KR102036211B1 - Circuit breaker - Google Patents

Abstract

Circuit breaker that can prevent failure due to insulation deterioration by disconnecting the power supply side and the load side and disconnecting the circuit breaker when it is impossible to use or there is a limit to the available voltage. Get
On and off contact 2 for opening and closing the AC converter 1, the current transformer 3 for detecting the current flowing in the AC converter 1, and the signal detected by the current transformer 3 An overcurrent trip circuit 5 for outputting a trip signal based on the trip signal, a trip device 6 powered by the trip signal to open and close the open / close contact 2, and an auxiliary contact for opening and closing in conjunction with the open / close contact 2 ( 7), the overcurrent trip circuit 5 outputs a trip signal to the trip device 6 even when the auxiliary contact 7 is opened and the line voltage of the AC converter 1 exceeds a predetermined value.

Description

Circuit breaker

The present invention relates to a circuit breaker with an alarm device for converting a trip operating state into an electrical signal, and more particularly to a circuit breaker with limited use of reverse connection.

The circuit breaker includes a power supply terminal to which an AC converter is connected, a fixed contact connected to the power supply terminal, a movable contact that contacts and opens the fixed contact, a movable contact provided at one end thereof, If the movable contactor is rotatable and the movable holder penetrates the gap and the current connected to the movable contactor exceeds the predetermined value, the opening / closing mechanism is driven to rotate the movable holder and the movable contactor. The overcurrent trip device (for example, a trip coil) which opens a movable contact from a fixed contact, and the load side terminal connected to this overcurrent trip device are provided (for example, refer patent document 1).

Japanese Patent Laid-Open No. 2010-218765

In the conventional circuit breaker, the movable contactor and the overcurrent trip device which are movably held in the movable holder which penetrates between the poles are provided in the vicinity of the load side terminal. Therefore, when the power supply side and the load side are connected and used in the reverse state, and the interruption operation is performed, the load side terminal, the movable contact, and the overcurrent trip device are in a state in which the voltage of the AC converter is continuously applied. As a result, the insulation resistance between the circuit breaker poles may drop due to arcing or soot generated by the interruption. If voltage is continuously applied in that state, insulation breakdown may occur and the circuit breaker may fail.

For this reason, depending on the type of circuit breaker, there is a problem in that, when using the reverse connection, it is necessary to provide a restriction to suppress the use voltage to a voltage lower than the normal connection or a restriction to prohibit the use of the reverse connection. .

This invention is made | formed in order to solve the above subjects, and it aims at obtaining the circuit breaker which can prevent the use which leads to the failure by reverse connection.

The circuit breaker which concerns on this invention is an opening-and-closing contact which consists of a terminal connected to a converter, the fixed contact connected to this terminal, and the movable contact which contacts and opens this fixed contact, the movable contactor provided with the movable contact, and this movable contactor The actuator holder penetrating the gap between the poles, the current detector detecting the current flowing through the converter, the overcurrent trip circuit outputting a trip signal based on the signal detected by the current detector, and the trip signal. A trip device for energizing and rotating the mover holder and the movable contactor to open the movable contact from the fixed contact, and an auxiliary contact for opening and closing in conjunction with the open / close contact, the overcurrent trip circuit has an auxiliary contact open and the converter When the voltage of the voltage exceeds a predetermined value, the blocking signal is output to the trip device.

According to the circuit breaker according to the present invention, the overcurrent trip circuit outputs a cutoff signal to the trip device when the auxiliary contact is opened and the line voltage of the converter exceeds a predetermined value, thereby preventing failure due to reverse connection use.

1 is a block diagram showing the configuration of a circuit breaker according to the first embodiment of the present invention.
2 is a block diagram of a time limiting circuit according to the first embodiment of the present invention.
Fig. 3 is a flowchart showing the reverse connection detection operation of the overcurrent trip circuit in accordance with the first embodiment of the present invention.
4 is a block diagram showing the configuration of a circuit breaker according to the second embodiment of the present invention.
Fig. 5 is a block diagram showing the configuration of the circuit breaker in the third embodiment of the present invention.

Embodiment 1.

1 is a block diagram showing the configuration of the circuit breaker 100 in Embodiment 1 of the present invention, FIG. 2 is a block diagram showing the configuration of the overcurrent trip circuit 5, and FIG. 3 is an overcurrent trip circuit 5 Is a flowchart showing a detection operation of reverse connection.

In FIG. 1, the circuit breaker 100 consists of a fixed contact and the movable contact which contacts and opens with this fixed contact, the opening-and-closing contact 2 which opens and closes an AC converter 1, and one phase of an AC converter 1 is shown. A transformer inserted between the current transformer 3 having a current transformer 3a inserted into the second phase, a current transformer 3b inserted into two phases, and a current transformer 3c inserted into three phases, and a 1-2 phase of the AC converter 1; The transformer 4 having the transformer 4b inserted between the phases 4a and 2-3 and the output signal of the current transformer 3 and the output signal of the transformer 4 are connected to the output signal of the current transformer 3. When the overcurrent trip circuit 5 which detects an overcurrent based on the trip current, and the trip coil 6a supplied with the trip signal of this overcurrent trip circuit 5, and the trip coil 6a (electronic device) apply power. Trip device 6 having trip mechanism 6b which drives opening / closing contact 2 openly, auxiliary contact 7 which opens and closes in conjunction with opening / closing contact 2, and overcurrent trip The alarm output circuit 8 which outputs an alarm externally in association with the trip signal of the rip circuit 5 is provided.

As shown in FIG. 2, the overcurrent trip circuit 5 includes a current detection circuit 5a for converting the current output signal of the current transformer 3 into an analog voltage signal, and the voltage detection signal of the transformer 4 as an analog voltage signal. A voltage conversion circuit 5b for converting, an A / D conversion circuit 5c for converting an analog voltage signal that is an output signal from the current detection circuit 5a and the voltage conversion circuit 5b into a digital signal, and an overcurrent trip characteristic And a current value flowing through each phase of the AC converter 1 on the basis of the digital signal from the A / D conversion circuit 5c and the characteristic setting unit 5d for setting the rated current. A switching device 5e including a microcomputer (CPU) that outputs a trip signal based on the overcurrent trip characteristic set to 5d) and a switching device which is driven by a trip signal of the control device 5e to excite the trip coil 6a. The element 5f is provided.

The current detection circuit 5a includes a rectifier circuit 5a1 for converting an AC current output signal from the current transformer 3 into a DC signal, and a burden circuit 5a2 for converting an output current signal of the rectifier circuit 5a1 into a voltage signal. ) And a waveform conversion circuit 5a3 for obtaining an effective value of the output voltage signal induced in the burden circuit 5a2.

Moreover, the opening-closing contact 2 is driven by the movable holder which rotatably holds the movable contactor provided with the movable contact, and the opening-and-closing mechanism which rotates the movable holder and the movable contactor, and the alternating current converter 1 Open and close

Next, the operation of the circuit breaker 100 will be described.

The control device 5e of the overcurrent trip circuit 5 converts the output signal of the current transformer 3 into an analog voltage signal by the current detection circuit 5a, and further, respectively, by the A / D conversion circuit 5c. Convert to a digital signal. Each signal converted into a digital signal by the A / D conversion circuit 5c calculates an effective value or peak value by the control device 5e and monitors the current value flowing through the AC converter 1.

The overcurrent trip circuit 5 has an overcurrent trip in which the current value flowing through the calculated AC converter 1 exceeds the rated current, and the duration time after which the excess current value and the excess of the rated current continues is set in the characteristic setting section 5d. If the characteristic is exceeded, a trip signal is output to turn on the switching element 5f. When the switching element 5f is turned on, a current flows in the trip coil 6a to excite the trip coil 6a. When the trip coil 6a is excited, the trip mechanism 6b is driven to open and close the contact point 2. In addition, the auxiliary contact 7 also opens in conjunction with the opening and closing of the open / close contact 2.

Next, operation | movement when the circuit breaker 100 is used in the reverse connection state which connected the power supply side and the load side in reverse is demonstrated.

As shown in FIG. 3, the overcurrent trip circuit 5 converts each output signal of the transformer 4a and the transformer 4b into an analog voltage signal by the voltage conversion circuit 5b, respectively, and further, A / D The conversion circuit 5c converts the signals into digital signals, respectively. Each signal converted into a digital signal by the A / D conversion circuit 5c is calculated with an effective value or peak value by the control device 5e (S101). Here, the signal of the transformer 4a is referred to as the voltage signal V12, and the signal of the transformer 4b is referred to as the voltage signal V23.

Next, in step S102, the signal of the auxiliary contact 7 is read, and when the auxiliary contact 7 is opened, 1 is set to the flag F, and when the auxiliary contact 7 is closed, the flag F is set to 0. The flow then advances to step S103. In step S103, when F = 1, ie, the auxiliary contact 7 is opened, it progresses to step S104 and when F = 0, ie, the auxiliary contact 7 is closed, a process is complete | finished. In step S104, it is determined whether the voltage signal V12 is larger than a predetermined value (for example, AC50V). If the voltage signal V12 is larger than the predetermined value, the process proceeds to step S106. If the voltage signal V12 is less than the predetermined value, the process proceeds to step S105.

In step S105, it is determined whether the voltage signal V23 is larger than a predetermined value (for example, AC50V). When the voltage signal V23 is larger than the predetermined value, the process proceeds to step S106, and when the voltage signal V23 is equal to or less than the predetermined value, the processing ends.

In step S106, when processing advances to this step, since it is determined that the power supply side and the load side of the circuit breaker 100 are connected in reverse, a trip signal is output.

When the trip signal is output, the switching element 5f is turned on, so that a current flows through the trip coil 6a to excite the trip coil 6a. When the trip coil 6a is excited, the trip mechanism 6b trips. That is, in the off state in which the open / close contact 2 and the auxiliary contact 7 are opened, the trip mechanism 6b is in an off trip state.

The alarm output circuit 8 is driven in conjunction with the trip signal from the overcurrent trip circuit 5 to output an alarm to the outside.

According to the present embodiment, the overcurrent trip circuit 5 trips the blocking signal when the auxiliary contact 7 is opened and the line voltage of the AC converter 1 detected by the transformer 4 exceeds a predetermined value. Since output to (6), it can detect that the circuit breaker 100 is reversely connected, and can prevent the failure by using reverse connection.

In addition, in this embodiment, although the converter was demonstrated by the AC converter, it is similarly applicable also in the case of a DC converter.

In addition, the predetermined threshold and predetermined time of the overcurrent trip circuit 5 shall have the characteristic which can protect the wiring to the load to be connected.

In addition, in this embodiment, while the overcurrent trip circuit 5 outputs the trip signal to the trip device 6, it drives the alarm output circuit 8 in connection with a trip signal, and alerts the outside, You may drive only the trip device 6 or only the alarm output circuit 8. When the overcurrent trip circuit 5 drives only the alarm output circuit 8, this alarm output cuts off other circuit breakers provided on the power supply side of the AC converter 1 rather than the circuit breaker 100, and the circuit breaker. Can protect 100

Embodiment 2.

4 is a block diagram showing the configuration of the circuit breaker 200 according to the second embodiment of the present invention.

In the first embodiment, the transformer 4 is used as the voltage detector. However, in the present embodiment, the voltage divider 41 is used instead of the transformer 4 as the voltage detector.

In detail, the voltage dividing resistor 41 has a resistor 41a having one end connected to one phase of the AC converter 1, one end connected to two phases of the AC converter 1, and the other end of the resistor 41a. A resistor 41b connected to the other end, a resistor 41c connected at one end to two phases of the AC converter 1, and one end connected to three phases at the AC converter 1, and the other end is connected to the other end of the resistor 41c. It has a resistor 41d connected to it.

Then, the connection points of the resistors 41a and 41b and the connection points of the resistors 41c and 41d are connected to differential A / D converters provided in the overcurrent trip circuit 5, thereby reducing the difference voltage between the two connection points. Detected by differential A / D converter.

Here, the resistor 41a and the resistor 41d are, for example, 1 M ?, and the resistor 41b and the resistor 41c are, for example, a resistance of 500?.

When the voltage of the AC converter 1 is set at 200 V, the voltage between the connection points of the resistors 41a and 41b and the connection points of the resistors 41c and 41d is about 0.1V. However, if the voltage is connected to the AC converter 1 of AC300V, the voltage between the two connection points is about 0.15V and can be detected.

Since it is the same as that of Embodiment 1 about another structure, detailed description is abbreviate | omitted.

According to the present embodiment, the overcurrent trip circuit 5 trips the cutoff signal when the auxiliary contact 7 is opened and the line voltage of the AC converter 1 detected by the voltage dividing resistor 41 exceeds a predetermined value. By outputting to the apparatus 6, it can detect that the circuit breaker 200 is connected in reverse, and can prevent the failure by use by reverse connection.

In addition, in this embodiment, although the converter was demonstrated by the AC converter, it is similarly applicable also in the case of a DC converter.

Embodiment 3.

5 is a block diagram showing the configuration of the circuit breaker 300 in Embodiment 3 of the present invention.

In Embodiment 1, when the line voltage between the 1-2 phase and the 2-3 phase of the AC converter 1 is provided with the transformer 4 is larger than a predetermined value, and the auxiliary contact 7 is opened, An example is shown in which the overcurrent trip circuit 5 outputs a trip signal. On the other hand, when the power supply circuit which drives the overcurrent trip circuit 5 is supplied from the line voltage of the AC converter 1, the overcurrent trip circuit 5 operates, and the 1-2 phase of the AC converter 1 is performed. It can be judged that the line voltage between or between phases 2-3 is larger than a predetermined value.

Therefore, in this embodiment, it is provided when it is provided in the AC converter 1, and it operates when the line voltage of the AC converter 1 exceeds the predetermined value (for example, AC50V), and the overcurrent trip circuit 5 supplies a power supply. The overcurrent trip circuit 5 is provided with the control power supply circuit 9 which starts supply, and power is supplied from the control power supply circuit 9.

Then, when the overcurrent trip circuit 5 continuously detects an open state of the auxiliary contact 7 for a predetermined time (for example, 100 msec or more), between the 1-2 phases of the AC converter 1 or between 2-phases. The line voltage between the three phases is larger than the predetermined value, and the auxiliary contact 7 is considered to be in an open state to output a trip signal. In this case, it is not necessary to provide a voltage detector such as a transformer 4 or a voltage divider resistor 41 in the circuit breaker 300.

According to the present embodiment, the overcurrent trip circuit 5 is the overcurrent trip circuit 5 when the auxiliary contact 7 is opened and the voltage between the lines of the AC converter 1 exceeds a predetermined value. ), The overcurrent trip circuit 5 outputs a cutoff signal to the trip device 6, so that the circuit breaker 300 can be detected to be inversely connected, and the failure caused by the reverse connection use can be detected. You can prevent it.

In addition, in this embodiment, although the converter was demonstrated as an AC converter, it is similarly applicable also in the case of a DC converter.

1 AC converter, 2 switching contacts,
3 current transformers, 4 transformers,
5 overcurrent trip circuit, 6 trip device,
6a trip coil, 6b trip mechanism,
7 auxiliary contacts, 100 circuit breaker.

Claims (7)

Terminal connected to the converter,
An opening / closing contact composed of a fixed contact connected to the terminal and a movable contact contacting and opening the fixed contact;
A movable contactor provided with the movable contact;
With a movable holder to keep this movable contactor rotatable and penetrate the gap
A current detector for detecting a current flowing through the converter;
An overcurrent trip circuit for outputting a trip signal based on the signal detected by the current detector;
An overcurrent trip device energized by the trip signal to rotate the movable holder and the movable contact to open the movable contact from the fixed contact;
An auxiliary contact opening and closing in conjunction with the opening and closing contact,
A voltage detector provided in the converter for detecting a voltage of the converter;
The overcurrent trip circuit determines whether the voltage of the converter measured by the voltage detector exceeds a predetermined value when the auxiliary contact is open, and when the voltage of the converter exceeds a predetermined value, the trip signal causes the trip. And a movable contact is opened from the fixed contact to the device. delete The method according to claim 1,
And a control power supply circuit installed in the converter and operating when the voltage of the converter exceeds a predetermined value, and starting supply of power to the overcurrent trip circuit. The method according to claim 1 or 3,
And the overcurrent trip circuit outputs the trip signal to the trip device when the auxiliary contact is opened and the voltage of the converter exceeds a predetermined value, and outputs an alarm signal. Opening and closing contact which opens and closes a converter,
A current detector installed in the converter for detecting a current flowing through the converter;
An overcurrent trip circuit for outputting a trip signal based on the signal detected by the current detector;
A trip device powered by the trip signal to open and close the open / close contact point;
An auxiliary contact opening and closing with the opening and closing contact;
A dry pressure detector provided in the converter for detecting a voltage of the converter;
The overcurrent trip circuit determines whether the voltage of the converter measured by the voltage detector exceeds a predetermined value when the auxiliary contact is open, and outputs an alarm signal when the voltage of the converter exceeds a predetermined value. Circuit breaker characterized by. delete The method according to claim 5,
And a control power supply circuit installed in the converter and operating when the voltage of the converter exceeds a predetermined value, and starting supply of power to the overcurrent trip circuit.

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