KR20120078081A - Relay apparatus, method for controlling relay, apparatus and system thereof - Google Patents

Abstract

PURPOSE: A relay apparatus, a relay controlling method, an apparatus thereof, and a system thereof are provided to confirm an operation state of a relay and to control the operation of the relay. CONSTITUTION: One or more current sensors(20a-20n) senses current flowing into one or more relays. A controlling unit(10) confirms an operation state about one or more relays through the amount of current. The controlling unit controls one or more relays according to a relay control command. A plurality of converting units converts the outputted current sensing signal.

Description

Relay apparatus, method for controlling relay, apparatus and system

The present invention relates to a relay device, a relay control method, apparatus and system thereof, and more particularly, a relay device for controlling the operation of the relay by checking the operation state of the relay through the amount of current consumed in the relay, a relay control method thereof, It relates to an apparatus and a system.

A relay is an electronic component that opens and closes a circuit according to a control signal from a driving circuit, and is mainly used in the field of facility control. In this case, since the relay is a mechanical switch, an additional circuit device is required to check whether the relay is broken in a remote control device such as a computer. Accordingly, in a system that remotely controls a remote site, even when the relay switch is turned on, the accurate state of the relay cannot be grasped. In addition, using a latching type relay controlled by a pulse signal makes it more difficult to remotely check the current state.

It is simply used to check the operation of the relay. There is a method of checking the operation of the relay by detecting a voltage difference when the contact is turned on / off. This connects the voltage measuring means in parallel to the relay, and measures the voltage across the relay, thereby determining the relay operation state. However, since the method of using a voltage uses a transformer or a regulator for voltage measurement, peripheral circuits become complicated and unnecessary power is wasted.

In addition, the method of checking the operation of the relay according to the method of using the voltage can only confirm whether the power supply of the circuit for measuring the voltage is supplied, and cannot detect an abnormal operation state such as an overload.

In order to solve such a conventional problem, an object of the present invention is to provide a relay control method and apparatus that can check the operation state of the relay to completely control the operation of the relay even from a remote.

In addition, an object of the present invention is to provide a relay control method and apparatus that can remotely check the operating state of the relay and the load of the electrical device connected to the relay by sensing the amount of current consumption used for each relay.

The relay device according to an embodiment of the present invention for achieving the above object is one by using one or more relays, one or more current sensing unit for sensing the current flowing through the one or more relays and the amount of current detected through the current sensing unit And a controller for checking an operation state of the at least one relay and controlling at least one relay according to a relay control command.

In addition, the relay device according to the invention, it characterized in that it further comprises a plurality of converters for converting the current sensing signal output from the current sensor to a digital signal.

In addition, in the relay device according to the present invention, the current sensing unit is characterized in that it is implemented as a current sensing sensor including a Hall sensor and Rogowski coil.

In addition, in the relay device according to the present invention, the control unit checks the current amount of the relay, and compares the identified current amount and the predetermined threshold value to detect at least one of the specific information on the operation state and overload of the relay do.

In addition, in the relay device according to the present invention, the controller is characterized in that the amount of current consumed by the relay in real time.

Relay control apparatus according to an embodiment of the present invention uses a current sensing unit for sensing the current flowing through the relay, the current sensing unit for converting the current sensing signal output from the current sensing unit to the digital signal and the amount of current sensed through the current sensing unit It is characterized in that it comprises a control unit for checking the operation state for the relay, and controls the relay in accordance with the relay control command.

In addition, in the relay control device according to the present invention, the current sensing unit is characterized in that it is implemented as a current sensing sensor including a Hall sensor and Rogowski coil.

In addition, in the relay control device according to the present invention, the control unit checks the current amount of the relay, and compares the identified current amount with a predetermined threshold value to detect at least one of the specific information on the operation state and overload of the relay. It is done.

In addition, in the relay control device according to the present invention, the control unit is characterized in that the amount of current consumed by the relay in real time.

In accordance with another aspect of the present invention, a relay control method includes driving a plurality of relay control devices, controlling at least one relay according to a relay control command, and corresponding amount of current from at least one current sensing unit corresponding to the relay control. And detecting the detected amount of current and notifying specific information according to the identified amount of current.

In the relay control method according to the present invention, the driving may further include receiving a relay control command.

In addition, in the relay control method according to the present invention, the checking may include comparing the amount of current with a preset threshold and detecting at least one of singular information about an operation state and an overload of the relay according to the comparison result. Characterized in that it comprises a step.

In addition, in the relay control method according to the invention, the step of confirming is characterized in that it comprises checking in real time the amount of current consumed in the relay.

The relay control system according to an embodiment of the present invention detects at least one load and a current flowing through the relay to which power is applied according to a relay operation to perform a corresponding operation, and converts the output current sensing signal into a digital signal. The controller may be configured to check an operation state of the relay by using the sensed current amount, and to control the relay according to the relay control command, and a control device to transmit the relay control command to the relay device.

According to the present invention, when the amount of current consumption flowing in the relay is confirmed, it is possible to check the amount of current consumed in real time by checking the operation state of the relay and cutting off the power or presenting a warning message according to whether the load is overloaded.

In addition, the current amount monitoring according to the non-contact method has no additional electricity consumption for current amount sensing as compared to other methods, and can be used for additional functions because it can convert the amount of current consumed into a digital signal.

1 is a view showing the configuration of a relay control device according to an embodiment of the present invention.
2 is a diagram illustrating a relay device according to an exemplary embodiment of the present invention.
3 is a flowchart illustrating a relay control method according to an exemplary embodiment of the present invention.
4 is a configuration diagram illustrating a relay control system according to an exemplary embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in the following description and the accompanying drawings, detailed descriptions of well-known functions or configurations that may obscure the subject matter of the present invention will be omitted. In addition, it should be noted that like elements are denoted by the same reference numerals as much as possible throughout the drawings.

The terms or words used in the specification and claims described below should not be construed as being limited to ordinary or dictionary meanings, and the inventors are appropriate as concepts of terms for explaining their own invention in the best way. It should be interpreted as meanings and concepts in accordance with the technical spirit of the present invention based on the principle that it can be defined. Therefore, the embodiments described in the present specification and the configuration shown in the drawings are only the most preferred embodiments of the present invention, and do not represent all of the technical ideas of the present invention, and various alternatives may be substituted at the time of the present application. It should be understood that there may be equivalents and variations.

1 is a view showing the configuration of a relay control device according to an embodiment of the present invention.

Referring to FIG. 1, the relay control apparatus 100 according to an embodiment of the present invention detects an induced current to check a relay operation state. Here, since the relay control device 100 uses the induced current to check the relay operation state, no additional current waste occurs. At this time, the relay control device 100 detects the current flowing through the relay through the current sensing unit 20, and converts the detected signal into a digital signal by an analog-to-digital converter (ADC). In addition, it can check the current consumption in real time and use it according to the data.

Inside the relay 200 is composed of a switch electromagnet, a contact switch, on / off contact. In addition, the peripheral configuration of the relay may include a load 400, a power supply unit 300, and a relay control device 100. Here, when the relay control device 100 controls the relay 200, the relay contact switch is connected to the on / off contact of the relay 200 to supply the power supply unit 300 to the load 400 of the relay 200. do. Here, the relay control device 100 may be controlled by a remote control device.

Looking at this in detail, the relay control device 100 is composed of a control unit 10, the current sensing unit 20 and the conversion unit (30).

The current sensing unit 20 senses the amount of current flowing through the relay 200. In this case, when the control signal is applied from the control unit 10 while maintaining the on state, the relay 200 maintains the contact point b that switches to the off state or the off state and returns to the on state according to the control signal applied from the control unit 10. It may include one of the a contact to be switched. In this case, the current sensing unit 20 may measure the amount of current sensed according to the load used through a current sensing sensor such as a Rogowski coil or a Hall sensor. Rogowski coils, for example, perform current measurements manually and are used for power monitoring tasks in test and measurement devices. Calibration is required to uniformize the variability in the manufacturing of the coil and the sensitivity between the devices. Coils are less accurate due to manufacturing tolerances, but consist of amplifiers and integrators that match the characteristics of the coil to produce uniform output voltage and signal sensitivity. In addition, Hall sensors are more sensitive than magnetodiodes, transistors that sense magnetic fields, and are used to measure the strength or distribution of magnetic fields.

The current sensing unit 20 may sense an amount of current flowing through the relay 200 under the control of the controller 10, and may transmit a sensing signal for the amount of current to the converter 30 according to an operation.

The converter 30 functions to convert a signal for the amount of current sensed by the current sensor 20 into a digital signal and transmit the converted signal to the controller 10. Here, the converter 30 may convert the amount of current corresponding to the analog signal into a digital signal.

The controller 10 controls the relay 200 according to the relay control command. In this case, the control command may be received from a control device located at a remote location. For example, the control device may be a PC or a terminal. That is, the terminal applicable to the control device includes all information communication devices, multimedia terminals, wired terminals, fixed terminals, and IP (Internet Protocol) terminals, including mobile communication terminals capable of transmitting relay control commands to the relay control apparatus 100. It can be applied to various terminals such as. In addition, the controller 10 may receive a signal corresponding to the amount of current through the converter 30, check specific information on the amount of current received, and notify the user or the administrator. Here, the controller 10 may check the current amount of the relay 200, compare the checked current amount with a preset threshold value, and detect specific information according to an operation state and an overload of the relay. In addition, the controller 10 may check the current amount of the relay 200 in real time to check the change in the current amount. That is, the controller 10 checks the amount of current consumed to check the operation of the relay 200, to determine the amount of load current being used for the relay 200, and to prevent overload and the rated load by using the identified current amount. Can provide a warning message.

In addition, the relay control device 100 according to an embodiment of the present invention, the power supply unit 300, the relay 200, the load 400 driven from the relay, the current sensing unit 20 for sensing the current flowing through the relay, detection The conversion unit 30 for converting data for one current amount into digital and the control unit 10 for confirming the amount of current output may be configured with a remotely controlled control device. That is, the amount of current measured in real time by the current sensing unit 20 may be shared by the controller 10 and the upper processor, and may check the current consumption, the shielding function according to the overload, and the on / off operation checking function of the relay. . In this case, the relay control device 100 and the control device may perform data transmission and information exchange through a communication network for data transmission and reception. A communication network that performs such a function is an IP network that provides a data transmission / reception service and a data service without disconnection through the Internet protocol. All IP, an IP network structure integrating different networks based on IP, is provided. It can be a network. In addition, the communication network may be one of a wired communication network, a mobile communication network, a wireless broadband (WBRO) network, a high speed downlink packet access (HSDPA) network, and a satellite communication network.

Through this, when the amount of current consumption flowing through the relay is confirmed, it is possible to check the amount of current consumed in real time by checking the operation state of the relay and cutting off the power or presenting a warning message depending on whether the relay is overloaded. In addition, the current amount monitoring according to the non-contact method has no additional electricity consumption for current amount sensing as compared to other methods, and can be used for additional functions because it can convert the amount of current consumed into a digital signal.

2 is a diagram illustrating a relay control apparatus according to an exemplary embodiment of the present invention.

2, in the apparatus for controlling a plurality of relays according to an exemplary embodiment of the present disclosure, the relay control apparatus 100 may include a controller 10, a plurality of current sensing units 20a,..., 20n, and a plurality of relays. It consists of converters 30a, ..., 30n.

The current detector 20a detects a current flowing through the relay 200a. In this case, when the control signal is applied from the control unit 10 while maintaining the on state, the relay 200 maintains the contact point b that switches to the off state or the off state and returns to the on state according to the control signal applied from the control unit 10. It may include one of the a contact to be switched. In addition, the current sensing unit 20a may detect an amount of current flowing through the relay 200a under the control of the controller 10, and transmit a signal according to the sensed amount of current to the converter 30a.

The converter 30a converts a signal for the amount of current sensed by the current sensor 20a into a digital signal and transmits the signal to the controller 10.

The relay 200a, the current sensing unit 20a, the converting unit 30a, the power terminal 300a, and the load terminal 400a for this function may be configured in plural and relayed under the control of the controller 10. It is used to measure the amount of current.

The control unit 10 controls the relays 200a, ..., 200n according to the relay control command. The controller 10 receives and confirms the amount of current sensed through the current detectors 20a, ..., 20n through the converters 30a, ..., 30n, and detects specific information based on the identified amount of current. Managers can be notified. Here, the controller 10 may check the current amounts of the relays 200a,..., 200n, and compare specific currents with preset thresholds to detect specific information according to an operation state and an overload of the relay. In addition, the controller 10 may check the current amounts of the relays 200a,..., And 200n to check the current amount consumed in real time. That is, the controller 10 checks the amount of current used to check the operation of the relays 200a, ..., 200n, grasps the load current amount used in the relays 200a, ..., 200n, and prevents overload by using the measured current amount. You can perform a function to notify the user or administrator before the load is over.

Through this, when the amount of current consumption flowing through the relay is confirmed, it is possible to check the amount of current consumed in real time by checking the operation state of the relay and cutting off the power or presenting a warning message depending on whether the relay is overloaded. In addition, the current amount monitoring according to the non-contact method has no additional electricity consumption for current amount sensing as compared to other methods, and can be used for additional functions because it can convert the amount of current consumed into a digital signal.

3 is a flowchart illustrating a relay control method according to an exemplary embodiment of the present invention.

Referring to FIG. 3, in the relay control method according to an exemplary embodiment of the present disclosure, first, the control unit 11 drives the relay control apparatus 10 in step S11. At this time, the control unit 11 may receive a relay control command in step S13, and control the relay 200 in step S15 according to the received control command.

The control unit 11 checks the amount of relay current according to the control of the relay 200 in step S17. Here, the controller 11 compares the current amount with respect to the relay 200 and a predetermined threshold value.

As a result of the comparison, the control unit 11 determines whether singular information on the amount of current is detected in step S19. In this case, when the singularity information is detected, the controller 11 may notify the user or the manager of the singularity information in step S21. For example, the control unit 11 detects the singular information regarding the operation state and the overload of the relay 200 according to the comparison result, and notifies the detected result value. In addition, the control unit 11 checks the amount of current to the relay 200 to confirm and notify the amount of current consumed in real time. On the other hand, if the singularity information is not detected, the control unit 11 performs a step of checking the amount of current that is the step S17.

Through this, when the amount of current consumption flowing through the relay is confirmed, it is possible to check the amount of current consumed in real time by checking the operation state of the relay and cutting off the power or presenting a warning message depending on whether the relay is overloaded. In addition, the current amount monitoring according to the non-contact method has no additional electricity consumption for current amount sensing as compared to other methods, and can be used for additional functions because it can convert the amount of current consumed into a digital signal.

4 is a configuration diagram illustrating a relay control system according to an exemplary embodiment of the present invention.

Referring to FIG. 4, a relay control system according to an embodiment of the present invention includes a control device 700, a communication network 500, a relay device 600, and a load 400.

The load 400 functions to perform a corresponding operation by applying power according to a relay operation. For example, the load may be an object corresponding to a light bulb, a fluorescent lamp, or an electronic device.

The relay device 600 detects a current flowing through the relay, converts the output current sensing signal into a digital signal, and checks an operation state of the relay using the sensed current amount. In addition, the relay device 600 functions to control the relay according to a control command of the control device 700. In addition, the relay device 600 may convert a signal for the amount of current sensed through the current sensing unit through the converting unit, check the specific information according to the amount of current, and notify the control apparatus 700. Here, the relay device 600 may check the current amount of the relay, compare the checked current amount with a predetermined threshold value, and detect specific information according to the operation state and overload of the relay. In addition, the relay device 600 may check the current amount of the relay to check the current amount consumed in real time. Accordingly, by checking the amount of current used, the relay device 600 checks the operation of the relay, checks the amount of load current being used for the relay, and prevents the overload by using the identified amount of current to prevent the overload and the load of the rated device from being over the rated load. Notify function can be performed.

The control device 700 may transmit a relay control command to the relay device 600 and may be notified of specific information according to the amount of current.

The communication network 500 connects between the relay device 600 and the control device 700 to provide a passage for data transmission and information exchange. The communication network 500 performing such a function is an IP network that provides a data transmission / reception service and a data service without disconnection through an internet protocol, and an IP network structure in which different networks are integrated based on IP. It can be green pepper. In addition, the communication network 500 may be one of a wired communication network, a mobile communication network, a WiBro network, an HSDPA network, or a satellite communication network.

Through this, when the amount of current consumption flowing through the relay is confirmed, it is possible to check the amount of current consumed in real time by checking the operation state of the relay and cutting off the power or presenting a warning message depending on whether the relay is overloaded. In addition, the current amount monitoring according to the non-contact method has no additional electricity consumption for current amount sensing as compared to other methods, and can be used for additional functions because it can convert the amount of current consumed into a digital signal.

Relay control apparatus according to an embodiment of the present invention can be applied to the management of facilities such as lighting and electronic devices in buildings in conjunction with the external lighting control system. In particular, the current building lighting control system can only measure the amount of current per circuit because only the function to automatically turn on / off the lighting circuit. In addition, the building lighting control system may overload each lighting circuit due to the change of interior interior, the addition of lighting fixtures, and the installation of power loads on the ceiling system air conditioner, and the priority control function by measuring the amount of power for each circuit is provided. Inadequately, it is impossible to use electricity stably and may cause fire. Accordingly, when the relay control device of the present invention is expanded to a smart grid, the power supplier and the consumer exchange real-time information in both directions by integrating the existing power grid, thereby efficiently switching energy and having a measurement function. It can be used as a product.

On the other hand, the embodiments of the present invention disclosed in the specification and drawings are merely presented specific examples for clarity and are not intended to limit the scope of the present invention. It is apparent to those skilled in the art that other modifications based on the technical idea of the present invention can be carried out in addition to the embodiments disclosed herein.

The present invention relates to a relay control method and apparatus, and checks the operation state of the relay through the amount of current consumed in the relay to control the operation of the relay. Through this, when the amount of current consumption flowing through the relay is confirmed, it is possible to check the amount of current consumed in real time by checking the operation state of the relay and cutting off the power or presenting a warning message depending on whether the relay is overloaded. In addition, the current amount monitoring according to the non-contact method has no additional electricity consumption for current amount sensing as compared to other methods, and can be used for additional functions because it can convert the amount of current consumed into a digital signal.

10: control unit
20, 20a,... , 20n: current sensing unit
30, 30a,... , 30n: converter
100: relay control device
200, 200a,... , 200n: relay
300: power
300a, 300b,... , 300n: power terminal
400: load
400a, 400b,... , 400n: Load terminal
500: network
600: relay device
700: controller

Claims (14)

One or more relays;
At least one current sensing unit sensing a current flowing through the at least one relay; And
A control unit which checks an operation state of the one or more relays by using the amount of current sensed through the current sensing unit and controls one or more relays according to a relay control command;
Relay device comprising a. The method of claim 1,
A plurality of converters converting the current sensing signal output from the current detector into a digital signal;
Relay device further comprising. The method of claim 2, wherein the current sensing unit
Relay device, characterized in that implemented by the current sensor including a Hall sensor and Rogowski coil. The apparatus of claim 1, wherein the control unit
Checking the current amount of the relay and comparing the identified current amount with a predetermined threshold value to detect one or more of singular information regarding an operation state and an overload of the relay. The apparatus of claim 1, wherein the control unit
The relay device, characterized in that for checking the amount of current consumed in the relay in real time. A current sensing unit sensing a current flowing in the relay;
A converting unit converting the current sensing signal output from the current sensing unit into a digital signal; And
A controller which checks an operation state of the relay by using the amount of current sensed through the current detector and controls the relay according to a relay control command;
Relay control device comprising a. The method of claim 6, wherein the current sensing unit
Relay control device, characterized in that implemented as a current sensing sensor including a Hall sensor and Rogowski coil. 7. The apparatus of claim 6, wherein the control unit
Checking the current amount of the relay, and comparing the identified current amount with a predetermined threshold value to detect at least one of singular information regarding an operation state and an overload of the relay. 7. The apparatus of claim 6, wherein the control unit
Relay control device, characterized in that for confirming the amount of current consumed in the relay in real time. Driving a plurality of relay control devices;
Controlling at least one relay according to a relay control command;
Detecting an amount of current from at least one current sensing unit corresponding to the relay control;
Checking the sensed current amount; And
Notifying singular information according to the identified amount of current;
Relay control method comprising a. The method of claim 10, wherein the driving step
Receiving the relay control command;
Relay control method further comprising. The method of claim 10, wherein the checking step
Comparing the amount of current for the relay with a preset threshold value; And
Detecting at least one of specific information on an operation state and an overload of a relay according to the comparison result;
Relay control method comprising a. The method of claim 10, wherein the checking step
Relay control method characterized in that for confirming the amount of current consumed in the relay in real time. At least one load supplied with power according to the relay operation to perform a corresponding operation;
A relay device for sensing a current flowing through the relay, converting the output current sensing signal into a digital signal, checking an operation state of the relay using the detected amount of current, and controlling the relay according to a relay control command; And
A control device for transmitting the relay control command to the relay device;
Relay control system comprising a.

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