JP4981550B2 - Outlet device - Google Patents

Description

  The present invention relates to an outlet device having a function of detecting occurrence of a tracking phenomenon.

  In a conventional outlet device, for example, when a large amount of dust accumulates between the outlet device and the plug connected to the outlet device, and it becomes wet, the gap between a pair of plug blades of the plug. There is a problem of so-called tracking phenomenon in which a carbonized conductive path is formed and a pair of plug blades of the plug are short-circuited by such a carbonized conductive path. In the initial state of the occurrence of the tracking phenomenon, since the carbonized conductive path is partially formed, the tracking current is relatively small. However, if this state is left unattended, the tracking current will eventually increase, causing a fire, etc. Cause.

  For this reason, as shown in FIG. 9, an outlet device 100 that can detect and prevent the occurrence of a tracking phenomenon has been proposed (a similar one is proposed in Patent Document 1).

  In the outlet device 100 shown in FIG. 9, a pair of plug blade insertion ports (not shown) into which a pair of plug blades (not shown) of plugs (not shown) are respectively inserted are formed on the surfaces facing the plugs. A pair of blade receiving portions 110, which are housed in a shape corresponding to each of the pair of plug blade insertion openings and are connected to and connected to the blades inserted in the plug blade insertion openings, 110 and a detection electrode 120 for tracking detection is provided at a position between the pair of plug blade insertion openings on the facing surface.

  9 is connected to an AC power source AC such as a commercial power source (for example, 100 V, 60 Hz) via an earth leakage breaker BR including a main circuit breaker (main circuit earth leakage breaker) with an earth leakage breaker function of a distribution board. Connected. Here, each of voltage line L1 and neutral line N1 of AC power supply AC is connected to leakage breaker BR, and outlet device 100 is connected to leakage breaker BR by voltage line L2 and neutral line N2, and detection electrode 120 is connected to leakage breaker BR. Is connected to the neutral line N1 of the AC power supply AC. The neutral wire N1 is grounded (for example, B type grounding).

  The outlet device 100 described above causes the leakage breaker BR to detect the occurrence of the tracking phenomenon in the outlet device 100 and causes the leakage breaker BR to perform a cut-off operation, thereby preventing the progress of the tracking phenomenon by the leakage breaker BR. ing.

That is, in the outlet device 100, for example, by flowing a tracking current I _S flowing between the blade insertion slot inserted plug pins to the sensing electrode 120 when the tracking phenomenon occurs in the neutral conductor N1, outlet and causing leakage in the device 100, Yes as the I _N flowing through the neutral line N2 than the current I _L flowing through the voltage line L2 decreases, whereby occurrence of the tracking phenomenon in outlet device 1 on the earth leakage breaker BR Is detected as an electric leakage, and the interruption operation is performed.
JP-A-8-195244

  In the above-described outlet device 100, when the tracking phenomenon occurs, the earth leakage breaker BR made of the main breaker performs a cut-off operation, so that power supply to all devices connected to the earth leakage breaker BR is stopped, for example, a house Power supply to all the devices inside is stopped, and the house is in a power outage state. For this reason, if the earth leakage breaker BR performs a cut-off operation immediately after the occurrence of the tracking phenomenon, the house becomes in a power failure state before performing maintenance for eliminating the tracking phenomenon, making it difficult to perform the above-described maintenance. It was.

  The present invention has been made in view of the above points, and an object of the present invention is to provide an outlet device that can prevent the leakage breaker of the distribution board from immediately shutting off when the tracking phenomenon occurs. There is.

In order to achieve the above object, the invention of claim 1 is an outlet device connected to an AC power supply via a leakage breaker of a distribution board, wherein a pair of plug blades into which a pair of plug blades are respectively inserted. A housing in which the blade insertion port is formed on the surface facing the plug and a plug blade that is housed in the housing in a shape corresponding to each of the pair of plug blade insertion ports and is inserted into the plug blade insertion port are contact-connected. A pair of blade receiving portions; a detection electrode for tracking detection provided in a portion between the pair of plug blade insertion openings on the facing surface; and a grounding means for grounding the detection electrode, the detection electrode and the grounding means, A current limiting resistor for limiting the tracking current flowing between the plug blade inserted in the plug blade insertion port and the detection electrode when a tracking phenomenon occurs is inserted between the current limiting resistor If there is no current limiting resistor, The above-mentioned tracking current is such that the leakage breaker composed of the main breaker of the distribution board performs the breaking operation, and the branch breaker composed of the leakage breaker in which the main breaker does not perform the breaking operation and the non-operating current is smaller than that of the main breaker. It is characterized in that the flow is limited to a size for performing the blocking operation .

  According to the invention of claim 1, since the tracking current flowing between the plug blade inserted into the plug blade insertion port and the detection electrode when the tracking phenomenon occurs is limited by the current limiting resistor, the tracking phenomenon is When there is no current-limiting resistor, a tracking phenomenon occurs because it is not necessary to cut off the earth leakage breaker even when a tracking current exceeding the inoperative current of the earth leakage breaker flows. If the earth leakage breaker of the distribution board immediately shuts off, a separate earth leakage breaker that performs the breaking operation in the above state is installed between the earth leakage breaker and the blade receiving part of the outlet device. If it is provided, it is possible to stop the power supply to the outlet device and prevent the tracking phenomenon from progressing. Impact of stopping the power supply to the outlet device to prevent the progression of the phenomenon) and it is possible to suppress the effects of other devices.

In addition, if the tracking phenomenon progresses and the tracking current gradually increases and there is no current limiting resistor, the leakage breaker will shut off even if the tracking current exceeds the inoperative current of the leakage breaker. Since the earth leakage breaker performs an interruption operation when the tracking phenomenon proceeds further from this state and the tracking current further increases, the time from when the tracking phenomenon occurs until the earth leakage breaker performs the interruption operation. Therefore, it is possible to prevent the leakage breaker of the distribution board from immediately shutting off when the tracking phenomenon occurs because the breaking operation of the leakage breaker due to the tracking phenomenon is delayed. Furthermore, when a tracking phenomenon occurs, the branch breaker operates before the main breaker of the distribution board, so that the influence of the tracking phenomenon can be prevented from affecting all devices connected to the distribution board. .

According to a second aspect of the present invention, there is provided an outlet device connected to an AC power supply through a leakage breaker of a distribution board, wherein the pair of plug blade insertion ports into which the pair of plug blades of the plug are respectively inserted are opposed to the plug. A housing formed on the surface, a pair of blade receiving portions that are accommodated in the housing in a shape corresponding to each of the pair of blade insertion ports, and the blade inserted into the blade insertion port is contact-connected, and It includes a detection electrode for tracking detection provided in a portion between the pair of plug blade insertion openings on the opposite surface, and a grounding means for grounding the detection electrode, and there is a tracking phenomenon between the detection electrode and the grounding means. A current limiting resistor for limiting the tracking current flowing between the plug blade inserted into the plug blade insertion port and the detection electrode when it is generated is inserted, and the current limiting resistor comprises a variable resistor It is characterized by that.

According to the invention of claim 2 , since the tracking current flowing between the plug blade inserted into the plug blade insertion port and the detection electrode when the tracking phenomenon occurs is limited by the current limiting resistor, the tracking phenomenon is When there is no current-limiting resistor, a tracking phenomenon occurs because it is not necessary to cut off the earth leakage breaker even when a tracking current exceeding the inoperative current of the earth leakage breaker flows. If the earth leakage breaker of the distribution board immediately shuts off, a separate earth leakage breaker that performs the breaking operation in the above state is installed between the earth leakage breaker and the blade receiving part of the outlet device. If it is provided, it is possible to stop the power supply to the outlet device and prevent the tracking phenomenon from progressing. Impact of stopping the power supply to the outlet device to prevent the progression of the phenomenon) and it is possible to suppress the effects of other devices. In addition, if the tracking phenomenon progresses and the tracking current gradually increases and there is no current limiting resistor, the leakage breaker will shut off even if the tracking current exceeds the inoperative current of the leakage breaker. Since the earth leakage breaker performs an interruption operation when the tracking phenomenon proceeds further from this state and the tracking current further increases, the time from when the tracking phenomenon occurs until the earth leakage breaker performs the interruption operation. Therefore, it is possible to prevent the leakage breaker of the distribution board from immediately shutting off when the tracking phenomenon occurs because the breaking operation of the leakage breaker due to the tracking phenomenon is delayed. Furthermore, since it is possible to adjust how much the tracking current is limited, for example, it is possible to adjust the delay time of the breaking operation of the earth leakage breaker caused by the tracking phenomenon, and the setting according to the preference of the user becomes possible. Moreover, since the degree of current limiting of the tracking current IS can be adjusted even after assembly, it is easy to eliminate the problem. Moreover, since the variable resistor is a relatively inexpensive part, the manufacturing cost can be reduced.

According to a third aspect of the present invention, the information processing apparatus according to the first or second aspect of the present invention further includes a notifying unit that performs a notifying operation for notifying that a tracking phenomenon has occurred when the tracking current exceeds a predetermined threshold value. The predetermined threshold is set to be less than the magnitude of the non-operating current of the leakage breaker.

According to the invention of claim 3 , since the notification unit performs a notification operation when the tracking current exceeds a predetermined threshold value, it is possible to notify that the tracking phenomenon has occurred, and the predetermined threshold value is a leakage breaker. Is set to less than the inactive current, so that the notification unit notifies before the tracking current exceeds the inoperative current of the earth leakage breaker, that is, before the earth leakage breaker performs the shut-off operation. In addition, the progress of the tracking phenomenon can be prevented, and the influence of the tracking phenomenon can be prevented from affecting other devices connected to the distribution board. In addition, even if the system is left without performing maintenance to eliminate the tracking phenomenon, when the tracking current exceeds the non-operating current of the earth leakage breaker, the earth leakage breaker shuts off, which prevents the tracking phenomenon. Since the progress is prevented, a fire caused by the tracking phenomenon can be prevented.

According to a fourth aspect of the invention, in the first or second aspect of the invention, when the tracking current exceeds a predetermined threshold value, a notification operation for notifying that a tracking phenomenon has occurred, and the pair of blade receivers And an operating unit that performs at least one of a shut-off operation that electrically shuts off between each of the circuit breakers and the earth leakage breaker, and the predetermined threshold is set to be less than the magnitude of the non-operating current of the earth leakage breaker. It is characterized by.

According to the invention of claim 4 , when the tracking current becomes a predetermined threshold value or more, at least one of the notification operation and the shut-off operation is performed by the operation unit, so that the tracking phenomenon has occurred. Notification or the prevention of the progress of the tracking phenomenon by stopping the power supply to the blade receiving part, or both are performed, and at this time, the predetermined threshold is set to be less than the magnitude of the inoperative current of the earth leakage breaker In addition, since the operation of such an operating unit is performed before the magnitude of the tracking current exceeds the inoperative current of the leakage breaker, that is, before the leakage breaker performs the shut-off operation, the tracking phenomenon occurs before the leakage breaker operates. It is possible to prevent the progress, and it is possible to prevent the influence of the tracking phenomenon from affecting other devices connected to the distribution board.

According to a fifth aspect of the present invention, there is provided an outlet device connected to an AC power supply through a leakage breaker of a distribution board, wherein the pair of plug blade insertion ports into which the pair of plug blades of the plug are respectively inserted are opposed to the plug. A housing formed on the surface, a pair of blade receiving portions that are accommodated in the housing in a shape corresponding to each of the pair of blade insertion ports, and the blade inserted into the blade insertion port is contact-connected, and It includes a detection electrode for tracking detection provided in a portion between the pair of plug blade insertion openings on the opposite surface, and a grounding means for grounding the detection electrode, and there is a tracking phenomenon between the detection electrode and the grounding means. When a current-limiting resistor for limiting the tracking current flowing between the plug blade inserted into the plug blade insertion port and the detection electrode is inserted and the tracking current exceeds a predetermined threshold value In addition, the tracking phenomenon occurs And an operation unit that performs at least one of a breaking operation that electrically cuts off between each of the pair of blade receiving portions and the earth leakage breaker, and the predetermined threshold is: It is set to be less than the magnitude of the non-operating current of the earth leakage breaker, and the predetermined threshold is a notification threshold used for determining whether to perform the notification operation and whether to perform the interruption operation. And a plurality of threshold values including at least a blocking threshold value used for determination, wherein the blocking threshold value is larger than the notification threshold value.

According to the invention of claim 5 , when the tracking phenomenon occurs, the tracking current flowing between the plug blade inserted in the plug blade insertion port and the detection electrode is limited by the current limiting resistor, so that the tracking phenomenon is When there is no current-limiting resistor, a tracking phenomenon occurs because it is not necessary to cut off the earth leakage breaker even when a tracking current exceeding the inoperative current of the earth leakage breaker flows. If the earth leakage breaker of the distribution board immediately shuts off, a separate earth leakage breaker that performs the breaking operation in the above state is installed between the earth leakage breaker and the blade receiving part of the outlet device. If it is provided, it is possible to stop the power supply to the outlet device and prevent the tracking phenomenon from progressing. Impact of stopping the power supply to the outlet device to prevent the progression of the phenomenon) and it is possible to suppress the effects of other devices. In addition, if the tracking phenomenon progresses and the tracking current gradually increases and there is no current limiting resistor, the leakage breaker will shut off even if the tracking current exceeds the inoperative current of the leakage breaker. Since the earth leakage breaker performs an interruption operation when the tracking phenomenon proceeds further from this state and the tracking current further increases, the time from when the tracking phenomenon occurs until the earth leakage breaker performs the interruption operation. Therefore, it is possible to prevent the leakage breaker of the distribution board from immediately shutting off when the tracking phenomenon occurs because the breaking operation of the leakage breaker due to the tracking phenomenon is delayed. Furthermore, when the tracking current exceeds a predetermined threshold value, at least one of the notification operation and the shut-off operation is performed by the operation unit, so that the tracking phenomenon has occurred, or the blade receiving unit The tracking phenomenon is prevented from proceeding by stopping the power supply of the power supply, or both of them are performed. At this time, the predetermined threshold is set to be less than the magnitude of the inoperative current of the leakage breaker. Since the operation of is performed before the magnitude of the tracking current exceeds the inoperative current of the earth leakage breaker, that is, before the earth leakage breaker performs the breaking operation, it is possible to prevent the tracking phenomenon from proceeding before the earth leakage breaker operates. Thus, it is possible to prevent the influence of the tracking phenomenon from affecting other devices connected to the distribution board. In addition, when a tracking phenomenon occurs, a notification operation is performed before the blocking operation is performed, so that it is possible to prevent the tracking phenomenon from proceeding before the blocking operation is performed, and damage caused by the tracking phenomenon is prevented. Can be suppressed. Further, even when left as it is without performing maintenance for eliminating the tracking phenomenon, the shut-off operation is performed and the progress of the tracking phenomenon is prevented, so that a fire caused by the tracking phenomenon can be prevented.

According to a sixth aspect of the present invention, there is provided an outlet device connected to an AC power supply through a leakage breaker of a distribution board, wherein a pair of plug blade insertion ports into which a pair of plug blades of the plug are respectively inserted are opposed surfaces of the plug. A pair of blade receiving portions that are housed in a shape corresponding to each of the pair of plug blade insertion openings and are connected to and connected to the blades inserted in the plug blade insertion openings; A detection electrode for tracking detection provided in a portion between a pair of plug blade insertion openings on the surface and a grounding means for grounding the detection electrode, and a tracking phenomenon occurs between the detection electrode and the grounding means A current-limiting resistor for limiting the tracking current flowing between the plug blade inserted into the plug blade insertion port and the detection electrode is inserted, and each of the pair of blade receiving portions and the earth leakage breaker A pair of current paths between them are inserted into the core A zero-phase current transformer that detects a leakage current in the pair of current paths, and a detected current value obtained from the detection output of the leakage detection section when a non-operating current is exceeded. A leakage breaker that electrically cuts off each of the electric paths, the leakage breaker having a non-operating current set smaller than the non-operating current of the leakage breaker, and the core includes the detection electrode and the grounding means. A grounding wire for electrically connecting the two is wound.

According to the invention of claim 6 , since the tracking current flowing between the plug blade inserted in the plug blade insertion port and the detection electrode when the tracking phenomenon occurs is limited by the current limiting resistor, the tracking phenomenon is When there is no current-limiting resistor, a tracking phenomenon occurs because it is not necessary to cut off the earth leakage breaker even when a tracking current exceeding the inoperative current of the earth leakage breaker flows. If the earth leakage breaker of the distribution board immediately shuts off, a separate earth leakage breaker that performs the breaking operation in the above state is installed between the earth leakage breaker and the blade receiving part of the outlet device. If it is provided, it is possible to stop the power supply to the outlet device and prevent the tracking phenomenon from progressing. Impact of stopping the power supply to the outlet device to prevent the progression of the phenomenon) and it is possible to suppress the effects of other devices. In addition, if the tracking phenomenon progresses and the tracking current gradually increases and there is no current limiting resistor, the leakage breaker will shut off even if the tracking current exceeds the inoperative current of the leakage breaker. Since the earth leakage breaker performs an interruption operation when the tracking phenomenon proceeds further from this state and the tracking current further increases, the time from when the tracking phenomenon occurs until the earth leakage breaker performs the interruption operation. Therefore, it is possible to prevent the leakage breaker of the distribution board from immediately shutting off when the tracking phenomenon occurs because the breaking operation of the leakage breaker due to the tracking phenomenon is delayed. Furthermore, since the leakage current and the tracking current can be detected by the leakage detection unit, it is not necessary to separately provide a component for detecting the tracking current, and the manufacturing cost can be reduced and the size can be reduced. Also, even if the tracking current flowing through the grounding wire is the same, the detection output of the leakage detection unit can be adjusted by changing the number of times the grounding wire is wound around the core. Since the sensitivity can be changed, it is possible to set the timing at which the leakage breaker performs a breaking operation when a tracking phenomenon occurs to a desired timing.

  The present invention has an effect that it is possible to prevent the earth leakage breaker of the distribution board from immediately performing a cut-off operation when the tracking phenomenon occurs.

  Below, embodiment of the outlet apparatus of this invention is described based on FIGS. In addition, about the point similar to the prior art example shown in FIG. 9, the same code | symbol is attached | subjected and description is abbreviate | omitted.

(Embodiment 1)
As shown in FIGS. 2 (a) and 2 (b), the outlet device 1 of the present embodiment includes a pair of voltages into which a pair of flat plug blades P for voltage electrodes of plugs (not shown) are inserted. A front electrode (a plug insertion port 2b for a pole and a pin insertion port 2b for a grounding electrode into which a round bar-shaped pin (not shown) for a grounding electrode of the plug is inserted) is a front surface (see FIG. 2 (a) is provided on the upper surface).

  The housing 2 is formed in a rectangular box shape having a shape and size that can be attached to a standardized mounting frame (not shown) for mounting the embedded wiring device on the construction surface, for example. Conventionally well-known instrument mounting means (not shown) for attaching to the frame is provided. In this embodiment, for example, unit dimensions (size that can be attached to a single mounting frame up to three) are embedded. It is formed in a size (three module dimensions) in which three embedded wiring devices are arranged in the short width direction (vertical direction).

  Further, as shown in FIGS. 2 (a) and 2 (b), the pair of plug blade insertion ports 2a described above are formed in the short direction (width) at the center portion in the longitudinal direction (length direction), as shown in FIGS. The pin insertion port 2b described above is arranged at one end in the longitudinal direction from the portion between the pair of plug blade insertion ports 2a on the front surface (the left end side in FIGS. 2A and 2B). It is formed in the part of. In addition, a detection electrode insertion hole 2c made of a slit formed in a shape along the longitudinal direction of the front surface is formed in a portion (intermediate position) between the pair of plug blade insertion openings 2a on the front surface of the housing 2. ing. In the outlet device 1 of the present embodiment, the plug blade insertion port 2a on the front side of the paper in FIGS. 2A and 2B is the plug blade insertion port 2a for the voltage side electrode, and the plug blade insertion port on the back side of the paper. 2a is used as the plug blade insertion port 2a for the ground side electrode.

  On the other hand, a pair of electric wires for voltage electrodes for inserting each of the voltage line L2 and the neutral wire N2 into the housing 2 is inserted into the rear surface of the housing 2 (the lower surface in FIGS. 2A and 2B). A mouth (not shown) is formed. Further, on the rear surface of the housing 2, a grounding electrode wire insertion port (for inserting a grounding wire (protective grounding wire) E (see FIG. 1)) for grounding (for example, class D grounding) into the housing 2 ( (Not shown) is formed.

  As shown in FIG. 1, the casing 2 has a pair of blade receiving portions 3a and 3b for voltage electrodes to which the plug blade P inserted into the plug blade insertion port 2a is contact-connected. In addition to being housed in a shape corresponding to each of the insertion ports 2a, the blade receiving portion 4 for the ground electrode to which the pin inserted into the pin insertion port 2b is contact-connected is housed in a shape corresponding to the pin insertion port 2b. Yes.

  Further, the housing 2 has a connection terminal T1 to which the voltage line L2 inserted from the electric wire insertion port for one voltage electrode is electrically connected, and is electrically connected to the one blade receiving portion 3a. The connection terminal T2 to which the neutral wire N2 inserted from the electric wire insertion port for the other voltage electrode is electrically connected is stored in the form of being electrically connected to the blade receiving portion 3b. The connection terminal T3 to which the ground wire E inserted from the electric wire insertion opening is electrically connected is stored in a form of being electrically connected to the blade receiving portion 4. The connection terminals T1, T2, T3 are, for example, connection terminals having a quick connection terminal structure.

  Further, the detection electrode 5 for tracking detection, which is formed in an elongated rectangular plate shape with a conductive material (metal material), protrudes to the outside of the housing 2 from the detection electrode insertion hole 2c. Between the detected position and the storage position retracted to the inside of the housing 2 from the detection electrode insertion hole 2c. The detection electrode 5 is electrically connected to the connection terminal T3 by the grounding wire 6, and is grounded by connecting the ground wire E to the connection terminal T3. Therefore, in the outlet device 1 of this embodiment, the connection terminal T3 constitutes a grounding means for grounding the detection electrode 5.

  Such a detection electrode 5 is positioned at the storage position when the plug is not connected to the outlet device 1. On the other hand, the detection electrode 5 is positioned at the detection position in a state where the plug is connected to the outlet device 1, and a tip portion of the detection electrode 5 comes into contact with a portion between the pair of plug blades P in the plug. . That is, the detection electrode 5 is located at a position between the pair of plug blade insertion ports 2 a on the front surface of the housing 2 in a state where the plug is connected to the outlet device 1.

Here, between the connection terminal T3 and the detecting electrode 5, limited tracking current I _S flowing between the blade P and the detection electrode 5 inserted into blade insertion slot 2a when the tracking phenomenon occurs A current limiting resistor 7 made of a flowing resistance is inserted (in the illustrated example, the current limiting resistor 7 is interposed between the detection electrode 5 and the grounding wire 6).

As shown in FIG. 1, the outlet device 1 according to the present embodiment connects the voltage line L2 to the connection terminal T1, the neutral line N2 to the connection terminal T2, and the ground line E to the connection terminal T3. The outlet device is connected to the AC power supply AC through the earth leakage breaker BR of the power board. As described above, the pair of plug blade insertion ports 2a into which the pair of plug blades P of the plug are inserted are connected to the plug. The housing 2 formed on the front surface, which is the opposite surface, and the blade P stored in the housing 2 in a shape corresponding to each of the pair of blade insertion ports 2a are contact-connected. A pair of blade receiving portions 3a, 3b, a detection electrode 5 for tracking detection located in a portion between the pair of plug blade insertion openings 2a on the facing surface, and a connection as a grounding means for grounding the detection electrode 5 A terminal T3 and connected to the detection electrode 5. Between the terminal T3, current limiting resistor 7 for limiting the tracking current I _S flowing between the blade P inserted into blade insertion slot 2a and the detection electrode 5 when the tracking phenomenon has occurred Has been inserted.

  As described above, the outlet device 1 of the present embodiment causes the leakage breaker BR to detect the occurrence of the tracking phenomenon and cause the leakage breaker BR to perform a cut-off operation, similarly to the conventional outlet device 100 shown in FIG. The progress of the tracking phenomenon is prevented by the breaker BR.

That is, in the outlet device 1, than the current I _L flowing in the example tracking current I _S to cause leakage at outlet device 1 by flowing to ground by a ground line E voltage line L2 when the tracking phenomenon occurs neutral I _N flowing through the line N2 Yes as decreases, and thereby to perform the cutoff operation by detecting the occurrence of the tracking phenomenon in outlet device 1 on the earth leakage breaker BR as leakage.

Here the outlet device 1 of the present embodiment, the tracking current I _S, the detection electrodes 5, current limiting resistor 7, the grounding wire 6, the connecting terminal T3, since flows to ground via the connection line E, in FIG. 9 Unlike the conventional outlet apparatus 100 shown in FIG.

Therefore, the tracking phenomenon occurs, when there is no current limiting resistor 7 (i.e. conventional case outlet device 100 shown in FIG. 9) tracking the current I _S which is a size exceeding the non operating current of the earth leakage breaker BR is in the Even if it becomes a flowing state, it is not necessary to perform the breaking operation on the earth leakage breaker BR. Therefore, when the tracking phenomenon occurs, it is possible to prevent the earth leakage breaker BR of the distribution board from immediately breaking. At this time, if another leakage breaker or the like that performs a breaking operation in the above state is provided between the leakage breaker BR and the blade receiving portions 3a and 3b of the outlet device 1, the power supply to the outlet device 1 is stopped and the tracking phenomenon occurs. In addition, it is possible to prevent the effects of the tracking phenomenon (the effect of stopping the power supply to the outlet device to prevent the progress of the tracking phenomenon) from reaching other devices. It becomes possible.

The tracking phenomenon proceeds from the initial state tracking current I _S, such as plug pins P between weak current (micro current) flows of the plug gradually increases, when there is no current limiting resistor section 7 even if the tracking current I _S of the extent exceeding the non operating current of the circuit breaker BR is ready to flow, leakage breaker BR is without interrupting operation, tracking current I _S is further more tracking behavior from this state progresses Since the earth leakage breaker BR performs the breaking operation when it becomes large, it is possible to extend the time from the occurrence of the tracking phenomenon until the earth leakage breaker BR performs the breaking operation, and the earth leakage breaker BR caused by the tracking phenomenon If the circuit breaker is delayed and a tracking phenomenon occurs, the earth leakage breaker on the distribution board immediately shuts off. It can be prevented.

According to the outlet device 1 of the present embodiment as mentioned above, limited tracking current I _S flowing between the blade P and the detection electrode 5 inserted into blade insertion slot 2a when the tracking phenomenon occurs since limiting the diversion resistance portion 7, if the tracking phenomenon occurs initial flow is relatively large tracking current I _S and, in the case where tracking phenomenon tracking current I _S in progress becomes large current from microcurrent However, it is possible to prevent the earth leakage breaker BR of the distribution board from immediately shutting off when the tracking phenomenon occurs.

By the way, in the outlet apparatus 1 of this embodiment described above, the main circuit breaker with the electric leakage interruption function is used as the electric leakage breaker BR. However, such an electric leakage breaker BR is limited to the main circuit breaker of the distribution board. Instead, it may be a branch breaker (branch leakage breaker) that is connected to the main breaker and has a leakage interrupting function that has a smaller non-operating current than the main breaker. In this case, current limiting resistor unit 7, a tracking current I _S which is a size that leakage breaker carries out its shutoff operation when there is no current limiting resistor 7 is composed of the main breaker of the distribution board, the main breaker is interrupting operation Without being performed, the resistance value is set so that the branch breaker including the earth leakage breaker having a non-operating current smaller than that of the main breaker is limited to a magnitude at which the breaking operation is performed. For example, the voltage of the AC power supply AC is 100 V, the frequency is 60 Hz, the rated sensitivity current of the main breaker is 30 mA (the non-operation current according to the JIS rule is 15 mA), and the rated sensitivity current of the branch breaker is 15 mA (the JIS rule) When the non-operation current is 7.5 mA), the resistance value of the current limiting resistor 7 is set to about 10 kΩ.

  In this way, when the tracking phenomenon occurs, the branch breaker operates before the main breaker of the distribution board, so the effect of the tracking phenomenon affects all devices connected to the distribution board. Can be prevented.

  In the present embodiment, an example in which the present invention is applied to an outlet device with a grounding electrode as shown in FIGS. 1 and 2 is shown. However, an outlet device to which the present invention is applied has an earthing electrode as described above. For example, an outlet device without a grounding electrode as shown in FIG. In this case, instead of providing the housing 2 with a configuration related to the blade receiving portion 4 for the ground electrode, such as the pin insertion port 3b and the connection terminal T3, as shown in FIG. A connection terminal T4 to which the other end of a ground line (neutral line) N3 connected to one end of the neutral line N1 is provided is connected to the connection terminal T4 via the grounding wire 6 and the current limiting resistor 7 described above. Thus, the detection electrode 5 may be electrically connected. The effects are the same as in the example shown in FIGS.

Further, the current limiting resistor 7 may be a variable resistor as shown in FIG. In this way, because it regulate how much current limiting tracking current I _S, for example, rather than the degree of tracking current I _S exceeding the non operating current of the earth leakage breaker BR if no current limiting resistor 7 , even in a state where the tracking current I _S that exceeds the dead current increases flows, or as leakage breaker BR does not perform blocking operation, adjusts the delay time of the interruption operation of the earth leakage breaker BR due to the tracking phenomenon Can be set according to the user's preference. Further, since it adjusts the degree of limiting of the tracking current I _S even after assembly, defect eliminated also facilitated. Moreover, since the variable resistor is a relatively inexpensive part, the manufacturing cost can be reduced.

  For example, as described above, when the branch breaker is cut off before the main breaker, the current limiting resistor 7 has a variable resistor whose resistance value can be changed between 8 kΩ and 12 kΩ. May be used. Note that the variable range of the resistance value in the variable resistor used for the current limiting resistor 7 may be a variable range that can be set to a suitable range according to the intended use.

  By the way, the outlet device 1 shown in FIG. 3 (b) has a current limiting resistor 7 as a variable resistor in the outlet device without a grounding electrode as shown in FIG. 3 (a). The current limiting resistor 7 may be a variable resistor in the outlet device 1 with a ground electrode as shown in FIG.

  These points are the same in Embodiments 2 to 5 described later. It should be noted that a wide variety of different embodiments can be configured without departing from the spirit and scope of the present invention, and the present invention is not limited to a specific embodiment.

(Embodiment 2)
As shown in FIG. 4, the outlet device 1 of the present embodiment is configured using, for example, a current transformer (CT), a zero-phase current transformer (ZCT), and the like, and the tracking current I flowing through the grounding wire 6. A current detection unit 80 for detecting _S , a notification unit 81 for performing a notification operation for notifying that a tracking phenomenon has occurred when the tracking current I _S exceeds a predetermined threshold value, and connection terminals T1, T2 Different from the first embodiment in that it includes a power supply circuit unit BT that is connected to each other and is supplied with power from an AC power supply AC via connection terminals T1 and T2 and generates an operating power supply for the internal circuit of the outlet device 1. Since the other configuration is the same as that of the outlet device 1 of the first embodiment, the same components are denoted by the same reference numerals and description thereof is omitted. Further, since the current detection unit 80 and the power supply circuit unit BT can adopt conventionally known ones, detailed description thereof will be omitted.

  The notification unit 81 includes a notification element (not shown) for notifying that the tracking phenomenon has occurred, and control means (not shown) including a microcomputer that drives the notification element. . The notification unit 81 is driven by the operating power generated by the power supply circuit unit BT. Examples of the notification element include electroacoustic conversion elements such as buzzers and speakers, light-emitting elements such as light-emitting diodes and neon lamps, and display devices (liquid crystal display devices and electronic bulletin boards) that display predetermined messages and images. An element, a communication element that transmits a notification signal indicating that a tracking phenomenon has occurred in a predetermined device (for example, an interphone master unit or a personal computer) by wired or wireless communication, or the like is used. In addition, the control means drives the notification element to perform a predetermined notification when the current value obtained from the detection output of the current detection unit 80 exceeds a predetermined threshold (hereinafter referred to as “notification threshold”). Operation, for example, an operation for outputting a warning sound to an electroacoustic transducer, an operation for lighting a light emitting element in a predetermined lighting pattern, an operation for displaying a warning message indicating that a tracking phenomenon has occurred on a display element, a communication element An operation for transmitting a notification signal is performed.

Here, the notification threshold value is set to be less than the inoperative current of the leakage breaker BR. Accordingly, the notification unit 81, a tracking current I _S exceeds the non operating current leakage breaker BR is before performing the cut-off operation, it will perform the notification operation.

According to the outlet device 1 of this embodiment described above, when the tracking phenomenon occurs, the tracking current _IS is detected by the current detection unit 80, and the current value obtained from the detection output is equal to or greater than the notification threshold. In this case, the notification unit 81 notifies the user that the tracking phenomenon has occurred, and the notification threshold is set to be less than the inoperative current of the leakage breaker BR. before I _S exceeds inoperative current leakage breaker BR, namely because leakage breaker BR has notification operation by the notification section 81 is performed before performing the cut-off operation, before leakage breaker BR are operated, the progress of the tracking phenomenon It is possible to prevent the influence of the tracking phenomenon (the power supply to the outlet device 1 was stopped to prevent the progress of the tracking phenomenon) Effect) are, it is possible to prevent extends to other devices connected to the distribution board. Moreover, even when it was left without performing maintenance for tracking phenomena eliminated, when the tracking current I _S exceeds the non operating current of the earth leakage breaker BR is earth leakage breaker BR performs cutoff operations As a result, the progress of the tracking phenomenon is prevented, so that a fire caused by the tracking phenomenon can be prevented.

Also in outlet device 1 of the present embodiment, the tracking current I _S, the detection electrodes 5, current limiting resistor 7, the grounding wire 6, the connecting terminal T3, since flows to ground via the connection lines E, limit Since the current is limited by the diversion resistance unit 7, the same effect as in the first embodiment can be obtained.

(Embodiment 3)
As shown in FIG. 5, the outlet device 1 according to the present embodiment includes a current detection unit 80, a pair of blade receiving units 3 a and 3 b, and a leakage breaker BR when the tracking current _IS exceeds a predetermined threshold. The second embodiment is different from the first embodiment in that it includes a blocking portion 82 that performs a blocking operation for electrically blocking between the power supply circuit portion BT and the power supply circuit portion BT. In addition, since the other structure is the same as that of the outlet apparatus 1 of Embodiment 1, the same code | symbol is attached | subjected about the same structure and description is abbreviate | omitted. Further, since the current detection unit 80 and the power supply circuit unit BT are the same as those in the second embodiment, description thereof will be omitted.

  As shown in FIG. 5, the blocking portion 82 includes a contact portion 82a including a pair of contacts interposed between the connection terminal T1 and the blade receiving portion 3a and between the connection terminal T2 and the blade receiving portion 3b, And a shut-off control unit 82b that performs opening / closing control of the contact unit 82a.

  When the current value obtained from the detection output of the current detection unit 80 is equal to or greater than a predetermined threshold value (hereinafter referred to as “threshold value for cutoff”), the cutoff control unit 82b opens each contact of the contact unit 82a. The blade receiving portions 3a, 3b and the earth leakage breaker BR are configured to perform a shut-off operation for electrically shut-off. Such shut-off control unit 82b is driven by the operating power generated by the power supply circuit unit BT.

Here, the cutoff threshold is set to be less than the inoperative current of the leakage breaker BR. Therefore, cut-off control unit 82b is a tracking current I _S before the earth leakage breaker BR beyond the inoperative current carries out its shutoff operation, opening the respective contacts of the contact portion 82a. That is, when the tracking phenomenon occurs, the blocking unit 82 performs the blocking operation before the earth leakage breaker BR performs the blocking operation.

According to the above-described outlet device 1 of the present embodiment, when the tracking phenomenon occurs, the tracking current _IS is detected by the current detection unit 80, and the current value obtained from the detection output is equal to or greater than the above-described cutoff threshold. When this happens, the blocking unit 82 performs the blocking operation, so that power supply to the blade receiving units 3a and 3b is stopped and the progress of the tracking phenomenon is prevented. Since this time the cut-off threshold value is set to less than the magnitude of the quiescent current of the earth leakage breaker BR, blocking operation of the blocking portion 82 before the magnitude of the tracking current I _S exceeds inoperative current circuit breaker BR That is, since it is performed before the earth leakage breaker BR performs the breaking operation, it is possible to prevent the tracking phenomenon from proceeding before the earth leakage breaker BR operates, and the influence of the tracking phenomenon is connected to the distribution board. It can be prevented from reaching other equipment.

Also in outlet device 1 of the present embodiment, the tracking current I _S, the detection electrodes 5, current limiting resistor 7, the grounding wire 6, the connecting terminal T3, since flows to ground via the connection lines E, limit Since the current is limited by the diversion resistance unit 7, the same effect as in the first embodiment can be obtained.

(Embodiment 4)
As shown in FIG. 6, the outlet device 1 according to the present embodiment includes both the notification unit 81 described in the second embodiment and the blocking unit 82 described in the third embodiment. The notification operation is performed when the current value obtained from the detection output of the current detection unit 80 is greater than or equal to the notification threshold, and the interruption operation is performed when the current value obtained from the detection output of the current detection unit 80 is greater than or equal to the interruption threshold. This is different from the first to third embodiments in that an operation unit for performing the above is configured. In addition, since the other structure is the same as that of the socket apparatus 1 of Embodiment 1-3, the same code | symbol is attached | subjected about the same structure and description is abbreviate | omitted.

  In the outlet device 1 of the present embodiment, the notification threshold used for determining whether the notification unit 81 performs the notification operation and the blocking threshold used for determining whether the blocking unit 82 performs the blocking operation. The threshold value has a magnitude relationship that the blocking threshold value is larger than the notification threshold value.

Therefore, when the tracking phenomenon tracking current I _S flows generated, notification operation by the notification section 81 is performed before the cutoff operation by blocking part 82. Moreover, the interruption | blocking part 82 performs the said interruption | blocking operation | movement, before the earth-leakage breaker BR performs the interruption | blocking operation | movement, as described in Embodiment 3.

  According to the outlet device 1 of the present embodiment described above, when the tracking phenomenon occurs, the notification operation by the notification unit 81 is performed before the blocking operation by the blocking unit 82 is performed. It is possible to prevent the tracking phenomenon from proceeding before the operation is performed, and damage due to the tracking phenomenon can be suppressed. Further, even if the system is left without performing maintenance for eliminating the tracking phenomenon, the blocking operation is performed by the blocking unit 82 to prevent the tracking phenomenon from progressing. Can be prevented.

Then, the cut-off operation by the shut-off portion 82 before the magnitude of the tracking current I _S exceeds inoperative current leakage breaker BR, namely because leakage breaker BR is performed before performing the cut-off operation, before leakage breaker BR are operated In addition, the progress of the tracking phenomenon can be prevented, and the influence of the tracking phenomenon can be prevented from affecting other devices connected to the distribution board.

Also in outlet device 1 of the present embodiment, the tracking current I _S, the detection electrodes 5, current limiting resistor 7, the grounding wire 6, the connecting terminal T3, since flows to ground via the connection lines E, limit Since the current is limited by the diversion resistance unit 7, the same effect as in the first embodiment can be obtained.

  By the way, in the outlet device 1 of this embodiment, although both the alerting | reporting operation | movement by the alerting | reporting part 81 and the interruption | blocking operation | movement by the interruption | blocking part 82 are performed, whether the said alerting | reporting operation | movement is performed or the said interruption | blocking. By providing a selection means including a switch that can select whether or not to perform an operation, when the current value obtained from the detection output of the current detection unit 80 exceeds a predetermined threshold value, a notification by the notification unit 81 is provided. Only one of the operation and the blocking operation by the blocking unit 82 may be performed. Further, the predetermined threshold is not limited to the notification threshold and the blocking threshold as described above, and may be, for example, a stage notification threshold obtained by dividing the notification threshold into a plurality of stages. The notification unit 81 may be caused to perform operations such as gradually increasing the notification sound or speeding up blinking according to a threshold value for various stage notifications.

(Embodiment 5)
As shown in FIG. 7, the outlet device 1 of the present embodiment includes a leakage detector 90 that detects a leakage current in a pair of current paths between the pair of blade receiving portions 3 a and 3 b and the leakage breaker BR, and a leakage In the point provided with the earth leakage interruption part 91 and the power supply circuit part BT which electrically interrupt each said pair of electricity supply path, when the detection current value obtained from the detection output of the detection part 90 exceeds a non-operation current. Unlike the first embodiment, the other configuration is the same as that of the outlet device 1 of the first embodiment. Therefore, the same components are denoted by the same reference numerals and the description thereof is omitted.

  The leakage detector 90 is configured using a zero-phase current transformer. Here, the zero-phase current transformer includes, for example, a core (not shown) formed in an annular shape from a magnetic material, and a detection coil (not shown) including a secondary winding wound around the core. And both the outbound and return wires are inserted into the core of the zero-phase current transformer. The zero-phase current transformer is well known in the art and will not be described in detail.

  In the outlet device 1 of the present embodiment, a pair of energization paths between the pair of blade receiving portions 3a and 3b and the earth leakage breaker BR are inserted into the core of the zero-phase current transformer of the earth leakage detection unit 90. Yes.

  As shown in FIG. 7, the earth leakage breaker 91 includes a pair of normally closed contacts interposed between the connection terminal T1 and the blade receiver 3a and between the connection terminal T2 and the blade receiver 3b. And a switching control unit 91b that is configured by a microcomputer and performs switching control of the contact unit 91a. When the detected current value obtained from the detection output of the leakage detecting unit 90 exceeds the inoperative current, the open / close control unit 91b opens both contacts of the contact unit 91a, and each of the pair of blade receiving units 3a and 3b. And a pair of energization paths between the circuit breaker BR and the earth leakage breaker BR are electrically interrupted. Here, the inoperative current of the earth leakage breaker 91 is set to be smaller than the value at which the earth leakage breaker 91 performs the interruption operation before the earth leakage breaker BR, that is, the inoperative current of the earth leakage breaker BR. Such a leakage breaker 91 is driven by the operating power generated by the power supply circuit BT.

  As described above, the outlet device 1 of the present embodiment has a function as an earth leakage breaker, and when an earth leakage current occurs, the earth leakage breaker 91 of the outlet device 1 is more effective than the earth leakage breaker BR performing an interruption operation. Cuts off first.

By the way, in the outlet device 1 of this embodiment, not only the detection coil of the zero-phase current transformer but also the detection electrode 5 and the connection terminal T3 are electrically connected to the core of the zero-phase current transformer of the leakage detecting unit 90. The grounding wire 6 to be connected is wound (one turn in the illustrated example). However, as when wound around a core of ZCT the grounding wire 6 becomes the direction of the tracking current I _S, the direction and the same direction of the current flowing from the leakage breaker BR into the outlet device 1, The grounding wire 6 is wound around the core.

Here, since the flows tracking current I _S as described above to the grounding wire 6, when the tracking phenomenon occurs, the tracking current I _S is detected as current leakage by leakage detecting unit 90, the leakage detection unit When the detected current value obtained from the detection output of 90 exceeds the non-operation current, the leakage operation by the leakage breaker 91 is performed.

According to the above-described outlet device 1 of the present embodiment, when an electric leakage occurs in the outlet device 1, the electric leakage breaker 91 of the outlet device 1 performs an interruption operation before the electric leakage breaker BR. It is possible to prevent the influence of electric leakage in 1 from affecting other devices connected to the electric leakage breaker BR. On the other hand, when the tracking phenomenon occurs, the tracking current I _S is detected as current leakage by leakage detecting unit 90, when the current value obtained from the detection output exceeds a dead current fault interrupter 91 In addition, since the circuit breaker 91 performs a circuit breaking operation, the power supply to the blade receivers 3a and 3b is stopped to prevent the tracking phenomenon from progressing. At this time, the circuit breaker 91 is interrupted before the circuit breaker BR. Since the operation is performed, it is possible to prevent the progress of the tracking phenomenon before the earth leakage breaker BR operates, and the effect of the tracking phenomenon affects other devices connected to the distribution board. Can be prevented.

In outlet device 1 of the present embodiment, since it detects a leakage current and tracking current I _S by the leakage detection unit 90, separately we need no longer provide a component for detecting a tracking current I _S, the manufacturing cost Reduction and downsizing can be achieved. Also, the same magnitude of the tracking current I _S flowing through the grounding wire 6, by changing the number of winding the grounding wire 6 to the core, the detection output of the leakage detection unit 90 is changed, the grounding wire 6 and you can adjust the detection output of the leakage detection unit 90 by the number of winding the core, because it changes the sensitivity of the leakage detection unit 90 for tracking the current I _S, fault interrupter 91 is blocked operation when the tracking phenomenon occurs Can be set to a desired timing.

Also in outlet device 1 of the present embodiment, the tracking current I _S, the detection electrodes 5, current limiting resistor 7, the grounding wire 6, the connecting terminal T3, since flows to ground via the connection lines E, limit Since the current is limited by the diversion resistance unit 7, the same effect as in the first embodiment can be obtained.

  By the way, as the outlet apparatus 1 of this embodiment, what is shown in FIG. 8 may be used. The outlet device 1 shown in FIG. 8 is different from the example shown in FIG. 7 in that it includes a current detection unit 80 and a notification unit 81. In addition, about the structure similar to the example shown in FIG. 7, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  The current detection unit 80 shown in FIG. 8 includes a so-called photocoupler including a light emitting diode PD and a phototransistor PT that receives light emitted from the light emitting diode PD and performs an on / off operation. The light emitting diode PD is interposed between the detection electrode 5 and the current limiting resistor 7 such that the anode is connected to the detection electrode 5 and the cathode is connected to the current limiting resistor 7. Note that a diode D for protecting the light emitting diode PD from a reverse voltage is connected in reverse parallel to the light emitting diode PD.

The notification unit 81 shown in FIG. 8 includes a notification element (not shown) and control means (not shown) including a microcomputer that drives the notification element as described in the second embodiment. The configuration of the control means is different from that of the second embodiment. That is, the control means detects the on / off state of the phototransistor PT by monitoring the voltage between the collector and the emitter of the phototransistor PT, and drives the notification element when the phototransistor PT is turned on, for example. Thus, a predetermined notification operation is performed. That, the control means, when the phototransistor PT is turned on, it is determined that the tracking current I _S is equal to or greater than the notification threshold, performs the notification operation. Thus, the magnitude of the tracking current I _S that amount necessary to the phototransistor PT on by the light emitting diode PD is obtained, has a the notification threshold, the value is not operating current of the circuit breaker BR Is set to a size less than Further, the notification threshold of the notification unit 81, fault interrupter portion 91 is set smaller than the size of the tracking current I _S to perform the cutoff operation. That is, the alerting | reporting part 81 performs alerting | reporting operation | movement before the earth-leakage interrupting part 91 performs the interruption | blocking operation | movement.

Therefore, according to the outlet device 1 shown in FIG. 8, when the tracking current _IS becomes equal to or greater than the notification threshold, the notification unit 81 performs notification, so that it is possible to notify that the tracking phenomenon has occurred, In addition, since the notification unit 81 performs the notification operation before the leakage breaker 91 performs the blocking operation, it is possible to prevent the tracking phenomenon from proceeding before the leakage breaker 91 performs the blocking operation. It is possible to prevent the influence from affecting other devices connected to the distribution board. In addition, even when left as it is without performing maintenance for eliminating the tracking phenomenon, the tracking current _IS is increased and the current value obtained from the detection output of the leakage detection unit 90 is When the non-operating current is exceeded, the leakage breaker 91 performs a breaking operation, thereby preventing the progress of the tracking phenomenon, so that a fire caused by the tracking phenomenon can be prevented. Instead of the current detection unit 80 shown in FIG. 8, the current detection unit 80 shown in FIG. 4 described in the second embodiment may be adopted.

It is a schematic explanatory drawing of the outlet apparatus of Embodiment 1. The outlet apparatus same as the above is shown, (a) is a perspective view when the plug is not connected, and (b) is a perspective view when the plug is connected. It is a schematic explanatory drawing of the other example of an outlet apparatus same as the above. It is a schematic explanatory drawing of the outlet apparatus of Embodiment 2. It is a schematic explanatory drawing of the outlet apparatus of Embodiment 3. It is a schematic explanatory drawing of the outlet apparatus of Embodiment 4. It is a schematic explanatory drawing of the outlet apparatus of Embodiment 5. It is a schematic explanatory drawing of the other example of an outlet apparatus same as the above. It is a schematic explanatory drawing of the outlet apparatus of a prior art example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Outlet apparatus 3a, 3b Blade receiving part 5 Detection electrode 6 Grounding electric wire 7 Current limiting resistance part 80 Current detection part 81 Notification part 82 Interruption part 90 Leakage detection part 91 Leakage interruption part T3 Connection terminal BR breaker AC AC power supply

Claims (6)

An outlet device connected to an AC power source through a leakage breaker of a distribution board,
A casing in which a pair of plug blade insertion holes into which a pair of plug blades of the plug are respectively inserted is formed on a surface facing the plug, and a plug accommodated in the casing in a form corresponding to each of the pair of plug blade insertion ports. A pair of blade receiving portions to which a blade inserted into the blade insertion port is contact-connected, a detection electrode for tracking detection provided at a position between the pair of blade insertion ports on the opposite surface, and the detection electrode A grounding means for grounding,
Between the detection electrode and the grounding means, there is inserted a current limiting resistor for limiting the tracking current flowing between the plug blade inserted into the plug blade insertion port and the detection electrode when a tracking phenomenon occurs. And
When the current limiting resistor is not provided, the main current breaker does not perform the interrupting operation when the main current breaker does not perform the interrupting operation. The outlet device is characterized in that the branch breaker composed of an earth leakage breaker having a non-operating current smaller than that of the main circuit breaker is limited to a size for performing a breaking operation . An outlet device connected to an AC power source through a leakage breaker of a distribution board,
A casing in which a pair of plug blade insertion holes into which a pair of plug blades of the plug are respectively inserted is formed on a surface facing the plug, and a plug accommodated in the casing in a form corresponding to each of the pair of plug blade insertion ports. A pair of blade receiving portions to which a blade inserted into the blade insertion port is contact-connected, a detection electrode for tracking detection provided at a position between the pair of blade insertion ports on the opposite surface, and the detection electrode A grounding means for grounding,
Between the detection electrode and the grounding means, there is inserted a current limiting resistor for limiting the tracking current flowing between the plug blade inserted into the plug blade insertion port and the detection electrode when a tracking phenomenon occurs. And
The limit diverted resistor section includes features and to Turkey outlet device that consists of a variable resistor. A notification unit for performing a notification operation of notifying that a tracking phenomenon has occurred when the tracking current is equal to or greater than a predetermined threshold;
The outlet device according to claim 1 or 2 , wherein the predetermined threshold is set to be less than the magnitude of the non-operating current of the earth leakage breaker . When the tracking current exceeds a predetermined threshold value, a notification operation for notifying that a tracking phenomenon has occurred , and a cutoff for electrically disconnecting between each of the pair of blade receiving portions and the earth leakage breaker An operation unit that performs at least one of the operations,
The outlet device according to claim 1 or 2 , wherein the predetermined threshold is set to be less than the magnitude of the non-operating current of the earth leakage breaker. An outlet device connected to an AC power source through a leakage breaker of a distribution board,
A casing in which a pair of plug blade insertion holes into which a pair of plug blades of the plug are respectively inserted is formed on a surface facing the plug, and a plug accommodated in the casing in a form corresponding to each of the pair of plug blade insertion ports. A pair of blade receiving portions to which a blade inserted into the blade insertion port is contact-connected, a detection electrode for tracking detection provided at a position between the pair of blade insertion ports on the opposite surface, and the detection electrode A grounding means for grounding,
Between the detection electrode and the grounding means, there is inserted a current limiting resistor for limiting the tracking current flowing between the plug blade inserted into the plug blade insertion port and the detection electrode when a tracking phenomenon occurs. And
When the tracking current exceeds a predetermined threshold value, a notification operation for notifying that a tracking phenomenon has occurred, and a cutoff for electrically disconnecting between each of the pair of blade receiving portions and the earth leakage breaker An operation unit that performs at least one of the operations,
The predetermined threshold is set to be less than the magnitude of the inoperative current of the earth leakage breaker ,
The predetermined threshold has a plurality of thresholds including at least a notification threshold used for determining whether to perform the notification operation and a blocking threshold used for determining whether to perform the blocking operation. the blocking threshold characteristics and to Turkey outlet device that is greater than the notification threshold. An outlet device connected to an AC power source through a leakage breaker of a distribution board,
A casing in which a pair of plug blade insertion holes into which a pair of plug blades of the plug are respectively inserted is formed on a surface facing the plug, and a plug accommodated in the casing in a form corresponding to each of the pair of plug blade insertion ports. A pair of blade receiving portions to which a blade inserted into the blade insertion port is contact-connected, a detection electrode for tracking detection provided at a position between the pair of blade insertion ports on the opposite surface, and the detection electrode A grounding means for grounding,
Between the detection electrode and the grounding means, there is inserted a current limiting resistor for limiting the tracking current flowing between the plug blade inserted into the plug blade insertion port and the detection electrode when a tracking phenomenon occurs. And
A pair of energization paths between each of the pair of blade receivers and the earth leakage breaker is composed of a zero-phase current transformer that is inserted into the core, and an earth leakage detection unit that detects an earth leakage current in the pair of energization paths; A leakage breaker that electrically cuts off each of the pair of energization paths when the detected current value obtained from the detection output of the leakage detector exceeds the inoperative current,
The earth leakage breaker is set so that the non-operating current is smaller than the non-operating current of the above earth leakage breaker,
In the core, said sensing electrode and said grounding means and that feature and to Turkey outlet device for grounding wires for electrically connecting is wound a.

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