mentioned in claim 1.

With the invention is provided with a circuit breaker a switching operation to perform with a predeterminable course of movement. The circuit breaker, the a fixed and a movable contact piece, each with a pre-contact and a main contact is driven by a controllable electric motor. During the switching process, measured values for the drive current of the electric motor and / or for the covered path of the movable contact piece by means recorded a measuring device. Subsequently, an evaluation of the recorded Measured values performed. In particular, the recorded Measurements to assess the condition of the contacts or to evaluate the State of the transmission chain used.

The switching process can either be a switch-on, ie a movement of the movable, contact piece to the fixed contact piece or a switch-off process, ie a movement of the movable Contact piece away from the fixed contact, act.

The achievable with this embodiment of the invention advantages in particular in that for carrying out the method according to the invention no additional gauges and no additional wiring to the one to be examined Circuit breaker needed. The drive current of the electric motor is specified by the control unit and is advantageously also automatically measured by the control unit. The distance traveled by the contact piece is indirectly determinable by the position of the rotor of the electric motor. All to be recorded Measurements are advantageous from the control unit of the electric motor added.

For the purpose of documentation or archiving, the recorded Measured values are stored, for example in the form of a table or database. Before saving is also a data preparation, such as a Discretization, digitization or filtering, the measured values conceivable.

In normal operation, that is, for connecting or disconnecting an operating current of for example 1 kA with a high voltage circuit breaker in a high voltage network, the duration of a switching operation is comparatively short, in the Usually less than 100 ms. In an advantageous embodiment of the invention is a Movement with a constant, compared to normal operation given reduced speed, allowing a switching multiple Seconds takes. Such a slow movement allows a more accurate control of the electric motor and the recording of a higher number of measured values.

A particularly descriptive evaluation is obtained by taking from the recorded Measured values for the drive current of the electric motor a current / time diagram is created. By creating such a diagram, the recorded measured values graphically, so that a separate Storage in the form of a table or database is not essential. Furthermore, a diagram allows a comparatively simple visual check by an operator. The created diagram is used to evaluate the State of the contacts or the transmission chain.

In an advantageous embodiment of the invention is by means of the created Current / time diagram of the contact erosion of the pre-contacts of the circuit breaker determined. The contact erosion is determined by determining the time of the first Rise of the drive current determined.

In a further advantageous embodiment of the invention is recorded by means of Measured values for the drive current of the electric motor or by means of the created a power / time diagram interruption of the transmission chain from Electric motor to the movable contact piece, in particular a breakage of the shift rod, recognized. The measured values can be during a switching process with a course of motion at reduced speed as well as in the Normal operation can be recorded. In particular, such an interruption then detected when the drive current falls below a specified limit.

In a further advantageous embodiment of the invention is a movement history predetermined with a constant drive current of the electric motor, wherein the Drive current is smaller than in normal operation. For example, for the drive current a value of 5% to 20%, preferably 10%, of the value in normal operation given, so a switching process also takes several seconds and it can a higher number of readings are recorded.

A particularly descriptive evaluation is obtained by taking from the recorded or stored readings for the distance traveled movable contact a path / time diagram is created. Such Diagram allows a comparatively simple visual verification by an operator. The created diagram is used to evaluate the state of the Contacts.

In an advantageous embodiment of the invention is by means of the created Distance / time diagram of the contact erosion of the pre-contacts of the circuit breaker determined. The contact erosion is determined by determining the time of the first Drop of the slope of the curve determined.

It is also advantageous, in a first process step, in particular at default a slow movement with reduced speed and / or with reduced drive current, the power switch to be examined without voltage to switch. Such arises during the implementation of the invention Procedure no additional contact erosion.

Advantageously, a dynamic resistance measurement for determining the State of the pre and main contacts, especially during a switching operation with a course of motion at reduced speed or with reduced speed Drive current, performed.

During the dynamic resistance measurement, a power source is connected to the Circuit breaker applied. Subsequently, a switching operation, in particular a Switching off, carried out. During the switching process, measured values for the current flowing through the circuit breaker and / or for the voltage drop recorded on the switching path. The recorded measurements become used to assess the condition of the contacts

In an advantageous embodiment, the evaluation of the recorded takes place Measured values directly in the control unit of the electric motor. Thus, during the Operating a circuit breaker, a permanent monitoring of the transmission chain, in particular the shift rod allows.

In a further embodiment is for evaluating the recorded measured values a separate data processing device is provided, which with the Control unit of the electric motor is connected. Here, for example, the of the control unit recorded measured values for the drive current and / or the Path of the movable contact piece from the control unit to the data processing unit transferred, which makes the creation of a diagram. Alternatively, a diagram is created in the control unit and sent to the data processing unit transfer the created graph to a screen graphically displayed or printed.

Alternatively to creating a current / time diagram or a path / time diagram is also a numerical evaluation of the recorded measured values possible. Numerical evaluation means that the searched sizes, for example the contact erosion of the pre-contacts, from the numerical values of the recorded Measured values are calculated. Similarly, from the numerical values of measured values an interruption of the transmission chain can be detected. Such a numerical evaluation, for example, in the control unit or in a data processing unit connected thereto.

With reference to the drawings, in which embodiments of the invention shown are the invention, advantageous embodiments and improvements of Invention, and further advantages explained and described.

Fig. 1

eine Anordnung zur Durchführung des erfindungsgemäßen Verfahrens,

Fig. 2

ein Strom/Zeit-Diagramm,

Fig. 3

ein Weg/Zeit-Diagramm und

Fig. 4

ein Diagramm einer dynamischen Widerstandsmessung.

Show it:

Fig. 1

an arrangement for carrying out the method according to the invention,

Fig. 2

a current / time diagram,

Fig. 3

a way / time diagram and

Fig. 4

a diagram of a dynamic resistance measurement.

In Fig. 1 is an arrangement schematically for carrying out the invention Process illustrated. A movable contact piece of a circuit breaker 2 is by means of a transmission chain 6 from a controllable electric motor 4 driven. The transmission chain 6 has in addition to a switching rod for direct drive of the movable contact piece still other components, for example, a gearbox. The electric motor 4 is designed here as a servomotor, it can also be configured without further ado or as a stepping motor.

As a circuit breaker 2 high and medium voltage circuit breaker come in Consideration. High voltage circuit breakers are for operating voltages of more than 100 kV and operating currents of about 600 A to 3,000 A designed. The The duration of a switching process is usually between 10 and 100 ms. Medium-voltage circuit breakers are for operating voltages of about 1 kV Up to 100 kV and operating currents of about 600 A to 4,000 A designed. The duration a switching process is usually between 10 and 100 ms.

The electric motor 4 is driven by a control unit 8, which controls the drive current for the electric motor 4 pretends. The electric motor 4 also transmits data such as Angular velocity and position of the rotor, to the control unit 8. Zur Creation and / or presentation and / or output of created Diagrams a separate data processing device 9 is provided, which is connected to the control unit 8, and to which the control unit 8 transmits data.

Each position of the rotor of the electric motor 4 corresponds to a unique position the movable contact piece of the circuit breaker second

FIG. 2 shows a current / time diagram which shows the course of a drive current 1a of the electric motor 4 during a switch-on shows. The switch-on process takes place with a movement course with approximately constant speed. The speed is reduced compared to normal operation, and the switch-on, namely from a time T02 to a time T52, lasts several, for example five to ten, seconds. On the abscissa is one Time t and plotted on the ordinate of the drive current la.

The said course of motion is controlled by a control of the drive current reached. The electric motor 4 transmits data for the current position of the rotor the control unit 8. The control unit 8 controls the drive current such that the predetermined course of movement is maintained. The movable contact piece is that is, moving at a constant speed towards the fixed contact piece.

Until the time T02, the power switch 2 is turned off. At time T02 the switch-on process starts. Between the time T02 and a time T12 is to overcome an approximately constant friction, which inter alia of the gearbox, the bushings and the switching chamber of the circuit breaker 2 is caused. This requires a constant torque from the electric motor be applied, which is approximately proportional to the drive current. Of the Drive current is approximately between time T02 and time T12 constant.

At the time T12, the pre-contacts of the movable and the touch fixed contact piece, which are also referred to as arcing contacts. Of the Electric motor 4 must now overcome an additional mechanical resistance. The required torque and the drive current Ia rise. At a time T22, the contacting of the pre-contacts is completed. In a period between time T22 and time T32 are those to be overcome Friction and also the drive current la again constant.

At the time T32, the main contacts of the movable and the touch fixed contact piece. The electric motor 4 needs another mechanical resistance overcome and the required drive current increases again. To a Time T42, the contacting of the main contacts is completed, and in the Period between the time T42 and a time T52 are the to be overcome Friction and the drive current la again constant. At the time T52 the circuit breaker 2 is turned on and the turn-on is so completed.

The contact erosion of the pre-contacts becomes from the period from the time T02 until the time T12, that is, from the time from the start of the power-on until the first rise of the drive current Ia. A bigger one Contact erosion causes the movable contact piece to travel a greater distance to cover the pre-contacts, and that the time span of the Time T02 is greater by the time T12. If this time span one certain predetermined value exceeds, so a wear limit is reached and the contacts are to be replaced.

New non-worn pre-contacts will be touched at one time Tn2 instead. This value is known from a measurement that is new has been carried out. The contact burnup can be quantitatively from the time difference T12 - Tn2, ie from the time interval between the time Tn2 and the Time T12, calculate. The contact erosion is obtained by multiplying this Time difference with the given constant speed, with which the movable contact piece is moved towards the fixed contact piece. A wear limit is usually at a contact wear of about two to three millimeters reached.

From the size of the drive current are errors in the transmission chain. 6 recognizable. If the value of the drive current drops below a specified minimum value Imin, it means that the electric motor 4 apply a smaller torque got to. By the method step according to the invention it is recognized that not the complete transmission chain 6 including the movable contact piece of the circuit breaker 2 is driven. There is an interruption here the transmission chain 6, for example, a breakage of the shift rod ago.

In contrast, the value of the drive current exceeds a predetermined maximum value Imax, so the electric motor has to overcome increased friction. A possible The reason for this is increasing wear in the transmission chain 6, for example in the gearbox, a bushing or a contact track.

If the value of the drive current exceeds the predetermined maximum value, then From this a wear in the transmission chain 6 is detected, which over one predetermined wear limit is. We're above the chosen wear limit detected wear, a corresponding message can be generated be an example of a necessary maintenance.

The evaluation of the size of the drive current for the detection of errors in the Transmission chain 6 is possible both by means of a current / time diagram, which was created at constant, reduced speed, as well as by means of a current / time diagram, which was created in normal operation.

In Fig. 3, a path / time diagram is shown, showing the path of the movable Contact piece of the circuit breaker 2 during a switch-on shows. Of the Switching on takes place with a movement course with approximately constant Drive current. The drive current, which is approximately proportional to the torque of the Electric motor 4 is reduced compared to the normal operation. In normal operation the drive current has a size of about 100 - 300 A. In this example, the Drive current to about 10% of the value in normal operation, ie to about 20 A. reduced. A switch-on process thus takes a multiple of the time duration in the Normal operation is needed, for example, five to ten seconds.

On the abscissa is the time t and on the ordinate a path s of the movable one Contact piece of the circuit breaker 2 applied. The path s of the moving Contact piece is indirectly in this example, the position of the rotor of the Electric motor 4 determined. However, the path s can also be by means of a separate Wegaufnehmers be included.

Until a time T03, the movable contact piece is in one Position S0 in which the power switch 2 is turned off. At time T03 the switch-on process starts. In a period between the time T03 and At a point in time T13, a constant friction has to be overcome, and it follows a movement with an approximately constant speed. In the diagram is this can be recognized by a straight line with a constant gradient.

At the time T13, the movable contact piece is in a position S1, in which the pre-contacts touch. From the time T13 is a overcome additional mechanical resistance, and the movement becomes slowed down. At a time T23, in which the movable contact piece in is a position S2, the contact is complete and in the following Period between the time T23 and a time T33 are the Friction and the speed again constant.

At a time T33, the movable contact piece is in a position S3 and the main contacts touch each other. It is another mechanical resistance to overcome and the movement slows down. From a time T43, when the contact of the main contacts has been made and the movable contact piece is in a position S4, the friction and the speed the movable contact piece again constant. At a time T53 is located the movable contact piece in a position S5, in which the circuit breaker 2 is turned on.

The Kontaktabbrand the Vorkontakte is from the period between the time T03 and the time T13, that is, from the time from the beginning of Startup until the first fall of the slope of the curve determined. If the value S1 associated with the time T13, which is the position of the moving contact piece when touching the pre-contacts indicates a certain, exceeds predetermined value, the wear limit is reached.

For example, if the contact is new, not worn, it will touch at a time 'Tn3 and at a position Sn instead, so there is the contact erosion quantitatively as a difference S1 - Sn, ie as a path between the position S1 and the position Sn.

4 is a diagram of a dynamic electrical resistance measurement during a shutdown process. The switch-off process is included a movement course with constant, reduced speed instead.

At the beginning of dynamic resistance measurement, a power source is connected to the closed circuit breaker 2, which provides an approximately constant current, For example, DC, feeds. During the shutdown will be a through the circuit breaker 2 flowing current Id and the voltage drop across the Switching distance measured. This voltage drop, which is the voltage between the movable and the fixed contact piece is, in the following as Voltage Ud called. On the abscissa of the diagram is the time t and on the Ordinate are the current Id through the circuit breaker 2 and the voltage Ud am Circuit breaker 2 applied.

The curves of the voltage Ud and the current Id during the switch-off process give information about the condition of the pre- and main contacts. At a time T54, the power switch 2 is closed, the voltage Ud is approximately zero and the current Id is maximum.

At a time T34, at which the separation of the main contacts takes place, increases the voltage Ud briefly in the form of a pulse. At a time T14, too the separation of the pre-contacts of the fixed and the movable contact piece occurs, the voltage Ud rises to a maximum value and the current Id falls to zero. At a time T04, the power switch is turned off Voltage Ud is maximum and the current Id is equal to zero.

The contact erosion may be from the time T14 to the Time T04 be determined. If this time span is a given, given Value exceeds, so a wear limit is reached and the contacts should be replaced.

Alternatively, on the abscissa, the path s of the movable contact piece of Circuit breaker 2 can be ordered. From such a diagram are the positions the separation of the pre and main contacts directly readable.

A dynamic resistance measurement is also with a switching operation in normal operation or with a course of motion with reduced drive current feasible.

LIST OF REFERENCE NUMBERS

2:

breakers

4:

electric motor

6:

transmission chain

8th:

control unit

9:

Data processing device

la:

drive current

Imax:

maximum current

Imin:

minimal electricity

t:

Time

T02, T03, T04:

Circuit breaker switched off

T12, T13:

Time of touching the pre-contacts

T22, T23:

Time of the complete contacting of the pre-contacts

T32, T33:

Time of contact of the main contacts

T42, T43:

Time of complete contact of the main contacts

T52, T53, T54:

Circuit breaker switched on

Tn2, Tn3:

Time of contact of the pre-contacts without wear

T14:

Time of separation of the pre-contacts

T34:

Time of separation of the main contacts

s:

path

S0:

Position when the circuit breaker is switched off

S1:

Position when touching the pre-contacts

S2:

Position with complete contacting of the pre-contacts

S3:

Position when touching the main contacts

S4:

Position with complete contact of the main contacts

S5:

Position when the circuit breaker is switched on

Sn:

Position when touching the pre-contacts without wear

Ud:

Voltage at the circuit breaker

id:

Current through the circuit breaker

Claims (16)

A method of inspecting a circuit breaker (2) having at least one fixed contact piece and at least one movable contact piece, which is moved by a controllable electric motor (4), wherein the fixed contact piece and the movable contact piece each have a precontact and a main contact, wherein a Switching operation is carried out with a predeterminable course of movement, and wherein measured values for the drive current of the electric motor (4) and / or for the traveled distance of the movable contact piece are recorded by means of a measuring device during the switching operation, characterized in that the recorded measured values for evaluating the state of Contacts or to assess the condition of the transmission chain (6) are used. A method according to claim 1, characterized in that the recorded measured values are stored directly or after a data preparation before the evaluation is performed. A method according to claim 1 or 2, characterized in that a movement course with approximately constant, compared to the normal operation lesser, speed is specified. Method according to one of the preceding claims, characterized in that from the recorded or stored measured values for the drive current of the electric motor (4) a current / time diagram is created as an assessment of the state of the contacts or as an evaluation of the state of the transmission chain (6). A method according to claim 4, characterized in that by means of the generated current / time diagram, in particular by determining the time of the first increase of the drive current, the contact erosion of the pre-contacts is determined. A method according to claim 4 or 5, characterized in that by means of the created current / time diagram, in particular when falling below a specified limit value for the drive current, an interruption of the transmission chain (6), in particular a break of the shift rod is detected. A method according to claim 4 or 5, characterized in that by means of the created current / time diagram, in particular when exceeding a specified limit value for the drive current, a wear lying in excess of a predetermined wear limit in the transmission chain (6) is detected. A method according to claim 1 or 2, characterized in that a movement course with approximately constant, compared to the normal operation lower, drive current is specified. A method according to claim 1, 2 or 8, characterized in that from the recorded or stored measured values for the distance traveled by the movable contact piece, a path / time diagram is created as an evaluation of the state of the contacts. A method according to claim 9, characterized in that by means of the created path / time diagram, in particular by determining the time of the first fall of the slope of the curve of the path / time diagram, the contact erosion of the preliminary contacts is determined. Method according to one of the preceding claims, characterized in that, as the first method step, the power switch (2) is de-energized. A method according to claim 11, characterized in that during the switching operation in addition a dynamic resistance measurement is performed. Method according to claim 12, characterized in that the dynamic resistance measurement comprises the following steps: a power source is applied to the circuit breaker (2), during the switching process, measured values are recorded for the current flowing through the circuit breaker (2) and / or for the voltage drop across the switching path, and the recorded measurements are used to evaluate the condition of the contacts. Method according to one of the preceding claims, characterized in that the measured values are received by the control unit (8) of the electric motor (4). Method according to one of the preceding claims, characterized in that the data processing and / or the storage of the recorded measured values and / or the evaluation of the state of the contacts and / or the evaluation of the state of the transmission chain (6) in the control unit (8) of the electric motor (4). Method according to one of the preceding claims, characterized in that the data processing and / or the storage of the recorded measured values and / or the evaluation of the state of the contacts and / or the evaluation of the state of the transmission chain (6) in one with the control unit (8). the electric motor (4) connected to data processing device (9) is performed.

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