KR20130140457A - Over-current protecting relay - Google Patents

Abstract

An overcurrent protecting relay is disclosed. The efficient production management of the overcurrent protecting relay is performed by detachably mounting a proper control knob setting module according to various environments and user conditions. Confusion due to the difference of a set value is prevented by mounting a dummy type control knob setting module if the set value is inputted through a button setting module of the overcurrent protecting relay. [Reference numerals] (AA) Setting type recognition unit;(BB) Bit;(CC) Type

Description

Overcurrent Protection Relays {OVER-CURRENT PROTECTING RELAY}

The present invention relates to an overcurrent protection relay, and more particularly, to an overcurrent protection relay including a detachable adjustment knob setting module.

The circuit breaker includes an over current protecting relay for detecting fault currents, over currents, and ground faults in a circuit in which the circuit breaker is installed, and controlling the circuit breaker to trip (break) when such an abnormal current occurs. 1 shows the appearance of a typical circuit breaker. As shown, the breaker 1 includes a main cover 2 for interfacing with the user, such as setting, controlling, status display, manual operation, etc. of the breaker 1. The overcurrent protection relay 4 is installed at one rear of the main cover 2, and an auxiliary cover 3 is attached to the main cover 2 to cover the front surface of the overcurrent protection relay 4.

The overcurrent protection relay measures the current flowing through the breaker and generates a trip signal when an overcurrent or fault current is detected.

The overcurrent and fault current detection methods include a bimetallic mechanical method and a digital method of digitizing a current signal using an analog-to-digital converter (ADC) and a microcomputer (MCU) and calculating and monitoring the current signal.

In the overcurrent protection relay, the set value which is the standard of the circuit break operation is provided in various forms for the user to input conveniently. Largely, there are a method of inputting a setting current, an operation time, etc. using a key button, and a method of setting a setting value using a setting knob. In case of the input method using the key button, a display device for showing the current input value must be accompanied. However, in the case of the input method using the setting knob, the display value can be checked immediately. none.

On the other hand, since the setting knobs of the overcurrent protection relay are generally fixed in position and number, it is difficult to modify them according to various conditions, and it is inconvenient that a software change is required to change the reference values for the plurality of setting knobs provided. there was.

Accordingly, embodiments of the present invention provide an overcurrent protection relay that may include an adjustment knob setting module that can be variously modified according to environment and / or user conditions without changing the structure of the existing overcurrent protection relay. have.

An overcurrent protection relay according to an embodiment of the present invention includes an adjustment knob setting module detachably mounted to the overcurrent protection relay and configured to set a setting value for a circuit break operation using an adjustment knob; A connector portion having a plurality of connecting pin holes, wherein the connecting pins of the adjustment knob setting module are connected to the connecting pin holes; A setting type recognition unit for detecting an output signal transmitted from a connected connecting pin and recognizing a setting type of an installed adjustment knob setting module; .

In an exemplary embodiment, the overcurrent protection relay may further include a blocking operation controller configured to control a circuit breaking operation based on a setting value corresponding to the recognized setting type.

In an embodiment, the output signal is a unique bit value signal corresponding to a setting type of a mounted adjustment knob setting module, and the setting type recognizer is configured to receive the bit value signal and set the setting type of the adjusting knob setting module. Characterized in that the recognition.

The setting type recognition unit may include a memory for storing a unique bit value corresponding to the setting type of the adjustment knob setting module.

The setting type recognition unit may recognize a setting type of an adjustment knob setting module mounted by detecting a bit value corresponding to the output signal from the memory.

In an embodiment, the overcurrent protection relay may further include a button setting module configured to receive a setting value for the circuit breaking operation by using one or more buttons. dummy), the circuit break operation is controlled based on a setting value set in the button setting module.

The blocking operation controller may output a trip signal for a circuit blocking operation when the detected current value exceeds a setting value of the adjustment knob setting module.

In one embodiment, if the setting type of the adjustment knob setting module is a dummy, the blocking operation control unit trips a trip signal for a circuit breaking operation when the detected current value exceeds the setting value of the button setting module. It characterized in that the output.

The overcurrent protection relay may further include a display unit configured to display an overcurrent guide value set in the adjustment knob setting module.

In an embodiment, the overcurrent protection relay may further include an adjustment knob setting module cover installed to cover the adjustment knob setting module.

In one embodiment, the connector, selector for receiving a selection for the on / off state from the user; characterized in that it comprises a.

In one embodiment, it is provided under the overcurrent protection relay, and further comprises a rated current setting unit for providing setting information of the rated current.

Therefore, according to the overcurrent protection relay according to the embodiment of the present invention, the appropriate adjustment knob setting module can be detachably mounted according to various environments and user conditions, thereby enabling efficient production management of the overcurrent protection relay.

In addition, according to the overcurrent protection relay according to the embodiment of the present invention, when inputting the setting value by the button setting module, the dummy type adjustment knob setting module can be installed to prevent confusion due to the difference in setting values.

Furthermore, according to the overcurrent protection relay according to the embodiment of the present invention, it is necessary to change the structure of the existing overcurrent protection relay or the adjustment knob setting module by making the external appearance of the adjustment knob setting module the same regardless of the setting type. none.

1 is a perspective view showing the appearance of a general circuit breaker.
2 is a perspective view illustrating the appearance of an overcurrent protection relay in a general circuit breaker.
3 is a perspective view illustrating a setting part of an overcurrent protection relay in a general circuit breaker.
4 is a partially enlarged view of a setting part of an overcurrent protection relay in a general circuit breaker.
5A to 5E illustrate examples of an overcurrent protection relay and an adjustment knob setting module detachably implemented in the overcurrent protection relay according to an exemplary embodiment of the present invention.
6 is a diagram illustrating a configuration related to the adjustment knob setting module illustrated in FIGS. 5B to 5E according to an exemplary embodiment of the present invention.

Hereinafter, an overcurrent protection relay according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail since they may obscure the subject matter of the present invention.

Figure 2 shows the appearance of the overcurrent protection relay in a typical circuit breaker, Figure 3 shows the setting of the overcurrent protection relay.

As illustrated, the setting unit of the overcurrent protection relay 4 may include an adjustment knob setting module 4b for setting the overcurrent and a cover cover 4a for protecting the overcurrent. According to some products, there is a model in which the setting unit does not include an adjustment knob setting module but only a button setting module that receives a setting value using a key. By using the adjustment knob setting module 4b, the reference current value related to the overcurrent operation, the operation delay time, and the operation delay time related to the fault current operation may be set.

4 is an enlarged view of a setting unit in an overcurrent protection relay of a general circuit breaker. The adjusting knob setting module 4b has a plurality of setting knobs 4b1, that is, dials, as shown. The plurality of setting knobs are used to set, for example, a long time reference set value, a short time reference set value, and an instantaneous reference set value. The long time reference setting value refers to the setting reference current value of 80 to 100% of the allowable rated current and the setting operation time value that is set to 10 to several hundred seconds as a trip operation time when the current flows in the circuit. However, the short time reference setting value refers to the setting reference current value of about twice the allowable rated current and the trip operation time when the current flows in the circuit, and the setting operation time value within 1 second. The instantaneous reference setting value is the setting reference current when the instantaneous current is very large due to a short circuit or lightning, etc., and the setting reference current value of 2 to several tens of the rated current and the trip operation time when the current flows in the circuit. It usually means the setting operation time value within 50 milliseconds.

A scale and a set value are displayed around each of the setting knobs 4b1, and a reference mark such as an arrow is displayed on the upper surface of the setting knob 4b1. The setting knob 4b1 may set a setting value related to overcurrent operation by, for example, rotating the setting knob 4b1 from side to side using a Phillips screwdriver.

The adjustment knob setting module 4b has a fixed position and number of setting knobs 4b1, and thus, the adjustment knob 4b1 may not be easily modified according to various environments and user conditions. In addition, in order to change the reference values for the plurality of setting knobs 4b1 provided, a software change must be accompanied, and thus, the procedure is cumbersome and inconvenient. On the other hand, if the reference value is adjusted using the button setting module to overcome this, confusion may occur due to a difference between the reference value recorded inside the adjustment knob setting module 4b.

5A to 5E illustrate an overcurrent protection relay 10 and an adjustment knob setting module detachably implemented in the overcurrent protection relay 10 according to an embodiment of the present invention.

In an embodiment, the overcurrent protection relay 10 includes a display unit 20, a button setting module 30, an adjustment knob setting module 40, and a rated current setting unit 50.

The display unit 20 includes an LCD or LED screen to display the current value, power value, and overcurrent setting value of the circuit breaker. In addition, the display unit 20 may auxiliaryly display information related to a circuit break operation event, for example, a break operation time and a cause of the break operation. In addition, the display unit 20 may further display the overcurrent guide value set in the adjustment knob setting module 40.

The button setting module 30 is provided with a plurality of key buttons to receive a setting value for the circuit break operation from the user. In addition, the button setting module 30 may be a user input means for displaying the current and power values inside the relay on the display unit 20.

On the other hand, the rated current setting unit 50 is provided in the lower portion of the overcurrent protection relay 10, to provide setting information of the rated current, and is used to adjust the magnitude of the current value.

In an embodiment according to the invention, the adjustment knob setting module 40 is detachably mounted to the overcurrent protection relay 10. The adjusting knob setting module 40 receives a setting value for a circuit break operation using a plurality of adjusting knobs provided. A detailed description of the detachable adjustment knob setting module 40 according to the embodiment of the present invention will be described below.

5B to 5E show examples of the adjusting knob setting module 40 detachably mounted to the overcurrent protection relay 10. As shown, the number and position of the set knobs may vary and the reference value of the set knobs may vary according to the type of the adjusting knob setting module 40.

For example, FIG. 5B is an adjustment knob setting module provided with eight setting knobs as a standard type, and FIGS. 5C and 5D illustrate adjustment knob setting modules in which some setting knobs are deleted according to a use environment and a user condition. 5E illustrates a dummy type adjustment knob setting module in which a setting knob is not provided. If the dummy type adjustment knob setting module is installed, when setting the relay setting value using the button setting module 30 and the display unit 20, it is possible to prevent confusion due to the overlap of setting values. . In addition, although not shown, the adjustment knob setting module of the type in which the reference value of the setting knob is changed even if the position and the number of the setting knobs provided are the same.

As such, the illustrated adjustment knob setting module 40 may include various setting knobs according to the setting type. All have the same shape.

6 shows a configuration related to the above-described detachably implemented adjustment knob setting module in the overcurrent protection relay according to the embodiment of the present invention. The overcurrent protection relay includes an adjustment knob setting module 40, a connector portion 41, and a setting type recognition portion 42. The setting type recognition portion 42 includes a microcomputer of the overcurrent protection relay, that is, the MCU. Connected.

The adjustment knob setting module 40 is detachably mounted to the overcurrent protection relay, and receives a setting value for a circuit break operation using the adjustment knob provided. The adjustment knob setting module 40 varies in number, position, and / or reference value of the adjustment knobs provided according to the setting type. However, since the adjustment knob setting module 40 is detachably mounted at the same position of the relay, the external appearance is the same regardless of the setting type. In addition, the adjustment knob setting module 40 is set to cover the adjustment knob setting module in front of the adjustment knob setting module in order to prevent the unauthorized change of the setting value by the unauthorized person after the setting. It may further include a module cover (not shown). Further, for example, a lock hook groove may be provided to disallow opening of the cover.

The connector portion 41 has a plurality of connecting pinholes. Accordingly, the connector 41 has a structure in which a connecting pin provided in the adjustment knob setting module 40 is connected to the connecting pin hole.

In addition, the connector unit 41 may include a selection unit (not shown) for receiving a selection of an on / off state from a user. When the connector unit 41 is turned on from the user through the selection unit, a signal transmitted from the connecting pin of the adjustment knob setting module 40 connected to the connector unit 41 may be received. On the other hand, when the connector unit 41 is turned off from the user through the selection unit, it may not be recognized whether the adjustment knob setting module 40 is connected.

The setting type recognizer 42 is connected to the connector 41 to sense an output signal transmitted from the connecting pin of the connected adjustment knob setting module 40. Here, the output signal means a unique bit value signal corresponding to the setting type of the mounted adjustment knob setting module. For example, if the number of allocated bits is 4 bits, the setting type of the adjustment knob setting module 40 distinguishable is 2 ⁴ = 16 at most. If the number of allocated bits is 5 bits, the setting type of the distinguishing adjustment knob setting module 40 becomes 2 ⁵ = 32 at most.

In addition, the setting type recognition unit 42 receives the bit value signal and recognizes the setting type of the mounted adjustment knob setting module. As shown in FIG. 5, for example, when a bit value signal of '0000' is received, it is recognized as an adjustment knob setting module of a standard type, and when a bit value signal of 1111 is received, a dummy type DUMMY is received. It is recognized as the adjustment knob setting module of.

To this end, the setting type recognition unit 42 may include a memory (not shown) for storing a unique bit value corresponding to the setting type of the adjustment knob setting module 40. The memory (not shown) may encrypt and store an assigned number of bits, that is, a unique bit value corresponding to binary data and a name of the adjusting knob setting module 40 corresponding thereto, and the memory may include a setting type recognizer ( It can be implemented to be included in the interior of 42) or mounted externally.

The setting type recognition unit 42 detects a bit value corresponding to the output signal from the memory and determines a setting type of the mounted adjustment knob setting module. In other words, when the output signal transmitted from the connecting pin of the adjusting knob setting module 40 is '0000', the setting type recognizer 42 reads the same bit value as the output signal from the memory and corresponds to the output signal. The adjustment knob setting module of the setting type, that is, the dummy type, is recognized.

The final determination of the setting type of the mounted adjustment knob setting module is made by a microcomputer (MCU) connected to the setting type recognition unit 42. That is, the microcomputer (MCU) provided inside the overcurrent protection relay finally determines what type of adjustment knob setting module is connected based on the information transmitted from the setting type recognition unit 42.

The overcurrent protection relay according to the embodiment of the present invention further includes a blocking operation control unit (not shown) that controls the circuit breaking operation based on the setting value corresponding to the determined setting type. Herein, it may be implemented to be included in the blocking operation control unit microcomputer (MCU).

Specific operations of the blocking operation controller are as follows.

When the detected current value exceeds the set value of the mounted adjustment knob setting module, the cutoff operation controller outputs a trip signal for a circuit break operation. On the other hand, if the setting type of the adjustment knob setting module 40 is a dummy, the blocking operation control unit controls the circuit blocking operation based on the setting value set in the button setting module. That is, when the setting type of the adjustment knob setting module is a dummy, a trip signal for a circuit breaking operation is output when the detected current value exceeds the setting value input to the button setting module. The breaker operates according to the output trip signal and the flow of current is cut off.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but is capable of various modifications within the scope of the invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the appended claims as well as the equivalent scope of the claims.

As described above, according to the overcurrent protection relay according to the embodiment of the present invention, an appropriate adjustment knob setting module can be mounted according to various environments and user conditions, thereby efficiently producing the overcurrent protection relay. Management is possible, and when inputting the set value by the button setting module of the relay, by installing the dummy type adjustment knob setting module, it is possible to prevent confusion due to the difference in the setting value.

10-overcurrent protection relay 20-display
30-Button Setting Module 40-Adjustment Knob Setting Module
41-Connector part 42-Setting type recognition part
50-rated current setting part

Claims (4)

An adjustment knob setting module detachably mounted to the overcurrent protection relay and receiving a setting value for a circuit break operation using the adjustment knob;
A connector unit having a plurality of connecting pin holes, wherein a connecting pin of the adjustment knob setting module is connected to the connecting pin hole; And
And a setting type recognizer configured to detect an output signal transmitted from a connecting pin of a connected adjusting knob setting module and recognize a setting type of a mounted adjusting knob setting module.
Here, the output signal is a unique bit value signal corresponding to the setting type of the mounted adjustment knob setting module,
The setting type recognizing unit may recognize the setting type of the adjustment knob setting module mounted by receiving the bit value signal.
Overcurrent Protection Relay. The method of claim 1,
And a cutoff operation controller configured to control a circuit cutoff operation based on a set value corresponding to the recognized setting type.
Overcurrent Protection Relay. The method of claim 1,
The setting type recognition unit,
And a memory for storing a unique bit value corresponding to a setting type of the adjustment knob setting module.
Overcurrent Protection Relay. The method of claim 3, wherein
The setting type recognizing unit may recognize a setting type of an adjustment knob setting module mounted by detecting a bit value corresponding to the output signal from the memory.
Overcurrent Protection Relay.

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