JP3071084B2 - Rectifier control device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a control device for a rectifier used as a DC power source for electroplating or alumite processing.

[0002]

2. Description of the Related Art FIG. 8 is a circuit diagram showing a conventional rectifier control device similar to that disclosed in Japanese Patent Publication No. Sho 63-53772. 8, reference numeral 1 denotes a switch connected to a power system (not shown), reference numeral 2 denotes a rectifier transformer, reference numeral 3 denotes a rectifier, and reference numeral 4 denotes an output current of the rectifier 3 connected to the load 6 and supplied to the load 6. The current detector 5 for detection detects the output of the current detector 4 and a preset reference value, and incorporates an operational amplifier for controlling the rectifier 3 based on the comparison difference. This is a current control device that generates a trip signal for opening.

A load 7 is connected in parallel to the load 6 so that the load 6
The voltage detector 8 detects the output voltage supplied to the current detector 4 and detects a short circuit based on the outputs of the current detector 4 and the voltage detector 7. When the short circuit is detected, the voltage detector 8 trips the switch 1. This is a short-circuit detection device that sends a trip control signal.

Next, the operation of the rectifier control device according to the above configuration when a short circuit is detected will be described with reference to the operation characteristics of the short circuit detection device 8 shown in FIG. In FIG.
A1 and V1 indicate a current set value and a voltage set value for setting the load short-circuit detection range, and the short-circuit detection device 8 outputs the current from the current detector 4 and the voltage detector 7 at the current set value A1 or more, and When the load is within the set value V1 or less, the load current is interrupted by sending a trip control signal to the current control device 5 to trip the switch 1 assuming that the load is short-circuited. ing.

[0005]

Since the conventional rectifier control device is constructed as described above, the outputs of the current detector 4 and the voltage detector 7 are less than the current set value A1 and the voltage set value V1 In the above case, that is, when the load open state cannot be detected, and when the outputs of the current detector 4 and the voltage detector 7 are in the overcurrent state in which the current is equal to or more than the current set value A1 and the voltage is equal to or more than the voltage set value V1, In this case, it is difficult to detect an abnormality in the load 6 such as a plating facility or a processed product. Further, if the sensitivity is increased by lowering the set values of the current set value A1 and the voltage set value V1, there is a problem in that, for example, when the operation of the plating equipment as the load 6 is started, a malfunction occurs due to a transient fluctuation of the plating solution. .

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and can detect not only the detection of a short circuit of a load but also the detection of an opening of a load. It is an object of the present invention to obtain a rectifier control device capable of preventing malfunction due to the rectifier.

[0007]

SUMMARY OF THE INVENTION The control device for a rectifier according to the present invention includes a rectifier for supplying DC converted output to a load connected switches and rectifier transformer successively through with the electric power system, from the rectifier A current detector that detects a load current flowing through the load, a current controller that controls the rectifier based on a detection output of the current detector and generates a trip signal that opens the switch when an overcurrent occurs ,
A voltage detector for detecting a voltage applied between the upper Symbol load across detects the load open and load short-circuit based on the load resistance value obtained from the detection output of said current detector and the voltage detector The current control device further includes a short-circuit / open detection device that outputs a trip control signal of the switch, and the short-circuit / open detection device divides a detection output of the voltage detector by a detection output of the current detector. A current value comparator that outputs an output when the detected output of the current detector is equal to or greater than a predetermined current set value; When the output value of the voltage value comparison comparator and the output value of the current value comparison comparator are transmitted and the load resistance value is smaller than the short-circuit detection load resistance set value, A short-circuit detection comparator that sends a detection output, and an open-circuit detection that sends an open-circuit detection output when the load resistance value is larger than the open-circuit detection load resistance set value while the output of the voltage value comparison comparator is being sent. An OR circuit for obtaining OR outputs of the short-circuit detection comparator and the open detection comparator, and a relay circuit for outputting the trip control signal to the current control device based on the output of the OR circuit. It is characterized by having.

[0008]

Further, the control unit of the rectifier according to another aspect of the present invention, a rectifier for supplying DC converted output to a load connected switches and rectifier transformer successively through to the to the power system, to the load from the rectifier a current detector for detecting a load current flowing through the current control device at the time of an overcurrent for generating a trip signal to open said switch controls the rectifier based on the detection output of the current detector, the upper Symbol load across A voltage detector for detecting a voltage applied between the current detector and the current control device by detecting a load short circuit and a load open based on a load resistance value obtained from a detection output of the current detector and the voltage detector. And a short-circuit / open detection device that outputs a trip control signal of the switch. The detection output of the voltage detector is used as the short-circuit / open detection device. A divider which divides to determine the load resistance, and the current value comparing comparator detects the output of the current detector sends an output when the above predetermined current setpoint,
A voltage value comparison comparator that sends an output when the detection output of the voltage detector is equal to or greater than a predetermined voltage set value, and in a state where the output of the current value comparison comparator is being sent,
A short-circuit detection comparator that outputs a short-circuit detection output when the load resistance value is smaller than the short-circuit detection load resistance setting value, and an open-circuit detection when the output of the voltage value comparison comparator is transmitted. An open detection comparator that sends an open detection output when the load resistance is greater than a load resistance set value, and a trip control signal to the current control device or an alarm signal to the outside that is excited and controlled based on the output of the short detection comparator. And a relay circuit for opening detection that is excited and controlled based on the output of the opening detection comparator and outputs a trip control signal to the current control device or an external alarm signal. It is characterized by having.

[0010] Also, with an averaging circuit for averaging the load resistance value outputted from the split adder, the open detection comparator and the shorting averaged load resistance value output from the averaging circuit It is provided to a comparator for detection.

[0011] Also, other short circuit delivering short detection output is smaller than the different level-detection load resistance set value short circuit of the load resistor set value for the load resistance value is the short circuit detection output from the split adder A detection comparator is provided, and the output of the other short-circuit detection comparator is used as the excitation control output of the relay circuit.

[0012]

[0013]

[0014]

[Action] The control device for a rectifier according to the inventions are
A short-circuit / open-circuit detection device detects a load short-circuit and a load-open based on a load resistance value obtained from a detection output of a current detector and a voltage detector, and outputs a trip control signal of the switch to a current control device. Thus, not only the load short-circuit but also the load release can be detected, and the switch is trip-controlled. In other words, the output of the voltage detector is
The load resistance can be calculated by dividing by the detection output of the current detector.
Value is obtained and the short-circuit detection comparator detects the current.
When the output of the transmitter is equal to or higher than the specified current
When the load resistance is smaller than the short-circuit detection load resistance setting
The short-circuit detection output is sent to the
Data, the detection output of the voltage detector
In the above cases, the above load resistance value
If it is larger than the fixed value, the release detection output is sent and
Short-circuit detection comparator and open-circuit detection comparator
A relay circuit based on the output of the OR circuit that obtains the OR output with
Outputs a trip control signal to the current controller.
Not only short-circuit detection but also load release detection
To trip the current control device. Also, the load and
Do not perform unnecessary detection within the range that does not affect the rectifier.
Set the lower limit of the open / short detection operation level.
You have set. That is, the detection output of the voltage detector
Open detection comparator can be operated only when the set value is exceeded.
And the detection output of the current detector
Operation of the short-circuit detection comparator is possible only in the above cases.
I have to.

[0015]

Further, in a rectifier control device according to another invention,
In this case, the load resistance value is obtained by dividing the detection output of the voltage detector by the detection output of the current detector by a divider, and the detection output of the current detector is determined by a short-circuit detection comparator. When the load resistance value is smaller than the short-circuit detection load resistance set value when the load resistance value is equal to or more than the current set value, a short-circuit detection output is sent out. A trip control signal to the outside or an alarm signal to the outside is output, and when the detection output of the voltage detector is equal to or more than a predetermined voltage set value by the open detection comparator, the load resistance value is set to the open detection load resistance. An opening detection output is sent when the value is larger than the set value, and a trip control signal or a trip control signal to the current control device is output by an opening detection relay circuit that is excited based on the output. By warning signal to the part is outputted, it is possible to improve the operational continuity of the equipment so as to output a warning signal to the trip control signal or external depending on the particular load conditions. In addition, load and
Do not perform unnecessary detection within the range that does not affect the rectifier.
Set the lower limit of the open / short detection operation level.
You have set. That is, the detection output of the voltage detector
Open detection comparator can be operated only when the set value is exceeded.
And the detection output of the current detector
Only when the above conditions are met, the short-circuit detection comparator can be operated.
I have to.

[0017] Also, by averaging circuit averages the load resistance value output from the divider, and a short circuit detection averaged open detection comparator of the load resistance value output from the averaging circuit By giving the signal to the comparator, it is possible to prevent a malfunction caused by a transient change in the load resistance at the time of starting or stopping the operation of the equipment, and to continue the stable operation of the equipment.

[0018] Also, other short detection sending a short detection output is smaller than the different level-detection load resistance set value shorting of the load resistance set value load resistance for short-circuit detection output from the split adder A short-circuit detection is performed at a different level from the averaged load resistance by controlling the excitation of the relay circuit by the output of the other short-circuit detection comparator. Short-circuit short-circuits, which cannot be detected by value-based short-circuit detection, can also be detected, thereby enhancing the protection capability against rectifiers and loads.

[0019]

[0020]

[0021]

【Example】

Embodiment 1 FIG. Hereinafter, a first embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a configuration diagram illustrating a control device for a rectifier according to the first embodiment. 1, the same reference numerals as those in the conventional example shown in FIG. 8 denote the same parts, 1 denotes a switch connected to a power system (not shown), 2 denotes a transformer for a rectifier, and 3 denotes a switch 1 and a rectifier for the power system. A rectifier that is sequentially connected through a transformer 2 to obtain a DC conversion output, 4 is a current detector that detects the output current of the rectifier 3, 5 is a current control device, 6 is a load, and 7 is an applied voltage across the load. A voltage detector for detecting, and as a new configuration, 80 detects a short circuit and an open circuit of the load 6 based on the outputs of the current detector 4 and the voltage detector 7 and controls trip to the switch 1. This is a short-circuit open detector that outputs a signal to the current controller 5.

Here, in the first embodiment, the short-circuit / open detector 80 is configured as shown in FIG.
And a short-circuit / open-circuit detector 81 divides the output of the voltage detector 7 by the output of the current detector 4 to obtain a load resistance value, and sets the output of the divider 8a. When the load resistance value is equal to or less than the set value, that is, when the load resistance value is equal to or less than the set value, an open detection comparator 8b that sends an open detection output, and the output of the divider 8a are compared with the set value. When the load value is equal to or more than the set value, that is, when the load resistance value is equal to or more than the set value, the short-circuit detection comparator 8c that sends out the short-circuit detection output, and does not perform unnecessary detection within a range that does not impair the load 6 and the rectifier 3. As described above, the output of the voltage detector 7 is compared with a lower limit set value, and the voltage value comparator 8d and the normally open contact 8e that make the open detection comparator 8b operable only at the lower limit set value or higher. Lower output of unit 4 Compared with a set value, and a current value comparing comparator 8f and normally open contacts 8g to an operable state the short circuit detection comparator 8c only greater than or equal to the lower limit set value.

Further, an OR circuit 8h for sending out an output when any of the outputs of the comparators 8b and 8c is input, a transistor 8i which is turned on / off based on the output of the OR circuit 8h, and a transistor 8i
And a relay circuit 8j that is energized and controlled based on the on / off control of the relay circuit and sends a trip signal, and a contact 8k thereof. Note that the voltage value comparator 8d and the current value comparator 8f close the normally open contacts 8e and 8g, respectively, when the value is equal to or higher than the lower limit value, so that the output of the divider 8a is compared with the open detection comparator 8b. The signals are sent to the short-circuit detection comparators 8c, respectively, to enable the comparison operation with the set value.

Next, the operation of the rectifier control device according to the above configuration at the time of short-circuit detection and open-circuit detection will be described with reference to the operation characteristics of the short-circuit and open-circuit detection device 81 shown in FIG. In FIG. 3, A1 and V1 denote a current set value and a voltage set value for setting the load short-circuit detection range I, as in the conventional example.
When V2 represents the current set value and voltage set value for setting the load opening and the load resistance anomaly detection range II, also at L ₀ is the load resistance curve as the voltage-current characteristics of the normal, L ₁ and L ₂ are abnormal shows a load resistance curve which is a voltage-current characteristic, the load resistance curve L ₁ sets the load short detection range I, the load resistance curve L ₂ is used to set the load opening and the load resistance anomaly detection range II , The detection value of the output voltage of the rectifier 3 is divided by the detection value of the output current to obtain an output proportional to the load resistance. When the load is within the abnormality detection range II, a short circuit of the load, a load release, and a load resistance abnormality are detected. By sending a trip signal to the current control device 5 to trip the switch 1, the load is detected. To cut off the current It has been done.

That is, the short-circuit opening detecting device 8 shown in FIG.
In the configuration of FIG. 1, the output of the voltage detector 7 is divided by the output of the current detector 4 to obtain the value of the load resistance by the divider 8a, and the voltage value comparison comparator 8d The output of the detector 7 is compared with the lower limit set value V2 shown in FIG. 3, and when the output is equal to or higher than the lower limit set value V2, the normally open contact 8e is closed to make the open detection comparator 8b operable. Similarly, the current value comparison comparator 8f
Compares the output of the current detector 4 with the lower limit set value A1 shown in FIG. 3, and closes the normally open contact 8g to make the short-circuit detection comparator 8c operable when the output is equal to or larger than the lower limit set value A1.

[0026] The closing of the normally open contact 8e, the open detection comparator 8b is input the load resistance from the divider 8a, compared with a set value given by the load resistance curve L ₂ shown in FIG. 3 Then, when the load resistance value is equal to or larger than the set value, that is, when the load resistance value is within the load release and load resistance abnormality detection range II, the release detection output is transmitted. Similarly, the normally open contact 8g
The closing of the short-circuit detection comparator 8c is input load resistance from the divider 8a, and compared with a set value given by the load resistance curve L ₁ shown in FIG. 3, the load resistance value is the set value In the following cases, that is, when it is within the load short detection range I, a short detection output is sent.

The transistor 8i is turned on by the output of the open detection comparator 8b or the output of the short detection comparator 8c via the OR circuit 8h, and the relay circuit 8j is excited based on the on control of the transistor 8i. The trip signal is controlled and the contact 8k is closed, so that the trip signal is supplied to the current control device 5 shown in FIG.
The switch 1 is tripped and the load current is cut off.

Therefore, according to the first embodiment, the divider 8a for obtaining the load resistance, the open detection comparator 8b and the short detection comparator 8
c, and detects a load short circuit and a load release based on load resistance values obtained from detection outputs of the current detector 4 and the voltage detector 7, and outputs a trip control signal of the switch 1 to the current control device 5. By doing so, it is possible to detect not only a load short circuit but also a load opening or an abnormal drop in load resistance, thereby enabling the switch 1 to be trip-controlled, thereby enabling early failure diagnosis of plating equipment, continuity of operation, and damage to the plating equipment. Prevention and detection of product defects can be performed.

Embodiment 2 FIG. Next, FIG. 4 is a configuration diagram illustrating a short-circuit / open detection device according to a second embodiment. This embodiment 2
As in the first embodiment, the configuration of the rectifier control device shown in FIG. 1 is provided, but the configuration in the short-circuit / open detection device is different from that of the first embodiment. That is, in the first embodiment, the OR circuit 8h
FIG. 4 shows a case where a trip signal is output by sending an output to a relay circuit 8j via a transistor 8i when a load short circuit or a load release and a load resistance abnormality are detected. In the short-circuit / open-circuit detection device 82 according to the second embodiment, the outputs of the open-circuit detection comparator 8b and the short-circuit detection comparator 8c are independently output to the relay circuit except for the OR circuit 8h of the first embodiment. I have.

In FIG. 4, the same reference numerals as those in the first embodiment shown in FIG. 2 denote the same parts, and a description thereof will be omitted. As new codes, 8l, 8m, and 8n denote an open-detection transistor that is turned on based on the output of the open-detection comparator 8b, and an open-circuit that is excited by the on-control of this transistor and sends an alarm signal to the outside. It is a detection relay circuit and its normally open contact. Similarly, 8o,
Reference numerals 8p and 8q denote a short-circuit detection transistor that is turned on based on the output of the short-circuit detection comparator 8c, and a trip control signal that is excited by the on control of the transistor and sends a trip control signal to the current control device 5 shown in FIG. Shows the relay circuit for short-circuit detection and its normally open contact, detects open-circuit detection and short-circuit detection individually, sends a trip control signal when load is short-circuited, and sends only an alarm when load is opened. I have to.

That is, in the short-circuit / open detection device 82 according to the second embodiment shown in FIG.
b, the transistor 8l is turned on, and the relay circuit 8l is controlled based on the on control of the transistor 8l.
When m is controlled to be excited and its contact 8n is closed, an alarm signal is sent to the outside. On the other hand, the transistor 8o is turned on by the output of the short-circuit detection comparator 8c, and the relay circuit 8p is energized and controlled based on the on-control of the transistor 8o to close the contact 8q, thereby generating a trip control signal. Is sent to the current control device 5 shown in FIG. 1, the switch 1 is tripped, and the load current is interrupted. In the second embodiment,
A trip control signal is transmitted when the load is short-circuited, and only an alarm is transmitted when the load is released.

Therefore, according to the second embodiment, the open circuit detection and the short circuit detection are individually detected by the relay circuits 8m and 8p of the short circuit open detection device 82, respectively, and the trip control signal to the current control device 5 or Since the alarm signal is output to the outside, the operation continuity of the equipment according to the individual load condition can be improved.

Embodiment 3 FIG. Next, FIG. 5 is a configuration diagram illustrating a short-circuit / open-circuit detection device according to a third embodiment. Example 3
As in the first embodiment, the configuration of the rectifier control device shown in FIG. 1 is provided, but the configuration in the short-circuit / open detection device is different from that of the first embodiment. That is, in the first embodiment, the output of the divider 8a is directly sent to the open-circuit detection comparator 8b and the short-circuit detection comparator 8c. However, in the short-circuit and open detection device 83 according to the third embodiment shown in FIG. The output of the 1-divider 8a is sent to the open-circuit detection comparator 8b and the short-circuit detection comparator 8c via the averaging circuit 8r.

5, the same reference numerals as those in the first embodiment shown in FIG. 2 denote the same parts, and a description thereof will be omitted. As a new code, 8r outputs the output of the divider 8a not as an instantaneous value,
An averaging circuit that outputs an output averaged for a predetermined time to an OR circuit to an open-circuit detection comparator 8b and a short-circuit detection comparator 8c, and malfunctions due to transient fluctuations in load resistance at the start or stop of equipment operation. Is prevented, and stable operation of the equipment is continued.
Other operations are the same as in the first embodiment.

Therefore, according to the third embodiment, the output obtained by averaging the output of the divider 8a of the first embodiment, instead of the instantaneous value, for a predetermined time is output to the OR circuit in the short-circuit / open-circuit detection device 83. Averaging circuit 8r for sending to the open-circuit detection comparator 8b and the short-circuit detection comparator 8c, which prevents malfunctions due to transient fluctuations in load resistance at the time of starting or stopping the operation of the equipment, thereby ensuring stable operation of the equipment. Can be continued, and highly reliable load short-circuit and open-circuit detection can be performed.

Embodiment 4 FIG. Next, FIG. 6 is a configuration diagram illustrating a short circuit / open detection device according to a fourth embodiment. Example 4
As in the first embodiment, the configuration of the rectifier control device shown in FIG. 1 is provided, but the configuration in the short-circuit / open detection device is different from that of the first embodiment. That is, in the first embodiment, the OR circuit 8h
FIG. 6 shows a case where a trip signal is output by sending an output to the relay circuit 8j via the transistor 8i when a short circuit or an open circuit of the load or an abnormality in the load resistance is detected. In the short-circuit / open-circuit detection device 84 according to the fourth embodiment, similarly to the second embodiment illustrated in FIG. 4, except for the OR circuit 8h of the first embodiment, the open-circuit detection comparator 8b and the short-circuit detection comparator 8c.
Are independently output to the relay circuits 8m and 8p. Further, similarly to the third embodiment shown in FIG.
The output of the divider 8a of the first embodiment is sent to the open detection comparator 8b and the short detection comparator 8c via the averaging circuit 8r.

In FIG. 6, as a new code,
8s sets the short-circuit detection output to the transistor 8o when the load resistance output from the divider 8a is smaller than the short-circuit detection load resistance set value at a level different from the short-circuit detection load resistance set value of the short-circuit detection comparator 8c. The other short-circuit detection comparator which sends the signal to the relay circuit 8p via the relay circuit 8p and controls the excitation. The short-circuit detection has a relatively low level of the load resistance value compared to the short-circuit detection comparator 8c. Short-circuit detection is performed so that the load resistance value is relatively high, and short-circuit detection based on the averaged load resistance value cannot be detected by performing short-circuit detection at a different level from the averaged load resistance value. Short possible short circuits can be detected. In other configurations, the same reference numerals as those in FIGS. 2, 4 and 5 denote the same parts.

Therefore, according to the fourth embodiment, the second embodiment
Similarly, the relay circuits 8m and 8
With p, the open detection and the short circuit detection are individually detected, and a trip control signal to the current control device 5 or an alarm signal to the outside is output, so that the operation of the equipment according to the individual load condition is continued. Characteristics can be improved, and as in the third embodiment,
The averaging circuit 8r that averages the output of the divider 8a for a predetermined period of time, not an instantaneous value, and sends the result to the open detection comparator 8b and the short detection comparator 8c. Can be prevented from malfunctioning due to the transient fluctuation of the load resistance, stable operation of the equipment can be continued, a highly reliable load short circuit and open circuit can be detected, and the output from the divider 8a can be performed. The load resistance value is input to the separately provided short-circuit detection comparator 8s without passing through the averaging circuit 8r, and is detected at a level different from the detection level of the averaging input short-circuit detection comparator 8c. As a result, the above-described comparator of the averaging input can detect a short-circuit that could not be detected for a short time, thereby enhancing the protection capability against the rectifier and the load. It can be.

Embodiment 5 FIG. Next, FIG. 7 is a configuration diagram illustrating a rectifier control device according to a fifth embodiment. Example 5
Like the first to fourth embodiments, the short-circuit / open detection devices 81 to 84 are provided (in FIG. 7, the short-circuit / open detection device 81 shown in FIG. 2 is provided). In contrast to the case where the transformer 4 detects the output current of the rectifier 3, that is, the DC current, the current detector 40 includes a current detector 40 that detects the primary-side current of the rectifier transformer 2, that is, the AC current. Others are the same as the first embodiment.

In the above-described first to fourth embodiments, the current detector 4 is configured to detect the output current of the rectifier 3, that is, the DC current. 7, the load short-circuit and the load open can be detected. However, as in the fifth embodiment shown in FIG. Alternatively, the current detector 40 may be provided on the primary side of the rectifier transformer 2 and the detection output may be input to the divider 8a.
4, it is possible to perform a wide range of detection protection including the internal trouble of the rectifier transformer 2, the internal trouble of the rectifier 3, and the short circuit of the load, which are difficult. In other words, the primary side of the rectifier transformer 2 can be used as a current detection source to perform a wide range of detection protection from the rectifier transformer 2 to the load 6.

Therefore, according to the fifth embodiment, the current detector 40 detects the current on the primary side of the rectifier transformer 2, and the detected output is input to the divider 8a. Thereby, it is possible to provide a wide range of detection protection including the internal fault of the rectifier transformer 2 and the internal fault of the rectifier 3.

[0042]

As described above, according to the present invention, the short-circuit / open-circuit detecting device detects the output of the current detector for detecting the actual load current and the voltage detector for detecting the voltage applied to the actual load. Detects a load short circuit and a load open based on the obtained load resistance value and outputs a switch trip control signal to the current control device, so it is possible to detect not only a load short circuit but also a load open of an actual load. Can be That is, the short-circuit opening detection device is applied to an actual load.
The detection output of the voltage detector that detects the voltage is used to detect the actual load current.
A divider for obtaining a load resistance value by dividing by a detection output of the current detector to be output; a current value comparison comparator for sending an output when a detection output of the current detector is equal to or more than a predetermined current set value; A voltage value comparison comparator that outputs an output when the detection output of the voltage detector is equal to or higher than a predetermined voltage set value; and a circuit in which the output resistance of the current value comparison comparator is transmitted and the load resistance value is used to detect a short circuit. When the output of the short-circuit detection comparator that sends out the short-circuit detection output when the load resistance is smaller than the set value and the output of the voltage value comparator is sent and the load resistance is larger than the open-circuit detection load resistance set value An open circuit for sending an open detection output to the comparator, an OR circuit for obtaining an OR output of the short circuit detection comparator and the open detection comparator, and an OR circuit Because of the arrangement with a relay circuit for outputting the trip control signal to the current control device based on the output, as well as short-circuit detection, and detect a load opening,
The current control device can be tripped. In addition, the voltage value comparator and the current value comparator enable the open detection comparator to operate only when the detection output of the voltage detector is equal to or higher than the lower limit set value, and the detection output of the current detector is equal to or higher than the lower limit set value. Only when the short circuit detection comparator is operable, the lower limit set value of the open and short detection operable levels is set, so unnecessary detection is performed within the range where the load and rectifier are not damaged. Can be removed. In addition, current detection
The load current or DC current flowing from the rectifier to the load
Configuration to detect complicated
Rather than detecting alternating current without the need for edge configuration
The configuration of the current detector is simplified,
Short circuit and load release can be detected.

[0043]

Further, the short-circuit / open-circuit detection device can be used for an actual load.
The output of the voltage detector that detects the applied voltage is actually negative.
Comparison between a divider for obtaining a load resistance value by dividing by a detection output of a current detector for detecting a load current and a current value for sending an output when a detection output of the current detector is equal to or more than a predetermined current set value. A comparator, a voltage value comparator that outputs an output when a detection output of the voltage detector is equal to or higher than a predetermined voltage set value, and a state in which the load resistance value is output while the output of the current value comparator is being transmitted. A short-circuit detection comparator that sends out a short-circuit detection output when it is smaller than the short-circuit detection load resistance setting value. An open detection comparator that sends an open detection output when it is larger than the above, and a trip to the current control device that is excited and controlled based on the output of the short detection comparator. A short circuit detection relay circuit for outputting a control signal or an alarm signal to the outside, and an excitation control based on the output of the open detection comparator to output a trip control signal to the current control device or an external alarm signal. Since it is configured with the relay circuit for opening detection, it is possible to output a trip control signal or an alarm signal to the outside according to an individual load state, thereby improving the continuity of operation of the equipment. Further, the voltage value comparison the comparator and the current value comparing comparator, both the detection output of the voltage detector is operable state open detection comparator only when the above lower limit set value, the current detector of the detection output lower limit set value Only in the above cases, the lower limit value of each open and short detection operable level is set so that the short-circuit detection comparator becomes operable, so unnecessary detection is performed within a range that does not cause a failure to the load and the rectifier. Can be avoided. In addition, a current detector flows from the rectifier to the load.
Load current, that is, DC current.
Therefore, there is no need for complicated conversion and insulation configurations.
Configuration of the current detector is simpler than detecting the AC current
It is necessary to detect the load short circuit and the load release of the actual load.
Can be

[0045] Also, by averaging circuit averages the load resistance value output from the divider, and a short circuit detection averaged open detection comparator of the load resistance value output from the averaging circuit By giving the signal to the comparator, it is possible to prevent a malfunction due to a transient fluctuation of the load resistance at the time of starting or stopping the operation of the facility, and to continue the stable operation of the facility.

[0046] Also, other short detection sending a short detection output is smaller than the different level-detection load resistance set value shorting of the load resistance set value load resistance for short-circuit detection output from the split adder A short-circuit detection is performed at a different level from the averaged load resistance by controlling the excitation of the relay circuit by the output of the other short-circuit detection comparator. Short-circuit short-circuits that cannot be detected by value-based short-circuit detection can be detected, and the protection capability against the rectifier and the load can be enhanced.

[0047]

Furthermore, according to the rectifier control device according to claim 7, in any one of claims 1 to 5, the current detector is configured to detect the current on the primary side of the rectifier transformer. Accordingly, it is possible to provide a wide range of short-circuit protection including a rectifier internal fault and a rectifier internal fault.

[Brief description of the drawings]

FIG. 1 is an overall configuration diagram showing a rectifier control device according to a first embodiment of the present invention.

FIG. 2 is a detailed configuration diagram of the short-circuit / open-circuit detection device according to the first embodiment of the present invention.

FIG. 3 is a characteristic diagram illustrating an operation of the short-circuit / open-circuit detection device according to the first embodiment of the present invention.

FIG. 4 is a detailed configuration diagram of a short-circuit / open-circuit detection device according to a second embodiment of the present invention.

FIG. 5 is a detailed configuration diagram of a short-circuit / open-circuit detection device according to a third embodiment of the present invention.

FIG. 6 is a detailed configuration diagram of a short-circuit / open-circuit detection device according to a fourth embodiment of the present invention.

FIG. 7 is a configuration diagram illustrating a rectifier control device according to a fifth embodiment of the present invention.

FIG. 8 is a configuration diagram showing a conventional rectifier control device.

FIG. 9 is a characteristic diagram illustrating an operation of a short-circuit detection device according to a conventional example.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Switch 2 Rectifier transformer 3 Rectifier 4 Current detector 40 Current detector 5 Current controller 6 Load 7 Voltage detector 8a Divider 8b Open detection comparator 8c Short circuit detection comparator 8d Voltage value comparison comparator 8f Current value Comparison comparator 8h OR circuit 8j Relay circuit 8m Relay circuit 8p Relay circuit 8r Averaging circuit 8s Short circuit detection comparator 80 Short circuit open detector 81 Short circuit open detector 82 Short circuit open detector 83 Short circuit open detector 84 Short circuit open detector

Claims (4)

(57) [Claims] 1. A rectifier connected to a power system via a switch and a rectifier transformer in order to supply a DC conversion output to a load, a current detector for detecting a load current flowing from the rectifier to the load , A current control device that controls the rectifier based on the detection output of the current detector and generates a trip signal for opening the switch when an overcurrent occurs.
When a voltage detector for detecting a voltage applied between the upper Symbol load ends, and a load releasing the load short-circuit based on the load resistance value obtained from the detection output of said current detector and the voltage detector detects And a short-circuit / open detection device for outputting a trip control signal of the switch to the current control device, and the detection output of the voltage detector is divided by the detection output of the current detector as the short-circuit / open detection device. A divider for calculating a load resistance value, a current value comparator for sending an output when a detection output of the current detector is equal to or more than a predetermined current set value, and a detection output of the voltage detector for a predetermined value. When the load resistance value is smaller than the short-circuit detection load resistance setting value while the output of the voltage value comparison comparator that outputs an output when the voltage is equal to or higher than the voltage setting value and the output of the current value comparison comparator are transmitted. A short-circuit detection comparator that sends a short-circuit detection output, and an open circuit that sends an open-circuit detection output when the load resistance value is larger than the open-circuit detection load resistance set value while the output of the voltage value comparison comparator is being sent. A detection circuit, an OR circuit that obtains an OR output of the short-circuit detection comparator and the open-circuit detection comparator, and a relay circuit that outputs the trip control signal to the current control device based on the output of the OR circuit. A control device for a rectifier, comprising: 2. A rectifier connected to a power system via a switch and a rectifier transformer in order to supply a DC conversion output to a load; a current detector for detecting a load current flowing from the rectifier to the load ; A current control device that controls the rectifier based on the detection output of the current detector and generates a trip signal for opening the switch when an overcurrent occurs.
When a voltage detector for detecting a voltage applied between the upper Symbol load ends, and a load releasing the load short-circuit based on the load resistance value obtained from the detection output of said current detector and the voltage detector detects And a short-circuit / open detection device for outputting a trip control signal of the switch to the current control device, and the detection output of the voltage detector is divided by the detection output of the current detector as the short-circuit / open detection device. A divider for calculating a load resistance value, a current value comparator for sending an output when a detection output of the current detector is equal to or more than a predetermined current set value, and a detection output of the voltage detector for a predetermined value. When the load resistance value is smaller than the short-circuit detection load resistance setting value while the output of the voltage value comparison comparator that outputs an output when the voltage is equal to or higher than the voltage setting value and the output of the current value comparison comparator are transmitted. A short-circuit detection comparator that sends a short-circuit detection output, and an open circuit that sends an open-circuit detection output when the load resistance value is larger than the open-circuit detection load resistance set value while the output of the voltage value comparison comparator is being sent. A detection comparator, a short-circuit detection relay circuit that is excited and controlled based on an output of the short-circuit detection comparator, and outputs a trip control signal to the current control device or an alarm signal to the outside; A rectifier control device comprising: an open detection relay circuit that is excited and controlled based on an output and outputs a trip control signal to the current control device or an external alarm signal. 3. An averaging circuit for averaging a load resistance value output from the divider, wherein the averaged load resistance value output from the averaging circuit is connected to the open detection comparator and the short circuit. 3. The rectifier control device according to claim 1, wherein the rectifier control signal is supplied to a detection comparator. 4. A short circuit for outputting a short circuit detection output when a load resistance value output from the divider is smaller than a short circuit detection load resistance set value at a level different from the short circuit detection load resistance set value. 4. The rectifier control device according to claim 3, further comprising a detection comparator, wherein an output of the other short-circuit detection comparator is used as an excitation control output of the relay circuit.