KR101928786B1 - Apparatus and method for totally checking electrical safety - Google Patents

Abstract

An integrated electrical safety checking apparatus according to an embodiment of the present invention comprises: a plug including first, second and third terminals, each configured to be connected to a corresponding terminal of an outlet; a tester connecting unit for providing first, second and third ports, each configured to be connected with a corresponding tester terminal of a tester; a controller for generating information on electrical circuit health of a distribution board electrically connected to the outlet when electrically connected to at least one of the first and second terminals; an input unit for receiving an input and generating a mode control signal according to the input; and a mode setting unit configured to electrically connect at least one of the first and second terminals to the controller when the mode control signal corresponds to an electrical circuit health check mode, and electrically connect at least two of the first, second and third terminals to at least two of the first, second and third ports when the mode control signal corresponds to a resistance measurement mode. One embodiment of the present invention can integrally provide an electrical circuit health check mode for checking an electrical circuit health of the distribution board electrically connected to an outlet and a resistance measurement mode for measuring an insulation resistance and/or a ground resistance of the outlet by connecting a plug to the outlet, whereby a user can concurrently perform the electrical circuit health check and the resistance measurement through the outlet without disassembling the distribution board or the outlet.

Description

Technical Field [0001] The present invention relates to an integrated electrical safety inspection apparatus and method,

The present invention relates to an integrated electrical safety check apparatus and method.

Facilities, structures, buildings or complexes that can provide electrical energy require electrical safety checks. Conventional electrical safety checks required the modification, disassembly, disassembly, construction or processing of electrical equipment.

For example, reassembling an already installed distribution panel cover is not an easy task. The buried box of the distribution panel is installed in the concrete wall which is the main skeleton of the building. This causes the deformation due to the weight and pressure of the concrete in the concrete installation process. Therefore, In addition, the distribution panel brackets should be attached to the interior finishing surfaces such as mortar plaster, not to be directly adhered to the front surface of the embedding box. However, most of the built-in finishing surfaces can not be formed in accordance with the size and shape of the distribution panel embedding box It has a considerable thickness in terms of the embedding. Because of this, when the panel bracket is fixed with screw, it is not formed that the built-in finishing surface receives stable contact with the small-sized contact surface and the thin steel plate formed around the hole for the fixing screw, Most of them are not installed and firmly fixed. This makes it difficult to fix the panel cover to the bracket. In addition, the fixing screw must be given an unreasonable force, and the groove for a small fixing screw head driver with a thickness of 3 mm may be broken. In order to do this, a footrest ladder is required to work on a panel located at a relatively high altitude. Removing the panel board cover, which is equipped in this form, for inspection and reassembling requires a lot of time and effort other than thought, and it is necessary to carry a baggage baggage, such as a ladder, However, there may be a problem that the quality of the panel cover is adhered to, for example, insufficient fixing strength, poor position, and deterioration of the fitting.

Also, for example, dismantling of wall-mounted outlets can cause problems with the embedding box and interior finish. In addition, there are more than three converters in the receptacle box, which are branching, complicating many wires in the small interior space of the landfill box. For this reason, it is a laborious and time-consuming task to locate the screw holes for fixing the receptacles of the recessed box located deep inside and to fix the socket with the screws, If the sheath of the wire is broken at the end, a short circuit is caused. This problem is also caused by the length of the socket-fixing screw, which tends to be easily handled using a screw that is much longer than the appropriate length screw to fit the screw into the screw hole in the deep and invisible part. This undesirably puts the screws deeper into the receptacle box, which damages the sheaths of the wires. In many cases, insulated wires are damaged due to damage to the wire fixing screws. It is not only difficult to re-assemble such an assembled outlet at the time of inspection, but also to create a new problem of insulation breakdown. An auxiliary means such as a lantern is also required.

Also, for example, connecting the inspection wire to the plug to expose the measurement point to the outside and use it for the insulation resistance and ground resistance measurement is a method of leaving the AC 220V electric charger exposed to the outside without any protective devices. , It is possible to threaten the safety of the inspectors due to the unclear unstable field environment and the psychological state of the inspectors who are not chased by time.

Also, for example, the presence of an AC 220 V continuous power supply in the verification of the integrity of the branch circuit, especially in the integrity of the bathroom outlet branch circuit protected by the human body protection type high-sensitivity earth leakage circuit breaker, . Unlike in-service inspection, pre-service inspection requires a preliminary inspection after preliminary inspection of the new electricity supply business process, so that installation of watt hour meter and electricity supply will be performed. Therefore, most of the inspection can be performed without supplying AC220V. Also, in the business process procedure, it is recommended to check the items to be inspected after the check before use and after the electricity is supplied again.

This is due to the fact that the number of inspectors to be handled per day is close to impossible or impossible. As another aspect, there are two follow-up tasks, ie, pre-use inspection certificate and watt hour meter installation, depending on the characteristics of the pre-use inspection service, so that the electric contractor or the electric applicant can immediately take measures However, there is a problem in that it is necessary to spend a lot of time and effort in correcting and correcting the problem even if it makes a request to find a problem in the inspection process.

In this way, confirmation of the transformer with the human body protection type high-sensitivity earth leakage breaker including the insulation resistance check, grounding resistance check, and the soundness of the converter, which are important for the safety of electric facilities and buildings, As mentioned above, it is necessary to go through the process of disassembly and reassembly of electric facilities or it is done through a dangerous method to the safety of inspectors.

In addition, after disassembling the distribution panel cover and outlet, reassembly is performed to return the panel cover and outlet to their original state before the inspection, and the problems such as insulation breakdown caused by this process are left untreated The risk of being transferred can be a dangerous act and can lead to a situation where the check itself becomes meaningless.

Patent Registration No. 10-1076497

The present invention provides an integrated electrical safety check apparatus and method.

An integrated electrical safety check apparatus according to an embodiment of the present invention includes: a plug including first, second, and third terminals each configured to be connected to a corresponding terminal of an outlet; A tester connection providing first, second and third ports configured to respectively connect corresponding tester terminals of a tester; A controller for generating information on the passage integrity of the distribution board electrically connected to the socket when electrically connected to at least one of the first and second terminals; An input for receiving an input and generating a mode control signal according to the input; And electrically connecting at least one of the first and second terminals to the controller when the mode control signal corresponds to the transit health check mode, and when the mode control signal corresponds to the resistance measurement mode, A mode setting unit configured to electrically connect at least two of the second and third terminals to at least two of the first, second, and third ports; . ≪ / RTI >

For example, the resistance measurement mode includes an insulation resistance measurement mode and a ground resistance measurement mode, and when the mode control signal corresponds to the ground resistance measurement mode, the mode setting unit sets the first and second terminals to the controller And may be configured to receive the neutral line identification information from the controller and to match the first and second terminals to the first and second ports in accordance with the neutral line identification information.

For example, the integrated electrical safety checking apparatus may further include a battery for providing a measured voltage to one of the first and second terminals, wherein the converter health check mode includes first and second fullness check modes, The mode setting unit is configured to electrically connect one of the first and second terminals to the controller and electrically connect the other to the battery when the mode control signal corresponds to the first converter thoroughness check mode .

For example, the battery charges electric energy supplied from the outlet, and the mode setting unit sets at least one of the first and second terminals to the battery electrically when the mode control signal corresponds to the battery charging mode As shown in FIG.

For example, when the mode control signal corresponds to the second converter integrity check mode, the integrated electrical safety check device may be configured to detect the voltage of the electrical energy supplied from the socket, which is electrically connected between the controller and the mode setting unit, And a step-down circuit configured to step-down the voltage at a predetermined ratio.

For example, the integrated electrical safety checking apparatus may further include first, second, third, and fourth test resistors, and the mode setting unit may set the mode check signal to the test mode when the mode control signal corresponds to the insulation resistance measurement test mode. 1 and the second port respectively to the first and second calibration resistors and to electrically connect the third port between the first calibration resistance and the second calibration resistance, And electrically connecting the first and second ports to the third and fourth black resistors respectively when corresponding to the resistance measurement black mode and between the third black resistor and the fourth black resistor And may be configured to be electrically connected.

For example, the input unit generates a breaker setting signal of the distribution board according to the input, and the controller is configured to change the breaker setting signal corresponding to the breaker setting signal when the mode control signal corresponds to the passing through- Lt; / RTI >

For example, the controller may compare a voltage received from at least one of the first and second terminals with a first reference voltage when the breaker setting signal corresponds to the first breaker type, The voltage received from at least one of the first and second terminals may be compared with a second reference voltage and information on the running fitness may be generated according to a comparison result.

For example, the first terminal is configured to be electrically connected to the live wire of the socket, the second terminal is configured to be electrically connected to the neutral line of the socket, and the third terminal is electrically connected to the ground line of the socket And the plug can be configured such that the third terminal is electrically connected to the ground line before the first and second terminals.

For example, the first and second terminals are respectively inserted into two holes of the socket, and the plug contacts the socket when the first and second terminals are respectively inserted into the two holes, Further comprising a plug switch configured to receive the information, and the controller is capable of generating the passing health information based on the input of the plug switch.

For example, the integrated electrical safety inspection apparatus may further include a disconnection information output unit for outputting information on whether the live wire or the ground wire is disconnected, wherein the controller outputs a measurement signal to the first or third terminal, And information on whether the live or ground wire is disconnected may be generated based on a time difference between the reception time of the reception signal and the output time of the measurement signal.

An integrated electrical safety inspection method according to an embodiment of the present invention includes: receiving an input and generating a mode control signal according to the input; And a second transformer connected to the outlet of the first transformer, the first transformer being connected to the outlet, the first transformer being connected to the outlet, the first transformer being connected to the outlet, Generating information; Generating information on a second converter health of the distribution board based on voltages received from the live and neutral lines when the mode control signal corresponds to a second converter integrity check mode; Controlling both of the live wire, the neutral wire and the ground wire of the socket to be electrically connected to the first and second tester terminals of the tester, respectively, when the mode control signal corresponds to the insulation resistance measurement mode; And controlling the neutral and ground lines of the receptacle to be electrically connected to the first and second tester terminals of the tester, respectively, when the mode control signal corresponds to the ground resistance measurement mode; . ≪ / RTI >

For example, the integrated electrical safety checking method further comprises receiving a second input and generating a breaker setting signal of the distribution board according to the second input, and generating the first and second converter health information Compares the voltage received from at least one of the live wire and the neutral wire with the first reference voltage when the breaker setting signal corresponds to the first breaker type and when the breaker setting signal corresponds to the second breaker type The voltage received from at least one of the live wire and the neutral wire may be compared with a second reference voltage and the first or second full charge integrity information may be generated according to the comparison result.

For example, when the mode control signal corresponds to the insulation resistance measurement test mode, the integrated electrical safety inspection method may include the first and second tester terminals electrically connected to the first and second calibration resistors, respectively, Controlling the third tester terminal to be electrically connected between the first calibration resistor and the second calibration resistor; And wherein when the mode control signal corresponds to a ground resistance measurement test mode, the first and second tester terminals are electrically connected to the third and fourth black resistors, respectively, and the third tester terminal is connected to the third black resistance And electrically connecting between the fourth black resistors; As shown in FIG.

An embodiment of the present invention integrally provides a converter goodness checking mode for checking the transformer integrity of a distribution board electrically connected to an outlet by connecting the plug to the outlet and a resistance measurement mode for measuring the insulation resistance and / or grounding resistance of the outlet The user can carry out both the transient health check and the resistance measurement through the outlet without dismantling the distribution board or the outlet.

An embodiment of the present invention may enable electrical inspection of a facility to which no electrical energy is supplied.

One embodiment of the present invention can distinguish a general branching earth leakage circuit breaker and a human body protection type high-sensitivity leakage circuit breaker, and thereby, information on transfer integrity can be generated to prevent the human error of the user.

According to an embodiment of the present invention, a user can measure a grounding resistance of a socket without using a switchgear to check whether a neutral line is present, and when a user measures a grounding resistance, And the electrical safety judgment accuracy according to the measurement of the grounding resistance of the socket-outlet can be improved.

According to one embodiment of the present invention, the user can improve the electrical safety judgment accuracy according to the measurement of the insulation resistance of the outlet through the black mode.

According to one embodiment of the present invention, the user can easily change the mode of the integrated electrical safety check device.

1 is a block diagram of an integrated electrical safety check system according to an embodiment of the present invention.
2 is a diagram illustrating a more specific example of an integrated electrical safety check device according to an embodiment of the present invention.
FIG. 3 is a diagram illustrating an outline of an integrated electrical safety check system according to an embodiment of the present invention.
FIG. 4 is a diagram illustrating an internal structure of an integrated electrical safety check system according to an exemplary embodiment of the present invention. Referring to FIG.
5 is a view illustrating a case rotation of an integrated electrical safety check system according to an embodiment of the present invention.
FIG. 6 is a view illustrating an open type cover of the integrated electrical safety check system according to an embodiment of the present invention.
FIG. 7 is a view showing a battery and a plug in the integrated electrical safety check device shown in FIG. 2. FIG.
FIG. 8 is a view showing a controller, a mode setting unit, and a plug in the integrated electrical safety inspection apparatus shown in FIG. 2. FIG.
FIG. 9 is a view showing a controller and an input unit in the integrated electrical safety inspection apparatus shown in FIG. 2. FIG.
Fig. 10 is a diagram showing a portion relating to the first converter health check mode in the integrated electric safety check apparatus shown in Fig. 2;
Fig. 11 is a diagram showing a portion relating to the second converter health check mode in the integrated electric safety inspection apparatus shown in Fig. 2;
FIG. 12 is a diagram showing a portion related to the insulation resistance measurement mode and the ground resistance measurement mode in the integrated electrical safety inspection apparatus shown in FIG. 2. FIG.
FIG. 13 is a diagram showing a portion relating to an insulation resistance measurement test mode and a ground resistance measurement test mode in the integrated electrical safety inspection apparatus shown in FIG. 2. FIG.
FIG. 14 is a diagram showing a portion relating to measurement of disconnecting the ground wire in the integrated electrical safety inspection apparatus shown in FIG. 2. FIG.
15 is a flowchart illustrating an integrated electrical safety check method according to an embodiment of the present invention.
16 is a flowchart specifically illustrating a mode control algorithm of the integrated electrical safety inspection apparatus and method according to an embodiment of the present invention.
17 is a diagram illustrating a tester and a receptacle;
Fig. 18 is a diagram specifically illustrating the distribution board.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings in order that those skilled in the art can easily carry out the present invention.

Referring to FIGS. 1 to 14, an integrated electrical safety check apparatus 100 according to an embodiment of the present invention includes a plug 110 connected to an outlet, It is possible to integrally provide the inspection mode and the resistance measurement mode for measuring the insulation resistance and / or the grounding resistance of the socket-outlet. Accordingly, the user can perform the transit health check and the resistance measurement together through the outlet without disassembling the distribution board or the outlet.

The plug 110 may include first, second, and third terminals 111, 112, 114 configured to be connected to corresponding terminals of the receptacle, respectively.

The first terminal 111 may have the form of a rod inserted into the hole of the receptacle so as to be electrically connected to the AC hot line terminal of the receptacle.

The second terminal 112 may have the form of a rod inserted into the hole of the receptacle so as to be electrically connected to the AC neutral line terminal of the receptacle. Here, the second terminal 112 may be interchanged with the first terminal 111.

The fuse link 113 can be electrically connected to the first and second terminals 111 and 112, and is configured to be fused when in an overload state, thereby preventing an accident from occurring.

The third terminal 114 may be configured to be electrically connected to the earth line of the socket-outlet. For example, the third terminal 114 may be disposed at a position where the plug 110 is electrically connected to the ground line before the first and second terminals 111 and 112. Thus, the plug 110 can secure electrical stability when it is connected to an outlet.

The plug switch 115 may be configured such that the on / off state is changed as the first and second terminals 111 and 112 are electrically connected to the corresponding terminals of the socket, respectively. For example, the plug switch 115 is disposed between the first terminal 111 and the second terminal 112 and may be in an ON / OFF state by being in contact with an outlet.

The on / off state information of the plug switch 115 can be transmitted to the controller 150. Accordingly, the controller 150 can know whether or not the plug 110 is connected to the outlet.

The mode setting unit 120 may establish a connection relationship between the plug 110 and the tester connection unit 130 and the controller 150 so as to structurally set the operation mode of the integrated electrical safety checking apparatus 100. [ For example, the mode setting unit 120 may have a structure in which a plurality of relays operating according to the input and output of the input unit 135 are coupled.

3 to 6, the mode setting unit 120 can be accommodated by a case. The case includes at least a part of a tester connection unit 130, a transfer integrity information output unit 134, an input unit 135, first and second disconnection information output units 136 and 137, and a battery information output unit 138 can do.

Referring to Fig. 5, the case can be rotated in the circumferential direction with the plug 110 connected to the outlet. For example, when the outlet is installed in a location where electrical safety is poor, such as a bathroom, the user rotates the case circumferentially at a predetermined angle (e.g., +90 degrees, -90 degrees, 130 or smoothly confirm the display of the configurations such as the converter health information output section 134. [

Referring to FIG. 6, one end of the case may be connected to the plug 110, and the other end of the case may be connected to the cover. The cover may be formed in a curved shape, and may form a gap between the case and the cover in association with the case. Accordingly, the heat generated inside the case can be efficiently diverted, and the auditory output such as the buzzer 139 can be smoothly transmitted to the user. For example, the case may have a shape in which the inner surface of the other end is fully clipped so as not to be completely closed even when the case is engaged with the cover.

The other end of the case may include at least one of a terminal port 151, an LED, and a power switch 164 corresponding to the relays included in the mode setting unit 120. The terminal port 151 may be connected to a computer, which may perform operations such as firmware / software update of the controller 150. The power switch 164 may provide the user with an integrated electrical safety check device 100 on / off function.

The tester connection unit 130 may provide first, second, and third ports 131, 132, and 133 configured to connect corresponding tester terminals of a tester (e.g., a multi-tester) Each of the first, second and third ports 131, 132 and 133 is selectively connected to the first, second and third terminals 111, 112 and 114 according to the operation mode setting of the mode setting unit 120. Can be connected.

The converter goodness information output unit 134 can output the converter goodness information generated by the controller 150. [ For example, the converter validity information output section 134 outputs the identification numbers of the respective branching circuit breakers of the distribution board in numerical form, and the type information of the branching circuit breaker, and the break and / For example, H, L). Taken together, the transfer health information output section 134 can output information in the form of HH02, LL03, HHHH, LLLL.

The input unit 135 may receive an input from a user and generate a mode control signal according to the input. The mode setting unit 120 electrically connects at least one of the first and second terminals 111 and 112 to the controller 150 when the mode control signal corresponds to the transit health check mode, At least two of the first, second and third terminals 111, 112 and 114 are connected to at least two of the first, second and third ports 131, 132 and 133 when the control signal corresponds to the resistance measurement mode It can be electrically connected.

In other words, the integrated electrical safety checking apparatus 100 according to an embodiment of the present invention is configured to connect the plug 110 to an outlet and to check the integrity health of the distribution board electrically connected to the outlet, And / or a resistance measurement mode for ground resistance measurement. Accordingly, the user can perform the transit health check and the resistance measurement together through the outlet without disassembling the distribution board or the outlet.

The first disconnection information output unit 136 can output information on disconnection of the live wire of the outlet.

The second disconnection information output unit 137 can output disconnection information of the ground wire of the receptacle.

Information on whether or not the live wire and / or ground wire is disconnected can be generated by measurement of the controller 150. [ For example, the controller 150 outputs a measurement signal (e.g., a pulse signal) to the first or third terminal 111 or 114, receives a reception signal corresponding to the measurement signal, Information on whether or not the live wire or the ground wire is disconnected can be generated based on the difference time between output times of the measurement signal. Since the disconnection of the live wire or the ground wire affects the electrostatic capacity of the first or third terminal 111 or 114, the controller 150 controls the capacitance of the live wire and / or the ground wire based on the difference time between the reception time point and the output time point. It is possible to know whether or not the wire is disconnected.

For example, each of the first and second disconnection information output units 136 and 137 includes a red LED that is lit when the live wire or the ground wire is a single wire, and a green LED that is lit when the live wire or the ground wire is not a single wire .

The battery information output unit 138 may output information on the state of the battery 163 (e.g., charging state). The status information may be received from the battery monitor 162 or the controller 150.

For example, the battery information output unit 138 may include a red LED that is turned on when the state of charge of the battery 163 is lower than a reference state of charge, and a red LED that is turned on when the state of charge of the battery 163 is higher than the reference state of charge ≪ / RTI > green LEDs.

The buzzer 139 may output the mode change information upon changing the mode of the mode setting unit 120 and may output information corresponding to the state of the controller 150 according to the design.

The signal isolator 140 can electrically isolate the mode setting unit 120 and the controller 150 from each other between the mode setting unit 120 and the controller 150. [ For example, the signal isolator 140 may further include a step-down circuit configured to step down the voltage of the electric energy provided from the socket at a predetermined ratio. For example, the step-down circuit may downsize the 220V voltage of the electric energy provided from the outlet at a ratio of 220: 3.3 and deliver the step-down electric energy to the controller 150.

The controller 150 may generate information on the switchability of the distribution board that is electrically connected to the outlet when it is electrically connected to at least one of the first and second terminals 111 and 112. [ The information on the conduction integrity may correspond to disconnection and / or non-contact of each branch earth leakage circuit breaker of the distribution board.

The battery charger 161 may include a converter and / or an inverter for charging / discharging the battery 163. For example, the battery charger 161 may generate a DC power source and transfer the DC power source to the battery 163 through AC-DC conversion of electric energy provided from the socket.

That is, since the first and second terminals 111 and 112 are connected to the corresponding terminals of the receptacle, the battery charger 161 can be supplied with AC electrical energy through the mode setting unit 120. For example, the mode setting unit 120 may electrically connect at least one of the first and second terminals 111 and 112 to the battery 163 when the mode control signal corresponds to the battery charging mode.

The battery monitor 162 may monitor the status of the battery 163, generate status information output by the battery information output unit 138, or transmit the monitoring result to the controller 150.

The battery 163 may store power for operation of the integrated electrical safety checking apparatus 100. [ In addition, the battery 163 may provide a source for generation of transient health information by providing a measured voltage to one of the first and second terminals 111, 112.

Hereinafter, a specific example of modes provided by the integrated electrical safety inspection apparatus 100 according to an embodiment of the present invention will be described.

The modes provided by the electrical safety inspection apparatus 100 may include a transit health check mode and a resistance measurement mode, and the transition health check mode may include first and second fullness check modes, The mode may include an insulation resistance measurement mode and a ground resistance measurement mode. Depending on the design, the modes provided by the electrical safety inspection apparatus 100 may further include an insulation resistance measurement test mode and a ground resistance measurement test mode.

First converter health check mode

The mode setting unit 120 electrically connects one of the first and second terminals 111 and 112 to the controller 150 when the mode control signal corresponds to the first converter thoroughness check mode and connects the other one to the battery 150 163, respectively.

For example, the battery 163 applies a measured voltage to the first terminal 111, and the measured voltage may be returned to the neutral line through the corresponding branch earth leakage breaker of the distribution board through the live wire. The controller 150 can measure the magnitude of the reception voltage returned through the neutral line. The magnitude of the reception voltage may vary depending on whether the branch circuit breaker is disconnected and / or touched. Therefore, the controller 150 can generate the first line validity information according to the result of comparison by comparing the magnitude of the received voltage with the reference magnitude, thereby generating the disconnection and / or non-connection information of the corresponding branching earth leakage circuit breaker.

The first pass thoroughness check mode can be used regardless of whether or not the electrical energy of the outlet is provided. Accordingly, the integrated electrical safety checking apparatus 100 according to an embodiment of the present invention can enable electrical inspection of a facility to which no electric energy is supplied.

2nd converter health check mode

The mode setting unit 120 may electrically connect the first and second terminals 111 and 112 to the controller 150 when the mode control signal corresponds to the second converter thoroughness check mode. Here, the step-down circuit of the signal isolator 140 can reduce the voltage of the first or second terminal 111, 112 to a predetermined ratio (for example, 220 V: 3.3 V) and provide it to the controller 150.

The magnitude of the reduced voltage may vary depending on whether the branching earth leakage breaker corresponding to the outlet is disconnected and / or touched. Therefore, the controller 150 may generate the second line malfunction information according to the comparison result with the magnitude of the reduced voltage to the reference magnitude, thereby generating the disconnection and / or non-connection information of the corresponding branching earth leakage circuit breaker.

On the other hand, when the integrated electrical safety inspection apparatus 100 operates in the first or second converter integrity mode, the input unit 135 may generate a breaker setting signal of the distribution board according to the input of the user, It is possible to generate the first or second full pathway health information corresponding to the breaker setting signal when the mode control signal corresponds to the first or second full pathway health check mode.

Here, the breaker setting signal may correspond to the identification information of the branching circuit breaker. For example, the identification information may include information in the form of a number corresponding to an electrical leakage circuit breaker arranged at a certain position on one side of the distribution board.

For example, when the outlet is electrically connected to the third branching earth leakage breaker, the user can check whether the third branch leakage breaker is disconnected or interrupted by turning on / off the input unit 135 three times. The controller 150 receives the input frequency information from the input unit 135 and outputs a first or a second full-soundness corresponding to whether the branching circuit breaker corresponding to the number of times of input is disconnected from the branching circuit breaker electrically connected to the socket Information can be generated.

The controller 150 measures the voltages of the first and second terminals 111 and 112 when the user turns on / off the branching earth leakage breaker, compares the measured voltage with the reference voltage, It is possible to generate the information of the converter health.

According to the design, the controller 150 compares the voltage received from at least one of the first and second terminals 111 and 112 with the first reference voltage when the breaker setting signal corresponds to the first breaker type, The voltage comparator compares the voltage received from at least one of the first and second terminals 111 and 112 with the second reference voltage when the breaker setting signal corresponds to the second breaker type, It is possible to generate the information of the converter health.

For example, the first type of breaker may be a general branching earth leakage breaker, and the second type of breaker may be a human body protection type high-sensitivity earth leakage breaker electrically connected to an outlet provided in a bathroom having a large amount of moisture and moisture. The human body protection type high-sensitivity earth leakage breaker may require a higher insulation resistance or a lower ground resistance than a general branch earth leakage breaker.

Accordingly, the integrated electrical safety checking apparatus 100 according to an embodiment of the present invention can generate the first or second converter integrity information by distinguishing the general branching earth leakage breaker and the human body protection type high-sensitivity earth leakage breaker.

Insulation resistance measurement mode

The mode setting unit 120 sets the first, second, and third terminals 111, 112, and 114 to the first, second, and third ports 131 and 132, respectively, when the mode control signal corresponds to the insulation resistance measurement mode. 132, and 133, respectively.

Thereafter, the user can measure the insulation resistance between the live wire and the ground wire of the outlet by connecting the first tester terminal of the tester to the third port 133 and connecting the second tester terminal of the tester to the first port 131 .

The user can also measure the insulation resistance between the neutral and ground lines of the receptacle by connecting the first tester terminal of the tester to the third port 133 and connecting the second tester terminal of the tester to the second port 132 .

The user can compare the measured insulation resistance to the reference insulation resistance and evaluate the electrical safety of the outlet according to the comparison result.

Ground resistance measurement mode

The mode setting unit 120 may electrically connect the first and second terminals 111 and 112 to the controller 150 when the mode control signal corresponds to the ground resistance measurement mode.

The controller 150 compares the voltage of the first terminal 111 with the voltage of the second terminal 112 to determine which terminal of the first terminal 111 and the second terminal 112 is electrically connected to the neutral line And may transmit the neutral line identification information to the mode setting unit 120. The mode setting unit 120 may generate the neutral line identification information.

If the first terminal 111 is electrically connected to the neutral line, the mode setting unit 120 electrically connects the first terminal 111 to the second port 132 and connects the third terminal 114 to the third port 111. [ (Not shown).

If the second terminal 112 is electrically connected to the neutral line, the mode setting unit 120 electrically connects the second terminal 112 to the second port 132 and connects the third terminal 114 to the third port 112. [ (Not shown).

The user can measure the grounding resistance of the socket by connecting the first tester terminal of the tester to the third port 133 and connecting the second tester terminal of the tester to the second port 132. [

Accordingly, the user can measure the grounding resistance of the outlet without using a detector to check whether it is neutral, and when the user measures the grounding resistance, the electrical connection of the tester terminal to the live wire can be prevented, Accuracy of electrical safety judgment according to ground resistance measurement can be improved.

Insulation resistance measurement black mode

The mode setting unit 120 electrically connects the first and second ports 131 and 132 to the first and second black resistors respectively when the mode control signal corresponds to the insulation resistance measurement test mode, 133) may be electrically connected between the first and second black resistors.

For example, the first and second calibration resistances may be included in the signal isolator 140 and provide a standard resistance value.

The user connects the first tester terminal of the tester to the third port 133, connects the second tester terminal of the tester to the first port 131, and sets the resistance value measured by the tester to the resistance value of the first black resistance (Eg, 2M ohms), it is possible to determine the accuracy of the insulation resistance measurement between the live wire and the ground wire of the outlet.

The user connects the first tester terminal of the tester to the third port 133, connects the second tester terminal of the tester to the second port 132, and sets the resistance value measured by the tester to the resistance value of the second black resistance (Eg, 0.1 M ohms), it is possible to determine the accuracy of the insulation resistance measurement between the neutral and ground wires of the outlet.

As a result, the electrical safety judgment accuracy according to the measurement of the insulation resistance of the outlet can be improved.

Ground Resistance Measurement Black Mode

The mode setting unit 120 electrically connects the first and second ports 131 and 132 to the third and fourth black resistors respectively when the mode control signal corresponds to the ground resistance measurement test mode, (133) may be electrically connected between the third and fourth black resistors.

For example, the third and fourth black resistors may be included in the signal isolator 140 and provide a standard resistance value.

The user connects the first tester terminal of the tester to the third port 133, connects the second tester terminal of the tester to the first port 131, and sets the resistance value measured by the tester to the resistance value (For example, 100 ohms), it is possible to determine the accuracy of the ground resistance measurement between the neutral wire electrically connected to the first port 131 and the ground wire.

The user connects the first tester terminal of the tester to the third port 133, connects the second tester terminal of the tester to the second port 132 and sets the resistance value measured by the tester to the fourth black resistance (e.g., 10 ohms), it is possible to determine the accuracy of the ground resistance measurement between the neutral wire electrically connected to the second port 132 and the ground wire.

Accordingly, the electrical safety judgment accuracy according to the measurement of the grounding resistance of the socket-outlet can be improved.

Referring to FIG. 15, an apparatus for checking an electric safety according to an integrated electric safety inspection method according to an embodiment of the present invention includes receiving an input (S110), generating a mode control signal according to the input (S120) (S130) the measured voltage to one of the live and neutral lines of the receptacle when the mode control signal corresponds to the first converter thoroughness check mode, and transmits the measured voltage to the receptacle based on the voltage received from the other of the live and neutral lines (S140), and when the mode control signal corresponds to the second converter thoroughness check mode, the voltage is received from the live line and the neutral line (S150), and the received voltage (S160), and when the mode control signal corresponds to the insulation resistance measurement mode, the information on the second line adequacy of the distribution board is generated based on the live line, (S170), and when the mode control signal corresponds to the ground resistance measurement mode, the neutral line and the ground line of the socket are respectively connected to the first and second tester terminals of the tester (S180) to be electrically connected to the first and second tester terminals.

As a result, it is possible to integrally provide a converter goodness checking mode for checking the converter health of the panel electrically connected to the outlet, and a resistance measuring mode for measuring the insulation resistance and / or grounding resistance of the outlet, It is possible to carry out both the transformer health check and the resistance measurement through the outlet.

Further, an integrated electrical safety inspection method according to an embodiment of the present invention further includes receiving a second input and generating a breaker setting signal of the distribution board according to the second input, wherein the first and second Wherein the step of generating the information of the turnaround compares a voltage received from at least one of the live line and the neutral line with a first reference voltage when the breaker setting signal corresponds to the first breaker type, The voltage received from at least one of the live wire and the neutral wire may be compared with the second reference voltage and the first or second full charge integrity information may be generated according to the comparison result.

That is, the electrical safety check device according to the integrated electrical safety inspection method can generate the first or second converter integrity information by classifying the general branching earth leakage breaker and the human body protection type high-sensitivity leakage breaker.

Also, the integrated electrical safety inspection method according to an embodiment of the present invention is characterized in that when the mode control signal corresponds to the insulation resistance measurement test mode, the first and second tester terminals are respectively connected to the first and second black resistors Controlling the third tester terminal to be electrically connected and electrically connected between the first calibration resistance and the second calibration resistance; And the first and second tester terminals are electrically connected to the third and fourth black resistors respectively when the mode control signal corresponds to the ground resistance measurement test mode and the third tester terminal is electrically connected to the third black resistance And the fourth black resistance; As shown in FIG.

That is, the electrical safety inspection apparatus according to the integrated electrical safety inspection method can provide both the insulation resistance measurement test mode and the ground resistance measurement measurement mode, thereby ensuring the electrical safety judgment accuracy according to the measurement of the insulation resistance and grounding resistance of the socket .

Meanwhile, the integrated electrical safety check apparatus and method according to an embodiment of the present invention can control the mode according to the mode control algorithm shown in FIG.

For example, the integrated electrical safety check apparatus according to an embodiment of the present invention can wait for a predetermined time while the user counts input when a user's one-time input is received, It can be repeated.

If the additional input is not received until a predetermined time has elapsed since the input of the user has been received, the integrated electrical safety inspection apparatus confirms the operation mode and generates a mode control signal while activating (WAKE UP) . ≪ / RTI >

In addition, the integrated electrical safety check device can be automatically switched to the SLEEP state when the plug 110 is not connected to the outlet and receives no input for a predetermined period of time.

The switching between the WAKE UP state and the SLEEP state may be performed based on the inputs of the plug switch 115 and the input unit 135 included in the plug 110. [

Accordingly, the user can easily change the mode of the integrated electrical safety check device.

Referring to FIG. 17, the tester 1 may include first and second tester terminals 2 and may display a measured resistance value.

17, the receptacle may include a live wire 3, a neutral wire 4 and a ground wire 5.

Unit The electric distribution board can be installed at a location where people can easily access and use the electricity and check and operate.

Referring to FIG. 18, the distribution board may include one main breaker 21 and one or more branch leakage circuit breakers 22. The main circuit breaker (21) of the distribution board can be equipped with a switch function capable of opening / closing the electricity supplied in the electric use place and a function of detecting a current exceeding the rated current of the main circuit breaker, that is, On the other hand, the branching earth leakage breaker 22 is located at the secondary side of the main breaker and is configured and arranged according to the number of branching paths classified according to consideration factors such as electricity use purpose, area, Branch circuit breaker 22 can be connected to the secondary side of the branching circuit breaker 22, respectively. The branching earth leakage circuit breaker 22 may have a switch function for opening and closing the electricity supplied to the branch circuit by operation and a leakage cutoff function for detecting and blocking the leakage current flowing through the branch circuit. In particular, a branching earth leakage breaker of a converter that supplies electricity to an outlet provided in a bathroom having a large amount of moisture and moisture can be protected by providing a human-protected high-sensitivity earth leakage breaker 23. In addition, the distribution board may include a screw hole 25 for fixing the bracket to the attachment bracket (not shown), the fixing bracket 24 and the distribution board embedding box, and a screw hole 26 for fixing the panel cover.

In the meantime, the controller referred to herein may be implemented as a processor, such as a central processing unit (CPU), a graphics processing unit (GPU), a microprocessor, an application specific integrated circuit (ASIC), a field programmable gate array , Memory (e.g., volatile memory (e.g., RAM), non-volatile memory (e.g., ROM, flash memory, etc.), magnetic storage, optical storage).

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Anyone can make various variations.

100: Integrated electrical safety check device
110: Plug
111: first terminal
112: second terminal
113: Fuse link
114: third terminal
115: Plug switch
120: Mode setting section
130: Tester connection
131: First port
132: second port
133: Third port
134: converter validity information output section
135: Input unit
136: First disconnection information output section
137: second disconnection information output section
138: Battery information output section
139: buzzer
140: Signal isolator
150: controller
151: Terminal Port
161: Battery Charger
162: Battery monitor
163: Battery
164: Power switch

Claims (14)

delete A plug including first, second and third terminals each adapted to be connected to a corresponding terminal of the receptacle;
A tester connection providing first, second and third ports configured to respectively connect corresponding tester terminals of a tester;
A controller for generating information on the passage integrity of the distribution board electrically connected to the socket when electrically connected to at least one of the first and second terminals;
An input for receiving an input and generating a mode control signal according to the input; And
And electrically connecting at least one of the first and second terminals to the controller when the mode control signal corresponds to the transit health check mode, and when the mode control signal corresponds to the resistance measurement mode, A mode setting unit configured to electrically connect at least two of the first, second, and third terminals to at least two of the first, second, and third ports; Lt; / RTI >
Wherein the resistance measurement mode includes an insulation resistance measurement mode and a ground resistance measurement mode,
Wherein the mode setting unit electrically connects the first and second terminals to the controller when the mode control signal corresponds to the ground resistance measurement mode, receives the neutral line identification information from the controller, 1 and the second terminal to the first and second ports.
A plug including first, second and third terminals each adapted to be connected to a corresponding terminal of the receptacle;
A tester connection providing first, second and third ports configured to respectively connect corresponding tester terminals of a tester;
A controller for generating information on the passage integrity of the distribution board electrically connected to the socket when electrically connected to at least one of the first and second terminals;
An input for receiving an input and generating a mode control signal according to the input;
And electrically connecting at least one of the first and second terminals to the controller when the mode control signal corresponds to the transit health check mode, and when the mode control signal corresponds to the resistance measurement mode, A mode setting unit configured to electrically connect at least two of the first, second, and third terminals to at least two of the first, second, and third ports; And
A battery providing a measured voltage to one of the first and second terminals,
Wherein the converter health check mode includes a first and a second converter health check mode,
Wherein the mode setting unit is configured to electrically connect one of the first and second terminals to the controller and electrically connect the other to the battery when the mode control signal corresponds to a first full- Electrical safety check device.
The method of claim 3,
The battery is charged with electric energy provided from the outlet,
Wherein the mode setting unit is configured to electrically connect at least one of the first and second terminals to the battery when the mode control signal corresponds to a battery charging mode.
The method of claim 3,
A step-down circuit configured to be electrically connected between the controller and the mode setting unit to step down the voltage of the electric energy provided from the socket at a predetermined ratio when the mode control signal corresponds to the second converter thoroughness check mode Further comprising an integrated electrical safety check device.
A plug including first, second and third terminals each adapted to be connected to a corresponding terminal of the receptacle;
A tester connection providing first, second and third ports configured to respectively connect corresponding tester terminals of a tester;
A controller for generating information on the passage integrity of the distribution board electrically connected to the socket when electrically connected to at least one of the first and second terminals;
An input for receiving an input and generating a mode control signal according to the input;
And electrically connecting at least one of the first and second terminals to the controller when the mode control signal corresponds to the transit health check mode, and when the mode control signal corresponds to the resistance measurement mode, A mode setting unit configured to electrically connect at least two of the first, second, and third terminals to at least two of the first, second, and third ports; And
First, second, third and fourth black resistors,
Wherein the mode setting unit electrically connects the first and second ports to the first and second black resistors respectively when the mode control signal corresponds to the insulation resistance measurement test mode and connects the third port to the first black And electrically connecting the first and second ports to the third and fourth black resistors, respectively, when the mode control signal corresponds to the ground resistance measurement test mode, And to electrically connect said third port between said third black resistance and said fourth black resistance.
A plug including first, second and third terminals each adapted to be connected to a corresponding terminal of the receptacle;
A tester connection providing first, second and third ports configured to respectively connect corresponding tester terminals of a tester;
A controller for generating information on the passage integrity of the distribution board electrically connected to the socket when electrically connected to at least one of the first and second terminals;
An input for receiving an input and generating a mode control signal according to the input; And
And electrically connecting at least one of the first and second terminals to the controller when the mode control signal corresponds to the transit health check mode, and when the mode control signal corresponds to the resistance measurement mode, A mode setting unit configured to electrically connect at least two of the first, second, and third terminals to at least two of the first, second, and third ports; Lt; / RTI >
The input unit generates a breaker setting signal of the distribution board according to the input,
Wherein the controller generates the transit health information corresponding to the breaker setting signal when the mode control signal corresponds to the transit health check mode.
8. The method of claim 7,
Wherein the controller compares the voltage received from at least one of the first and second terminals with a first reference voltage when the breaker setting signal corresponds to the first breaker type, And compares the voltage received from at least one of the first and second terminals with a second reference voltage when the first voltage and the second voltage correspond to each other, and generates the information on the passing health according to a result of the comparison.
A plug including first, second and third terminals each adapted to be connected to a corresponding terminal of the receptacle;
A tester connection providing first, second and third ports configured to respectively connect corresponding tester terminals of a tester;
A controller for generating information on the passage integrity of the distribution board electrically connected to the socket when electrically connected to at least one of the first and second terminals;
An input for receiving an input and generating a mode control signal according to the input; And
And electrically connecting at least one of the first and second terminals to the controller when the mode control signal corresponds to the transit health check mode, and when the mode control signal corresponds to the resistance measurement mode, A mode setting unit configured to electrically connect at least two of the first, second, and third terminals to at least two of the first, second, and third ports; Lt; / RTI >
The first terminal is configured to be electrically connected to the live wire of the socket,
The second terminal is configured to be electrically connected to the neutral line of the socket,
The third terminal is configured to be electrically connected to a ground line of the socket,
Wherein the plug is configured such that the third terminal is electrically connected to the ground line before the first and second terminals.
10. The method of claim 9,
The first and second terminals are respectively inserted into two holes of the socket,
The plug further comprises a plug switch configured to contact the receptacle and receive an input when the first and second terminals are respectively inserted into the two holes,
Wherein the controller generates information on the passing health based on an input of the plug switch.
10. The method of claim 9,
Further comprising a disconnection information output unit for outputting information on whether the live wire or the ground wire is disconnected,
Wherein the controller outputs a measurement signal to the first or third terminal and receives a reception signal corresponding to the measurement signal and outputs the live or ground line based on the difference time between the reception time of the reception signal and the output time of the measurement signal. The electric safety check device of the present invention generates information on whether or not the electric wire is disconnected.
Receiving an input and generating a mode control signal according to the input;
And a second transformer connected to the outlet of the first transformer, the first transformer being connected to the outlet, the first transformer being connected to the outlet, the first transformer being connected to the outlet, Generating information;
Generating information on a second converter health of the distribution board based on voltages received from the live and neutral lines when the mode control signal corresponds to a second converter integrity check mode;
Controlling both of the live wire, the neutral wire and the ground wire of the socket to be electrically connected to the first and second tester terminals of the tester, respectively, when the mode control signal corresponds to the insulation resistance measurement mode; And
Controlling the neutral and ground wires of the receptacle to be electrically connected to the first and second tester terminals of the tester, respectively, when the mode control signal corresponds to the ground resistance measurement mode; The method comprising the steps of:
13. The method of claim 12,
Further comprising receiving a second input and generating a breaker setting signal of the distribution board along the second input,
Wherein the generating of the first and second converter health information comprises comparing the voltage received from at least one of the live and neutral lines with the first reference voltage when the breaker set signal corresponds to the first breaker type, Comparing the voltage received from at least one of the live line and the neutral line with a second reference voltage when the breaker setting signal corresponds to the second breaker type and generating the first or second full path integrity information according to the comparison result Integrated electrical safety check method.
13. The method of claim 12,
Wherein said first tester terminal is electrically connected to a first or second calibration resistor when said mode control signal corresponds to an insulation resistance measurement test mode and said second tester terminal is electrically connected to said first and second calibration resistors To be electrically connected to each other; And
Wherein the first tester terminal is electrically connected to a third or fourth black resistance respectively when the mode control signal corresponds to a ground resistance measurement test mode and the second tester terminal is electrically connected to the third black resistance and the fourth black resistance, Controlling to be electrically connected between the resistors; Further comprising the steps of:

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