KR20240006770A - Operation characteristic analysis device for switchgear using vibration characteristics - Google Patents

Abstract

The present invention relates to an apparatus for analyzing the operating characteristics of a switch, which includes a vibration sensor that detects vibration of the main circuit input terminal of a switch or breaker, a signal detection unit that processes the vibration waveform detected by the vibration sensor, and processing in the signal detection unit. It may include an analysis unit that analyzes the stroke speed using the vibration waveform.

Description

Operation characteristic analysis device for switchgear using vibration characteristics}

The present invention relates to an apparatus for analyzing the operating characteristics of a switch, and more specifically, to an apparatus for analyzing the operating characteristics of a switch that can analyze the characteristics of a product during mass production of a switch.

In general, to measure the operating characteristics of a switch or circuit breaker, a method is used to electrically measure the contact state of the main contact of the switch or circuit breaker and analyze the chattering of the contact area and the floating opening time, which is the time difference between three-phase contacts, or use a linear sensor. A method of measuring speed by attaching it is used.

These methods can provide valid characteristic analysis results during product development, but it is difficult to analyze the operating characteristics of manufactured switch or circuit breaker products.

In other words, it is difficult to attach a sensor for speed measurement to a completed switch or circuit breaker, and since speed measurement is not possible based only on the operating state of the contact point, there was difficulty in detecting the operating characteristics of the completed switch or circuit breaker.

Publication Patent No. 10-2022-0008014 (published on January 20, 2022, circuit breaker operation characteristic analysis system test device) involves turning on or opening a circuit breaker and providing an operation signal according to the power supply and the closing or opening state of the breaker. A device for detecting and analyzing the state of a circuit breaker is described.

However, the above published patent also relates to a device for detecting and analyzing the operating state of a built-in circuit breaker, and it is difficult to apply it to detecting the operating speed and floating opening time of a completed switch or circuit breaker.

The problem to be solved by the present invention in consideration of the above problems is to provide a switch operation characteristic analysis device that can detect the operation characteristics of a completed switch or circuit breaker.

The present invention's switch operation characteristic analysis device for solving the above technical problems includes a vibration sensor that detects vibration of the main circuit input terminal of a switch or breaker, a signal detection unit that processes the vibration waveform detected by the vibration sensor, and It may include an analysis unit that analyzes the stroke speed using the vibration waveform processed by the signal detection unit.

In an embodiment of the present invention, a setting input unit for inputting vibration waveform settings corresponding to the start and end of the stroke may be further included.

In an embodiment of the present invention, the vibration waveform setting of the setting input unit may be input to the signal detection unit or analysis unit.

In an embodiment of the present invention, the vibration sensor may detect vibration for each phase of the switch or the circuit breaker.

In an embodiment of the present invention, the analysis unit checks the time required for the stroke of each phase using the vibration waveform detected for each phase, calculates the difference in the stroke time for each phase, and, if the difference exceeds the set value, It can be analyzed as defective.

The present invention's switch operation characteristic analysis device uses a vibration sensor to detect vibration characteristics that occur during the operation of a switch or circuit breaker, detects the operating speed of the switch or circuit breaker using the start and end points of vibration, and determines the floating opening time. This has the effect of being able to easily analyze the characteristics of a completed switch or circuit breaker.

In addition, because the present invention uses vibration, the characteristics of the switch and circuit breaker can be easily analyzed by simply manipulating the analysis test settings by attaching a vibration sensor to the outer surface of the completed switch and circuit breaker, which has the effect of improving convenience. there is.

1 is a block diagram of an apparatus for analyzing operation characteristics of a switch of the present invention.
Figure 2 is a waveform diagram of one implementation of the opening stroke of the switch.
Figure 3 is a waveform diagram of one implementation of the closing stroke of the switch.
Figure 4 is a flow chart of the analysis of float opening time of the present invention.

In order to fully understand the configuration and effects of the present invention, preferred embodiments of the present invention will be described with reference to the attached drawings. However, the present invention is not limited to the embodiments disclosed below, but can be implemented in various forms and various changes can be made. However, the description of this embodiment is provided to ensure that the disclosure of the present invention is complete and to fully inform those skilled in the art of the present invention of the scope of the invention. In the attached drawings, components are shown enlarged in size for convenience of explanation, and the proportions of each component may be exaggerated or reduced.

Terms such as 'first' and 'second' may be used to describe various components, but the components should not be limited by the above terms. The above terms may be used only for the purpose of distinguishing one component from another. For example, the 'first component' may be named 'the second component' without departing from the scope of the present invention, and similarly, the 'second component' may also be named 'the first component'. You can. Additionally, singular expressions include plural expressions, unless the context clearly dictates otherwise. Unless otherwise defined, terms used in the embodiments of the present invention may be interpreted as meanings commonly known to those skilled in the art.

Hereinafter, an apparatus for analyzing operating characteristics of a switch according to a preferred embodiment of the present invention will be described in detail with reference to the drawings.

1 is a block diagram of an apparatus for analyzing the operating characteristics of a switch according to a preferred embodiment of the present invention.

Referring to Figure 1, the present invention includes a vibration sensor 10 that is attached to a switch (or circuit breaker 1) and detects vibration according to the operation of the switch, and the vibration detected by the vibration sensor 10 is detected as a waveform signal. A signal detection unit 20, a setting input unit 30 that inputs settings for start and end of operation to the signal detection unit 20, and the time required for a contact change operation by analyzing the waveform of the signal detection unit 20. It is configured to include an analysis unit 40 that analyzes.

Hereinafter, the configuration and operation of the device for analyzing the operating characteristics of a switch according to a preferred embodiment of the present invention configured as described above will be described in more detail.

First, the vibration sensor 10 is attached to the outer surface of the switch 1. In the description of the present invention, the switch 1 is taken as an example, but the same can be applied to a circuit breaker including a mover.

In the present invention, the vibration sensor 10 can be attached to the main circuit input terminal of a switch or circuit breaker for more accurate vibration detection.

The vibration sensor 10 is capable of detecting the vibration of a product, and the present invention uses a method of detecting vibration rather than a method of directly measuring speed as in the past, making measurement easy and installation of the sensor easy. do.

In particular, it can be applied to products where it is difficult to attach a sensor directly to a conductor.

For example, it can be applied to a disconnector-linked switch.

The disconnector-linked switch has a structure in which when the main circuit is opened or closed, the disconnector connected to the main circuit is automatically opened or closed.

In the case of operation, the main circuit may be turned on after the disconnector is turned on.

Additionally, in the case of opening, the disconnector may be opened in the order that the main circuit is opened.

If the operation cycle is reversed and the main circuit is turned on and then the disconnector is turned on, it may lead to an accident in the switch or breaker.

Therefore, the operating stroke is important, but since the part where the disconnector and the main circuit are connected has a structure that cannot be contacted, the sensor cannot be attached directly to the conductor.

However, when using the vibration sensor 10 as in the present invention, the characteristics can be analyzed by attaching the vibration sensor without fear of an accident.

The vibration detected by the vibration sensor 10 is a vibration generated by the movement of the mover, and the vibration sensor 10 detects this as a change in electrical waveform.

The output of the vibration sensor 10 is input to the signal detection unit 20, and the signal detection unit 20 outputs an electrical waveform signal that is easy to interpret through signal processing. Signal processing at this time may include signal amplification and noise removal.

At this time, the signal detection unit 20 can detect and output the section of the opening stroke or closing stroke according to the settings input through the setting input unit 30.

That is, the setting input unit 30 inputs settings for the start and end of the opening stroke and the start and end of the injection stroke. In this case, the settings for the start and end of each stroke may be the amplitude of the vibration signal.

At this time, the amplitude setting can be set to the electrical size between the crest and the trough.

Information about the start and end input through the setting input unit 30 may be input differently depending on the type of switch or circuit breaker.

Because the operating characteristics of the switches and circuit breakers are all different, the same standard cannot be used, and different set values are input through the setting input unit 30 depending on the type of switch or circuit breaker.

The setting input unit 30 allows the user to directly input amplitude information or to input settings by selecting amplitude information given for each switch or circuit breaker.

In the above example, it has been explained that the start and end point settings of the operation cycle are provided to the signal detection unit 20 using the setting input unit 30, but it is also possible to input them to the analysis unit 40.

Figure 2 is a waveform diagram of one implementation of the opening stroke of the switch, and Figure 3 is a waveform diagram of one implementation of the closing stroke.

As shown in Figures 2 and 3, when vibration of a specific amplitude is detected, it is judged as the start of the opening stroke or closing stroke, and when an amplitude corresponding to the end of the opening stroke or closing stroke is detected again, the opening stroke or closing stroke is ended. It can be judged that it has been done.

The signal detection unit 20 may detect only the waveform between the start and end of the opening stroke or the closing stroke and provide the waveform to the analysis unit 40.

When the settings of the setting input unit 30 are provided to the analysis unit 40, the signal detection unit 20 provides the entire detected waveform to the analysis unit 40, and the analysis unit 40 provides the setting input unit 30. By detecting the amplitude corresponding to the start and end of and analyzing the time between them, information on the time required for opening or closing can be analyzed.

The analysis unit 40 can calculate the operation speed using the operation time. The operator of the switch and circuit breaker has a set stroke distance, and the operation speed of the operator is calculated using the stroke distance and the detected time information.

The vibration sensor 10 may be installed on each phase of the circuit breaker.

That is, in the case of a three-phase switch, the vibration characteristics of each phase can be detected using three vibration sensors 10.

The analysis unit 40 can analyze the operation time for each phase and detect the floating aperture time.

The analysis unit 40 may be a computing device that performs an analysis program, and may include at least a processor for analyzing a computer, laptop, tablet PC, smartphone, etc. by executing an analysis program, and a display unit capable of displaying the analysis results. You can.

Figure 4 is a flowchart of the process of analyzing the floating gap time in the analysis unit 40 of the present invention.

As shown in Figure 4, first, the waveform for each phase is input (S41), the amplitude corresponding to the start and end of the stroke for each phase is confirmed, and the time between the amplitude corresponding to the start and end is detected. (S42).

Next, the difference in operation times of each phase, namely phase A, phase B, and phase C, is compared (S43).

If the difference between the operation times of each phase exceeds the set value, it is analyzed as a defect (S44).

In other words, the analysis unit 40 should ideally complete each phase at the same time from the start to the end of the administration, but due to various reasons, there is a time difference from the start to the end of each phase, and the time difference is the set time value. If it deviates from the set value, it can be judged as a defective product.

Although embodiments according to the present invention have been described above, they are merely illustrative, and those skilled in the art will understand that various modifications and equivalent scope of embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the following claims.

10: Vibration sensor 20: Signal detection unit
30: Setting input unit 40: Analysis unit

Claims (5)

A vibration sensor that detects vibration of the main circuit input terminal of a switch or breaker;
A signal detection unit that processes the vibration waveform detected by the vibration sensor; and
A switch operation characteristic analysis device including an analysis unit that analyzes stroke speed using the vibration waveform processed by the signal detection unit. According to paragraph 1,
A switch operation characteristic analysis device further comprising a setting input unit for inputting vibration waveform settings corresponding to the start and end of the stroke. According to paragraph 2,
The vibration waveform setting of the setting input unit is,
A switch operation characteristic analysis device, characterized in that the signal is input to the signal detection unit or analysis unit. According to paragraph 1,
The vibration sensor is,
A switch operation characteristic analysis device characterized in that it detects vibration for each phase of the switch or the circuit breaker. According to clause 4,
The analysis department,
Using the vibration waveform detected for each phase, check the time required for the stroke of each phase,
Find the difference in administrative time for each award,
A switch operation characteristic analysis device characterized in that it analyzes the switch as defective if the difference exceeds the set value.