KR200489835Y1 - Current Transformer Having Leakage Current Indicator - Google Patents

Abstract

The leakage current display current transformer 1 according to the present invention includes a through hole 11 through which distribution wires 3 pass, and a housing 10 having a hollow inside; An annular first core 20 installed in the housing 10 and through which distribution wires 3 pass through an internal passage 21; Three or four first coils 30 which are separately wound on the first core 20 at different winding times in response to the operating leakage current set to different sizes to be detected and detect leakage currents of different sizes. )field; When installed in the housing 10, connected to each of the first coil 30 or to each of the first coil 30, when a leakage current greater than the operating leakage current set in the first coil 30 flows; One, three or four indicators 40 that light up; And a switching switch 50 installed in the housing 10 and capable of switching the connection such that only one first coil 30 of the three or four first coils 30 is electrically connected to the indicator light 40. ); It includes.

Description

Current Transformer Having Leakage Current Indicator

The present invention relates to a current transformer, and more particularly, to a leakage current display current transformer which is installed on a power distribution line such as a switchgear and visually displays the leakage current so as to easily check.

Switchgear panels are installed in various structures that use electricity for the purpose of safe supply and demand of electric power, and a zero-phase current transformer (ZCT) is installed in the distribution line (distribution cable or busbar) of the switchgear. The load side detects whether there is a leakage current.

As is widely known, an image current transformer is a configuration in which a coil is wound around an annular core, which is installed so that distribution wires of all phases pass through the core, and connects an earth leakage alarm and / or an earth leakage breaker to a terminal of the coil. The ground fault alarm and / or the ground fault breaker are operated by the leakage current detected by the current transformer, thereby preventing an electrical accident due to the leakage current and repairing the leaked part.

In the normal case of no leakage current, the magnetic fluxes generated by the video current transformer cancel each other, so that no current is induced in the coil.However, when leakage current occurs due to aging or short circuit of the load side, the magnetic flux changes in response to the leakage current. Induction current is generated in the coil wound, and the earth leakage alarm and the earth leakage breaker operate by the induced current.

Prior arts related to leakage current detection and warning include the leakage current detection device and method of Korean Patent No. 10-1595658, the leakage current detection device of Korean Patent No. 10-0596357, and the leakage current of Korean Patent No. 10-0861766. Band-type video current transformer with built-in alarm function.

As a ground fault alarm for a typical leakage current on the market, there is a digital ground fault alarm (manufactured by DISIS Co., Ltd.) of FIG.

The conventional ground fault alarm of FIG. 6 is a device capable of detecting leakage of a plurality of lines, and is set by selecting a value of nominal operating current to be measured by using a changeover switch as 0.2 A, 0.5 A and 1.0 A. It has a built-in configuration that includes a light indicating a leak and a buzzer outputting a leak warning sound. The conventional ground fault alarm of FIG. 6 is installed separately from the video current transformer, and is electrically connected to the coil terminal of the video current transformer, and the leakage current measurement error rate is approximately 25%. Range, 0.5 A, approximately 375 mA-625 mA; 1.0 A, approximately 750 mA-1250 mA; detects leakage current and alarms the LED on and buzzer.

However, commercially available digital ground fault alarms as shown in FIG. 6 are often inconvenient for frequent ground fault alarm operation in actual use, and are often switched off by setting the changeover switch to the highest value (for example, 1.0A). However, there is a problem that expensive earth leakage alarms are not used efficiently.

An object of the present invention is to solve the problems related to the conventional ground fault alarm for detecting the leakage current as described above, and does not separately install an expensive ground fault alarm device, and detects the current leakage to the current transformer itself. By providing an indicator, it is possible to reduce the purchase cost of an expensive earth leakage alarm device, and to provide a current transformer capable of visually confirming the leakage current accurately and conveniently with respect to the leakage current of a plurality of sections.

According to the present invention, a leakage current indicating current transformer is provided.

The leakage current display current transformer according to the present invention includes a housing, a first core, three or four first coils, one, three or four indicator lights, and a changeover switch.

The housing has a through hole through which the electric wires for distribution are formed, and the inside thereof is hollow.

The first core is installed in the housing, is formed in an annular shape, and electric power distribution lines are passed through an internal passage.

The first coils are separately wound on the first core at different winding times in response to operating leakage currents set to different magnitudes to be detected, and detect leakage currents having different magnitudes, respectively.

The indicator lamp is installed in the housing and connected to each of the first coils or separately to each of the first coils, and lights up when a leakage current greater than an operating leakage current set in the first coil flows.

The changeover switch may be installed in the housing and change the connection such that only one first coil of the three or four first coils is electrically connected to the indicator light.

The first coil may be configured of three or four having three or four operating leakage currents among 0.2A, 0.5A, 1.0A, and 10A, wherein the indicator is separately provided to each of the first coils. Can be installed.

In the housing, a second current coil is wound around an annular second core through which each of the power distribution wires passes through an internal passage, and a current transformer for measuring instrument having an outlet terminal electrically connected to the second coil is provided together. Can be.

Leakage current display current transformer according to the present invention, while winding the plurality of the first coil to the first core for detecting a leakage current of a different size by varying the number of turns, while the operation of the switch Since only one of the first coils selected from among the first coils can be selectively connected to the indicators, the user can sequentially switch the changeover switches to check which indicators are lit at which switching position, thereby preventing leakage current. There is an effect that can visually check the presence and the size more precisely.

Leakage current display current transformer according to the present invention, without installing an expensive earth leakage alarm separately, while winding a plurality of the first coil to the first core, while electrically connecting the indicator to the first coil By simply and inexpensively installing the changeover switch between the first coil and the indicator, there is an effect that the presence and magnitude of the leakage current can be visually checked in the current transformer.

The leakage current display current transformer according to the present invention has an effect of reducing the cost of manufacturing and installing the current transformer and simplifying the switchgear by installing the instrument current transformer in the housing.

1 is a schematic perspective view of a state of use of an exemplary leakage current display current transformer according to the present invention;
2 is a schematic exploded perspective view of an exemplary leakage current display current transformer according to the present invention;
3 is a schematic cross-sectional view of an exemplary leakage current indicating current transformer according to the present invention.
4 and 5 are exemplary circuit diagrams of a leakage current indicating current transformer according to the present invention.
6 is a perspective view of an exemplary conventional ground fault alarm.

Hereinafter, a leakage current display current transformer according to the present invention will be described with reference to the accompanying drawings. The following specific examples are merely illustrative of the present invention and do not limit the scope of the present invention.

The leakage current display current transformer 1 according to the present invention is installed in the distribution line 3 connected to, for example, a circuit breaker 2 in a switchgear, like a normal (video) current transformer, and is provided in a single-phase two-wire type and a three-phase four. Applicable to the wire type and the like, the specific example shown in Figs. 1 to 3 shows an example in which a three-phase four-wire of 'RSTN' is applied to the power distribution wire 3 used as the power distribution wire 3. It is.

Current transformer 1 according to the present invention, the housing 10, the first core 20, three or four first coil 30, one, three or four indicator light 40 and the changeover switch And 50.

The housing 10 is a case member in which a through hole 11 through which an electric wire 3 for distribution is passed is hollow and is widely applied to a conventional current transformer. It can be formed of synthetic resin.

The housing 10 of the illustrated embodiment illustrates a substantially rectangular parallelepiped shape that independently forms four through holes 11 through which four power distribution lines 3 of 'RSTN' are passed. Various modifications are possible, such as forming an annular shape or forming the through hole 11 as a single through hole.

The first core 20 is a conventional current transformer core formed by stacking a conductor such as an annular thin silicon steel sheet, and nanocores may be used.

The first core 20 is formed in a shape corresponding to the shape of the housing 10 and installed in the housing. According to the illustrated embodiment, the first core 20 having a rectangular shape in which a passage 21 through which the electric wires 3 for power distribution 3 are passed transversely is formed to correspond to the shape of the housing 10 of the rectangular parallelepiped. It is shown.

The first coil 30 is a normal coil made of a coated wire having a fine diameter and wound around the first core 20.

According to a feature of the present invention, not only one first coil 30 is wound around the first core 20, but a plurality of coils wound at different times in response to different operating leakage currents of different magnitudes to be detected. This applies.

When the current transformer 1 of the present invention intends to detect leakage current of three stages of 0.2 A, 0.5 A, and 1.0 A, for example, three first coils 30 may be applied. In order to further detect leakage current, four first coils 30 may be applied.

Although winding two or five first coils 30 to detect leakage current in two or five stages is not excluded, three or four stages may be applied by applying three or four first coils 30. It is preferable from a practical point of view to be able to detect a leakage current of.

1 to 5 exemplarily illustrate a case in which leakage currents of 0.2 A, 0.5 A and 1.0 A can be detected by applying three first coils 30.

In the illustrated embodiment, for example, the first coil 30a for detecting a leakage current of 0.2 A winds 12,500 times, and the first coil 30b for detecting a leakage current of 0.5 A winds 5,000 times, for example, 1.0. The first coil 30c for detecting the leakage current of A is wound 2,500 times, so that each of the first coils 30 can detect leakage currents of 0.2 A, 0.5 A, and 1.0 A, which are different sizes. have.

According to the current transformer 1 of the present invention to which the three first coils 30 are applied as described above, when the leakage current measurement error rate is approximately 25%, the first coil 30a of 0.2A is about 150 mA to 250 mA range. The first coil 30b of 0.5 A can detect a leakage current for the range of approximately 375 mA to 625 mA, and the first coil 30 c of 1.0 A for a range of approximately 750 mA to 1250 mA, respectively.

The electrical characteristics of the first core 20 and the first coils 30 wound thereon may include a desired current flow such as the magnitude of the operating leakage current to be detected, the material of the first core, the diameter and the number of windings of the first coil, and the like. According to a ratio, it can set suitably by applying a well-known technique.

The indicator light 40 is a lamp that is turned on by a current induced in the first coil 30 by a leakage current, and is exposed to an exposed portion (eg, an upper surface) of the housing 10 so that a user can visually check the light. It can be installed, for example LEDs (eg rated voltage and current 5V / 10mA) can be applied.

As shown in the circuit diagram exemplarily shown in FIG. 4, the indicator light 40 may be separately connected for every three or four first coils 30, and as shown in the circuit diagram exemplarily shown in FIG. One indicator 40 may be connected to one coil 30 in common. When the indicator 40 is connected to each of the first coils separately, the color of the indicator may be changed so that the magnitude of the leakage current may also be identified by the color of the indicator 40.

In the changeover switch 50, only one of the first coils 30 selected from the three or four first coils 30 is electrically connected to the indicator light 40, and the remaining first coils are displayed. As a switch that can be operated so that the back 40 is not connected, the switch 40 may be installed at an exposed portion (eg, an upper surface) of the housing 10 so that the user may easily operate the lamp 40.

For example, in the current transformer 1 according to the present invention configured to detect three leakage currents of 0.2 A, 0.5 A, and 1.0 A by applying three first coils 30, the leakage occurring at the current load side. Assuming that the current is within a tolerance range of 0.2 A, when the indicator 40 is connected only to the first coil 30c of 1.0 A by the changeover switch 50, the indicator 40 normally operates. It will not turn on, so the user can see that the current leakage current is lower than 1.0A.

In this state, when the user operates the changeover switch 50 so that the indicator light 40 is connected only to the first coil 30b of 0.5A, the indicator light 40 does not normally turn on. It can be confirmed that the current leakage current is lower than 0.5A.

In this state, when the user operates the changeover switch 50 so that the indicator 40 is connected only to the first coil 30a of 0.2 A, the indicator 40 is normally turned on, thereby allowing the user to turn on. It can be confirmed that the current leakage current occurs within the tolerance range of 0.2A, and the user can take necessary measures for the leakage current.

At this time, even when the changeover switch 50 is set to 0.2A, when the indicator 40 does not turn on normally, it can be seen that the leakage current generated at the load side is less than or equal to the tolerance range of 0.2A. .

As another example, when it is assumed that the leakage current occurring on the current load side is within a tolerance range of 1.0 A, the changeover switch 50 causes the indicator 40 only to the first coil 30a of 0.2 A. ) Is connected, the indicator 40 lights up normally, so the user can confirm that the current leakage current is at least about 0.2A.

In this state, when the user operates the changeover switch 50 so that the indicator 40 is connected only to the first coil 30b of 0.5A, the indicator 40 is normally turned on, so that the user may It can be confirmed that the current is at least about 0.5A.

In this state, when the user operates the changeover switch 50 so that the indicator 40 is connected only to the first coil 30c of 1.0A, the indicator 40 is normally turned on, so that the user may It can be confirmed that the current is at least 1.0A or more, and then the user can take necessary measures for the leakage current.

4 and 5 are exemplary circuit diagrams of a current transformer according to the present invention to which a zener diode 61, a variable resistor 62, and a capacitor 63 are applied. If it is assumed that the leakage current generated on the load side is within a tolerance range of 1.0 A, when the indicator 40 is connected to the first coil 30a of 0.2 A by the changeover switch 50, , The indicator 40 lights up normally, but excessive current flows to the indicator, which may shorten or damage the service life. Thus, a protection circuit such as the zener diode 61 is applied to the switch circuit of the present invention to the indicator 40. You can also avoid excessive voltage.

On the other hand, a high rated current value (for example, 100 A, 200 A, 500 A, 1000 A) flows through a power distribution line of a switchgear. When a current of such a distribution line is to be measured by an instrument, a high current is usually measured as it is. Instrument current transformer is used so that the current can be measured by measuring the current at a low current (for example, 5 A). In the housing 10 of the current transformer 1 according to the present invention, the instrument current transformer 70 is also installed. It is also possible to provide an image current transformer that also serves as a current transformer.

In the current transformer 1 of the present invention shown in FIGS. 1 to 3, a total of three instrument current transformers 70 for applying to R, S, and T phase distribution wires 3 are respectively provided in the housing 10. Is an example installed on.

That is, the instrument current transformer 70 is provided in the position corresponding to the electric wire 3 for R phase, S phase, and T phase, respectively, and the internal passage of the 2nd core 71 of each instrument current transformer 70 ( A corresponding power distribution line 3 passes through 71a), and a second coil 72 is wound around each second core 71, and a lead terminal (2) for connecting a meter to the second coil 72 is connected. 73 is electrically connected.

The leakage current display current transformer 1 according to the present invention described above winds a plurality of the first coils 30, 30a, 30b, and 30c for detecting leakage currents of different magnitudes in the first core 20. By winding the number of times separately and varying the number of times, and by allowing only one first coil 30 selected by the changeover switch 50 to be selectively connected to the indicator light 40, the user sequentially switches the changeover switch 50. By looking at which switching position the indicator lights up normally, the presence and magnitude of the leakage current can be visually checked precisely for each section. Thus, the current transformer 1 of the present invention is connected to the first core 20. The plurality of first coils 30 are wound and the indicator 40 is electrically connected to the first coil 30, while the changeover switch 50 is provided between the first coil 30 and the indicator 40. Simple and inexpensive configuration to install Since the size of radish can be directly checked visually from the current transformer, it is possible to reduce the cost burden on installing an expensive leakage detectors separately.

In addition, the leakage current display current transformer 1 according to the present invention, by installing the current transformer 70 for the instrument in one housing 10, it is possible to reduce the manufacturing and installation costs of the current transformer, it is possible to simplify the switchgear have.

Reference numeral 12, which is not described in the illustrated embodiment, is a cover of the housing 10, reference numeral 13 is a fixing screw for fixing the housing 10 to the wiring wires 3, and reference numeral 64 denotes an indicator light (40). ) And a circuit for the switching switch 60.

1: current transformer 2: breaker of the present invention
3: wire for distribution 10: housing
11: through hole 12: cover
13: set screw 20: 1st core
21: passage 30: 30a, 30b, 30c: first coil
40: indicator (e.g. LED) 50: changeover switch
61: zener diode 62: variable resistor
63: capacitor 64: circuit board
70: current transformer 71: second core
71a: passage 72: second coil
73: withdrawal terminal

Claims (3)

A through hole 11 through which the electric wires 3 for distribution are formed, the housing 10 having a hollow inside;
An annular first core 20 installed in the housing 10 and through which distribution wires 3 pass through an internal passage 21;
Three or four first coils each separately wound on the first core 20 at different winding times in response to an operating leakage current set to different magnitudes to be detected, and detecting leakage currents having different magnitudes ( 30);
Installed in the housing 10 and connected to the entirety of the first coils 30 or to each of the first coils 30, respectively, and having a leakage greater than an operating leakage current set in the first coil 30; One, three or four indicators 40 which light up when current flows; And
A switch installed in the housing 10 and capable of switching the connection such that only one first coil 30 of the three or four first coils 30 is electrically connected to the indicator light 40 Switch 50;
Leakage current display current transformer, comprising a. The method of claim 1,
The first coil 30 is composed of three or four having three or four operating leakage currents among 0.2A, 0.5A, 1.0A, and 10A, and the indicator light 40 includes the first coil ( A leakage current display current transformer, characterized in that a separate installation in each of the 30). The method according to claim 1 or 2,
In the housing 10, a second coil 72 is wound around an annular second core 71 through which each of the power distribution wires 3 passes through an internal passage 71a. A leakage current display current transformer, characterized in that a current transformer 70 for instrument with which the drawing terminal 73 is electrically connected to the 72 is provided together.

Images