DE19937074C1 - Drive arrangement for a switch of medium or high voltage and method for moving a first contact piece - Google Patents

Abstract

In a drive arrangement of medium or high voltage technology, the energy (10) supplied to a drive (1) is influenced by means of a processing device (2) as a function of the current intensity of the current to be switched and / or the voltage applied to the switch in such a way that a movable one Contact piece (5) can be driven with a variable path-time characteristic. This influence can take the form of a control or regulation. In the case of a control version, the distance traveled by a driven contact piece (5) is used as the controlled variable.

Description

The invention relates to a drive arrangement for a switch of medium or high voltage with a first Contact piece, which by means of a drive variable path-time characteristic is movable.

Such a drive arrangement for a switch Medium or high voltage technology is from, for example DE 41 41 564 A1 known. By means of one Drive arrangement is the speed of movement of a Contact piece can be influenced.

In the known drive arrangement, the control of the Contact piece depending on the switch-specific Power requirement. This switch-specific power requirement by way and / or time is stored in a microprocessor.

The present invention has for its object a To design the drive arrangement of the type mentioned in the introduction that the operation of the drive assembly to the particular Switching task is customizable.

The object is achieved in that the Drive input energy through processing direction depending on the the switching conditions characterizing current of the current to be switched and / or the contacts on the contacts of a switch pole Voltage can be influenced.  

The problem with the known drive arrangements is that that the characteristic of the switch-off behavior only through switch-specific parameters, such as the Power requirements determined depending on distance and / or time is. Regardless of whether the interruption of a Short-circuit current or a nominal current takes place, works the switch according to a predetermined non-variable Characteristic.

The acceleration generated by the drive is determined by the size and the time distribution of the drive supplied energy. By influencing the supplied It is therefore possible to use the movable contact piece with energy a selectable path-time characteristic. The one Energy supplied by a drive Processing device influenced. The influencing can be done so that a positive or negative Acceleration is caused. This influencing takes place depending on the current of the to switching current and / or that applied to the switch Tension. At least one of these two sizes forms one Basis for the functions of the processing device. It can advantageously be provided that the Processing device is a control device.

The execution with a control device represents a technically simple and inexpensive variant.

Additional sensors or actuators are not required. It it is conceivable that the determination of the distance-time Characteristic done by different technologies. For example, it is through the formation of classes which  through typical boundary conditions of the respective switching task are marked, possible the number of limit different path-time characteristics. Taking into account the boundary conditions, the respective concrete switching case assigned to one of the classes.

The individual classes can with their characteristic Values are stored in a memory. For this Stores are the corresponding path-time characteristics can be read out, for example, by means of a microprocessor. It is conceivable that additional or only individual Information is saved, which is only in combination result in a complete path-time characteristic. Such For example, information is the target Arc burn time.

The drive of such a drive arrangement can for example as an electrodynamic drive become. Electrical energy can be easily supplied and to be influenced. The drive brings in inside Magnetic field which is directed onto a movable, Electromagnetically active drive piece works. This drive acts on the switch contacts.

Such a drive arrangement can with a sufficient Accuracy.

Another way of determining a Switching characteristic is for each one Switching process the corresponding path-time characteristic determine. From the concrete framework of the Switching process is the optimal, individual path-time Characteristic calculated according to which the drive arrangement  is controlled. This makes it possible for the Classification of the switching operations necessarily existing Avoid deviations from an optimum. As such is this method especially for switches with frequent and different circuits.

Furthermore, it can also be considered advantageous that the processing device is a control device that a displacement sensor for detecting the displacement-time behavior of the first Contact piece is present and the recorded value of the Control device can be supplied as an actual value.

With the execution of the processing device as It is possible to receive feedback from the control device Process controlled system. For this it is necessary that the covered distance of the first contact piece is measurable. The Measured variable is fed to the control device. That’s it possible to record the real position of the contact piece and transmission deviations of the kinematic chain compensate or the desired path-time course to realize.

For the determination of the path-time characteristic during execution The above technologies are one of the regulations applicable.

It can be advantageous that an ejector device for current and / or voltage with respect an instantaneous value is provided.

This evaluation device can be part of the Processing device or be carried out separately. The evaluation of current and voltage with regard to one  Instantaneous values leave characteristic shapes, such as. B. Easily recognize peaks or needles. These values provide a sensible basis for determining the corresponding path-time characteristics.

Furthermore, it can be considered advantageous that a Evaluation device for current and voltage regarding whose course over time is provided.

This evaluation device can in turn be part of the Processing unit or be executed separately. A Evaluation of the time course of current and voltage is particularly suitable, for example, for evaluating RMS sizes, phase positions or also the change over time of sizes. Values that follow a time course can be easily grasped and used to control or regulate the Drive device can be used.

The invention further includes a method of moving a first contact piece of a switch of the middle or High voltage, which by means of a drive with a variable path-time characteristic is movable.

The procedure provides that values of the to be switched Current and / or over the contacts of a switch pole applied voltage that a path-time Characteristic considering these measurements is selected and that the first contact piece after this path Time characteristic is moved.

The measurement of the current to be switched and / or the am Switch applied voltage forms a technically sensible Basis for determining the associated travel-time characteristics.  The switching characteristics can be based on each dominant switching case can be optimized. After this variable path-time characteristics then becomes the first Contact piece moves.

It can be provided that the path-time characteristic in Dependence on the measured values is selected such that a certain switching arc duration is reached.

The arc burn time is for the function of the switch an essential size. The arc burn time will used to get a certain amount of gas through the arc heat and store temporarily in a heating volume. Is the heating power of the arc is too low, so with one insufficient movement of the drive Heating quantity can be built up. If it is too big Heating gas output can lead to an overfilling of the heating volume come. Upon reaching a certain arc time in Depending on current and voltage, this is avoided and a reasonable amount of heating gas temporarily stored.

The invention is shown below in a drawing and then described.

The shows Figure the schematic representation of the drive arrangement.

The function of the drive arrangement in one regulated execution explained.

The switch has a first movable contact piece 5 which can be driven by a drive 1 and a second movable or fixed contact piece 6 . The two contact pieces 5 , 6 are part of an interrupter unit of a medium or high voltage switch. The first contact piece 5 can be driven by means of a drive 1 . This drive 1 can be designed, for example, as an electrodynamic drive. It is also conceivable that both contact pieces can be driven.

The drive 1 is operated with electrical energy. The supplied energy 9 is influenced by the processing device 2 . The necessary information about the physical quantities current and voltage are transmitted, for example, from converters 4 to the processing device 2 . Furthermore, special evaluation devices 7 , 8 are provided, which can be integrated in the processing device or can also be arranged separately. For evaluating the measured variables current and voltage, the corresponding evaluation devices 7 , 8 are connected to the processing device 2 .

A displacement sensor 3 is arranged directly at the interrupter unit at high voltage potential. This sensor continuously measures the distance covered by the first contact piece 5 . In order to form a control loop, the information from the displacement sensor 3 is transmitted to the processing unit 2 .

This regulated drive arrangement is used for the regulation of the Switch-off process used. But it can also be used for Regulation of the switch-on process can be used.

The mode of operation for a switch-off process is first described. The circuit breaker is initially switched on. The two contact pieces 5 , 6 are connected to one another in an electrically conductive manner. A switch-off command is issued from the outside. The measured values of the current flowing through the interrupter unit and the voltage applied to the switch are transmitted from the converters 4 to the processing device 2 . The processing device 2 forwards this information to the evaluation devices 7 , 8 for current and voltage. The evaluation devices 7 , 8 evaluate these measured values and make the evaluation results available to the processing device 2 .

The processing device 2 determines the present switch-off case from this information. Depending on the switch-off situation, a switch-off characteristic is determined according to distance and time. An essential component of a path-time characteristic is the time interval of the arc burning time. This arc burning time can be stored in a memory. It forms an important part of the entire path-time characteristic.

The energy 10 currently supplied to the drive 1 is regulated in accordance with this path-time characteristic. Since the acceleration generated by the drive of the contact piece 1 is determined by the drive energy supplied to 1 10, the first movable contact 5 is driven according to the predetermined path-time characteristic.

Regardless of the choice of the drive, whether hydraulic, pneumatic or electrical, one or more changes in the form of the energy 10 supplied to the drive 1 occur (for example electrical energy into magnetic energy into mechanical energy etc.). These changes in the form of energy can lead to deviations. These deviations can be so large that there are disturbances in the switching behavior of the interrupter unit. In particular, the elasticity of the shift linkage 11 and manufacturing tolerances can further exacerbate the problem.

For this reason, the real movement of the first contact piece 5 is measured continuously and the measured value is transmitted to the processing unit 2 . The processing unit 2 is thus able to carry out a comparison of the energy 10 supplied to the drive and the real effect on the first contact piece 5 .

If deviations of such magnitude have occurred within the kinematic chain that the movement profile of the first contact piece 5 deviates from the predetermined optimal movement profile, the processing device 2 can counteract this by providing the drive with more or less energy. This regulation takes place continuously. The switch-off thus runs close to an optimal movement sequence, so that the processes necessary for a safe switch-off of the switch can also take place in an optimized form.

The control can also be used for switch-on processes. For example, network synchronous switching is thought of. Again, the converters 4 provide the quantities for current and voltage of the processing device 2 . The processing device 2 forwards these values to the evaluation device 7 , 8 for voltage and current. The results of the evaluation devices 7 , 8 are in turn transmitted to the processing device 2 . The processing device then influences the energy 10 supplied to the drive in such a way that an optimized switch-on process can be assumed.

While switching on, the displacement sensor 3 monitors the movement of the first contact piece 5 . The information about the distance traveled by the contact piece 5 is forwarded to the processing device 2 . If the measured path deviates from the optimal path / time characteristic, the processing device 2 can in turn influence the energy 10 supplied to the drive accordingly.

The contacting of the contact pieces 5 , 6 can thus take place at an optimal time, for example in the zero voltage crossing.

With the contacting of the two contact pieces 5 , 6 of the interrupter unit, the switch-on process is completed. The drive arrangement is again ready for the next switching operation.

Claims (7)

1. Drive arrangement for a switch of medium or high voltage with a first contact piece ( 5 ) which is movable by means of a drive ( 1 ) with a variable travel-time characteristic, characterized in that the energy supplied to the drive ( 10 ) by a processing device ( 2 ) as a function of the current strength characterizing the switching conditions of the current to be switched and / or the voltage applied to the contacts of a switch pole. 2. Drive arrangement according to claim 1, characterized in that the processing device ( 2 ) is a control device. 3. Drive arrangement according to claim 1 or one of the following, characterized in that the processing device ( 2 ) is a control device, that a displacement sensor ( 3 ) for detecting the displacement-time behavior of the first contact piece ( 5 ) is present and the detected value the control device can be supplied as an actual value. 4. Drive arrangement according to claim 1 or one of the following, characterized in that an evaluation device ( 7 ) for current and / or voltage is provided with regard to their instantaneous values. 5. Drive arrangement according to claim 1 or one of the following, characterized in that an evaluation device ( 8 ) for current and / or voltage is provided with regard to their temporal course. 6. A method for moving a first contact piece ( 5 ) of a medium or high voltage switch, which is movable by means of a drive ( 1 ) with a variable path-time characteristic, characterized in that values of the current to be switched and / or of the voltage applied to the contacts of a switch pole, that a travel-time characteristic is selected taking these measured values into account and that the first contact piece ( 5 ) is moved according to this travel-time characteristic. 7. The method according to claim 6 characterized in that the path-time characteristic depending on the Measured values is chosen such that a certain Switching arc burning time is reached.